GB1588788A

GB1588788A – Liquid sprayer usable in both erect and inverted positions
– Google Patents

GB1588788A – Liquid sprayer usable in both erect and inverted positions
– Google Patents
Liquid sprayer usable in both erect and inverted positions

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Publication number
GB1588788A

GB1588788A
GB18480/78A
GB1848078A
GB1588788A
GB 1588788 A
GB1588788 A
GB 1588788A
GB 18480/78 A
GB18480/78 A
GB 18480/78A
GB 1848078 A
GB1848078 A
GB 1848078A
GB 1588788 A
GB1588788 A
GB 1588788A
Authority
GB
United Kingdom
Prior art keywords
liquid
valve
cylinder
pressure chamber
hole
Prior art date
1977-05-12
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Expired

Application number
GB18480/78A
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Yoshino Kogyosho Co Ltd

Original Assignee
Yoshino Kogyosho Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1977-05-12
Filing date
1978-05-09
Publication date
1981-04-29

1977-05-18
Priority claimed from JP52057448A
external-priority
patent/JPS6032502B2/en

1977-06-06
Priority claimed from JP7418877U
external-priority
patent/JPS5723020Y2/ja

1977-08-20
Priority claimed from JP11163877U
external-priority
patent/JPS61897Y2/ja

1978-05-09
Application filed by Yoshino Kogyosho Co Ltd
filed
Critical
Yoshino Kogyosho Co Ltd

1981-04-29
Publication of GB1588788A
publication
Critical
patent/GB1588788A/en

Status
Expired
legal-status
Critical
Current

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Classifications

B—PERFORMING OPERATIONS; TRANSPORTING

B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL

B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES

B05B11/00—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use

B05B11/0005—Components or details

B05B11/0059—Components or details allowing operation in any orientation, e.g. for discharge in inverted position

B—PERFORMING OPERATIONS; TRANSPORTING

B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL

B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES

B05B11/00—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use

B05B11/01—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use characterised by the means producing the flow

B05B11/10—Pump arrangements for transferring the contents from the container to a pump chamber by a sucking effect and forcing the contents out through the dispensing nozzle

B05B11/1001—Piston pumps

B05B11/1016—Piston pumps the outlet valve having a valve seat located downstream a movable valve element controlled by a pressure actuated controlling element

B—PERFORMING OPERATIONS; TRANSPORTING

B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL

B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES

B05B11/00—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use

B05B11/01—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use characterised by the means producing the flow

B05B11/10—Pump arrangements for transferring the contents from the container to a pump chamber by a sucking effect and forcing the contents out through the dispensing nozzle

B05B11/1001—Piston pumps

B05B11/1016—Piston pumps the outlet valve having a valve seat located downstream a movable valve element controlled by a pressure actuated controlling element

B05B11/1019—Piston pumps the outlet valve having a valve seat located downstream a movable valve element controlled by a pressure actuated controlling element the inlet valve moving concurrently with the controlling element during whole pressure and aspiration strokes, e.g. a cage for an inlet valve ball being part of the controlling element

Description

PATENT SPECIFICATION
( 11) ( 21) Application No 18480/78 ( 22) Filed 9 May 1978 ( 19) ( 31) Convention Application Nos 52/060424 U ( 32) Filed 12 May 1977 52/057 448 18 May 1977 52/074 188 U 6 June 1977 52/111 638 U 20 Aug 1977 in ( 33) Japan (JP) ( 44) Complete Specification published 29 April 1 981 ( 51) INT CL 3 F 04 B 19/04 21/02 9/14 ( 52) Index at acceptance F 1 W 100 216 CX ( 54) LIQUID SPRAYER USABLE IN BOTH ERECT AND INVERTED POSITIONS ( 71) We, YOSHI No KOGYOSHO Co, LTD, a Japanese Body Corporate of 3-2-6, Ojima, Koto-Ku, Tokyo, Japan, do hereby declare the invention, for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the
following statement:
This invention relates to a liquid sprayer usable in either erect or inverted positions and to a pump mechanism therefor.
There is known a sprayer device in which two suction pipes, one extending to a bottom portion and the other to an upper neck portion of the liquid container, are provided at a liquid inlet port of a liquid pressurizing means, so as to permit normal use of the sprayer in either an erect or an inverted position or state In such a device, however, the internal capacity of the liquid container is lessened owing to the presence of the upwardly extending suction pipe The process of producing of such device involves many difficulties as consideration must be given to the spatial arrangement of said suction pipes It is also necessary to enlarge the neck portion of the liquid container for inserting the spraying means and to enable connection of the two suction pipes.
The Applicants have already mnanufactured by way of trial a liquid sprayer which can be used in both erect and inverted states in which no upwardly extending suction pipe is provided In this trial device, a liquid suction hole is provided at an upper part of the cylinder of the pressing means for allowing inflow of the liquid when the sprayer is brought to an inverted position, and a check valve is provided between the pressing means and the suction pipe extending to the bottom of the liquid container.
This check valve is required to have the double functions of inhibiting suction of the liquid and inflow of air when the sprayer is either in the erect state or in the inverted state For providing such functions to the check valve, it is necessary to design and manufacture such valve with high precision by taking into consideration the weight of the valve body, the distance between the valve hole and valve body, and other factors Even so, the check valve thus fabricated has a tendency to fail to perform its proper functions when the sprayer is at a certain angular position or when pressure application is insufficient For instance, if the valve body weight is too small, the valve hole might be closed by the valve body under the force of the influent liquid when the liquid is sucked in use of the sprayer in the erect state, resulting in insufficient suction of the liquid On the other hand, if the valve body weight is too large, said valve body might fail to rise up when pressure is applied in use of the sprayer in the inverted state, and in such a case, the valve hole is not properly closed to cause insufficient build up of pressure in the pressure chamber.
Primary objects of this invention are to utilize more fully the internal capacity of the liquid container of a sprayer, to decrease the number of component parts required, and to simplify the production process by rendering unnecessary the separate provision of a suction pipe for sucking in liquid when the sprayer is used in an inverted position.
Another object of this invention is to enable installation of check valves in the cylinder of the pressure chamber by providing a suction hole in said cylinder instead of providing a suction pipe for inverted use of the sprayer.
Still another object of this invention is to effectuate perfect inhibition of suction of the liquid and inflow of air by means of two check valves when the sprayer is used in either erect or inverted state.
According to the present invention, there is provided a liquid sprayer usable in both erect and inverted positions and comprising a liquid container, and a pump having a pressure chamber defined by an upright cylinder and a piston therein; a first check valve provided in a passage connecting a Co Itt M Co 1588 788 4 v SO 1,588,788 lower part of said pressure chamber with said liquid container, the check valve adapted to allow liquid to flow into but not out of said pressure chamber; biassing means biassing the piston to draw liquid from said liquid container into said pressure chamber; a nozzle outlet hole for liquid pressurized in said pressure chamber; a liquid suction hole in the cylinder wall at a location slightly below the position of the piston in the cylinder at which the capacity of the pressure chamber is at a maximum, said suction hole being adapted to allow liquid in a said container to flow into the pressure chamber through an uppermost neck portion of said container when the sprayer is in its inverted position; a skirt member provided upon a holding member, which is fixed to and arranged above the piston, the skirt member preventing liquid leakage from said suction hole to an area above the cylinder when the sprayer is in its inverted position; and a second check valve in series with the first check valve, situated in the passage between the pressure chamber and said liquid container and arranged to operate in countercurrent relation to the first check valve.
It is also envisaged in this invention to allow easy incorporation in a sprayer of a pump mechanism having two check valves and a liquid suction hole, adapted to allow inflow of the liquid when the sprayer is brought to its inverted use position.
Embodiments of the sprayer of this invention will now be described, by way of example only, by reference to the accompanying drawings, in which:
Fig 1 is a general side view, with parts cut away, of a sprayer assembly usable in both erect and inverted positions according to a first embodiment of this invention; Fig 2 is a sectional view of the principal parts of the sprayer of Fig 1; Fig 3 is a sectional view similar to Fig 2 but showing the sprayer in its inverted position; Fig 4 A is a sectional view showing a modification of a second check valve in the first embodiment of this invention; Figs 4 B and 4 C are sectional views showing modifications of a first check valve in the first embodiment of this invention; Fig 5 is a sectional view of the principal parts of a sprayer according to a second embodiment of this invention; Fig 6 is a sectional view of the principal parts of a sprayer according to a third embodiment of this invention; Figs 7 A and 7 B are sectional views showing modifications of a second check valve in the third embodiment of this invention; Fig 7 C is a sectional view showing a modification of a first check valve in the third embodiment of this invention; and Fig 8 is a sectional view of the principal parts of a pump mechanism according to the present invention.
A first embodiment of a device of this invention will now be described with reference to Figs 1, 2, 3 and 4 A, 4 B and 4 C of the 70 accompanying drawings.
An embodiment of a sprayer assembly usable in both erect and inverted states comprises a liquid container 1, a pump mechanism 3 inserted into said liquid container 75 through its neck portion 2, and a spray head having a nozzle hole 4 and mounted above said pump mechanism 3 The lower portion of a cylindrical holder 6 is threadedly engaged around the neck portion 2 of the 80 liquid container 1 Said cylindrical holder 6 is provided with a flange 7 that extends inwardly toward the centre of the sprayer body, and an inner cylindrical member 8 is formed extending upwardly from the inner 85 periphery of said flange 7 Said inner cylindrical member 8 is so designed that a largediameter cylinder (to be described later) may slide along the interior surface of said cylindrical member 8 At the middle part 90 of the interior surface of said cylindrical member 8 is provided a stepped portion or protuberance 9 for limiting the upward movement of said large-diameter cylinder.
Provided in the pump mechanism 3 is a 95 small-diameter cylinder 10 having a flange a (Fig 2) at its top opening, said flange a resting on the top end of the neck portion 2 through a packing 20 These members are held by the flange 7 of the cylind 100 rical holder 6 to secure the small-diameter cylinder 10 in the neck portion 2 of the liquid container 1 In an inlet opening 11 (Figs 2, 3) at the lower end of the smalldiameter cylinder 10 is provided a suction 105 pipe 12 which extends to the bottom of the liquid container 1 Disposed in the smalldiameter cylinder 10 is a small-diameter piston 13 (Fig 2) which is held in position by an upwardly extending tubular holding 110 member 14, and a large-diameter piston 15 provided at the upper end of said holding member 14 The large-diameter piston 15 is slidably fitted in the large-diameter cylinder 16 that can slide in the inner cylindrical 115 member 8 Provided within each of said holding member 14, small-diameter piston 13 and large-diameter piston 15 is a tubular passage 17 which connects a lower part of the small-diameter cylinder 10 to an upper 120 part of the large-diameter cylinder 16 Said small-diameter cylinder 10, tubular passage 17 and large-diameter cylinder 16 together define a pressure chamber 18 A valve body 19 is arranged in the upper part of the tubu 125 lar passage 17 such that a valve hole 21 formed in the top wall of the large-diameter cylinder 16 will be opened and closed by said valve body 19 The valve hole 21 is in communication with the nozzle hole 4 in the 130 1,588,788 spray head 5 through a tube 22, and the discharge of the pressurized liquid in the pressure chamber 18 is controlled by a discharge valve V (Fig 2) constituted by said valve body 19 and valve hole 21.
Interposed between the small-diameter piston 13 and the small-diameter cylinder 10 is a coil spring 23 adapted to upwardly bias the small-diameter piston 13, the holding member 14 and the large-diameter piston The upper end of said coil spring 23 abuts against a stepped portion 24 of the small diameter piston 13 while the lower end of said coil spring abuts against the proximal end of an insert bar 25 provided in the lower part of the small-diameter cylinder 10 Said insert bar 25 is adapted to increase the pressurizing efficiency in the pressure chamber 18, and the lower part of said bar is in water-tight contact with the inner wall of the small-diameter cylinder 10.
As shown in Fig 2, the holding member 14 is constituted from two vertically arranged members and the valve body 19 is secured to the holding member 14, so that the spray head 5 and the large-diameter and smalldiameter pistons 15 and 13 can move integrally with each other through the contact relation of said valve body 19 and valve hole 21 When pressure builds up in the pressure chamber 18, both large-diameter and small-diameter pistons 15 and 13 are forced to move separately from the spray head 5 by the depressing force produced owing to the difference in area between the large-diameter piston 15 and the smalldiameter piston 13, and such movement causes the valve body 19 to separate from the valve hole 21 to open it.
Disposed above the bottom inlet opening 11 of the small-diameter cylinder 10 is a first check valve 26 adapted to admit the liquid into the small-diameter cylinder 10 alone.
This first check valve 26 consists of a valve seat 28 having a valve hole 27 communicating with the liquid container 1, a ball valve 29 and a valve chamber 30 At a location upward of said first check valve 26, that is, immediately beneath the insert bar 25, is provided a second check valve 31 which allows passage of the liquid into the liquid container 1 but inhibits inflow of the air into the pressure chamber 18 when the sprayer is in its inverted position This second check valve consists of a valve seat 33 having a valve hole 32 connecting with the pressure chamber 18, a ball valve 35 in the valve chamber 34 and a ball valve support member 36 The ball valve 35 used in the second check valve 31 is provided with a certain weight or a certain space 40 is formed between the ball valve 35 and the support member 36 or the inner wall of the valve chamber 34 so that when the liquid is sucked in the erect state of the sprayer, the liquid which has passed the valve hole 32 will flow into the pressure chamber 18 through a passage 37 in the insert bar 25 with no possibility that the valve hole 32 in the valve seat 33 be closed by the ball 70 valve 35 under the force of the influent liquid or negative pressure.
In order to prevent completely the valve hole 32 in the valve seat 33 from being closed by the ball valve 35 in the second 75 check valve 31 when the liquid is sucked in the erect state of the sprayer, said support member 36 may be constituted to form a saucer-like portion 36 a as shown in Fig.
4 A In this case, a liquid passage 39 is pro 80 vided between the small-diameter cylinder and the side wall of the valve case 38 which forms the valve chamber 34 by removing several sections of the side wall of the valve case 38 According to this ar 85 rangement, the liquid sucked into the smalldiameter cylinder 10 by raising the ball valve 29 of the first check valve 26 impinges against the side wall of the saucer-like portion 36 a and smoothly flows into the valve 90 chamber 34 through the passage 39 without forcing any improper movement, of the ball valve 35, thus perfectly preventing unexpected closure of the valve hole 32 by the ball valve 35 95 In case said insert bar 25 is not provided in the pressure chamber 18, the second check valve is disposed below the smalldiameter cylinder 10 and the coil spring 23 bears thereagainst 100 At a central part of the small-diameter cylinder 10 is provided a suction hole 41 for sucking the liquid into the pressure chamber 18 from the liquid container 1 through its neck portion 2 when the sprayer 105 is in its inverted position The position of said suction hole 41 is selected such that it will be located slightly below the bottom of the small-diameter piston 13 when the sprayer is in its erect position, that is, when 110 the capacity of the pressure chamber 18 is at its maximum, so that the liquid is sucked into the pressure chamber 18 in a negative pressure condition when the small-diameter piston 13 returns by passing through the 115 suction hole 41 when the sprayer is brought to its inverted position A skirt member 42 is provided on the holding member 14 of the large-diameter and small-diameter pistons 15, 13 to prevent leakage of the 120 liquid which flows out of the pressure chamber 18 from the suction hole 41 when the sprayer is inverted The position of the skirt member 42 is mounted to the holding member 14 is selected such that it will be located 125 slightly upwardly of the suction hole 41 when the pressure chamber 18 of the erected sprayer is at its minimum capacity Also provided at an upper part of the smalldiameter cylinder 10 is a small hole 43 which 130 1,588,788 permits passage of air but not the liquid, thereby to prevent build up of negative pressure in the liquid container 1.
It is desirable to make arrangements such that the skirt member 42 will be positioned slightly upwardly of the small hole 43 when the pressure chamber 18 is at its maximum capacity, with the sprayer in its erect position.
Now the spraying operation of the abovedescribed sprayer device of this invention will be discussed When the sprayer is in its erect state, as shown in Fig 2, no pressure is built up in the pressure chamber 18 until the suction hole 41 is closed upon the descent of the small-diameter piston 13, as the spray head 5 is depressed against the coil spring 23 When the suction hole 41 is closed, the pressure chamber 18 is pressurized as the first check valve 26 is brought into a closed condition As the pressure in the pressure chamber 18 increases, said two pistons 15, 13 are forced to descend due to the difference between the forces acting upon these two pistons 15, 13, so causing the valve body 19 to move away from the valve hole 21 and thereby open it When the spray head 5 is released, both the large-diameter and the small-diameter pistons 15, 13 are urged to rise up by the force of the coil spring 23 to create a negative pressure in the pressure chamber 18, so that the first check valve 26 is opened to suck up the liquid from the liquid container I into the pressure chamber 18 through said first check valve 26 and second check valve 31 During this operation, the liquid flows in the space between the ball valve 35 and the peripheral wall of the valve chamber 34 in the second check valve 31, or the liquid flows through the passage 39 located sidewise of the saucer-like support member 36, so that the liquid impinges directly against the saucer portion 36 a without causing any improper movement of the ball valve 35, and hence there is no possibility that the valve hole 32 be closed by the ball valve 35.
In use of the sprayer in its inverted state (condition of Fig 3), when the spray head 5 is depressed against the coil spring 23, pressure is built up in the pressure chamber 18 and the valve hole 37 is closed by the ball valve 29 of the first check valve assembly 26 As a result, the pressure in the pressure chamber 18 is further elevated, causing the valve body 19 to move away from the valve hole 21 to open it in the same way as when the sprayer is used in its erect position.
When the spray head 5 is released, both large-diameter and small-diameter pistons 15, 13 are forced back to their original positions by the coil spring 23 As a negative pressure develops consequently in the pressure chamber 18, the ball valve 35 of the second check valve 31 is pressed against the valve seat 33 to close the second check valve 31 This prevents the air from entering the pressure chamber 18 through the suction pipe 12 which is exposed at its end above the liquid surface in the liquid container 1 70 in the inverted state, thus allowing sufficient build-up of the negative pressure When the large-diameter and small-diameter pistons 15, 13 return to their original positions, the small-diameter piston 13 passes over the 75 suction hole 41 while the pressure chamber 18 stays in a negatively pressurized condition, so that the liquid flows into the pressure chamber 18 from the neck portion 2 of the liquid container 1 through the suction hole 80 41.
In the above-described embodiment, the first check valve 26 is constituted by a ball valve 29 and a valve seat 28, but the first check valve may instead be constituted by a 85 small cylindrical member 128 having a valve hole 127 and designed to double as a valve seat at a lower end of the small-diameter cylinder 10, with a ring-shaped rubber valve 129 arranged around said small cylindrical 90 member 128 as shown in Fig 4 B In this case, the liquid is allowed to flow into the small-diameter cylinder 10 alone from the suction pipe 12 against the elastic force of the rubber valve 129 95 Another modification of the first check valve 26 is shown in Fig 4 C In this case, the first check valve 26 is incorporated at a location upward of the second check valve 31 and below the insert bar 25 Provided 100 at a location below the insert bar 25, that is, at the position corresponding to the passage 27, is a valve hole 227 which connects the pressure chamber 18 to the bottom of the small-diameter cylinder 10, and a ring 105 shaped rubber valve 229 adapted to open and close said valve hole 227 is provided on the inser bar 25 The second check valve 31 consists of a valve seat 233 provided at the lower end of the insert bar 25, a ball 110 valve 235 and a saucer-like support member 236 Although a ball valve 35 is used as valve body in this second check valve 31, it is also possible to use a plate valve.
The operations of these first and second 115 check valves are the same as those of the corresponding valves in the first embodiment The first check valve 26 is designed to usually close the valve hole 227 by dint of the elastic force of the rubber valve 229 120 Owing to these two check valves and the liquid suction hole, it is possible to control suction of the liquid and inflow of the air into the pressure chamber no matter whether the sprayer is in its erect position or in its 125 inverted position Also, since there is no need to separately provide a liquid suction pipe for the inverted use of the sprayer, the internal capacity of the container is increased 130 1,588,788 Referring now to Fig 5, there is shown a sprayer usable in both erect and inverted states according to a second embodiment of this invention In this embodiment, the small-diameter cylinder 110 and the largediameter cylinder 116 are joined integrally to each other, and this integral cylinder body is secured to the neck portion 2 of the liquid container 1 The valve body 125 adapted to open and close the valve hole 21 which communicates with the nozzle hole 4 is elongated like a bar, and a tubular liquid passage 114 b is provided around said valve body 125 A small-diameter piston 113 ‘is inserted into said small-diameter cylinder 110, and a large-diameter piston a is provided above said small-diameter piston 113 separated by a holding member 114 a, with the proximal end of said valve body 125 being secured to the top of said large-diameter piston 115 a Another largediameter piston 115 b disposed in opposition to the first-said large-diameter piston 115 a is provided at the lower end of the tubular passage 114 b The pressure chamber 118 is defined by said small-diameter cylinder 110, large-diameter cylinder 116, a passage in the holding member 114 a, small-diameter piston 113, and by the two large-diameter pistons 115 a and 115 b Provided below the small-diameter cylinder 110 are the first check valve 26 and the second check valve 31 Also, a liquid suction hole 41 for sucking in the liquid in the inverted condition of the sprayer is provided such that it will be located slightly below the position where the large-diameter piston 115 b in the largediameter cylinder 116 stays when the pressure chamber 118 is in its maximum capacity condition A skirt 142 is provided on the tubular passage 114 b above the largediameter piston 115 b to prevent liquid leakage when the sprayer is brought to its inverted position The first and second check valves in this second embodiment may be modified in a manner similar to those of the first embodiment.
The operations of the first and second check valves 26, 31 and the suction hole 41 in the above-described second embodiment are the same as those in the first cmbodiment Other spraying operations are also basically the same Thus, when pressure builds up in the pressure chamber 118, the large-diameter piston 115 a descends to open the valve hole 21.
Fig 6 and Figs 7 A and 7 B show a sprayer device according to a third embodiment of this invention In this embodiment, the vertical positional relation of the first and second check valves is reversed as the opening and closing mechanism of the discharge valve V leading to the nozzle hole 4 is changed.
The cylinder 50 secured to the neck portion 2 of the liquid container 1 is formed from an upper large-diameter portion 51 and a lower small-diameter portion 52, and the lower end of the small-diameter portion 52 is in communication with the bottom of 70 the liquid container 1 through the suction pipe 12 A large-diameter piston 53 is inserted into the large-diameter cylinder portion 51 and connected to the spray head 5 through a tubular holding member 54 Pro 75 vided in said large-diameter piston 53 and holding member 54 is a passage 55 which connects to the nozzle hole 4, and a valve seat 56 is formed below said passage 55 A small-diameter piston 57 is inserted into the 80 small-diameter cylinder portion 52, and the first and second check valves 26 and 31 are incorporated in the holding member 54 b of said small-diameter piston 57 Provided above said holding member 54 b is a valve 85 body 58 which abuts against said valve seat 56 Said holding member 54 b is formed from two upper and lower members joined integrally to each other The upwardly positioned first check valve 26 is located within a 90 valve chamber 59 communicating with the large-diameter cylinder portion 51 by means of a communication hole 69, a ball valve 60, and a valve seat 61 having a valve hole closed by said ball valve, while the down 95 wardly positioned check valve 31 is located within a valve chamber 62 communicating with the lower part of the small-diameter cylinder 52, a valve seat 64 having a valve hole 63, a ball valve 65 and a ball valve 100 support member 66 The two check valves 26 and 31 communicate with each other by means of a passage 67 The second check valve 31 is designed to allow formation of a sufficient space 40 between the ball valve 105 and the peripheral wall of the valve chamber 62 or the support member 66 as in the case of the first embodiment In the second check valve 31, the support member 66 may be constructed like a saucer as in 110 the case of Fig 4 A and a liquid passage 39 may be formed sidewise of the ball valve 65 as shown in Fig 7 A It is also possible to incorporate the second check valve 31 integrally in the lower part of the small 115 diameter cylinder portion 52 as shown in Fig 7 B The pressure chamber 68 is defined by said large-diameter cylinder portion 51, small-diameter cylinder portion 52, largediameter piston 53, small-diameter piston 57 120 and first check valve 26 In operation, when the spray head 5 is depressed against the coil spring 23 to build up pressure in the pressure chamber 68, the small-diameter piston 57 descends to let the valve body 58 125 separate from the valve seat 56, allowing feed of the pressurized liquid to the nozzle hole 4 A liquid inlet hole 41 is provided at the central part of the large-diameter cylinder 51 for admitting the liquid into the 130 1,588,788 pressure chamber 68 when the sprayer is brought to its inverted position Said inlet hole 41 is so located that it will be positioned slightly below the large-diameter piston 53 in the large-diameter cylinder portion 51 when the pressure chamber 68 is at its maximum capacity Also, a skirt 42 is provided to the mounting member 54 above the large-diameter piston 53 to prevent liquid leakage when the sprayer is in its inverted condition Other arrangements are the same as in the first embodiment Although the opening operation for the valve hole in the valve seat 56 leading to the nozzle hole is different, the operation for pressurizing the pressure chamber 68 or suckkng the liquid into said chamber 68 by switching over the first and second check valves 26, 31 is the same as in the first embodiment.
A modification of the first check valve 26 in the third embodiment is illustrated in Fig.
7 C In this modification, the liquid passing hole 69 provided in the valve chamber 59 of the first check valve 29 is replaced by a valve hole 169 and a rubber valve 161 is arranged in said valve hole 169 The rubber valve 161 is composed of a flat plate portion 161 a adapted to open or clase the valve hole 169 and a base portion 1611) mounted in the valve hole 169 and is designed to allow flow of the liquid only into the pressure chamber 68 from the second check valve 31 through the space between the valve hole 169 and the base portion 161 b.
The first and second check valve switching operation in this third embodiment is the same as in the first embodiment and ensures perfect inhibition of suction of the liquid and flow of the air into the pressure chamber At an upper part of the large-diameter cylinder portion 51 is provided a small hole 43 for preventing build-up of negative pressure in the liquid container 1 When the spray head is depressed, the oil seal ring O provided between the spray head and holding member 54 is moved away from the wall surface of the spray head and holding member 54 is moved away from the wall surface of the spray head to form a space through which the outer air is sucked in.
Referring now to Fig 8, there is showna pump mechanism usable in a liquid sprayer usable in both erect and in rested positions Although the pump mechanism is here described as adapted for use in a sprayer device of the first embodiment of this invention, it can as well be used in a sprayer having no discharge valve opening and closing means such as employed in the first embodiment This pump mechanism is easy to assemble and allows easy inspection of the check valve.
The pressure chamber 18 is defined by a small-diameter cylinder 10, a small-diameter piston 13, a tubular passage 17 in a tubular holding member 14, a large-diameter piston and a large-diameter cylinder (not shown in Figs 8 A small cylindrical member 70 projects out downwardly from the lower end of 70 said small-diameter cylinder 10, and the valve box 72 of the first check valve 71 is fitted upon said small cylindrical member The first check valve 71 allows liquid to flow into the pressure chamber 18 The 75 valve box 72 is provided with a valve chamber 74 housing a ball valve 73 and a valve seat 75 on which said ball valve 73 rests.
Extending from the bottom end of said valve box 72 is a suction pipe 12 which 80 extendst into the liquid container Housed in the small cylindrical member 70 is the second check valve 76 designed to allow liquid flow into the liquid container Said second check valve 76 is constituted from 85 a valve seat 77 provided at the upper end of said cylindrical member 70, a valve chamber 79 housing a ball valve 78, and a support member 80 for said ball valve 78 Although a space is formed bctwecn the ball 90 valve 78 and the valve chamber 79 for passing the liquid in the shown embodiment, it is also possible to construct the support member 80 like a saucer and form a liquid passage sidewise thereof as in the case of 95 the first embodiment Alternatively, the first check valve 71 may be formed in the small cylindrical member 70 and the second check valve 76 in the valve box 72 Other arrangements, for example the hole 41 for 100 sucking in the liquid when the sprayer is used in an inverted state and the skirt member 42 for preventing liquid leakage, are same as in the first embodiment Where it is required to elevate the pressurizing effi 105 ciency in the pressure chamber 18, an insert bar 81 is secured in position by a coil spring 23 In this case, the lower end of the insert bar 81 is cut out to provide the liquid passages 82 to communicate the pressure cham 110 ber 18 with the valve chamber 79 of the second check valve 76.
This pump mechanism is the same in operation as that of the first embodiment and can perform its functions to build up 115 pressure in the pressure chamber and suck up the liquid into the pressure chamber no matter whether the sprayer is in its erect or inverted state Thus, according to this arrangement, the liquid flow will not be ob 120 structed by the ball valve of the second check valve when the liquid is sucked up in use of the sprayer in its erect position.
Also, this pump mechanism, as compared with that of the first embodiment having the 125 second check valve incorporated in the lower part of the insert bar 25, is easier to manufacture and requires no particularly high accuracy for obtaining water-tightness between the outer periphery of the lower 130 1,588,788 portion of the insert bar 25 and the inner wall of the small-diameter cylinder 10, and it allows smooth flow of the liquid between the second check valve 75 and the pressure chamber 18 Further, since the first check valve 71 can be set in position by merely fitting the valve box 72 upon the small cylindrical member 71, this pump mechanism is easy to assembly and also provides ease of access to the check valves for inspection thereof.

Claims (1)

WHAT WE CLAIM IS: –
1 A liquid sprayer usable in both erect and inverted positions and comprising a liquid container, and a pump mechanism having a pressure chamber defined by an upright cylinder and a piston therein; a first check valve provided in a passage connecting a lower part of said pressure chamber with said liquid container, the check valve adapted to allow liquid to flow into but not out of said pressure chamber; biassing means biassing the piston to draw liquid from said liquid container into said pressure chamber; a nozzle outlet hole for liquid pressurized in said pressure chamber; a liquid suction hole in the cylinder wall at a location slightly below the position of the piston in the cylinder at which the capacity of the pressure chamber is at a maximum, said suction hole being adapted to allow liquid in a said container to flow into the pressure chamber through an uppermost neck portion of said container when the sprayer is in its inverted position; a skirt member provided upon a holding member, which is fixed to and arranged above the piston, the skirt member preventing liquid leakage from said suction hole to an area above the cylinder when the sprayer is in its inverted position; and a second check valve in series with the first check valve, situated in the passage between the pressure chamber and said liquid container and arranged to operate in countercurrent relation to the first check valve.
2 A liquid sprayer according to claim 1, wherein the second check valve comprises a valve seat having a valve hole, a ball valve and a support member for said ball valve, said support member being saucer-shaped and having a flat region arranged perpendicular to the axis of the cylinder, and there is provided a liquid passage between the outer peripheral edge of said support member and the inner wall of the cylinder, said passage leading to the pressure chamber and the first check valve.
3 A liquid sprayer according to claim 1 or 2, wherein a bar for increasing the pressurizing efficiency in the pressure chamber is secured to the bottom of the cylinder and the second check valve is integrally incorporated in a lower part of said bar.
4 A liquid sprayer according to any preceding claim, wherein the first check valve comprises a ball valve and a valve seat having a valve hole.
A liquid sprayer according to any of claims 1 to 3, wherein the first check valve 70 comprises a valve seat having a valve hole and a resilient valve having a sealing surface for sealing said valve hole.
6 A liquid according to any preceding claim, wherein a small hole is provided at 75 the upper end of the cylinder to connect the inside of said liquid container with the top opening of the cylinder and to allow the passage of air but not of liquid, thereby to prevent build-up of negative pressure in the 80 liquid container.
7 A liquid sprayer according to any preceding claim, wherein the pressure chamber comprises an upper large-diameter cylinder, a small-diameter cylinder provided 85 with a liquid suction hole and wherein said holding member is tubular to allow the passage of liquid therethrough, the mechanism further comprising a large-diameter piston provided at an end of said piston holding 90 member and slidably arranged in said largediameter cylinder, and a valve body mounted upon said holding member for opening and closing a valve hole which is in communication with the nozzle outlet 95 hole, whereby said valve hole is opened by the valve body by means of the difference between forces produced between said piston and the large-diameter piston when the liquid sprayer is in use 100 8 A liquid sprayer according to any of claims 1 to 6, wherein the vertical cylinder comprises a large-diameter portion having a liquid suction hole and having said piston therein and a small-diameter portion posi 105 tioned below said large-diameter portion, the mechanism further comprising a smalldiameter piston slidably located in said small-diameter cylinder portion and having a valve body mounted thereabove, a valve 110 hole leading to the nozzle outlet hole, said valve hole being provided in said piston and arranged to be closed by said valve body, and a liquid passage provided in the holding member of said small-diameter 115 piston for connecting the liquid container with the pressure chamber constituted by said cylinder and said large-diameter and small-diameter pistons, whereby the first check valve is incorporated at a position up 120 wardly of said liquid passage, such that in use when pressure builds up in the pressure chamber, the small-diameter piston descends to let the valve body open the valve hole leading to the nozzle outlet hole 125 9 A liquid layer according to claim 8, wherein the second check valve is incorporated at a position below the first check valve in the liquid passage in said holding member 130 1,588,788 A liquid sprayer according to claim 8, wherein the second check valve is incorporated integrally at the lower end of the small-diameter cylinder portion.
11 A liquid sprayer according to claim 8, wherein the first check valve is constituted by a valve seat having a valve hole and a rubber valve having a sealing surface for closing said valve hole.
12 A liquid sprayer according to claim 8, wherein the second check valve comprises a valve seat having a valve hole, a ball valve and a ball valve support member formed like a saucer, and there is provided a liquid passage between the outer periphery of said support member and the inner wall of the cylinder to connect the pressure chamber with the first check valve.
13 A liquid sprayer usable in both erect and inverted positions and comprising an upright cylinder held in an uppermost neck portion of a liquid container and having an upper large-diameter portion and a lower small-diameter portion, a first large-diameter piston slidable in said large-diameter cylinder portion and a small-diameter piston slidable in said small-diameter cylinder portion, said pistons being connected to each other by a holding member, a valve body provided above said large-diameter piston and adapted to open and close a valve hole leading to a nozzle oulet hole in a spray head, an upright tubular member defining a liquid passage having said valve body inserted therein and connected at its upper end to the vahlve hole, said tubular member having mounted at its lower end a second largec-diameter piston slidable in tihe largc-diameter cylinder portion, biassing means biassing the smalldiameter piston upwardly, a pressure chanmber defined by said small-diameter cylinder, large-diamieter cylinder, small-diameter piston, first and second large-diameter pistons and holding member, a first check valve provided in a passage connecting the lower part of the pressure chamber with the interior of the liquid container and arranged to allow liquid to flow into but not out of the pressure chamber, so that in use liquid is sucked into the pressure chamber and then sprayed from the nozzle outlet hole by movement of the pistons, a liquid suction hole in the wall of the large-diameter cylinder portion at a position slightly below the position of the second large-diameter piston in the large-diameter cylinder portion when the pressure chamber is at its maximum capacity, said suction hole being arranged to admit the liquid into the pressure chamber from the neck portion of the liquid container when the sprayer is in its inverted position, a skirt member fixed to and encircling the tubular member above the second largediameter piston for preventing liquid leakage from said suction hole to the area above the cylinder when the sprayer is in its inverted position, and a second check valve in series with the first check valve, situated in the passage connecting the lower part of the pressure chamber with the interior of the 70 liquid container and arranged to operate in counter-current relation to said first check valve.
14 A liquid sprayer according to claim 13, wherein the second check valve com 75 prises a valve seat having a valve hole, a ball valve and a ball valve support member, said support being sauccr-shaped and having a flat region arranged perpendicular to the axis of the cylinder, and a liquid passage is 80 provided between the outer periphery of said supporting member and the inner wall of the cylinder, said liquid passage connecting the pressure chamber and the first check valve 85 A pump mechanism for a liquid sprayer usable in both erect and inverted positions, said pump mechanism comprising a pressure chamber defined by an upright cylinder and a piston therein, a liquid suction 90 hole in the wall of the cylinder and at a position slightly below the location of the piston in the cylinder when the pressure chamber is at its maximum capacity, said suction hole being arranged to allow suction 95 of the liquid in the pressure chamber when the sprayer is in its inverted position, a skirt member contacting substantially airtightly against the inside of the cylinder and arranged slightly above that position when the 100 pressure chamber is at its maximum capacity of a piston holding member which is arranged to cooperate with said suction hole, a small cylindrical member extending downwardly from the lower end of the cylinder 105 and the interior thereof communicating with the pressure chamber, a valve box fitted on said small cylindrical member, a first check valve provided either in said small cylindrical member or in said valve box and allow 110 ing liquid to flow into but not out of the pressure chamber, and a second check valve arranged in series with and in countercurrent relation to said first check valve.
16 A pump mechanism according to 115 claim 15, further comprising a bar extending upwardly from a lower part in the pressure chamber for increasing the pressurizing efficiency, said bar being secured to the bottom of the cylinder 120 17 A pump mechanism according to claim 15 or 16, wherein the second check valve is constituted from a ball valve, a valve seat and a ball valve support member, said support member being constructed in the 125 form of a saucer having a plane perpendicular to the axis of the cylinder, and a liquid passage is provided between the outer periphery of said support member and the inner wall of the small cylindrical portion,said 130 1,588,788 liquid passage being connected into the pressure chamber.
18 A liquid sprayer which is usable in both erect and inverted positions, substantially as hereinbefore described with reference to Figs 1 to 4 A, 4 B or 4 C, Fig 5 or Figs 6 and 7 A, 7 B or 7 C of the accompanying drawings.
19 A pump mechanism substantially as hereinbefore described with reference to Fig 10 8 of the accompanying drawings.
Agents for the Applicants:
STANLEY, POPPLEWELL, FRANCIS & ROSS, Chartered Patent Agents, 1, Dyers’ Buildings, Holborn, London EC 1 N 2 JT.
Printed for Her Majesty’s Stationery Office by Burgess & Son (Abingdon), Ltd -1981 Published at The Patent Office, 25 Southampton Buildings, London, WC 2 A l AY, from which copies may be obtained.

GB18480/78A
1977-05-12
1978-05-09
Liquid sprayer usable in both erect and inverted positions

Expired

GB1588788A
(en)

Applications Claiming Priority (4)

Application Number
Priority Date
Filing Date
Title

JP6042477

1977-05-12

JP52057448A

JPS6032502B2
(en)

1977-05-18
1977-05-18

Upright and inverted sprayer

JP7418877U

JPS5723020Y2
(en)

1977-06-06
1977-06-06

JP11163877U

JPS61897Y2
(en)

1977-08-20
1977-08-20

Publications (1)

Publication Number
Publication Date

GB1588788A
true

GB1588788A
(en)

1981-04-29

Family
ID=27463509
Family Applications (1)

Application Number
Title
Priority Date
Filing Date

GB18480/78A
Expired

GB1588788A
(en)

1977-05-12
1978-05-09
Liquid sprayer usable in both erect and inverted positions

Country Status (9)

Country
Link

US
(1)

US4174790A
(en)

AU
(1)

AU504666B1
(en)

CA
(1)

CA1073870A
(en)

CH
(1)

CH634237A5
(en)

DE
(1)

DE2818560C3
(en)

FR
(1)

FR2390213A1
(en)

GB
(1)

GB1588788A
(en)

IT
(1)

IT1094550B
(en)

NL
(1)

NL179791C
(en)

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Double-acting mechanical pump for liquid sprayers

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spray pump

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SPRAYER OR DOSING PUMP

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Discharge device for media

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DEVICE FOR SPRAYING A LIQUID FROM A CONTAINER

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Societe Francaise D/Aerosols Et De Bouchage
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1978

1978-04-07
NL
NLAANVRAGE7803731,A
patent/NL179791C/en
not_active
IP Right Cessation

1978-04-10
US
US05/894,918
patent/US4174790A/en
not_active
Expired – Lifetime

1978-04-26
IT
IT7822730A
patent/IT1094550B/en
active

1978-04-27
DE
DE2818560A
patent/DE2818560C3/en
not_active
Expired

1978-04-27
AU
AU35485/78A
patent/AU504666B1/en
not_active
Expired

1978-05-02
CH
CH474878A
patent/CH634237A5/en
not_active
IP Right Cessation

1978-05-09
GB
GB18480/78A
patent/GB1588788A/en
not_active
Expired

1978-05-11
CA
CA303,170A
patent/CA1073870A/en
not_active
Expired

1978-05-11
FR
FR7813978A
patent/FR2390213A1/en
active
Granted

Also Published As

Publication number
Publication date

DE2818560C3
(en)

1982-09-23

IT7822730D0
(en)

1978-04-26

AU504666B1
(en)

1979-10-25

DE2818560A1
(en)

1978-11-23

FR2390213B1
(en)

1982-05-07

FR2390213A1
(en)

1978-12-08

NL179791C
(en)

1986-11-17

CA1073870A
(en)

1980-03-18

DE2818560B2
(en)

1981-01-15

NL179791B
(en)

1986-06-16

CH634237A5
(en)

1983-01-31

IT1094550B
(en)

1985-08-02

NL7803731A
(en)

1978-11-14

US4174790A
(en)

1979-11-20

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Legal Events

Date
Code
Title
Description

1981-07-15
PS
Patent sealed [section 19, patents act 1949]

1998-06-03
PE20
Patent expired after termination of 20 years

Effective date:
19980508

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