AU592401B2 – Tailgate closure mechanism
– Google Patents
AU592401B2 – Tailgate closure mechanism
– Google Patents
Tailgate closure mechanism
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Info
Publication number
AU592401B2
AU592401B2
AU67879/87A
AU6787987A
AU592401B2
AU 592401 B2
AU592401 B2
AU 592401B2
AU 67879/87 A
AU67879/87 A
AU 67879/87A
AU 6787987 A
AU6787987 A
AU 6787987A
AU 592401 B2
AU592401 B2
AU 592401B2
Authority
AU
Australia
Prior art keywords
tailgate
respect
power output
stationary
motor
Prior art date
1986-01-21
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.)
Ceased
Application number
AU67879/87A
Other versions
AU6787987A
(en
Inventor
Richard C. Olins
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.)
Diesel Equipment Ltd
Original Assignee
DIESEL EQUIP
Diesel Equipment 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.)
1986-01-21
Filing date
1987-01-21
Publication date
1990-01-11
1987-01-21
Application filed by DIESEL EQUIP, Diesel Equipment Ltd
filed
Critical
DIESEL EQUIP
1987-07-23
Publication of AU6787987A
publication
Critical
patent/AU6787987A/en
1990-01-11
Application granted
granted
Critical
1990-01-11
Publication of AU592401B2
publication
Critical
patent/AU592401B2/en
2007-01-21
Anticipated expiration
legal-status
Critical
Status
Ceased
legal-status
Critical
Current
Links
Espacenet
Global Dossier
Discuss
Classifications
B—PERFORMING OPERATIONS; TRANSPORTING
B60—VEHICLES IN GENERAL
B60P—VEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
B60P1/00—Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading
B60P1/04—Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading with a tipping movement of load-transporting element
B60P1/26—Means for controlling movement of tailboards or sideboards
Description
hUJIXALIA PATENTS ACT 19524 COMPLETE SPECIFI
(ORIGINAL)
FOR OFFICE USE: Application Number: Lodged: 6797107.
Class Int. Class Complete Specification Lodged: Accepted: Published:.
Priority: Related Art: t S. t t ,Nqaii of Applicant(s): DIESEL EQUIPMENT LILIITED t 4 Address of Applicant(s): Actual Inventor(s): A~gdress for Service: 139 Laird Drive, TORONTO, ONTARIO, CANADA, M4G 3V6.
RICHARD C. OLINS Kelvin Lord Co., 4 Douro Place, WEST PERTH, Western Australia 6005.
Complete Specification for the invention entitled: “TAILGATE CLOSURE MECHANISM” The followingistitement is afull description of this iiivention, including the best method of performing it known to me/us Li r Ii 2 I tt it t It t tC C t e
C’
C 1 It CC I t C ct C 1 1 Cr 1 C C C This invention relates to tailgate assemblies for trucks and the like. In particular, this invention relates to tailgate assemblies which have a powered mechanism for opening and closing the tailgate.
BACKGROUND OF THE INVENTION Tailgates and particularly tailgates which are used as lifting platforms for lifting a load to the level of the floor of a truck are of a heavy construction and require the exercise of considerable force in order to pivot the tailgate from its horizontal opened position to its upright closed position.
Torsion bars are commonly provided for the purposes of assisting the manual opening and closing of the tailgate.
In order to ensure that the tailgate will remain in an 15 opened position in use the torsion bars do not have sufficient power to automatically pivot the tailgate from the horizontal position to the upright position.
Other power operated mechanisms have been proposed foz use in providing a positive drive for driving the tailgate 20 between its horizontal position and its vertical position for opening and closing the tailgate. These mechanisms have, however, been complex mechanisms which include a power transmission mechanism which extends from the frame to the platform and which are easily damaged in use because of the fact that they are exposed to the harsh environment in which these vehicles are required to operate.
SUMMARY OF INVENTION l According to one aspect of the present invention a power closure mechanism for a tailgate of a truck or the like in I :i 2 3 r K j ‘C I i CI which the tailgate is mounted for pivotal movement about a first axis with respect to a support frame between an open position in which the tailgate is horizontally disposed and a closed position in which the tailgate is in an upright position, comprising: a stationary member mounted on and fast with respect to said frame, said stationary member having a torsion axis aligned with said first axis; a driven member mounted on said tailgate for movement therewith, said driven member drivingly engaging said stationary member such that movement of the driven member causes it to move with respect to the stationary member which in turn causes the tailgate to pivot with respect to the frame.
According to a further aspect of the present invention, there is provided a powered closure mechanism for a tailgate of a truck or the like in which the tailgate is mounted for pivotal movement about a first axis with respect to a support frame between an open position in which the tailgate is horizontally disposed and a closed position in which the tailgate is in an upright position comprising a shaft mounted on and fast with respect to said frame, said shaft
I
having its axis aligned with said first axis, a stationary pinion mounted on and fast with respect to said shaft, a reversible motor mounted on said tailgate for movement therewith, said motor having a power output shaft, a power output pinion mounted on said power output shaft for rotation therewith, reduction gear means drivingly connecting said power output pinion and said stationary pinion such that operation of said motor to cause rotation f said power output shaft in one direction will cause ;i -m~ 4 rotation of said tailgate in a first direction about said first axis and operation of said motor to cause rotation of said power output shaft in the other direction will cause rotation of said tailgate in a second direction opposite to said first direction to open or close said tailgate as required in use.
BRIEF DESCRIPTION OF THE DRAWINGS The invention will be more clearly understood after reference to the following detailed specification read in conjunction with the drawings wherein; Figure 1 is a pictorial view of an end of a truck showing the manner in which a tailgate is mounted thereon for movement between an opened position and a closed position and a raised position and a lowered position.
*1 e:l t rt er i r ti P rl (P t If %L 7, r Figure 2 is a partially sectioned pictorial view of a portion of the tailgate of Figure 1 shown in the upright position.
Figure 3 is a sectional view taken along the line 3-3 of Figure 2.
Figure 4 is a view similar to Figure 3 showing the tailgate in the opened horizontal position.
Figure 5 is a partially sectioned view of a tailgate in the upright position showing a power closure mechanism according to a further embodiment.
Figure 6 is a diagram illustrating the power source and control for operating the powered mechanism of Figs. 2 to 4.
With reference to Figure 1 of the drawings, the reference ‘numeral 10 refers generally to a tailgate assembly constructed in -‘accordance with an embodiment of the present invention which is 0 a 0 S” mounted at the rear end of a truck 12. The tailgate assembly 0* S'”includes a stationary frame 14 which consists of a pair of upright ‘””guide rails 16. A pair of slide members 18 (Fig.2) are slidably mounted in the upright guide rails 16. A flange 20 projects
S*
:**,:outwardly from each slide member 18 through the slot 22 which is *formed in the guide rail 16. Stub shafts 24a and 24b are mounted n opposite flanges 20 and are secured against rotation, with respect to the flanges 20 by means of arms 26a and 26b respectively to which the shafts are welded. The arms 26a and 26b re secured to the flanges 20 by means of bolts 28.
The tailgate is generally identified by the reference numeral 30. The tailgate 30 comprises a platform 32 which is mounted on a support frame 34. A recess 36 is formed in the 5
I
underside of the tailgate 30 to one side of a divider plate 38 and a recess 40 is formed on the other side of the divider plate 38.
A powered closure mechanism generally identified by the reference numeral 42 is located in the recess 36 and a torsion bar closure assist device generally identified by the reference numeral 44 is located in the recess The torsion bar assembly 44 is of a conventional construction similar to that previously used in these installations. One end of the torsion bar 200 is mounted in a boss 202 which is mounted on the divider plate 38 and the other end is mounted in the inner end of the stub shaft 24a. The torsion bar 200 is twisted before mounting in the boss 202 and shaft 24a so as to normally urge the tailgate toward the upright f position.
The powered closure mechanism 42 will now be described with reference to Figures 2, 3 and 4 of the drawings.
The powered closure mechanism consists of a reciprocating drive mechanism generally identified by the reference numeral 46 and a power transmission mechanism generally identified by the ‘-*reference numeral. 48. The reciprocating drive mechanism consists a double acting hydraulJc cylinder 50 which has one end secured with respect to the tailgate by means of a pivot pin 52 which is mounted in brackets 54. A fixed displacement pump 56 (Fig.l) is connected to an on/off two-way control valve 57 which is in turn connected to the cylinder 50. A ram 64 projects from the cylinder and can be driven axially to and fro by supplying hydraulic fluid through one or other of the conduits 58 and 60. The ram 64 has a U-shaped coupling 62 at its outer end.
6 r ~~2Z
I~
i j The power source for the cylinder 50 is the fixed displacement pump 56 which is also used for raising and lowering the tailgate. As shown diagrammatically in Figure 7, the pump 56 is connected to a sump 55 by means of a conduit 53. A conduit 51 connects the pump to a four-way valve 57 and conduits 58 and connect the valve to the cylinder 50. A return conduit 49 connects the valve 57 to the sump The solenoid valve 57 is operated by a tdggle switch 61 which has a toggle 63 which may be located in the neutral position shown in solid lines in Figure 7 or either of the two operating positions shown in broken lines. When the togqle 63 is in the position shown in solid lines in Figure 7, the hydraulic fluid delivered by the pump 56 is merely returned to the sump through the conduit 49. When the toggle 63 is displaced to one or other of the positions shown in broken lines, the hydraulic fluid is supplied to one or other of the conduits 58 or 60 so as to drive the ram 64 in one direction or the other.
The power tranmission mechanism 48 consists of a first cam member 66 and a second cam member 68. The first cam member 66 is in the form of a square-shaped rod 70, the proximal end of %-which is connected to the U-shaped end piece 62 by means of a pin 72. A cam follower 74 projects outwardly from the rod 70. The square-shaped rod 70 is slidably mounted in a square-shaped passage 76 which is formed in a bracket 78 which is welded to the frame 34 and platform 32. This plate 78 acts as a retainer plate which prevents rotation of the square-shaped rod 66 relative to the tailgate.
i re
,[I
7 7 i ii The second cam member 68 comprises a tubular member which has a helical shaped cam track 82 opening through its wall.
The cam follower 74 projects through the cam track 82.
As shown in Figures 3 and 4 of the drawings, a bearing member in the form of an annular disk 84 is mounted on the brackets 78 by means of mounting screws 86. The opened end 88 of the tubular member 80 is mounted on the bearing disk 84 such that the bearing 84 and the bracket 78 on which it is mounted are rotatable with respect to the tubular member 80. The stub shaft 24b has its inner end mounted and held fast with respect to the end wall 90 of the second cam member 68. A sleeve bearing 92 supports the frame 34 for rotation about the stub shaft 24b.
In use when the tailgate is in the upright position tt illustrated in Figure 2 of the drawings and it is desired to lower the tailgate, hydraulic fluid is supplied to the double acting hydraulic cylinder 50 from the pump 56 through the conduit 58 thereby to cause the ram 64 to be retracted. This action of the ram causes the first cam member 66 to move to the left from the position shown in Figure 2 and this causes the cam follower 74 to ‘move with respect to the cam track 82. Because the tubular member is hel.d fast with respect to, the frame 14, the first cam member Q66 is caused to rotate about the axis 1.00 of the tubular member The axis 100 is axially aligned with the axis 102 of the stub -,,,;shaft 24b. Rotation of the first cam member 66 causes rotation of the bracket 78 which as previously indicated is secured to the tailgate 30 witn the result that the tailgate 30 is caused to rotate from its upright position to its horizontal position.
8 II I 4 i In order to move the tailgate from the horizontal position to the upriaht position, it is merely necessary to supply the hydraulic fluid to the cylinder 50 through the conduit This causes the first cam member 66 to reciprocate in the opposite direction to drive the cam follower 74 along the cam track 82 which in turn causes rotation of the first cam member 66 and thereby rotation of the tailgate to the upright position.
An important feature of this embodiment of the present invention is the fact that the rate of angular displacement of the tailgate when moving to and fro between the horizontal position and the upright position is controlled so that the tailgate will not snap shut when it approches the upright position nor will it fall open when it approaches the horizontal position. This is t S achieved by ensuring that the movement of the ram 64 is positively Scontrolled so that it can only move in response to the supply of hydraulic fluid to the hydraulic cylinder.
In a typical tailgate construction, the tubular member may have a diameter of 3″ and the stroke of the ram 64 may be 6″ with the result that the angle of inclination of the cam track with respect to the direction of movement of the cam follower is of the order of about 230. Because of this shallow incline, the S closing torque which is applied to the tailgate through the torsion bar assembly while assisting in the closing, is not Ssufficient to drive the cam follower along the cam track to cause Sthe movement of the tailgate to accelerate to slam closed.
Various modifications of the present invention will be apparent to those skilled in the art.
9
H
H
t~ One modification is illustrated in Figure 5 of the drawings wherein like numerals are applied to like parts to those appearing in Figures 1 to 4 of the drawings. In this embodiment, the power source is a reversible electric motor 100 which is located in recess 36 which forms a storage compartment on the underside of the tailgate 30. The motor 100 is a ‘reversible electric motor. A reduction gearbox 103 is also mounted in the recess 36. The reduction gearbox 103 has an enclosed chamber 104 formed therein. The gearbox 103 has oppositely disposed face plates 106 and 108. The inner end of the stub shaft 24A extends through the face plates 108 and 106 and has a stationary pinion 110 mounted thereon. The stationary pinion 110 is keyed to the stub shaft 24A. An idler shaft 112 is also mounted in the face plates 106 and 108. A pinion 114 mounted on the shaft 112 is meshed with the stationary pinion 110. A pinion 116 which is fast with respect to the pinion 114 is also mounted on the shaft 112.
The pinion 116 is meshed with the power output pinion 118 which is mounted on the power output shaft 120 of the motor 100. The power output shaft 120 is mounted for rotation in the face plates 104 and 106 and supported by suitable bearings. The power output t lnion 118 is keyed to the power output shaft 120.
The electrical power is supplied to the motor 110 through a cable 122 which is connected to a socket 124 mounted in the support frame 34.
The power supply to the socket 114 may be from any DC source such as the battery of the vehicle in which the tailgate is installed. The power source may be supplied through a cable 130 ;Bii 10 I L~ I i; I n c~tland a plug 132. Reversal of the direction of operation of the motor may be achieved by reversing the manner in which the plug 132 is inserted into the socket 124. Suitable markings may be provided on the plug 132 and socket 124 to indicate the manner in which the plug should be inserted to effect raising or lowering of the tailgate. The socket 124 and pluq 132 may be conventional two-pin electrical plugs and sockets. A current sensing device 140 is provided in the line 142 which leads to the plug 132- The current sensing device 140 serves to detect an overload in the power supply to the motor and acts as a circuit breaker to stop the motor when the overload is detected. Thus, when the tailgate is fully open or fully closed, an overload condition will develop and the overload will activate the sensing device 140 to stop the otor 100.
c In use, the operator merely inserts the plug 132 in the trr Ssocket 124 in the manner indicated for the purposes of rotating Sthe platform to its horizontal position. Power is then supplied to the motor 100 to cause rotation of the power output shaft 120 in a first direction. Rotation of the shaft 120 causes rotation of the pinions 118, 116 and 114. Because the pinion 110 is held fast with respect to the shaft 24A, the rotation of the pinion 114 will result in movement of the gearbox 103 about the axis 102.
:(In order to cause the platform 32 to pivot to its upright position, it is merely necessary to relocate the pluq 132 in the Ssocket 124 so as to cause the motor 100 to operate to rotate the ,,power output shaft 120 in the opposite direction. ~i 11 rU i.
-CI-
It will be understood that the proportion of the pinions 110, 114, 116, 118 are selected to provide a gear reduction sufficient to ensure that the movement of the tailgate between its upright position and its horizontal position will be timed to provide for a gradual opening and closing at a speed which will not represent a hazard to the operator while being sufficiently rapid to avoid unnecessary delay in the operation of the tailgate.
These and other modifications of the present invention will be apparent to those skilled in the art.
-7 t r t
I
d (b ~tt I
C
12
Claims (2)
1. A powered closure mechanism for a tailgate of a truck or the like in which the tailgate is mounted for pivotal movement about a first axis with respect to a support frame between an open position in which the tailgate is horizontally disposed and a closed position in which the tailgate is in an upright position comprising: a) a shaft mounted on and fast with respect to said frame, said shaft having its axis aligned with said first axis, b) a stationary pinion mounted on and fast with respect to said shaft, c) a reversible motor mounted on said tailgate for movement therewith, said motor having a power output shaft, a power output pinion mounted on said power output shaft for 15 rotation therewith, d) reduction gear means drivingly connecting said power output pinion and said stationary pinion such that operation of said motor to cause rotation of said power output shaft in one direction will cause rotation of said tailgate in a 20 first direction about said first axis and operation of said motor to cause rotation of said power output shaft in the other direction will cause rotation of said tailgate in a second direction opposite to said first direction to open or close said tailgate as required in use.
2. A powered closure mechanism as claimed in Claim 1, wherein a storage compartment is formed in the underside of the tailgate, said motor and reduction gear means being mounted in said storage compartment. r 14 or tho likc in which the tailgat is mounted for pivotal movement about a first axis with respect to a suppor frame between an open position in which the tailgate horizontally disposed and a closed position n which the tailgate is in an upright position, co ising: a) a stationary member mounted o and fast with respect to said frame, said stationary me er having a torsion axis aligned with said first ax’ b) a driven member nted on said tailgate for movement therewith, said d ‘ven member drivingly engaging said stationary me er such that movement of the driven member causes it o move with respect to the stationary member whic in turn causes the tailgate to pivot with respect to ‘M -FT m.- I: I: Ft i C r ir :i Z i: r~C C1 1 -43. A powered closure mechanism for a tailgate substantially as hereinbefore described with reference to Figures 1, 5 and 6 of the accompanying drawings. DATED MAY 26 1989 DIESEL EQUIPMENT LIMITED By their Patent Attorneys KELVIN LORD AND COMPANY PERTH, WESTERN AUSTRALIA. F~
AU67879/87A
1986-01-21
1987-01-21
Tailgate closure mechanism
Ceased
AU592401B2
(en)
Applications Claiming Priority (3)
Application Number
Priority Date
Filing Date
Title
US82011886A
1986-01-21
1986-01-21
US820118
1986-01-21
US002384
1987-01-12
Publications (2)
Publication Number
Publication Date
AU6787987A
AU6787987A
(en)
1987-07-23
AU592401B2
true
AU592401B2
(en)
1990-01-11
Family
ID=25229935
Family Applications (1)
Application Number
Title
Priority Date
Filing Date
AU67879/87A
Ceased
AU592401B2
(en)
1986-01-21
1987-01-21
Tailgate closure mechanism
Country Status (3)
Country
Link
EP
(1)
EP0234701A3
(en)
AU
(1)
AU592401B2
(en)
CA
(1)
CA1268149A
(en)
Families Citing this family (6)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
FR2630714B1
(en)
*
1988-04-27
1991-01-18
Vaucher Beguet Ets
RECEPTION AND DISCHARGE CONTAINER FOR THE GRAPE HARVEST
GB2332414B
(en)
*
1997-12-19
2001-10-24
Ross & Bonnyman Eng Ltd
Load lifting and lowering apparatus
GB2425758A
(en)
*
2005-05-07
2006-11-08
Colin Kane
Trailer suitable for transporting both bulk loads and vehicles
JP5277025B2
(en)
*
2008-04-10
2013-08-28
極東開発工業株式会社
Cargo loading platform lifting device
JP5350746B2
(en)
*
2008-10-22
2013-11-27
極東開発工業株式会社
Cargo loading platform lifting device
JP2010100130A
(en)
*
2008-10-22
2010-05-06
Kyokuto Kaihatsu Kogyo Co Ltd
Load receiving base lifting device for cargo vehicle
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* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US3834565A
(en)
*
1971-07-22
1974-09-10
Goodman R Co
Hydraulic loading ramp
US3889827A
(en)
*
1971-07-06
1975-06-17
Boyce Fine
Truck loading and unloading apparatus
US4702511A
(en)
*
1986-01-21
1987-10-27
Diesel Equipment Limited
Tailgate closure mechanism
Family Cites Families (5)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US3275170A
(en)
*
1964-10-05
1966-09-27
Diesel Equip
Hydraulic loading devices
US3794193A
(en)
*
1971-12-17
1974-02-26
W Fleenor
Cargo handling mechanism
US4045914A
(en)
*
1975-09-08
1977-09-06
The Stanley Works
Automatic door operator
DE3219192A1
(en)
*
1982-05-21
1983-11-24
Erich 8263 Burghausen Unterreiter
Rotary drive, especially for doors, gates, cupboards or the like
DE3226633A1
(en)
*
1982-07-16
1984-04-26
Aluminium-Walzwerke Singen Gmbh, 7700 Singen
LOADBOARD
1987
1987-01-13
CA
CA000527271A
patent/CA1268149A/en
not_active
Expired – Fee Related
1987-01-16
EP
EP87300351A
patent/EP0234701A3/en
not_active
Withdrawn
1987-01-21
AU
AU67879/87A
patent/AU592401B2/en
not_active
Ceased
Patent Citations (3)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US3889827A
(en)
*
1971-07-06
1975-06-17
Boyce Fine
Truck loading and unloading apparatus
US3834565A
(en)
*
1971-07-22
1974-09-10
Goodman R Co
Hydraulic loading ramp
US4702511A
(en)
*
1986-01-21
1987-10-27
Diesel Equipment Limited
Tailgate closure mechanism
Also Published As
Publication number
Publication date
EP0234701A2
(en)
1987-09-02
EP0234701A3
(en)
1989-03-22
AU6787987A
(en)
1987-07-23
CA1268149A
(en)
1990-04-24
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