GB1565024A – Weighing scale in particular for weighing bulk goods
– Google Patents
GB1565024A – Weighing scale in particular for weighing bulk goods
– Google Patents
Weighing scale in particular for weighing bulk goods
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Publication number
GB1565024A
GB1565024A
GB36720/77A
GB3672077A
GB1565024A
GB 1565024 A
GB1565024 A
GB 1565024A
GB 36720/77 A
GB36720/77 A
GB 36720/77A
GB 3672077 A
GB3672077 A
GB 3672077A
GB 1565024 A
GB1565024 A
GB 1565024A
Authority
GB
United Kingdom
Prior art keywords
weighing
measuring cycle
difference
scale
measuring
Prior art date
1977-02-23
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
GB36720/77A
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.)
Wirth Gallo and Co
Original Assignee
Wirth Gallo and Co
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.)
1977-02-23
Filing date
1977-09-02
Publication date
1980-04-16
1977-09-02
Application filed by Wirth Gallo and Co
filed
Critical
Wirth Gallo and Co
1980-04-16
Publication of GB1565024A
publication
Critical
patent/GB1565024A/en
Status
Expired
legal-status
Critical
Current
Links
Espacenet
Global Dossier
Discuss
Classifications
G—PHYSICS
G01—MEASURING; TESTING
G01G—WEIGHING
G01G13/00—Weighing apparatus with automatic feed or discharge for weighing-out batches of material
G01G13/24—Weighing mechanism control arrangements for automatic feed or discharge
G01G13/28—Weighing mechanism control arrangements for automatic feed or discharge involving variation of an electrical variable which is used to control loading or discharge of the receptacle
G01G13/29—Weighing mechanism control arrangements for automatic feed or discharge involving variation of an electrical variable which is used to control loading or discharge of the receptacle involving digital counting
G01G13/2906—Weighing mechanism control arrangements for automatic feed or discharge involving variation of an electrical variable which is used to control loading or discharge of the receptacle involving digital counting for controlling automatic loading of weigh-pans or other receptacles
Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
Y10S177/00—Weighing scales
Y10S177/03—Digitizers electrical
Description
PATENT SPECIFICATION
Application No 36720/77 ( 11) 1 565 024 ( 22) Filed 2 Sep 1977 ( 31) Convention Application No 2350/77 ( 32) Filed 23 Feb 1977 in ( 33) Switzerland (CH) ( 44) Complete Specification Published 16 Apr 1980 I ( 51) INT CL 3 H 03 K 13/02 GOG 23/37 ( 52) Index at Acceptance H 3 H 13 D 14 A 14 B i F 23 F 4 C 6 A 6 D 7 B 7 F 8 B 8 D E G 1 W K ( 54) WEIGHTING SCALE, IN PARTICULAR FOR WEIGHING BULK GOODS ( 71) We, WIRTH, GALLO & CO, a Swiss Body Corporate, of Sonnenbergstrasse 55, 8032 Zuirich, Switzerland, do hereby delcare 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:-
The invention concerns a weighing scale with a digital computing device and a digital display, in particular for weighing bulk goods, in which the weighing result is determined as a mean value of a continuous measurement or of discrete measurements made over a measuring cycle.
When bulk goods, including liquids, are dosed, this operation is generally performed in two distinct phases In the first one the scale with the package as the case may be is quickly loaded with bulk goods up to a weight which is near the desired weight but short of it In the second phase the scale is loaded slowly until the desired weight is reached Installations for weighing bulk goods applying such filling and weighing methods are known, e g from Swiss Patents 488 173, 493 833 and 521 576 Analogue working scales with a hand are known, in which the position of the hand is compared electromagnetically with a desired position when the scale is used in an automatic or semi-automatic filling station It is also known that the desired position of the hand can be combined with a time function during the filling process, so that the difference between the desired and the real positions of the hand remains small, so that the danger of overflow is avoided Furthermore, filling installations are known in which besides the time separation into two phases a room separation with two filling devices is provided, partly with two scales A device with a purely digital scale with vibrating strings is known from German patent application DOS 2 231 711, with which in the first phase the weighing process takes place with consecutive short measuring cycles of limited accuracy, in the second phase the accuracy being multiplied by ten, the length of each individual measuring cycle being also multiplied by ten.
Scales with hands cannot generally be applied satisfactorily because of the feedback on the result of the measurement by the devices coupled to the scale and because of the lack of flexibility of such scales The two-phase process is more difficult to realize with analogue scales as with analogue-digital or with purely digital devices In the latter the goods can be filled during the first phase, in which the main quantity of goods is loaded on the scale working either under human or automatic control, with a speed which depends on the information about the weight available to the operator or on the time within which such information can be processed It is possible to provide the operator with weight information in quick sequence by recuding the length of the basic measuring cycle As during the first phase the final weighing is not performed, a slight inaccuracy can be tolerated The change of the number of digits of the display when reducing the length of the basic measuring cycle is not satisfactory, because it causes erroneous reading and because the changeover from normal to shortened measuring cycle must be controlled from outside the scale, which makes its introduction in fully automatic weighing installations very cumbersome.
It is an object of the invention to provide a scale for bulk goods, including liquids, which avoids the above mentioned drawbacks, which is equally suited for operation by hand and for automatic operation and which in both modes automatically assesses and displays the weight information in the first phase in quick sequences without high precision and in the second phase in slower sequence but with the required higher precision.
( 21) so sn 1,565,024 The present invention provides a weighing scale with a digital computing device and 2 digital displays, in particular for weighing both goods, in which the weighing result is determined as a means value of 2 continuous measurement or of discrete measurements made over a measuring cycle, characterized by means for assessing the difference betwecn the results of two consecutive measuring cycles, by means for comparing this difference with a predetermined value and by means for controlling the length of the next measuring cycle in function of this comparison ( AG AG,).
In a particular embodiment of the invention, this weighing scale comprises a reference oscillator, a counter for counting the oscillations of said reference oscillator with two alternatively selectable end values, a first and a second memory, a difference circuit, a comparison circuit with adjustable threshold value, a controller, said first memory storing the weighing result of a measuring cycle, said second memory storing the weighing result of the immediately preceding measuring cycle, said difference circuit computing the difference between said measuring results and feeding it to said comparison circuit, the latter activating said controller depending on said difference being greater or smaller than said threshold value, so that said controller selects one of said end values for counting the oscillations of said reference oscillator, so that when said difference is greater than or equal to said threshold value a short measuring cycle follows and when it is smaller a long measuring cycle follows, the weighing result being obtainable with either length of measuring gate.
In the drawing an embodiment of the invention is represented schematically.
Fig 1 is a block diagram of the scale, Fig 2 is a detailed diagram, Fig 3 is a first variant, Fig 4 is a second variant.
The embodiment according to Fig 1 shows a scale 1 with a platform 2 which is loaded with bulk goods 3 Scale 1 is a digital scale or a scale with an analogue-digital-converter, which assesses or at least displays the weight of the loaded goods at regular intervals Such a scale could be a one-string scale, an inclinaison scale with code disks, allowing static or serial reading of the load, or a scale with dynamometers, preferably a two-strings scale of well known construction Schematic block 1 contains not only all mechanical parts but also all electronic parts needed for assessment of the weighing results.
The weight measured during one measuring cycle is displayed by display 4 and stored in a memory 5 The result of the immediately preceding measuring cycle is stored in a memory 6 The difference AG of the contents of memories 5 and 6 is formed by a difference circuit 7 and fed into a comparison circuit 8 in which it is compared with a given threshold value AG This value AGQ, is a pre-determined value equal to the product of a given value M of quantity of goods per second (the filling speed) multiplied by the length of the last measuring cycle As shown below, this length is equal to one of two values NI or N 2 which can be entered in circuit 8 by means of feedback lines 13, 14.
The values A Gol = Mo X NI or A Go 2 = Mo x N 2 are stored in circuit 8.
If the scale indicates that the weight is in the zero range, the shorter measuring cycle N 1 is preferred, so that at the beginning of a weighing operation, the first measuring cycle is always a short one.
A controller 9 is connected to circuit 8 by a line 10, it controls a counter 12 If the result (AG A Go) of the comparison performed by circuit 8 is greater or equal to zero, a voltage signal corresponding to a logical ON Eis set on line 10 If this result is less than zero, the voltage signal on line 10 corresponds to a logical ZERO.
Controller 9 as shown in Fig 2 generates from these signals ONE, OR ZERO control signals needed by counter 12 for counting NI or N 2 oscillations of a reference oscillator 11 If the result of the comparison performed by circuit 8 is greater or equal to zero, so tha smaller number N 1 of oscillations is counted, if it is less than zero, then the higher number N 2 of oscillations is counted.
NI and N 2 are two pre-determined numbers which correspond to short or long measuring cycles The length of a measuring cycle is thereby controlled by the filling speed, that is by the quantity of goods 3 falling on platform 2 per time unit The control signals reach scale 1 over feedback lines 13, 14 and provoke over line 13 a short measuring cycle and over line 14 a long measuring cycle.
Fig 2 shows the same embodiment as Fig.
1, but all blocks are replaced by an actual realization of all elements Only scale 1 with its mechanical and electronic parts is not shown in detail All scales of this type have in common, for structural reasons, the fact that the assessment of the weight requires a certain measuring cycle over which the weight is integrated and its mean value is formed The latter is fed to memory 5 consisting of a shift register 20 with parallel outputs 21 to 25.
Depending on the code chosen, for instance a binary coded decimal representation, these outputs 21-25 must be considered as comprising each four lines connecting shift register 20 with the five-digit display 4 After a measuring cycle the content of shift register is transmitted to a shift register 26 forming memory 6 The outputs 27 to 31 of this 1,565,024 shift register 26 must also be understood as comprising four lines Outputs 21-25 are connected by means of lines 32 to 36 with a difference circuit 7 consisting of a full adder 38 set for forming differences Outputs 27-31 of shift register 26 are also connected to adder 38 The latter computes the difference AG of the contents of shift registers 20 and 26 and transmits it over lines 70 to 74, to be understood each as a fourfold line, to comparison circuit 8 This comparison circuit 8 comprises two read-only stores 39 a, 39 b containing each one of the two possible values of AG O They are linked by five lines 40 is to 44, to be understood each as a fourfold line, to a full adder 45 which is part of comparison circuit 8 Adder 45 is set for forming differences and it generates (AG A Go) with the suitable sign This sign appears at an output 46 of adder 45 as a ONE signal if positive or as a ZERO signal if negative, and is transmitted to controller 9 This controller comprises a flip-flop 47 and two AND-gates 48, 49 Flip-flop 47 has complementary outpus 50,51 Output 50 is linked to AND-gate 48 and output 51 is lined to AND-gate 49.
When a ONE signal appears at output 46, output 50 is activated, i e it is under a tension corresponding to a ON Esignal, output 51 being under a tension corresponding to a ZERO signal If the signal at output 46 is ZERO, the situation is reversed Thereby one of the AND-gates 48, 49 is always in a state allowing A C oscillations of reference oscillator 11 in form of rectangular pulses to each counter 12.
In the embodiment represented, counter 12 comprises two counting devices 53, 54, counting device 53 being connected to AND-gate 48 and counting the smaller number N of oscillations of oscillator 11 and counting device 54 being connected to AND-gate 49 and counting the higher number N 2 This means that these counting devices 53, 54 have a capacity NI, N 2 respectively As soon as these capacities are exceeded an overflow signal is generated at the output of the relevant counting device 53 or 54 and transmitted over lines 55, 56 to scale 1 The control signals for the scale are then derived in well known manner from this overflow signal These overflow signals on lines 55, 56 are transmitted to read-only stores 39 a, 39 b so that a signal on line 55 generates reading of the smaller value of AG O value from stores 39 a, 39 b For the sake of simplicity, no supply lines for the different parts have been shown Also lines needed for clocking signals and for synchronization have not been shown.
If scale 1 is an inclinaison scale with code disks, as assumed in Fig 3, lines 55, 56 are connected to an OR-gate 60 An optical or magnetic recorder 61 reads the code disks and generates in well known manner electrical pulses which are counted in a counter 62.
The latter is connected by means of the necessary number of parallel lines, shown here as one connection 63, over a multiple gate 64 to shift register 20, which in this embodiment is fed in parallel Futher signal processing is as described in relation with Fig 2 over shift register 26 and display 4.
In the embodiment according to Fig 4 scale 1 is a scale with two vibrating strings of well known construction, for instance as described in Swiss Patent 447 636,447 653 or 492 961 In such a scale the two vibrating strings can each be considered as an oscillator The string, the mechanical tension of which is lowered by the load on the platform of the scale, will be used as reference oscillator 11.
The other one is shown schematically as oscillator 65 Counter 12 is anyway provided in such scales in order to assess the time period during which the oscillations of oscillator 65 are counted, the frequency of which is raised by the load of the scale A computing device 66 comprises circuits computing in known manner the weight of goods 3 from the frequencies of oscillators 11 and 65.
Memory 6, difference circuit 7, comparison circuit 8 and controller 9 are as described in relation with Fig 1 and 2.
Claims (3)
WHAT WE CLAIM IS:-
1 A weighing scale with a digital computing device and a digital display, in particular for weighing bulk goods, in which the weighing result is determined as a mean value of a continuous measurment or of discrete measurements made over a measuring cycle, characterized by means for assessing the difference between the results of two consecutive measuring cycles, by means for comparing this difference with a predetermined value and by means for controlling the length of the next measuring cycle in function of this comparison (AG AG 0).
2 A weighing scale with a digital computing device and a digital display, in particular for weighing bulk goods, in which the weighing result is determined as a mean value of a continuous measurment or of discrete measurements made over a measuring cycle, comprising a reference oscillator, a counter for counting the osciallations of said reference oscillator with two alternatively selectable end values, a first and a second memory, a difference circuit, a comparison circuit with adjustable threshold value, a controller, said first memory storing the weighing result of a measuring cycle, said second memory storing the weighing result of the immediately predecing measuring cycle, said difference circuit computing the difference between said measuring results and feeding it to said comparison circuit, the latter activating said controller depending on said difference being greater or smaller than 1,565,024 said threshold value, so that said controller selects one of said end values for counting the oscillations of said reference oscillator, so that when said difference is greater than or equal to said threshold value a short measuring cycle follows and when it is smaller a long measuring cycle follows, the weighing result being obtainable with either length of measuring cycle.
3 A weighing scale with a digital computing device and a digital display, substantially as described herein with reference to the accompanying drawings.
BROMHEAD & CO, Chartered Patent Agents, Clifford’s Inn, Fetter Lane, London EC 4 A 1 NP.
Printed for Her Majesty’s Stationery Office, by Croydon Printing Company Limited, Croydon Surrey, 1980.
Published by The Patent Office, 25 Southampton Buildings, London WC 2 A l AY, from which copies may be obtained.
GB36720/77A
1977-02-23
1977-09-02
Weighing scale in particular for weighing bulk goods
Expired
GB1565024A
(en)
Applications Claiming Priority (1)
Application Number
Priority Date
Filing Date
Title
CH235077A
CH613280A5
(en)
1977-02-23
1977-02-23
Publications (1)
Publication Number
Publication Date
GB1565024A
true
GB1565024A
(en)
1980-04-16
Family
ID=4231729
Family Applications (1)
Application Number
Title
Priority Date
Filing Date
GB36720/77A
Expired
GB1565024A
(en)
1977-02-23
1977-09-02
Weighing scale in particular for weighing bulk goods
Country Status (9)
Country
Link
US
(1)
US4144943A
(en)
CA
(1)
CA1094586A
(en)
CH
(1)
CH613280A5
(en)
DE
(1)
DE2728770A1
(en)
FR
(1)
FR2381999A1
(en)
GB
(1)
GB1565024A
(en)
IT
(1)
IT1084883B
(en)
NL
(1)
NL7707752A
(en)
SE
(1)
SE417249B
(en)
Cited By (1)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
GB2125645A
(en)
*
1982-08-18
1984-03-07
Sony Tektronix Corp
Method and apparatus for controlling a set point
Families Citing this family (11)
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Priority date
Publication date
Assignee
Title
CH634653A5
(en)
*
1979-04-04
1983-02-15
Mettler Instrumente Ag
DIGITAL DISPLAYING SCALE.
GB2060947B
(en)
*
1979-10-18
1983-08-10
Cosmopolitan Textile Co Ltd
Control of weighing
US4416341A
(en)
*
1980-12-04
1983-11-22
Yamata Scale Company, Ltd.
Combination weighing machine
US4582598A
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*
1981-12-15
1986-04-15
Baxter Travenol Laboratories, Inc.
Replacement fluid control system for a blood fractionation apparatus and the like
AU1045383A
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1981-12-15
1983-06-30
Baxter Travenol Laboratories Inc.
Blood fractionation apparatus having fluid collection monitoring andfluid return control systems
US4458539A
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1981-12-15
1984-07-10
Baxter Travenol Laboratories, Inc.
Blood fractionation apparatus having collected volume display system
US4481827A
(en)
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1981-12-15
1984-11-13
Baxter Travenol Laboratories, Inc.
Blood fractionation apparatus having collection rate display system
HU186154B
(en)
*
1982-11-04
1985-06-28
Richter Gedeon Vegyeszet
Method and apparatus for detecting on influencing flow characteristics of the solid granular materials
FR2544492B1
(en)
*
1983-04-18
1986-11-21
Manurhin
METHOD AND DEVICE FOR THE PONDERAL DOSING OF A POWDER
US5200090A
(en)
*
1990-03-30
1993-04-06
Baxter International Inc.
Multiple fluid source isolation, metering and alarm system and method
CN110132391B
(en)
*
2019-05-22
2021-07-13
永康市华鹰衡器有限公司
Electronic scale with adjustable measurement precision
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Publication number
Priority date
Publication date
Assignee
Title
US3674097A
(en)
*
1971-03-12
1972-07-04
Howe Richardson Scale Co
Motion detector for weighing apparatus
CH536488A
(en)
*
1971-08-19
1973-04-30
Mettler Instrumente Ag
Dynamometer
US3828869A
(en)
*
1972-08-30
1974-08-13
Frito Lay Inc
Weight control system
FR2203503A5
(en)
*
1972-10-17
1974-05-10
Sartorius Werke Gmbh
US3921736A
(en)
*
1974-04-29
1975-11-25
Hobart Corp
Motion detector for a weighing scale
US3951221A
(en)
*
1974-09-30
1976-04-20
National Controls, Inc.
Computing postal scale
1977
1977-02-23
CH
CH235077A
patent/CH613280A5/xx
not_active
IP Right Cessation
1977-06-25
DE
DE19772728770
patent/DE2728770A1/en
not_active
Withdrawn
1977-06-28
SE
SE7707440A
patent/SE417249B/en
unknown
1977-07-12
NL
NL7707752A
patent/NL7707752A/en
not_active
Application Discontinuation
1977-08-30
US
US05/829,047
patent/US4144943A/en
not_active
Expired – Lifetime
1977-08-30
CA
CA285,817A
patent/CA1094586A/en
not_active
Expired
1977-09-02
GB
GB36720/77A
patent/GB1565024A/en
not_active
Expired
1977-09-13
IT
IT7727476A
patent/IT1084883B/en
active
1978
1978-01-18
FR
FR7801394A
patent/FR2381999A1/en
active
Granted
Cited By (1)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
GB2125645A
(en)
*
1982-08-18
1984-03-07
Sony Tektronix Corp
Method and apparatus for controlling a set point
Also Published As
Publication number
Publication date
IT1084883B
(en)
1985-05-28
FR2381999B1
(en)
1983-10-07
SE417249B
(en)
1981-03-02
CA1094586A
(en)
1981-01-27
FR2381999A1
(en)
1978-09-22
US4144943A
(en)
1979-03-20
SE7707440L
(en)
1978-08-23
DE2728770A1
(en)
1978-08-24
CH613280A5
(en)
1979-09-14
NL7707752A
(en)
1978-08-25
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Legal Events
Date
Code
Title
Description
1980-07-02
PS
Patent sealed [section 19, patents act 1949]
1985-04-24
PCNP
Patent ceased through non-payment of renewal fee