专利检索_.配重件砝码成套的砝码砝码的夹持器专利检索_.配重件砝码成套的砝码砝码的夹持器专利检索查询

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
181	WEIGHING DEVICE	JP2876781	1981-03-01	JPS57144425A	1982-09-07	OOMURA SHIYUUJI
PURPOSE:To perform the changing of setting of weighing values easily by holding plural pieces of weights, and mounting these by changing the respective weight stepwise. CONSTITUTION:When a motor 47 is run, its motion is transmitted to a speed change gear 48, a pinio gear 44, etc., and two pieces of elevating bars 41, 41 ascend at the same speed. Then, detaining pieces 42a abut to the small diameter parts of the step holes 35d of a weight 35a and lift the weight 35a, thereby changing the state initially loaded with he weights 35a, 35b, 35c on a balance beam 33 to the state loaded with two pieces of the weights 35, 35c, and resulting in the decreased weighing value. When the bars 41, 41 are further moved upward, the weight 35b is lifted by detaining pieces 42b, and only the weight 35c is loaded on the beam 33. In this way, it is possible to set the desired weighing value by moving the bars 41, 41 by properly driving the motor 47.
182		JP13939077	1977-10-19	JPS5466589U	1979-05-11

183		JP7498677	1977-06-06	JPS541453U	1979-01-08

184		JP9410672	1972-08-10	JPS53999Y2	1978-01-12

185		JP461674	1973-12-26	JPS5092771U	1975-08-05

186		JP1553470	1970-02-16	JPS509020Y1	1975-03-18

187	Livestock weighing device	US15435023	2017-02-16	US10473514B1	2019-11-12	Jerry L. Ostermann
A livestock weighing device that performs a secondary operation such as marking animals having a desired minimum weight with a visual indicia to aid sorting thereof. The weight of an animal moving across the platform actuates a cable system to move a shuttle associated with an actuator. The actuator changes condition to initiate a secondary operation, such as opening an outlet valve for a container of paint to dispense a quantity of paint onto the animal supported on the platform, when the sled is moved in a predetermined direction and the animal weighs more than the minimum required weight.
188	Carrier unit for a weight switching device and weighing cell	US14273973	2014-05-09	US09546899B2	2017-01-17	Sigo Muelich; Ulrich Bajohr; Thomas Fehling
A carrier unit for a weight switching device includes a first shift weight carrier (34-1) which moves vertically in relation to a base, for vertically mounting a first shift weight arrangement (22-1R, 22-1L) which has two spaced-apart, parallel carrier arms (30-1R, 30-1L) connected by a bridging piece (32-1). A second shift weight carrier (34-2R, 34-2L) for vertically mounting, with play, a second shift weight arrangement (22-2R, 22-2L) which likewise has two spaced-apart, parallel carrier arms (30-2R, 30-2L) connected by another bridging piece (32-2), is likewise arranged in a vertically movable manner in relation to the base. The carrier arm pair (30-1R, 30-10 of the first shift weight carrier (34-1) is arranged between and parallel to the carrier arm pair (30-2R, 30-2L) of the second shift weight carrier (34-2), and each shift weight carrier (34-1; 34-2) is articulated to a common crosspiece (12) by two parallel links (23-1R, 23-1L; 23-2R, 23-2L).
189	Systems and methods for calibrating a load cell of a disk burnishing machine	US14200666	2014-03-07	US09389135B2	2016-07-12	Jinmin Zhao
Systems and methods for performing in situ testing of a load cell disposed within a disk burnishing machine are provided. One such system includes a load cell bracket attached to a component of the disk burnishing machine, where the load cell is mounted within the load cell bracket and has a force measuring surface. The load cell bracket can be oriented such that the force measuring surface faces a direction that is about opposite to a direction of gravity. The system can further include a preselected weight and a weight holder configured to receive the preselected weight, to be mounted to the load cell bracket, and to be aligned with the load cell. The preselected weight can be positioned within the weight holder and on the force measuring surface of the load cell. The load cell can then be tested, calibrated, and/or replaced if necessary.
190	Map data processing unit	US11023543	2004-12-29	US20050114019A1	2005-05-26	Masaharu Umezu; Tomoya Ikeuchi; Makoto Mikuriya; Mitsuo Shimotani
A map data processing unit includes a batch update section and dynamic update section. A type of update data fed from an update data input section is decided using header information. If the update data is route search data, the batch update section collectively updates all the map data to latest version map data according to the update data from the update data input section. If the update data is not the route search data, the dynamic update section updates the map data to the latest version map data according to the update data every time the map data becomes necessary. Thus performing the collective or dynamic update according to the type of the update data enables the update to the latest map data without affecting the operation speed of a navigation function, with minimizing the time precluding the use of the navigation function.
191	Load receiver and loading stage for a balance, and mass comparator equipped with the load receiver and loading stage	US10002930	2001-11-15	US06864438B2	2005-03-08	René Weber
A load receiver (10) for a balance with arms (11) is designed to support weights of various shapes and sizes (13, 14, 15, 16) by cradling the weights in a depression sloped at a variable slope angle towards the middle of the load receiver. A loading stage (1) arranged to cooperate with the load receiver (10) has one or more weight-placement devices (5) designed so that the load receiver (10) can reach through the weight-placement device (5) without touching the latter. The loading stage (1) and the load receiver (10) are moveable up and down in relation to each other. The weight-placement device (5) is suitably configured to support the different weights (13, 14, 15, 16). The load receiver (10) and loading stage (1) are used in a mass comparator for testing weight standards with a high degree of precision.
192	Apparatus for depositing and lifting off of a reference weight in an electronic scale	US122960	1987-11-19	US4766965A	1988-08-30	Paul Luchinger
An apparatus for depositing of reference weights in an electronic scale consisting of two levers swivelable around vertical axes, one end of each lever is always in contact with a cam disc attached on a vertically disposed shaft and the other end of which is developed as a gliding shoe which may be pushed below the lifting tray. By rotating the cam shaft, the lifting trays cause the reference weights to be deposited by the cam discs at first each individually one after the other and then jointly onto the carriers.
193	Testing weights for the scales of egg-grading machines	US58766956	1956-05-28	US3001598A	1961-09-26	HENZLER WERNER H

194	Dead-weight machine	US66808657	1957-06-26	US2925728A	1960-02-23	MACDONALD DENNISON H

195	Balance weight	US32468628	1928-12-08	US1766466A	1930-06-24	SNELLING WALTER O

196	Method of calibrating weights	US8072226	1926-01-12	US1726931A	1929-09-03	SNELLING WALTER O

197	Method and structure for analytical measuring of weights	US51251221	1921-11-03	US1532136A	1925-04-07	GRAF ERNEST L

198	KALIBRIERGEWICHT UND VERWENDUNG EINES BAUTEILS ALS KALIBRIERADAPTOR	EP19709709.0	2019-03-07	EP3769055B1	2023-02-15	STÄNDER, Malte

199	APPARATUS AND METHOD FOR SITUATION DEPENDENT WHEEL ANGLE CONTROL (HAD OR ADAS)	EP17161795.4	2017-03-20	EP3378733A1	2018-09-26	Johannesson Mårdh, Lars; Häglund, Malin
This disclosure relates to an apparatus (1) and a method for situation dependent wheel angle (δ_w) control by a HAD or ADAS system (2) of a road vehicle (3) being arranged to output a desired path (5) and to receive internal state data (10) and at least one of ambient information (6) and map data (8) and to generate a penalty measure (32) based thereupon and. A lateral controller (4) receives the desired path (5), and outputs a wheel angle request (δ_w,r). A PSCM (12) comprises a wheel angle controller (13) arranged to receive as inputs the wheel angle request (δ_w,r), wheel angle (δ_w) and wheel angle rate (δ̇_w) data, and to output an overlay torque request (14) to a motor controller (15) of a steering system (16). The lateral controller (4) calculates gain parameters (I_δw, I_δ̇_w), based on the penalty measure (32) and outputs these to the wheel angle controller (13). The wheel angle controller (13) receives and uses the gain parameters (I_δw, I_δ̇_w) in control loops thereof to adjust the bandwidth of the wheel angle controller (13).
200	TRÄGEREINHEIT FÜR EINE GEWICHTSSCHALTUNGSVORRICHTUNG UND WÄGEZELLE	EP12769925.4	2012-09-21	EP2776796A1	2014-09-17	MÜHLICH, Sigo; BAJOHR, Ulrich; FEHLING, Thomas
The invention relates to a carrier unit for a weight switching device and an electronic weighing cell comprising a first shift weight carrier (34-1) which is vertically movable in relation to a base, for vertically mounting, with play, a first shift weight arrangement (22-1R, 22-1L) which has two spaced-apart, parallel carrier arms (30-1R, 30-1L) connected by means of a bridging piece (32-1). The invention is characterized in that a second shift weight carrier (34-2R, 34-2L) for vertically mounting, with play, a second shift weight arrangement (22-2R, 22-2L) which likewise has two spaced-apart, parallel carrier arms (30-2R, 30-2L) connected by means of a bridging piece (32-2), is likewise arranged in a vertically movable manner in relation to the base, wherein the carrier arm pair (30-1R, 30-1L) of the first shift weight carrier (34-1) is arranged between and parallel to the carrier arm pair (30-2R, 30-2L) of the second shift weight carrier (34-2) and wherein each shift weight carrier (34-1; 34-2) is articulated to a common crosspiece (12) by means of two parallel links (23-1R, 23-1L; 23-2R, 23-2L) which are arranged outside the two carrier arm pairs (30-1R, 30-1L; 30-2R, 30-2L), parallel to the latter and enclosing the latter between one another, and are connected to the shift weight carrier (34-1; 34-2) at their free ends.

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