RU2110776C1 - Electronic commercial balance - Google Patents

Abstract

FIELD: weight measuring commercial equipment. SUBSTANCE: balance has base 1 with weighing mechanism 3, load-receiving platform 4, and bowl 5. Digital indicators of mass, cost and price along with keyboard are positioned in body 7 on U-shaped upright 8 which is coupled to base and body by turning hinges 9 and 11 and is provided with locks for operating and transportation positions. For transportation of balance, bowl is hinged out, upright locks are released, and body 7 of indicators is placed in space 24 provided under bowl in load-receiving platform. Then bowl is returned to its place and locked by latch. In this case, middle part of U-shaped upright protruding from base forms balance carrying handle. EFFECT: higher accuracy. 2 cl, 3 dwg

Description

 The invention relates to weight measuring commercial equipment intended primarily for outbound and tray trading.

 Known portable mechanical scales containing a loading platform, a weighing mechanism and an output lever associated with a pointer, in which to increase the convenience of transportation, the output lever with a pointer is made in the form of a mobile frame with roller bearings, allowing to reduce the dimensions of the scales (ed. St. USSR N 513264, CL G 01 G 21/16, 1974).

 Such scales are bulky in any transformation and do not meet modern requirements for measurement accuracy.

 The closest in their technical essence are electronic trading scales, consisting of a base with adjustable supports mounted on the basis of a weight mechanism with a loading platform and a bowl, an electronic unit with digital indicators of mass, price and cost of goods and keyboards for managing and entering data. In these scales, the body of the electronic unit is mounted on a rack pivotally connected to the base, and the keyboard is located on the body (Operation manual for desktop electronic scales such as BP 4149, Tambov: State Publishing House "Publishing Department", 1994).

 To bring the known scales into working position, the rack with the electronic unit is installed in a vertical position, for which the unit with the rack is lifted up to their fixation by the stopper.

 Storage and transportation of these scales is allowed only in packaged form. To do this, squeeze the lock stopper, gently lower the rack with the electronic unit onto the bowl of the load receiving platform and place the scales in the package.

 The disadvantage of the technical solution of the prototype is the inconvenience of their transportation, associated with large dimensions when folded, the need to pack the scales during each transportation and the absence of structural elements for carrying by hand. In addition, when packaging the scales, it is necessary to take measures to exclude mutual movements of the rack with digital indicators, the electronic unit and the body of the balance, and to protect the indicators and keyboard from mechanical damage.

 The main technical problem to which the invention is directed is to increase the convenience of transportation and the security of the structure from damage in non-stationary conditions.

 At the same time, while maintaining the accuracy characteristics inherent in modern electronic scales, a structure protected from damage during storage and transportation should be obtained, the convenience of carrying the scales manually, which is important during outbound trading, and the service life should be increased due to the better preservation of digital indicators and keyboards .

This technical result is achieved due to the fact that in electronic trading scales containing a base with a weighing mechanism mounted on it, a loading platform and a bowl, as well as digital indicators of mass, price and cost of the product for the buyer and seller, and the keyboard, which are located in the case, placed on a stand connected to the base by means of a swivel joint, said stand is made in the form of a U-shaped tube,
a hole is made in the side of the base to accommodate one end of the rack, which is connected to the base by means of a swivel joint made with a lock of two rack positions, a hole is made in the side of the housing to accommodate the other end of the rack, which is connected to the body, in the load platform under the cup a cavity for housing, the first side surfaces of the bowl and the loading platform are interconnected by loops, and the second side surfaces, placed opposite the first, are protected a Christmas tree, and in the base of the load-receiving platform, slots are made for the second end of the U-shaped rack, and also due to the fact that the second end of the U-shaped rack is connected to the body by means of a second swivel joint made with a lock of two or more rack positions.

 In FIG. 1 shows the scales when folded, top view; in FIG. 2 - section aa; in FIG. 3 - U-shaped rack with details of swivel joints and latches.

 On the basis of 1 (Fig. 1 and 2) with adjustable supports 2, a weight mechanism 3 is installed, which is a vibration-frequency force transducer. A load receiving platform 4 with a bowl is fixed on the weighing mechanism. Digital indicators 6 of weight, price and value are located in the housing 7, there is also an electronic unit and a keyboard.

 The housing 7 is mounted on a rack 8, made in the form of a U-shaped tube, which is connected by a swivel joint 9 with the base 1 of the scale. For this, a hole is made in the side of the base 10. The connection of the indicator case 7 to the stand 8 can be rigid or movable using the same second swivel joint 11. The latter option is advantageous, since it allows you to choose the most convenient working position of the indicators and keyboard.

 In FIG. 3 depicts a U-shaped rack 8, details of the swivel joint 9 with a rack position lock and a hinge 11 with a rack position lock in assembled form. The hinge 9 with a latch includes guide bushings 12 and 13 connected to each other and to the base 1 by a pair of squares 14, a sleeve 15 with protrusions 16, 17 and a coil spring 18. The sleeve 12 has a protrusion 19. The lateral surfaces of the protrusions of the sleeves 12 and 15 are made inclined, the angle of inclination of the side surfaces relative to the axis of the bushings is less than the angle of friction. The width of the tip of the protrusion 19 is slightly greater than the width of the bottom of the depressions 20 and 21, and its height is approximately equal to the height of the protrusion 16 and approximately twice as high as the height of the protrusion 17. The end sections of the U-shaped rack 8 have thinning, the diameters of which provide a landing fit with bushings 12 and 13 .

 The swivel hinge 11 with a position lock is identical to the hinge 9 and differs only in the relative angular arrangement of the depressions on the sleeve 22. In addition, the number of depressions can be more than two, i.e. not only for fixing the working and transport positions, but also for additional provisions of the housing 7.

 When assembling the hinge 9, the end of the rack 8 is inserted into the holes of the bushings 12 and 13. At the same time, the sleeve 15 and the coil spring 18 are put on the end of the rack 8. The sleeve 15 is fixed to the rack 8 by screws so that the protrusion 19 is in the cavity 21, while the distance from the end 22 to the shoulder 23 on the stand 8 should be less than the distance from the top of the protrusion 19 to the top of the protrusion 17, but greater than the distance from the top of the protrusion 19 to the top of the protrusion 16. The hinge 11 is assembled in a similar manner.

 Hinges 9 and 11 made in this way with clamps can be classified as clamps with rigid forced fixation (Verkovich G.I. et al. Handbook of Precision Instrumentation Designer. / Under the general editorship of K.N. Yavlensky et al. - L .: Engineering, Leningrad.dep., 1989, p. 433-435). In addition, at the same time they serve as limiters of the angles of rotation of the rack 8 relative to the base 1 and the housing 7 relative to the rack 8.

 Under the weighing pan 5 in the loading platform 4, a cavity 24 is made, corresponding in shape and size to the indicator body 7, while in the side of the loading platform and at the base of the 1 weight of the cavity, slots 25 and 26 are made to accommodate the end of the rack 8 supporting the indicator housing .

 Bowl 5 scales connected to the load platform with a pair of loops 27 and located on the opposite side of the latch 28.

 Work with scales begins with bringing them into working position. To do this, the operator (seller) installs them on a horizontal surface, opens the latch 28 and flips the bowl 5 scales, turning it on the hinges 27. Then, pressing the U-shaped rack 8 in the direction of the base 1 of the balance along the axis of the hinge 9, he overcomes the resistance of the cylindrical the spring 18, moves the rack with the sleeve 15 mounted on it in the axial direction relative to the bushings 12 and 13, thereby removing the cavity 21 from engagement with the protrusion 19, rotates the rack 8, bringing the indicator housing 7 from the cavity 24 to the upper position and weakens clamp on a rack. Under the action of the force of the spring 18, the strut 8 with the sleeve 15 moves in the axial direction, the cavity 20 covers the protrusion 19 and the strut 8 is fixed in the upper position.

 Then the operator by pressing on the housing 7 in the direction of the U-shaped rack along the axis of the hinge 11 unlocks its latch and rotates the housing 7 indicators in the working position. After this, the bowl 5 returns to its normal position and is secured by a latch 28. The balance is additionally horizontal and ready for weighing.

 Bringing the balance into transport position is carried out in the reverse order.

 In the folded position, the middle portion of the U-shaped stand protruding from the base of the scale forms a handle used to carry the scale.

 Thus, the invention allows to protect the most vulnerable nodes during transportation - the housing 7 with a keyboard located on it and indicators 6. The design of the rack 8 allows you to use it as a handle for carrying weights, and additional fixed positions of the housing 7 of the indicators provide convenience when working on counters of various height. Moreover, the swivel connection of the indicator housing with the rack made it possible to select and fix such a position in the folded state, which reduced the overall vertical size of the balance. In fact, this reduced the vertical clearance by 20 mm.

Claims (2)

 1. Electronic trading scales containing a base with a weight mechanism mounted on it, a loading platform and a bowl, as well as digital indicators of mass, price and cost of the product for the buyer and seller, and a keyboard that are located in the housing placed on the rack, and the rack is connected to the base by means of a swivel joint, characterized in that the stand is made in the form of a U-shaped tube, a hole is made in the side of the base to accommodate one end of the stand, which is connected to the base by means of a swivel hinge made with a lock of two rack positions, a hole is made in the side of the housing to accommodate the other end of the rack, which is connected to the housing, a cavity for housing is made in the load platform under the bowl, the first side surfaces of the bowl and load platform are interconnected by loops and the second side surfaces, located opposite the first, by a latch, and in the base and the loading platform, slots are made for the second end of the U-shaped strut.  2. The balance according to claim 1, characterized in that the second end of the U-shaped rack is connected to the housing by means of a second swivel joint made with a lock of two or more rack positions.

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