RU49986U1 - LOADING DEVICE - Google Patents

Abstract

The proposed utility model relates to a weight measuring technique and can be used in scales, weighing installations for measuring masses, and in the designs of platform (bridge) scales. New in the utility model is that the latches are made in the form of brackets rigidly connected to the bottom of the platform with an opening for installing a bolt with washers, fixed in the body of the housing, in which there is an insert with the possibility of contact with a finger installed in the housing on the inserts and rigidly connected with base. Design features of the alleged invention allow to obtain a technical result, expressed in simplifying the design, ease of use and lower cost.

Description

The proposed utility model relates to weighing equipment and can be used in scales, weighing systems for measuring masses, in the construction of platform and bridge scales.

Known compensator for the error of the scales set forth in A.S. USSR No. 522419, MKI G 01 G 21/00. It contains a load receiving device mounted on the balance beam with the possibility of movement relative to this beam, and a position lock of the load receiving device, and the load receiving device is made in the form of a lever mounted on an axis in the beam with an eccentricity relative to the load plane and equipped with a force transmission unit, and a position lock load receiving device is made in the form of an elastic element of adjustable stiffness.

The mechanism of platform scales is also known. USSR No. 1793261, MKI G 01 G 21/00. It contains a support for the load platform, articulated on the load shoulders of the levers pivotally connected to the summing rod, an output lever, connecting rods and a base to which the levers are connected through the hinge supports, and the support for the load platform, levers and rods are made in the form of parts at least one first monolithic slab enclosed between at least one pair of holes formed in the same monolithic slab, and the base in the form of at least one second monolithic slab, rigidly scratched captive with fixed parts of the first

monolithic plates, moreover, monolithic plates are made of the same material or materials with the same coefficient of thermal expansion, and the axis of each pair of holes are located in one horizontal plane; and in the slots made holes for removable clips.

Also known suspension load sensor according to ed. St. USSR No. 742717, MKI G 01 G 21/00. On the support rod, a rectangular frame is rigidly fixed, to the upper base of which is located above the load receiving platform, an additional load cell is attached through the pillow, and a height-adjustable stop made in the form of a bolt is installed on the platform, and interacts with the head of the additional load cell.

Of all the known devices of a similar purpose, the closest in technical essence to the claimed utility model is a load-receiving device used for weighing automobile and railway cargo. For example, a load-receiving device is installed in the pit, containing a platform, supports with load-sensing sensors, latches in the form of brackets in which screw stops are placed. The clamps provide an exhibition of gaps from the longitudinal and transverse sides of the platform in the pit in the range of 3-5 mm. However, the large size of the platform, strong temperature fluctuations in winter and summer, as well as day and night, led to the fact that it was necessary to set the required clearance. Or initially a large gap was set, while during the operation of the scales, the platform dangled heavily, force-measuring sensors and supports wore out. This was especially felt when weighing large loads. Thus, the technical result expressed in improving the operational properties and increasing the service life of the device was not provided.

The specified technical result is achieved by the fact that in the known load-bearing device containing the platform, supports with load cells, clamps, the latter are made in the form of brackets rigidly connected to the bottom of the platform with an hole for installing a bolt with washers, fixed in the body of the housing in which the insert with the possibility of contact with a finger mounted in the housing on the liners and rigidly connected to the base.

In the process of searching the sources of technical and patent information, no devices of a similar purpose were found that have this set of essential features with the claimed technical result. Thus, the proposed utility model is a technical solution to the problem that is new and industrially applicable.

Figure 1 shows a General view of the device according to the proposed utility model (option 1).

Figure 2 shows a General view of the device (option 2).

Figure 3 shows a section of the device.

The device according to the proposed utility model contains a bracket 1, welded to the platform 13 (weight bridge). Bracket 3 is welded to base 14 (base). The finger assembly 2 consists of a finger 4, an insert 5, a housing 9. The finger joint 2 is assembled in accordance with the drawings. In this case, the gap between the finger 4 and the insert 5 should not exceed 0.5 mm. The entire finger joint 2 using the adjusting washers 4 is installed in the working position using the bolt 10, washers 11, 12 on the brackets 1, 3. The gap between the liner 5 and the finger 4 is set by selecting the adjusting washers 7. They are selected in different thicknesses local.

The device operates as follows. During operation, the presence of a gap of up to 0.5 mm allows you to fix the platform in the working position without moving relative to the base 14. This provides a technical result, expressed in improving the operational properties and increasing the life of the device.

The unit fixes the load receptor in one direction and provides compensation for thermal expansion in other directions. The load receptor is fixed relative to the center and it is stationary during the collision / exit of the car (car).

When the ambient temperature changes (summer / winter), the load receptor expands / narrows freely, and its center remains stationary relative to the base. The load-receiving device provides a large resource for operating the scales; it does not require adjustments to the clearances in operation.

Previously, in previous load-bearing devices, between the end stops and the support plates of the walls of the foundation, it was necessary to maintain 3-5 mm during the year. At the same time, when the air temperature changed, it was necessary to establish these gaps seasonally, which was difficult, as it required the cost of maintenance.

As an example of a specific implementation, it should be indicated that the scales are designed for static weighing of various cargoes transported by transport. They are used in various sectors of the national economy, including enterprises of industry, transport, trade and agriculture and can be used to carry out trade operations and mutual settlements between enterprises. The principle of operation of the scales is based on the transformation of the gravity of the weighed load located on the load receptor. Via

force-measuring sensors produce an electrical analogue signal proportional to the mass of the load, the value of which is measured by a weight-measuring device. It serves as a source of electrical power for the sensors, and the weighing results are displayed on the display, which is placed on the body of the weighing device. Scales are controlled using the keys on the front panel of the weighing device. Scales are equipped with devices:

- alarms about overload of scales and malfunctions in their work;

- semi-automatic zero setting;

- automatic zero setting;

- sampling of tare mass;

- input tare values from the keyboard;

- output of weighing results to an external electronic device (for example, PC, digital display) using the RS 232C and (or) RS 422 interface. The design of the balance is stationary and mounted on a foundation with supports. They consist of a load receptor with load cells. The number of sensors from 4 to 8 pieces depends on the number of sections and the length of the load receiving device, a set of electrical connecting cables and a weight measuring device.

Claims (1)

A load-receiving device comprising a platform, supports with sensors, clamps, characterized in that the clamps are made in the form of brackets rigidly connected to the bottom of the platform with an opening for mounting a bolt with washers, fixed in the body of the housing, in which the insert is located with the possibility of contact with a finger installed in the housing on the liners and rigidly connected to the base.