RU80562U1 - Shockproof Scales - Google Patents

Abstract

The utility model relates to weight measuring equipment and can be used in industry, mainly in metallurgical production, which is characterized by shock type overloads.

The utility model is based on the task of creating the design of scales, allowing to expand the range of sensors used in impact-resistant scales and to provide reliable protection against horizontal components of the load upon impact.

This goal is achieved by the fact that impact-resistant scales contain a load receiving platform resting on the load cells mounted on the base and connected to the weighing terminal through damping nodes and support links. The damping unit is made in the form of a glass and a plunger that enters the glass to form a cavity, inside of which there is a damping element consisting of a set of rubber plates and metal elements made in the form of a plate connecting with a hemisphere in contact with a rubber plate, the volume of which is 15-20 % more metal element. The scales have adjustable stops for moving the platform in the vertical plane, which are placed at the corners of the cargo receiving and adjustable stops for moving the platform in the horizontal plane. Support links can be made in the form of a pendulum support.

This design of the scales has the versatility of using a damping assembly for various loads and allows you to increase the life of the balance by increasing the durability of the damping assembly.

Description

The utility model relates to weight measuring equipment and can be used in industry, mainly in metallurgical production, which is characterized by shock type overloads.

A device of shock-resistant scales according to patent No. 67710 is known, containing a load receiving platform, resting on load cells mounted on the base and connected to the weight terminal through protective blocks. Each protective block is made in the form of two cavities facing each other, inside of which there is a damping element, one cavity mounted on a load receiving platform, and the other connected to a load receiving device of the load cell. As a damping element, a set of alternating metal and rubber plates can be used, as well as a twisted or plate spring, or a rubber or plastic insert; or cutting rubber or plastic tubes. The damping element may be sealed rubber or plastic volumes filled with gas or liquid.

The disadvantage of this device is that the design of the damping unit in the form of two glasses with a common spring provides for the interaction of the walls of the cavities with the damping element, which will lead to a decrease in the resource of the damping unit and the balance as a whole. This design of the scales is not adequately protected from the action of horizontal shock loads.

The closest in technical essence to the proposed device is the device of impact-resistant scales according to patent No. 63058, containing a load receiving platform, supported through damping nodes on load cells mounted on the base and connected to the weight terminal. Thrust bolts with locknuts are mounted with the possibility of rotation until they come into contact with a loaded loading platform and are placed at the corners of the loading platform. Each damping unit is made in the form of two glasses with bottoms, a common spring and a connecting axis. The damping nodes through the supporting links are connected to the load cells of the beam type, and under the supporting links on the base there are adjustable stroke limiters.

The disadvantage of this device is that the design of the damping unit is intended for only one type of sensor, namely the beam type. This design of the damping unit when exposed to the horizontal component from the impact of shock loads has a long time to calm the oscillations up to several tens of seconds. All this limits the use of this device by weight.

The utility model is based on the task of creating the design of scales, allowing to expand the range of sensors used in impact-resistant scales and to ensure their reliable protection against the horizontal component of the load upon impact. This reduces the time of calming the damping node. This design of the scales has the versatility of using a damping assembly for various loads and allows you to increase the life of the balance by increasing the durability of the damping assembly.

This goal is achieved by the fact that impact-resistant scales contain a load receiving platform resting on the load cells mounted on the base and connected to the weighing terminal through damping nodes and support links. The damping unit is made in the form of a glass and a plunger that enters the glass with the formation of a cavity, inside of which there is a damping element consisting of a set of rubber plates and metal elements made in the form of a plate connecting with a hemisphere in contact with a rubber plate, the volume of which is 15-20 % more metal element. The scales have adjustable stops for moving the platform in the vertical plane, which are placed at the corners of the cargo receiving and adjustable stops for moving the platform in the horizontal plane. Support links can be made in the form of a pendulum support.

The implementation of the damping unit in the form of a glass and a plunger included in the glass, and the design of the damping element in the form of a set of rubber plates and metal elements, made in the form of a connection of the plate with a hemisphere in contact with the rubber plate, can effectively absorb the impact energy. The metal element has a hemispherical surface, the diameter of which is less than the diameter of the glass of the damping assembly. The volume of the metal element is 15-20% less than the elastic, i.e. free

the cavity between the elastic and metal elements, which can be filled with an elastic element under the action of a load. The shape of the metal elements allows for smooth damping under the action of shock loads and, accordingly, to increase the service life of the damping assembly, which increases the lifetime of the balance as a whole.

The design of the damping unit allows you to provide optimal damping time under the action of shock loads during weighing. The number of metal and elastic elements can vary depending on the size of the received load for weighing, i.e. determine the amount of stroke under the action of various loads. This design of the scales allows you to vary loads that are multiples of the largest weighing limits (LEL) for this type of load cell. The universality of the design of the damping unit is achieved. The design of the damping unit and stops restricting the movement of the load platform in the vertical plane compensates only for the vertical component of the load, and the support links and stops located on the base dampen the horizontal component of the receiving load. This separation of functions allows you to increase the life of the damping unit by 20%. The device is as follows:

Figure 1 shows the position of the platform relative to the base with built-in damping nodes, support links and load cells

Figure 2 shows the limiter to move the platform in the vertical plane, Figure 3 shows the limiter to move the platform in the horizontal plane.

Figure 4 shows the connection of the support link with strain gauges of various types, where the support link is made in the form of a pendulum support.

In Fig. 5, the supporting link is made with a compression strain gauge and with a beam type strain gauge.

The load receiving platform 1 is supported by four damping assemblies 2 of FIG. 1, made in the form of a cup 3 and a plunger 4. entering the glass, forming a cavity 5, where the damping elements 6 and 7 of FIG. 4 are located.

The damping unit 2 of FIGS. 1, 4 consists of a set of metal elements 6, made in the form of a connection of a plate with a hemisphere that is in contact with a rubber plate 7 (Fig. 4.). The damping unit is connected to the base through the supporting links 8 of FIGS. 1, 5, which are made in the form of a pendulum support and in this case a beam type strain gauge 9 and a compression strain gauge 10 of FIG. 5 can be used. The load cells are connected to a weight terminal (not shown). On the basis of there are limiters for moving the platform in a vertical plane, type A of FIG. 2, containing thrust bolts with locknuts 11 and a thrust bearing 12, which enable rotation before contact with a loaded load-bearing platform. Thrust bolts placed on the corners of the load platform of figure 1. On the base 13, stroke limiters are also installed that regulate the position of the platform in the horizontal plane, view B, Fig. 3, containing a stop bolt 14 with a lock nut 15, mounted on the bracket 16. The device operates as follows:

In the presence of a load, the force from the load receiving platform is transmitted through a damping unit and supporting links to a load cell connected to the weight terminal.

If the load is superimposed on the scales with impact on the upper frame of the load receiving platform or falls on it from a certain height, then the peak of the shock load is suppressed by the damping unit, i.e. located in it damping elements in the form of a set of metal and elastic plates. The remaining part of the shock load is compensated by the stroke limiters in the vertical plane, made in the form of thrust bolts, on which the load receiving platform "sits". After some calm time (4-6 seconds), the load receiving platform returns to its original state and weighing takes place. The maximum load (i.e., LEL or 1.25 LEL) is adjusted by the position of the stop bolts of FIG. 2.

A rigid connection of the glass with the plunger included in it makes it possible to absorb the impact energy due to elastic elements located in the cavity of the damping unit. This design of the damping unit and the limiters of the vertical movement of the load receiving platform allows you to fully extinguish the vertical component from the action of the load.

The implementation of the damping element in the form of a set of metal and elastic elements located in the inner cavity of the damping unit allows you to vary any number of them, i.e. determine the amount of stroke under the action of various loads. If necessary, you can vary the number of both metal and elastic elements from the condition of the necessary stroke

damping device for a certain type of load. For example, the alternation of 3 metal and 3 elastic elements gives the course of the damping unit (15-30) mm.

With static weighing and, especially, with dynamic weighing, mechanical restraints of the movement of the load receiving platform in the vertical plane do not fully protect the load cell from breakage due to the possible increase in the gaps in the limiters upon impact. The proposed device weights also provides for the damping of the impact and the horizontal component of the load due to the support links. The implementation of the supporting links in the form of a pendulum support, through which the action of the load from the damping node is transmitted to the load cell, provides damping of lateral forces arising from impacts. This eliminates the appearance of the tangential component of the force from the applied load. To limit overloads in the horizontal direction, lateral movement stops are provided, also made in the form of stops, type B of FIG. 3.

The design of the proposed scales allows you to reliably protect the load cells of the scales from both the vertical and horizontal components of the load when moving the load receiving platform. In this case, the influence of lateral forces and forces acting in the vertical direction is minimized. Thus, the proposed device scales in comparison with the prototype provides an increase in the service life of the balance and has the versatility in the use of a damping device for various values of loads in certain intervals and the use of various types of sensors.

Claims (3)

1. Impact-resistant scales containing a load receiving platform, supported through damping units and support links on load cells mounted on the base and connected to a weighing terminal, adjustable vertical movement limiters of the platform placed at the corners of the load receiving platform, characterized in that the damping unit is made in the form of a glass and a plunger that enters the glass with the formation of a cavity inside which a damping element is located, and on the basis of which adjustable stoppers are made platform movements in the horizontal plane. 2. The impact-resistant scales according to claim 1, characterized in that a set of rubber plates and metal elements are used as a damping element, made in the form of a connection of a plate with a hemisphere in contact with a rubber plate, the volume of which is 15-20% more than a metal element. 3. Impact-resistant scales according to claims 1 and 2, characterized in that the supporting links are made in the form of a pendulum support.