KR950009159Y1 - Protector cover of load cell - Google Patents

Abstract

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Description

Load cell device with protective cover

1 is an exploded perspective view of a load cell device having a protective cover according to the present invention.

2 is an enlarged cross-sectional view of the coupled state of FIG.

* Explanation of symbols for main parts of the drawings

10: rod snow element (element) 11: sensing element

20: cover body 21: receiving portion

22: annular protrusion 23,33: first and second insertion hole

24,34: 1st, 2nd diaphragm 30: cover cover

32: annular casting M: waterproofing material

The present invention relates to a load cell device used for tensile load measurement, and more particularly, to a load cell device having a protective cover that protects the load cell element from external force or impact.

All existing load cells for tensile load measurement have a structure in which the whole body is exposed to the outside as it is.

Because of this, the load cell is always susceptible to external forces or shocks. In particular, the load cell has a disadvantage that is vulnerable to the lateral force. Therefore, when the load cell is provided for the tensile load measurement, even if a weak external force acts as a factor that degrades the precision of the tensile force measurement, there is a problem that cannot obtain accurate tensile force measurement. In addition, if the load cell is damaged due to a severe impact, there is a closed end that the load cell itself cannot be used. In addition, the waterproof and moisture-proof by the external exposure of the load cell is unprotected at all edges, which is also a factor of lowering the precision of the load cell.

In addition, the existing load cell also has a problem that it is difficult to accurately measure the tensile force by interference of the cable connected to the load cell body.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a load cell device having a protective cover that covers the entire load cell body in order to protect the load cell from external force, impact, or moisture penetration.

The present invention also provides a load cell device having a protective cover provided with a cable support tube to protect the load cell from cable interference.

Features of the present invention for achieving the above object, and the load cell body forming a roughly r-shape and fastening holes are formed on both sides. A cylinder is formed to form a container having a size capable of accommodating the load cell body, and one side of the cylinder has an opening having an annular protrusion at the periphery thereof, while the other side has a first insertion hole which is made to coincide with any one of the fastening holes. The cover body closed by the first diaphragm formed, and is coupled to the cover body to receive the load cell body hermetically, and one side forming the same cylinder as the cover body has an annular yoke coupled to the annular protrusion at the periphery While the opening is formed, the other side is in a load cell device having a protective cover including a cover cover closed by a second diaphragm having a second insertion hole formed to coincide with any one fastening hole.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a load cell device having a protective cover according to the present invention.

1 is an exploded perspective view of a load cell device having a protective cover according to the present invention. Load cell device having a protective cover according to the present invention is a load cell body 10 (Element), the cover body 20 and the cover body 30 to cover the cover body 20 and the cover body 20 to receive and protect the load cell body 10 ). In the center of the load cell body 10, a sensing element 11 (sensing element is generally provided with a strain gauge provided to detect a deformation amount of the load cell body 10 when a tensile load is applied to the load cell body 10. Strain Gages] are attached. These sensing elements 11 are connected to lead wires of a cable (not shown) connected to the cable connection hole 12 provided on one side of the load cell body 10. The electrical signal of the deformation amount (momentum amount) of the load cell body 10 sensed by the sensing elements 11 is transmitted to a monitor (not shown) through a cable, not shown, to appear as a numerical value or a signal.

Fastening holes 15A and 15B are provided on both upper and lower sides of the load cell body 10, respectively, and the first and second fastening holes 15A and 15B have bolt shapes. The first and second connectors 16A and 16B are respectively fastened. In addition, the first and second connection holes 16A and 16B are provided with first and second connection screw holes 17A and 17B, respectively. The connection screw 17A, 17B is coupled to the tension member for measurement not shown to exert a tensile load on the load cell body 10, the load cell body 10 is measured by pulling the tension members from both sides The tensile load will be applied. The cover body 20 has a cylindrical structure provided with a receiving portion 21 to accommodate and protect a portion of the load cell body 10 therein. One side of the cover body 20 constituting the cylindrical structure is open to freely insert the load cell body 10 into the receiving portion 21, while the other side is closed.

The closing part of the cover body 20 serves as a first diaphragm 24 having a predetermined ballistic force, and a first connector 16A is disposed at the center of the first diaphragm 24 of the load cell body 10. The first insertion hole 23 provided in the fastening to the first fastening hole 15A is provided. In addition, an annular protrusion 22 is formed at the periphery of the opening of the cover body 20. On one side of the main wall of the cover body 20, a cable support tube 25 which is in contact with the cable connection hole 12 provided in the load cell body 10 is detachably installed. Therefore, the cable not shown for transmitting the detection signal coupled to the cable connection hole 12 of the load cell body 10 extends to the outside while being supported by the cable support pipe 25.

The cover cover 30 is combined with the cover body 20 to form a fuselage structure having the same diameter as the cover body 20 to hermetically receive the load cell body 10. Cover cover 30 constituting the fuselage structure also has one side open like the cover body 20, while the other side is closed. The closing portion of the cover cover 30 serves as a second diaphragm 34 having a predetermined elastic force as in the cover body 20, the second connector 16B in the center of the second diaphragm 34 To the second fastening hole 15B of the load cell body 10 is provided with a second insertion hole 33 is provided. In addition, the opening periphery of the cover cover 30 is provided with an annular recess 32 for engaging with the annular projection 22 of the cover body 20.

2 is an enlarged cross-sectional view of the state combined with the first view. Referring to Figure 2 will be described the assembly process and the effect of the load cell according to the present invention.

First, the assembling process will be described. The load cell body 10 is accommodated in the receiving portion 21 of the cover body 20, so that the first fastening hole 15A of the load cell body 10 has the first diaphragm 24. And vertically aligned with the first insertion hole (23). The first connector 16A is inserted into the first fastening hole 15A and the first insertion hole 23 to be fastened. By the fastening of the first connector 16A, the load cell body 10 and the cover body 20 are maintained in an integrated state. In addition, the cable not shown is connected to the cable connection hole 12 of the load cell body 10 via the cable support tube 25 before the load cell body 10 is received in the cover body 20. Lead wires of a cable (not shown) are connected to each of the sensing elements 11 in the load cell body 10. The cover body 20 is disposed on the cover cover 30 and the cover cell 30 is partially exposed to the outside. The cover cover 30 is positioned to seal the load cell body 20 partially exposed to the outside. To be accepted as an enemy. The cover cover 930 also covers the load cell body 10 by matching the second insertion hole 33 in the portion of the second diaphragm 34 with the second fastening hole 15B of the load cell body 10. . The second connector 16B is inserted into the second fastening hole 15B and the second insertion hole 33 to be matched to each other. As a result, the cover body 20 and the cover 30 maintain the integrated state in a state of completely protecting the load cell body 10. In addition, when the cover cover 30 is coupled to the cover body 20, the annular protrusion 22 of the cover body 20 is coupled to the annular yoke 32 of the cover cover 30.

At this time, since the cover cover 30 forms a state supported by the load cell body 10 when the cover body 30 is coupled with the cover body 20, the cover cover 30 is coupled to be slightly spaced apart from the cover body 20. As a result, a predetermined gap d is formed between the annular urine 32 and the protrusion 22. Due to this gap (d), the external force applied to the cover body 20 and the cover 30 is not continuously transmitted and is in a state of being disconnected from any one cover. Also, by filling the gap d with a waterproof or moisture-proof material M (for example, silicon), moisture and the like cannot be penetrated into the load cell body 10.

The method of using the assembled load cell combines the tension member for measurement, not shown, into the first and second connection screw holes 17A and 17B installed in the first and second connectors 15A and 16A. Subsequently, when the tension member (not shown) is pulled from both sides, the first and second diaphragms 24 of the cover cell 30 integrally coupled to the load cell body 10 and the gland load cell body 10 by the tension force at this time. , 34) is deformed outward. At this time, the amount of deformation (momentum) is quickly sensed by the sensing elements 11 in the load cell body 10, and the sensing signal is sent to a monitor through a cable (not shown) connected thereto so that the measurer can know. It is indicated by the value or signal of. This makes it possible to know the tensile load value. Since the momentum of the load cell body 10 detected by the sensing elements 11 is represented by a numerical value or a signal, the detailed description is omitted.

In this way, the load cell of the present invention is protected by the cover combined with a certain gap (d) is provided in the tensile load measurement. Therefore, since the load cell can be safely protected from direct external force or impact, more accurate tensile load measurement can be obtained.

Moreover, even if a lateral force, which is a vulnerability of the load cell, acts on the cover, the lateral force at this time is not self-continuous by the gap d, and thus is self-defense in each cover, so that the direct lateral force is not applied to the load cell body.

In addition, since the cable connected to the load cell body is fixedly supported by the cable support tube 25, there is also an effect that the load cell body is free from interference due to cable flow. In addition, the waterproof material filled in the cover body provides the effect of maintaining the load cell at all times under any conditions.

Claims (3)

A load cell body 10 having a substantially R-shape and fastening holes 15A and 15B formed at both sides; forming a cylinder for forming an accommodating part 21 having a size capable of accommodating the load cell body. One side is formed with an opening having an annular protrusion 22 at its periphery, while the other side is closed with a first diaphragm 24 having a first insertion hole 23 made to coincide with any one fastening hole 15A. A cover body 20; And coupled to the cover body to receive the load cell body in a hermetically sealed body, such as the cover body formed on one side has an opening having an annular yoke 32 coupled to the annular projection 22 on the periphery, The other side of the load cell device having a protective cover including a cover cover 30 closed by a second diaphragm 34 is formed with a second insertion hole (33) to match any one of the fastening hole (15B). The protective cover according to claim 1, wherein a gap (d) is formed between the annular protrusion (22) and the yo-jo (32), and the waterproof and moisture-proof article bill (M) is filled in the gap (d). Load cell device having a. The cable support tube for supporting a cable coupled to the load cell body 10 and detachably fastened in contact with the receiving portion 21 on any one side of the cover body 20 ( Load cell device having a protective cover characterized in that it further comprises 25).