KR200346753Y1 - A pipe-clamp for absorb shock - Google Patents

Abstract

The present invention relates to a shock absorbing pipe clamp, and more particularly, the elastic member is installed to surround the outside of the pipe, the contact area between the elastic member and the pipe is wide, so that the excellent shock absorption and position stability, which is transmitted from the pipe The present invention relates to a shock absorbing pipe clamp that relieves vibration and shock, significantly reduces damage to components, and suppresses noise caused by vibration.

Description

Shock absorbing pipe clamp {A PIPE-CLAMP FOR ABSORB SHOCK}

The present invention relates to a shock absorbing pipe clamp, and more particularly, the elastic member is installed to surround the outside of the pipe, the contact area between the elastic member and the pipe is wide, so that the excellent shock absorption and position stability, which is transmitted from the pipe The present invention relates to a shock absorbing pipe clamp that relieves vibration and shock, significantly reduces damage to components, and suppresses noise caused by vibration.

1 is an exploded perspective view showing the configuration of a conventional pipe clamp. According to Fig. 1, the conventional pipe clamp is formed to prevent the detachment of the pipe and the body 12 formed in a U-shape so that the thread 14 is formed at both ends to be coupled with the nut 18, and the pipe is charged, And a fixed plate 16 fixed by 18.

2 is a perspective view showing a shape in which a conventional pipe clamp is installed. According to Figure 2, the body 12 is installed in combination with the support 20, in general, the coupling method of the body 12 and the support 20 is made of welding. After the pipe 22 is charged in the upper part of the body 12, the fixing plate 16 is coupled to the body 12 so that the pipe 22 does not escape. In order to prevent the fixing plate 16 from being detached from the body 12 due to vibration or damaging the pipe 22 due to vibration, the nut 18 is fixed to the threaded line 14 of the body 12. Let's do it.

Conventional pipe clamps have the disadvantage of being susceptible to impact. Since the body 12 and the fixing plate 16 and the nut 18 are all made of iron or an alloy-based metal material, the body 12 may be damaged or the pipe 22 may be damaged by vibration or shock. Therefore, there is a disadvantage in that additional repair costs are incurred. In addition, when vibration occurs, the metals collide with each other and cause friction, resulting in excessive noise.

In addition, since the shape of the body 12 and the fixing plate 16 does not match the outer diameter of the pipe 22, it is difficult to stably maintain the fixed state of the pipe 22 and friction between the components according to this even if a small vibration and shock are transmitted. There is a disadvantage that damage occurs.

The present invention is devised to solve the above problems, the object of the present invention is installed so that the elastic member is wrapped around the outside of the pipe, the contact area of the elastic member and the pipe is wide, the impact absorption and position stability is excellent, the pipe It is to provide a shock absorbing pipe clamp to relieve vibration and shock transmitted from the remarkably reduce the damage of parts, suppress the noise caused by vibration.

Another object of the present invention is to provide a shock-absorbing pipe clamp to improve the stability by reducing the damage to the pipe by being installed in combination with the support and the pad.

1 is an exploded perspective view showing the configuration of a conventional pipe clamp.

2 is a perspective view showing a shape in which a conventional pipe clamp is installed.

3 is a perspective view illustrating a shock absorbing pipe clamp according to an embodiment of the present invention.

Figure 4 is an exploded perspective view showing the configuration of a shock absorbing pipe clamp according to an embodiment of the present invention.

5 is a cross-sectional view illustrating the A-A cross section of FIG. 3 according to an embodiment of the present invention.

6 is a perspective view illustrating a shape in which a shock absorbing pipe clamp is installed according to an exemplary embodiment of the present invention.

7 is a perspective view illustrating a shape in which a shock absorbing pipe clamp is installed according to another embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

10: conventional pipe clamp

12: body 14: thread

16: fixing plate 18: nut

20: support 22: pipe

30: shock absorbing pipe clamp according to an embodiment of the present invention

32: body 34: elastic member

35: home 36: plunger

38: Bolt 40: Nut

42: washer 44: pipe

46: T type bar 47: F type bar

48: pad

In order to achieve the above object, the shock absorbing pipe clamp of the present invention is formed to be in close contact with the elastic member, the elastic member is installed on the outside of the pipe to absorb the vibration and shock transmitted to the pipe, the flange is formed with a coupling hole It includes a body provided at both ends, and bolts and nuts installed in the coupling hole to couple the body.

According to a preferred embodiment of the present invention, it further includes a washer to prevent damage to the bolts and coupling holes due to vibration or shock generated in the pipe.

Hereinafter, with reference to the accompanying drawings will be described in more detail the shock absorbing pipe clamp of the present invention.

3 is a perspective view illustrating a shock absorbing pipe clamp according to an embodiment of the present invention. According to Figure 3, the shock-absorbing pipe clamp of the present invention is to couple the semi-circular body 32 to the top and bottom to maximize the contact surface with the pipe, the elastic member 34 in the space between the body 32 and the pipe By installing it is configured to mitigate the vibration and shock transmitted to the pipe.

In the conventional pipe clamp, since the contact surface between the pipe and the clamp is not much, and is formed linearly, when the vibration or shock is transmitted, the friction between the pipe and the clamp is large, and the damage due to the friction is large because the elastic member is not used.

However, the shock-absorbing pipe clamp of the present invention uses the elastic member 34 so that a direct friction or collision between the pipe and the body 32 does not occur, thereby significantly reducing the risk of damage, and the elastic member 34 of the pipe Since it is installed in a shape surrounding the outer diameter, the contact surface between the pipe and the elastic member 34 is widened, and the vibration and shock absorbing power is excellent.

In addition, it is also possible to significantly suppress the noise caused by friction between the metal material generated by the vibration.

Figure 4 is an exploded perspective view showing the configuration of a shock absorbing pipe clamp according to an embodiment of the present invention. According to FIG. 4, two semicircular elastic members 34a and 34b are respectively installed above and below to widen the contact surface with the pipe, and the body 32 formed in the same shape as the elastic member 34 includes the elastic member ( 34) is installed outside. However, the outer diameter of the elastic member 34 and the inner diameter of the body 32 should be substantially matched to increase the shock absorbing power, and the thickness of the elastic member 34 is preferably adjusted according to the material and installation use of the pipe. Do.

Both ends of the body 32 are coupled to the body 32a and 32b, and a flanger 36 having a coupling hole is provided. The bolt 38 is inserted into the coupling hole, and the bodies 32a and 32b are coupled by coupling the nut 40 to the bolt 38, and the elastic member 34 installed inside is fixed together.

According to a preferred embodiment of the present invention, the damage to the bolt 38 or the coupling hole in accordance with the vibration and shock transmitted from the pipe 44, and prevents the body 32 and according to the diameter of the pipe 44 In order to appropriately adjust the size of the space between the elastic members 34, it is preferable to provide a washer 42 between the flangers 36.

When the flangers 36a and 36b are coupled to be in intimate contact, friction caused by vibration or shock is increased. On the other hand, if the space between the flangers 36a and 36b is made too large, a lot of load is applied to the bolt 38, so that friction between the bolt 38 and the coupling hole may occur greatly and damage may occur. Therefore, by installing the washer 42 to distribute the load concentrated in the bolt 38 and the coupling hole, and also to reduce the friction generated between the parts appropriately.

FIG. 5 is a cross-sectional view illustrating the A-A cross section of FIG. 4. According to FIG. 5, the elastic member 34 is installed in a state in which a groove 35 is formed to prevent it from being separated from the body 32 due to vibration or shock transmitted from the pipe 44. That is, since the width of the elastic member 34 is made larger than the body 32, the elastic member 34 is formed by forming the groove 35 in the joint surface of the elastic member 34 and the body 32. ) It is installed in the shape of surrounding the outside.

Therefore, by forming the groove 35 to prevent the separation phenomenon of the elastic member 34, which may occur due to the vibration or shock transmitted from the pipe 44 to improve the shock absorbing power.

6 is a perspective view illustrating a shape in which a shock absorbing pipe clamp is installed according to an exemplary embodiment of the present invention. According to Figure 6, the shock-absorbing pipe clamp of the present invention is installed by welding with the T-shaped bar 46. The T-shaped bar 46 serves as a support, and installs and fixes the shock absorbing pipe clamp of the present invention in a required position.

The pad 48 may be installed below the T-shaped bar 46. The pad 48 serves to widen the contact surface of the T-shaped bar 46 and to mitigate shock transmission.

7 is a perspective view illustrating a shape in which a shock absorbing pipe clamp is installed according to another embodiment of the present invention. According to Figure 7, the shock-absorbing pipe clamp of the present invention may be installed in combination with the F-type bar 47 having a rectangular cross section. In addition, the pad 46 may also determine whether or not to install according to the user's judgment and use.

The foregoing has outlined rather broadly the features and technical advantages of the subject innovation in order to better understand the utility model claims of the subject matter described below. Additional features and advantages constituting the utility model claims of the present invention will be described below. It should be appreciated by those skilled in the art that the conception and specific embodiments of the presently disclosed subject matter can be used immediately as a basis for designing or modifying other structures for carrying out similar purposes as the present invention.

In addition, the inventive concept and embodiments disclosed in the present invention may be used by those skilled in the art as a basis for modifying or designing other structures for carrying out the same purposes of the present invention. In addition, such modifications or altered equivalent structures by those skilled in the art may be variously changed, substituted and changed without departing from the spirit or scope of the invention described in the utility model claims.

As described above, the shock absorbing pipe clamp of the present invention is installed such that the elastic member 34 surrounds the outside of the pipe 44, and thus the contact area between the elastic member 34 and the pipe 44 is wide and the shock absorbing force is increased. And because it is excellent in positional stability, the vibration and shock transmitted from the pipe 44 is relieved to significantly reduce the damage of the parts, there is an advantage to suppress the noise caused by the vibration.

Claims (2)

In the shock absorbing pipe clamp, An elastic member installed outside the pipe to absorb vibration and shock transmitted to the pipe, A body formed in close contact with the elastic member and having a flanger formed at both ends with a coupling hole formed therein; and Shock absorbing pipe clamp, characterized in that it comprises a bolt and nut is installed in the coupling hole to couple the body. The method of claim 1, Shock absorbing pipe clamp, characterized in that it further comprises a washer to prevent damage to the bolt and coupling holes due to vibration or shock generated in the pipe.