KR20160000677U - Pipe supporting device for earthquake-proof having rubber - Google Patents

Abstract

The present invention relates to a pipe clamp apparatus for an internal combustion engine having a vibration absorbing rubber which not only has a simple structure but also has a vibration absorbing rubber placed on the lower side of a support bracket to quickly absorb vibration generated by a seismic wave to prevent breakage of the pipe The present invention includes a first fixing part 104 having a slot 102; A second fixing part (106) positioned at a predetermined distance from the first fixing part (104) and having a slot (102); A support 102 that is located between the slot 102 of the first securing portion 104 and the slot 102 of the second securing portion 106 and moves up and down, A bracket 126; A third fixing bolt 128 screwed to one side of the supporting bracket 126 through the slot 102 of the first fixing part 104 to help the supporting bracket 126 move up and down; A fourth fixing bolt 130 screwed to the other side of the supporting bracket 126 through the slot 102 of the second fixing part 106 to help the supporting bracket 126 move up and down; The support bracket 126 is positioned below the connection hole 124 of the support bracket 126 to assist the support bracket 126 to move up and down and to absorb the vibration of the pipe, And a vibration absorbing rubber 132.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pipe supporting device for earthquake-

More particularly, the present invention relates to a pipe clamp device for an internal combustion engine, and more particularly, to a pipe clamp device for an internal combustion engine, which not only has a simple structure, but also places a vibration absorbing rubber under a support bracket to quickly absorb vibration generated by a seismic wave, And more particularly to an oil tight pipe clamp device provided with a vibration absorbing rubber.

In general, a pipe fixing device is used to fix various pipes installed in an underground floor of an apartment or a high-rise building by hanging it on a ceiling, and is connected to an insert plate buried in concrete in a basement or a computer bolt formed at equal intervals in a ceiling, The horizontal state of the pipe is always maintained at a constant interval to prevent the pipe from being loosened or sagged due to fluid flow in the pipe.

Fig. 1 shows a conventional pipe hanger 1 mounted on the lower end of a bolt. The pipe hanger 1 includes a pair of pipe bands 2 (left and right) for supporting and releasing the pipe A A support bracket 10 having a flange 11 connected to flanges 4 and 5 formed at the upper ends of the pipe bands 2 and 3, And a fastening member 13 fastened to the fastening hole.

The flanges 4 and 5 formed at the upper end of the pipe bands 2 and 3 and the flange 11 formed at the lower end of the support bracket 10 have through holes corresponding to each other. The nut 8 is fastened and the pipe bands 2, 3 and the support bracket 10 are connected to each other. Further, at the lower end of the pipe bands (2, 3), the fastening holes (4a) and fastening pieces (5a) are staggered and inserted.

The pipe hanger 1 having the above-described configuration is used in a state where it is coupled to the bolt formed at regular intervals on the ceiling of the fastening member 10 fastened to the upper surface thereof.

However, the conventional pipe hanger 1 has a structure in which the support bracket 10 is directly fixed to a support rod protruding from an insert plate embedded in a concrete bolt or a concrete bolt formed at regular intervals on a ceiling, There is a risk of safety accidents such as leakage, short-circuit, suffocation, explosion, fire due to deterioration of buildings as well as disconnection of facility piping due to failure to absorb vibration due to impact.

Particularly, since the buffer bracket 10 formed on the upper portion of the pipe hanger 1 is not provided with a buffer means for mitigating the impact, the pipe bands 2 and 3 formed at the lower portion of the pipe hanger 1 are applied to the building The external vibration is transmitted to the pipe A as it is.

In order to solve the above problem, the invention was filed with the Korean Intellectual Property Office as a patent application No. 10-2008-0081603 filed on Aug. 20, 2008 (name of design: seismic and anti-vibration pipe hangers) A support bracket 102 having a pair of pipe bands 101 separated to the left and right for release and a flange 102a connected to a flange 101a formed at the upper end of the pipe band 101, The pipe hanger includes a fastening member 110 fastened to a fastening hole 102b formed on an upper surface of a bracket 102. The fastening member 110 includes a bolt 111 having a thread 111a only at an end thereof, A washer 114 mounted on the bolt head 112 of the bolt 111, a vibration damper spring 113 mounted on the washer 114 fitted in the bolt 111, A washer 114a for supporting the bolt 111 and the bolt 111 protrude upward through the fastening hole 102b of the support bracket 102 So as to be fastened by the support bracket (102) and the nut (115) separated from the support bracket (102).

However, the conventional piping hanger for earthquake-proof and vibration-proof has a problem in that it is not only complicated in structure, but also can not absorb vibrations caused by seismic waves quickly.

As a result, piping is often damaged.

Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a vibration damping rubber which is not only simple in structure, Which is capable of quickly absorbing a vibration of a pipe, thereby preventing breakage of the pipe.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a pipe clamp apparatus for an internal combustion engine equipped with a vibration absorbing rubber,

A first anchor 104 having a slot 102;

A second fixing part (106) positioned at a predetermined distance from the first fixing part (104) and having a slot (102);

A support 102 that is located between the slot 102 of the first securing portion 104 and the slot 102 of the second securing portion 106 and moves up and down, A bracket 126;

A third fixing bolt 128 screwed to one side of the supporting bracket 126 through the slot 102 of the first fixing part 104 to help the supporting bracket 126 move up and down;

A fourth fixing bolt 130 screwed to the other side of the supporting bracket 126 through the slot 102 of the second fixing part 106 to help the supporting bracket 126 move up and down;

The support bracket 126 is positioned below the connection hole 124 of the support bracket 126 to assist the support bracket 126 to move up and down and to absorb the vibration of the pipe, And a vibration absorbing rubber 132.

As described above, the pipe clamp apparatus for dust-proofing with vibration-absorbing rubber according to the present invention has a simple structure and an easy installation.

The present invention has the effect of placing the vibration absorbing rubber on the lower side of the support bracket to quickly absorb the vibration generated by the seismic wave to prevent damage to the pipe.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view of a conventional conventional hanger,
Fig. 2 is a view showing a pipe clamping device for an internal combustion engine provided with a vibration absorbing rubber according to the present invention, Fig.
Fig. 3 is an exploded view of an oil pipe clamping apparatus provided with the vibration absorbing rubber of Fig. 2,
4 is a view showing a state of use of a pipe clamp apparatus for an internal combustion engine provided with a vibration absorbing rubber according to the present invention,
5 is an enlarged view of the main part of Fig. 4,
Fig. 6 is a schematic view of the recessed side of Fig. 4,
FIG. 7 is a view showing a state in which the support bracket of FIG. 2 is raised upward; FIG.
FIG. 8 is a view showing a state in which the support bracket of FIG. 2 is lowered. FIG.

Hereinafter, a preferred embodiment of an oil tight pipe clamping apparatus provided with a vibration absorbing rubber according to the present invention will be described.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention unnecessarily obscure.

Fig. 2 is a view showing an oil pipe clamp device with a vibration absorbing rubber according to the present invention, and Fig. 3 is an exploded view of an oil pipe clamp device with the vibration absorbing rubber of Fig.

As shown in Figs. 2 to 3, the vibration-damping pipe clamping apparatus 100 provided with the vibration absorbing rubber according to the present invention,

A first anchor 104 having a slot 102;

A second fixing part (106) positioned at a predetermined distance from the first fixing part (104) and having a slot (102);

An upper outer cap 108 positioned above the second fixing part 106 to fix the piping;

A first elastic part 110 for covering the upper outer cap 108 to absorb vibration of the pipe;

A lower outer cap 114 positioned at a predetermined distance from the first elastic portion 110 and having a through hole 112 at an inner center thereof;

A second elastic portion 116 for covering the lower outer surface cap 114 to absorb vibration of the pipe;

A first fixing bolt 118 screwing one side of the upper outer cap 108 to one side of the lower outer cap 114;

A second fixing bolt 120 for screwing the other side of the upper outer cap 108 to the other side of the lower outer cap 114;

The lower outer cap 114 is moved up and down by being positioned between the slot 102 of the first fixing portion 104 and the slot 102 of the second fixing portion 106, 124;

A third fixing bolt 128 screwed to one side of the supporting bracket 126 through the slot 102 of the first fixing part 104 to help the supporting bracket 126 move up and down;

A fourth fixing bolt 130 screwed to the other side of the supporting bracket 126 through the slot 102 of the second fixing part 106 to help the supporting bracket 126 move up and down;

The support bracket 126 is positioned below the connection hole 124 of the support bracket 126 to assist the support bracket 126 to move up and down and to absorb the vibration of the pipe, A vibration absorbing rubber 132;

The connection bracket 126 and the vibration absorbing rubber 132 of the support bracket 126 are disposed at the through holes of the vibration absorbing rubber 132 so that the support bracket 126 can be moved up and down. A tube (136) which is made of a material;

A separation preventing portion 138 located at the through hole of the vibration absorbing rubber 132 and having a screw hole at the center thereof;

And a vertical bolt 140 screwed to the release preventing portion 138 through the through hole 112 of the lower outer cap 114 and the insertion hole 134 of the pipe 136.

The vibration-damping pipe clamping apparatus 100 provided with the vibration-absorbing rubber is mounted on a guide groove (not shown) of a horizontal member (not shown)

The guide means 142 is screwed onto the bottom surface of the first fixing portion 104 and the bottom surface of the second fixing portion 106. [

Here, the vibration absorbing rubber 132 is a bundle of rectangular shapes.

The assembling process and the use state of the vibration-damping pipe clamping apparatus 100 having the vibration absorbing rubber according to the present invention will be described as follows.

Herein, the assembling process of the vibration-damping pipe clamping apparatus 100 having the vibration absorbing rubber according to the present invention may be changed in any order depending on the assembler.

A first fixing part 104 having a slot 102 is positioned and a second fixing part 106 having a slot 102 at a predetermined interval from the first fixing part 104, .

A support bracket 126 having a connection hole 124 is positioned between the slot 102 of the first securing portion 104 and the slot 102 of the second securing portion 106.

After the third fixing bolt 128 is positioned, the third fixing bolt 128 is inserted into the slot 102 of the first fixing portion 104 and screwed to one side of the supporting bracket 126. After the fourth fixing bolt 130 is positioned, the fourth fixing bolt 130 is inserted into the slot 102 of the second fixing part 106 and screwed to the other side of the supporting bracket 126.

The support bracket 126 is supported by the third fixing bolt 128 located in the slot 102 of the first fixing part 104 and the fourth fixing part 128 located in the slot 102 of the second fixing part 106. [ And moves up and down to the bolt 130.

Then, the vibration absorbing rubber 132 having the through hole is positioned below the connection hole 124 of the support bracket 126.

Then, the release preventing portion 138 having a screw hole at the center of its inner surface is positioned in the through hole of the vibration absorbing rubber 132.

The tube 136 having the insertion hole 134 at the center of its inner portion is positioned in the through hole of the connection hole 124 of the support bracket 126 and the vibration absorbing rubber 132.

A vertical bolt 140 is inserted into the through hole 112 of the lower outer cap 114 after the lower outer cap 114 having the through hole 112 at the center thereof is positioned.

Then, the lower outer cap 114 is wrapped by the second elastic portion 116.

The vertical bolt 140 is screwed to the screw hole of the detachment preventing portion 138 through the insertion hole 134 of the tube 136 and the through hole of the vibration absorbing rubber 132.

After the upper outer cap 108 is positioned, the upper outer cap 108 is wrapped with the first elastic portion 110.

One side of the upper outer cap 108 is screwed to one side of the lower outer cap 114 by a first fixing bolt 118 and then a second fixing bolt 120 is screwed on the other side of the lower outer cap 114 And the other side of the upper outer surface cap 108 is screwed.

Then, the guide means 142 is screwed onto the bottom surface of the first fixing portion 104 and the bottom surface of the second fixing portion 106.

As described above, when the assembling of the vibration-damping pipe clamp device 100 having the vibration absorbing rubber according to the present invention is completed,

4 to 6, the guide means 142 is installed in the guide groove 304 of the horizontal member 302 of the pipe support supporting stand 300 fixed to the ceiling 200 of the structure.

After the first fixing bolt 118 and the second fixing bolt 120 are removed, the pipe 400 is positioned on the upper side of the lower outer cap 114 and on the lower side of the upper outer cap 108.

One side of the upper outer cap 108 is screwed to one side of the lower outer cap 114 by a first fixing bolt 118 and then a second fixing bolt 120 is screwed on the other side of the lower outer cap 114 And the other side of the upper outer surface cap 108 is screwed.

When the piping 400 is installed on the upper side of the upper outer cap 108 of the lower outer cap 114 as described above and the structure vibrates due to the earthquake wave,

When the vibration absorbing rubber 132 moves upward and the vibration absorbing rubber 132 moves down as shown in FIG. 7 and the vibration absorbing rubber 132 moves upward and downward as shown in FIG. 7, The support bracket 126 moves along the slot 102 of the first fixing portion 104 and the slot 102 of the second fixing portion 106 in accordance with the downward movement.

Therefore, as the vibration absorbing rubber 132 and the support bracket 126 move up and down, the vibration generated by the earthquake wave is quickly absorbed.

Therefore, this design quickly absorbs the vibration generated by the earthquake wave to prevent damage to the pipe.

The detailed description of the design is merely exemplary in nature and is used merely for the purpose of describing the present invention and not for limiting the scope of the design described in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the appended claims.

100: Oil proof pipe clamp device 102: Slot
104: first fixing portion 106: second fixing portion
108: upper outer cap 110: first elastic portion
112: Through hole 114: Lower outer surface cap
116: second elastic portion 118: first fixing bolt
120: second fixing bolt 124: connection hole
126: support bracket 128: third fixing bolt
130: fourth fixing bolt 132: vibration absorbing rubber

Claims (3)

A first anchor 104 having a slot 102;
A second fixing part (106) positioned at a predetermined distance from the first fixing part (104) and having a slot (102);
A support 102 that is located between the slot 102 of the first securing portion 104 and the slot 102 of the second securing portion 106 and moves up and down, A bracket 126;
A third fixing bolt 128 screwed to one side of the supporting bracket 126 through the slot 102 of the first fixing part 104 to help the supporting bracket 126 move up and down;
A fourth fixing bolt 130 screwed to the other side of the supporting bracket 126 through the slot 102 of the second fixing part 106 to help the supporting bracket 126 move up and down;
The support bracket 126 is positioned below the connection hole 124 of the support bracket 126 to assist the support bracket 126 to move up and down and to absorb the vibration of the pipe, Characterized in that it comprises a vibration absorbing rubber (132). A first anchor 104 having a slot 102;
A second fixing part (106) positioned at a predetermined distance from the first fixing part (104) and having a slot (102);
An upper outer cap 108 positioned above the second fixing part 106 to fix the piping;
A lower outer cap 114 spaced apart from the upper outer cap 108 and having a through hole 112 at an inner center thereof;
The lower outer cap 114 is moved up and down by being positioned between the slot 102 of the first fixing portion 104 and the slot 102 of the second fixing portion 106, 124;
A third fixing bolt 128 screwed to one side of the supporting bracket 126 through the slot 102 of the first fixing part 104 to help the supporting bracket 126 move up and down;
A fourth fixing bolt 130 screwed to the other side of the supporting bracket 126 through the slot 102 of the second fixing part 106 to help the supporting bracket 126 move up and down;
The support bracket 126 is positioned below the connection hole 124 of the support bracket 126 to assist the support bracket 126 to move up and down and to absorb the vibration of the pipe, Characterized in that it comprises a vibration absorbing rubber (132). A first anchor 104 having a slot 102;
A second fixing part (106) positioned at a predetermined distance from the first fixing part (104) and having a slot (102);
An upper outer cap 108 positioned above the second fixing part 106 to fix the piping;
A first elastic part 110 for covering the upper outer cap 108 to absorb vibration of the pipe;
A lower outer cap 114 positioned at a predetermined distance from the first elastic portion 110 and having a through hole 112 at an inner center thereof;
A second elastic portion 116 for covering the lower outer surface cap 114 to absorb vibration of the pipe;
A first fixing bolt 118 screwing one side of the upper outer cap 108 to one side of the lower outer cap 114;
A second fixing bolt 120 for screwing the other side of the upper outer cap 108 to the other side of the lower outer cap 114;
The lower outer cap 114 is moved up and down by being positioned between the slot 102 of the first fixing portion 104 and the slot 102 of the second fixing portion 106, 124;
A third fixing bolt 128 screwed to one side of the supporting bracket 126 through the slot 102 of the first fixing part 104 to help the supporting bracket 126 move up and down;
A fourth fixing bolt 130 screwed to the other side of the supporting bracket 126 through the slot 102 of the second fixing part 106 to help the supporting bracket 126 move up and down;
The support bracket 126 is positioned below the connection hole 124 of the support bracket 126 to assist the support bracket 126 to move up and down and to absorb the vibration of the pipe, A vibration absorbing rubber 132;
The connection bracket 126 and the vibration absorbing rubber 132 of the support bracket 126 are disposed at the through holes of the vibration absorbing rubber 132 so that the support bracket 126 can be moved up and down. A tube (136) which is made of a material;
A separation preventing portion 138 located at the through hole of the vibration absorbing rubber 132 and having a screw hole at the center thereof;
And a vertical bolt (140) screwed to the detachment preventing portion (138) through the through hole (112) of the lower outer cap (114) and the insertion hole (134) of the pipe (136) Rubber pipe clamping device with rubber.

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