KR20150140246A - Supporting device for spring hanger - Google Patents

Abstract

The present invention relates to an earthquake-proof spring hanger having at least one or more springs to completely absorb a seismic wave. The present invention comprises: a pipe fixing means (102) holding a pipe; an absorbing means (104) installed to be attached and detached from one end part of the pipe fixing means (102) to absorb the seismic wave of a structure to prevent vibration of the pipe; and a coupling means (105) enabling one end part of the pipe fixing means (102) and one end part of the absorbing means (104) to be coupled.

Description

{SUPPORTING DEVICE FOR SPRING HANGER}

The present invention relates to a hanging hanger of a pipe supporting stand, and more particularly, to an anti-seizing spring hanger which is provided with at least one spring to reliably absorb seismic waves.

Generally, the conventional piping construction method is to cut a section steel such as "A" type, "C" type, "I" type, "H" type which is general section steel by oxygen cutting or a speed cutter After welding, it was used as pipe support.

However, in such a construction method, it is necessary to carry out the multi-step process from the existing section steel to the site by carrying out the green film coating and to the completion of the insulation work, thereby increasing the work time when the worker assembles the pipe support stand in the field There is a problem that the assemblability is deteriorated.

Therefore, there is a construction of a prefabricated piping supporting stand capable of assembling a piping supporting stand by a worker in the field.

The above-mentioned piping support stand was filed with the Korean Intellectual Property Office with the application number 20-2010-0001690 (entitled "Piping Supporting Member"), Feb. 17, 2010, and claims are as follows: "Insert plate A vertical channel 13 connected to a ceiling fixing bracket 12 connected to the vertical channel 13 and extending vertically downward from the ceiling front surface of the ceiling fixing bracket 12, and a pipe clamp horizontally installed horizontally and supported by the vertical channel 13 And a channel connection bracket 16 for connecting the vertical channel 13 and the horizontal channel 15 to each other, The vertical channel 13 is further provided with a piping support device 20 constituted by a clamp fixing bracket 23 and a pipe clamp 24 supported by the clamp fixing bracket 23, 13), which is connected to a pipe A piping support stand which is characterized in that the piping is supported. to be.

However, the above-mentioned conventional pipe supporting stand does not absorb the earthquake wave received by the insert plate insert-coupled to the inside of the ceiling portion, so that the seismic wave absorption effect can not be smoothly achieved.

Therefore, the above-described conventional pipe supporting stand can not absorb the seismic waves received by the ceiling portion quickly when the earthquake occurs.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an anti-seizing spring hanger which is provided with at least one spring for reliably absorbing seismic waves. I have to.

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,

A pipe fixing means (102) for holding the pipe;

Absorbing means (104) detachably installed at one end of the pipe fixing means (102) for absorbing seismic waves of the structure to prevent shaking of the pipe;

And a fastening means 105 for fastening one end of the pipe fixing means 102 and one end of the absorption means 104.

As described above, the anti-vibration spring hanger according to the present invention has the effect of easily absorbing the seismic waves by providing one or two springs.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a view of an anti-dust spring hanger according to the present invention,
1B is a schematic cross-sectional view of an anti-vibration spring hanger of FIG. 1,
Figs. 2 to 3 are exploded views of the main part of the anti-vibration spring hanger of Fig. 1,
Fig. 4 is a view showing the use state of the anti-dusting spring hanger according to the present invention.

Hereinafter, a preferred embodiment of an anti-dust spring hanger according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1B is a schematic cross-sectional view of an anti-seizing spring hanger of Fig. 1, and Figs. 2 to 3 are exploded views of main parts of an anti-seizing spring hanger of Fig. 1. Fig.

As shown in Figs. 1A to 3, an anti-dusting spring hanger 100 according to the present invention includes:

A pipe fixing means (102) for holding the pipe;

Absorbing means (104) detachably installed at one end of the pipe fixing means (102) for absorbing seismic waves of the structure to prevent shaking of the pipe;

And a fastening means 105 for fastening one end of the pipe fixing means 102 and one end of the absorption means 104.

The pipe fixing means (102)

A first fixing part 110 having a through hole 106 at one side thereof and a holding groove 108 at a predetermined distance from the through hole 106 to hold the pipe;

A through hole 106 is formed on one side of the first fixing portion 110 so as to face the first fixing portion 110 and at a predetermined distance from the through hole 106, And a second fixing portion 114 for holding the piping by having a locking protrusion 112 to be fitted thereto.

The absorption means (104)

A support plate 116 having a through hole 106 at the center;

A first protruding plate 118 is provided at one side of the inner surface of the support plate 116 and a through hole 106 is formed at a lower end of the first protruding plate 118 at a predetermined distance from the first protruding plate 118. A first support part 120 provided with the first support part 120;

A second protruding plate 122 is provided on one side of the first protruding plate 118 so as to face the first protruding plate 118 while being bent downward at a predetermined distance from the first connecting portion 120 at a predetermined distance downward at one end of the supporting plate 116, A second support portion 124 having a through hole 106 at a lower end thereof at a predetermined distance from the second substrate 122;

A connection portion 126 which is located on one upper surface of the first stone substrate 118 and on one upper surface of the second stone substrate 122 through the through hole 106 of the support plate 116, )Wow;

A protective tube 128 positioned at a predetermined distance from the connection part 126 and having a receiving space narrower from the inside to the lower side;

A center fixing pipe 130 for holding the center of the vertical bolt which is seated in the receiving space of the protection pipe 128;

A first spring 132 located in the receiving space of the protection pipe 128 and positioned on the upper surface of the center fixing pipe 130 to vibrate up and down to absorb seismic waves of the structure to prevent vibration of the pipe;

The first spring 132 is coupled to the screw hole of the connection part 126 through the first spring 132, the center fixing pipe 130 and the protection pipe 128, A vertical bolt 134 to assist in oscillating downward;

A second spring 136 located in the receiving space of the protective pipe 128 and located on the upper surface of the vertical bolt 130 to vibrate up and down to absorb seismic waves of the structure to prevent shaking of the pipe;

And a lid 138 detachably installed on the inner surface of the upper end of the protective pipe 128 to prevent various parts located in the receiving space from being detached.

The fastening means (105)

The through hole 106 of the first fixing part 110 and the through hole 106 of the first supporting part 122 and the second supporting part 124 and the through hole 106 of the second fixing part 114, A bolt (not shown);

And a nut (not shown) which is fastened to the bolt and prevents the absorption means 104 from coming off from the pipe fixing means 102.

The assembling process and the use state of the anti-dust spring hanger according to the present invention constructed as described above will be described below.

Here, the assembling process of the anti-dust spring hanger according to the present invention may be changed in any order depending on the assembler.

First, after the support plate 116 having the through-hole 106 is positioned, the first support 120 is installed at one end of the support plate 116 so as to bend downward at a predetermined length.

The first support substrate 118 is provided on one side of the inner surface of the first support part 120 and the through hole 106 is formed on the lower side of the first support substrate 118 at a predetermined interval.

The second support portion 124 is installed at one end of the support plate 116 so as to bend downward at a predetermined length from the first support portion 120 at a predetermined distance.

A second stone substrate 122 is provided on one side of the inner surface of the second support portion 124 so as to face the first stone substrate 118 and a through hole (106).

A connecting portion 126 having a screw hole is installed on one upper surface of the first stone substrate 118 and one upper surface of the second stone substrate 122 through the through hole 106 of the support plate 116 do.

Then, the center pipe 130, which holds the center of the vertical bolt, is seated in the receiving space of the protective pipe 128 after the protective pipe 128 whose receiving space becomes narrower from the inside to the bottom is positioned.

The first spring 132, which vibrates up and down on the upper surface of the center fixing pipe 130 and absorbs seismic waves of the structure to prevent the vibration of the pipe, is positioned.

After the vertical bolt 134 is positioned, the vertical bolt 134 is pushed into the first spring 132, the center fixing pipe 130, and the protection pipe 128.

A second spring 136 for vibrating up and down on the vertical bolt 130 and absorbing seismic waves of the structure to prevent shaking of the pipe is positioned. (138).

Here, the lid 138 prevents various parts located in the receiving space of the protective pipe 18 from being detached.

Then, the vertical bolt 130 is coupled to the screw hole of the connecting portion 126.

After the first fixing part 110 having the through hole 106 at one side and the latching groove 108 at the other side at a predetermined distance from the through hole 106 is positioned, The through hole 106 of the first fixing part 110 is positioned on the side surface of the through hole 106 of the first departure prevention part 122.

The second fixing part 114 having the through hole 106 at one side and the locking protrusion 112 at the other side with a certain distance from the through hole 106 is positioned, The through hole 106 of the second fixing portion 114 is positioned on the side surface of the through hole 106 of the second departure prevention portion 128. At this time, the latching protrusion 112 of the second fixing part 114 is forcedly inserted into the latching groove 108 of the first fixing part 110.

Then, a bolt (not shown) is positioned.

The bolt is inserted into the through hole 106 of the first fixing part 110 and the through hole 106 of the first supporting part 122 and the second supporting part 124 and the through hole 106 of the second fixing part 114 106).

Then, a nut (not shown) is positioned.

Then, the nut is fastened to the bolt.

As described above, when the assembling of the dust-proof spring hanger 100 according to the present invention is completed,

As shown in Fig. 4, the spring hanger 100 for dustproofing is installed on the ceiling.

A pipe 200 is provided between the first fixing part 110 and the second fixing part 114 of the spring hanger 100 for dustproofing.

When the piping 200 is installed between the first fixing part 110 and the second fixing part 114 as described above and vibration occurs in the structure due to the earthquake wave,

The first spring 132 and the second spring 136 of the absorption means 104 vibrate and absorb the seismic waves of the structure.

Therefore, the first spring 132 and the second spring 136 prevent the piping 200 from shaking.

The detailed description of the invention is merely exemplary of the invention, which is used for the purpose of describing the invention only and is not used to limit the scope of the invention, which is set forth in the claims or the utility model registration 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 the present invention should be determined by the technical idea of the appended claims.

100: Spring-loaded spring hanger
102: pipe fixing means 104: absorption means
105: fastening means 106: through hole
108: latching groove 110: first fixing portion
112: a locking projection 114: a second fixing portion
116: Support plate 118: First support plate
120: first supporting portion 122: second supporting substrate
124: second support portion 126:
128: protective tube 130: center fixing tube
132: first spring 132: first spring
134: vertical bolt 136: second spring
138: Lid

Claims (4)

A pipe fixing means (102) for holding the pipe;
Absorbing means (104) detachably installed at one end of the pipe fixing means (102) for absorbing seismic waves of the structure to prevent shaking of the pipe;
And a fastening means (105) for fastening one end of the pipe fixing means (102) and one end of the absorption means (104). The method according to claim 1,
The pipe fixing means (102)
A first fixing part 110 having a through hole 106 at one side thereof and a holding groove 108 at a predetermined distance from the through hole 106 to hold the pipe;
A through hole 106 is formed on one side of the first fixing portion 110 so as to face the first fixing portion 110 and at a predetermined distance from the through hole 106, And a second fixing portion (114) for holding the piping by having a locking protrusion (112) for preventing interference. The method according to claim 1,
The absorption means (104)
A support plate 116 having a through hole 106 at the center;
A first protruding plate 118 is provided at one side of the inner surface of the support plate 116 and a through hole 106 is formed at a lower end of the first protruding plate 118 at a predetermined distance from the first protruding plate 118. A first support part 120 provided with the first support part 120;
A second protruding plate 122 is provided on one side of the first protruding plate 118 so as to face the first protruding plate 118 while being bent downward at a predetermined distance from the first connecting portion 120 at a predetermined distance downward at one end of the supporting plate 116, A second support portion 124 having a through hole 106 at a lower end thereof at a predetermined distance from the second substrate 122;
A connection portion 126 which is located on one upper surface of the first stone substrate 118 and on one upper surface of the second stone substrate 122 through the through hole 106 of the support plate 116, )Wow;
A protective tube 128 positioned at a predetermined distance from the connection part 126 and having a receiving space narrower from the inside to the lower side;
A center fixing pipe 130 for holding the center of the vertical bolt which is seated in the receiving space of the protection pipe 128;
A first spring 132 located in the receiving space of the protection pipe 128 and positioned on the upper surface of the center fixing pipe 130 to vibrate up and down to absorb seismic waves of the structure to prevent vibration of the pipe;
The first spring 132 is coupled to the screw hole of the connection part 126 through the first spring 132, the center fixing pipe 130 and the protection pipe 128, A vertical bolt 134 to assist in oscillating downward;
A second spring 136 located in the receiving space of the protective pipe 128 and located on the upper surface of the vertical bolt 130 to vibrate up and down to absorb seismic waves of the structure to prevent shaking of the pipe;
And a lid (138) detachably installed on an inner surface of an upper end of the protective pipe (128) to prevent various parts located in the accommodation space from being detached. The method according to claim 1,
The fastening means (105)
The through hole 106 of the first fixing part 110 and the through hole 106 of the first supporting part 122 and the second supporting part 124 and the through hole 106 of the second fixing part 114, A bolt;
And a nut secured to the bolt to prevent the absorption means (104) from coming off from the pipe fixing means (102).

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