KR101686204B1 - Standing Statue Pipe Fixture - Google Patents

Abstract

Thereby providing a granular pipe fixing device.
Penetrating sleeve 300; A first semicircular flange 210 and a second semicircular flange 220 fastened to the upper end of the through sleeve to support the granular pipe; A first semicircular band (212) and a second semicircular band (222) fastened to the upper surface of the first semicircular flange (210) and the second semicircular flange (220); And a plurality of second semicircular bands (212) and second semicircular bands (222) positioned on the upper surface of the first semicircular flange (210) and the second semicircular flange (220) One end of the first semicircular flange 210 and the second semicircular flange 220 in the direction opposite to the arc includes protrusions 210a and 220a And one end of the first semicircular flange 210 and the second semicircular flange 220 in the direction opposite to the circular arc is provided with protrusions 210a and 210b, 220b and the coupling portions 210b and 220b are bent so that the other ends thereof are bent upwardly so that the projections 210a and 220a are engaged with the coupling portions 210b and 220b. Thereby providing a fixing device.

Description

{Standing Statue Pipe Fixture}

The present embodiment relates to a granular pipe fixing apparatus.

The contents described below merely provide background information related to the present embodiment and do not constitute the prior art.

A general pipe fixation means a device for securing a plurality of piping pipes of a building. The pipe fixing device has a fixing sleeve and a flange on the fixing sleeve. Here, the flange includes a band portion that fixes the pipe for wrapping, and has a structure in which two flanges are coupled according to the fasteners connected to both sides of the band portion.

Conventional conventional pipe anchors require two bolts and nuts to join the two flanges, and it takes time to secure the two bolts and nuts. Further, in the pipe fixing device, when the thickness of the pipe for the pipe is large, a gap is formed between the two flanges, so that it is difficult to prevent the fire from rising when the fire occurs. Further, in the conventional pipe fixing apparatus, when the pipe for pipe is expanded, the band portion of the steel material is fixed, so that the pipe for pipe may be slightly deformed, and heat or electricity may pass through the pipe for pipe.

In this embodiment, two semicircular flanges can be easily fixed using a fixing pin, a ring and a fixing piece, and the pipe is held by two semicircular bands made of rubber to block heat or electricity, There is a main purpose of providing a granular pipe fixing device for attaching a sound insulating material. It is also an object of the present invention to provide a frame capable of filling refractory material and a structure capable of easily fixing two semicircular flanges so that fire does not rise through the sleeve when a fire occurs.

According to an aspect of this embodiment, a through sleeve 300; A first semicircular flange 210 and a second semicircular flange 220 fastened to the upper end of the through sleeve to support the granular pipe; A first semicircular band (212) and a second semicircular band (222) fastened to the upper surface of the first semicircular flange (210) and the second semicircular flange (220); And a plurality of second semicircular bands (212) and second semicircular bands (222) positioned on the upper surface of the first semicircular flange (210) and the second semicircular flange (220) One end of the first semicircular flange 210 and the second semicircular flange 220 in the direction opposite to the arc includes protrusions 210a and 220a And one end of the first semicircular flange 210 and the second semicircular flange 220 in the direction opposite to the circular arc is provided with protrusions 210a and 210b, 220b and the coupling portions 210b and 220b are bent so that the other ends thereof are bent upwardly so that the projections 210a and 220a are engaged with the coupling portions 210b and 220b. Thereby providing a fixing device.

As described above, according to the present embodiment, when the thickness of the pipe is large due to the projecting portion and the fastening portion of the two flanges, the two-way flange is opened, but the gap between the projecting portion and the fastening portion can be closed Since the refractory material can be filled in the refractory filling frame, there is an effect of preventing the flame from spreading when a fire occurs.

According to the present embodiment, since the granular pipe fixing device has a structure in which two flanges can be fastened together using rings and fasteners, and also can be fastened easily, it is possible to reduce time and cost for fastening two flanges It is effective.

According to the present embodiment, the granular pipe fixing device has the effect of reducing the interlayer noise by attaching the noise preventing member to both flanges.

According to this embodiment, the granular pipe fixing device has the effect of blocking electricity or heat to the granular pipe by fixing the granular pipe using two semicircular bands covered with a rubber material.

1 is an exploded perspective view showing a granular pipe fixing apparatus according to the present embodiment.
2 is a perspective view showing a state of engagement of the granular pipe fixing apparatus according to the present embodiment.
3 is an exploded perspective view showing a granular pipe fixing apparatus according to the first embodiment.
FIG. 4 is a perspective view of the granular pipe fixing apparatus according to the first embodiment.
5 is a perspective view showing a tubular portion according to the first embodiment.
6 is a cross-sectional view showing an installation state of the granular pipe fixing apparatus according to the present embodiment.
7 is a perspective view showing a tubular portion according to the second embodiment.
8 is a perspective view showing a tubular portion according to the third embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1, 2, and 6 are views showing a granular pipe fixing apparatus 100 according to the present embodiment.

FIG. 1 is an exploded perspective view showing a granular pipe fixing apparatus 100 according to the present embodiment, and FIG. 2 is a perspective view showing a state of engagement of the granular pipe fixing apparatus 100 according to the present embodiment.

1 and 2, the granular pipe fixing apparatus 100 according to the present embodiment includes a tubular portion 200 and a through sleeve 300.

The tubular portion 200 includes a first semicircular flange 210, a second semicircular flange 220, a first semicircular band 212, a second semicircular band 222, a first refractory filler frame 250, And a filling frame 260.

The first semicircular flange 210 and the second semicircular flange 220 are fastened to the ends of the through sleeves 300 to support the granular pipe 420. The first semicircular flange 210 and the second semicircular flange 220 have projecting flanges 216 and 226 protruding from the center of the outer periphery and having support grooves 216a and 226a at the center. The support grooves 216a and 226a included in the projecting flanges 216 and 226 are provided with support bolts 234a and 234b used to fix the granular pipe fixation device 100 to the cement which is the bottom surface of each building layer It is a hole to be fastened. The first semicircular flange 210 and the second semicircular flange 220 are provided with elliptical fixing grooves 210c and 220c formed to be fixed to the penetrating sleeve 300. [ The fixing bolts 232a and 232b are fastened to the fixing grooves 210c and 220c so that the first and second semicircular flanges 210 and 220 are coupled to the penetrating sleeve 300. The first semicircular flange 210 and the second semicircular flange 220 are made of a material such as steel that can block the transmission of heat such as fire to the granular pipe 420 passing through the penetrating sleeve 300, And the noise preventing member is attached to the other side. The first semicircular flange 210 and the second semicircular flange 220 generate noises when the cold and hot water passes through the granular pipe 420. The first semicircular flange 210 and the second semicircular flange 220, It is possible to prevent noise during passage of the cold / hot water by using the noise preventing member attached to one side surface and the other side surface of the door. In addition, vibration noise of the pipe wrapped by the granular pipe fixing device 100 can be prevented. Here, the noise preventing member may be made of a foamed resin material such as PA (polyamide) and PS (polystyrene) to prevent heavy impact sound. One end of the first semicircular flange 210 and the second semicircular flange 220 in the direction opposite to the circular arc has protrusions 210a and 220a and the other end is provided with fastening portions 210b and 220b bent in an upward direction The protrusions 210a of the first semicircular flange 210 and the fastening portions 220b of the second semicircular flange 220 are combined to facilitate the fastening of the first semicircular flange 210 and the second semicircular flange 220 do. Here, the protrusions 210a and 220a and the fastening portions 210b and 220b can be easily provided with, for example, a magnet inside. The protrusions 210a and 220a and the fastening portions 210b and 220b are formed in a streamlined shape so that the first and second semicircular flanges 210 and 220 are easily rotated while being rotated. The first semicircular flange 210 and the second semicircular flange 220 are opened when the thick pipe is gripped by the granular pipe fixing device 100. The protrusions 210a and 220a and the fastening portions 210b and 220b Can prevent the gap between the first and second semicircular flanges 210 and 220 from spreading, thereby preventing the flame from spreading when a fire occurs.

The first semicircular band 212 and the second semicircular band 222 are fastened to the upper surface of the first semicircular flange 210 and the second semicircular flange 220 to fix the granular pipe 420. The first semicircular flange 210 and the second semicircular flange 220 are formed with predetermined semicircular protrusions 212a and 222a on the inner surface so as to grip the granular pipe 420 passing through the penetrating sleeve 300 without any difficulty And are formed parallel to each other at intervals. The first semicircular band 212 and the second semicircular band 222 are made of, for example, steel and have an insulating material such as rubber to cover electricity or heat. For example, when the hot water passes through the granulating pipe 420, the hot water passes through the first and second semicircular bands 212 and 222, which are covered with the rubber material, The granulation piping 420 is not deformed by supporting it without giving any load.

The first fastening piece 214 and the second fastening piece 224 are located on the upper surface of the first semicircular flange 210 and the second semicircular flange 220 and the first semicircular band 212 and the second semicircular band 222 ) Extending in the horizontal direction. The first fastening piece 214 and the second fastening piece 224 are composed of the engaging pieces 214a and 224a having one end formed in a letter shape and the engaging pieces 214a and 224a are engaged, A first semicircular flange 210 and a second semicircular flange 220 are rotatably provided at the center of the coupling pin 230. [ Here, the coupling pieces 214a and 224a are formed in a streamlined shape so that the first semicircular flange 210 and the second semicircular flange 220 can be easily rotated. The first fastening piece 214 and the second fastening piece 224 are composed of a fastening plate 240 whose other end extends horizontally at the same height as the first and second semicircular bands 212 and 222 . And fastening grooves 240a and 240b are provided in the center of the fastening plate 240. The fastening plate 240 also includes a bolt 228 and a nut 218 which are inserted into the fastening recesses 240a and 240b to fasten the first semicircular flange 210 and the second semicircular flange 220. [ .

The first refractory filler frame 250 and the second refractory filler frame 260 are fastened to the lower surface of the first semicircular flange 210 and the second semicircular flange 220, A substance that can block transmission is filled.

The penetrating sleeve 300 is cylindrical and fixed to the bottom of the cement, which is the bottom surface of each layer of the building. Here, although the through sleeve 300 is shown as a cylindrical shape, it is not limited thereto, and it may be realized, for example, in a box shape. The first refractory filler frame 250 and the second refractory filler frame 260 may be cylindrical if the penetrating sleeve 300 is a cylindrical shape and the first refractory filler frame 250 and the second refractory filler pipe 250 may be cylindrical if the penetrating sleeve 300 is a box, The filling frame 260 is also implemented in a box shape.

The separated granular pipe fixing apparatus 100 shown in FIG. 1 is configured such that fixing bolts 232a and 232b are fastened to the fixing grooves 210c and 220c of the tubular portion 200, (100).

FIG. 3 is an exploded perspective view showing the granular pipe fixing apparatus 100 according to the first embodiment, and FIG. 4 is a perspective view showing the granular pipe fixing apparatus 100 according to the first embodiment.

The tubular portion 200 and the penetrating sleeve 300 shown in Figs. 3 to 4 are the same as those of Figs. 1 to 2, and only the contents different from those of Figs. 1 and 2 will be described.

3 and 4 according to the first embodiment, the first fastening piece 214 and the second fastening piece 224 are constituted by the engagement pieces 214a and 224a having one end of a " A first semicircular flange 210 and a second semicircular flange 220 are rotatably provided at the center of the engaging pieces 214a and 224a with the engaging pins 230 as a center. Here, the coupling pieces 214a and 224a are formed in a streamlined shape so that the first semicircular flange 210 and the second semicircular flange 220 can be easily rotated. The first fastening piece 214 and the second fastening piece 224 are constituted by a fixing part including the fixing part 224b and the fixing part 224b at the other end, And the fixing piece 224b moves along the spring 236c formed inside the fixing piece 224b.

5 is a perspective view showing the tubular part 200 according to the first embodiment.

The tubular portion 200 according to the first embodiment of FIG. 5 is the same as the tubular portion 200 shown in FIGS. 3 to 4, and a description thereof will be omitted. Accordingly, in FIG. 5, A portion not shown in FIGS. 3 to 4 will be described in detail.

Referring to FIG. 5, part A of the tubular part 200 according to the first embodiment shows the movement of the fixing piece 224b. The fixing piece 224b includes a "C" shaped receiving portion 236a, an "a" shaped moving portion 236b, a low elastic spring 236c, and a hook portion 236d. The fixing part 224b moves the moving part 236b in the direction of the ring 214b by using the elastic force of the spring 236c when the fixing part 224b is fastened to the ring 214b in order to support the thick granular pipe 420, The portion 36d and the ring 214b are fastened. Although not shown in FIG. 5, when the granular pipe 420 having a large thickness is provided with the bearing turning pin at the center of the hook portion 236d and the hook 214b, the angle of the hook portion 236d and the angle of the hook 214b So that fastening of the hook portion 236d and the hook 214b is facilitated. 5, the granular pipe fixing apparatus 100 according to the present embodiment can fasten the first and second semicircular flanges 210 and 220 using a ring 214b and a fixing piece 224b The time and cost for fastening the first and second semicircular flanges 210 and 220 can be reduced.

6 is a cross-sectional view showing an installation state of the granular pipe fixing apparatus according to the present embodiment.

Referring to FIG. 6, the granular pipe fixing device 100 includes support bolts 234a and 234b fastened to the support grooves 216a and 226a located at the center of the projecting flanges 216 and 226, respectively, It is installed and installed. The granulation piping fixing device 100 allows the outer surfaces of the granulation piping 420 to contact the inner surfaces of the first and second semicircular bands 212 and 222. The particulate matter trapping apparatus 100 further includes a first semicircular flange 210 and a second semicircular flange 210. The first semicircular flange 210 fills the first refractory filler frame 250 and the second refractory filler frame 260 with a refractory material 410, And the temperature distribution through the second semicircular flange (220).

FIG. 7 is a perspective view showing a tubular portion 200 according to the second embodiment.

7 according to the second embodiment, one end of the first fastening piece 214 and the second fastening piece 224 are composed of a first loop 510a and a first fastening piece 520b, The first fixing member 520b is coupled to the first loop 510a along a first spring formed inside the first fixing member 520b to support the granulating pipe 420. The first fixing member 520b is coupled to the first fixing member 520b, Direction.

The other end of the first fastening piece 214 and the second fastening piece 224 is composed of a second loop 520a and a second fastening piece 510b so that the second loop 520a is coupled to the second fastening piece 510b And the second fixing member 510b moves in the direction of the second ring 520a in accordance with the second spring formed inside the second fixing member 510b. Here, the operation of the first loop 510a, the first fixing piece 520b, the second loop 520a, and the second fixing piece 510b is the same as that of the portion A of FIG. 5, and thus a detailed description thereof will be omitted. The tubular portion 200 according to the second embodiment shown in FIG. 7 is coupled to the through sleeve 300 in the same manner as the embodiment shown in FIGS. 1 and 2, .

8 is a perspective view showing the tubular part 200 according to the third embodiment.

8 according to the third embodiment, one end of the first fastening piece 214 and the other end of the second fastening piece 224 are arranged at the same height as the first semicircular band 212 and the second semicircular band 222 in the horizontal direction And an extended first fastening plate 610. The first fastening plate 610 has first fastening grooves 610a and 620a at the center thereof. The first fastening plate 610 includes a first bolt 612 inserted into the first fastening grooves 610a and 620a for fixing the first semicircular flange 210 and the second semicircular flange 220, And a first coupling portion including a nut 622.

The other end of the first fastening piece 214 and the second fastening piece 224 is constituted by a second fastening plate 620 extending in the horizontal direction at the same height as the first semicircular band 212 and the second semicircular band 222 do. And second fastening grooves 610b and 620b are provided at the center of the second fastening plate 620. The second fastening plate 620 includes a second bolt 624 inserted into the second fastening grooves 610b and 620b for fixing the first semicircular flange 210 and the second semicircular flange 220, And a second coupling portion including a nut 614. The tubular portion 200 according to the third embodiment shown in FIG. 8 is coupled to the through sleeve 300 in the same manner as the embodiment shown in FIGS. 1 and 2, .

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than limiting, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

200: tubular section 210: first semicircular flange
210a, 220a: protrusions 210b, 220b:
210c, 220c: fixing groove portion 212: first semicircular band
212a, 222a: semicircular protrusion 214: first fastening piece
214a, 224a: Coupling piece 214b:
224b: fixing pieces 216, 226: projecting flange
218: Nuts 228: Bolts
220: second semicircular flange 222: second semicircular band
224: second fastening piece 230: engaging pin
232a, 232b: Fixing bolts 234a, 234b: Support bolts
236a: a receiving portion 236b:
236c: spring 236d:
240: fastening plates 240a, 240b: fastening groove
300: penetrating sleeve 410: refractory material
420: granular pipe 510a: first ring
510b: second fixing piece 520a: second ring
520b: first fixing piece 610: first fixing plate
610a, 620a: first fastening groove 610b, 620b: second fastening groove
612: first bolt 614: second nut
620: second fastening plate 622: first nut
624: Second bolt

Claims (9)

Penetrating sleeve 300;
A first semicircular flange 210 and a second semicircular flange 220 fastened to the upper end of the through sleeve to support the granular pipe;
A first semicircular band (212) and a second semicircular band (222) fastened to the upper surface of the first semicircular flange (210) and the second semicircular flange (220); And
And a second semi-circular band (222) disposed on the upper surface of the first semicircular flange (210) and the second semicircular flange (220) and extending in the horizontal direction at one end and the other end of the first semicircular band (212) 1 fastener piece 214 and the second fastener piece 224,
One end of the first semicircular flange 210 and the second semicircular flange 220 in the direction opposite to the circular arc has protrusions 210a and 220a and the other end has a bent portion 210b And 220b so that the protrusions 210a and 220a are engaged with the coupling portions 210b and 220b. The method according to claim 1,
The first semicircular flange 210 and the second semicircular flange 220 may be formed,
And fixing projections 216 and 226 protruding from the center of the outer circumferential edge and including support grooves 216a and 226a at the center and fixed to the penetrating sleeve 300 by elliptical fixing grooves 210c and 220c And a plurality of pipe-shaped pipe-fixing units. The method according to claim 1,
The first semicircular flange 210 and the second semicircular flange 220 may be formed,
And a noise preventive material is attached to one side surface and the other side surface of the perforated sleeve (300), wherein the perforated sleeve (300) is made of a material capable of blocking heat transmission to the granular pipe. The method according to claim 1,
The first semicircular band (212) and the second semicircular band (222)
The semicircular protrusions 212a and 222a are formed parallel to the inner surface of the perforated sleeve 300 so as to hold the perforated pipe through the perforated sleeve 300 at predetermined intervals and are covered with an insulating material Characterized in that the piping system comprises: The method according to claim 1,
Wherein the granular pipe fixing device comprises:
A first refractory filler frame 250 which is fastened to the lower surface of the first semicircular flange 210 and the second semicircular flange 220 and has a bottom surface formed in a curved shape and filled with a material capable of blocking the transmission of heat therein, Further comprising a second refractory filler frame (260). The method according to claim 1,
The first fastening piece (214) and the second fastening piece (224)
And each of the engaging pieces 214a and 224a is coupled to each other and each of the engaging pieces 214a and 224a is formed in a hole formed in the center of each of the engaging pieces 214a and 224a The first semicircular flange 210 and the second semicircular flange 220 are rotatably disposed around the inserted coupling pin 230 and the other end of the first semicircular band 212 and the second semicircular band 222 And a coupling plate 240 extending in the horizontal direction at the same height as the coupling plate 240 and having coupling grooves 240a and 240b at the center of the coupling plate 240. The first and second semicircular flanges 210 and 210, And an engaging portion including a bolt (228) and a nut (218) inserted into the engaging grooves (240a, 240b) for fixing the flange (220). The method according to claim 1,
The first fastening piece (214) and the second fastening piece (224)
And each of the engaging pieces 214a and 224a is coupled to each other and each of the engaging pieces 214a and 224a is formed in a hole formed in the center of each of the engaging pieces 214a and 224a The first semicircular flange 210 and the second semicircular flange 220 are rotatably provided around the engaging pin 230 to be inserted and the other end of the first semicircular flange 210 and the second semicircular flange 220 The fixing member 224b is fixed to the annular pipe 224b along a spring 236c formed inside the fixing member 224b by fixing the annular pipe 214b to the fixing member 224b, (214b). ≪ / RTI > The method according to claim 1,
The first fastening piece (214) and the second fastening piece (224)
The first fixing part 520a is formed by a first ring 510a and a first fixing part 520b so that the first ring 510a is coupled to the first fixing part 520b to support the granular pipe, The first fixing piece 520b moves in the direction of the first loop 510a and the other end is configured as the second loop 520a and the second fixing piece 510b along a first spring The second ring 520a is coupled to the second fixing member 510b to support the granular pipe and the second fixing member 510b is fixed to the second fixing member 510b along a second spring formed inside the second fixing member 510b, ) Moves in the direction of the second loop (520a). The method according to claim 1,
The first fastening piece (214) and the second fastening piece (224)
And a first fastening plate 610 which is connected to the first semicircular band 212 and the second semicylindrical band 222 at the same height horizontally and connected to the first fastening plate 610, And a first bolt 612 inserted into the first coupling grooves 610a and 620a to fix the first flange 210 and the second flange 220, And a first nut 622. The other end of the second fixing plate 620 is connected to the first semi-circular band 212 and the second semi-circular band 222, And the second fastening plate 620 is provided with second fastening grooves 610b and 620b at the center thereof and the second fastening grooves 610b and 620b are formed at the center thereof to fix the first flange 210 and the second flange 220, And a second coupling portion including a second bolt (624) and a second nut (614) inserted into the second coupling grooves (610b, 620b).

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