KR200187864Y1 - Pipe hanger - Google Patents

Abstract

The present invention relates to a pipe fixture for fixing a pipe installed on the ceiling of the building, a plurality of protruding pieces are formed on the outer periphery of both side walls of the upper and lower hangers for fixing the pipe to be inclined downward at predetermined intervals, respectively. Inside the protruding piece, each of the other protruding pieces is inserted into a fixed hole so that the protruding piece of the lower hanger is inserted into the inside of the cutting hole of the upper hanger. By providing a structure for reducing the size of the pipe fittings for plumbing, the dimensions of the pipe fittings for plumbing are greatly reduced.

Description

Reduced Size Structure of Pipe Fixtures for Plumbing {Pipe hanger}

The present invention relates to a fixture for fixing a pipe for installation in the ceiling of the building, and more particularly to a dimension reduction structure of the pipe fixture for plumbing so that the dimensions of the pipe fixture for plumbing significantly reduced.

In general, the pipe for installation in the building is fixed to the building by a predetermined fixture, of which the fixing example of the pipe for the pipe fixed to the ceiling will be described in more detail with reference to the accompanying drawings.

1 is a front view showing a conventional pipe fitting for pipes, the pipe fittings of the conventional pipe is formed in two upper and lower portions to be fastened to each other by the bolt 12 and the nut 14, the pipe 16 is inserted into the lower inner circumference The upper and lower hangers 18 and 19 to be installed, the brackets 21 fixed to the ceiling by anchor bolts, and installed between the brackets 21 and the upper hangers 18 and the upper hangers 18 and the brackets. The shock absorbing device 23 is connected to the 21 to prevent the vibration inside the pipe 16 accommodated in the lower hanger 19 from being transmitted to the bracket 21.

On the other hand, look at the configuration of the shock absorbing device 23 in the above-described configuration in more detail, the connecting member 27 is installed on the top of the frame 25 of the four-ring-shaped frame formed with a through hole 24 of a predetermined size at the bottom It is coupled to the bracket 21 by, the other connecting member 29 is fixed to the upper hanger 18 is inserted into the through hole 24 of the frame 25, the connecting member 29 The thread is formed in the portion located in the frame 25 of the lower stop ring 31 and the spring 33 and the upper stop ring 34 and the connecting member of a larger dimension than the through-hole 24 The nut 35 coupled to the thread of 29 is sequentially installed from the through hole 24.

According to the conventional pipe fixing fixture configured as described above when the vibration is generated in the pipe 16 is installed in the lower hanger 19, the vibration of the pipe 16 is buffered by the spring 33 buffers the impact force caused by the vibration. It is not delivered to the bracket 21 is to maintain the installation state of the pipe fixtures for plumbing.

However, the conventional pipe fixtures configured as described above had a problem that the height of the room is lowered after completion of the construction because the upper and lower dimensions are long, the upper and lower hangers (18) and (19) to the bolt 12 and the nut Since the bolt 12 installation position of the lower hanger 19 should be set on the upper part of the pipe 16, the length of the lower hanger 19 becomes longer, so that the overall length becomes longer. There was a problem that it takes a lot, and there is a problem that the pipe fixture is unable to play its role because the coupling force of the bolt 12 and the nut 14 is deteriorated by the vibration of the pipe 16 during use, the number of parts work time And costly problems.

An object of the present invention for solving the problems as described above is to form a plurality of protrusions at predetermined intervals to be inclined downward downward on the outer periphery of both side walls of the upper and lower hangers for fixing the pipes and other protrusions inside the protrusions By forming a cutting hole in which the piece is fixed, the protrusion of the lower hanger is inserted into the cutting hole of the upper hanger, and the upper hanger and the bracket are directly connected to each other to install a shock absorbing device into the inside of the upper hanger. To provide a structure for reducing the size of the pipe fittings for plumbing so that the dimensions of the significantly reduced.

1 is a front view showing an embodiment of a conventional pipe fixture for plumbing

Figure 2 is a partial exploded front cross-sectional view showing an embodiment of the dimension reduction structure of the pipe fixture for piping according to the present invention

Figure 3 is an exploded perspective view showing a reduced structure of the pipe fixture for piping according to the present invention

* Description of the symbols for the main parts of the drawings *

18, 19: hanger 21: bracket

42: protrusion 44: incision hole

48: spring

An embodiment of the present invention for achieving the object as described above will be described in more detail with reference to the accompanying drawings in the following, in the embodiment of the present invention the same reference numerals as in Figure 1 are the same to avoid duplication of description. It is indicated by a sign.

Figure 2 is a partial exploded front cross-sectional view showing an embodiment of the dimension reduction structure of the pipe fixture for piping according to the present invention, Figure 3 is an exploded perspective view showing the dimension reduction structure of the pipe fixture for piping according to the present invention.

The dimension reduction structure of the pipe fixture for piping according to the present invention is the upper surface of the upper and lower hangers (18) (19) for fixing the pipe 16 a plurality of horizontal protrusions 42 formed inclined at a predetermined angle downward Protrusions are formed at predetermined intervals at positions symmetrical to both side walls, and the other protruding pieces 42 are inserted into the protruding pieces 42 of the upper and lower hangers 18 and 19 while communicating with the lower parts of the protruding pieces 42. By forming a cut hole 44 of a predetermined size so that the protrusion piece 42 of the lower hanger 19 is inserted into the cut hole 44 of the upper hanger 18 is fixed.

On the other hand, in the above configuration, the protruding pieces 42 may be formed so that both sides thereof are sealed or open. As an example, as shown in FIG. 3, the protruding pieces 42 formed on the upper hanger 18 have both sides thereof. It is formed to be closed, the protruding piece 42 formed in the lower hanger 19 may be formed so that both sides open. According to the present invention configured as described above, since the protruding pieces 42 formed on the lower hanger 19 and the protruding pieces 42 formed on the upper hanger 18 overlap, the load is applied to the protruding pieces 42 formed on the lower hanger 19. Even if it is applied, since the protruding piece 42 formed in the upper hanger 18 supports it, the protruding piece 42 formed in the lower hanger 19 is prevented from being deformed.

In addition, the upper hanger 18 and the bracket 21 are directly connected to one connecting member 46 so that the spring 48 is separated from the outer circumference of the connecting member 46 located inside the upper hanger 18. Do not install it.

On the other hand, in the above configuration in more detail look at the installation structure for preventing the spring 48 is separated to the outside, the thread is formed on the outer periphery of the connecting member 46 located inside the upper hanger 18 The upper stop ring 49, the spring 48, the lower stop ring 50 and the nut 51 are sequentially fastened.

According to the present invention configured as described above, first, after fixing the bracket 21 by using an anchor bolt on the building ceiling, the connecting member 46 provided with a spring 48 on the outer circumference of the bracket 21 and the upper hanger 18. Connect with Then, after the pipe 16 is inserted into the lower hanger 19, the lower hanger 19 is inserted into the upper hanger 18 so that the protruding piece 42 of the lower hanger 19 is the upper hanger. The pipe 16 is fixed to the pipe fixture by being inserted into the cutout 44 of 18.

At this time, since the upper and lower hangers 18 and 19 are fastened to each other by the protruding pieces 42 inserted into the cutting holes 44, the pipe 16 is lowered by the load of the pipe 16 after installation. The protruding piece 42 of the hanger 19 may be bent upwards, but the protruding piece 42 formed integrally with the upper hanger 18 supports the protruding piece 42 of the lower hanger 19, thereby lowering the lower part. The protrusion piece 42 formed in the hanger 19 is prevented from being bent upward by the load of the pipe 16.

Therefore, according to the present invention, since the shock absorbing device, that is, the spring 48 is inserted into the upper hanger 18 and the bolt is not required to be installed as in the related art, the length of the lower hanger 19 is shortened.

According to the present invention configured as described above, the shock absorbing device, that is, the spring is inserted into the upper hanger, and since the position where the bolt is installed is not required as in the prior art, the length of the lower hanger is shortened. The effect is that the dimension is greatly reduced, and in order to fasten the upper and lower hangers, simply insert the lower hanger into the upper hanger, so that the upper and lower hangers can be easily tightened, and the number of parts is small, thereby greatly reducing the work process. There is.

Claims (2)

In the pipe fittings for pipes which are fixed to the bracket 21 installed on the ceiling, the upper and lower hangers 18 and 19, which are bisected up and down to be mutually fastened, A plurality of horizontal protrusions 42 having an upper surface inclined downward by a predetermined angle are formed at predetermined intervals at positions symmetrical on both side walls of the upper and lower hangers 18 and 19, and the upper and lower hangers 18 Inside the protruding piece 42 of the (19), the lower hanger (19) is formed by communicating with the lower part of the protruding piece 42 and forming a cut hole 44 of a predetermined size so that the other protruding piece 42 can be inserted therein. Reducing dimension of the pipe fixture for the pipe, characterized in that the protrusion piece 42 of the) to be inserted into the cutting hole 44 of the upper hanger (18). In the pipe fittings for pipes which are fixed to the bracket 21 installed on the ceiling, the upper and lower hangers 18 and 19, which are bisected up and down to be mutually fastened, The upper hanger 18 and the bracket 21 are directly connected to the connecting member 46 to separate the shock absorbing spring 48 to the outer circumference of the connecting member 46 located inside the upper hanger 18 to the outside. Size reduction structure of the pipe fixture for piping, characterized in that the installation so as not to.