KR101061660B1 - Pipe clamping device for wall fixing - Google Patents

Abstract

The present invention secures the mechanical strength and deformation behavior of the clamp for fixing the pipe to the bracket, no rust, and increase the tightening force per unit area of the clamp to the pipe to increase the clamping pipe clamping wall Relates to a device.

The configuration surrounds the outer diameter of the pipe 11, and tapered flanges 34 and 34 'are formed at both ends, respectively, and a pair of plastic annular split clamps in which the annular corrugated steel sheet 32 is inserted by injection molding. A clamping part 30 formed of (33, 33 '); One end is fastened to the tapered flanges 34 and 34 'of the plastic annular split clamps 33 and 33', and the other end thereof is a spring bracket part 80 fixed to a wall.

Clamping Parts, Spring Bracket Parts, Corrugated Split Clamps, Annular Dividers

Description

Pipe clamping device for a wall fixing

The present invention relates to a pipe clamping device for fixing the wall surface, and more particularly, to ensure the mechanical strength and the safety of deformation behavior of the clamp for fixing the pipe to the bracket, no rust occurs, the tightening force per unit area of the clamp to the pipe It relates to a wall clamping pipe clamping device to increase the fixing force by increasing the.

In addition, the present invention relates to the wall clamping pipe clamping device to ensure the assembly performance in the field and the shock absorbing damping force to the three-axis deformation behavior of the bracket sufficiently, to secure the clamping force, damping force, insulation and earthquake resistance will be.

In general, the pipe clamping device for wall fixing uses the U-shaped clamp 12 to connect the pipe 11 to the bracket 15 fixed to the wall by the foundation bolts 19 and 19 '. It is supposed to be fixed.

In more detail, the bracket 15 is formed in both ends are bent in the opposite direction to each other in multiple stages, the holes 18, 18 'through which the respective foundation bolts 19, 19' through The slots 16 and 16 'may be formed on both sides of the middle, through which screws 14 and 14' formed at both ends of the U-shaped clamp 12 pass through and fastened to the nuts 17 and 17 '.

The U-shaped clamp 12 encloses an outer diameter portion of the pipe 11, and a resin band 13 having a circular cross-sectional structure is inserted between the pipe 11 and the U-shaped clamp 12.

 In the conventional wall clamping pipe clamping device configured as described above, the resin band 13 is first inserted into the outside of the pipe 11, and then the U-shaped clamp 12 is enclosed by the resin band 13 to surround the outer diameter of the pipe 11. ) And both end screws 14, 14 'of the U-shaped clamp 12 pass through the slots 16, 16' of the bracket 15.

The U to the pipe 11 is then tightened by tightening the nuts 17, 17 ′ to the screws 14, 14 ′ of the U clamp 12 passing through the slots 16, 16 ′ of the bracket 15. It is possible to fix the pipe 11 to the bracket 15 by the clamping force of the clamp 12, the base bolt (19, 19 ') on the wall through the holes (18, 18') at both ends of the bracket (15) By fastening the pipe 11 will be able to be fixed and installed on the wall.

However, such a conventional wall clamping pipe clamping device has a U-type clamp made of steel, which not only causes rust corrosion but also causes red contamination of the wall surface by rust, and also has no triaxial deformation behavior against external loads. When the resin band is separated, the clamping force on the pipe is lost, and there is a problem that the leakage of the connection of the gas pipe due to the twisting of the pipe and the risk of fire caused by this are inevitable. Repetitive maintenance and replacement of clamps were required to prevent the paint.

On the other hand, although stainless steel can be used to prevent rust corrosion, stainless steel has no shock absorbing ability against triaxial deformation behavior and is expensive, thus acting as a factor of cost increase, and in the case of plastic material, mechanical strength and tightening force In addition, the fixing force of the pipe is reduced due to the durability degradation, there is no damping effect on the three-axis deformation behavior, and when the clamp is made of a conventional U-shaped steel, there is a problem that the tightening force is lowered because the contact area with the pipe is low.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object is to secure the mechanical strength and deformation behavior of the clamp for fixing the pipe to the bracket, the rust does not occur, It is to increase the clamping force by increasing the tightening force per unit area of the clamp.

In addition, it is to provide a wall clamping pipe clamping device to ensure the assembly of the field and the shock absorbing damping force sufficiently against the deformation behavior of the three-axis direction of the bracket, and to secure the fastening force, damping force, insulation and earthquake resistance.

Wrapping the outer diameter portion of the pipe to achieve the object of the present invention, tapered flanges are formed at both ends, and a clamping part formed of a pair of plastic annular split clamps in which the annular corrugated steel sheet is inserted by injection molding; One end is fastened to the tapered flange of the plastic annular split clamp, the other end is a spring bracket component is fixed to the wall;

In addition, a pair of corrugated split clamps which are assembled along the outer surface of the pair of annular splitting resins surrounding the outer diameter of the pipe and having flanges formed at both ends and formed with corrugated flanges at both ends; One end is fastened to the corrugated flange and the annular dividing paper of the waveform split clamp, the other end is a spring bracket component is fixed to the wall;

A clamping component having a rectangular taper resin interposed between the waveform flanges of the waveform split clamp; One end is fastened to the waveform flange and the square taper resin of the waveform split clamp, the other end is a spring bracket component is fixed to the wall;

In the present invention, since the plastic annular split clamp is inserted into the annular corrugated steel sheet, it is possible to secure safety, corrosion resistance and insulation of strength, and a plurality of protruding bands are formed at the inner diameter of the plastic annular split clamp. Excellent tightening force and insulation can be secured, and flanges formed at both ends of the annular split clamp have the effect of securing assembly safety and tightening force.

In addition, it is possible to ensure a high tightening force of the annular split clamp to the pipe by allowing the nut to be fastened through the long shaft screw of the spring bracket to the flange of the annular split clamp, thereby providing a valve installed in the pipe to the wall It can be fixed and installed safely.

In addition, by constructing a spring bracket with a square longitudinal spring and a lateral spring perpendicular to each other, it is possible to secure a damping force that can prevent breakage and gas leakage due to the deformation behavior of the pipe, and at the end of the spring bracket When the pipe is fixed to the wall by the longitudinal slot through it, it can have the assembly tolerance of right, left, up, down and up and down direction, so it is excellent in assemblability and uses plastic injection annular split clamp using cheap corrugated steel. It also has the advantages of excellent damping, shock resistance, corrosion resistance, insulation and durability.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a to 2c shows a first embodiment of the present invention, as shown in the present invention, a pair of plastic annular wrap around the outer diameter of the pipe 11 and tapered flanges 34 are formed at both ends, respectively The pair of plastic annular splits, comprising a split clamp (33, 33 ') and an integral spring bracket (36) coupled to the tapered flanges (34) at both ends of the plastic annular split clamps (33, 33'). The clamps 33 and 33 'have an annular corrugated steel sheet 32 inserted therein by injection molding.

The annular corrugated steel sheet 32 is formed by pressing a plurality of corrugations 31 in the axial direction, and similarly to the plastic annular split clamps 33 and 33 ', tapered flanges 34 and 34' are formed at both ends thereof. The longitudinal slots 35 and 35 'are formed on the tapered flanges 34 and 34' of the annular corrugated steel sheet 32 and the plastic annular split clamps 33 and 33 '.

The integrated spring bracket 36 has a vertical long axis screw 37 including a pedestal 38 formed at an upper end thereof, and has a longitudinal spring 41 and a left and right spring 42 at a lower side of the long shaft screw 37. It is formed in succession, and the left and right slots 43 are formed at the lower end of the left and right springs 42, the longitudinal springs 41 and the left and right springs 42 are formed in a right angle to each other It is formed in the form.

According to the present invention, the tapered flanges 34 and 34 'formed at both ends of the pair of annular corrugated split clamps 33 and 33' into which the annular corrugated steel sheet 32 is inserted and divided are piped together. 11) Wrap the outer diameter part.

Then, the tapered flanges 34 and 34 'of the annular corrugated split clamps 33 and 33' and the annular corrugated steel sheet 32 having the long shaft screws 37 formed in the vertical direction at the upper end of the integrated spring bracket 36 overlap each other. The tapered flanges 34 and 34 'of the annular split clamps 33 and 33' and the annular corrugated steel sheet 32 are formed to pass through the longitudinal slots 35 and 35 'formed in the Place on the pedestal 38.

Then, the nut 39 is formed on the long shaft screw 37 which penetrates the longitudinal slots 35 and 35 'of the tapered flanges 34 and 34' of the annular split clamps 33 and 33 'and the annular corrugated steel sheet 32. ) To fix the pipe 11 with a tightening force. The plastic annular split clamps 33 and 33 'have a plurality of protruding bands 40 along the axial direction in the inner diameter as shown in FIG. 2B. It is formed so that the tightening force of the plastic annular split clamps 33 and 33 'with respect to the pipe 11 can be further increased.

Thereafter, the foundation bolt 19 is fastened to the wall by passing through the left and right slots 43 extending to the lower end of the left and right directional springs 42 to fix the pipe 11 to the wall surface.

Thus, in the present invention, since the plastic annular split clamp is inserted into the annular corrugated steel sheet, it is possible to secure strength safety, corrosion resistance and insulation, and a plurality of protruding bands are formed in the inner diameter of the plastic annular split clamp. Excellent tightening force and insulation can be secured at the same time, it is possible to ensure the safety and tightening force of the assembly by the flange formed on both ends of the annular split clamp.

In addition, it is possible to ensure a high tightening force of the annular split clamp to the pipe by allowing the nut to be fastened through the long shaft screw of the spring bracket to the flange of the annular split clamp, thereby providing a valve installed in the pipe to the wall It has the advantage of being securely fixed and installed.

In addition, by constructing a spring bracket with a square longitudinal spring and a lateral spring perpendicular to each other, it is possible to secure a damping force that can prevent breakage and gas leakage due to the deformation behavior of the pipe, and at the end of the spring bracket When the pipe is fixed to the wall by the lengthwise slot through which the pipe passes, the assembly tolerance can be afforded in front, rear, left and right and up and down directions, and the assembly strength is excellent, and the plastic injection annular split clamp using inexpensive corrugated steel is used. It has the advantages of excellent damping, shockproof, corrosion resistance, insulation and durability.

3 to 12 illustrate various embodiments according to the change, and the operation and effect thereof are the same as in the first embodiment of the present invention, and thus only structural differences will be described.

3 is a perspective view showing a second embodiment of the present invention, in which a difference from the first embodiment is that the rotary spring bracket 44 is applied instead of the integrated spring bracket 36.

The rotary spring bracket 44 rotates the longitudinal spring 41 to the left and right spring 42 coupled to the tapered flanges 34 and 34 'of the plastic annular split clamps 33 and 33'. It is configured to enable three-axis deformation behavior.

The lateral spring 42 includes a pedestal 38 at its upper end and is a longitudinal slot 35 of the tapered flanges 34, 34 ′ of the plastic annular split clamps 33, 33 ′ and the annular corrugated steel sheet 32. A vertical long axis screw 37 is formed to penetrate through 35 'and fastened to the nut 39, and a hole 45 is formed at the lower end thereof.

In addition, the longitudinal spring 41 is formed at the upper end with a hole 45 'coincided with the hole 45 of the lateral spring 42 and fastened together by the bolt 46, and a foundation bolt passes through the lower end. The longitudinal slot 49 is formed.

4 is a perspective view showing a third embodiment of the present invention, in which the feature is that the coil spring bracket 50 is applied instead of the integrated spring bracket 36 of the first embodiment, and the coil spring bracket 50 has an upper portion. Vertical long axis through which the plastic annular split clamps 33 and 33 'and the longitudinal slots 35 and 35' of the tapered flanges 34 and 34 'of the annular corrugated steel sheet 32 are fastened to the nut 39 The screw 37 is formed, the lower end is formed with a longitudinal slot 49 through which the foundation bolt passes.

Figure 5 is a perspective view showing a fourth embodiment of the present invention, as shown in the present invention is a pair of annular divider (65, 65 ') wrapped around the outer diameter portion of the pipe 11 and formed with flanges at both ends; A pair of corrugated split clamps 62 and 62 'assembled along the outer surface of the pair of annular split resins 65 and 65' and having corrugated flanges 63 and 63 'formed at both ends thereof; It is characterized in that it consists of a rotating spring bracket 44 coupled to each of the flanges of the divided resin (65, 65 ') and the wave split clamp (62, 62'), the wave split clamp (62, 62 ') The shape of a semi-ellipse or semi-circle in which a plurality of corrugations 61 are inserted in the axial direction is formed by a press, and the flanges of the annular dividing resins 65 and 65 'and the corrugated flanges of the corrugated split clamps 62 and 62'. Longitudinal slots (64, 64 ') are formed on the (63, 63') to allow the long shaft screw (37) of the rotating spring bracket (44) to be fastened. It is good. In addition, the rotational spring bracket 44 is the same as the second embodiment of the present invention (see FIG. 3), and thus, a detailed description thereof will be omitted to avoid duplication.

Fig. 6 is a perspective view showing a fifth embodiment of the present invention, in which the annular divider 65, 65 'and the wave dividing clamps 62, 62' of the fourth embodiment are integrated spring brackets of the first embodiment. 36), the annular dividing resin (65, 65 '), the wave dividing clamp (62, 62') and the integrated spring bracket (36) are the first embodiment of the present invention (see FIG. 5) and the first. Since it is the same as the embodiment (see FIGS. 2A to 2C), a detailed description thereof will be omitted to avoid duplication.

FIG. 7 is a perspective view showing a sixth embodiment of the present invention, and FIG. 8 is a perspective view of a portion of the waveform split clamp shown in FIG. 7, which is different from the fifth embodiment in that the annular divider 65 and 65 is different from the fifth embodiment. The tapered rectangular tape 67 is inserted between the corrugated flanges 63 and 63 'of the corrugated split clamps 62 and 62' instead of '). For this purpose, the longitudinal taper (67) is inserted into the rectangular tapered resin 67. 66 formed so that the long shaft screw 37 of the integrated spring bracket 36 can be penetrated and fastened with the nut 39 together with the corrugated flanges 63 and 63 'of the corrugated split clamps 62 and 62'. will be.

Fig. 9 is a perspective view showing a seventh embodiment of the present invention, wherein the characteristics of the annular dividing paper 65, 65 'and the waveform dividing clamps 62, 62' of the fifth embodiment of the present invention (see Fig. 6) are shown. The rotary plate spring bracket 68 is combined.

The rotatable plate spring bracket 68 connects the left and right lateral plate springs 70 and the sand oriented longitudinal plate springs 72 to the plate rotation joint 74, and for this purpose, the left and right directional plate springs 70. Holes 71 and 73 are formed at the lower end and the upper end of the longitudinal plate spring 72, respectively, so that the bolts 46 and the nut 47 can be assembled to each other. In addition, the upper end of the lateral plate spring 70 in the integrally shaped wave split clamp 62 'and the lateral plate spring 70 is annular resin 65 by fastening the bolt 46 and the nut 47. And 65 ') and the flanges of the corrugated split clamps 62 and 62', and the foundation bolts 19 and 19 'penetrate the lower end of the longitudinal plate spring 72 to be fastened to the wall surface. One longitudinal slot 75 is formed.

 FIG. 10 is a perspective view showing an eighth embodiment of the present invention, which is different from the seventh embodiment in the integrated plate spring bracket 76 instead of the rotary plate spring bracket 68, and the integrated plate spring bracket 76. FIG. The rest of the configuration except for the plate rotation joint 74 of the rotatable plate spring bracket 68 is the same as the rotatable plate spring bracket 68.

Fig. 11 is a perspective view showing a ninth embodiment of the present invention, wherein the difference from the eighth embodiment is that of the first embodiment of the present invention instead of the annular divider 65, 65 'and the wave dividing clamps 62, 62'. The plastic annular split clamps 33 and 33 'with the annular corrugated steel sheets 32 and 32' are inserted, and the plastic annular split clamps 33 and 33 'are shown in the first embodiment (Figs. 2A to 2C). ) And detailed descriptions thereof will be omitted.

Fig. 12 is a perspective view showing a tenth embodiment of the present invention. The difference from the ninth embodiment is that the plate spring bracket 76 integral with the annular divider 65, 65 'and the wave dividing clamps 62, 62' is formed. Instead of joining, the rotary plate spring bracket 68 is applied, and the rotary plate spring bracket 68 is also the same as the seventh embodiment of the present invention (see FIG. 9), so a detailed description thereof will be omitted. do.

In the present invention, the material of the plastic annular split clamp and the spring bracket, the shape and arrangement of the corrugated wave, the material and the arrangement of the corrugated split clamp and the corrugated steel sheet bracket, the shape and the arrangement of the tapered flange, and the sand shape of the integrated and rotating spring bracket Qty, connection mechanism and installation location of the rotary spring bracket rotary joint, shape and number of coil spring brackets, arrangement and assembly of plate spring brackets integrally formed with corrugated split clamps, assembly of these clamps, brackets and tapered flanges According to the combination and arrangement, the integrally divided and rotating assembly structure of the annular split clamp spring bracket, corrugated split clamp spring bracket, corrugated split clamp spring plate bracket can be variously changed.

1 is a perspective view showing a configuration and installation of a conventional pipe fixing device.

2A to 2C show a first embodiment of the present invention.

3 is a perspective view showing a second embodiment of the present invention;

4 is a perspective view showing a third embodiment of the present invention;

5 is a perspective view showing a fourth embodiment of the present invention.

6 is a perspective view showing a fifth embodiment of the present invention.

7 is a perspective view showing a sixth embodiment of the present invention.

8 is a perspective view partially cut away the clamp of FIG.

9 is a perspective view showing a seventh embodiment of the present invention.

10 is a perspective view showing an eighth embodiment of the present invention;

11 is a perspective view showing a ninth embodiment of the present invention;

12 is a perspective view showing a tenth embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

11: piping 12: U type clamp

30: clamping part 31: waveform

32,32 ': annular corrugated steel sheet 33,33': plastic annular split clamp

34,34 ': Tapered flange 35,35': Longitudinal slot

36: integral spring bracket 37: long shaft screw

38: pedestal 39: nut

40: protruding band 41: longitudinal spring

42: left and right spring 43: left and right slot

44: Rotating Spring Bracket 45,45 ': Hole

46: bolt 47: nut

48: rotation joint 49: longitudinal slot

50: coil spring bracket 51: coil spring

61: waveform 62,62 ': waveform division clamp

63,63 ': Corrugated flange 64,64': Longitudinal slot

65,65 ': annular dilution 66: longitudinal slot

67: square tapered resin 68: rotating plate spring bracket

70: left and right direction leaf spring 71,73: hole

72: longitudinal plate spring 74: plate rotation joint

75: longitudinal slot 76: integral plate spring bracket

80: spring bracket parts

Claims (11)

delete A pair of plastic annular split clamps 33 are formed around the outer diameter of the pipe 11, and tapered flanges 34 and 34 'are formed at both ends thereof, and the annular corrugated steel sheet 32 is inserted therein by injection molding. A clamping component 30 formed of 33 '); In one end of the tapered flange (34) of the plastic annular split clamps (33, 33 '), the other end is a spring bracket component 80 is fixed to the wall; Wall clamping pipe clamping device consisting of, The spring bracket part 80 is fastened to the nut 39 through the tapered flange 34 of the plastic annular split clamps 33 and 33 ', and has a vertical long axis screw 37 including a pedestal 38. It is formed in the upper end, the longitudinal spring (41) and the left and right springs (42) of successive to form a perpendicular to each other to the lower side of the long axis screw 37 is formed in succession, the left and right slots on the lower end of the left and right springs (42) Wall clamping device for fixing the wall, characterized in that consisting of an integral spring bracket (36) extending (43). The method of claim 2, The spring bracket part 80 is a longitudinal spring 41 to the rotary joint 48 to the left and right spring 42, which is coupled to the tapered flanges 34 and 34 'of the plastic annular split clamps 33 and 33'. The left and right springs 42 have pedestals 38 at their upper ends and are longitudinal slots of tapered flanges 34 and 34 'of the plastic annular split clamps 33 and 33' and the annular corrugated steel sheet 32. A vertical long axis screw 37 is formed to pass through the 35 and 35 'and is fastened to the nut 39, and a hole 45 is formed at the lower end thereof, and the longitudinal spring 41 has the left and right springs at the upper end thereof. Rotating spring having a hole 45 'coincided with the bolt 46 and the nut 47 and a longitudinal slot 49 through which the base bolt penetrates at the lower end thereof, coinciding with the lower end hole 45 of the 42. Wall clamping pipe clamping device characterized in that consisting of the bracket (44). The method of claim 2, The spring bracket component 80 penetrates through the longitudinal slots 35 and 35 'of the tapered flanges 34 and 34' of the annular split clamps 33 and 33 'and the annular corrugated steel sheet 32 at the upper end thereof. A vertical long axis screw 37 is fastened to a 39 and includes a pedestal 38, and a lower end of the coil spring bracket 50 is formed with a longitudinal slot 49 through which the foundation bolt passes. Pipe clamping device for fixing one wall. delete A pair of ring-shaped flanges 63 and 63 'are formed along the outer surface of the pair of annular resins 65 and 65' which surround the outer diameter of the pipe 11 and have flanges at both ends. Waveform division clamps 62 and 62 '; A spring bracket component (80) having one end fastened to the corrugated flanges (63, 63 ') and the annular split resin (65, 65') of the corrugated split clamps (62, 62 '), the other end being fixed to a wall; In the configured wall clamping pipe clamping device, The spring bracket component 80 has a longitudinal spring (22) to the left and right spring 42 coupled to the corrugated flanges 63 and 63 'of the corrugated split clamps 62 and 62' and the annular divider 65 and 65 '. 41 is connected to the rotary joint 48, and the lateral spring 42 includes a pedestal 38 at its upper end and a taper of the corrugated split clamps 62 and 62 'and the annular corrugated steel plates 63 and 63'. A vertical long axis screw 37 is formed to pass through the longitudinal slots 35 and 35 'of the flanges 34 and 34' and is fastened to the nut 39, and a hole 45 is formed at the lower end thereof. The directional spring 41 is aligned with the lower end hole 45 of the left and right directional springs 42 at the upper end thereof, and the base bolt 19 at the lower end 45 and the hole 45 'which are fastened together by the bolt 46 and the nut 47. Wall clamping device for fixing the wall, characterized in that consisting of a rotating spring bracket 44 is formed a longitudinal slot (49) through. The method of claim 6, The spring bracket component 80 is fastened to the nut 39 through the corrugated flanges 63 and 63 'of the corrugated split clamps 62 and 62' and the annular dividing resins 65 and 65 '. A vertical long axis screw 37 including a) is formed at the upper end portion, the longitudinal longitudinal spring 41 and the left and right springs 42 are formed in succession to form a perpendicular to each other to the lower side of the long axis screw 37, Wall clamping device for fixing the wall surface, characterized in that consisting of an integral spring bracket 36, the left and right slots 43 are extended to the lower end of the left and right springs (42). The method of claim 6, The spring bracket part 80 is assembled to the flanges of the annular dividing resin 65 and 65 'and the wave dividing clamps 62 and 62' by the upper end of the bolt 46 and the nut 47. A serpentine left and right leaf spring 70 having a hole 71 formed at the lower end of the clamp 62 '; A hole 73 corresponding to the lower end hole 71 of the left and right directional plate spring 70 is formed in the upper end of the longitudinal plate spring 72, and can be fastened to the wall through the foundation bolt 19 of the lower end plate. An elongated longitudinal plate spring 72 having a longitudinal slot 75 formed thereon; The bolts 46 and the nuts 47 are fastened through the holes 71 of the horizontal plate spring 70 and the holes 73 of the longitudinal plate spring 72 so that the horizontal plate spring 70 and the longitudinal plate spring 70 are in the longitudinal direction. Plate rotation joint 74 for connecting the plate spring 72; Wall clamping device for fixing the wall, characterized in that consisting of a rotating plate spring bracket (68) provided. The method of claim 6, The left and right sides of the spring bracket part 80 are formed by the upper end of which is assembled to the flanges of the annular dividing resin 65 and 65 'and the wave dividing clamps 62 and 62' by the fastening of the bolt 46 and the nut 47. An integral plate spring in which a longitudinally shaped longitudinal plate spring 72, in which a longitudinal slot 75 passes through the directional plate spring 70 so that the foundation bolt 19 can be fastened to the wall, is formed at a lower end thereof. Wall clamping pipe clamping device, characterized in that consisting of a bracket (76). A clamping part 60 in which a rectangular tapered resin 67 is inserted between the waveform flanges 63 and 63 'of the waveform split clamps 62 and 62'; One end is fastened to the corrugated flanges 63 and 63 'of the corrugated split clamps 62 and 62' and the rectangular tapered resin 67, and the other end thereof is a spring bracket component 80 fixed to a wall surface. Pipe clamping device for wall fixing. The method of claim 10, The spring bracket component (80) is a wall clamping pipe clamping device, characterized in that consisting of an integral spring bracket (36).

Images