CN215488067U - Indoor water heating pipeline mounting structure - Google Patents

Abstract

The utility model relates to an indoor hot-water heating pipeline mounting structure relates to building pipeline installation field, including die-pin and layer board, the die-pin is the telescopic link, the one end fixed connection of die-pin is on the roof, the other end of die-pin extends to ground. This application has the effect of making things convenient for indoor hot-water heating pipeline installation.

Description

Indoor water heating pipeline mounting structure

Technical Field

The application relates to building pipeline installation field especially relates to an indoor hot-water line mounting structure.

Background

The water heating is an indoor heating mode adopted by many people, a water heating pipeline is laid on a roof, and heat is generated and conducted through hot water circulating in the water heating pipeline, so that the purpose of heating is achieved. The installation of indoor hot-water heating pipeline mainly uses the pipe support, and the pipe support includes two isometric and parallel die-pin and layer board. One end of the supporting rod is fixed on the roof, the other end of the supporting rod is provided with a thread, and the thread is connected with a nut. Two through holes are formed in the supporting plate, and the two support rods are inserted into the supporting plate through the through holes.

During construction, according to the positions of the two fixed support rods, the pipeline is aligned to a gap between the two support rods, the pipeline is lifted between the two support rods, the threaded end of the support rod is placed on the supporting plate, the support rod is inserted into the through hole in the supporting plate, and the supporting plate is screwed down by the nut and fixed. After the installation is completed, the pipeline is supported by the supporting plate and is arranged on the roof through the supporting rod.

Aiming at the related technologies, the inventor thinks that two support rods are fixed on a roof, and when a pipeline is aligned to a gap between the two support rods on the ground, the pipeline is easy to deviate in the lifting process due to the long and heavy pipeline, the pipeline is difficult to align to the gap between the two support rods, the angle of the pipeline needs to be continuously adjusted to align to the gap, and the operation difficulty is increased.

SUMMERY OF THE UTILITY MODEL

For convenient indoor hot-water heating pipeline installation, this application provides an indoor hot-water heating pipeline mounting structure.

The application provides an indoor hot-water heating pipeline mounting structure adopts following technical scheme:

the utility model provides an indoor hot-water heating pipeline mounting structure, includes die-pin and layer board, the die-pin is the telescopic link, the one end fixed connection of die-pin is on the roof, the other end of die-pin extends to ground.

Through adopting above-mentioned technical scheme, the die-pin can extend to ground, connects die-pin and layer board subaerial, arranges the pipeline on the layer board again, later shortens the die-pin again, lifts layer board and pipeline to the roof. In the lifting process, the pipeline is arranged on the supporting plate between the two supporting rods, so that the gap between the two supporting rods does not need to be aligned, the construction difficulty is reduced, and the pipeline installation is convenient.

Optionally, the support rod includes a fixed bottom tube fixedly connected to the roof, a first sleeve penetrating through the fixed bottom tube, a second sleeve penetrating through the first sleeve, and a connecting rod penetrating through the second sleeve; the fixed bottom pipe is provided with a first limiting hole, the first sleeve is provided with a second limiting hole, the second sleeve is provided with a third limiting hole, the connecting rod is provided with a fourth limiting hole, and the bolt is penetrated after the first limiting hole, the second limiting hole, the third limiting hole and the fourth limiting hole are aligned.

Through adopting above-mentioned technical scheme, wear to establish the nestification with fixed bottom tube, first sleeve pipe, second sleeve pipe and connecting rod, and wear to establish the pipe fitting in die-pin inside and can remove, the die-pin can stretch out and draw back. After the supporting rod is shortened, the first limiting hole, the second limiting hole, the third limiting hole and the fourth limiting hole are aligned by adjusting the length of the supporting rod, so that a bolt can conveniently penetrate through the limiting holes to fix the supporting rod.

Optionally, a first limiting ring is fixedly connected to an end of the fixed bottom pipe, a second limiting ring is fixedly connected to an end of the first sleeve, and the first limiting ring and the second limiting ring cooperate to limit separation of the fixed bottom pipe from the first sleeve; the other end of the first sleeve is fixedly connected with a third limiting ring, the end part of the second sleeve is fixedly connected with a fourth limiting ring, and the third limiting ring and the fourth limiting ring are matched to limit the separation of the first sleeve and the second sleeve; the other end of the second sleeve is fixedly connected with a fifth limiting ring, one end of the connecting rod is fixedly connected with a sixth limiting ring, and the fifth limiting ring and the sixth limiting ring are matched to limit the separation of the second sleeve and the connecting rod.

By adopting the technical scheme, when the supporting rod extends, the first limiting ring and the second limiting ring, the third limiting ring and the fourth limiting ring, and the fifth limiting ring and the sixth limiting ring are respectively matched, and the pipe fitting penetrating through the supporting rod is limited by the matching between the limiting rings to fall off.

Optionally, the lengths of the fixed bottom pipe, the first sleeve, the second sleeve and the connecting rod are sequentially increased.

Through adopting above-mentioned technical scheme, the length of fixed bottom tube, first sleeve pipe, second sleeve pipe and connecting rod is enough, when the die-pin shortens, conveniently aligns the spacing aperture on the die-pin.

Optionally, when the first sleeve, the second sleeve and the connecting rod sequentially contact the roof, the first limiting hole, the second limiting hole, the third limiting hole and the fourth limiting hole are aligned.

Through adopting above-mentioned technical scheme, when the one end contact roof of fixed bottom tube, first sleeve pipe, second sleeve pipe and connecting rod, spacing hole of first spacing hole, second, the spacing hole of third and the spacing hole of fourth can directly align. When the supporting rod is shortened, the position alignment is not needed to be adjusted.

Optionally, a through hole is formed in the supporting plate, two through holes are formed in the supporting plate, a thread is formed in the end portion of one end of the connecting rod and penetrates through the through hole, and a nut is connected to the connecting rod through the thread.

By adopting the technical scheme, the connecting rod on the support rod penetrates through the through hole to be connected with the support plate, and the connecting rod penetrating through the through hole is screwed down on the support plate by the nut, so that the support plate and the support rod are better fixed.

Optionally, an arc surface is arranged on the supporting plate, and the surface of the supporting plate is concave.

Through adopting above-mentioned technical scheme, be provided with the cambered surface on the layer board and for the face is concave type, can provide bigger holding surface, the layer board can arrange the pipeline better.

Optionally, an arc plate is fixedly connected to the arc surface on the supporting plate, the bending direction of the arc plate deviates from the supporting plate, and the radian of the arc plate is the same as that of the pipeline.

Through adopting above-mentioned technical scheme, arc fixed connection supports the pipeline better on the cambered surface of layer board. The radian of arc is the same with the pipeline radian, and when arranging the pipeline on the arc, the pipeline can be laminated well to the arc, prevents that the pipeline from rocking, the piping erection of being convenient for.

Optionally, the length of the arc plate is greater than the width of the supporting plate.

Through adopting above-mentioned technical scheme, the pipeline is arranged on the arc, and the longitudinal direction of pipeline has bigger holding surface, has increased the stability of pipeline.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pipeline is aligned with the gap between the two support rods and is lifted to the roof after being arranged, so that the construction difficulty is reduced, and the pipeline installation is convenient;

2. the fixed bottom pipe, the first sleeve, the second sleeve and the connecting rod are inserted and nested, the pipe fittings inserted in the support rod can move, and the support rod can stretch and retract;

3. the pipe fitting that wears to establish in the die-pin inside of cooperation restriction between the spacing ring drops.

Drawings

Fig. 1 is a schematic structural view of an indoor plumbing line installation structure of an embodiment of the present application.

Fig. 2 is a sectional view of a bracket in an indoor water heating line installation structure according to an embodiment of the present application.

Fig. 3 is a schematic structural view of a support plate in an indoor water heating line installation structure according to an embodiment of the present application.

Description of reference numerals:

1. a support rod; 11. fixing the bottom tube; 111. a first limit ring; 112. a first limit hole; 12. a first sleeve; 121. a second stop collar; 122. a third limit ring; 123. a second limiting hole; 13. a second sleeve; 131. a fourth limit ring; 132. a fifth limit ring; 133. a third limiting hole; 14. a connecting rod; 141. a sixth limit ring; 142. a fourth limiting hole; 2. a support plate; 21. a through hole; 22. an arc-shaped plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses indoor hot-water heating pipeline mounting structure. Referring to fig. 1, an indoor water heating line installation structure includes a bracket 1 and a pallet 2. The supporting rod 1 has a telescopic function through nesting of a plurality of pipe fittings layer by layer. The supporting rod 1 is fixed on the roof, and the positioning pipeline is installed. The supporting rod 1 is inserted on the supporting plate 2, and the supporting plate 2 is used for supporting the pipeline. When using pipeline mounting structure installation pipeline, extend earlier die-pin 1 to being close ground, peg graft the layer board 2 to die-pin 1 again to arrange the pipeline on layer board 2, later lift layer board 2 to the roof again, and with each pipe fitting position on the die-pin 1 fixed, accomplish the installation.

Referring to fig. 1, the pin 1 includes a fixed bottom tube 11. One end of the fixed bottom pipe 11 is fixedly connected to the roof and the fixed bottom pipe 11 is vertically arranged. The other end of the fixed bottom tube 11 is fixedly connected with a first limiting ring 111, the first limiting ring 111 is located inside the fixed base 11, the outer ring surface of the first limiting ring 111 is fixedly connected with the inner wall of the fixed bottom tube 11, and the first limiting ring 111 is concentric with the fixed bottom tube 11. A first limiting hole 112 is formed through the body of the fixed bottom tube 11, and the first limiting hole 112 is horizontally arranged.

Referring to fig. 2, a first sleeve 12 is inserted into the fixed bottom pipe 11. The second limiting ring 121 is fixedly connected to the outer side of one end of the first sleeve 12, the second limiting ring 121 is concentric with the first sleeve 12, and one end of the first sleeve 12, which is fixedly connected with the second limiting ring 121, is arranged inside the fixed bottom tube 11. The outer ring diameter of the second stop collar 121 is greater than the inner ring diameter of the first stop collar 111. When the first sleeve 12 extends out of the fixed bottom tube 11, the first limit ring 111 blocks the second limit ring 121, and after the first limit ring 111 contacts with the second limit ring 121, the first sleeve 12 cannot fall off from the fixed bottom tube 11. The other end of the first sleeve 12 is fixedly connected with a third limiting ring 122, the third limiting ring 122 is located inside the first sleeve 12, an outer annular surface of the third limiting ring 122 is fixedly connected with an inner wall of the first sleeve 12, and the third limiting ring 122 is concentric with the first sleeve 12. The length of the first sleeve 12 is greater than the length of the fixed bottom tube 11. When extended, the end of the first sleeve 12 to which the third stop collar 122 is attached is disposed outside the fixed bottom tube 11. A second limiting hole 123 is formed through the tube body of the first sleeve 12, and the second limiting hole 123 is horizontally arranged. When one end of the first sleeve 12 contacts the roof, the first stopper hole 112 is aligned with the second stopper hole 123.

Referring to fig. 2, a second sleeve 13 penetrates through the first sleeve 12, a fourth limiting ring 131 is fixedly connected to the outer side of one end of the second sleeve 13, the fourth limiting ring 131 is concentric with the second sleeve 13, and one end of the second sleeve 13, which is fixedly connected with the fourth limiting ring 131, is arranged inside the first sleeve 12. The outer ring diameter of the fourth stop collar 131 is larger than the inner ring diameter of the third stop collar 122. When the second sleeve 13 extends out of the first sleeve 12, the third position-limiting ring 122 blocks the fourth position-limiting ring 131, and after the third position-limiting ring 122 contacts with the fourth position-limiting ring 131, the second sleeve 13 cannot fall off from the first sleeve 12. The other end of the second sleeve 13 is fixedly connected with a fifth limiting ring 132, the fifth limiting ring 132 is located inside the second sleeve 13, the outer ring surface of the fifth limiting ring 132 is fixedly connected with the inner wall of the second sleeve 13, and the fifth limiting ring 132 is concentric with the second sleeve 13. The length of the second sleeve 13 is greater than the length of the first sleeve 12. The end of the second sleeve 13 to which the fifth stop collar 132 is attached is arranged outside the first sleeve 12 when extended. A third limiting hole 133 is formed through the tube body of the second sleeve 13, and the third limiting hole 133 is horizontally arranged. When one end of the second sleeve 13 contacts the roof, the first stopper hole 112, the second stopper hole 123, and the third stopper hole 133 are aligned.

Referring to fig. 2, a connection rod 14 is inserted through the second sleeve 13. The one end of connecting rod 14 is seted up screw thread and threaded connection has the nut, and the other end outside fixedly connected with sixth spacing ring 141 of connecting rod 14, and sixth spacing ring 141 and connecting rod 14 are concentric, and the one end of connecting rod 14 fixedly connected with sixth spacing ring 141 is arranged inside second sleeve 13. The outer ring diameter of the sixth stop ring 141 is larger than the inner ring diameter of the fifth stop ring 132. When the connecting rod 14 extends out of the second sleeve 13, the fifth limiting ring 132 blocks the sixth limiting ring 141, and when the sixth limiting ring 141 contacts with the fifth limiting ring 132, the connecting rod 14 cannot fall off from the second sleeve 13. The length of the connecting rod 14 is greater than the length of the second bushing 13. When extended, the threaded end of the connecting rod 14 is disposed outside the second sleeve 13. A fourth limiting hole 142 is formed through the shaft of the connecting rod 14, and the fourth limiting hole 142 is horizontally arranged. When one end of the connecting rod 14 contacts the roof, the first, second, third and fourth limiting holes 112, 123, 133 and 142 are aligned.

When the connecting rod 14 is pushed to the first sleeve 12, the second sleeve 13 and one end of the connecting rod 14 all contact the roof, the joist 1 is in a shortened state. At this time, bolts are used to pass through the aligned first limiting hole 112, second limiting hole 123, third limiting hole 133 and fourth limiting hole 142, and nuts are used to tighten the holes to limit the extension of the supporting rod 1. After the long bolt is pulled out from the aligned first, second, third and fourth limiting holes 112, 123, 133 and 142, the first, second and connecting sleeves 12, 13 and 14 automatically slide down from the fixed bottom tube 11 due to the action of gravity, and at this time, the bar 1 is in an extended state.

Referring to fig. 3, a through hole 21 for inserting the connecting rod 14 is formed in the supporting plate 2, and the top surface of the supporting plate 2 is an arc surface. Fixedly connected with arc 22 on the cambered surface of layer board 2, the cambered surface radian on layer board 2 is the same with the radian of the outer bottom surface of arc 22, and the cambered surface on layer board 2 can closely laminate with the outer bottom surface of arc 22. The radian of the inner surface of the arc plate 22 is the same as that of the pipe body of the pipeline, and the inner bottom surface of the arc plate 22 can be tightly attached to the pipeline. The length of arc 22 is greater than the width of layer board 2, has increased the support area of pipeline, and arc 22 can restrict the pipeline and rock, prevents that the pipeline from taking place the skew at the lifting in-process.

The implementation principle that indoor hot-water heating pipeline mounting structure put of this application embodiment is:

when the pipeline is installed, the bolt inserted into the aligned limiting hole on the supporting rod 1 is firstly pulled out, so that the supporting rod 1 is in an extension state, and at the moment, the connecting rod 14 extends to the ground. The connecting rod 14 is inserted into the through hole 21 of the supporting plate 2 and is screwed down by the nut. Then the pipeline is arranged on the arc-shaped plate 22 on the supporting plate 2, after the pipeline is placed, the supporting plate 2 is lifted to the roof, the limiting holes in the pipe fittings are aligned, and the bolts penetrate through the aligned limiting holes and are screwed down by nuts.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an indoor hot-water heating pipeline mounting structure which characterized in that: including die-pin (1) and layer board (2), die-pin (1) is the telescopic link, the one end fixed connection of die-pin (1) is on the roof, the other end of die-pin (1) extends to ground.

2. The indoor water heating line installation structure of claim 1, wherein: the supporting rod (1) comprises a fixed bottom pipe (11) fixedly connected with a roof, a first sleeve (12) arranged in the fixed bottom pipe (11) in a penetrating mode, a second sleeve (13) arranged in the first sleeve (12) in a penetrating mode and a connecting rod (14) arranged in the second sleeve (13) in a penetrating mode;

the fixed bottom pipe (11) is provided with a first limiting hole (112), the first sleeve (12) is provided with a second limiting hole (123), the second sleeve (13) is provided with a third limiting hole (133), the connecting rod (14) is provided with a fourth limiting hole (142), and the first limiting hole (112), the second limiting hole (123), the third limiting hole (133) and the fourth limiting hole (142) are aligned and then threaded through bolts.

3. The indoor water heating line installation structure of claim 2, wherein: a first limiting ring (111) is fixedly connected to the end of the fixed bottom pipe (11), a second limiting ring (121) is fixedly connected to the end of the first sleeve (12), and the first limiting ring (111) and the second limiting ring (121) are matched to limit the fixed bottom pipe (11) and the first sleeve (12) to be separated;

the other end of the first sleeve (12) is fixedly connected with a third limiting ring (122), the end part of the second sleeve (13) is fixedly connected with a fourth limiting ring (131), and the third limiting ring (122) and the fourth limiting ring (131) are matched to limit the separation of the first sleeve (12) and the second sleeve (13);

the other end fixedly connected with fifth spacing ring (132) of second sleeve pipe (13), the one end fixedly connected with sixth spacing ring (141) of connecting rod (14), fifth spacing ring (132) with sixth spacing ring (141) cooperation restriction second sleeve pipe (13) with connecting rod (14) separation.

4. The indoor water heating line installation structure of claim 2, wherein: the lengths of the fixed bottom pipe (11), the first sleeve (12), the second sleeve (13) and the connecting rod (14) are increased in sequence.

5. The indoor water heating line installation structure of claim 2, wherein: when the first sleeve (12), the second sleeve (13) and the connecting rod (14) sequentially contact the roof, the first limiting hole (112), the second limiting hole (123), the third limiting hole (133) and the fourth limiting hole (142) are aligned.

6. The indoor water heating line installation structure of claim 2, wherein: two through holes (21) are formed in the supporting plate (2), threads are formed in the end portion of one end of the connecting rod (14) and penetrate through the through holes (21), and nuts are connected to the connecting rod (14) through the threads.

7. The indoor water heating line installation structure of claim 6, wherein: the surface of the supporting plate (2) is a cambered surface, and the surface of the supporting plate (2) is concave.

8. The indoor water heating line installation structure of claim 6, wherein: fixedly connected with arc (22) on the cambered surface on layer board (2), the crooked direction of arc (22) deviates from layer board (2), the radian of arc (22) is the same with the radian of pipeline.

9. The indoor water heating line installation structure of claim 8, wherein: the length of the arc-shaped plate (22) is larger than the width of the supporting plate (2).

Images