CN210921538U - Novel graphite thin water heating geothermal pipe - Google Patents

Abstract

The utility model discloses a novel graphite thin water heating geothermal pipe, which comprises a graphite geothermal pipe, a positioning component and a connecting component, wherein a sleeve ring pipe is sleeved on one side of the graphite geothermal pipe, grooves are respectively arranged at the two ends of the sleeve ring pipe, a plurality of second elastic plates are respectively fixed on the tops of the grooves through screws, a second sleeve pipe is fixed on the top of each second elastic plate through screws, a first sleeve pipe is sleeved on the top of each second sleeve pipe, a first elastic plate is fixed on the top of each first sleeve pipe through screws, the novel graphite thin water heating geothermal pipe has simple structure and convenient operation, the graphite geothermal pipe contains graphite components, heat is favorably radiated, the installation and the disassembly are convenient, a reset spring provides elasticity, the second clamping plates extrude the inner wall of the graphite geothermal pipe, the fixing is firmer, the graphite geothermal pipe can adapt to graphite geothermal pipes with different diameters, the application range is wide, and the sleeve ring pipe is prevented from being unsuitable to the diameter of the graphite geothermal, the sleeve ring pipe is not suitable, which is beneficial to saving resources.

Description

Novel graphite thin water heating geothermal pipe

Technical Field

The utility model relates to a geothermol power pipe technical field specifically is a novel graphite thin water heating geothermol power pipe.

Background

The geothermal pipe is also called as a geothermal pipe, and is a pipe used as a circulating flow carrier of low-temperature hot water in a low-temperature hot water ground radiation heating system.

The traditional heat pipe adopts a sleeving ring pipe to connect two geothermal pipes, so that the operation is troublesome, the assembly and disassembly are not facilitated, the sleeving part is easy to deform after long-term use, the sleeving part is loosened, the sleeving ring pipe cannot adapt to geothermal pipes with different diameters, the sleeving ring pipe cannot be used and can be discarded, and the resource saving is not facilitated; traditionally, the geothermal pipe adopts the bail mode fixed, and the floor is directly laid on geothermal pipe top, does not have safeguard measure, and when the floor top produced the striking, very easily caused the geothermal pipe to produce and lost, when the geothermal pipe received the thermal energy, the bail can extrude the geothermal pipe simultaneously, caused the damage of geothermal pipe, was unfavorable for protecting the geothermal pipe, and to this defect, it is very necessary to design a novel graphite thin water heating geothermal pipe.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel graphite thin water heating ground heat pipe to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: a novel graphite thin water heating geothermal pipe comprises a graphite geothermal pipe, a positioning assembly and a connecting assembly, wherein the connecting assembly is mounted on one side of the graphite geothermal pipe and consists of a first threaded column, a first nut sleeve, a side groove, a first clamping plate, an anti-skidding sleeve, a groove, a second clamping plate, a first elastic plate, a first sleeve, a second sleeve, a reset spring, a second elastic plate and a sleeving ring pipe, the sleeving ring pipe is sleeved on one side of the graphite geothermal pipe, grooves are formed in two ends of the sleeving ring pipe, a plurality of second elastic plates are fixed on the top of the groove through screws, the second sleeve is fixed on the top of the second elastic plate through screws, the first sleeve is sleeved on the top of the second sleeve, the first elastic plate is fixed on the top of the first sleeve through screws, the reset spring is sleeved on the outer sides of the first sleeve and the second sleeve, the second clamping plate is fixed on the top of the first elastic plate through screws, the top of the second clamping plate is sleeved inside the graphite geothermal pipe, the two sides of the top and the bottom of the sleeved ring pipe are both fixed with first threaded columns through screws, the first threaded columns are positioned on one side of the groove, the top of the first threaded column is sleeved with the first clamping plate, the first clamping plate is provided with side grooves, the top of the first threaded column is sleeved inside the side grooves, the bottom of the first clamping plate is attached to the outer wall of the graphite geothermal pipe, a plurality of positioning components are arranged on the graphite geothermal pipe at equal intervals, each positioning component comprises a pressing plate, a compression spring, a top groove, a reinforcing rod, a buffer shell, a buffer plate, a short spring, a first fixing block, a first semicircular block, a semicircular rubber sleeve, a rubber fixing plate, a second threaded column, a second nut sleeve, a first semicircular fixing plate, an open groove, a second semicircular fixing plate, a second semicircular block, a second fixing block, a base and a bottom hole, the bottom of the graphite geothermal pipe is sleeved with a plurality of second semicircular blocks, the two sides of the top of the second semicircular block are both fixed with a second semicircular fixing plate through screws, the center of the top of the second semicircular fixing plate is fixed with a second threaded column through screws, the top of the second threaded column is sleeved with a first semicircular fixing plate, the first semicircular fixing plate is provided with an open slot, the second threaded column is sleeved inside the open slot, the top of the second threaded column is sleeved with a second nut sleeve, the second nut sleeve is positioned at the top of the first semicircular fixing plate, the top of one side of the first semicircular fixing plate is fixed with a first semicircular block through screws, the center of the top of the first semicircular block is fixed with a first fixing block through screws, the top of the first fixing block is fixed with a buffer shell through screws, the top of the buffer shell is positioned at the two sides of the center and is provided with top slots, the inside of the top slots is sleeved with reinforcing rods, and the bottom of the reinforcing rods is fixed with a buffer plate through screws, the buffer board bottom all is connected with first fixed block top through the short spring of a plurality of through the screw fixation, and short spring bottom, the stiffener top has the clamp plate through the screw fixation, compression spring has been cup jointed in the stiffener outside, and compression spring is located the buffer housing top.

Furthermore, a first nut sleeve is sleeved on the top of the first threaded column and located on the top of the first clamping plate.

Furthermore, an anti-slip sleeve is sleeved at the bottom of the first clamping plate, and the bottom of the anti-slip sleeve is attached to the outer wall of the graphite geothermal pipe.

Further, a second fixed block is fixed at the center of the bottom of the second semicircular block through screws, a base is fixed at the bottom of the second fixed block through screws, and bottom holes are formed in two sides of the base, which are located at the center.

Further, first semicircle piece and second semicircle piece top inner wall all have a rubber fixing plate through the screw fixation, rubber fixing plate one side has a semicircle rubber sleeve through the screw fixation, and semicircle rubber sleeve and graphite geothermal pipe outer wall laminating.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is:

1. when the novel graphite thin water heating geothermal pipe is used, the second clamping plate is manually pressed, the second clamping plate extrudes the reset spring, the reset spring is pressed to generate elasticity, the second clamping plate is sleeved in the graphite geothermal pipe until one end of the graphite geothermal pipe is tightly attached to one side of the groove, the second clamping plate is loosened, the reset spring extends to extrude the second clamping plate, the top of the second clamping plate is tightly attached to the inner wall of the graphite geothermal pipe, the first nut sleeve is clockwise screwed, the first nut sleeve rotates to drive the first clamping plate to downwards move until the first clamping plate extrudes the outer side of the graphite geothermal pipe, at the moment, the other side of the sleeved ring pipe is sleeved with another graphite geothermal pipe according to the steps, and the fixation is completed. The second clamping plate extrudes the inner wall of the graphite geothermal pipe, so that the fixing is firmer, the graphite geothermal pipe can adapt to graphite geothermal pipes with different diameters, the application range is wide, the phenomenon that the sleeve ring pipe is not suitable for the graphite geothermal pipe due to the fact that the sleeve ring pipe is not suitable for use is avoided, and the resource saving is facilitated;

2. when the novel graphite thin water heating geothermal pipe is fixed, the bottom of the graphite geothermal pipe is manually attached to the bottom of the inner wall of a second semicircular block, the first semicircular block is sleeved at the top of the graphite geothermal pipe, a second nut sleeve is clockwise screwed, the second nut sleeve rotates to extrude a first semicircular fixing plate to move downwards, the first semicircular fixing plate drives the first semicircular block to move downwards until the first semicircular block and the second semicircular block tightly sleeve the graphite geothermal pipe, at the moment, a base is placed on the ground, a bottom hole is formed in the base, a screw is driven into the bottom hole and fixed on the ground, a floor is laid at the top of a pressing plate to finish fixing, the positioning assembly is simple in structure, when the floor is impacted, impact force is transmitted to the pressing plate through the floor, a compression spring at the bottom of the pressing plate is elastically contracted with a short spring, the impact force is greatly weakened, the graphite geothermal pipe is prevented from being broken, and the graphite geothermal pipe, adopt first semicircle piece and second semicircle piece fastening simultaneously and fix, pass through the base with the second semicircle piece again and fix subaerial, abandon traditional plastics card nail fixed, the chucking mode is fixed avoids damaging the protection graphite geothermal pipe, and is fixed more firm, and first semicircle piece and second semicircle piece are inside to form certain cavity simultaneously, and graphite geothermal pipe can not extrude graphite geothermal pipe when receiving thermal energy, is favorable to the use of graphite geothermal pipe.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the connection assembly of the present invention;

FIG. 3 is a schematic view of the overall structure of the positioning assembly of the present invention;

in the figure: 1. a graphite geothermal pipe; 2. a positioning assembly; 3. a connecting assembly; 4. a first threaded post; 5. a first nut sleeve; 6. a side groove; 7. a first clamping plate; 8. an anti-slip sleeve; 9. a groove; 10. a second clamping plate; 11. a first springboard; 12. a first sleeve; 13. a second sleeve; 14. a return spring; 15. a second springboard; 16. sleeving a ring pipe; 17. pressing a plate; 18. a compression spring; 19. a top groove; 20. a reinforcing bar; 21. a buffer housing; 22. a buffer plate; 23. a short spring; 24. a first fixed block; 25. a first semicircular block; 26. a semicircular rubber sleeve; 27. a rubber fixing plate; 28. a second threaded post; 29. a second nut sleeve; 30. a first semicircular fixing plate; 31. an open slot; 32. a second semicircular fixing plate; 33. a second semicircular block; 34. a second fixed block; 35. a base; 36. a bottom hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a novel graphite thin water heating geothermal pipe comprises a graphite geothermal pipe 1, a positioning component 2 and a connecting component 3, wherein the connecting component 3 is installed on one side of the graphite geothermal pipe 1, the connecting component 3 consists of a first threaded column 4, a first nut sleeve 5, a side groove 6, a first clamping plate 7, an anti-skidding sleeve 8, a groove 9, a second clamping plate 10, a first elastic plate 11, a first sleeve 12, a second sleeve 13, a reset spring 14, a second elastic plate 15 and a sleeving ring pipe 16, the sleeving ring pipe 16 is sleeved on one side of the graphite geothermal pipe 1, the grooves 9 are respectively arranged at two ends of the sleeving ring pipe 16, the top of the groove 9 is fixedly provided with a plurality of second elastic plates 15 through screws, the top of the second elastic plates 15 is fixedly provided with a second sleeve 13 through screws, the top of the second sleeve 13 is sleeved with the first sleeve 12, the top of the first sleeve 12 is fixedly provided with the first elastic plate 11 through screws, the reset spring 14 is sleeved outside the first sleeve 12 and the second sleeve 13, the top of the first elastic plate 11 is fixed with a second clamping plate 10 through screws, the top of the second clamping plate 10 is sleeved inside the graphite geothermal pipe 1, the top and the two sides of the bottom of a sleeved ring pipe 16 are both fixed with first threaded columns 4 through screws, the first threaded columns 4 are positioned on one sides of the grooves 9, the top of the first threaded columns 4 is sleeved with a first nut sleeve 5, the first nut sleeve 5 is positioned on the top of the first clamping plate 7 to facilitate the fixation of the first clamping plate 7, the top of the first threaded columns 4 is sleeved with a first clamping plate 7, the bottom of the first clamping plate 7 is sleeved with an anti-skidding sleeve 8, the bottom of the anti-skidding sleeve 8 is attached to the outer wall of the graphite geothermal pipe 1 to facilitate the connection of the graphite geothermal pipe 1, the first clamping plate 7 is provided with a side groove 6, the top of the first threaded columns 4 is sleeved inside the side groove 6, the bottom of the first clamping plate 7 is attached to the outer wall of the graphite geothermal pipe 1, the positioning component 2 comprises a pressure plate 17, a compression spring 18, a top groove 19, a reinforcing rod 20, a buffer shell 21, a buffer plate 22, a short spring 23, a first fixed block 24, a first semicircular block 25, a semicircular rubber sleeve 26, a rubber fixed plate 27, a second threaded column 28, a second nut sleeve 29, a first semicircular fixed plate 30, an open groove 31, a second semicircular fixed plate 32, a second semicircular block 33, a second fixed block 34, a base 35 and bottom holes 36, wherein the bottom of the graphite geothermal pipe 1 is sleeved with a plurality of second semicircular blocks 33, the center of the bottom of each second semicircular block 33 is fixed with the second fixed block 34 through screws, the bottom of each second fixed block 34 is fixed with a base 35 through screws, the two sides of the base 35, which are positioned at the center, are respectively provided with the bottom holes 36, so that the base 35 is favorable for fixing, the two sides of the top of each second semicircular block 33 are fixed with the second semicircular fixed with the second threaded column 32 through screws, the center of the top of each second semicircular fixed plate 32 is fixed with the second, the top of the second threaded column 28 is sleeved with a first semicircular fixing plate 30, the first semicircular fixing plate 30 is provided with an open slot 31, the second threaded column 28 is sleeved inside the open slot 31, the top of the second threaded column 28 is sleeved with a second nut sleeve 29, the second nut sleeve 29 is positioned at the top of the first semicircular fixing plate 30, the top of one side of the first semicircular fixing plate 30 is fixed with a first semicircular block 25 through screws, the inner walls of the tops of the first semicircular block 25 and the second semicircular block 33 are both fixed with a rubber fixing plate 27 through screws, one side of the rubber fixing plate 27 is fixed with a semicircular rubber sleeve 26 through screws, the semicircular rubber sleeve 26 is attached to the outer wall of the graphite geothermal pipe 1, the graphite geothermal pipe 1 is favorably fixed, the first fixing block 24 is fixed at the center of the top of the first semicircular block 25 through screws, the buffer shell 21 is fixed at the top of the first fixing block 24 through screws, the top of the buffer shell 21 is provided with top slots 19, a reinforcing rod 20 is sleeved inside the top groove 19, the bottom of the reinforcing rod 20 is fixed with a buffer plate 22 through screws, the bottom of the buffer plate 22 is fixed with a plurality of short springs 23 through screws, the bottoms of the short springs 23 are connected with the top of a first fixing block 24, the top of the reinforcing rod 20 is fixed with a pressing plate 17 through screws, a compression spring 18 is sleeved outside the reinforcing rod 20, and the compression spring 18 is located at the top of a buffer shell 21; when the novel graphite thin water heating geothermal pipe is used, the second clamping plate 10 is manually pressed, the second clamping plate 10 extrudes the reset spring 14, the reset spring 14 is pressed to generate elasticity, the second clamping plate 10 is sleeved in the graphite geothermal pipe 1 until one end of the graphite geothermal pipe 1 is tightly attached to one side of the groove 9, the second clamping plate 10 is loosened, the reset spring 14 extends to extrude the second clamping plate 10, the top of the second clamping plate 10 is tightly attached to the inner wall of the graphite geothermal pipe 1, the first nut sleeve 5 is clockwise screwed, the first nut sleeve 5 rotates to drive the first clamping plate 7 to move downwards until the first clamping plate 7 extrudes the outer side of the graphite geothermal pipe 1, at the moment, the other side of the sleeved ring pipe 16 is sleeved with the other graphite geothermal pipe 1 according to the steps to complete fixation, the graphite geothermal connecting component 3 is simple in structure, the graphite geothermal pipe 1 contains graphite components and is favorable for heat dissipation, the graphite geothermal pipe 1 is connected in, the installation and the disassembly are convenient, the reset spring 14 provides elasticity, so that the second clamping plate 10 extrudes the inner wall of the graphite geothermal pipe 1, the fixation is firmer, the graphite geothermal pipe 1 with different diameters can be adapted, the application range is wide, the problem that the sleeve ring pipe 16 is not suitable for use due to the fact that the sleeve ring pipe 16 is not suitable for the graphite geothermal pipe 1 with the diameter is avoided, and the resource saving is facilitated; when the novel graphite thin water heating geothermal pipe is fixed, the bottom of the graphite geothermal pipe 1 is manually attached to the bottom of the inner wall of the second semicircular block 33, the first semicircular block 25 is sleeved at the top of the graphite geothermal pipe 1, the second nut sleeve 29 is screwed clockwise, the second nut sleeve 29 rotates to extrude the first semicircular fixing plate 30 to move downwards, the first semicircular fixing plate 30 drives the first semicircular block 25 to move downwards until the first semicircular block 25 and the second semicircular block 33 tightly sleeve the graphite geothermal pipe 1, at the moment, the base 35 is placed on the ground, the base 35 is provided with a bottom hole 36, the bottom hole 36 is driven into a screw to be fixed on the ground, the top of the pressing plate 17 is paved with a floor to finish the fixation, the positioning assembly 2 is simple in structure, when impact is generated above the floor, the impact force is transmitted to the pressing plate 17 through the floor, the bottom of the pressing plate 17 is provided with the compression spring 18 and the short spring 23, so that the impact force is, avoid graphite geothermol power 1 to produce the book damage, be favorable to protecting graphite geothermol power 1, adopt first semicircle piece 25 and second semicircle piece 33 chucking fixed simultaneously, pass through base 35 with second semicircle piece 33 again and fix subaerial, it is fixed to abandon traditional plastics staple, the fixed damage protection graphite geothermol power 1 of avoiding of chucking mode, it is fixed more firm, first semicircle piece 25 and the inside certain cavity that forms of second semicircle piece 33 simultaneously, when graphite geothermol power 1 is heated the inflation, can not extrude graphite geothermol power 1, be favorable to graphite geothermol power 1's use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a novel graphite thin water warms up ground heat pipe, includes graphite ground heat pipe (1), locating component (2) and coupling assembling (3), its characterized in that: the connecting assembly (3) is installed on one side of the graphite geothermal pipe (1), the connecting assembly (3) is composed of a first threaded column (4), a first nut sleeve (5), a side groove (6), a first clamping plate (7), an anti-slip sleeve (8), a groove (9), a second clamping plate (10), a first elastic plate (11), a first sleeve (12), a second sleeve (13), a reset spring (14), a second elastic plate (15) and a sleeving ring pipe (16), the sleeving ring pipe (16) is sleeved on one side of the graphite geothermal pipe (1), the grooves (9) are formed in two ends of the sleeving ring pipe (16), a plurality of second elastic plates (15) are fixed to the top of the groove (9) through screws, the second sleeve (13) is fixed to the top of the second elastic plate (15) through screws, the first sleeve (12) is sleeved to the top of the second sleeve (13), and the first elastic plate (11) is fixed to the top of the first sleeve (12) through screws, the reset spring (14) is sleeved outside the first sleeve (12) and the second sleeve (13), the top of the first elastic plate (11) is fixed with a second clamping plate (10) through screws, the top of the second clamping plate (10) is sleeved inside the graphite geothermal pipe (1), the top and the bottom of the sleeved ring pipe (16) are both fixed with first threaded columns (4) through screws, the first threaded columns (4) are located on one side of the groove (9), the top of the first threaded columns (4) is sleeved with a first clamping plate (7), the first clamping plate (7) is provided with side grooves (6), the top of the first threaded columns (4) is sleeved inside the side grooves (6), the bottom of the first clamping plate (7) is attached to the outer wall of the graphite geothermal pipe (1), the graphite geothermal pipe (1) is equidistantly provided with a plurality of positioning assemblies (2), and the positioning assemblies (2) are formed by pressing plates (17), The graphite geothermal pipe comprises a compression spring (18), a top groove (19), a reinforcing rod (20), a buffer shell (21), a buffer plate (22), a short spring (23), a first fixing block (24), a first semicircular block (25), a semicircular rubber sleeve (26), a rubber fixing plate (27), a second threaded column (28), a second nut sleeve (29), a first semicircular fixing plate (30), an open groove (31), a second semicircular fixing plate (32), a second semicircular block (33), a second fixing block (34), a base (35) and a bottom hole (36), wherein the bottom of the graphite geothermal pipe (1) is sleeved with a plurality of second semicircular blocks (33), the second semicircular fixing plate (32) is fixed on two sides of the top of each second semicircular block (33) through screws, a second threaded column (28) is fixed at the center of the top of each second semicircular fixing plate (32) through screws, and a first semicircular fixing plate (30) is arranged at the top of each second threaded column (28), the first semicircle fixing plate (30) is provided with an open slot (31), the second threaded column (28) is sleeved inside the open slot (31), the second threaded column (28) is sleeved with a second nut sleeve (29), the second nut sleeve (29) is positioned at the top of the first semicircle fixing plate (30), the top of one side of the first semicircle fixing plate (30) is fixed with a first semicircle block (25) through a screw, the center of the top of the first semicircle block (25) is fixed with a first fixing block (24) through a screw, the top of the first fixing block (24) is fixed with a buffer shell (21) through a screw, the top of the buffer shell (21) is positioned at the two sides of the center and is provided with a top groove (19), the inside of the top groove (19) is sleeved with a reinforcing rod (20), the bottom of the reinforcing rod (20) is fixed with a buffer plate (22) through a screw, the bottom of the buffer plate (22) is fixed with a plurality of short springs (23) through a screw, and the bottom of the short spring (23) is connected with the top of the first fixing block (24), the top of the reinforcing rod (20) is fixed with a pressing plate (17) through a screw, the outer side of the reinforcing rod (20) is sleeved with a compression spring (18), and the compression spring (18) is positioned at the top of the buffer shell (21).

2. The novel graphite thin water heating geothermal pipe as claimed in claim 1, wherein: first nut cover (5) have been cup jointed at first screw post (4) top, and first nut cover (5) are located first cardboard (7) top.

3. The novel graphite thin water heating geothermal pipe as claimed in claim 1, wherein: the bottom of the first clamping plate (7) is sleeved with an anti-slip sleeve (8), and the bottom of the anti-slip sleeve (8) is attached to the outer wall of the graphite geothermal pipe (1).

4. The novel graphite thin water heating geothermal pipe as claimed in claim 1, wherein: second semicircle piece (33) bottom center department has second fixed block (34) through the screw fixation, second fixed block (34) bottom has base (35) through the screw fixation, and base (35) are located center department both sides and have all seted up bottom outlet (36).

5. The novel graphite thin water heating geothermal pipe as claimed in claim 1, wherein: first semicircle piece (25) all have rubber fixing plate (27) through the screw fixation with second semicircle piece (33) top inner wall, rubber fixing plate (27) one side has semicircle rubber sleeve (26) through the screw fixation, and semicircle rubber sleeve (26) and graphite ground heat pipe (1) outer wall laminating.

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