CN219103108U - Fast-assembling type high heat conduction ground heat pipe assembly - Google Patents

Abstract

The utility model discloses a fast-assembled high-heat-conductivity geothermal pipe assembly, which belongs to the technical field of geothermal pipes, wherein an anti-slip positioning block is arranged in the middle of the outer walls of limiting plugboards, the joint of a second geothermal pipe main body and a first geothermal pipe main body is sleeved at the outer walls of the limiting plugboards and is connected by the anti-slip positioning block in a clamping way, after the joint is finished, a first geothermal pipe limiting seat and a second geothermal pipe limiting seat are sleeved at the outer walls of the first geothermal pipe main body and the second geothermal pipe main body, a first geothermal pipe binding belt and a second geothermal pipe binding belt are wound around the outer parts of the first geothermal pipe main body and the second geothermal pipe main body, the first binding belt limiting groove and the second binding belt limiting groove are inserted into the first geothermal pipe main body and the second geothermal pipe main body for positioning connection, after the positioning installation is finished, the heat conductivity of the first geothermal pipe main body and the second geothermal pipe main body is improved through a first high-heat-conductivity inner pipe and a second high-heat-conductivity inner pipe.

Description

Fast-assembling type high heat conduction ground heat pipe assembly

Technical Field

The utility model relates to a high-heat-conductivity geothermal pipe assembly, in particular to a quick-assembly high-heat-conductivity geothermal pipe assembly, and belongs to the technical field of geothermal pipes.

Background

The heating facilities are an important index, and users put more and more funds into heating, so that the room temperature of more than 25 ℃ can be still maintained in the house temporarily in winter.

In the prior art, heating mainly utilizes heating or floor heating, especially the latter, floor heating is more and more popular with users, and it is unnecessary to reserve the installation space of fin in the indoor space in addition, also can not influence the aesthetic degree of interior decoration owing to having installed too much fin yet, and geothermal heat is mainly through the ground heat pipe with hot water transport to the ground of building under, heats or intensifies in the house through heat exchange.

The application number is as follows: 201820242932.0 a fast-assembled geothermal pipe assembly with good heat exchange effect and high structural stability comprises a geothermal pipe body and a connecting pipe body which is sleeved outside the geothermal pipe body, can slide and is fixed at any position of the geothermal pipe body; the geothermal pipe body is not necessarily circular in cross section, the inner wall of the geothermal pipe body forms four outwards sunken arc grooves, two adjacent arc grooves are connected with an inwards protruding arc boss, and when the geothermal pipe body is connected with an external structure, a connecting piece of the external structure is fixed on a connecting pipe body of the geothermal pipe body.

The structure is inconvenient to install, consumes longer time, is poor in sealing performance during installation, and the limiting piece of the geothermal pipe is large in size and high in cost during use, so that a fast-assembled high-heat-conductivity geothermal pipe assembly is needed to improve the problems.

Disclosure of Invention

The utility model mainly aims to provide a quick-mounting type high-heat-conductivity geothermal pipe assembly, when the quick-mounting type high-heat-conductivity geothermal pipe assembly is required to be used, a limiting piece is inserted into a first geothermal pipe body and is in positioning connection through limiting threads, one end of a second geothermal pipe body is sleeved at the positions of the limiting plugboard and the outer wall of an anti-slip positioning block at one end of the first geothermal pipe body after the limiting piece is connected, the limiting plugboard and the anti-slip positioning block are in sealing connection through a sealing ring after the limiting piece is connected, a first geothermal pipe limiting seat and a second geothermal pipe limiting seat are sleeved at the positions of the outer walls of the first geothermal pipe body and the second geothermal pipe body after the limiting piece is connected, a first geothermal pipe binding band and a second geothermal pipe binding band are wound at the positions of the outer sides of the first geothermal pipe body and the second geothermal pipe body and are inserted into a first binding band limiting groove and a second binding band limiting groove for positioning connection, the thermal conductivity of the first geothermal pipe body and the second geothermal pipe body is improved through a first high-heat-conductivity inner pipe and a second high-heat-conductivity inner pipe after the positioning installation is in a red copper structure.

The aim of the utility model can be achieved by adopting the following technical scheme:

the utility model provides a fast-assembling formula high heat conduction geothermal pipe subassembly, including first geothermal pipe main part and second geothermal pipe main part, first high heat conduction inner tube is installed to first geothermal pipe main part inner wall, second high heat conduction inner tube is installed to second geothermal pipe main part inner wall, the sealing washer has been laid to the junction of first geothermal pipe main part and second geothermal pipe main part, the locating part is installed to one end opening part of first geothermal pipe main part, spacing screw thread has been laid to the locating part outer wall, spacing picture peg is installed to spacing picture peg four sides in outer end, install anti-skidding locating piece in the middle of the spacing picture peg outer wall, the junction cover of second geothermal pipe main part and first geothermal pipe main part is established in spacing picture peg outer wall department and is connected by anti-skidding locating piece block, spacing seat subassembly is installed to department in the middle of first geothermal pipe main part and the second geothermal pipe main part outer wall, spacing groove subassembly has been seted up in the middle of the spacing seat subassembly, the constraint area subassembly is installed to constraint area subassembly, the one end of constraint area subassembly is installed and is inserted the subassembly.

Preferably, the limiting seat assembly comprises a first geothermal pipe limiting seat and a second geothermal pipe limiting seat, wherein the first geothermal pipe limiting seat is sleeved in the middle of the first geothermal pipe main body, and the second geothermal pipe limiting seat is sleeved in the middle of the second geothermal pipe main body.

Preferably, the limiting groove component comprises a second geothermal pipe limiting groove and a first geothermal pipe limiting groove, the first geothermal pipe limiting groove is formed in the middle of the top of the first geothermal pipe limiting seat, and the second geothermal pipe limiting groove is formed in the middle of the top of the second geothermal pipe limiting seat.

Preferably, the binding belt assembly comprises a first geothermal pipe binding belt and a second geothermal pipe binding belt, one end of the first geothermal pipe binding belt is arranged at one side of the opening of the limiting groove of the first geothermal pipe, and the second geothermal pipe binding belt is arranged at the upper section of the limiting groove of the limiting seat of the second geothermal pipe.

Preferably, the inserting assembly comprises a first constraint belt limiting groove and a second constraint belt limiting groove, the first constraint belt limiting groove is arranged at one end of a first geothermal pipe constraint belt at the opening of the first geothermal pipe limiting seat, the second constraint belt limiting groove is arranged at one end of a second geothermal pipe constraint belt at the opening of the second geothermal pipe limiting seat, the first geothermal pipe constraint belt is inserted into the first constraint belt limiting groove to be connected in a positioning manner, and one end of the second geothermal pipe constraint belt is inserted into the middle of the second constraint belt limiting groove to be connected in a positioning manner.

Preferably, the liquid guide cavity is formed among the first geothermal pipe body, the second geothermal pipe body and the limiting piece, and the first geothermal pipe body, the second geothermal pipe body and the limiting piece are mutually communicated.

The beneficial technical effects of the utility model are as follows:

according to the quick-mounting high-heat-conductivity geothermal pipe assembly, when the quick-mounting high-heat-conductivity geothermal pipe assembly is required to be used, the limiting piece is inserted into the first geothermal pipe body to be connected in a positioning mode through the limiting threads, one end of the second geothermal pipe body is sleeved at the limiting inserting plate at one end of the first geothermal pipe body to be connected with the outer wall of the anti-skid positioning block in a positioning mode, the limiting inserting plate is connected in a sealing mode after the limiting piece is connected with the outer wall of the anti-skid positioning block in a sealing mode, the first geothermal pipe limiting seat and the second geothermal pipe limiting seat are sleeved at the outer wall of the first geothermal pipe body and the outer wall of the second geothermal pipe body after the limiting piece is connected in a sealing mode, the first geothermal pipe limiting band and the second geothermal pipe limiting band are wound at the outer portions of the first geothermal pipe body and the second geothermal pipe body to be inserted into the limiting groove of the first limiting band and the limiting groove of the second limiting band to be connected in a positioning mode, the first high-heat-conductivity inner pipe and the second high-heat-conductivity inner pipe are arranged in a red copper structure after the positioning and the limiting piece are installed, the first high-heat-conductivity inner pipe and the second high-heat-conductivity inner pipe are connected in a red copper structure, and the quick-speed connection operation is convenient, and simple in structure, and the structure of the limiting base are convenient to operate.

Drawings

FIG. 1 is a front elevational view of the overall structure of a device of a preferred embodiment of a quick-assembled high thermal conductivity geothermal pipe assembly according to the present utility model;

FIG. 2 is a schematic illustration of a positioning member structure of a preferred embodiment of a fast-assembling high thermal conductivity geothermal pipe assembly according to the present utility model;

FIG. 3 is an enlarged view of the structure at A of a preferred embodiment of a fast-assembling high thermal conductivity geothermal pipe assembly according to the present utility model;

FIG. 4 is a schematic view of a geothermal pipe opening of a preferred embodiment of a fast-assembling high thermal conductivity geothermal pipe assembly according to the utility model.

In the figure: the heat pipe comprises a first geothermal pipe body, a second geothermal pipe body, a 3-first geothermal pipe limiting seat, a 4-first geothermal pipe limiting belt, a 5-first limiting belt limiting groove, a 6-first high-heat-conductivity inner pipe, a 7-limiting piece, 8-limiting threads, a 9-limiting inserting plate, a 10-anti-slip positioning block, a 11-sealing ring, a 12-second geothermal pipe limiting seat, a 13-second geothermal pipe limiting belt, a 14-second geothermal pipe limiting groove, a 15-second limiting belt limiting groove, a 16-first geothermal pipe limiting groove, a 17-second high-heat-conductivity inner pipe and an 18-liquid guide cavity.

Detailed Description

In order to make the technical solution of the present utility model more clear and obvious to those skilled in the art, the present utility model will be described in further detail with reference to examples and drawings, but the embodiments of the present utility model are not limited thereto.

As shown in fig. 1-4, the fast-assembling high heat conduction geothermal pipe assembly provided by the embodiment comprises a first geothermal pipe main body 1 and a second geothermal pipe main body 2, wherein a first high heat conduction inner pipe 6 is installed on the inner wall of the first geothermal pipe main body 1, a second high heat conduction inner pipe 17 is installed on the inner wall of the second geothermal pipe main body 2, a sealing ring 11 is paved at the connection part of the first geothermal pipe main body 1 and the second geothermal pipe main body 2, a limiting piece 7 is installed at the opening part of one end of the first geothermal pipe main body 1, limiting threads 8 are paved at the outer wall of the limiting piece 7, limiting insertion plates 9 are installed on four sides of the outer ends of the limiting threads 8, an anti-slip positioning block 10 is installed in the middle of the outer wall of the limiting insertion plates 9, the connection part of the second geothermal pipe main body 2 and the first geothermal pipe main body 1 is sleeved at the outer wall of the limiting insertion plates 9 and is connected by the anti-slip positioning block 10 in a clamping mode, a limiting seat assembly is installed at the middle of the outer wall of the first geothermal pipe main body 1 and the second geothermal pipe main body 2, a limiting groove assembly is arranged in the middle of the limiting seat assembly, a limiting belt assembly is installed at the opening part, a limiting insertion assembly is installed at one end of the limiting seat assembly.

General principle of operation: when the geothermal pipe is required to be used, the limiting piece 7 is inserted into the first geothermal pipe main body 1 and is in positioning connection through the limiting thread 8, one end of the second geothermal pipe main body 2 is sleeved at the limiting insertion plate 9 at one end of the first geothermal pipe main body 1 and is in positioning connection with the outer wall of the anti-skid positioning block 10, the limiting piece is connected with the outer wall of the first geothermal pipe main body through the sealing ring 11 in a sealing manner, the limiting seat 3 of the first geothermal pipe and the limiting seat 12 of the second geothermal pipe are sleeved at the outer wall of the first geothermal pipe main body 1 and the outer wall of the second geothermal pipe main body 2 after the limiting piece is connected with the limiting seat 12 of the second geothermal pipe main body, the first geothermal pipe binding belt 4 and the second geothermal pipe binding belt 13 are wound at the outer parts of the first geothermal pipe main body 1 and the second geothermal pipe main body 2 and are inserted into the limiting grooves 5 of the second binding belt 15 for positioning connection, the thermal conductivity of the first high thermal pipe inner pipe 6 and the second high thermal pipe 17 is improved after the positioning installation, the first thermal pipe 6 and the second thermal pipe 17 are of red copper structures, the device is simple in structure and convenient to quickly connect and operate, and the limiting base is simple in structure and convenient to position.

In this embodiment: the limiting seat assembly comprises a first geothermal pipe limiting seat 3 and a second geothermal pipe limiting seat 12, wherein the first geothermal pipe limiting seat 3 is sleeved in the middle of the first geothermal pipe main body 1, and the second geothermal pipe limiting seat 12 is sleeved in the middle of the second geothermal pipe main body 2.

Local working principle: the first geothermal pipe limiting seat 3 and the second geothermal pipe limiting seat 12 are sleeved on the outer walls of the first geothermal pipe main body 1 and the second geothermal pipe main body 2, the first geothermal pipe binding band 4 and the second geothermal pipe binding band 13 are wound around the outer parts of the first geothermal pipe main body 1 and the second geothermal pipe main body 2, and the first binding band limiting groove 5 and the second binding band limiting groove 15 are inserted into the outer parts of the first geothermal pipe main body 1 and the second geothermal pipe main body 2 to be positioned and connected.

In this embodiment: the limiting groove assembly comprises a second geothermal pipe limiting groove 14 and a first geothermal pipe limiting groove 16, the first geothermal pipe limiting groove 16 is formed in the middle of the top of the first geothermal pipe limiting seat 3, and the second geothermal pipe limiting groove 14 is formed in the middle of the top of the second geothermal pipe limiting seat 12.

In this embodiment: the binding belt assembly comprises a first geothermal pipe binding belt 4 and a second geothermal pipe binding belt 13, one end of the first geothermal pipe binding belt 4 is arranged at one side of the opening of the first geothermal pipe limiting groove 16, and the second geothermal pipe binding belt 13 is arranged at the upper section of the second geothermal pipe limiting groove 14 at the opening of the second geothermal pipe limiting seat 12.

In this embodiment: the inserting assembly comprises a first constraint belt limiting groove 5 and a second constraint belt limiting groove 15, the first constraint belt limiting groove 5 is arranged at one end of a first geothermal pipe constraint belt 4 at the opening of a first geothermal pipe limiting seat 3, the second constraint belt limiting groove 15 is arranged at one end of a second geothermal pipe constraint belt 13 at the opening of a second geothermal pipe limiting seat 12, the first geothermal pipe constraint belt 4 is inserted into the first constraint belt limiting groove 5 to be positioned and connected, and one end of the second geothermal pipe constraint belt 13 is inserted into the middle part of the second constraint belt limiting groove 15 to be positioned and connected.

In this embodiment: the liquid guide cavity 18 is formed in the middle of the first geothermal pipe body 1, the second geothermal pipe body 2 and the limiting piece 7, and the first geothermal pipe body 1, the second geothermal pipe body 2 and the limiting piece 7 are communicated with each other.

The above description is merely a further embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present utility model within the scope of the present utility model disclosed in the present utility model.

Claims (6)

1. A fast-assembling high heat conduction ground heat pipe assembly, its characterized in that: including first geothermal pipe main part (1) and second geothermal pipe main part (2), first high heat conduction inner tube (6) are installed to first geothermal pipe main part (1) inner wall, second high heat conduction inner tube (17) are installed to second geothermal pipe main part (2) inner wall, sealing washer (11) have been laid to junction of first geothermal pipe main part (1) and second geothermal pipe main part (2), locating part (7) are installed in one end opening part of first geothermal pipe main part (1), spacing screw thread (8) have been laid to locating part (7) outer wall, spacing picture peg (9) are installed to spacing screw thread (8) outer end four sides, antiskid locating piece (10) are installed in the middle of spacing picture peg (9) outer wall, locating part cover of second geothermal pipe main part (2) and first geothermal pipe main part (1) is established by antiskid locating piece (10) block connection in the middle of the outer wall department of spacing picture peg (2), spacing groove subassembly has been seted up in the middle of the spacing groove subassembly, spacing groove subassembly opening part installs the one end of constraint subassembly.

2. The quick-fit high thermal conductivity geothermal pipe assembly of claim 1, wherein: the limiting seat assembly comprises a first geothermal pipe limiting seat (3) and a second geothermal pipe limiting seat (12), wherein the first geothermal pipe limiting seat (3) is sleeved at the middle of the first geothermal pipe main body (1), and the second geothermal pipe limiting seat (12) is sleeved at the middle of the second geothermal pipe main body (2).

3. A quick-fit, high thermal conductivity geothermal pipe assembly according to claim 2, wherein: the limiting groove assembly comprises a second geothermal pipe limiting groove (14) and a first geothermal pipe limiting groove (16), the first geothermal pipe limiting groove (16) is formed in the middle of the top of the first geothermal pipe limiting seat (3), and the second geothermal pipe limiting groove (14) is formed in the middle of the top of the second geothermal pipe limiting seat (12).

4. A quick-fit, high thermal conductivity geothermal pipe assembly according to claim 3, wherein: the binding belt component comprises a first geothermal pipe binding belt (4) and a second geothermal pipe binding belt (13), one end of the first geothermal pipe binding belt (4) is arranged at one side of an opening of the first geothermal pipe limiting groove (16), and the second geothermal pipe binding belt (13) is arranged at the upper section of the second geothermal pipe limiting groove (14) at the opening of the second geothermal pipe limiting seat (12).

5. The quick-fit high thermal conductivity geothermal pipe assembly of claim 4, wherein: the inserting assembly comprises a first constraint belt limiting groove (5) and a second constraint belt limiting groove (15), the first constraint belt limiting groove (5) is arranged at one end of a first geothermal pipe constraint belt (4) at the opening of a first geothermal pipe limiting seat (3), the second constraint belt limiting groove (15) is arranged at one end of a second geothermal pipe constraint belt (13) at the opening of a second geothermal pipe limiting seat (12), the first geothermal pipe constraint belt (4) is inserted into the first constraint belt limiting groove (5) to be connected in a positioning manner, and one end of the second geothermal pipe constraint belt (13) is inserted into the middle of the second constraint belt limiting groove (15) to be connected in a positioning manner.

6. The quick-fit high thermal conductivity geothermal pipe assembly of claim 5, wherein: the middle of first geothermal pipe main part (1), second geothermal pipe main part (2) and locating part (7) has seted up drain chamber (18), and first geothermal pipe main part (1), second geothermal pipe main part (2) and locating part (7) communicate each other.

Images