CN217131943U

CN217131943U - High-efficient heat pipe formula heat transfer device

Info

Publication number: CN217131943U
Application number: CN202220889129.2U
Authority: CN
Inventors: 贾丽霞; 杨硕
Original assignee: Shandong Ruide Energy Technology Co ltd
Current assignee: Shandong Ruide Energy Technology Co ltd
Priority date: 2022-04-18
Filing date: 2022-04-18
Publication date: 2022-08-05
Anticipated expiration: 2032-04-18

Abstract

The utility model discloses a high-efficient heat pipe formula heat transfer device, the adapter tube comprises a tube barrel, the interior side surface of adapter tube is provided with the inner tube, the inboard fixed surface of inner tube is connected with the heat pipe, heat pipe evenly distributed sets up the interior side surface at the inner tube, the both sides of adapter tube are fixed with the enclosing cover, the interior side surface of enclosing cover is provided with the inner cup, the outer end of inner cup is provided with the connection mouth of pipe, the opening is seted up with the outer end of adapter tube to the enclosing cover, the joint has the shank of bolt in the opening, the outer end of shank of bolt has the nut through threaded connection, be provided with inflow pipe and honeycomb duct in the inner tube, through adopting the built on stilts subassembly of two-layer type, its inner tube and inner cup department contact thermal current, its outer heat preservation improves thermal insulation performance, and is abundant during the heat transfer, and shank of bolt card income opening installation both ends enclosing cover, and it is convenient to overhaul to change.

Description

High-efficient heat pipe formula heat transfer device

Technical Field

The utility model relates to a heat pipe heat transfer field, more specifically say, relate to a high-efficient heat pipe formula heat transfer

Provided is a device.

Background

The heat pipe is a heat transfer element with high heat conductivity, transfers heat by evaporation and condensation of working medium in a totally-enclosed vacuum tube shell, and has extremely high heat conductivity, good isothermal property and cold and hot two sides

The heat transfer area can be changed at will, the heat can be transferred remotely, the temperature can be controlled, and the like;

in the existing heat pipe heat exchange assembly, the heat preservation effect of the equipment is not good, and heat is easy to be generated during heat exchange

Run off, be not convenient for abundant heat transfer to heat exchange assembly assembles not convenient enough, and is inconvenient when overhauing and changing.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a high-efficient hot tubular heat transfer device through adopting two-layer formula built on stilts subassembly, its inner tube and inner cup department contact thermal current, its outer heat preservation improves thermal insulation performance, and is abundant during the heat transfer, and the shank of bolt card goes into opening installation both ends enclosing cover, and it is more convenient to overhaul.

In order to solve the above problems, the utility model adopts the following technical proposal.

The utility model provides a high-efficient heat pipe formula heat transfer device, includes the bobbin, the interior side surface of bobbin is provided with the inner tube, the inboard fixed surface of inner tube is connected with the heat pipe, heat pipe evenly distributed sets up the interior side surface at the inner tube, the both sides of bobbin are fixed with the enclosing cover, the interior side surface of enclosing cover is provided with the inner cup, the outer end of inner cup is provided with the connecting pipe mouth, the opening is seted up with the outer end of bobbin to the enclosing cover, the joint has the shank of bolt in the opening, there is the nut in the outer end of shank of bolt through threaded connection, be provided with inflow pipe and honeycomb duct in the inner tube, through adopting two-layer formula built on stilts subassembly, its inner tube and contact thermal current of inner cup department, its inner tube and its contact thermal current of inner cup, its

The outer layer is insulated, the heat insulation performance is improved, the heat exchange is sufficient, the bolt rod is clamped into the outer covers at the two ends of the notch for mounting, and the repair and the replacement are convenient.

Furthermore, the inner end of the cavity between the pipe barrel and the inner barrel is filled with a heat insulation cotton layer, and the outer cover and the inner cover

The inner end clamping cavity is filled with a heat insulation cotton layer, so that the heat insulation performance is improved.

Furthermore, the inflow pipe is arranged on the inner end surface of one side of the upper end of the inner cylinder and the inner end surface of one side of the upper end of the pipe barrel, the flow guide pipe is arranged on the inner end surface of the other side of the lower end of the inner cylinder and is distributed up and down, and cold flow can fully flow when entering the cold flow pipe, so that the heat exchange can be fully carried out.

Furthermore, the outer surface of the lower end of the pipe barrel is fixedly connected with supporting legs, and the supporting legs are obliquely distributed on the peripheral surface of the outer surface of the lower end of the pipe barrel, so that the supporting force is improved.

Furthermore, the heat pipe is made of copper pipes, and the copper pipes are uniformly distributed on the inner side surface of the inner cylinder in an annular array mode, are uniformly distributed and can conduct heat sufficiently.

Furthermore, the openings are distributed on the periphery of the outer end surfaces of the outer cover and the pipe barrel, the openings are distributed on the periphery, bolt rods can be distributed on the periphery for installation, and installation is convenient and fast.

Furthermore, the inner end surface of the outer cover is covered with a rubber layer, and the rubber layer is attached to the outside of the pipe barrel

And an end surface to improve sealability.

Compared with the prior art, the utility model has the advantages of:

(1) through adopting two-layer formula built on stilts subassembly, its inner tube and inner cup department contact heat flow, its outer heat preservation improves thermal insulation performance, and is abundant during the heat transfer, and the shank of bolt card is gone into the opening and is installed both ends enclosing cover, and it is convenient to overhaul to change.

(2) The inner end of the clamping cavity of the pipe barrel and the inner barrel is filled with a heat insulation cotton layer, and the clamping cavity of the outer cover and the inner end of the inner cover is filled with the heat insulation cotton layer, so that the heat insulation performance is improved.

(3) The inlet pipe is arranged on the inner end surface of one side of the upper end of the inner cylinder and the pipe barrel, the guide pipe is arranged on the inner end surface of the other side of the lower end of the inner cylinder and is distributed up and down, and cold flow can fully flow when entering the cold flow, so that the heat exchange can be fully carried out.

(4) The outer surface of the lower end of the pipe barrel is fixedly connected with supporting legs, and the supporting legs are obliquely distributed on the peripheral surface of the outer surface of the lower end of the pipe barrel to improve supporting force.

(5) The heat pipes are copper pipes, and are uniformly distributed on the inner side surface of the inner cylinder in an annular array mode, so that the heat pipes are uniformly distributed and can conduct heat fully.

(6) The openings are distributed on the periphery of the outer end surface of the outer cover and the outer end surface of the pipe barrel, the openings are distributed on the periphery, bolt rods can be distributed on the periphery for installation, and installation is convenient and fast.

(7) The inner end surface of the outer cover is covered with a rubber layer, the rubber layer is attached to the outer end surface of the pipe barrel, and the handle

High sealing performance.

Drawings

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

FIG. 2 is a side view of the overall structure of the present invention;

fig. 3 is a side view of the tube and heat pipe of the present invention.

The reference numbers in the figures illustrate:

1 pipe barrel, 2 inner cylinders, 3 heat pipes, 4 outer covers, 5 inner covers, 6 connecting pipe orifices, 7 notches and 8 bolts

The device comprises a rod, a 9 nut, a 10 inflow pipe, a 11 draft tube and 12 supporting legs.

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, a high-efficiency heat pipe type heat exchanger comprises a pipe barrel 1, an inner barrel 2 is arranged on the inner side surface of the pipe barrel 1, heat pipes 3 are fixedly connected to the inner side surface of the inner barrel 2, the heat pipes 3 are uniformly distributed on the inner side surface of the inner barrel 2, outer covers 4 are fixed to two sides of the pipe barrel 1, an inner cover 5 is arranged on the inner side surface of each outer cover 4, a connecting pipe opening 6 is formed in the outer end of each inner cover 5, an opening 7 is formed in each outer cover 4 and the outer end of the pipe barrel 1, a bolt rod 8 is clamped in each opening 7, a nut 9 is connected to the outer end of each bolt rod 8 through threads, and a flow inlet pipe 10 and a flow guide pipe 11 are arranged in the inner barrel 2.

Referring to fig. 1-3, the heat insulation cotton layer is filled in the inner end of the clamping cavity between the inner tube 1 and the inner tube 2, the heat insulation cotton layer is filled in the clamping cavity between the outer cover 4 and the inner cover 5, the heat insulation performance is improved, the inflow pipe 10 is arranged on the inner end surface of one side of the upper end of the inner tube 2 and the inner end of the inner tube 1, the flow guide pipe 11 is arranged on the inner end surface of the other side of the lower end, the upper end and the lower end are distributed, when cold flow enters, the cold flow can fully flow and can fully exchange heat, the outer surface of the lower end of the tube 1 is fixedly connected with the support legs 12, the support legs 12 are obliquely distributed on the surface of the periphery of the outer surface of the lower end of the tube 1, the supporting force is improved, the heat pipe 3 is made of copper pipe, and the annular array of the copper pipe is uniformly distributed on the inner surface of the inner tube 2

The face, distribute evenly, can fully heat conduction, opening 7 distributes all around and sets up in the outer end surface of enclosing cover 4 and bobbin 1, distributes all around, can distribute the installation of bolt pole 8 all around, and it is convenient to install, and the inner surface of enclosing cover 4 covers has the rubber layer, and the laminating of rubber layer department is on the outer end surface of bobbin 1, improves the leakproofness.

When in use, the inner side surface of the pipe barrel 1 is provided with the inner barrel 2, the inner side surface of the inner barrel 2 is fixedly connected with the heat pipes 3, the heat pipes 3 are uniformly distributed on the inner side surface of the inner barrel 2, the two sides of the pipe barrel 1 are fixed with the outer covers 4, the inner side surface of the outer cover 4 is provided with the inner cover 5, the outer end of the inner cover 5 is provided with the connecting pipe orifice 6, the inner barrel 2 is internally provided with the inlet pipe 10 and the guide pipe 11, the inlet pipe 10 is connected with the leading-in heat flow through the connecting pipe orifice 6, the cold flow is led in by the inlet pipe 10, the guide pipe 11 can be led out after the heat exchange of the cold flow, the inner end of the clamping cavity of the pipe barrel 1 and the inner barrel 2 is filled with the heat insulation cotton layer, the clamping cavity of the inner end of the outer cover 4 and the inner cover 5 is filled with the heat insulation cotton layer, so as to improve the heat insulation performance, the phenomenon of rapid heat flow loss can not occur;

and the opening 7 is opened with the outer end of bobbin 1 to enclosing cover 4, has the shank of bolt 8 in the opening 7, and threaded connection has the nut 9 in the outer end of shank of bolt 8, and the shank of bolt 8 joint is fixed a position, and the installation is convenient, but both sides are fixed enclosing cover 4, and the installation is convenient, the easy access maintenance.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical solutions and modifications of the present invention within the technical scope of the present invention.

Claims

1. A high-efficient heat pipe formula heat transfer device, includes bobbin (1), its characterized in that: the utility model discloses a heat pipe, including pipe barrel (1), inner tube (2), the inboard fixed surface of inner tube (2) is provided with inner tube (2), the inboard surface fixedly connected with heat pipe (3) of inner tube (2), heat pipe (3) evenly distributed sets up the inboard surface at inner tube (2), the both sides of pipe barrel (1) are fixed with enclosing cover (4), the inboard surface of enclosing cover (4) is provided with inner cup (5), the outer end of inner cup (5) is provided with connecting pipe mouth (6), opening (7) are seted up with the outer end of pipe barrel (1) in enclosing cover (4), the joint has shank of bolt (8) in opening (7), the outer end of shank of bolt (8) has nut (9) through threaded connection, be provided with into flow tube (10) and honeycomb duct (11) in inner tube (2).

2. A high efficiency heat pipe heat exchange apparatus of claim 1 wherein: the inner ends of the clamping cavities of the pipe barrel (1) and the inner barrel (2) are filled with a heat-insulating cotton layer, an outer cover (4) and an inner cover (5)

The inner end of the clamping cavity is filled with a heat insulation cotton layer.

3. A high efficiency heat pipe heat exchange apparatus of claim 1 wherein: the inflow pipe (10) is arranged on the inner end surface of one side of the upper end of the inner cylinder (2) and the inner end surface of one side of the upper end of the pipe barrel (1), and the flow guide pipe (11) is arranged on the inner end surface of the other side of the lower end of the inner cylinder.

4. A high efficiency heat pipe heat exchange unit according to claim 1, wherein: the outer surface of the lower end of the pipe barrel (1) is fixedly connected with supporting legs (12), and the supporting legs (12) are obliquely distributed

Is arranged on the peripheral surface of the outer surface of the lower end of the pipe barrel (1).

5. A high efficiency heat pipe heat exchange apparatus of claim 1 wherein: the heat pipes (3) are copper pipes, and are uniformly distributed on the inner side surface of the inner cylinder (2) in an annular array.

6. A high efficiency heat pipe heat exchange apparatus of claim 1 wherein: the periphery of the gap (7) is distributed on the outer end surfaces of the outer cover (4) and the pipe barrel (1).

7. A high efficiency heat pipe heat exchange apparatus of claim 1 wherein: the rubber layer is covered on the inner end surface of the outer cover (4), and the rubber layer is attached to the outer end surface of the pipe barrel (1).