CN2685799Y - Hot pipe - Google Patents

Abstract

The utility model belongs to the heat conduction technical field, which concretely discloses a hot pipe whose inner wall is provided with capillary grooves. The main technical proposal is the inner wall of the pipe barrel which is filled with working fluid with two sealed ends is provided with axial capillary grooves, the capillary grooves can be linear or screwed, which can be also designed as crotch-shaped or reverse-crotch-shaped according to the specific density of the working fluid. The utility model hot pipe solves the problem of the metal net roll conveyance mechanism which must be used for flow guiding of the pipe barrel existing in prior art, which has the advantages of simple structure and high heat conduction efficiency.

Description

Heat pipe

Technical field

The utility model belongs to hot conduction technique field, relates to the heat pipe that a kind of inwall has capillary groove.

Background technology

Heat pipe is as the heat loss through conduction mechanism of thermal source, its structure comprises a socket that two ends are sealed, 1/5th and no more than 1/3rd the working fluid that is no less than its height is housed in the socket and the medium as the drainage transmission mechanism such as screen cloth volume or sinter is arranged.Because above-mentioned drainage medium is housed in socket, easily form during working fluid cycles in the heat pipe and stop up, cause working fluid cycles not smooth, therefore exist the defective of thermal conduction effect difference.

The utility model patent that the patent No. is 00233440.2, notification number is CN2420604 then discloses capillary structure in a kind of heat pipe.Its structure is for being provided with conductive tissue zero lap wire binding site, that form with the braiding of the metal wire of skew crossing type post shapes in heat pipe.The disclosed heat pipe structure of this patent is still for being equipped with the drainage conduction mechanism in socket.Although comparing with prior art, the heat pipe of this structure improved heat conduction efficiency, but in the processing process, still exist in the operation of dosing the wire netting conductive tissue in the socket, and the structure of this wire netting conductive tissue is necessary for zero lap wire binding site structure, its processing technology and requirement and the strictness thereof of adding dress, therefore not only there is the production process complexity in this patented technology, but also has certain percent defective and the high defective of production cost.

The utility model content

The purpose of this utility model just provides a kind of heat conduction efficiency height and production process is simple, cost is low a kind of heat pipe.

The technical scheme of the heat pipe that realization the utility model proposes comprises in sealed at both ends socket, the socket working fluid is housed, and is axial groove on the described socket internal face.

Its supplementary features are: described groove is the capillary groove that certain radial depth is arranged; Described groove is to present to dredge close tree-shaped groove down; Described groove is the downtree shape groove that is upper tightly lower sparse; Described groove is a helical form; Described groove is a linearity.

The heat pipe that the utility model provides is compared with prior art and is had the following advantages: one, owing to when tubulation, pull out the axial capillary groove bar of different shape on the heat pipe inwall, substitute the wire netting conduction mechanism of in pipe, dosing metal net volume or zero lap wire binding site structure, promptly had the advantage that manufacturing procedure is simple and cost is low; Secondly, when working fluid adopted heavy liquid, the capillary groove bar on tube wall rose, and formed the liquid pearl when it rises to low-temperature space, fell from tube core, and circulation does not have resistance, has the high advantage of heat transfer efficiency.When working fluid adopted light liquids, liquid became gaseous state and rises, and formed the liquid pearl when rising to low-temperature space, then fell along the capillary groove bar on the socket inwall, and circulation does not have resistance, has the high advantage of heat transfer efficiency.

Description of drawings

Fig. 1 is the structural representation of the utility model heat pipe;

Fig. 2 is the cross section structure schematic diagram of heat pipe;

Fig. 3 is the heat pipe interior wall construction schematic diagram that is the capillary groove bar of tree fork shape;

Fig. 4 is the heat pipe interior wall construction schematic diagram that is the forked capillary groove bar of downtree;

Fig. 5 is the heat pipe interior wall construction schematic diagram of spiral capillary groove bar;

Fig. 6 is the capillary groove cross section structure schematic diagram of heat pipe.

The specific embodiment

Be described further below in conjunction with the structure and the operation principle of drawings and Examples the heat pipe that the utility model proposed.

Be the structural representation of the utility model heat pipe as shown in Figure 1, 2, be that structure includes sealed at both ends socket 1, fill the light liquids (as alcohol, ether or water etc.) 2 that accounts for its length (or height) 1/4 in the socket, draw the axial capillary groove 3 that certain depth is arranged that is covered with wall on the internal face of its socket.

Its operation principle is: an end of heat pipe is inserted thermal source, when working fluid adopts not volatile liquid, then rise along as shown in Figure 4 the forked capillary groove of downtree that is on the inwall, after rising to main line 4 or socket top, catch a cold and form the bigger liquid pearl of volume, in the middle of managing, fall to heating end by gravity, circulation according to this, thus reach heat conducting purpose; And when working fluid adopts volatile light liquids, then the working fluid of heating end evaporates into steam state, the liquid that congeals into after catching a cold to the top, and the capillary groove 5 that is tree fork shape along inside pipe wall as shown in Figure 3 is back to heating end, circulation successively, thus reach heat conducting purpose.

In order to improve the heat conduction efficiency of heat pipe, promptly improve the interior working fluid of socket because of being heated or meeting the speed that the condensation knot rises or descends along capillary groove, this capillary groove can be designed to the structure or 7 structures of linearity as shown in Figure 1 of helical form 6 as shown in Figure 5, and capillary groove is the bay formula structure of arcuation for as shown in Figure 6 the opening 8 that has.

Claims (6)

1, heat pipe, structure comprise in sealed at both ends socket, the socket working fluid are housed, and it is characterized in that: be axial groove on the described socket internal face.

2, heat pipe according to claim 1 is characterized in that: described groove is the bay formula capillary groove that certain radial depth is arranged.

3, heat pipe according to claim 1 and 2 is characterized in that: described groove is to present to dredge close tree-shaped groove down.

4, heat pipe according to claim 1 and 2 is characterized in that: described groove is the downtree shape groove that is upper tightly lower sparse.

5, heat pipe according to claim 1 is characterized in that: described groove is a helical form.

6, heat pipe according to claim 1 is characterized in that: described groove is a linearity.

Images