CN201107009Y - Heat pipe heat exchanging structure - Google Patents

Abstract

The utility model provides a heat exchange structure for a heat pipe, and the heat exchange structure is used for connecting a main pipe with the heat pipe to realize the heat exchange. The heat exchange structure comprises a metal heat exchange block, a main pipe fixing steel sheet and a heat pipe fixing steel sheet; the upper surface of the metal heat exchange block is provided with a main pipe containing trough, while the lower surface of the metal heat exchange block is provided with a heat pipe containing trough; the middle part of the main pipe fixing steel sheet is of an annular shape, the two ends thereof are respectively provided with a pin, while the two sides of the main pipe containing trough arranged on the upper surface of the metal heat exchange block are respectively provided with a slot; the two pins are respectively inserted in the slots, so as to cover the main pipe in the main pipe containing trough for fixing; the middle part of the heat pipe fixing steel sheet is of an annular shape, the two ends thereof are respectively provided with a pin, while the two sides of the heat pipe containing trough arranged on the lower surface of the metal heat exchange block are respectively provided with a slot; the two pins are respectively inserted in the slots, so as to cover the heat pipe in the heat pipe containing trough for fixing. The heat exchange structure can reduce the quantity of the heat exchange blocks, do not use the bolt connection, reduce the cost and improve the handling efficiency.

Description

The heat pipe heat exchanging structure

Technical field

The utility model relates to a kind of heat pipe heat exchanging structure, is specially adapted to use as heat exchange element in the heat pipe type heat collector.

Background technology

The form of heat pipe heat exchanging structure in the present heat pipe type heat collector, as shown in Figure 1, comprise heat transfer block 91, middle heat transfer block 92, following 93 3 Birmasil pieces of heat transfer block, described go up heat transfer block 91 with described in be provided with heat pipe containing hole 95 between the heat transfer block 92, and heat transfer block 92 and describedly be provided with trunk line containing hole 94 between the heat transfer block 93 down in described.Described heat pipe 5 is fastened in the described heat pipe storage tank 95, and described trunk line 4 is fastened in the described trunk line storage tank 94, and by a plurality of bolts 96 will be described go up heat transfer block 91, middle heat transfer block 92, heat transfer block 93 is fixedly connected down, promptly finishes the assembling that has heat pipe heat exchanging structure in the heat pipe type heat collector now.

Adopt said structure, can make described heat pipe 5 and described trunk line 4 carry out heat exchange, realize the function of heat exchange by heat transfer block 92 in described.

But because the heat pipe heat exchanging structure adopts a plurality of bolts 96 to connect in the existing heat pipe type heat collector, and every heat pipe all needs heat transfer block 91, middle heat transfer block 92, time 93 3 heat exchange of heat transfer block Al alloy block, causes following problem:

(1) in the heat pipe type heat collector production process, the installing of each heat pipe heat exchanging structure or dismounting all need to screw or unscrew a plurality of bolts 96 (being eight bolts 96 in the present embodiment), therefore operation is extremely loaded down with trivial details, not only waste of manpower, and also it is slack-off to cause project progress to be obstructed.

(2) each heat pipe heat exchanging structure all needs heat transfer block 91, middle heat transfer block 92, following 93 3 Birmasil pieces of heat transfer block, and have only described middle heat transfer block 92 to play the effect of heat conduction, obviously there is the great wasting of resources, not only weight lays particular stress on, volume is bigger than normal, causes difficult, and the too fat to move redundancy of structure, take up room, cause the installing difficulty.

In sum, the heat pipe heat exchanging structure exists various problems in the existing heat pipe type heat collector, and its product can't satisfy to make goes up the requirement of saving simple and flexible in convenient and swift in cost, the use, the maintenance, and the space is significantly improved.

Summary of the invention

Main purpose of the present utility model is to design a kind of like this heat pipe heat exchanging component, and its connection no longer adopts bolt to connect, and reduces the quantity of aluminium alloy heat transfer block.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of heat pipe heat exchanging structure is used for connecting trunk line and heat pipe to realize heat exchange, it is characterized in that: it comprises the fixedly fixing steel disc of steel disc and heat pipe of metal heat transfer block, trunk line; The upper surface of described metal heat transfer block is provided with a trunk line storage tank, and the lower surface of described metal heat transfer block is provided with a heat pipe storage tank; Described trunk line is embedded in described trunk line storage tank, and described heat pipe is embedded in described heat pipe storage tank; Described trunk line fixedly steel disc middle part is an annular, and its two ends respectively are provided with a pin, and the trunk line storage tank both sides of the upper surface setting of described metal heat transfer block respectively are provided with a slot; Described trunk line fixedly two pins of steel disc is plugged in respectively in the slot of described trunk line storage tank both sides, and described trunk line fixedly steel disc is coated in the described trunk line storage tank described trunk line fixing with its middle part; Described heat pipe fixedly steel disc middle part is an annular, and its two ends respectively are provided with a pin, and the heat pipe storage tank both sides of the lower surface setting of described metal heat transfer block respectively are provided with a slot; Described heat pipe fixedly two pins of steel disc is plugged in respectively in the slot of described heat pipe storage tank both sides, and described heat pipe fixedly steel disc is coated in the described heat pipe storage tank described heat pipe fixing with its middle part.

Preferable technical scheme can also be added following technical characterictic:

Wherein: described metal heat transfer block is the aluminium alloy heat transfer block.

Wherein: described trunk line storage tank is horizontally installed on the upper surface of described metal heat transfer block, and described heat pipe storage tank vertically is arranged on the lower surface of described metal heat transfer block.

Wherein: described metal heat transfer block is solid block,

Wherein: the slot of described trunk line storage tank both sides is vertical settings or oblique setting.

Wherein: the slot of described heat pipe storage tank both sides is vertical settings or oblique setting.

Compared with prior art, adopt the advantage that the utlity model has of technique scheme to be:

(1) simple in structure, with low cost.The utility model only comprises fixedly steel disc of an aluminium alloy heat transfer block and two, all drop to number of components and weight minimum, economical with materials cost not only, and reduce to from needs three cover casting moulds and only to need a cover casting mould, saved manufacturing cost, in addition, volume and weight of the present utility model all declines to a great extent, and has saved parking space and cost of transportation.

(2) loading and unloading are quick, easy to maintenance.The utility model uses fixedly being connected between the steel disc structure realization aluminium alloy heat transfer block and trunk line and heat pipe, does not need to screw or unscrews a plurality of bolt arrangements, has saved the operating time, and the efficiency of loading and unloading is greatly improved.In addition, when needing maintenance,, safeguard also lighter because fixedly the loading and unloading of steel disc structure are quick.

Description of drawings

Fig. 1 is that traditional thermal-collecting tube connects sealed structural representation;

Fig. 2 is the utility model outside drawing;

Fig. 3 is that the A-A of Fig. 2 is to cutaway view;

Fig. 4 is that the B-B of Fig. 2 is to cutaway view.

Description of reference numerals: 1-metal heat transfer block; 11-trunk line storage tank; The 111-slot; 12-heat pipe storage tank; The 121-slot; The 2-trunk line is steel disc fixedly; The 21-pin; The 3-heat pipe is steel disc fixedly; The 31-pin; The 4-trunk line; The 5-heat pipe; The last heat transfer block of 91-; Heat transfer block among the 92-; Heat transfer block under the 93-; 94-trunk line containing hole; 95-heat pipe containing hole; The 96-bolt.

The specific embodiment

Below in conjunction with accompanying drawing, technical characterictic of the present utility model and advantage are described in more detail, so that the utility model can more fully be understood.

As shown in Figure 2, be the utility model structural representation, the utility model heat pipe heat exchanging structure is used for realizing the heat exchange between trunk line 4 and the heat pipe 5, it comprises the fixedly fixing steel disc 3 of steel disc 2 and heat pipe of metal heat transfer block 1, trunk line.Described metal heat transfer block 1 is solid block, preferably adopts metallic aluminium to make, and its upper surface laterally is provided with a trunk line storage tank 11, and the lower surface of described metal heat transfer block 1 vertically is provided with a heat pipe storage tank 12.Described trunk line storage tank 11 and the described heat pipe storage tank 12 preferred half round posts that adopt, described trunk line 4 firmly can either be embedded in described trunk line storage tank 11, after firmly being embedded described heat pipe 5 in described heat pipe storage tank 12 simultaneously, can also farthest increase the contact area of described trunk line 4 and heat pipe 5 and metal heat transfer block 1, the heat that is conducted in the unit interval will improve thereupon, promptly can improve heat transfer efficiency of the present utility model.

Fig. 3 be Fig. 2 along A-A to cutaway view, main expression described trunk line of the present utility model fixedly steel disc 2 is fixed on structural representation in the described trunk line storage tank 11 with described trunk line 4, as shown in the figure, described trunk line fixedly steel disc 2 middle parts is an annular, coincide with the outside wall surface shape of trunk line 4, and trunk line fixedly respectively is provided with a pin 21 in steel disc 2 two ends, and trunk line storage tank 11 both sides of the upper surface setting of described metal heat transfer block 1 respectively are provided with a slot 111.Described two pins 21 can be oblique respectively and be plugged in the described slot 111, make described trunk line fixedly steel disc 2 described trunk line 4 is coated in the described trunk line storage tank 11 fixing with its middle part.In order to increase the coefficient of friction between described pin 21 and the slot 111; a plurality of protruding grains or burr (not shown) can be set on pin 21 surfaces; make described trunk line fixedly steel disc 2 and described trunk line 4 be connected more closely and firm, difficult drop-off and cause the utility model to lose efficacy.Described protruding grain or burr can equidistantly be arranged, also can random alignment, will not limit especially.In order to increase the frictional force between described pin 21 and the slot 111, pin 21 can also be arranged to wavy (not shown), and be elasticity extruding shape and be plugged in the described slot 111, like this, can improve the normal pressure between pin 21 and the slot 111, thereby reach the purpose that improves the frictional force between them.

Fig. 4 be Fig. 2 along B-B to cutaway view, main expression described heat pipe of the present utility model fixedly steel disc 3 is fixed on structural representation in the described heat pipe storage tank 12 with described heat pipe 5, as shown in the figure, described heat pipe fixedly steel disc 3 middle parts is an annular, its two ends respectively are provided with a pin 31, and heat pipe storage tank 12 both sides of the lower surface setting of described metal heat transfer block 1 respectively are provided with a slot 121.Described two pins 31 can be oblique respectively and be plugged in the described slot 121, make described heat pipe fixedly steel disc 3 described heat pipe 5 is coated in the described heat pipe storage tank 12 fixing with its middle part.A plurality of protruding grains or burr (not shown) can be set on pin 31 surfaces; to increase the coefficient of friction between described pin 31 and the slot 121; make described heat pipe fixedly steel disc 3 and described heat pipe 5 be connected more closely and firm, difficult drop-off and cause the utility model to lose efficacy.Described protruding grain or burr can equidistantly be arranged, also can random alignment, will not limit especially.In order to increase the coefficient of friction between described pin 31 and the slot 121, pin 31 can also be arranged to wavy (not shown), and be elasticity extruding shape and be plugged in the described slot 111, like this, can improve the normal pressure between pin 31 and the slot 121, thereby reach the purpose that improves the frictional force between them.

With described trunk line 4 inlay cards in described trunk line storage tank 11, again with the protruding outer wall of metal heat transfer block 1 that exposes of described trunk line 4 with fixedly steel disc 2 coatings of described trunk line, after fixedly two pins 21 of steel disc 2 are plugged in the described slot 111 respectively with trunk line, described trunk line 4 can be connected and fixed with described metal heat transfer block 1; Equally, with described heat pipe 5 inlay cards in described heat pipe storage tank 12, again with the protruding outer wall of metal heat transfer block 1 that exposes of described heat pipe 5 with fixedly steel disc 3 coatings of described heat pipe, after fixedly two pins 31 of steel disc 3 are plugged in the described slot 121 respectively with heat pipe, described heat pipe 5 can be connected and fixed with described metal heat transfer block 1.As mentioned above, can finish the connection of the utility model heat pipe heat exchanging structure, realize heat exchange between trunk line 4 and the heat pipe 5 compared with prior art, the utlity model has following advantage by described metal heat transfer block 1:

(1) simple in structure, with low cost.The utility model only comprises fixedly steel disc of a metal heat transfer block and two, all drop to number of components and weight minimum, economical with materials cost not only, and reduce to from needs three cover casting moulds and only to need a cover casting mould, saved manufacturing cost, in addition, volume and weight of the present utility model all declines to a great extent, and has saved parking space and cost of transportation.

(2) loading and unloading are quick, easy to maintenance.The utility model uses fixedly being connected between the steel disc structure realization metal heat transfer block and trunk line and heat pipe, does not need to screw or unscrews a plurality of bolt arrangements, has saved the operating time, and the efficiency of loading and unloading is greatly improved.In addition, when needing maintenance,, safeguard also lighter because fixedly the loading and unloading of steel disc structure are quick.

In actual the use, the described metal heat transfer block 1 preferred aluminum alloy material that adopts can improve heat-transfer rate, but use other metal material can reach the heat exchange purpose equally.And in the present embodiment, two slots 111 that described trunk line storage tank 11 both sides are provided with are oblique setting (favouring metal heat transfer block 1 upper surface), and it also can adopt vertically to (perpendicular to metal heat transfer block 1 upper surface) is set; Equally, in the present embodiment, two slots 121 that described heat pipe storage tank 12 both sides are provided with are oblique setting (favouring metal heat transfer block 1 lower surface), and it also can adopt vertically to (perpendicular to metal heat transfer block 1 lower surface) is set.

More than explanation is just illustrative for the utility model, and it is nonrestrictive, those of ordinary skills understand, under the situation of the spirit and scope that do not break away from claim and limited, can make many modifications, variation or equivalence, but but all will fall within the claim restricted portion of the present utility model.

Claims (10)

1. heat pipe heat exchanging structure is used for connecting trunk line and heat pipe to realize heat exchange, it is characterized in that: it comprises the fixedly fixing steel disc of steel disc and heat pipe of metal heat transfer block, trunk line;

The upper surface of described metal heat transfer block is provided with a trunk line storage tank, and the lower surface of described metal heat transfer block is provided with a heat pipe storage tank; Described trunk line is embedded in described trunk line storage tank, and described heat pipe is embedded in described heat pipe storage tank;

Described trunk line fixedly steel disc middle part is an annular, and its two ends respectively are provided with a pin, and the trunk line storage tank both sides of the upper surface setting of described metal heat transfer block respectively are provided with a slot; Described trunk line fixedly two pins of steel disc is plugged in respectively in the slot of described trunk line storage tank both sides, and described trunk line fixedly steel disc is coated in the described trunk line storage tank described trunk line fixing with its middle part;

Described heat pipe fixedly steel disc middle part is an annular, and its two ends respectively are provided with a pin, and the heat pipe storage tank both sides of the lower surface setting of described metal heat transfer block respectively are provided with a slot; Described heat pipe fixedly two pins of steel disc is plugged in respectively in the slot of described heat pipe storage tank both sides, and described heat pipe fixedly steel disc is coated in the described heat pipe storage tank described heat pipe fixing with its middle part.

2. heat pipe heat exchanging structure according to claim 1 is characterized in that: described metal heat transfer block is the aluminium alloy heat transfer block.

3. heat pipe heat exchanging structure according to claim 1 is characterized in that: described trunk line storage tank is horizontally installed on the upper surface of described metal heat transfer block, and described heat pipe storage tank vertically is arranged on the lower surface of described metal heat transfer block.

4. heat pipe heat exchanging structure according to claim 1 is characterized in that: described metal heat transfer block is solid block,

5. heat pipe heat exchanging structure according to claim 1 is characterized in that: the slot of described trunk line storage tank both sides is vertical settings or oblique setting.

6. heat pipe heat exchanging structure according to claim 1 is characterized in that: the slot of described heat pipe storage tank both sides is vertical settings or oblique setting.

7, heat pipe heat exchanging structure according to claim 1 is characterized in that: the described trunk line fixedly set pin surface of steel disc has a plurality of protruding grains or burr, and perhaps described pin is arranged to wavy.

8, heat pipe heat exchanging structure according to claim 1 is characterized in that: the described trunk line fixedly set pin of steel disc is arranged to wavyly, and is elasticity extruding shape and is plugged in the described slot.

9, heat pipe heat exchanging structure according to claim 1 is characterized in that: the described heat pipe fixedly set pin surface of steel disc has a plurality of protruding grains or burr.

10, heat pipe heat exchanging structure according to claim 1 is characterized in that: the described heat pipe fixedly set pin of steel disc is arranged to wavyly, and is elasticity extruding shape and is plugged in the described slot.

Images