CN2897484Y

CN2897484Y - Rotary heat-transfer module forming machine

Info

Publication number: CN2897484Y
Application number: CN 200620117627
Authority: CN
Inventors: 林志君
Original assignee: Golden Sun News Techniques Co Ltd
Current assignee: Golden Sun News Techniques Co Ltd
Priority date: 2006-05-26
Filing date: 2006-05-26
Publication date: 2007-05-09
Anticipated expiration: 2016-05-26

Abstract

The utility model relates to a rotating-disk heat conducting model molding machine used for machining heat conducting model, which comprises a body, a rotating-disk member, a drive set and a reciprocator, wherein a foot platform is arranged on the body, and the rotating-disk member is arranged on the upward side of the foot platform. The rotating-disk member comprises a rotating disk and a plurality of lower shoes used for holding the heat conducting model. The drive set is arranged on the body and connected with the rotating disk of the rotating-disk member to drive the rotating disk spasmodically rotating. Moreover, the reciprocator is arranged on the foot platform and connected with a plurality of modules on the underside, the modules are arranged according to the lower shoe of the rotating-disk member and used for stamping the peak of the heat conducting model, therefore the machine can stamp the thermotube bottom of the heat conducting model continuously and achieve rapid and massive produce of the heat conducting model.

Description

Rotating disc type heat conducting module moulding maker

Technical field

The utility model relates to a kind of rotating disc type heat conducting module moulding maker, especially a kind of moulding maker of producing heat conducting module in order to continuity in a large number.

Background technology

At present industry is aspect the heat radiation of electronic building brick, the heat conducting module that utilizes heat pipe and heat-conducting seat to form, and the fin with a plurality of mutual storehouses is socketed on respectively on the heat pipe again, to be combined into radiator.Because this heat pipe has characteristics such as high hot biography ability, flash heat transfer, high thermoconductivity, in light weight, simple in structure and multipurpose, transmission heat that can be a large amount of and do not consume electric power, heat-conducting seat then has the fixedly connected effect of opposite heat tube, so it is fit to the radiating requirements of electronic product very much.Therefore how heat conducting module is produced in a large number, and significantly reduced the manufacturing cost of heat conducting module, become the important topic that industry is studied.

Known heat conducting module moulding maker, mainly many heat conducting module moulding makers are given the parallel arranged setting, on each maker, be provided with assemblies such as die shoe, module, reciprocator again, must operate a maker respectively by many people during making, after at first heat conducting module being carried out first punch process from first maker, move again second and third,,, etc. the platform maker proceed processing, with the processing and forming of the heat pipe of finishing heat conducting module.

Yet, known heat conducting module moulding maker, under using, reality still has following problem points, because it adopts the arranged type setting, except the purchase cost that large number quipments is arranged, also need and use the large spacing factory building that is provided with for aforementioned device, and it need can reach the processing and forming of heat conducting module by a plurality of operating personnel's the operation of pulling together.Therefore, make the overall cost of heat conducting module can't effectively obtain to reduce.

In view of the problem that above-mentioned known technology produced, so the design people is engaged in the sector experience for many years, and in line with excelsior spirit, the active research improvement provides a kind of rotating disc type heat conducting module moulding maker.

The utility model content

Therefore, for the effective cost of heat conducting module moulding maker and convenience of use of reducing, main purpose of the present utility model is to provide a kind of rotating disc type heat conducting module moulding maker, and it comprises body, rotating disk mechanism, drive unit and reciprocator.Wherein this body has workbench, is provided with rotating disk mechanism above workbench, and this rotating disk mechanism comprises that rotating disc and a plurality of ring are located at the die shoe of rotating disc top, and this die shoe is in order to be provided with heat conducting module.This drive unit is fixed on the body and is connected in the rotating disc of rotating disk mechanism in addition, produces intermittent rotation in order to drive rotating disc.In addition, be provided with reciprocator above the workbench of body, the bottom surface of this reciprocator is connected with a plurality of modules, and these modules are carried out punch process corresponding to the die shoe setting of rotating disk mechanism in order to the top to heat conducting module.

The utility model utilizes the intermittence rotation of rotating disk mechanism, and each module by reciprocator is carried out the continuity punch process to the heat pipe bottom of heat conducting module, not only can reduce the purchase cost of equipment, reduce the space that equipment is provided with, and need not just can realize producing fast and in a large number of heat conducting module by a plurality of operating personnel's the operation of pulling together.

Description of drawings

Fig. 1 is workbench of the present utility model and rotating disk mechanism combination schematic diagram;

Fig. 2 is workbench of the present utility model and rotating disk mechanism combination vertical view;

Fig. 3 is the stereo appearance figure of Fig. 1 and upper bolster;

Fig. 4 is the partial sectional view of Fig. 3;

Fig. 5 is the three-dimensional exploded view of die shoe of the present utility model for the heat conducting module cross-under;

Fig. 6 is the combination schematic diagram of Fig. 5;

Fig. 7 A～7E is that the utility model carries out continuous punch process schematic diagram to heat conducting module;

Fig. 8 is the rotating disk mechanism vertical view that the die shoe cross-under has heat conducting module;

Fig. 9 A～9B is that ejecting mechanism of the present utility model pushes against the actuator state cutaway view to heat conducting module;

Figure 10 is the stereo appearance figure after the utility model is processed heat conducting module.

The primary clustering symbol description is as follows:

Body 10 workbenches 11 guide pillars 12

Guide hole 121 limited posts 13 rotating disk mechanisms 20

Rotating disc 21 centre bores 211

Die shoe 22 fixed blocks 221

Intercommunicating pore 222 jack holes 223

Drive unit 30 frameworks 31 power transmission shafts 32

Reciprocator's 40 movable plates, 41 first modules 42

Second module 43 the 3rd module 44

Four module 45 the 5th module 46

Groove 421,431,441,451

Reference column 47 stops post 48 ejecting mechanisms 50

52 times knock-pins 53 of knock-pin on the cylinder 51

Heat conducting module 8 heat-conducting seats 81 heat pipes 82

The specific embodiment

Relevant detailed description of the present utility model and technology contents, conjunction with figs. is described as follows, however accompanying drawing only provides reference and explanation usefulness, is not to be used for the utility model is limited.

Please refer to Fig. 1 to shown in Figure 4, the utility model provides a kind of rotating disc type heat conducting module moulding maker, it is used for heat conducting module 8 (shown in 5 figure) processing and forming, and this maker mainly comprises body 10, rotating disk mechanism 20, drive unit 30 and reciprocator 40, wherein:

Body 10 has rectangle workbench 11, is respectively equipped with guide pillar 12 and limited post 13 in the rear of workbench 11 and arranged on left and right sides, and the center of this guide pillar 12 is provided with guide hole 121.

This rotating disk mechanism 20 is located on the workbench 11 of body 10, and it die shoe 22 that comprises rotating disc 21 and a plurality of annular arrangement and be fixed in rotating disc 21 tops.This rotating disc 21 can be circular discs, is provided with centre bore 211 in the center of rotating disc 21.The middle place of each die shoe 22 has upwards protruded out fixed block 221 in addition, be provided with two intercommunicating pores 222 in the center of fixed block 221, this intercommunicating pore 222 is through rotating disc 21, and is respectively equipped with the corresponding mutually jack holes 223 of many groups in the forward and backward both sides of intercommunicating pore 222.

This drive unit 30 can be positioning motor or stepper motor, and it has framework 31, pass the power transmission shaft 32 of framework 31 outsides and be located in the assembly such as stator, rotor, coil of framework 31 inside.This framework 31 can be fixed in workbench 11 belows of body 10 by fixation kits such as bolts, and makes power transmission shaft 32 pass the centre bore 211 of rotating disc 21, so that itself and rotating disc 21 Joints.This drive unit 30 produces intermittent rotation in order to the rotating disc 21 that drives rotating disk mechanism 20.

This reciprocator 40 is arranged on workbench 11 tops of body 10, and it comprises movable plate 41, a plurality of first module 42, second module 43, the 3rd module 44, four module 45, the 5th module 46 that is fixed in movable plate 41 belows, and an end is fixed on the crank connecting link group (not shown) of movable plate 41 tops.This movable plate 41 is corresponding to rotating disc 21 latter halfs of rotating disk mechanism 20, and makes each

module

42,43,44,45,46 position configuration corresponding to each die shoe 22.Bottom end face in each

module

42,43,44,45 has been formed separately many grooves 421,431,441,451, the degree of depth of its further groove 421 is greater than the degree of depth of groove 431, in like manner, the degree of depth of groove 431 is greater than the degree of depth of groove 441, the degree of depth of groove 441 is greater than the degree of depth (shown in Fig. 7 A～7E) of groove 451, and the jack hole 223 that this groove 421,431,441,451 corresponds respectively to each die shoe 22 is provided with.In addition, be respectively equipped with reference column 47 and stop post 48, and reference column 47 correspondences are connected to guide hole 121 inside of guide pillar 12, move with the front and back position of control movable plate 41 in the rear of movable plate 41 and arranged on left and right sides.Stop that post 48 then is provided with corresponding to limited post 13, moves with the upper and lower position of restriction movable plate 41.

Please refer to Fig. 5 to shown in Figure 8, moulding maker of the present utility model is in order to carry out punch process to heat conducting module 8, and this heat conducting module 8 comprises heat-conducting seat 81 and a plurality of heat pipe 82 that is connected to heat-conducting seat 81.During use, the heat pipe 82 of heat conducting module 8 is inserted in the jack hole 223 of die shoe 22, and the inboard of heat-conducting seat 81 is amplexiformed above the fixed block 221 of die shoe 22.Because the bottom of heat pipe 82 protrudes from the bottom surface of heat-conducting seat 81, drive the intermittent rotation of rotating disc 21 generations of rotating disk mechanism 20 in addition by drive unit 30, and 41 pairs of rotating disk mechanisms 20 of movable plate of reciprocator 40 are made reciprocating feed, the die shoe 22 that is provided with heat conducting module 8 be threaded into movable plate 41 below the time, at first make punch process by each heat pipe 82 bottom of 42 pairs of heat conducting modules 8 of first module, and then by each

module

42,43,44, each groove 421 of 45,431,441,451 continuous processing, by the flat bottom surface of the 5th module 46 each heat pipe 82 bottom pressing is processed again at last, can reach the continuity of each heat conducting module 8 and production in a large number fast.

Please refer to Fig. 9 and shown in Figure 10, be respectively that ejecting mechanism of the present utility model pushes against the actuator state cutaway view to heat conducting module and the stereo appearance figure after the heat conducting module processing.See also Fig. 1, moulding maker of the present utility model also comprises ejecting mechanism 50, this ejecting mechanism 50 is fixed in workbench 11 bottom surfaces of body 10, and it comprises that vapour pressure cylinder 51, many groups are connected to the last knock-pin 52 of the intercommunicating pore 222 of each die shoe 22, reaches one group of top that is connected in vapour pressure cylinder 51 and corresponding to the following knock-pin 53 of the bottom of last knock-pin 52.After each die shoe 22 is finished above-mentioned procedure, and when screwing out regional that movable plate 41 covered, can be by the start of vapour pressure cylinder 51, go up knock-pin 52 by knock-pin 53 pushing and pressing down, so that being released from die shoe 22, separates heat conducting module 8.

In sum, rotating disc type heat conducting module moulding maker of the present utility model is utilized the intermittence rotation of rotating disk mechanism, and each module by reciprocator is carried out the continuity punch process to the heat pipe bottom of heat conducting module, not only can reduce the purchase cost of equipment, reduce the space that equipment is provided with, and need not just can realize producing fast and in a large number of heat conducting module by a plurality of operating personnel's the operation of pulling together.

Yet, the above only is a preferable possible embodiments of the present utility model, be not so promptly limit to claim of the present utility model, the equivalent structure that all utilization the utility model specifications and accompanying drawing content are carried out changes, or directly or indirectly apply to other relevant technical field, all in like manner all be contained in the scope that the utility model contains.

Claims

1. a rotating disc type heat conducting module moulding maker is used to process heat conducting module (8), it is characterized in that, comprising:

Body (10) has workbench (11);

Rotating disk mechanism (20) is located on the workbench (11) of body (10), and described rotating disk mechanism (20) comprises that rotating disc (21) and a plurality of ring are located at the die shoe (22) of rotating disc (21) top, and heat conducting module (8) is arranged on the described die shoe (22); And

Drive unit (30) is fixed in the rotating disc (21) that rotating disk mechanism (20) were gone up and be connected in to body (10), drives rotating disc (21) and produces intermittent rotation; And

Reciprocator (40), be arranged on workbench (11) top of body (10), the bottom surface of described reciprocator (40) is connected with a plurality of modules, and described module is provided with corresponding to the die shoe (22) of rotating disk mechanism, and punch process is carried out on the top of heat conducting module (8).

2. rotating disc type heat conducting module moulding maker as claimed in claim 1 is characterized in that the and arranged on left and right sides of described workbench (11) is respectively equipped with guide pillar (12) and limited post (13), and the center of described guide pillar (12) is provided with guide hole (121); Reciprocator (40) comprises the movable plate (41) that described each module is affixed in addition, is provided with the reference column (47) of corresponding described guide hole (121) and limited post (13) and stops post (48) on described movable plate (41).

3. rotating disc type heat conducting module moulding maker as claimed in claim 1, the center that it is characterized in that described rotating disc (21) is provided with centre bore (211), and described drive unit (30) has the power transmission shaft (32) that passes described centre bore (211), and described power transmission shaft (32) is affixed mutually with rotating disc (21).

4. rotating disc type heat conducting module moulding maker as claimed in claim 1, the middle place that it is characterized in that described die shoe (22) has upwards protruded out fixed block (221), be respectively equipped with the corresponding mutually jack holes (223) of many groups in the forward and backward both sides of fixed block (221), described fixed block (221) and jack hole (223) be fixing cross-under heat conducting module (8) respectively.

5. rotating disc type heat conducting module moulding maker as claimed in claim 1 is characterized in that described drive unit (30) is any of positioning motor or stepper motor.

6. rotating disc type heat conducting module moulding maker as claimed in claim 1 is characterized in that described module is made of first module (42), second module (43), the 3rd module (44), four module (45) and the 5th module (46).

7. rotating disc type heat conducting module moulding maker as claimed in claim 6, the bottom end face that it is characterized in that described first module (42), second module (43), the 3rd module (44) and four module (45) is respectively equipped with corresponding groove (421,431,441,451), and the degree of depth of each groove (421,431,441,451) is provided with by being deep to shallow mode successively.

8. rotating disc type heat conducting module moulding maker as claimed in claim 1 is characterized in that also comprising ejecting mechanism (50), and described ejecting mechanism (50) is fixed in workbench (11) bottom surface of body (10).

9. rotating disc type heat conducting module moulding maker as claimed in claim 8, it is characterized in that described ejecting mechanism (50) comprises vapour pressure cylinder (51), a pair of knock-pin (52) and a pair of knock-pin (53) down gone up, the die shoe (22) of described in addition rotating disk mechanism (20) is provided with two intercommunicating pores (222) that run through rotating disc (21), one end of described vapour pressure cylinder (51) is fixed in workbench (11) below, the other end then is connected in down the bottom of knock-pin (53), and the described knock-pin (52) of going up is connected to each intercommunicating pore (222), and its bottom and the corresponding contact in the top of following knock-pin (53).