阅读说明：本技术 一种通用水冷型热管效能测试装置 (Universal water-cooled heat pipe efficiency testing device ) 是由 肖喜祝 于 2021-08-12 设计创作，主要内容包括：本发明涉及测试装置技术领域,尤其涉及一种通用水冷型热管效能测试装置。包括检测设备平台、设置在检测设备平台上的加热装置和散热装置、与加热装置和散热装置相连接的自动检测系统,所述散热装置还连接有水循环系统。本发明的有益之处：解决现有方案的设计成本、使用成本高的问题,其次还解决测试装置的使用多功能性和通用性,大大提高设备的利用率,从而到达提升产能、降低成本等优点。(The invention relates to the technical field of testing devices, in particular to a universal water-cooling type heat pipe efficiency testing device. The automatic detection device comprises a detection equipment platform, a heating device and a heat dissipation device which are arranged on the detection equipment platform, and an automatic detection system connected with the heating device and the heat dissipation device, wherein the heat dissipation device is also connected with a water circulation system. The invention has the advantages that: the problem of the design cost of current scheme, use cost are high is solved, secondly still solve testing arrangement's use multifunctionality and commonality, improve equipment's utilization ratio greatly to reach advantages such as promotion productivity, reduce cost.)

1. The utility model provides a general water-cooling type heat pipe efficiency testing arrangement, includes the check out test set platform, sets up heating device and heat abstractor on the check out test set platform, the automated inspection system who is connected with heating device and heat abstractor, heat abstractor still is connected with water circulating system, its characterized in that: the heating device comprises a heating bracket, a first magnetic base arranged at the bottom of the heating bracket, a longitudinal slide rail arranged on a side plate of the heating bracket, a lower heating module arranged on the longitudinal slide rail through a lower slider in a sliding manner, an upper heating module arranged on the longitudinal slide rail through an upper slider in a sliding manner, and a double-shaft cylinder arranged at the top of the heating bracket, wherein the telescopic end of the double-shaft cylinder is connected with the upper heating module, the upper heating module is arranged on the lower heating module, a height adjusting screw rod is also arranged in the heating bracket, the lower heating module comprises a lower heating module mounting plate connected with the lower slider, a guide sleeve arranged on the lower heating module mounting plate, a heating mounting base arranged on the lower heating module mounting plate, a multifunctional heating copper block arranged on the heating mounting base, and a heating rod arranged in the multifunctional heating copper block, the module includes the heating lower mould mounting panel that is connected with the lower sliding block, sets up the hole groove on the heating upper mould mounting panel, sets up thermocouple installation piece on the heating upper mould mounting panel, sets up spout in thermocouple installation piece, sets up the regulation spout in thermocouple installation piece both sides, through thermocouple slider slidable mounting thermocouple device in thermocouple installation piece spout, thermocouple slider both sides all are provided with spacing hole, spacing hole with adjust the corresponding setting of spout, heat abstractor includes the heat dissipation support, set up the second magnetic base in heat dissipation support bottom, set up the heat dissipation biax cylinder at heat dissipation support top, set up with the heat dissipation upper module of the flexible end of heat dissipation biax cylinder, set up the heat dissipation lower module on the heat dissipation support, the heat dissipation upper module with the corresponding setting from top to bottom of heat dissipation lower module, the heat dissipation upper module includes the heat dissipation upper mounting block that is connected with heat dissipation biax cylinder, The U-shaped sliding block is installed on the heat dissipation upper installation block, the thermocouple passing block is slidably installed on the U-shaped sliding block, and the thermocouple arranged on the thermocouple passing block is arranged.

2. The performance testing device for the universal water-cooling heat pipe according to claim 1, wherein: the thermocouple slider can slide in the spout of thermocouple installation piece for thermocouple device removes, and goes into spacing downthehole through first stop screw card, fixes on the regulation spout of thermocouple installation piece, the thermocouple can slide on U type slider through the piece, and the thermocouple is corresponding through the piece fixed orifices that passes through on the piece the thermocouple passes through the piece adjustment tank setting, the thermocouple passes through the piece and passes the thermocouple through the piece adjustment tank through second stop screw to the card is gone into through the piece fixed orifices, thereby fixes on the heat dissipation mounting panel.

3. The performance testing device for the universal water-cooling heat pipe according to claim 1, wherein: the multifunctional heating copper block is provided with a plurality of heating placing grooves with different sizes, and the heat dissipation copper block is provided with a plurality of heat dissipation placing grooves with different sizes.

4. The performance testing device for the universal water-cooling heat pipe according to claim 1, wherein: the upper part of the height adjusting screw rod is arranged in the heating support, and the lower part of the height adjusting screw rod is connected with a guide sleeve on the heating lower die mounting plate.

5. The performance testing device for the universal water-cooling heat pipe according to claim 1, wherein: the detection equipment platform is made of iron.

Technical Field

The invention relates to the technical field of testing devices, in particular to a universal water-cooling type heat pipe efficiency testing device.

Background

The existing heat pipe test fixture is designed, manufactured and assembled independently in each specification, and the mode mainly has the following defects:

a. a large amount of time of designers is wasted, and 1-2 days are often needed for designing a set of test fixtures;

b. the manufacturing and using cost is wasted, each jig can only correspond to the corresponding specification, and the jig can not be shared with other specifications;

c. the waste of technicians is caused, and the long time is not needed for disassembling and debugging when the specification needs to be replaced after production is stopped;

d. the existing heat dissipation mode uses air cooling heat dissipation, needs special heat dissipation fins, is repeatedly used for a long time, is easy to damage the fins, and needs to replace the heat dissipation fins for many times from the beginning to the end of production in each specification;

e. the fan consumption, each kind of specification test all uses corresponding special fan, and the cost increases by a wide margin, and long-time uninterrupted use, the life of fan also descends very fast, so every specification is from beginning production to the end all need change radiator fan many times.

Disclosure of Invention

The invention aims to provide a universal water-cooling type heat pipe efficiency testing device to overcome the defects in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a general water-cooling type heat pipe efficiency testing arrangement, includes the check out test set platform, sets up heating device and heat abstractor on the check out test set platform, the automated inspection system that is connected with heating device and heat abstractor, heat abstractor still is connected with water circulating system, heating device includes the heating support, sets up the first magnetic force seat in heating support bottom, sets up the longitudinal slide rail on the heating support curb plate, through module, the heating upper module of upper module, the biax cylinder of setting on the heating support top of lower slider slidable mounting on the longitudinal slide rail under the heating of lower slider slidable mounting on the longitudinal slide rail, the flexible end of biax cylinder with module is connected on the heating, the module sets up on the module under the heating, still be provided with high adjusting screw in the heating support, the module includes the heating lower mould mounting panel that is connected with the lower slider under the heating, The thermocouple device comprises a guide sleeve arranged on a heating lower die mounting plate, a heating mounting base arranged on the heating lower die mounting plate, a multifunctional heating copper block arranged on the heating mounting base, and a heating rod arranged in the multifunctional heating copper block, wherein the heating upper module comprises a heating lower die mounting plate connected with a lower slide block, a hole groove arranged on the heating upper die mounting plate, a thermocouple mounting block arranged on the heating upper die mounting plate, a chute arranged in the thermocouple mounting block, an adjusting chute arranged on two sides of the thermocouple mounting block, and a thermocouple device arranged in the chute of the thermocouple mounting block through the thermocouple slide block in a sliding manner, the two sides of the thermocouple slide block are both provided with limiting holes, the limiting holes correspond to the adjusting chute, the heat dissipation device comprises a heat dissipation support, a second magnetic seat arranged at the bottom of the heat dissipation support, a heat dissipation double-shaft cylinder arranged at the top of the heat dissipation support, and a heat dissipation double-shaft cylinder arranged at the top of the heat dissipation support, The utility model provides a set up with the flexible end of heat dissipation biax cylinder module, set up module under the heat dissipation on the heat dissipation support, the module on the heat dissipation with module corresponds the setting from top to bottom under the heat dissipation, the module includes the heat dissipation that is connected with heat dissipation biax cylinder and goes up the installation piece, install U type slider, the thermocouple of slidable mounting on U type slider under the installation piece on the heat dissipation and pass through the piece, set up the thermocouple on the thermocouple passes through the piece, set up the thermocouple on the heat dissipation on the installation piece and pass through a regulating groove, the thermocouple passes through to be provided with on the piece and passes through a fixed orifices, the module is including the heat dissipation down installation base, set up the heat dissipation copper billet on the installation base under the heat dissipation, set up logical water interface and the heat dissipation copper billet water jacket on the heat dissipation copper billet.

Preferably, the thermocouple slider can slide in the spout of thermocouple installation piece for thermocouple device removes to block into spacing downthehole through first stop screw, fix on the regulation spout of thermocouple installation piece, the thermocouple passes through the piece and can slide on U type slider, and the thermocouple passes through the piece fixed orifices on the piece and corresponds the thermocouple passes through a piece adjustment tank and sets up, the thermocouple passes through the piece and passes the thermocouple through a piece adjustment tank through second stop screw to block into and pass through a piece fixed orifices, thereby fix on the heat dissipation mounting panel.

Preferably, a plurality of heating placing grooves with different sizes are formed in the multifunctional heating copper block, and a plurality of heat dissipation placing grooves with different sizes are formed in the heat dissipation copper block.

Preferably, the upper part of the height adjusting screw is arranged in the heating bracket, and the lower part of the height adjusting screw is connected with a guide sleeve on the heating lower die mounting plate.

Preferably, the detection equipment platform is made of iron.

The invention has the beneficial effects that: compared with the prior art

1. According to the invention, the original single-shaft cylinder is modified into the double-shaft cylinder, and the original three-shaft cylinder is modified into the double-shaft cylinder, so that the stability is not influenced, the price of accessories is reduced, and the stability of the whole equipment is improved;

2. the heating device is additionally provided with a device capable of adjusting the height, and is provided with a stable guiding function, so that the equipment is improved;

3. the heating device and the heat dissipation device change the original fixing of the thermocouple temperature sensing device into multidirectional adjustment, so that the flexibility of the position adjustment of the temperature sensing device is improved; 4. the design of the copper block is changed, the semi-circles with different sizes and the planes with different widths are added,

the utility model is suitable for different products with different shapes and is convenient to replace;

5. the heating device and the heat dissipation device are fixed through the magnetic base, and can be adjusted in position according to different product shapes, so that the matching condition with different products is achieved, and the utilization rate of the products is greatly improved;

6. the heat dissipation mode is changed from the original air cooling heat dissipation mode to the water cooling heat dissipation mode, so that the cost is greatly reduced, the cooling effect of the product is improved, and the time is saved;

7. the invention ensures that the manufacturing cost is not obviously different from the cost of the existing testing device, the use cost is reduced by 80 percent compared with the original cost, the universality of the testing device can be suitable for the efficiency test of 95 percent of the specification of the heat pipe at present, extremely fragile heat dissipation device accessories such as fins, fans and the like are not needed, the accessory loss in later use is greatly reduced, the service life of the device is prolonged by 90 percent compared with the original testing device, the device adjusting time and speed during specification replacement are greatly shortened, the original condition that 2 technicians are needed to be worn for each class to adjust each class is only needed to be met, the stability of the device is high, the product defect identification degree is high, the productivity is improved by 10 percent, the practicability is flexible, the required number of performance devices is reduced, the input number of the device is reduced, the cost is saved, and the device has multifunctionality and universality, greatly improving the utilization rate of the equipment, thereby achieving the advantages of improving the productivity, reducing the cost and the like.

Drawings

FIG. 1 is a side view of a heating device of a universal water-cooled heat pipe performance testing apparatus according to the present invention;

FIG. 2 is a front view of a heating device of a universal water-cooling heat pipe performance testing device according to the present invention;

FIG. 3 is a side view of a heat dissipation device of a universal water-cooled heat pipe performance testing apparatus of the present invention;

FIG. 4 is a schematic view of an upper heating module of the universal water-cooled heat pipe performance testing apparatus of the present invention;

FIG. 5 is a schematic diagram of an upper heat-dissipating module of the universal water-cooled heat pipe performance testing apparatus of the present invention;

in the figure: 1. a heating device; 2. a heat sink; 11. heating the stent; 12. a first magnetic base; 13. longitudinally sliding; 14. a lower slide block; 3. heating the lower die set; 15. an upper slide block; 4. heating the upper die set; 16. a double-shaft cylinder; 17. a height adjusting screw; 31. heating the lower die mounting plate; 32. a guide sleeve; 33. heating the mounting base; 34. multifunctional heating copper block; 35. a heating rod; 41. heating the upper die mounting plate; 42. a thermocouple mounting block; 43. a chute; 44. adjusting the sliding chute; 45. a thermocouple slide block; 46. a thermocouple device; 47. a limiting hole; 21. a heat dissipation bracket; 22. a second magnetic base; 23. a heat dissipation double-shaft cylinder; 5. a heat dissipation upper module; 6. a heat dissipation lower module; 51. an upper heat dissipating mounting block; 52. a U-shaped slider; 53. a thermocouple pass block; 54. a thermocouple; 55. the thermocouple passes the block regulating groove; 61. a base is arranged under the heat dissipation; 62. a heat dissipation copper block; 63. a water interface; 64. a heat-dissipating copper block water jacket; 36. heating the placing groove; 65. the heat dissipation standing groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 5, the present embodiment is a universal water-cooling type heat pipe efficiency testing apparatus, including a detection device platform, a heating device 1 and a heat dissipation device 2 disposed on the detection device platform, and an automatic detection system connected to the heating device and the heat dissipation device, the heat dissipation device is further connected to a water circulation system, the heating device 1 includes a heating support 11, a first magnetic base 12 disposed at the bottom of the heating support 11, a longitudinal slide rail 13 disposed on a side plate of the heating support 11, a heating lower module 3 slidably mounted on the longitudinal slide rail 13 through a lower slide block 14, a heating upper module 4 slidably mounted on the longitudinal slide rail 13 through an upper slide block 15, and a biaxial cylinder 16 disposed at the top of the heating support 11, a telescopic end of the biaxial cylinder 16 is connected to the heating upper module 4, the heating upper module 4 is disposed on the heating lower module 3, still be provided with height-adjusting screw 17 in the heating support 11, module 3 includes the heating lower mould mounting panel 31 that is connected with slider 14 down, the direction department's cover 32 of setting on heating lower mould mounting panel 31, the heating installation base 33 of setting on heating lower mould mounting panel 31, install the multi-functional heating copper billet 34 on heating installation base 33, set up the heating rod 35 in multi-functional heating copper billet 34 under the heating, module 4 includes the heating upper mould mounting panel 41 that is connected with slider 15 down, sets up the hole groove on heating upper mould mounting panel 41, sets up thermocouple installation piece 42 on heating upper mould mounting panel 41, sets up spout 43 in thermocouple installation piece 42, sets up the regulation spout 44 in thermocouple installation piece 42 both sides, through thermocouple slider 45 slidable mounting at thermocouple installation 42 in the thermocouple installation piece 42 spout 46 in the spout 43, the two sides of the thermocouple sliding block 45 are respectively provided with a limiting hole 47, the limiting holes 47 are arranged corresponding to the adjusting sliding grooves 44, the heat dissipation device 2 comprises a heat dissipation bracket 21, a second magnetic base 22 arranged at the bottom of the heat dissipation bracket 21, a heat dissipation double-shaft cylinder 23 arranged at the top of the heat dissipation bracket 21, a heat dissipation upper module 5 arranged at the telescopic end of the heat dissipation double-shaft cylinder 23, and a heat dissipation lower module 6 arranged on the heat dissipation bracket 21, the heat dissipation upper module 5 and the heat dissipation lower module 6 are arranged up and down correspondingly, the heat dissipation upper module 5 comprises a heat dissipation upper mounting block 51 connected with the heat dissipation double-shaft cylinder 23, a U-shaped sliding block 52 arranged below the heat dissipation upper mounting block 51, a thermocouple passing block 53 slidably arranged on the U-shaped sliding block 52, and a thermocouple 54 arranged on the thermocouple passing block 53, and a thermocouple passing block adjusting groove 55 is arranged on the heat dissipation upper mounting block 51, the thermocouple passing block 53 is provided with a passing block fixing hole, and the heat dissipation lower module 6 comprises a heat dissipation lower mounting base 61, a heat dissipation copper block 62 arranged on the heat dissipation lower mounting base 61, a water passing interface 63 arranged on the heat dissipation copper block 62 and a heat dissipation copper block water jacket 64.

The thermocouple slider 45 can slide in the sliding groove 43 of the thermocouple mounting block 42, so that the thermocouple device 46 moves, is clamped into the limiting hole 47 through a first limiting screw and is fixed on the adjusting sliding groove 44 of the thermocouple mounting block 42, the thermocouple can slide on the U-shaped slider 52 through the block 53, the thermocouple passes through the block fixing hole on the block 53 and corresponds to the thermocouple passes through the block 53 adjusting groove, the thermocouple passes through the block 53 through a second limiting screw and passes through the block adjusting groove, and is clamped into the block fixing hole, so that the thermocouple is fixed on the heat-dissipating upper mounting plate.

The multifunctional heating copper block 34 is provided with a plurality of heating placing grooves 36 with different sizes, and the heat dissipation copper block 62 is provided with a plurality of heat dissipation placing grooves 65 with different sizes. The not unidimensional heating standing groove 36 that sets up on multi-functional heating copper billet 34 tests for cooperating different products, and multi-functional heating copper billet passes through the screw to be fixed, can dismantle fast, with trading, install, is applicable to not unidimensional product.

The upper part of the height adjusting screw 17 is arranged in the heating bracket 11, and the lower part is connected with a guide sleeve 32 on the heating lower die mounting plate. The position of the heating lower module 3 is adjusted by screwing the height adjusting screw rod 17, the heating lower module 3 moves along the height adjusting screw rod 17, and meanwhile, the lower sliding block at the rear end is matched with the longitudinal sliding rail to assist in moving.

The detection equipment platform is made of iron. In order to be able to cooperate with the magnetic bases at the bottom of the heating device 1 and the heat sink 2 for fixing. Heating device 1 and heat abstractor 2 pass through the magnetic base fixed, can carry out position control according to the product shape of difference to reach the condition with different product matchings, improve the utilization ratio of product greatly.

When the embodiment is implemented, the positions of the heating device and the heat dissipation device are adjusted according to the shape of a product to be detected, the heating device and the heat dissipation device are fixed through the magnetic base, the heating end of the product is installed in the heating placing groove of the multifunctional heating copper block of the heating device, the adjustment is carried out according to the requirement of a tested product, the height of the heating lower module 3 can be adjusted through screwing the height adjusting screw rod, the height can also be adjusted through replacing the height of the heating installation base, the heating upper module can move the thermocouple device 46 through moving the thermocouple slider 45 in the sliding groove 43 of the thermocouple installation block 42, the thermocouple device is clamped into the limiting hole 47 through the first limiting screw and is fixed on the adjusting sliding groove 44 of the thermocouple installation block 42, the position adjustment is carried out, after the adjustment is carried out, the heating upper module is driven to be pressed downwards through the double-shaft cylinder, and the thermocouple device is pressed on the product, similarly, the heat dissipation end of the product is placed on a heat dissipation placing groove of a heat dissipation copper block of a heat dissipation device, a heat dissipation upper module is driven by a heat dissipation double-shaft cylinder to press a thermocouple onto the product, the heat dissipation upper module can slide a thermocouple passing block 53 on a U-shaped sliding block 52, the thermocouple passing block 53 is provided with a passing block fixing hole corresponding to an adjusting groove of the thermocouple passing block 53, the thermocouple passing block 53 passes through the thermocouple passing block adjusting groove by a second limiting screw and is clamped into the passing block fixing hole to be fixed on a heat dissipation upper mounting plate, so that the thermocouple position of the heat dissipation upper module is adjusted, a heating device heats through a connected electric heating rod 35, the thermocouple device transmits the detected temperature to an automatic detection system, a water interface and a heat dissipation copper block water jacket on the heat dissipation device are respectively communicated with a water circulation system, and the heat dissipation copper block is cooled by the water circulation system, and data are transmitted to an automatic detection system through a thermocouple, the automatic detection system and the water circulation system are both in the prior art, the automatic detection system carries out calculation and test according to the data detected by the heating device and the heat dissipation device, and the automatic detection system can control the heating device and the heat dissipation device according to the product test requirements.

The invention has the advantages that compared with the prior art

1. According to the invention, the original single-shaft cylinder is modified into the double-shaft cylinder, and the original three-shaft cylinder is modified into the double-shaft cylinder, so that the stability is not influenced, the price of accessories is reduced, and the stability of the whole equipment is improved;

2. the heating device is additionally provided with a device capable of adjusting the height, and is provided with a stable guiding function, so that the equipment is improved;

3. the heating device and the heat dissipation device change the original fixing of the thermocouple temperature sensing device into multidirectional adjustment, so that the flexibility of the position adjustment of the temperature sensing device is improved; 4. the design of the copper block is changed, the semi-circles with different sizes and the planes with different widths are added,

the utility model is suitable for different products with different shapes and is convenient to replace;

5. the heating device and the heat dissipation device are fixed through the magnetic base, and can be adjusted in position according to different product shapes, so that the matching condition with different products is achieved, and the utilization rate of the products is greatly improved;

6. the heat dissipation mode is changed from the original air cooling heat dissipation mode to the water cooling heat dissipation mode, so that the cost is greatly reduced, the cooling effect of the product is improved, and the time is saved;

7. the invention ensures that the manufacturing cost is not obviously different from the cost of the existing testing device, the use cost is reduced by 80 percent compared with the original cost, the universality of the testing device can be suitable for the efficiency test of 95 percent of the specification of the heat pipe at present, extremely fragile heat dissipation device accessories such as fins, fans and the like are not needed, the accessory loss in later use is greatly reduced, the service life of the device is prolonged by 90 percent compared with the original testing device, the device adjusting time and speed during specification replacement are greatly shortened, the original condition that 2 technicians are needed to be worn for each class to adjust each class is only needed to be met, the stability of the device is high, the product defect identification degree is high, the productivity is improved by 10 percent, the practicability is flexible, the required number of performance devices is reduced, the input number of the device is reduced, the cost is saved, and the device has multifunctionality and universality, greatly improving the utilization rate of the equipment, thereby achieving the advantages of improving the productivity, reducing the cost and the like.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.