CN205537260U - Integrative process equipment for superconductive heat radiator - Google Patents

Abstract

The utility model provides an integrative process equipment for superconductive heat radiator. Manual work is adopted in traditional superconductive heat radiator processing always, hardly masters the precision of each process, and the product quality who produces is unable to be guaranteed, can't carry out batch production. An integrative process equipment for superconductive heat radiator which constitutes and includes: a lower guide rail, lower guideway (11) are gone up one side and are installed stationary mast (3), slip stand (20) are installed to the opposite side, install bottom plate A (10) in stationary mast's lower part, mounting plate A (6) are installed on stationary mast's upper portion, bottom plate B (28) are installed to the lower part of slip stand, mounting plate B (21) are installed on the upper portion of slip stand, mounting plate A and mounting plate B have upper and lower guiding mechanism, mounting plate B and bottom plate B have horizontal fine -tuning. The utility model discloses be applied to superconductive heat radiator processing field, be applied to integrative process equipment for superconductive heat radiator very much.

Description

Superconducting radiator is with being integrally machined equipment

Technical field:

This utility model relates to superconducting radiator manufacture field, particularly relates to a kind of superconducting radiator with being integrally machined equipment.

Background technology:

North of china in winter heating at present, the commonly used heating installation with water as heat-transfer working medium, the heat-transfer working medium of this radiator is to circulate under elevated pressure, have that heat transfer efficiency is low, power consumption is high and the defect such as Thermal Conduction Equipment rapid wear, and superconducting radiator is based on superconductive medium phase-change heat transfer principle, it is mainly by the fine vacuum main body of radiator, special special antirust heating agent multiple tube and the hot antifreeze efficient heat transfer complex media of speed ( Superconducting fluid ) Deng composition；Replace traditional water with efficient heat-conducting medium superconducting fluid, utilize superconducting fluid brand-new operation principle of circulating heat transfer in the pipeline of vacuum sealing, be truly realized water-saving energy-conservation, antifreeze anti-corrosion, brand-new heating simple and direct, maintenance-free is installed；Traditional superconducting radiator produces and has been used up manual work, it is difficult to grasp the degree of accuracy of each production process, the product quality produced cannot ensure, the heat-transfer working medium of submergence heating inner tube it is filled with in superconductive radiating case, and the vacuum in the kind of heat-transfer working medium, loading and vacuum superconductive radiator, there are considerable influence, a kind of appearance being integrally machined equipment to solve this problem to heat transfer efficiency.

Summary of the invention:

The purpose of this utility model is to provide a kind of superconducting radiator with being integrally machined equipment.

Above-mentioned purpose is realized by following technical scheme:

A kind of superconducting radiator is with being integrally machined equipment, and its composition includes: lower guideway, and on described lower guideway, side is provided with vertical columns, and opposite side is provided with slip column, is provided with bottom plate in the bottom of described vertical columns A , the top of described vertical columns is provided with mounting plate A , the bottom of described slip column is provided with bottom plate B , the top of described slip column is provided with mounting plate B , described mounting plate A And mounting plate B There is upper and lower guiding mechanism, described mounting plate B And bottom plate B There is transverse micro-adjustment mechanism.

Described superconducting radiator is with being integrally machined equipment, and described vertical columns is connected on lower guideway by pedestal securing member, at described vertical columns bottom plate A Upper connection has 1~2 Individual the next cylinder, described the next cylinder drives fast joint by push rod, passes through connecting tube between described fast joint A Being connected with each other, described fast joint is connected to connecting tube A Both sides, described connecting tube A Having intake-outlet, described intake-outlet is connected with electric boiler.

Described superconducting radiator is with being integrally machined equipment, and described vertical columns upper end has height adjusting support plate, and described height adjusting support plate has been dynamically connected adjustment handle A , described adjustment handle A Connecting height adjusting screw rod, described height adjusting screw rod passes mounting plate A , contiguous block A And gripper shoe, described mounting plate A Also it is slidably connected with vertical columns, described mounting plate A Upper connection has 1~2 Individual pressurized cylinder, described pressurized cylinder is connected with air compressor by pipeline, and described pressurized cylinder drives fast joint by push rod respectively.

Described superconducting radiator is with being integrally machined equipment, at described slip column bottom plate B Upper connection has 1~2 Individual fast joint, described fast joint passes through connecting tube B Link together, described connecting tube B Being connected to laterally finely tune on screw rod, described laterally fine setting screw rod passes through contiguous block B With regulation handle B Connect, and fastened by locking nut.

Described superconducting radiator is with being integrally machined equipment, and described slip column upper end has height adjusting support plate equally, and described height adjusting support plate has been dynamically connected adjustment handle A , described adjustment handle A Connecting height adjusting screw rod, described height adjusting screw rod passes mounting plate B , contiguous block B And gripper shoe, described mounting plate B Also it is slidably connected with slip column, described mounting plate B Upper connection has 1~2 Beadlet gun body, the front end of described beadlet gun body has fast joint, in described beadlet gun body, also there is the pipeline being connected with vacuum pump, the top of described each gun body has beadlet folder, described each beadlet gun body rear portion connects magnetic force cylinder, described magnetic force cylinder upper outer surface has magnetic force block, and described magnetic force cylinder interior has piston and rifle pin.

Described superconducting radiator, with being integrally machined equipment, connects between described lower guideway and has guide rail splice.

The described superconducting radiator processing using method of the equipment that is integrally machined, its step is the first step: quantitative filling: i.e. ( a ) radiator is fixed on equipment, and radiator is connected on fill proportioning device by hydraulic quick coupler；( b ) open and be integrally machined the control panel of equipment, adjusting control panel data input pin and set desired data, the consumption of the radiator rating to institute's fill and the superconducting fluid corresponding to institute's fill capacity is set；( c ) run working procedure by the micro computer in control panel, first make solenoid valve conduction by the program after setting, make vacuum pump start working, carry out evacuation process to being connected, by vacuum pump, radiator and batcher, the internal duct space formed；( d ) reach when the vacuum of pipeline interior volume 0.65 ~ 0.75 Pa Time, run working procedure by the micro computer in control panel, make the dosing pump in batcher start working, according to radiator post number, press 30 ~ 40g / The capacity of post, by heat-transfer working medium (superconducting fluid) dose in medium tank to capacity cylinder；( e ) run working procedure by the micro computer in control panel, first make closed electromagnetic valve by the program after setting, make vacuum pump quit work；( f ) run working procedure by the micro computer in control panel, make the valve opening of capacity cylinder, make heat-transfer working medium (superconducting fluid) be drawn in radiator, opens solenoid valve, close vacuum line, imbibition process terminates；Second step: bonding in vacuum: ( a ) adjust control panel data input pin setting desired data, the radiator rating of vacuum sealing operation to be carried out is set；( b ) run working procedure by the micro computer in control panel, first make solenoid valve conduction by the program after setting, make magnetic force cylinder start action, the result of magnetic force cylinder action makes rifle pin promote beadlet to move forward to close the middle part of colloid, ( c ) through sensor signal export, micro computer in control panel runs corresponding working procedure, by the program after setting in the case of gas circuit is completely enclosed, make solenoid valve conduction, make vacuum pump start working, carry out evacuation process to being connected, by vacuum pump, radiator and beadlet folder, the internal duct space formed；( d ) reach when the vacuum of pipeline interior volume 0.65 ~ 0.75 Pa Time, running working procedure by micro computer in control panel, make magnetic force cylinder start again at work, the beadlet that will be present in closing in colloid rifle needle passageway is propelled in radiator at heating agent multiple tube mouth by rifle needle passageway, and heating agent is combined mouth of pipe closing；( e ) run working procedure by the micro computer in control panel, first make closed electromagnetic valve by the program set, make vacuum pump and magnetic force cylinder quit work；3rd step: performance detects: ( a ) radiator is connected on water circulation pipe by pipeline；( b ) adjust control panel data input pin and set desired data, the capacity of the radiator of performance detection to be carried out and the discharge of passed through radiator and water temperature are set；( 3 ) open electric boiler add the water in pipe line and boiler；( 4 ) run working procedure by the micro computer in control panel, first make solenoid valve conduction by the program after setting, make circulating pump start action, the action of circulating pump make in pipeline water start the cycle over flowing；( 5 ) through pressure and temperature sensor signal export, micro computer in control chamber runs corresponding working procedure, by the program after setting in the case of pipeline is completely enclosed, make solenoid valve conduction, make circulating pump work, carry out a liter gentle raising flow process to being connected, by pipeline, circulating pump and electric boiler, the pipeline space formed；( 6 ) when the water temperature of pipeline interior volume is gradually increasing by low temperature, improves sensing data display on control chamber and observe the startup situation of heat-transfer working medium (superconducting fluid), when temperature from 30~45 When DEG C gradually rising, heat-transfer working medium (superconducting fluid) should gradually start or even be gasified totally, when temperature from from 45~75 When DEG C gradually rising, the rising of water temperature rises should be directly proportional to the temperature of heat-transfer working medium (superconducting fluid)；( 7 ) run working procedure by the micro computer in control panel, first make closed electromagnetic valve by the program set, make circulating pump quit work；( 8 ) run working procedure by the micro computer in control chamber, make the valve opening that pressure transducer and temperature sensor disconnect, device for detecting performance work process terminates, and cylinder all unlocks end-of-job.

The beneficial effects of the utility model:

1. Of the present utility model it is integrally machined equipment, " being integrally machined equipment " mode of employing, positive and negative pressure force transducer, temperature sensor and the flow transducer in each portion of coupling apparatus, control to press production stage by computer, by the control to a series of production process such as the vacuum of product, boosting, speed row, blood pressure lowering, locking, the quality making product is significantly improved, and the qualification rate, the labor intensity alleviating operator that improve product, improves productivity ratio.

Of the present utility model it is integrally machined equipment, use integrated full-automatic unit, utilize integrated circuit based on microcomputerized control chip, use and each operation is preset operation routine, and can be according to actually used situation, adjusting and change sets the mode exported, the work in portion each to complete machine coordinates control.

The equipment that is integrally machined of the present utility model, uses and quantitative filling system, bonding in vacuum system and performance detecting system is carried out system combination, effectively control each key link in the radiator course of processing, and then improves the quality of product further.

Of the present utility model it is integrally machined equipment, it is uniformly controlled each sensor by microcomputer chip circuit, by each sensor, signal passed to quantitative unit, pressure signal is passed to electromagnetic valve, temperature signal is passed to the time relay, with the unlatching of pressure signal change commander's electromagnetic valve, temperature signal change commander's discharge capacity electromagnetic valve, the pressure spot of final pressure electromagnetic valve is the closing steel ball in terminal control adapter, makes the concordance of the total quality of radiator be strengthened.

Accompanying drawing illustrates:

Accompanying drawing 1 It it is the structural representation being integrally machined equipment of the present utility model.

Accompanying drawing 2 It it is the structure schematic side view being integrally machined equipment of the present utility model.

Accompanying drawing 3 It it is the structure being integrally machined equipment of the present utility model A-A To top view.

Accompanying drawing 4 It it is the structure being integrally machined equipment of the present utility model B-B To schematic diagram.

Accompanying drawing 5 It it is the structure being integrally machined equipment of the present utility model C-C To schematic diagram.

In figure: 1 Height adjusting screw rod； 2 Adjust handle A ； 3 Vertical columns； 4 Pipeline； 5 Pressurized cylinder； 6 Mounting plate A ； 7 Contiguous block A ； 8 Pedestal securing member； 9 The next cylinder； 10 Bottom plate A ； 11 Lower guideway； 12 Fast joint； 13 Height adjusting support plate； 14 Beadlet presss from both sides； 15 Contiguous block B ； 16 Magnetic force cylinder； 17 Magnetic force block； 18 Piston； 19 Beadlet gun body； 20 Slip column； 21 Mounting plate B ； 22 Connecting tube A ； 23 Guide rail splice； 24 Lateral adjustments contiguous block； 25 Lateral adjustments screw rod； 26 Regulation handle B ； 27 Locking nut； 28 Bottom plate B ； 29 Connecting tube B ； 30 Intake-outlet；

Detailed description of the invention:

Embodiment 1 :

A kind of superconducting radiator is with being integrally machined equipment, and its composition includes: lower guideway, described lower guideway 11 Upper side is provided with vertical columns 3 , opposite side is provided with slip column 20 , in the bottom of described vertical columns, bottom plate is installed A 10 , the top of described vertical columns is provided with mounting plate A 6 , the bottom of described slip column is provided with bottom plate B 28 , the top of described slip column is provided with mounting plate B 21 , described mounting plate A And mounting plate B There is upper and lower guiding mechanism, described mounting plate B And bottom plate B There is transverse micro-adjustment mechanism.

Embodiment 2 :

According to embodiment 1 Described superconducting radiator is with being integrally machined equipment, and described vertical columns passes through pedestal securing member 8 It is connected on lower guideway, at described vertical columns bottom plate A Upper connection has 1~2 Individual the next cylinder 9 , described the next cylinder drives fast joint by push rod 12 , between described fast joint, pass through connecting tube A 22 Being connected with each other, described fast joint is connected to connecting tube A Both sides, described connecting tube A There is intake-outlet 30 。

Embodiment 3 :

According to embodiment 1 Described superconducting radiator is with being integrally machined equipment, and described vertical columns upper end has height adjusting support plate 13 , described height adjusting support plate has been dynamically connected adjustment handle A 2 , described adjustment handle A Connect height adjusting screw rod 1 , described height adjusting screw rod passes mounting plate A , contiguous block A 7 And gripper shoe, described mounting plate A Also it is slidably connected with vertical columns, described mounting plate A Upper connection has 1~2 Individual pressurized cylinder 5 , described pressurized cylinder passes through pipeline 4 Being connected with air compressor, described pressurized cylinder drives fast joint by push rod respectively.

Embodiment 4 :

According to embodiment 1 Described superconducting radiator is with being integrally machined equipment, at described slip column bottom plate B Upper connection has 1~2 Individual fast joint, described fast joint passes through connecting tube B 29 Link together, described connecting tube B It is connected to laterally finely tune screw rod 25 On, described laterally fine setting screw rod passes through contiguous block B 24 With regulation handle B 26 Connect, and pass through locking nut 27 Fastening.

Embodiment 5 :

According to embodiment 1 Described superconducting radiator is with being integrally machined equipment, and described slip column upper end has height adjusting support plate equally, and described height adjusting support plate has been dynamically connected adjustment handle A , described adjustment handle A Connecting height adjusting screw rod, described height adjusting screw rod passes mounting plate B , contiguous block B 15 And gripper shoe, described mounting plate B Also it is slidably connected with slip column, described mounting plate B Upper connection has 1~2 Beadlet gun body 19 , the front end of described beadlet gun body has fast joint, and described beadlet gun body also has the pipeline being connected with vacuum pump, and the top of described each gun body has beadlet folder 14 , described each beadlet gun body rear portion connects magnetic force cylinder 16 , described magnetic force cylinder upper outer surface has magnetic force block 17 , described magnetic force cylinder interior has piston 18 With rifle pin.

Embodiment 6 :

According to embodiment 1 Described superconducting radiator, with being integrally machined equipment, connects between described lower guideway and has guide rail splice 23 。

Embodiment 7 :

One utilizes embodiment 1 Extremely 6 Described superconducting radiator is with being integrally machined the processing using method of equipment, and described superconducting radiator is the first step with being integrally machined its step of processing using method of equipment: quantitative filling: i.e. ( a ) radiator is fixed on equipment, and radiator is connected on fill proportioning device by hydraulic quick coupler；( b ) open and be integrally machined the control panel of equipment, adjusting control panel data input pin and set desired data, the consumption of the radiator rating to institute's fill and the superconducting fluid corresponding to institute's fill capacity is set；( c ) run working procedure by the micro computer in control panel, first make solenoid valve conduction by the program after setting, make vacuum pump start working, carry out evacuation process to being connected, by vacuum pump, radiator and batcher, the internal duct space formed；( d ) reach when the vacuum of pipeline interior volume 0.65 ~ 0.75 Pa Time, run working procedure by the micro computer in control panel, make the dosing pump in batcher start working, according to radiator post number, press 30 ~ 40g / The capacity of post, by heat-transfer working medium (superconducting fluid) dose in medium tank to capacity cylinder；( e ) run working procedure by the micro computer in control panel, first make closed electromagnetic valve by the program after setting, make vacuum pump quit work；( f ) run working procedure by the micro computer in control panel, make the valve opening of capacity cylinder, make heat-transfer working medium (superconducting fluid) be drawn in radiator, opens solenoid valve, close vacuum line, imbibition process terminates；Second step: bonding in vacuum: ( a ) adjust control panel data input pin setting desired data, the radiator rating of vacuum sealing operation to be carried out is set；( b ) run working procedure by the micro computer in control panel, first make solenoid valve conduction by the program after setting, make magnetic force cylinder start action, the result of magnetic force cylinder action makes rifle pin promote beadlet to move forward to close the middle part of colloid, ( c ) through sensor signal export, micro computer in control panel runs corresponding working procedure, by the program after setting in the case of gas circuit is completely enclosed, make solenoid valve conduction, make vacuum pump start working, carry out evacuation process to being connected, by vacuum pump, radiator and beadlet folder, the internal duct space formed；( d ) reach when the vacuum of pipeline interior volume 0.65 ~ 0.75 Pa Time, running working procedure by micro computer in control panel, make magnetic force cylinder start again at work, the beadlet that will be present in closing in colloid rifle needle passageway is propelled in radiator at heating agent multiple tube mouth by rifle needle passageway, and heating agent is combined mouth of pipe closing；( e ) run working procedure by the micro computer in control panel, first make closed electromagnetic valve by the program set, make vacuum pump and magnetic force cylinder quit work；3rd step: performance detects: ( a ) radiator is connected on water circulation pipe by pipeline；( b ) adjust control panel data input pin and set desired data, the capacity of the radiator of performance detection to be carried out and the discharge of passed through radiator and water temperature are set；( 3 ) open electric boiler add the water in pipe line and boiler；( 4 ) run working procedure by the micro computer in control panel, first make solenoid valve conduction by the program after setting, make circulating pump start action, the action of circulating pump make in pipeline water start the cycle over flowing；( 5 ) through pressure and temperature sensor signal export, micro computer in control chamber runs corresponding working procedure, by the program after setting in the case of pipeline is completely enclosed, make solenoid valve conduction, make circulating pump work, carry out a liter gentle raising flow process to being connected, by pipeline, circulating pump and electric boiler, the pipeline space formed；( 6 ) when the water temperature of pipeline interior volume is gradually increasing by low temperature, improves sensing data display on control chamber and observe the startup situation of heat-transfer working medium (superconducting fluid), when temperature from 30~45 When DEG C gradually rising, heat-transfer working medium (superconducting fluid) should gradually start or even be gasified totally, when temperature from from 45~75 When DEG C gradually rising, the rising of water temperature rises should be directly proportional to the temperature of heat-transfer working medium (superconducting fluid)；( 7 ) run working procedure by the micro computer in control panel, first make closed electromagnetic valve by the program set, make circulating pump quit work；( 8 ) run working procedure by the micro computer in control chamber, make the valve opening that pressure transducer and temperature sensor disconnect, device for detecting performance work process terminates, and cylinder all unlocks end-of-job.

Claims (6)

1. a superconducting radiator is with being integrally machined equipment, its composition includes: lower guideway, it is characterized in that: on described lower guideway, side is provided with vertical columns, opposite side is provided with slip column, in the bottom of described vertical columns, bottom plate A is installed, the top of described vertical columns is provided with mounting plate A, the bottom of described slip column is provided with bottom plate B, the top of described slip column is provided with mounting plate B, described mounting plate A and mounting plate B has upper and lower guiding mechanism, and described mounting plate B and bottom plate B has transverse micro-adjustment mechanism.

Superconducting radiator the most according to claim 1 is with being integrally machined equipment, it is characterized in that: described vertical columns is connected on lower guideway by pedestal securing member, described vertical columns bottom plate A connects and has 1 ~ 2 the next cylinder, described the next cylinder drives fast joint by push rod, it is connected with each other by connecting tube A between described fast joint, described fast joint is connected to the both sides of connecting tube A, described connecting tube A has intake-outlet, and described intake-outlet is connected with electric boiler.

Superconducting radiator the most according to claim 1 is with being integrally machined equipment, it is characterized in that: described vertical columns upper end has height adjusting support plate, be dynamically connected on described height adjusting support plate adjustment handle A, described adjustment handle A connects height adjusting screw rod, described height adjusting screw rod passes mounting plate A, contiguous block A and gripper shoe, described mounting plate A is also slidably connected with vertical columns, on described mounting plate A, connection has 1 ~ 2 pressurized cylinder, described pressurized cylinder is connected with air compressor by pipeline, described pressurized cylinder drives fast joint by push rod respectively.

Superconducting radiator the most according to claim 1 is with being integrally machined equipment, it is characterized in that: connecting on described slip column bottom plate B has 1 ~ 2 fast joint, described fast joint is linked together by connecting tube B, described connecting tube B is connected to laterally finely tune on screw rod, described laterally fine setting screw rod is connected by contiguous block B and regulation handle B, and is fastened by locking nut.

Superconducting radiator the most according to claim 1 is with being integrally machined equipment, it is characterized in that: described slip column upper end has height adjusting support plate equally, be dynamically connected on described height adjusting support plate adjustment handle A, described adjustment handle A connects height adjusting screw rod, described height adjusting screw rod passes mounting plate B, contiguous block B and gripper shoe, described mounting plate B is also slidably connected with slip column, on described mounting plate B, connection has 1 ~ 2 beadlet gun body, the front end of described beadlet gun body has fast joint, in described beadlet gun body, also there is the pipeline being connected with vacuum pump, the top of described each gun body has beadlet folder, described each beadlet gun body rear portion connects magnetic force cylinder, described magnetic force cylinder upper outer surface has magnetic force block, described magnetic force cylinder interior has piston and rifle pin.

Superconducting radiator the most according to claim 1, with being integrally machined equipment, is characterized in that: connecting between described lower guideway has guide rail splice.