CN205537259U - Production superconductive heat radiator uses vacuum connecting device - Google Patents
Production superconductive heat radiator uses vacuum connecting device Download PDFInfo
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- CN205537259U CN205537259U CN201620375285.1U CN201620375285U CN205537259U CN 205537259 U CN205537259 U CN 205537259U CN 201620375285 U CN201620375285 U CN 201620375285U CN 205537259 U CN205537259 U CN 205537259U
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- magnetic force
- gun body
- beadlet
- force cylinder
- production
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Abstract
The utility model provides a production superconductive heat radiator uses vacuum connecting device. 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. A production superconductive heat radiator uses vacuum connecting device which constitutes and includes: the rifle body, the front end of the rifle body (15) has fast joint (1) be connected with the radiator, and the front portion of the rifle body has liquid suction port (3) and sensor interface (2) be connected with the vacuum line, and the inside that the rifle was personally experienced sth. Part of the body has closed colloid (4), and the inside of the rifle body has the needle guns passageway, and the needle guns passageway runs through the rifle body simultaneously and seals the colloid, and the rear portion of the rifle body has bead passageway and bead clamp, has needle guns (7) in the needle guns passageway, and needle guns's rear portion is connected on magnetic force cylinderpiston (8). The utility model discloses be applied to superconductive heat radiator processing field, be applied to production superconductive heat radiator uses vacuum connecting device very much.
Description
Technical field:
This utility model relates to superconducting radiator manufacture field, particularly relates to a kind of production superconducting radiator vacuum connection.
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, and special special antirust heating agent multiple tube and the hot antifreeze efficient heat transfer complex media (superconducting fluid) of speed etc. form;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 heat transfer efficiency considerable influence, the appearance of a kind of vacuum connection to solve heating agent and are combined mouth of pipe problem of self-closed on the premise of ensureing vacuum precision.
Summary of the invention:
The purpose of this utility model is to provide a kind of production superconducting radiator vacuum connection.
Above-mentioned purpose is realized by following technical scheme:
A kind of production superconducting radiator vacuum connection, its composition includes: gun body, the front end of described gun body has the fast joint being connected with radiator, the front portion of described gun body has the liquid sucting port and sensor interface being connected with vacuum line, the inside of described gun body has closing colloid, the inside of described gun body has rifle needle passageway, described rifle needle passageway runs through gun body simultaneously and closes colloid, the rear portion of described gun body has beadlet passage and beadlet folder, having rifle pin in described rifle needle passageway, the rear portion of described rifle pin is connected on magnetic force cylinder piston.
Described production superconducting radiator vacuum connection, described liquid sucting port is connected with rifle needle passageway, described sensor interface connects pressure transducer, described beadlet folder includes beadlet clamp, beadlet folder end cap, spring and beadlet, described magnetic force cylinder piston is arranged on magnetic force cylinder interior, has positioned magnetic block outside described magnetic force cylinder.
Described production superconducting radiator vacuum connection, described gun body is connected on base plate by connecting seat, and described magnetic force cylinder is also connected on base plate.
Described production superconducting radiator vacuum connection, described vacuum connection has control chamber, inside described control chamber, there is microcomputer controller, described microcomputer controller circuit connects pressure transducer and electromagnetic valve, described pressure sensor circuit connects vacuum pump and electromagnetic valve, and described electromagnetic valve circuit connects magnetic force cylinder.
The described operational approach producing superconducting radiator vacuum connection, the described operating procedure producing superconducting radiator vacuum connection is: (
1
) radiator is fixed on equipment, and radiator is connected on vacuum connection by hydraulic quick coupler;(
2
) open vacuum connection control chamber, adjust control chamber data input pin set desired data, the radiator rating of vacuum sealing operation to be carried out is set;(
3
) run working procedure by the micro computer in control chamber, 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, (
4
) through sensor signal export, micro computer in control chamber 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;(
4
) reach when the vacuum of pipeline interior volume
0.65 ~ 0.75 Pa
Time, running working procedure by micro computer in control chamber, 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;(
5
) run working procedure by the micro computer in control chamber, first make closed electromagnetic valve by the program set, make vacuum pump and magnetic force cylinder quit work;(
6
) run working procedure by the micro computer in control chamber, make vacuum pump and the valve opening of magnetic force cylinder, bonding in vacuum locking device work process terminate.
The beneficial effects of the utility model:
1.
Vacuum connection of the present utility model, simple in construction, flexible and convenient operation, by vacuum connection, the vacuum of the heating agent multiple tube after the fill of heat-transfer working medium (superconducting fluid) is ensured, make the vacuum precision of heating agent multiple tube be improved.
Vacuum connection of the present utility model, uses micro computer integrated circuit to control electromagnetic valve, and then control magnetic force cylinder carries out secondary work;For the first time beadlet is advanced in sealed colloid, after its vacuum precision reaches design requirement, cylinder second time work, beadlet is released by outer for the heating agent multiple tube in radiator small opening closing.
Vacuum connection of the present utility model, have employed magnetic force cylinder and is adjusted duty, utilizes the method for peripheral hardware positioned magnetic block to be adjusted the stroke of magnetic force cylinder, it is ensured that the sealed precision of beadlet and intensity, preferably improves product quality.
Vacuum connection of the present utility model, is merged by two assemblies and forms, built-in special closed material, and under duty, beadlet plays two effects in adapter:
1
, play closing function at end and cause sensor that the vacuum data of radiator, pressure data, temperature data are shown on screen, observed by be allowed operator;
2
, accurately opened cylinder by computer through Parameter analysis, complete closed process.
Accompanying drawing illustrates:
Accompanying drawing
1
It it is structural representation of the present utility model.
In figure:
1
Fast joint;
2
Sensor interface;
3
Liquid sucting port;
4
Close colloid;
5
Beadlet folder end cap;
6
Beadlet clamp;
7
Rifle pin;
8
Magnetic force cylinder piston;
9
Magnetic force cylinder;
10
Positioned magnetic block;
11
Spring;
12
Beadlet;
13
Base plate;
14
Connect seat;
15
Gun body;
Detailed description of the invention:
Embodiment
1
:
A kind of production superconducting radiator vacuum connection, its composition includes: gun body, described gun body
15
Front end there is the fast joint being connected with radiator
1
, the front portion of described gun body has the liquid sucting port being connected with vacuum line
3
And sensor interface
2
, the inside of described gun body has closing colloid
4
, the inside of described gun body has rifle needle passageway, and described rifle needle passageway runs through gun body simultaneously and closes colloid, and the rear portion of described gun body has beadlet passage and beadlet folder, has rifle pin in described rifle needle passageway
7
, the rear portion of described rifle pin is connected to magnetic force cylinder piston
8
On.
Embodiment
2
:
2.
According to embodiment
1
Described production superconducting radiator vacuum connection, described liquid sucting port is connected with rifle needle passageway, and described sensor interface connects pressure transducer, and described beadlet folder includes beadlet clamp
6
, beadlet folder end cap
5
, spring
11
And beadlet
12
, described magnetic force cylinder piston is arranged on magnetic force cylinder
9
Inside, has positioned magnetic block outside described magnetic force cylinder
10
。
Embodiment
3
:
According to embodiment
2
Described production superconducting radiator vacuum connection, described gun body is by connecting seat
14
It is connected to base plate
13
On, described magnetic force cylinder is also connected on base plate.
Embodiment
4
:
According to embodiment
2
Described production superconducting radiator vacuum connection, described vacuum connection has control chamber, inside described control chamber, there is microcomputer controller, described microcomputer controller circuit connects pressure transducer and electromagnetic valve, described pressure sensor circuit connects vacuum pump and electromagnetic valve, and described electromagnetic valve circuit connects magnetic force cylinder.
Embodiment
5
:
One utilizes embodiment
1
Extremely
4
The described operational approach producing superconducting radiator vacuum connection, the described operating procedure producing superconducting radiator vacuum connection is: (
1
) radiator is fixed on equipment, and radiator is connected on vacuum connection by hydraulic quick coupler;(
2
) open vacuum connection control chamber, adjust control chamber data input pin set desired data, the radiator rating of vacuum sealing operation to be carried out is set;(
3
) run working procedure by the micro computer in control chamber, 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, (
4
) through sensor signal export, micro computer in control chamber 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;(
4
) reach when the vacuum of pipeline interior volume
0.65 ~ 0.75 Pa
Time, running working procedure by micro computer in control chamber, 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;(
5
) run working procedure by the micro computer in control chamber, first make closed electromagnetic valve by the program set, make vacuum pump and magnetic force cylinder quit work;(
6
) run working procedure by the micro computer in control chamber, make vacuum pump and the valve opening of magnetic force cylinder, bonding in vacuum locking device work process terminate.
Claims (4)
1. one kind produces superconducting radiator vacuum connection, its composition includes: gun body, it is characterized in that: the front end of described gun body has the fast joint being connected with radiator, the front portion of described gun body has the liquid sucting port and sensor interface being connected with vacuum line, the inside of described gun body has closing colloid, the inside of described gun body has rifle needle passageway, described rifle needle passageway runs through gun body simultaneously and closes colloid, the rear portion of described gun body has beadlet passage and beadlet folder, in described rifle needle passageway, there is rifle pin, the rear portion of described rifle pin is connected on magnetic force cylinder piston.
Production superconducting radiator vacuum connection the most according to claim 1, it is characterized in that: described liquid sucting port is connected with rifle needle passageway, described sensor interface connects pressure transducer, described beadlet folder includes beadlet clamp, beadlet folder end cap, spring and beadlet, described magnetic force cylinder piston is arranged on magnetic force cylinder interior, has positioned magnetic block outside described magnetic force cylinder.
Production superconducting radiator vacuum connection the most according to claim 2, is characterized in that: described gun body is connected on base plate by connecting seat, and described magnetic force cylinder is also connected on base plate.
Production superconducting radiator vacuum connection the most according to claim 2, it is characterized in that: described vacuum connection has control chamber, inside described control chamber, there is microcomputer controller, described microcomputer controller circuit connects pressure transducer and electromagnetic valve, described pressure sensor circuit connects vacuum pump and electromagnetic valve, and described electromagnetic valve circuit connects magnetic force cylinder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620375285.1U CN205537259U (en) | 2016-04-28 | 2016-04-28 | Production superconductive heat radiator uses vacuum connecting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620375285.1U CN205537259U (en) | 2016-04-28 | 2016-04-28 | Production superconductive heat radiator uses vacuum connecting device |
Publications (1)
Publication Number | Publication Date |
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CN205537259U true CN205537259U (en) | 2016-08-31 |
Family
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CN201620375285.1U Expired - Fee Related CN205537259U (en) | 2016-04-28 | 2016-04-28 | Production superconductive heat radiator uses vacuum connecting device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI602976B (en) * | 2016-12-15 | 2017-10-21 | Green building |
-
2016
- 2016-04-28 CN CN201620375285.1U patent/CN205537259U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI602976B (en) * | 2016-12-15 | 2017-10-21 | Green building |
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Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160831 Termination date: 20180428 |
|
CF01 | Termination of patent right due to non-payment of annual fee |