CN102734960A - Device for filling super heat transfer and conduction medium into solar heat collection pipe - Google Patents

Abstract

The invention discloses a device for filling a super heat transfer and conduction medium into a solar heat collection pipe. The device comprises a controller, a low negative pressure suction pump, a high negative pressure suction pump, rubber pipes, a suction main pipe, suction branch pipes, an air bleed valve, injectors and stop valves; the low negative pressure suction pump is connected with the high negative pressure suction pump; the suction main pipe connected onto the high negative pressure suction pump is connected with each suction branch pipe; each suction branch pipe is connected with the air bleed valve on the heat collection pipe by one section of rubber pipe; the stop valves are arranged on the suction branch pipes; the injectors are connected on the rubber pipes; and the low negative pressure suction pump and the high negative pressure suction pump are respectively connected with the controller. The equipment is simple in structure, convenient to operate and particularly suitable for the industrial and operational production.

Description

A kind of solar energy heat collection pipe filling super conducting heat transfer medium device

Technical field

The present invention relates to a kind of solar energy heat collection pipe production equipment, relate in particular to a kind of special equipment to thermal-arrest casing pack super conducting heat transfer medium.

Background technology

Traditional direct insertion all-glass vacuum thermal-collecting tube water heater comprises vacuum heat collection pipe and attemperater, and vacuum heat collection pipe inserts in the attemperater; The high-absorbility and the low-launch-rate that utilize vacuum heat collection pipe to have convert the solar radiation that absorbs to heat energy, utilize cold water than great; The characteristics that hot water proportion is little form cold water from top to bottom, hot water Natural Circulation from bottom to top in vacuum tube; The temperature of whole water is progressively raise, reach certain temperature.But thisly utilize water the mode with the temperature that improves water of in vacuum heat collection pipe, circulating to exist to be easy to generate incrustation scale, slow problem heats up.

For addressing this problem, my company has released a kind of novel vacuum heat collection pipe, and this novel heat collecting pipe comprises endothermic section and heat exchange portion; The endothermic section comprises inner glass tube and outer glass pipe, is evacuated between the inside and outside glass tube, and the endothermic section is a single-glass pipe; Endothermic section and heat exchange portion respectively are provided with a cecum and openend, and cecum is provided with the blast pipe that vacuumizes usefulness, and the openend sealing by fusing of endothermic section and heat exchange portion together; Be evacuated in the confined space of its formation and an amount of super conducting heat transfer medium of filling, at present, generally adopt bottle placer filling super conducting heat transfer medium in vacuum tube; This method exists equipment investment big, the problem of complicated operation.

Summary of the invention

The objective of the invention is provides a kind of simple to operate to existing problem to the existence of vacuum casing pack super conducting heat transfer medium, and filling is accurate, invests little solar energy heat collection pipe filling super conducting heat transfer medium device.

The objective of the invention is to realize through following technical scheme; This solar energy heat collection pipe filling super conducting heat transfer medium device comprises controller, lower negative pressure suction pump, high negative pressure suction pump, rubber tube, the suction person in charge, suction arm, exhaust nozzle, syringe, stop valve; Said lower negative pressure suction pump links to each other with the high negative pressure suction pump; The said suction that is connected in the high negative pressure suction pump is responsible for each suction arm and is linked to each other; Said each suction arm is tightly connected through the exhaust nozzle on one section rubber tube and the thermal-collecting tube; Said suction arm is provided with stop valve, is connected with syringe on the said rubber tube, and said lower negative pressure suction pump, high negative pressure suction pump link to each other with controller respectively.

During work, open the stop valve on the suction arm, open the lower negative pressure suction pump through controller; With being pumped into the lower negative pressure state in the thermal-collecting tube, and then open the high negative pressure suction pump, continue being pumped into the high negative pressure state in the thermal-collecting tube; When reaching the negative pressure that needs in the thermal-collecting tube, close the stop valve on the suction arm, in thermal-collecting tube, charge into super conducting heat transfer medium with syringe through rubber tube; At this moment, owing to be vacuum in the thermal-collecting tube, super conducting heat transfer medium is easy to fall the bottom of thermal-collecting tube; Behind the intact super conducting heat transfer medium of filling, the exhaust nozzle place below rubber tube takes traditional hot melt encapsulating method to seal to get final product.

Beneficial effect of the present invention: this device structure is simple, and is easy to operate, and production is already changed in the work that is particularly suitable for.

Description of drawings

Specify embodiments of the invention below in conjunction with accompanying drawing

Fig. 1 is a sketch map of the present invention

Among the figure: 1, controller 2, lower negative pressure aspirator 3, high negative pressure aspirator 4, rubber tube 5, suction are responsible for 6, are aspirated arm 7, exhaust nozzle 8, syringe 9, stop valve 10, thermal-collecting tube

The specific embodiment

As shown in Figure 1; This solar energy heat collection pipe filling super conducting heat transfer medium device comprises controller 1, lower negative pressure suction pump 2, high negative pressure suction pump 3, rubber tube 4, the suction person in charge 5, suction arm 6, exhaust nozzle 7, syringe 8, stop valve 9, and lower negative pressure suction pump 2 links to each other with high negative pressure suction pump 3, and the suction person in charge 5 who is connected in the high negative pressure suction pump 3 links to each other with each suction arm 6; Each suction arm 6 is tightly connected through the exhaust nozzle 7 on one section rubber tube 4 and the thermal-collecting tube 10; Be tightly connected for ease, exhaust nozzle 7 upwards forms an elongated segment pipe, and the diameter of rubber tube 4 is greater than the diameter of suction arm 6 and exhaust nozzle 7; Be that the prolongation seal of tube that rubber tube 4 will aspirate arm 6 and exhaust nozzle 7 through the mode of socket links together; Because rubber tube 4 has elasticity, both can be connected and sealed easily, behind the intact super conducting heat transfer medium of filling; Can break away from easily again; Suction arm 6 is provided with stop valve 9, is connected with syringe 8 on the rubber tube 4, and lower negative pressure suction pump 2, high negative pressure suction pump 3 link to each other with controller 1 respectively.

During work, open the stop valve 9 on the suction arm 6, open lower negative pressure suction pump 2 through controller 1; With being pumped into the lower negative pressure state in the thermal-collecting tube 10, and then open high negative pressure suction pump 3, continue being pumped into the high negative pressure state in the thermal-collecting tube 10; When reaching the negative pressure that needs in the thermal-collecting tube 10, close the stop valve 9 on the suction arm 6, thrust in the rubber tube 4 with syringe 8 syringe needles and in thermal-collecting tube 10, charge into super conducting heat transfer medium; Charged into extract syringe needle behind the super conducting heat transfer medium after, pin hole is automatic airtight under rubber tube 4 flexible effects, at this moment; Because in the thermal-collecting tube is vacuum; Super conducting heat transfer medium is easy to fall the bottom of thermal-collecting tube, behind the intact super conducting heat transfer medium of filling, takes traditional hot melt encapsulating method to seal at exhaust nozzle 7 places of rubber tube below 4 and gets final product.

Claims (3)

1. solar energy heat collection pipe filling super conducting heat transfer medium device; It is characterized in that this device comprises controller, lower negative pressure suction pump, high negative pressure suction pump, rubber tube, the suction person in charge, suction arm, exhaust nozzle, syringe, stop valve; Said lower negative pressure suction pump links to each other with the high negative pressure suction pump; The said suction that is connected in the high negative pressure suction pump is responsible for each suction arm and is linked to each other, and said each suction arm is tightly connected through the exhaust nozzle on one section rubber tube and the thermal-collecting tube, and said suction arm is provided with stop valve; Be connected with syringe on the said rubber tube, said lower negative pressure suction pump, high negative pressure suction pump link to each other with controller respectively.

2. a kind of solar energy heat collection pipe filling super conducting heat transfer medium device according to claim 1 is characterized in that exhaust nozzle upwards forms an elongated segment pipe.

3. a kind of solar energy heat collection pipe filling super conducting heat transfer medium device according to claim 1; The diameter that it is characterized in that rubber tube prolongs the diameter of managing greater than on suction arm and the exhaust nozzle, and promptly the rubber tube prolongation seal of tube that will aspirate arm and exhaust nozzle through the mode of socket links together.

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