CN201273781Y

CN201273781Y - Double pipe superconduction heat radiator

Info

Publication number: CN201273781Y
Application number: CNU2009200183238U
Authority: CN
Inventors: 丁建东
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-01-16
Filing date: 2009-01-16
Publication date: 2009-07-15
Anticipated expiration: 2019-01-16

Abstract

The utility model discloses a double-sleeve superconducting radiator, which comprises an upper connecting pipe, a lower connecting pipe and a radiating pipe which is vertically arranged between the upper connecting pipe and the lower connecting pipe. The essential of the technical proposal is that the cavity of the lower connecting pipe is provided with an inner sleeve; a superconducting tube is arranged between the lower connecting pipe and the inner sleeve and is filled with superconducting liquid; the superconducting tube is communicated with the radiating pipe and the upper connecting pipe; and the lower connecting pipe is connected with the heat source pipe of a heat supply system through an interface. The utility model has the advantages of high temperature and rapid temperature rise. The speed of the temperature rise thereof is more than twice of the speed of the existing superconducting radiator. Moreover, the utility model can be started at the low temperature. The service life thereof is long. When being connected with a water heating system or solar heating system for use, the utility model is secure, reliable, efficient and energy-saving. The utility model can not be frozen at the minus 50 DEG C and is an ideal new generation of superconducting radiator.

Description

Two sleeve pipe superconducting radiators

Affiliated technical field

The utility model relates to the heat supply process field, and specifically a kind of superconductive medium that adopts carries out the heat abstractor that two bushing low-temperatures start.

Background technology

Existing thermal cycle radiator, major part is to adopt up and down two parallel transverse tubes and extended spread pipe coupled logical, and thermal medium is entered from a mouth of upper lateral tube, after the radiator inner loop, go out from the other end of offside lower transverse tubule, enter the systemic circulation of heating system.The heat abstractor of this inside and outside systemic circulation; owing to will will heat to system pipeline a large amount of water or oil; the distance that adds upper pipeline; heat energy loss is big; greatly reduce the utilization of the thermal efficiency; and heat for the medium of whole system, so the radiator programming rate is very slow, generally need just can make in 1.5～2 hours the normal heat supply of heating system.In order to improve the conducting effect of radiator, the superconducting fluid of in the radiator pipeline, annotating that has at present, but the boiling point of the superconductive medium of annotating is higher, and it is very slow therefore to heat up, and radiator temperature is also inhomogeneous.

Summary of the invention

In order to solve the deficiency that existing radiator structurally exists, the utility model provides a kind of thermal efficiency height, two sleeve pipe superconducting radiators that energy consumption is little.

The technical scheme that its technical problem that solves the utility model adopts is: this pair of sleeve pipe superconducting radiator, comprise connecting leg, following connecting leg and vertically arrange the radiating tube that is arranged between connecting leg and the following connecting leg, end at last connecting leg is provided with the plug that is used for exhaust or liquid feeding, mainly be to be provided with inner sleeve in the inner chamber of said down connecting leg, be provided with superconducting pipe between connecting leg and the inner sleeve down, be marked with superconducting fluid in the superconducting pipe, superconducting pipe is connected with radiating tube, last connecting leg, and following connecting leg is connected with the heat source tube of heating system by interface; Be provided with dehydrogenation agent releasing device in the last connecting leg.

As a kind of improvement of the present utility model, the superconducting pipe of said inner sleeve and inner sleeve periphery is arranged on down the top of connecting leg inner chamber, and the port of inner sleeve is a hatch frame, stretches out outside the following connecting leg, or places down in the connecting leg; In the inner chamber of inner sleeve, can be provided with heater, constitute the radiator of two structures of heating.

The utility model advantage compared with prior art: mainly be quick heating, the temperature height.Owing to irritate in the superconducting pipe between connecting leg and the inner sleeve down superconductive medium is arranged, be connected between superconducting pipe and last connecting leg and the radiating tube, following connecting leg is connected with the heat source tube of heating system.Superconductive medium carries out thermal cycle fast through superconducting pipe later on the heat absorption of heat source tube in radiator, heat is exchanging release heat with air in the process of cocycle.Because the double-deck heating of inner sleeve and superconducting pipe, exchange area is big, and heat supply is fast, so this radiator quick heating, programming rate are the twices of existing superconducting radiator, the long twice of temperature retention time, and can cold-starting, heat source tube just can normally be moved about 20 degree Celsius.If adopt the DFL-CN-2 superconductive medium, then can in one minute, make the entire radiator sheet reach the optimum temperature rise effect.The heat sink arrangement of this sleeve structure not only can be connected on the main heat source pipe and use, and can also assist heating in needs, improves radiator temperature.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the side-looking structural representation of Fig. 1;

Fig. 3 is the another kind of structural representation that is provided with of the utility model inner sleeve;

Fig. 4 is the side-looking structural representation of Fig. 3.

Among the figure: 1. go up connecting leg, 2. dehydrogenation agent releasing device, 3. plug, 4. interface 5. descends connecting leg, 6. superconducting pipe, 7. inner sleeve, 8. radiating tube, 9. superconducting fluid.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is described in detail:

As Fig. 1, shown in 2, this pair of sleeve pipe superconducting radiator, comprise connecting leg 1, following connecting leg 5 and vertical radiating tube 8 that is arranged between connecting leg 1 and the following connecting leg 5 of arranging, end at last connecting leg 1 is provided with the plug 3 that is used for exhaust or liquid feeding, in last connecting leg 1, also be provided with dehydrogenation agent releasing device 2, mainly be to be provided with inner sleeve 7 in the centre of following connecting leg 5 inner chambers, be provided with superconducting pipe 6 between connecting leg 5 and the inner sleeve 7 down, superconducting pipe 6 inner chambers are marked with superconducting fluid 9, superconducting pipe 6 and radiating tube 8, last connecting leg 1 is connected, and following connecting leg 5 is connected with the heat source tube of heating system by interface 4.

Shown in Fig. 3,4, this pair of sleeve pipe superconducting radiator, the superconducting pipe 6 of its inner sleeve 7 and inner sleeve 7 peripheries is arranged on down the top of connecting leg 5 inner chambers, and the port of inner sleeve 7 is a hatch frame, is arranged on down in the connecting leg 5.Also the port of inner sleeve 7 can be stretched out outside the following connecting leg 5, so that in the inner chamber of inner sleeve 7, assisted heating device is installed.

Claims

1, a kind of pair of sleeve pipe superconducting radiator, comprise connecting leg (1), following connecting leg (5) and vertical radiating tube (8) that is arranged between connecting leg (1) and the following connecting leg (5) of arranging, end at last connecting leg (1) is provided with the plug (3) that is used for exhaust or liquid feeding, it is characterized in that: be provided with inner sleeve (7) in the inner chamber of said connecting leg (5) down, be provided with superconducting pipe (6) between connecting leg (5) and the inner sleeve (7) down, superconducting pipe (6) inner chamber is marked with superconducting fluid (9), superconducting pipe (6) and radiating tube (8), last connecting leg (1) is connected, and following connecting leg (5) is connected with the heat source tube of heating system by interface (4).

2, according to claim 1 pair of sleeve pipe superconducting radiator is characterized in that: be provided with dehydrogenation agent releasing device (2) in institute's connecting leg of saying (1).

3, according to claim 1 pair of sleeve pipe superconducting radiator, it is characterized in that: the superconducting pipe (6) of said inner sleeve (7) and inner sleeve (7) periphery is arranged on down the top of connecting leg (5) inner chamber, the port of inner sleeve (7) is a hatch frame, outside the extended connecting leg (5) down, or place down in the connecting leg (5).

4, according to claim 3 pair of sleeve pipe superconducting radiator is characterized in that: be provided with heater in the inner chamber of said inner sleeve (7).