CN103256842B - Heat pipe type cold-and-heat recoverer - Google Patents

Abstract

The invention relates to a heat pipe type cold-and-heat recoverer. The heat pipe type cold-and-heat recoverer comprises a frame body, a heat pipe, a first air duct and a second air duct, wherein the heat pipe is arranged on the frame body in a rotating mode, and the first air duct and the second air duct are arranged on two opposite sides of the frame body in a rotating mode respectively. Two end portions of the heat pipe are located in the first air duct and the second air duct respectively; a rotating shaft axis of the heat pipe is the same as rotating shaft axes of the first air duct and the second air duct in stretching direction; width stretching directions of the frame body are uniform. The heat pipe type cold-and-heat recoverer further comprises a driving mechanism for driving the heat pipe, the first air duct and the second air duct to rotate. By means of the heat pipe type cold-and-heat recoverer, heat and cold capacity of air exhausted from the interior of a chamber body can be recovered and used, and energy is saved, besides, exchanging of indoor air and outdoor air can be achieved under the condition that change of indoor temperature is small, quality of the indoor air is improved, and health of the human body is benefited.

Description

A kind of heat tube type cold heat regenerator

Technical field

the present invention relates to a kind of heat tube type cold heat regenerator, be specifically related to a kind of heat tube type cold heat regenerator for summer in winter the hot cold of indoor Exhaust Gas being recycled.

Background technology

as everyone knows, heat pipe is the fabulous artificial member of a kind of heat transfer property, conventionally airtight metal tube and interior liquid working medium, consists of.Wherein one end of metal tube is evaporation ends, and one end is condensation end in addition, and when heat pipe is installed, evaporation ends is positioned at the below of condensation end, and the liquid refrigerant under Action of Gravity Field in pipe belongs to evaporation ends substantially.For example, in common air-conditioning system, also can outside the pipe of heat pipe, can be set with fin, to increase heat exchange area and heat exchange amount.

yet, in the winter, summer is (cold, heat) in season, in order to make indoor temperature meet the comfort requirement of human body, need to rise chamber body, cooling, therefore, air-conditioning quilt extensive use, for example: in the time of in the winter time, air-conditioning is mainly that indoor air is extracted out, again from additional suction fresh air, after heating, flow in the body of chamber, make the temperature increase in the body of chamber, and relative air quality is general, when reaching, indoor temperature sets while requiring, air-conditioning will quit work, now indoor gas and outdoor gas can not circulate, fresh air cannot enter indoor, dirty air cannot be from indoor discharge, in like manner, in summer, be also the same, indoor gas and outdoor gas can not circulate, directly affect the health of human body, in addition, from the gas of indoor discharge, cannot recycle, cause energy waste.

Summary of the invention

technical problem to be solved by this invention is to overcome the deficiencies in the prior art, and a kind of heat tube type cold heat regenerator that the gas cold heat of indoor discharge can be recycled is provided.

for solving the problems of the technologies described above, a kind of technical scheme that the present invention takes is as follows:

a kind of heat tube type cold heat regenerator, it comprises framework, can be arranged on rotationally heat pipe in framework, can be arranged on rotationally respectively the first air channel and second air channel of relative two sides of framework, the both ends of heat pipe are positioned at respectively the first air channel and the second air channel, the bearing of trend of the rotational axis line in the rotational axis line of heat pipe, the first air channel and the second air channel is identical, and the width bearing of trend of framework is consistent, heat tube type cold heat regenerator also comprises the driving mechanism for driving heat pipe, the first air channel and the second air channel to rotate.

preferably, driving mechanism comprise be fixedly installed on the motor of framework one side, by motor-driven power transmission shaft, the screw rod being fixedly connected with power transmission shaft, with the screw rod other end, matching merges the limit screw cap that is fixed in framework, can and be arranged on the pin connector on plectrum along the plectrum of spiro rod length direction back and forth movement, pin connector is wherein connected with the heat pipe end that is positioned at framework homonymy.

more preferably, the bar heart of screw rod and the axle center of power transmission shaft coincide.Motor is clockwise and anticlockwise motor.Thereby control the positive and reverse steering of screw rod.

according to concrete an enforcement and preferred aspect according to the present invention, driving mechanism also comprises and being arranged in framework for limiting plectrum along up limited block and the descending limited block of spiro rod length direction shift motion.Thereby determine the rotational angle of the relative framework of heat pipe.

preferably, screw rod is along the short transverse setting of framework.Plectrum is provided with screw rod joint portion the screw thread matching with screw rod.

in addition, heat pipe middle part is fixed with turning cylinder, and turning cylinder can be arranged in framework rotationally.The both ends of heat pipe are connected with the second air channel with the first air channel respectively.

due to the enforcement of above technical scheme, the present invention compared with prior art tool has the following advantages:

the present invention is connected with the blast pipe of chamber body the first air channel respectively with the second air channel with discharge pipe, and be arranged on respectively the heat pipe in the first air channel and the second air channel by both ends, under the effect of driving mechanism, the evaporation ends of heat pipe is arranged in the air channel that temperature is higher, condensation end is arranged in another passage, realize hot cold transmission, make body inner air heat cold of discharging in chamber be recycled utilization, save the energy, in addition, the present invention can also be in the situation that guaranteeing that indoor temperature change generated in case is less, realize the exchange of indoor and outdoors air, improve indoor air quality, the health that is conducive to human body.

Accompanying drawing explanation

below in conjunction with specific embodiment, the present invention will be further described in detail.

fig. 1 is that the master of heat tube type cold heat regenerator of the present invention looks schematic diagram;

fig. 2 is the enlarged diagram at A place in Fig. 1;

wherein: 1, framework; 2, heat pipe; 20, turning cylinder; 3, the first air channel; 4, the second air channel; 5, driving mechanism; 50, motor; 51, power transmission shaft; 52, screw rod; 53, limit screw cap; 54, plectrum; 55, pin connector; 56, up limited block; 57, descending limited block.

The specific embodiment

as depicted in figs. 1 and 2, the invention provides a kind of heat tube type cold heat regenerator that the gas cold heat of indoor discharge can be recycled, it comprises framework 1, can be arranged on rotationally the heat pipe 2 in framework 1, can be arranged on rotationally respectively the first air channel 3 and second air channel 4 of relative two sides of framework 1, and for driving heat pipe 2, the driving mechanism 5 that rotate in the first air channel 3 and the second air channel 4, the both ends of heat pipe 2 are positioned at respectively the first air channel 3 and the second air channel 4, the rotational axis line of heat pipe 2, the bearing of trend of the rotational axis line in the first air channel 3 and the second air channel 4 is identical, and the width bearing of trend of framework 1 is consistent.

above-mentioned driving mechanism 5 comprise be fixedly installed on the motor 50 of framework one side, the power transmission shaft 51 being driven by motor 50, the screw rod 52 being fixedly connected with power transmission shaft 51, matching with screw rod 52 other ends merges the limit screw cap 53 that is fixed in framework 1, can and be arranged on the pin connector 55 on plectrum 54 along the plectrum 54 of screw rod 52 length direction back and forth movements, pin connector 55 is wherein connected with heat pipe 2 ends that are positioned at framework 1 homonymy.

in this example, motor 50 is clockwise and anticlockwise motor, thereby controls the positive and reverse steering of screw rod.The bar heart of screw rod 52 and the axle center of power transmission shaft 51 coincide.Simultaneously, in this example, driving mechanism 5 also comprises and being arranged in framework 1 for limiting plectrum 54 along up limited block 56 and the descending limited block 57 of screw rod 52 length direction shift motions, by the setting of up limited block 56 and descending limited block 57, thereby determines the rotational angle of heat pipe 2 relative frameworks 1.

above-mentioned driving mechanism 5, more specifically, screw rod 52 is along the short transverse setting of framework 1.Plectrum 54 is provided with screw rod 52 joint portions the screw thread matching with screw rod 52.In addition, heat pipe 2 middle parts are fixed with turning cylinder 20, and turning cylinder 20 can be arranged in framework 1 rotationally.The both ends of heat pipe 2 are connected with the second air channel phase 4 with the first air channel 3 respectively.

the present embodiment concrete operations are as follows:

by indoor blast pipe, the first air channel 3 and second air channel 4 of two sides relative to framework 1 are connected respectively with exhaust duct, in the time of in the winter time, indoor temperature is generally all higher than outdoor temperature, opening motor 50(is rotated counterclockwise), by power transmission shaft 51, drive screw rod 52 to rotate in the lump, now, the plectrum 54 being arranged on screw rod 52 has a process moving down, thereby promoting pin connector 55 moves down, and drive heat pipe 2 to rotate relative to framework 1, drive the rotation in the first air channel 3 and the second air channel 4 simultaneously, when plectrum 54 is encountered after descending limited block 56, motor 50 quits work, now, heat pipe 2 is 86 ° of angles with the short transverse of framework 1, the second air channel 4 is lower than the first air channel 3, heat pipe 2 is under weight effect, in heat pipe 2 interior liquid working medium, flow to relatively low side, the evaporation ends that is heat pipe 2 is positioned at the second air channel 4, the evaporation ends of heat pipe 2 will be passed to condensation end from the second systemic heat in air channel 4, in condensation end condensation process, dispel the heat again, the first interior gas temperature in air channel 3 is improved, fresh air is entered when indoor, temperature promotes to some extent, thereby realize the heat recovery of indoor Exhaust Gas,

in like manner, when summer, indoor temperature is generally all lower than outdoor temperature, opening motor 50(turns clockwise), by power transmission shaft 51, drive screw rod 52 to rotate in the lump, now, be arranged on plectrum 54 on screw rod 52 and have a up mobile process, thereby promoting pin connector 55 moves up, and drive heat pipe 2 to rotate relative to framework 1, the first air channel 3 and the second air channel 4 also relatively rotate simultaneously, when plectrum 54 is encountered after up limited block 57, motor 50 quits work, now, heat pipe 2 is 94 ° of angles with the short transverse of framework 1, the second air channel 4 is higher than the first air channel 3, heat pipe 2 is under weight effect, in heat pipe 2 interior liquid working medium, flow to relatively low side, the evaporation ends that is heat pipe 2 is positioned at the first air channel 3, the evaporation ends of heat pipe 2 will be passed to condensation end from the first systemic heat in air channel 3, again by carrying out cooling in the second air channel 4 cryogenic gases to described condensation end, form liquid and flow back to evaporation ends, thereby make evaporation ends cooling, and then fresh air is entered when indoor, temperature declines to some extent, thereby realize the cold recovery of indoor Exhaust Gas.

in sum, the present invention is connected with the blast pipe of chamber body the first air channel respectively with the second air channel with discharge pipe, and be arranged on respectively the heat pipe in the first air channel and the second air channel by both ends, under the effect of driving mechanism, the evaporation ends of heat pipe is arranged in the air channel that temperature is higher, condensation end is arranged in another passage, realize hot cold transmission, make body inner air heat cold of discharging in chamber be recycled utilization, save the energy, in addition, the present invention can also be in the situation that guaranteeing that indoor temperature change generated in case is less, realize the exchange of indoor and outdoors air, improve indoor air quality, the health that is conducive to human body.

above the present invention is described in detail; its object is to allow the personage who is familiar with this art can understand content of the present invention and be implemented; can not limit the scope of the invention with this; and the invention is not restricted to the embodiments described; the equivalence that all Spirit Essences according to the present invention are done changes or modifies, and all should be encompassed in protection scope of the present invention.

Claims (7)

1. a heat tube type cold heat regenerator, it is characterized in that: it comprises framework (1), can be arranged on rotationally the heat pipe (2) in described framework (1), can be arranged on rotationally respectively the first air channel (3) and the second air channel (4) of relative two sides of described framework (1), the both ends of described heat pipe (2) are positioned at respectively described the first air channel (3) and are connected with the second air channel (4) with described the first air channel (3) respectively with described the second air channel (4) and both ends, the rotational axis line of described heat pipe (2), the bearing of trend of the rotational axis line in the first air channel (3) and described the second air channel (4) is identical, and consistent with the width bearing of trend of described framework (1), described heat tube type cold heat regenerator also comprises for driving described heat pipe (2), the driving mechanism (5) that rotate the first air channel (3) and the second air channel (4), described driving mechanism (5) comprises the motor (50) that is fixedly installed on described framework (1) one side, the power transmission shaft (51) being driven by described motor (50), the screw rod (52) being fixedly connected with described power transmission shaft (51), match to merge with described screw rod (52) other end and be fixed on the limit screw cap (53) in described framework (1), can and be arranged on the pin connector (55) on described plectrum (54) along the plectrum (54) of described screw rod (52) length direction back and forth movement, described pin connector (55) is connected with described heat pipe (2) end that is positioned at described framework (1) homonymy.

2. heat tube type cold heat regenerator according to claim 1, is characterized in that: the axle center of the bar heart of described screw rod (52) and described power transmission shaft (51) coincides.

3. heat tube type cold heat regenerator according to claim 1, is characterized in that: described motor (50) is clockwise and anticlockwise motor.

4. heat tube type cold heat regenerator according to claim 1, is characterized in that: described driving mechanism (5) also comprises that being arranged on described framework (1) goes up for limiting described plectrum (54) along up limited block (56) and the descending limited block (57) of described screw rod (52) length direction shift motion.

5. according to the heat tube type cold heat regenerator described in claim 1 or 4, it is characterized in that: described screw rod (52) is along the short transverse setting of described framework (1).

6. according to the heat tube type cold heat regenerator described in claim 1 or 4, it is characterized in that: described plectrum (54) is provided with described screw rod (52) joint portion the screw thread matching with described screw rod (52).

7. heat tube type cold heat regenerator according to claim 1, is characterized in that: described heat pipe (2) middle part is fixed with turning cylinder (20), and described turning cylinder (20) can be arranged in described framework (1) rotationally.