CN101769396A

CN101769396A - Five-way valve for switching of natural cooling, refrigeration and heating modes

Info

Publication number: CN101769396A
Application number: CN201010108491A
Authority: CN
Inventors: 石文星; 周德海; 郜义军; 韩宗伟; 王宝龙; 李先庭
Original assignee: BEIJING THUEE ENERGY-SAVING TECHNOLOGY Co Ltd; Tsinghua University
Current assignee: BEIJING THUEE ENERGY-SAVING TECHNOLOGY Co Ltd; Tsinghua University
Priority date: 2010-02-05
Filing date: 2010-02-05
Publication date: 2010-07-07
Anticipated expiration: 2030-02-05
Also published as: CN101769396B

Abstract

The invention relates to a five-way valve for switching of natural cooling, refrigeration and heating modes, belonging to the technical field of a flow control valve. The valve comprises a first valve body, a second valve body and a driving capillary group. The five-way valve can realize the switching of three modes of natural cooling, refrigeration and heating of an air conditioning unit by the differential pressure change generated by starting and stopping of a refrigeration compressor, the elasticity of springs and the power turn-on/off of electromagnetic coils. Compared with the traditional control by a plurality of valves, the five-way valve is easier to control and has good control and operating performances. The five-way valve causes the air conditioning unit with natural cooling and heating functions to increase the operating reliability and has the characteristics of simple installation, convenient maintenance and mass production.

Description

Be used for the five-way valve that natural cooling and refrigeration and heating mode switch

Technical field

The present invention relates to a kind of five-way valve that natural cooling and refrigeration and heating mode switch that is used for, it is a kind of autocontrol valve with five ports, be applicable to the switching between the different condition lower pipeline, be particularly useful for switching, belong to the valve design technical field with the mode of operation of the direct evaporative type air-conditioning equipment of the refrigeration agent of natural cooling, refrigeration and heat-production functions.

Background technique

For the existing building outskirt, because the fluctuation of loads such as the increase of the improvement of buildings exterior-protected structure performance and office lighting, equipment heating amount and building heat transfer, solar radiation, make building outskirt refrigeration duty increase, under the prerequisite of heat supply in the winter time, summer cooling, transition season also needs cooling sometimes.But at present building energy consumption becomes the target of everyone, and how to save the problem that energy consumption has become the designer and paid close attention to.And natural cooling (free cooling) technology utilizes natural cooling source to come to the building cooling exactly, thus energy efficient.

For this reason, the existing air-conditioning processing equipment that much utilizes natural cooling technology, CN101514856A has announced " a kind of air processor with the natural cold and heat supply function ", utilize natural cooling to reduce the purpose of air conditioning energy consumption though realized transition season, but realize the switching of compressor cycle pattern and natural cooling circulation mode owing to adopt a plurality of electromagnetism or electric valve, cause the complexity of control system to increase, thereby increased maintenance and the maintenance workload in the actual motion.

At above-mentioned situation, the present invention proposes this five-way valve that natural cooling and refrigeration and heating mode switch that is used for, solved very cleverly and adopted a plurality of electromagnetism or electric valve to carry out those shortcomings of switching.

Summary of the invention

At this shortcoming of switching at the air conditioner group mode of the novel band natural cold and heat supply function of building the outskirt use, the present invention proposes and thisly be used to realize that natural cooling and common refrigeration, heat pump heat the five-way valve of three kinds of mode switching, solved very cleverly and adopted a plurality of electromagnetism or electric valve to carry out those shortcomings of switching, thereby can realize natural circulation and compressor cycle efficient, reliable operation in the whole year.

Concrete technological scheme of the present invention is: a kind of five-way valve that is used for natural cooling and refrigeration and heating mode switching, and it is characterized in that: this five-way valve is made up of first main valve, second main valve, pilot valve and driving capillary tube group; Described first main valve comprises the first main valve housing, stage clip, first valve core of main valve, first connecting tube, second connecting tube and condenser inlet connecting tube; Described second main valve comprises the second main valve housing, second valve core of main valve, the 3rd connecting tube, the 4th connecting tube, compressor air suction connecting tube and compressor air-discharging connecting tube; Described pilot valve comprises pilot valve housing, pilot valve spool and electromagnetic coil; Described driving capillary tube group comprises low pressure capillary tube, high pressure capillary, first capillary tube, second capillary tube, three capillary and the 4th capillary tube; The described first main valve housing and first valve core of main valve constitute two seal spacies, are respectively hyperbaric chamber and low-pressure cavity; Described stage clip is arranged in the low-pressure cavity; The described second main valve housing and second valve core of main valve constitute two seal spacies, are respectively first chamber and second chamber; Described second connecting tube is communicated with the 3rd connecting tube; A described low pressure end capillaceous is communicated with described compressor air suction connecting tube, and a low pressure other end capillaceous is communicated with low-pressure cavity; One end of described high pressure capillary is communicated with described compressor air-discharging connecting tube, and the other end of high pressure capillary is communicated with hyperbaric chamber; Described first end capillaceous is communicated with the compressor air suction connecting tube, and first the other end capillaceous is connected with pilot valve; Described second end capillaceous is communicated with first chamber, and second the other end capillaceous is connected with pilot valve; One end of described three capillary is communicated with second chamber, and the other end of three capillary is connected with pilot valve; The described the 4th end capillaceous is communicated with the compressor air-discharging connecting tube, and the 4th the other end capillaceous is connected with pilot valve; During described electromagnetic coil power down, in pilot valve, first capillary tube and three capillary are by the conducting of pilot valve spool, second capillary tube and the 4th capillary tube conducting; When electromagnetic coil was charged, the adhesive of pilot valve spool was moved, and at this moment, first capillary tube and second capillary tube are by the conducting of pilot valve spool, three capillary and the 4th capillary tube conducting.

Technical characteristics of the present invention also is: first valve core of main valve is arch spool or mobile piston spool.

The present invention compared with prior art, have the following advantages and the high-lighting effect: utilize the pressure reduction of opening, shut down generation of refrigeration compressor self to change, the elastic force of spring and the power on/off of electromagnetic coil, can realize that natural circulation, common refrigeration and heat pump heat the switching of three kinds of patterns, can satisfy the demand of annual heat supply, cooling mode switching; Adopt a plurality of valve controls much easier than tradition, control and ride quality are good; Make the air-conditioning unit operational reliability height of band natural cold and heat supply function; But have the characteristics simple, mass production easy to maintenance of installing.

Description of drawings

Fig. 1 is the five-way valve structural representation that natural cooling and refrigeration and heating mode switch that is used for of the present invention, and this figure is heat pipe and the steam compressed compound-refrigerating air-conditioning unit valve element position figure when being in natural circulation.

Fig. 2 is the five-way valve structural representation that natural cooling and refrigeration and heating mode switch that is used for of the present invention, and this figure is heat pipe and the steam compressed compound-refrigerating air-conditioning unit valve element position figure when being in refrigeration cycle.

Fig. 3 is the five-way valve structural representation that natural cooling and refrigeration and heating mode switch that is used for of the present invention, and this figure is that heat pipe and steam compressed compound-refrigerating air-conditioning unit are in the valve element position figure that heats circulation time.

Fig. 4 is that the present invention is applied to the direct evaporative type air-conditioning equipment of the refrigeration agent fundamental diagram with natural cooling, common refrigeration and heat pump heat-production functions.

Among Fig. 1～Fig. 4: 100-first main valve; The 101-first main valve housing; The 102-stage clip; 103-first valve core of main valve; 104-condenser inlet connecting tube; 105-first connecting tube; 106-second connecting tube; The 107-low-pressure cavity; The 108-hyperbaric chamber; 200-second main valve; The 201-second main valve housing; 202-second valve core of main valve; 203-the 3rd connecting tube; 204-compressor air suction connecting tube; 205-the 4th connecting tube; 206-compressor air-discharging connecting tube; 207-first chamber; 208-second chamber; The 300-pilot valve; 301-pilot valve housing; 302-pilot valve spool; The 303-electromagnetic coil; 401-low pressure capillary tube; The 402-high pressure capillary; 403-first capillary tube; 404-second capillary tube; The 405-three capillary; 406-the 4th capillary tube; The 500-compressor; The 600-condenser; The 700-throttle mechanism; The 800-vaporizer; 900-is used for the five-way valve that natural cooling and refrigeration and heating mode switch.

Embodiment

The contrast accompanying drawing is described in further detail theory structure of the present invention and working procedure below.

Fig. 1 is the five-way valve schematic representation that natural cooling and refrigeration and heating mode switch that is used for of the present invention, and this figure is heat pipe and the steam compressed compound-refrigerating air-conditioning unit valve element position figure when being in natural circulation.This five-way valve is made up of first main valve 100, second main valve 200, pilot valve 300 and driving capillary tube group; Described first main valve 100 comprises the first main valve housing 101, stage clip 102, first valve core of main valve 103, condenser inlet connecting tube 104, first connecting tube 105 and second connecting tube 106; Described second main valve 200 comprises the second main valve housing 201, second valve core of main valve 202, the 3rd connecting tube 203, compressor air suction connecting tube 204, the 4th connecting tube 205 and compressor air-discharging connecting tube 206; Described pilot valve 300 comprises pilot valve housing 301, pilot valve spool 302 and electromagnetic coil 303; Described driving capillary tube group comprises low pressure capillary tube 401, high pressure capillary 402, first capillary tube 403, second capillary tube 404, three capillary 405 and the 4th capillary tube 406; The described first main valve housing 101 and first valve core of main valve 103 constitute two seal spacies, are respectively hyperbaric chamber 108 and low-pressure cavity 107, and described stage clip 102 is arranged in the low-pressure cavity 107; The described second main valve housing 201 and second valve core of main valve 202 constitute two seal spacies, are respectively first chamber 207 and second chamber 208; Described second connecting tube 106 is communicated with the 3rd connecting tube 203; One end of described low pressure capillary tube 401 is communicated with compressor air suction connecting tube 204, and an other end of low pressure capillary tube 401 is communicated with low-pressure cavity 107; One end of described high pressure capillary 402 is communicated with compressor air-discharging connecting tube 206, and the other end of high pressure capillary 402 is communicated with hyperbaric chamber 108; One end of described first capillary tube 403 is communicated with compressor air suction connecting tube 204, and the other end of first capillary tube 403 is connected with pilot valve 300; One end of described second capillary tube 404 is communicated with first chamber 207, and the other end of second capillary tube 404 is connected with pilot valve 300; One end of described three capillary 405 is communicated with second chamber 208, and the other end of three capillary 405 is connected with pilot valve 300; One end of described the 4th capillary tube 406 is communicated with compressor air-discharging connecting tube 206, and the other end of the 4th capillary tube 406 is connected with pilot valve 300; During described electromagnetic coil 303 power down, in pilot valve 300, first capillary tube 403 and three capillary 405 are by 302 conductings of pilot valve spool, second

capillary tube

404 and 406 conductings of the 4th capillary tube; When electromagnetic coil 303 was charged, 302 adhesives of pilot valve spool were moved, and at this moment, first capillary tube 403 and second capillary tube 404 are by 302 conductings of pilot valve spool, three capillary 405 and 406 conductings of the 4th capillary tube.First connecting tube 105 is connected with evaporator outlet with the 4th connecting tube 205.Under the natural cooling circulation mode; compressor 500 is shut down; refrigeration agent becomes low-pressure steam after vaporizer 800 absorbs heat; enter first connecting tube 105 of novel five-way valve 900; flow out to condenser 600 through condenser inlet connecting tube 104 and emit heat; flow back to vaporizer 800 then, finish natural circulation (referring to Fig. 4).

Fig. 2 is the five-way valve schematic representation that natural cooling and refrigeration and heating mode switch that is used for of the present invention, and this figure is heat pipe and the steam compressed compound-refrigerating air-conditioning unit valve element position figure when being in refrigeration cycle.First connecting tube 105 is connected with evaporator outlet with the 4th connecting tube 205.Under the refrigeration cycle pattern, electromagnetic coil 303 power down and compressor 500 start, refrigeration agent enters the 4th connecting tube 205 in the novel five-way valve 900 after vaporizer 800 absorbs heat, because the suction and discharge pressure reduction of compressor 500, pressure in the compressor air-discharging connecting tube 206 is higher than compressor air suction connecting tube 204, conducting effect by high pressure capillary 402 and low pressure capillary tube 401 makes hyperbaric chamber 108 internal pressures of first main valve 100 greater than low-pressure cavity 107 internal pressures again, thereby first valve core of main valve 103 is moved to left, second connecting

tube

106 and 104 conductings of condenser inlet connecting tube, refrigeration agent enters compressor 500 from the 4th connecting tube 205 and compressor air suction connecting tube 204, high-temperature high-pressure refrigerant steam after the compression enters the 3rd connecting tube 203 from compressor air-discharging connecting tube 206 and flows out to condenser 600 through second connecting tube, 106 self cooling condenser inlet connecting tubes 104, after throttle mechanism 700 throttling step-downs, flow back into vaporizer 800, realize refrigeration cycle (referring to Fig. 4).

Fig. 3 is the five-way valve schematic representation that natural cooling and refrigeration and heating mode switch that is used for of the present invention, and this figure is that heat pipe and steam compressed compound-refrigerating air-conditioning unit are in the valve element position figure that heats circulation time.First connecting tube 105 is connected with evaporator outlet with the 4th connecting tube 205.Heat under the circulation mode, compressor 500 starts, electromagnetic coil 303 is charged, refrigeration agent enters condenser inlet connecting tube 104 in the novel five-way valve 900 after condenser 600 absorbs heat, this moment is because the suction and discharge pressure reduction of compressor 500, make compressor air-discharging connecting tube 206 internal pressures greater than compressor air suction connecting tube 204, because the conducting effect of low pressure capillary tube 401 and high pressure capillary 402 makes hyperbaric chamber 108 internal pressures of first main valve 100 greater than low-pressure cavity 107 internal pressures, thereby the spool 103 of first main valve 100 is moved to left, refrigeration agent enters second connecting tube 106 through condenser inlet connecting tube 104, and because the connection effect of first capillary tube 403 and second capillary tube 404 and connection effect and three capillary 405 and the 4th capillary tube 406, first chamber, 207 internal pressures of second main valve 200 are less than first chamber, 208 internal pressures, when pressure reduction acquires a certain degree, second valve core of main valve 202 moves to left under differential pressure action, refrigeration agent enters compressor 500 by the air-breathing connecting tube 204 of the 3rd connecting tube 203 compressed machines, high-temperature high-pressure refrigerant steam after the compression from compressor air-discharging connecting tube 206 after the 4th connecting tube 205 flows out to vaporizer 800 and emits heat, after throttle mechanism 700 throttling step-downs, flow back to condenser 600, finish heating circulation (referring to Fig. 4).

Claims

1. one kind is used for the five-way valve that natural cooling and refrigeration and heating mode switch, and it is characterized in that: this five-way valve is made up of first main valve (100), second main valve (200), pilot valve (300) and driving capillary tube group; Described first main valve (100) comprises the first main valve housing (101), stage clip (102), first valve core of main valve (103), first connecting tube (105), second connecting tube (106) and condenser inlet connecting tube (104); Described second main valve (200) comprises the second main valve housing (201), second valve core of main valve (202), the 3rd connecting tube (203), the 4th connecting tube (205), compressor air suction connecting tube (204) and compressor air-discharging connecting tube (206); Described pilot valve (300) comprises pilot valve housing (301), pilot valve spool (302) and electromagnetic coil (303); Described driving capillary tube group comprises low pressure capillary tube (401), high pressure capillary (402), first capillary tube (403), second capillary tube (404), three capillary (405) and the 4th capillary tube (406); The described first main valve housing (101) constitutes two seal spacies with first valve core of main valve (103), is respectively hyperbaric chamber (108) and low-pressure cavity (107); Described stage clip (102) is arranged in the low-pressure cavity (107); The described second main valve housing (201) constitutes two seal spacies with second valve core of main valve (202), is respectively first chamber (207) and second chamber (208); Described second connecting tube (106) is communicated with the 3rd connecting tube (203); One end of described low pressure capillary tube (401) is communicated with described compressor air suction connecting tube (204), and an other end of low pressure capillary tube (401) is communicated with low-pressure cavity (107); One end of described high pressure capillary (402) is communicated with described compressor air-discharging connecting tube (206), and the other end of high pressure capillary (402) is communicated with hyperbaric chamber (108); One end of described first capillary tube (403) is communicated with compressor air suction connecting tube (204), and the other end of first capillary tube (403) is connected with pilot valve (300); One end of described second capillary tube (404) is communicated with first chamber (207), and the other end of second capillary tube (404) is connected with pilot valve (300); One end of described three capillary (405) is communicated with second chamber (208), and the other end of three capillary (405) is connected with pilot valve (300); One end of described the 4th capillary tube (406) is communicated with compressor air-discharging connecting tube (206), and the other end of the 4th capillary tube (406) is connected with pilot valve (300); During described electromagnetic coil (303) power down, in pilot valve (300), first capillary tube (403) passes through pilot valve spool (302) conducting with three capillary (405), second capillary tube (404) and the 4th capillary tube (406) conducting; When electromagnetic coil (303) was charged, pilot valve spool (302) adhesive was moved, and at this moment, first capillary tube (403) passes through pilot valve spool (302) conducting with second capillary tube (404), three capillary (405) and the 4th capillary tube (406) conducting.

2. according to claims 1 described a kind of five-way valve that natural cooling and refrigeration and heating mode switch that is used for, it is characterized in that: first valve core of main valve (103) is arch spool or mobile piston spool.