CN202432622U

CN202432622U - Ice-storage cold adsorption heat recycling air conditioner

Info

Publication number: CN202432622U
Application number: CN2011205680060U
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-12-31
Filing date: 2011-12-31
Publication date: 2012-09-12
Anticipated expiration: 2021-12-31

Abstract

The utility model relates to an air conditioner and particularly relates to an ice-storage cold adsorption heat recycling air conditioner. The ice-storage cold adsorption heat recycling air conditioner comprises a first solenoid valve, a fan coiled pipe, a water pump, a second solenoid valve, a shell pipe evaporator, a third solenoid valve, a cold storage ice ball, a cold storage box, a fourth solenoid valve, a first throttling valve, a compressor, a second throttling valve, a fifth solenoid valve, a sixth solenoid valve, a first adsorption bed, a first condensing pipe, a seventh solenoid valve, a second adsorption bed, a second condensing pipe, an eighth solenoid valve, a ninth solenoid valve, a tenth solenoid valve, an eleventh solenoid valve, a twelfth solenoid valve, an adsorption evaporator, an adsorption condenser and a capillary pipe, wherein the compressor, the seventh solenoid valve, the first adsorption bed, the fifth solenoid valve, the first throttling valve and the shell pipe evaporator are sequentially connected into a closed loop; the adsorption condenser and the adsorption evaporator are connected through the capillary pipe; and the first adsorption bed and the second adsorption bed are internally provided with a solid adsorbent and a refrigerating agent. With the adoption of the ice-storage cold adsorption heat recycling air conditioner, the cold condensation heat is recycled and the energy saving is realized; since ice is used for cold storage and low-ebb power at night is utilized, the electricity charge is reduced; and the ice-storage cold adsorption heat recycling air conditioner is simple to control, manufacture and mount, is easy to manufacture and operate.

Description

A kind of ice cold-storage heat of adsorption reclaims air-conditioning

Technical field

The utility model relates to air-conditioning, and especially a kind of ice cold-storage heat of adsorption reclaims air-conditioning.

Background technology

General air-conditioner need be discharged a large amount of condensation heat when obtaining cold in running.The air-conditioning that uses does not now all reclaim this part energy, and this not only increases the thermal pollution in city, and air-conditioner efficiency is low.In addition, the power consumption on daytime in summer is very big, be to regulate the peak valley electricity, locally mostly adopts time-of-use tariffs, but present air-conditioner also will use daytime, causes financial burden to the user.

Summary of the invention

The purpose of the utility model is to overcome defective of the prior art, adopts a kind of ice cold-storage heat of adsorption to reclaim air-conditioning, and the air-conditioner condensation heat is reclaimed; Realize energy-conservationly, adopt the ice cold-storage, use the low ebb in evening; Save the electricity charge, make and install simply, easy operating.

For realizing above-mentioned purpose; The technical scheme of the utility model is to adopt a kind of ice cold-storage heat of adsorption to reclaim air-conditioning; Comprise first magnetic valve, fan coil, water pump, second magnetic valve, shell-tube evaporator, the 3rd magnetic valve, cold-storage ice hockey, cold-accumulating box, the 4th magnetic valve, first throttle valve, compressor, second choke valve, the 5th magnetic valve, the 6th magnetic valve, first adsorbent bed, first condenser pipe, the 7th magnetic valve, second adsorbent bed, second condenser pipe, the 8th magnetic valve, the 9th magnetic valve, the tenth magnetic valve, the 11 magnetic valve, the 12 magnetic valve, absorption evaporimeter, adsorption condensing device, capillary; Described compressor, the 7th magnetic valve, first adsorbent bed, the 5th magnetic valve, first throttle valve, shell-tube evaporator closed loop successively connect; Connect through capillary between described adsorption condensing device and the absorption evaporimeter, be provided with solid absorbent and cold-producing medium in described first adsorbent bed and second adsorbent bed.

Described first adsorbent bed connects absorption evaporimeter and adsorption condensing device respectively through the 9th magnetic valve, the 11 magnetic valve, and described second adsorbent bed connects adsorption condensing device and absorption evaporimeter respectively through the tenth magnetic valve, the 12 magnetic valve.

Be placed with the cold-storage ice hockey in the described cold-accumulating box; Gap in the described cold-accumulating box between the cold-storage ice hockey is full of glycol water; One end of described cold-accumulating box connects through first magnetic valve on the discharge pipe of water pump through pipeline, and the other end of cold-accumulating box is connected on the tube connector between shell and tube evaporator and the fan coil through the 4th magnetic valve through pipeline.

In the described cold-accumulating box coil pipe is set, an end of coil pipe is connected on the pipeline between first adsorbent bed and the 5th magnetic valve through second choke valve and the 6th magnetic valve, and the other end of coil pipe is connected on the air intake duct of compressor.

Described water pump, second magnetic valve, shell and tube evaporator, the 3rd magnetic valve and fan coil closed loop successively are connected.

The basic principle of the utility model: after using the utility model; Compressor energising work utilizes condensation heat intermittently to heat first adsorbent bed and second adsorbent bed, forms the heat wave refrigeration; To air-conditioned room cold is provided; (that is: a period of time is connected the 7th magnetic valve, the 11 magnetic valve and the tenth magnetic valve, closes the 8th magnetic valve, the 9th magnetic valve and the 12 magnetic valve, and this moment, first adsorbent bed was separated the sucking-off cold-producing medium; Behind adsorption condensing device, capillary, absorption evaporimeter, get back to second adsorbent bed, sweat cooling in the absorption evaporimeter; Close the 7th magnetic valve, the 11 magnetic valve and the tenth magnetic valve after a while; Open the 8th magnetic valve, the 9th magnetic valve and the 12 magnetic valve, this moment, second adsorbent bed was separated the sucking-off cold-producing medium, behind adsorption condensing device, capillary, absorption evaporimeter, got back to first adsorbent bed; Sweat cooling in the absorption evaporimeter); In the shell and tube evaporator refrigeration, the condensation load of system also changes into refrigerating capacity, with the refrigerating capacity of shell and tube evaporator air-conditioned room is freezed simultaneously; First magnetic valve, the 4th closed electromagnetic valve at night; Second magnetic valve, the 3rd magnetic valve, the 5th magnetic valve and the 6th magnetic valve are opened; Water pump pumps into shell and tube evaporator with ethylene glycol solution; After ethylene glycol solution is cooled, is recycled to fan coil and carries out air conditioner refrigerating, the cold-storage ice hockey in the cold-accumulating box is cooled icing simultaneously; By day; First magnetic valve, the 4th magnetic valve are opened, second magnetic valve, the 3rd magnetic valve, the 5th magnetic valve and the 6th closed electromagnetic valve, and water pump pumps into ethylene glycol solution in the cold-accumulating box; After ethylene glycol solution is cooled off by the cold-storage ice hockey; Be recycled to fan coil and carry out air conditioner refrigerating, this moment, compressor was not perhaps worked under low frequency, and consumption peak power on daytime is few.

The beneficial effect of the utility model is:

(1) condensation heat reclaims, and realizes energy-conservation.

(2) adopt the ice cold-storage, use the low ebb electricity in evening, save the electricity charge.

(3) control, making and installation are simple, are easy to production operation.

Description of drawings

Fig. 1 is the sketch map of the utility model.

Among the figure: 1; First magnetic valve 2; Fan coil 3; Water pump 4; Second magnetic valve 5; Shell-tube evaporator 6; The 3rd magnetic valve 7; Cold-storage ice hockey 8; Cold-accumulating box 9; The 4th magnetic valve 10; First throttle valve 11; Compressor 12; Second choke valve 13; The 5th magnetic valve 14; The 6th magnetic valve 15; First adsorbent bed 16; First condenser pipe 17; The 7th magnetic valve 18; Second adsorbent bed 19; Second condenser pipe 20; The 8th magnetic valve 21; The 9th magnetic valve 22; The tenth magnetic valve 23; The 11 magnetic valve 24; The 12 magnetic valve 25; Absorption evaporimeter 26; Adsorption condensing device 27; Capillary.

The specific embodiment

In conjunction with Fig. 1 the utility model specific embodiment is further described:

The technical scheme that provides according to the utility model; A kind of ice cold-storage heat of adsorption reclaims air-conditioning; Comprise first magnetic valve 1, fan coil 2, water pump 3, second magnetic valve 4, shell-tube evaporator 5, the 3rd magnetic valve 6, cold-storage ice hockey 7, cold-accumulating box 8, the 4th magnetic valve 9, first throttle valve 10, compressor 11, second choke valve 12, the 5th magnetic valve 13, the 6th magnetic valve 14, first adsorbent bed 15, first condenser pipe 16, the 7th magnetic valve 17, second adsorbent bed 18, second condenser pipe 19, the 8th magnetic valve 20, the 9th magnetic valve 21, the tenth magnetic valve the 22, the 11 magnetic valve the 23, the 12 magnetic valve 24, absorption evaporimeter 25, adsorption condensing device 26, capillary 27; Described compressor 11, the 7th magnetic valve 17, first adsorbent bed 15, the 5th magnetic valve 13, first throttle valve 10, shell-tube evaporator 5 closed loop successively connect; Connect through capillary 27 between described adsorption condensing device 26 and the absorption evaporimeter 25, be provided with solid absorbent and cold-producing medium in described first adsorbent bed 15 and second adsorbent bed 18.

Described first adsorbent bed 15 connects absorption evaporimeter 25 and adsorption condensing device 26 respectively through the 9th magnetic valve the 21, the 11 magnetic valve 23, and described second adsorbent bed 18 connects adsorption condensing device 26 and absorption evaporimeter 25 respectively through the tenth magnetic valve the 22, the 12 magnetic valve 24.

Be placed with cold-storage ice hockey 7 in the described cold-accumulating box 8; Gap in the described cold-accumulating box 8 between the cold-storage ice hockey 7 is full of glycol water; One end of described cold-accumulating box 8 connects on the discharge pipe of water pump 3 through first magnetic valve 1 through pipeline, and the other end of cold-accumulating box 8 is connected on the tube connector between shell and tube evaporator 5 and the fan coil 2 through the 4th magnetic valve 9 through pipeline.

In the described cold-accumulating box 8 coil pipe is set, an end of coil pipe is connected on the pipeline between first adsorbent bed 15 and the 5th magnetic valve 13 through second choke valve 12 and the 6th magnetic valve 14, and the other end of coil pipe is connected on the air intake duct of compressor 11.

Described water pump 3, second magnetic valve 4, shell and tube evaporator 5, the 3rd magnetic valve 6 are connected with fan coil 2 closed loop successively.

The basic principle of the utility model: after using the utility model; Compressor 11 energising work utilize condensation heat intermittently to heat first adsorbent bed 15 and second adsorbent bed 18, form the heat wave refrigeration; To air-conditioned room cold is provided; (that is: a period of time is connected the 7th magnetic valve the 17, the 11 magnetic valve 23 and the tenth magnetic valve 22, closes the 8th magnetic valve 20, the 9th magnetic valve 21 and the 12 magnetic valve 24, and this moment, first adsorbent bed 15 was separated the sucking-off cold-producing medium; Behind adsorption condensing device 26, capillary 27, absorption evaporimeter 25, get back to second adsorbent bed 18, sweat cooling in absorption evaporimeter 25; Close the 7th magnetic valve the 17, the 11 magnetic valve 23 and the tenth magnetic valve 22 after a while; Open the 8th magnetic valve 20, the 9th magnetic valve 21 and the 12 magnetic valve 24; This moment, second adsorbent bed 18 was separated the sucking-off cold-producing medium; Behind adsorption condensing device 26, capillary 27, absorption evaporimeter 25, get back to first adsorbent bed 15, sweat cooling in absorption evaporimeter 25), simultaneously in shell and tube evaporator 5 refrigeration; The condensation load of system also changes into refrigerating capacity, with the refrigerating capacity of shell and tube evaporator 5 air-conditioned room is freezed; First magnetic valve 1, the 4th magnetic valve 9 are closed at night; Second magnetic valve 4, the 3rd magnetic valve 6, the 5th magnetic valve 13 and the 6th magnetic valve are opened; Water pump pumps into shell and tube evaporator with ethylene glycol solution; After ethylene glycol solution is cooled, is recycled to fan coil and carries out air conditioner refrigerating, the cold-storage ice hockey in the cold-accumulating box is cooled icing simultaneously; By day; First magnetic valve, the 4th magnetic valve are opened, and second magnetic valve, the 3rd magnetic valve, the 5th magnetic valve and the 6th magnetic valve 14 are closed, and water pump 3 pumps into ethylene glycol solution in the cold-accumulating box 8; After ethylene glycol solution is cooled off by cold-storage ice hockey 7; Be recycled to fan coil 2 and carry out air conditioner refrigerating, this moment, compressor 11 was not perhaps worked under low frequency, and consumption peak power on daytime is few.

The beneficial effect of the utility model is that condensation heat reclaims, and realizes energy-conservation; Adopt the ice cold-storage, use the low ebb electricity in evening, save the electricity charge; Control, making and installation are simple, are easy to production operation.

Claims

1. an ice cold-storage heat of adsorption reclaims air-conditioning; It is characterized in that: comprise first magnetic valve, fan coil, water pump, second magnetic valve, shell-tube evaporator, the 3rd magnetic valve, cold-storage ice hockey, cold-accumulating box, the 4th magnetic valve, first throttle valve, compressor, second choke valve, the 5th magnetic valve, the 6th magnetic valve, first adsorbent bed, first condenser pipe, the 7th magnetic valve, second adsorbent bed, second condenser pipe, the 8th magnetic valve, the 9th magnetic valve, the tenth magnetic valve, the 11 magnetic valve, the 12 magnetic valve, absorption evaporimeter, adsorption condensing device, capillary; Described compressor, the 7th magnetic valve, first adsorbent bed, the 5th magnetic valve, first throttle valve, shell-tube evaporator closed loop successively connect; Connect through capillary between described adsorption condensing device and the absorption evaporimeter, be provided with solid absorbent and cold-producing medium in described first adsorbent bed and second adsorbent bed.

2. a kind of ice cold-storage heat of adsorption according to claim 1 reclaims air-conditioning; It is characterized in that: described first adsorbent bed connects absorption evaporimeter and adsorption condensing device respectively through the 9th magnetic valve, the 11 magnetic valve, and described second adsorbent bed connects adsorption condensing device and absorption evaporimeter respectively through the tenth magnetic valve, the 12 magnetic valve.

3. a kind of ice cold-storage heat of adsorption according to claim 1 reclaims air-conditioning, it is characterized in that: be placed with the cold-storage ice hockey in the described cold-accumulating box; Gap in the described cold-accumulating box between the cold-storage ice hockey is full of glycol water; One end of described cold-accumulating box connects through first magnetic valve on the discharge pipe of water pump through pipeline, and the other end of cold-accumulating box is connected on the tube connector between shell and tube evaporator and the fan coil through the 4th magnetic valve through pipeline.

4. a kind of ice cold-storage heat of adsorption according to claim 1 reclaims air-conditioning; It is characterized in that: in the described cold-accumulating box coil pipe is set; One end of coil pipe is connected on the pipeline between first adsorbent bed and the 5th magnetic valve through second choke valve and the 6th magnetic valve, and the other end of coil pipe is connected on the air intake duct of compressor.

5. a kind of ice cold-storage heat of adsorption according to claim 1 reclaims air-conditioning, and it is characterized in that: described water pump, second magnetic valve, shell and tube evaporator, the 3rd magnetic valve and fan coil closed loop successively are connected.