CN105020815A

CN105020815A - Evaporation condensation type air conditioner

Info

Publication number: CN105020815A
Application number: CN201410164484.3A
Authority: CN
Inventors: 倪仁建
Original assignee: Individual
Current assignee: Zhuji Feimante Environmental Protection Equipment Co ltd
Priority date: 2014-04-20
Filing date: 2014-04-20
Publication date: 2015-11-04
Anticipated expiration: 2034-04-20
Also published as: CN105020815B

Abstract

The invention discloses an evaporation condensation type air conditioner. The outlet end of a compressor is connected with a four-way valve. Outlets of the four-way valve are connected with the inlet end of a radiator, an evaporation plate exchanger and an evaporator fluorine outflow pipe through a first channel, a second channel and a third channel respectively. The outlet end of the radiator is connected with the inlet end of a drying filter through a first check valve. The evaporation plate exchanger is connected with the inlet end of the drying filter through a second check valve. The outlet end of the drying filter is connected with the inlet end of an expansion valve through a liquid storage device. The outlet end of the expansion valve is connected with the evaporation plate exchanger through a third check valve. The outlet end of the expansion valve is connected with the inlet end of a two-way valve. The outlet end of the two-way valve is connected with an evaporator through an evaporator fluorine inflow pipe. The evaporator is connected with the inlet end of a gas and liquid separator through the evaporator fluorine outflow pipe. The outlet end of the gas and liquid separator is connected with the inlet end of the compressor. The evaporation condensation type air conditioner is good in reliability and high in efficiency.

Description

A kind of evaporating condensation type air conditioner

Technical field

The invention belongs to air-conditioning technical field, especially relate to a kind of evaporating condensation type air conditioner.

Background technology

When evaporating condensation type air conditioner is when carrying out heating operation, if the temperature of outdoor environment is too low, then the easy frosting of the evaporimeter of air-conditioning, when evaporimeter frosting to a certain extent time must defrost, otherwise will the heating effect of air-conditioning be affected.The defrosting action of common evaporating condensation type air conditioner is generally the switching of cross valve, namely switch to refrigerating operaton by heating operation, if the switching of cross valve is too frequent, affect the service life of cross valve first, second reduce heating effect, affect the comfort level that air-conditioning uses.The refrigerating circuit of existing evaporating condensation type air conditioner all configures multiple magnetic valve or multiple cross valve, refrigerant circulation circuit complex structure, and valve has leakage unavoidably, and fault rate is high, poor reliability, and efficiency is lower.

Summary of the invention

The object of the invention is to overcome above-mentioned the deficiencies in the prior art, a kind of good reliability is provided, the evaporating condensation type air conditioner that efficiency is high.

For achieving the above object, technical scheme of the present invention is: a kind of evaporating condensation type air conditioner, comprise compressor, cross valve, radiator, device for drying and filtering, reservoir, expansion valve, evaporation plate is changed, evaporimeter and gas-liquid separator, described compressor outlet connects cross valve, described cross valve outlet connects heat sink inlet end by first passage, cross valve outlet connects evaporation plate by second channel and changes, cross valve outlet connects evaporimeter by third channel and goes out fluorine pipe, the water pipe of described radiator inside and water tank and cascade form water circulation, water through cascade is lowered the temperature by refrigeration fan, described radiator outlet end connects device for drying and filtering entrance point by the first check valve, the water route that described evaporation plate changes inner water pipe and indoor set forms water circulation, described indoor set connects defrosting hot-water line to the water inlet pipe place that evaporation plate is changed by defrosting magnetic valve, described evaporation plate is changed and is connected device for drying and filtering entrance point by the second check valve, the described device for drying and filtering port of export connects expansion valve entrance point by reservoir, described expansion valve outlet end connects evaporation plate by the 3rd check valve and changes, expansion valve outlet end connects two-port valve entrance point, the described two-port valve port of export enters fluorine pipe by evaporimeter and connects evaporimeter, described evaporimeter is positioned at vaporization chamber, evaporimeter is made up of copper pipe, defrosting hot-water line is provided with above evaporimeter, described vaporization chamber top is provided with and heats blower fan, described evaporimeter goes out fluorine pipe by evaporimeter and connects gas-liquid separator entrance point, the described gas-liquid separator port of export connects compressor inlet.

Described water tank upper end connects filling pipe and overflow pipe, ball float is provided with filling pipe joint in water tank, water tank bottom is provided with drainpipe, water tank lower end is connected to overflow pipe lower end by blowoff electromagnetic valve, water tank lower end connects the water inlet of radiator by water pump, described exit of pump is provided with non-freezing drainage valve, the delivery port of described radiator arrives shower through cascade room, described cascade room is positioned at above water tank, cascade room wall is provided with cascade, cascade top is provided with shower, and top, described cascade room is equipped with air-cooler.

Described vaporization chamber three coiling copper pipes, described copper pipe outer wall is provided with fin, copper pipe is divided into three groups of settings side by side up and down, described evaporimeter enter fluorine pipe pass through into fluorine adapter be communicated with often organize copper pipe enter fluorine end, described evaporimeter go out fluorine pipe pass through fluorine adapter be communicated with often organize copper pipe go out fluorine end, described defrosting hot-water line is positioned at place above copper pipe and is provided with some hot water outlets.

The port of export of described first check valve connects the port of export of the second check valve.

The port of export of described 3rd check valve connects the entrance point of the second check valve.

Described compressor inlet is provided with low pressure gauge and low pressure fluoridize mouth.

Described compressor outlet is provided with high-pressure manometer and high pressure fluoridize mouth.

Described copper pipe is provided with defrosting temperature sensor.

The invention has the beneficial effects as follows: during refrigeration, water through radiator absorbs heat, temperature rises, water gets off to pass through cascade from shower, now refrigeration fan is duty, taken away by heat in the water of cascade, the temperature of water declines and gets back to water tank and proceeds water circulation, and blowoff electromagnetic valve can carry out blowdown by time opening according to Operation system setting; When heating, can by opening the water that non-freezing drainage valve is given out light in radiator, prevent the too low ice of temperature bad radiator, copper pipe is divided into three groups, accelerates the flowing of refrigerant, improve heating efficiency, and by defrosting temperature sensor senses copper pipe temperature, timely unlatching defrosting magnetic valve, makes the hot water outlet gone directly above copper pipe of the hot water in indoor set spray and carries out defrost, reinforcement heating effect.

Accompanying drawing explanation

Fig. 1 is operation principle schematic diagram of the present invention (solid line is fluorine road, and dotted line is water route);

Fig. 2 is the water route schematic diagram of the present invention's radiator when freezing;

Fig. 3 is the operating diagram of the present invention's evaporimeter when heating.

In figure: compressor 1, cross valve 2, radiator 3, device for drying and filtering 4, reservoir 5, expansion valve 6, evaporation plate changes 7, two-port valve 8, evaporimeter 9, gas-liquid separator 10, water tank 11, cascade 12, refrigeration fan 13, heat blower fan 14, indoor set 15, first passage 16, second channel 17, third channel 18, first check valve 19, second check valve 20, 3rd check valve 21, defrosting magnetic valve 22, low pressure gauge 23, low pressure fluoridize mouth 24, high-pressure manometer 25, high pressure fluoridize mouth 26, defrosting temperature sensor 27, cascade room 28, filling pipe 29, ball float 30, overflow pipe 31, blowoff electromagnetic valve 32, drainpipe 33, water pump 34, non-freezing drainage valve 35, shower 36, copper pipe 37, fin 38, evaporimeter enters fluorine pipe 39, evaporimeter goes out fluorine pipe 40, defrosting hot-water line 41, enter fluorine adapter 42, go out fluorine adapter 43, hot water outlet 44, vaporization chamber 45.

Detailed description of the invention

Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.

As shown in FIG. 1 to 3, a kind of evaporating condensation type air conditioner, comprise compressor 1, cross valve 2, radiator 3, device for drying and filtering 4, reservoir 5, expansion valve 6, evaporation plate changes 7, evaporimeter 9 and gas-liquid separator 10, described compressor 1 port of export connects cross valve 2, described cross valve 2 exports and connects radiator 3 entrance point by first passage 16, cross valve 2 exports and connects evaporation plate by second channel 17 and change 7, cross valve 2 exports and connects evaporimeter by third channel 18 and go out fluorine pipe 40, the water pipe of described radiator 3 inside and water tank 11 and cascade 12 form water circulation, water through cascade 12 is lowered the temperature by refrigeration fan 13, described radiator 3 port of export connects device for drying and filtering 4 entrance point by the first check valve 19, the water route of water pipe and indoor set 15 that described evaporation plate changes 7 inside forms water circulation, described indoor set 15 changes the water inlet pipe place of 7 by defrosting magnetic valve 22 connection defrosting hot-water line 41 to evaporation plate, described evaporation plate is changed 7 and is connected device for drying and filtering 4 entrance point by the second check valve 20, described device for drying and filtering 4 port of export connects expansion valve 6 entrance point by reservoir 5, described expansion valve 6 port of export connects evaporation plate by the 3rd check valve 21 and changes 7, expansion valve 6 port of export connects two-port valve 8 entrance point, described two-port valve 8 port of export enters fluorine pipe 39 by evaporimeter and connects evaporimeter 9, described evaporimeter 9 is positioned at vaporization chamber 45, evaporimeter 9 is made up of copper pipe 37, defrosting hot-water line 41 is provided with above evaporimeter 9, described vaporization chamber 45 top is provided with and heats blower fan 14, described evaporimeter 9 goes out fluorine pipe 40 by evaporimeter and connects gas-liquid separator 10 entrance point, described gas-liquid separator 10 port of export connects compressor 1 entrance point.

Described water tank 11 upper end connects filling pipe 29 and overflow pipe 31, ball float 30 is provided with filling pipe 29 joint in water tank 11, drainpipe 33 is provided with bottom water tank 11, water tank 11 lower end is connected to overflow pipe 31 lower end by blowoff electromagnetic valve 32, water tank 11 lower end connects the water inlet of radiator 3 by water pump 34, described water pump 34 outlet is provided with non-freezing drainage valve 35, the delivery port of described radiator 3 arrives shower 36 through cascade room 28, described cascade room 28 is positioned at above water tank 11, cascade room 28 wall is provided with cascade 12, cascade 12 top is provided with shower 36, top, described cascade room 28 is equipped with air-cooler 13.

Described vaporization chamber 45 3 coiling copper pipes 37, described copper pipe 37 outer wall is provided with fin 38, copper pipe 37 is divided into three groups of settings side by side up and down, described evaporimeter enter fluorine pipe 39 pass through into fluorine adapter 42 be communicated with often organize copper pipe 37 enter fluorine end, described evaporimeter go out fluorine pipe 40 pass through fluorine adapter 43 be communicated with often organize copper pipe 37 go out fluorine end, described defrosting hot-water line 41 is positioned at place above copper pipe 37 and is provided with some hot water outlets 44.

The port of export of described first check valve 19 connects the port of export of the second check valve 20.

The port of export of described 3rd check valve 21 connects the entrance point of the second check valve 20.

Described compressor 1 entrance point is provided with low pressure gauge 23 and low pressure fluoridize mouth 24.

Described compressor 1 port of export is provided with high-pressure manometer 25 and high pressure fluoridize mouth 26.

Described copper pipe 37 is provided with defrosting temperature sensor 27.

Operation principle of the present invention: during refrigeration, refrigerant is compressed into the gas-liquid mixture of HTHP by compressor 1, now cross valve 2 no power, refrigerant enters radiator 3 from first passage 16, water in radiator 3 absorbs the heat of refrigerant and temperature raises, water enters cascade 12 from shower 36, now refrigeration fan 13 is in running order, refrigeration fan 13 blows away the heat in water, make to come back to water tank 11 after the coolant-temperature gage in cascade 12 reduces, water tank 11 carries out moisturizing by filling pipe 29, when water level is too high by overflow pipe 31 spilling water, blowdown is carried out according to Operation system setting time opening blowoff electromagnetic valve 32, also can manually be discharged water by drainpipe 33, water in water tank 11 is delivered in the water pipe in radiator 3 by water pump 34 continually, when winter air-conditioning be in heat state time, non-freezing drainage valve 35 can be opened and put water in dry radiator 3, radiator 3 is prevented to be damaged by frost, the refrigerant of going out from radiator 3 has become the liquid of high pressure low temperature, be stored in reservoir 5 then absorbed the moisture in refrigerant by device for drying and filtering 4 after, liquid coolant becomes gaseous coolant through expansion valve 6, now two-port valve 8 not conducting, refrigerant enters evaporation plate through the 3rd check valve 21 and changes 7, because the pressure of radiator 3 port of export is higher than the pressure of the second check valve 20 entrance point, therefore the refrigerant after the 3rd check valve 21 can not be circulated by the second check valve 20, the evaporation plate water changed in 7 absorbs the cold of refrigerant and temperature reduces, the blower fan of indoor set 15 brushes cold water and freezes, gas-liquid separator 10 is arrived after the refrigerant changing 7 through evaporation plate enters third channel 18 from second channel 17, return compressor 1, low pressure gauge 23 and high-pressure manometer 25 can pay close attention to running state of air conditioner at any time, add by low pressure fluoridize mouth 24 or high pressure fluoridize mouth 26 when cold medium shortage, low pressure fluoridize mouth 24 or high pressure fluoridize mouth 26 also can be utilized to vacuumize, utilize simultaneously low pressure fluoridize mouth 24 and high pressure fluoridize mouth 26 vacuumizing effect better.

When heating, refrigerant is compressed into the gas-liquid mixture of HTHP by compressor 1, now cross valve 2 is energized, first passage 16 not conducting, second channel 17 conducting, refrigerant enters evaporation plate and changes 7, the evaporation plate water changed in 7 absorbs the heat of refrigerant and temperature raises, the blower fan of indoor set 15 brushes hot water and heats, evaporation plate changes the liquid that 7 refrigerants have out become high pressure low temperature, refrigerant through the second check valve 20 through device for drying and filtering 4 and reservoir 5, gaseous coolant is become in expansion valve 6, now two-port valve 8 conducting, and the 3rd check valve 21 outlet pressures is higher than its entrance point pressure, therefore refrigerant can not circulate from the 3rd check valve 21, refrigerant arrives evaporimeter 9 through two-port valve 8, refrigerant releases cold on evaporimeter 9, now heat blower fan 14 in running order, cold is blown to outside, when the temperature is too low, meeting frosting on evaporimeter 9, the temperature sensor 27 that now defrosts senses that temperature is too low, by starting defrosting magnetic valve 22, a part of hot water in indoor set 15 is watered defrost on copper pipe 37 from defrosting hot-water line 41 by hot water outlet 44 ejection, refrigerant enters gas-liquid separator 10 after evaporator 9, finally get back to compressor 1.

Claims

1. an evaporating condensation type air conditioner, comprise compressor (1), cross valve (2), radiator (3), device for drying and filtering (4), reservoir (5), expansion valve (6), evaporation plate is changed (7), evaporimeter (9) and gas-liquid separator (10), it is characterized in that: described compressor (1) port of export connects cross valve (2), described cross valve (2) outlet connects radiator (3) entrance point by first passage (16), cross valve (2) outlet connects evaporation plate by second channel (17) and changes (7), cross valve (2) outlet connects evaporimeter by third channel (18) and goes out fluorine pipe (40), the water pipe that described radiator (3) is inner and water tank (11) and cascade (12) form water circulation, water through cascade (12) is lowered the temperature by refrigeration fan (13), described radiator (3) port of export connects device for drying and filtering (4) entrance point by the first check valve (19), the water route that described evaporation plate changes (7) inner water pipe and indoor set (15) forms water circulation, described indoor set (15) changes (7) water inlet pipe place to evaporation plate connects defrosting hot-water line (41) by defrosting magnetic valve (22), described evaporation plate is changed (7) and is connected device for drying and filtering (4) entrance point by the second check valve (20), described device for drying and filtering (4) port of export connects expansion valve (6) entrance point by reservoir (5), described expansion valve (6) port of export connects evaporation plate by the 3rd check valve (21) and changes (7), expansion valve (6) port of export connects two-port valve (8) entrance point, described two-port valve (8) port of export enters fluorine pipe (39) by evaporimeter and connects evaporimeter (9), described evaporimeter (9) is positioned at vaporization chamber (45), evaporimeter (9) is made up of copper pipe (37), evaporimeter (9) top is provided with defrosting hot-water line (41), described vaporization chamber (45) top is provided with and heats blower fan (14), described evaporimeter (9) goes out fluorine pipe (40) by evaporimeter and connects gas-liquid separator (10) entrance point, described gas-liquid separator (10) port of export connects compressor (1) entrance point.

2. a kind of evaporating condensation type air conditioner as claimed in claim 1, it is characterized in that: described water tank (11) upper end connects filling pipe (29) and overflow pipe (31), ball float (30) is provided with filling pipe (29) joint in water tank (11), water tank (11) bottom is provided with drainpipe (33), water tank (11) lower end is connected to overflow pipe (31) lower end by blowoff electromagnetic valve (32), water tank (11) lower end connects the water inlet of radiator (3) by water pump (34), described water pump (34) outlet is provided with non-freezing drainage valve (35), the delivery port of described radiator (3) arrives shower (36) through cascade room (28), described cascade room (28) is positioned at water tank (11) top, cascade room (28) wall is provided with cascade (12), cascade (12) top is provided with shower (36), described cascade room (28) top is equipped with air-cooler (13).

3. a kind of evaporating condensation type air conditioner as claimed in claim 1, it is characterized in that: described vaporization chamber (45) three coiling copper pipes (37), described copper pipe (37) outer wall is provided with fin (38), copper pipe (37) is divided into three groups of settings side by side up and down, described evaporimeter enter fluorine pipe (39) pass through into fluorine adapter (42) be communicated with often organize copper pipe (37) enter fluorine end, described evaporimeter go out fluorine pipe (40) pass through fluorine adapter (43) be communicated with often organize copper pipe (37) go out fluorine end, described defrosting hot-water line (41) is positioned at copper pipe (37) top place and is provided with some hot water outlets (44).

4. a kind of evaporating condensation type air conditioner as claimed in claim 1, is characterized in that: the port of export of described first check valve (19) connects the port of export of the second check valve (20).

5. a kind of evaporating condensation type air conditioner as claimed in claim 1, is characterized in that: the port of export of described 3rd check valve (21) connects the entrance point of the second check valve (20).

6. a kind of evaporating condensation type air conditioner as claimed in claim 1, is characterized in that: described compressor (1) entrance point is provided with low pressure gauge (23) and low pressure fluoridize mouth (24).

7. a kind of evaporating condensation type air conditioner as claimed in claim 1, is characterized in that: described compressor (1) port of export is provided with high-pressure manometer (25) and high pressure fluoridize mouth (26).

8. a kind of evaporating condensation type air conditioner as claimed in claim 1, is characterized in that: described copper pipe (37) is provided with defrosting temperature sensor (27).