CN104652108A - Enclosed clothes drying cabinet with three condensers - Google Patents

Abstract

The invention discloses an enclosed clothes drying cabinet with three condensers. The enclosed clothes drying cabinet with the three condensers comprises a cabinet body which is enclosed relatively, a partition plate, a compressor, a draught fan, an evaporator, an expansion valve, a primary condenser, a secondary condenser, an auxiliary condenser, an electric three-way valve and a temperature sensor, wherein the partition plate is fixed to the inner wall of the cabinet body and divides the space in the cabinet body into an air channel and a clothes drying area; an air inlet is formed in one end of the air channel; an air outlet is formed in the other end of the air channel; the draught fan is arranged at the air inlet; the refrigerant outlet of the compressor is communicated to the refrigerant inlet of the compressor through the primary condenser, the first end opening of the electric three-way valve, the second end opening of the electric three-way valve, the auxiliary condenser, the secondary condenser, the expansion valve and the evaporator in sequence; the third end opening of the electric three-way valve is also communicated with the refrigerant inlet of the secondary condenser; the secondary condenser is arranged on the outer wall of the cabinet body. According to the enclosed clothes drying cabinet with the three condensers, high-temperature low-humidity circulating air can be generated; the heat in the cabinet body can be balanced; the overheating can be prevented; the clothes are dried with high efficiency and low energy consumption.

Description

The closed clothing-drying wardrobe of a kind of three condenser

Technical field

The present invention relates to clothing-drying wardrobe, particularly relate to the closed clothing-drying wardrobe of a kind of three condenser.

Background technology

In wet weather, clothes after washing is difficult to dry, the clothes be placed in common wardrobe is then easily mouldy, and this problem annoyings the life of people, and people constantly study invention, produce clothing-drying wardrobe and solve this difficult problem for this reason, the principal element that order affects clothing-drying wardrobe drying speed has: air epidemic disaster and flow velocity, air themperature is high, and humidity is low, and wind speed is large, drying speed is just fast, otherwise then slow.But existing clothing-drying wardrobe all exists many weak points, such as:

1., for the clothing-drying wardrobe of air-heater class, it has closed and open two classes, closed in clothes drying process heater air heat in cabinet, finally cause hot and humid environment in cabinet, greatly affect drying speed; For open, then new heating external air after-blow is got rid of outside cabinet to heating clothes in cabinet, and the power consumption of this type of clothing-drying wardrobe is large, is unfavorable for the energy-conservation principle of sustainable development.

2., for the clothing-drying wardrobe of heat pump class, the operation principle of the dehumidifier of its foundation, is a kind of energy-saving system, also has closed and open two classes at present.

(1), closed

Its know-why is under the power of blower fan.In cabinet, first air flows through evaporator surface, is down to below air dew point temperature by low-temperature surface chilling temperature, and water in air part is disengaged, cold air flows through condenser surface heating again, form high temperature low-humidity air, then flow in cabinet dry to clothes, go round and begin again and reach drying effect.But this closed heat pump clothes dryer also exists the unbalanced problem of system thermal, cause this type of clothing-drying wardrobe can not continuous running or burn out unit due to condensation overtemperature.Reason is as follows:

According to law of conservation of energy, the energy balance formula of refrigeration system: condensation process releases heat: Q1=q+AL; In examination: A is compressor work, L is the mechanical equivalent of heat.Q1 is that evaporation process absorbs heat, obvious Q1 ﹥ q, in the clothing-drying wardrobe closed, the heat that produces of unit interval is the heat Q2 that acting that condensation process releases heat Q1+ blower fan transforms, the heat shifted out is q, the heat difference that unit interval produces is AL+Q2, be 300 ~ 400w by Domestic clothes drying cabinet compression horsepower, fan operation power is 40 ~ 60w, cabinet internal volume is by 600 ~ 1000L, the specific heat of air is 0.24 kilocalorie/kg DEG C and calculates, obviously, the accumulation heat produced just raises air themperature in cabinet very soon, when the condensation limiting temperature of temperature higher than refrigeration system, work unit in clothing-drying wardrobe just must be out of service, otherwise the compressor that cold is provided will be burnt out.

(2), open

Its know-why is under the power of blower fan.First clothing-drying wardrobe extraneous air flows through evaporator surface, is down to below air dew point temperature by low-temperature surface chilling temperature, and in air, part water disengages, cold air flows through condenser surface heating again, form high temperature low-humidity air, then flow in cabinet dry to clothes, be then discharged into outside cabinet.Obviously, the power consumption of this type of dryer is large, is unfavorable for energy-conservation, does not meet the principle of sustainable development.

Summary of the invention

In order to overcome the deficiencies in the prior art, the object of the present invention is to provide the closed clothing-drying wardrobe of a kind of three condenser, the circulation wind of high temperature low humidity can be produced, can prevent overheated and carry out high efficiency, low energy consumption drying by balancing tank intimate heat.

Object of the present invention realizes by the following technical solutions:

The closed clothing-drying wardrobe of a kind of three condenser, comprise the cabinet of relative closure, dividing plate, compressor, blower fan, evaporimeter, expansion valve, main condenser, secondary condenser, auxiliary condenser, electric T-shaped valve and the temperature sensor for controlling each port break-make switching of electric T-shaped valve, dividing plate is fixed on cabinet inwall, and the space in cabinet is divided into air channel and drying district, the one end in air channel is provided with air inlet, the other end in air channel is provided with air outlet, and air inlet and air outlet are all communicated with drying district; Air inlet is located at by blower fan; Electric T-shaped valve, evaporimeter, main condenser and auxiliary condenser are all located in air channel, and main condenser and auxiliary condenser are positioned at the evaporimeter rear along blower fan wind direction, the refrigerant outlet of compressor is communicated to the refrigerant inlet of compressor successively through the first port of main condenser, electric T-shaped valve, the second port of electric T-shaped valve, auxiliary condenser, secondary condenser, expansion valve, evaporimeter, 3rd port of electric T-shaped valve is also communicated with the refrigerant inlet of secondary condenser, and secondary condenser is located at the outer wall of cabinet.

Preferably, described evaporimeter is provided with electric heater, is also provided with temperature controller in air channel, and this temperature controller is electrically connected with electric heater.

Preferably, the closed clothing-drying wardrobe of described three condenser also comprises controller, and this controller is electrically connected electric T-shaped valve and temperature sensor respectively, and temperature controller is electrically connected with electric heater by this controller.

Preferably, the closed clothing-drying wardrobe of described three condenser also comprises drainpipe and drip tray, and drip tray is fixed on bottom of cabinet bulk, and the upper end of drainpipe is passed cabinet diapire and is communicated with air channel, and the lower end of drainpipe is towards drip tray.

Preferably, the upper of described drainpipe is rectified evaporimeter.

Preferably, described drainpipe is in " ∽ " type.

Preferably, to have plugged into framework to downward-extension in the bottom of described cabinet, described drainpipe, drip tray and compressor are all positioned at this framework.

Preferably, one of them sidewall of described cabinet is provided with cabinet door.

Preferably, described blower fan is vortex fan.

Compared to existing technology, beneficial effect of the present invention is:

(1) the present invention by blower fan by air from drying district to air channel carry out air circulation, air is made to obtain the cool-down dehumidification of evaporimeter, again by main condenser, auxiliary condenser heats up, the high temperature low-humidity air of gained can more efficient drying, and, under the temperature sense regulation and control of temperature sensor, the break-make that can control electric T-shaped valve three ports switches, and then the cold-producing medium that compressor exports is shunted, make main condenser, secondary condenser, the form that auxiliary condenser forms three condensers shares the heat of cold-producing medium jointly, can also selective rhizotomy auxiliary condenser, too much cause thermal damage compressor is crossed to prevent quantity of heat given up, thus control the heat that main condenser passes to air in air channel, maintain the dynamic equilibrium of cabinet intimate heat, be conducive to efficient drying further, and due to cabinet opposing seal, then clothing also obtains drying by the drying district of opposing seal, consume energy low, be particularly suitable for family to use, in addition, in conjunction with controller, can electric T-shaped valve more easy to control each port break-make switch, on evaporimeter to air dewetting condensation formed condensed water and air channel in natural condensation water will be expelled to drip tray through drainpipe.

(2) the present invention comes according to the air themperature in cabinet by temperature controller, controller and then controls electric heater start and stop work, start/stop of compressor work is controlled by controller, then can when detecting that in cabinet, air themperature is very low, the work of close compressor, and the circulating-heating that realization is carried out under fan action the air in cabinet, prevent the directly temperature very low to temperature from carrying out the cool-down dehumidification under evaporimeter effect, avoid freezing and blocking evaporimeter, the cool-down dehumidification efficiency of evaporimeter can be promoted simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of the closed clothing-drying wardrobe of the present invention three condenser.

In figure: 1, cabinet; 2, dividing plate; 21, level board; 22, vertical plate; 3, compressor; 4, evaporimeter; 5, expansion valve; 6, electric T-shaped valve; 7, temperature sensor; 8, main condenser; 9, secondary condenser; 10, controller; 101, drainpipe; 102, drip tray; 11, blower fan; 12, air channel; 121, air inlet; 122, air outlet; 13, drying district; 14, electric heater; 15, temperature controller; 16, framework; 17, cabinet door; 18, auxiliary condenser.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the present invention is described further:

The closed clothing-drying wardrobe of one three condenser as shown in Figure 1, comprise the cabinet 1 of relative closure, dividing plate 2, compressor 3, blower fan 11, evaporimeter 4, expansion valve 5, main condenser 8, secondary condenser 9, auxiliary condenser 18, electric T-shaped valve 6 and the temperature sensor 7 for controlling each port break-make switching of electric T-shaped valve 6, dividing plate 2 is fixed on cabinet 1 inwall, and the space in cabinet 1 is divided into air channel 12 and drying district 13, the one end in air channel 12 is provided with air inlet 121, the other end in air channel 12 is provided with air outlet 122, air inlet 121 is all communicated with drying district 13 with air outlet 122, air inlet 121 is located at by blower fan 11, electric T-shaped valve 6, evaporimeter 4, main condenser 8 and auxiliary condenser 18 are all located in air channel 12, and main condenser 8 and auxiliary condenser 18 are positioned at evaporimeter 4 rear along blower fan 11 wind direction, the refrigerant outlet of compressor 3 is communicated to the refrigerant inlet of compressor 3 successively through the second port of the first port of main condenser 8, electric T-shaped valve 6, electric T-shaped valve 6, auxiliary condenser 18, secondary condenser 9, expansion valve 5, evaporimeter 4,3rd port of electric T-shaped valve 6 is also communicated with the refrigerant inlet of secondary condenser 9, and secondary condenser 9 is located at the outer wall of cabinet 1.

The blower fan 11 of this example is adopted as vortex fan, can form the output of large wind, air quantity; Compressor 3 is adopted as conventional refrigeration compressor; The sidewall of cabinet 1 can wrap up heat-insulation layer to be beneficial to maintain the air themperature in cabinet 1, dividing plate 2 comprises the level board 21 being parallel to cabinet 1 diapire and the vertical plate 22 being parallel to cabinet 1 sidewall, and level board 21 is connected with vertical plate 22.By the separation of level board 21 and vertical plate 22, air channel 12 also will form horizontal segment and vertical section, to make air channel 12 extended along cabinet 1 inwall, to increase the space in drying district 13 as far as possible, be beneficial to and will put into more clothings.

Air in drying district 13 is blown into air channel 12 through air inlet 121 by blower fan 11, air in air channel 12 is successively through evaporator 4, main condenser 8, auxiliary condenser 18, and obtain cool-down dehumidification at evaporimeter 4 place, heated up at main condenser 8, auxiliary condenser 18 place, then at the air of air outlet 122 place blowout high temperature low humidity, drying district 13 is entered, then at the air-extraction function blowing down air-return duct 12 of blower fan 11, final formation circulation wind, implements highly effective drying effect to the clothing in drying district 13; Wherein, the air flow in air channel 12 is the wind direction of blower fan 11.

The cold-producing medium transmission of compressor 3 pairs of evaporimeters 4, main condenser 8, secondary condenser 9, auxiliary condenser 18 transmits circulation by pipeline, the refrigerant vapour of the refrigerant outlet output High Temperature High Pressure of compressor 3 enters main condenser 8, secondary condenser 9 and auxiliary condenser 18, air heat in main condenser 8, auxiliary condenser 18 pairs of air channels 12 is heated up, after the temperature detection of temperature sensor 7 pairs of main condensers 8, temperature sensor 7 feedback signal to electric T-shaped valve 6, to realize the break-make opening and closing of each port of electric T-shaped valve 6.By pre-setting this feedback signal machine electric T-shaped valve 6, can make when main condenser 8 temperature is too high (general this too high limiting temperature of setting is 35 DEG C ~ 45 DEG C), cut off the cold-producing medium of input auxiliary condenser 18, auxiliary condenser 18 is made to stop heat supply, the refrigerant vapour of High Temperature High Pressure can branch to secondary condenser 9, and the heat that secondary condenser 9 produces will be discharged outside cabinet 1.The refrigerant liquid formed after main condenser 8, secondary condenser 9 and auxiliary condenser 18 condensation enters evaporimeter 4 again and comes evaporimeter 4 surface cooling after expansion valve 5, make evaporimeter 4 can carry out cool-down dehumidification to the air in air channel 12, cold-producing medium is back to the refrigerant inlet of compressor 3 again.

Particularly, during work, compressor 3, blower fan 11 start simultaneously, evaporimeter 4 is because of cold-producing medium evaporation, surface temperature is reduced to below air dew point temperature, more than 0 DEG C, and main condenser 8, auxiliary condenser 18 are because of condensation of refrigerant, surface temperature rises to high temperature, but limits the condensation limiting temperature of its temperature≤compressor 3.In cabinet 1, air is surperficial through evaporimeter 4 at the flows by action of blower fan 11, below air dew point temperature is down to by its low-temperature surface chilling temperature, in air, part water disengages, cold air flows through main condenser 8, auxiliary condenser 18 surface heating again, form high temperature low-humidity air, then flow in cabinet 1 dry to clothes, go round and begin again and reach drying effect.

This clothing-drying wardrobe is in an oven dry cycle, its load constantly changes, heat energy change in cabinet can be caused, at drying in earlier stage, in cabinet 1, water in air part comparision contents is high, the latent heat that water vapour condensation process is taken away is larger, in the drying later stage, in cabinet 1, water in air part comparision contents is few, the latent heat that water vapour condensation process is taken away is fewer, under refrigerating capacity constant duty, three condenser generates heat are constant, and changed with the cold of sensible heat form, if, heat in drying later stage cabinet, balance is in cold, so at drying in earlier stage, main condenser 8 produces heat and is just greater than cold, continuous service, in cabinet 1, temperature will raise, finally reach the condensation temperature limit and shut down, therefore the main condenser 8 of series connection is set, auxiliary condenser 18, secondary condenser 9 (condensers of three series connection), according to main condenser 8 temperature regime, realize following two kinds of selectable high temperature refrigerant glide path trends: (1) main condenser 8 → auxiliary condenser 18 → secondary condenser 9, (2) main condenser 8 → secondary condenser 9.Make a concrete analysis of as follows:

After main condenser 8 temperature is increased to the temperature of setting, temperature sensor 7 responds to its temperature control electric T-shaped valve 6 and cuts out auxiliary condenser 18 path, and connect secondary condenser 9 passage, secondary condenser 9 is directly entered from main condenser 8 cold-producing medium out, thus reduce discharged to the heat in cabinet 1, secondary condenser 9 is arranged on outside cabinet 1, and its heat produced passes in cabinet 1 outer air.Owing to removing auxiliary condenser 18 discharged to the heat in cabinet 1, the temperature of main condenser 8 will drop within the scope of design temperature gradually.After main condenser 8 temperature is lower than the temperature set, temperature sensor 7 controls electric T-shaped valve 6 and connects auxiliary condenser 18, and making increases discharged to the heat in cabinet 1, and main condenser 8 temperature starts again to raise.The automatic adjustment gone round and begun again like this, makes condensation temperature control in the scope of setting, also makes air constant in cabinet 1 in the high temperature range of setting.

As one preferred embodiment, described evaporimeter 4 is provided with electric heater 14, is also provided with temperature controller 15 in air channel 12, and this temperature controller 15 is electrically connected with electric heater 14.Electric heater 14 can assist heating fumigators 4 at low ambient temperatures.

Further, the closed clothing-drying wardrobe of this three condenser also comprises controller 10, and this controller 10 is electrically connected electric T-shaped valve 6 and temperature sensor 7 respectively, and temperature controller 15 is electrically connected with electric heater 14 by this controller 10, to be easy to control.Temperature controller 15 is preferably arranged on air inlet 121 place, to obtain the temperature in cabinet 1 fast.

Under the environment of low temperature, when the temperature of air in cabinet 1 is lower than the temperature set, during firm start, under the control of temperature controller 15, electric heater 14 is connected automatically, under the control of controller 10, now whole refrigeration system (compressor 3, three condensers) is controlled is in the state of quitting work, and blower fan 11 runs.By heating, constant temperature raises the air flowing through at electric heater 14, and when the temperature of air rises to the temperature of setting, under the control of temperature controller 15, electric heater 14 quits work, and whole refrigeration system (compressor 3, three condensers) puts into operation.

Wherein, temperature controller 15, temperature sensor 7 can adopt temp-sensing element binding entity circuit (as relay circuit) to realize controlling the on/off of electric heater 14, electric T-shaped valve 6 respectively, controller 10 also can come to switch the signals collecting of temperature sensor 7 and then each port break-make of control electric T-shaped valve 6 by entity circuit structure, the control realization mode of this temperature controller 15, temperature sensor 7, controller 10 is the conventional selection mode of those skilled in the art, and realizes this Automated condtrol without the need to software program.Certainly, controller 10 also can adopt single-chip microcomputer, MCU or PLC or CPU in conjunction with software program to realizing above-mentioned control.

As the embodiment improved, the closed clothing-drying wardrobe of this three condenser also comprises drainpipe 101 and drip tray 102, drip tray 102 is fixed on bottom cabinet 1, and the upper end of drainpipe 101 is passed cabinet 1 diapire and is communicated with air channel 12, and the lower end of drainpipe 101 is towards drip tray 102.Drainpipe 101 can receive evaporimeter 4 and to lower the temperature the water that moisture in air in the water disengaged, natural condensation is formed in air channel 12 water and drying district 13 disengages, then is expelled to drip tray 102.Preferably, the upper of described drainpipe 101 is rectified evaporimeter 4.Drainpipe 101 is in " ∽ " type, then in drainpipe 101, the ponding of " ∽ " type corner can form oneself's sealing, prevents cabinet 1 extraneous air from entering through drainpipe 101 temperature, the humidity that affect air in air channel 12, drying district 13 in cabinet 1.

For providing firm support to cabinet 1, being convenient to drainpipe 101 draining simultaneously and being convenient to picking and placeing of drip tray 102, to have plugged into framework 16 to downward-extension in the bottom of cabinet 1, described drainpipe 101, drip tray 102 and compressor 3 are all positioned at this framework 16.Controller 10 is also positioned at this framework 16.Take in cabinet 1 for ease of clothing or take out outside cabinet 1, one of them sidewall of cabinet 1 is provided with cabinet door 17, and cabinet door 17 also can keep the opposing seal state in drying district 13 simultaneously.

To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of the claims in the present invention.

Claims (9)

1. the closed clothing-drying wardrobe of condenser, it is characterized in that: comprise the cabinet of relative closure, dividing plate, compressor, blower fan, evaporimeter, expansion valve, main condenser, secondary condenser, auxiliary condenser, electric T-shaped valve and the temperature sensor for controlling each port break-make switching of electric T-shaped valve, dividing plate is fixed on cabinet inwall, and the space in cabinet is divided into air channel and drying district, the one end in air channel is provided with air inlet, the other end in air channel is provided with air outlet, and air inlet and air outlet are all communicated with drying district; Air inlet is located at by blower fan; Electric T-shaped valve, evaporimeter, main condenser and auxiliary condenser are all located in air channel, and main condenser and auxiliary condenser are positioned at the evaporimeter rear along blower fan wind direction, the refrigerant outlet of compressor is communicated to the refrigerant inlet of compressor successively through the first port of main condenser, electric T-shaped valve, the second port of electric T-shaped valve, auxiliary condenser, secondary condenser, expansion valve, evaporimeter, 3rd port of electric T-shaped valve is also communicated with the refrigerant inlet of secondary condenser, and secondary condenser is located at the outer wall of cabinet.

2. the closed clothing-drying wardrobe of three condenser according to claim 1, it is characterized in that: described evaporimeter is provided with electric heater, is also provided with temperature controller in air channel, this temperature controller is electrically connected with electric heater.

3. the closed clothing-drying wardrobe of three condenser according to claim 2, it is characterized in that: the closed clothing-drying wardrobe of described three condenser also comprises controller, this controller is electrically connected electric T-shaped valve and temperature sensor respectively, and temperature controller is electrically connected with electric heater by this controller.

4. the closed clothing-drying wardrobe of three condenser according to claim 1, it is characterized in that: the closed clothing-drying wardrobe of described three condenser also comprises drainpipe and drip tray, drip tray is fixed on bottom of cabinet bulk, the upper end of drainpipe is passed cabinet diapire and is communicated with air channel, and the lower end of drainpipe is towards drip tray.

5. the closed clothing-drying wardrobe of three condenser according to claim 4, is characterized in that: the upper of described drainpipe is rectified evaporimeter.

6. the closed clothing-drying wardrobe of three condenser according to claim 4, is characterized in that: described drainpipe is in " ∽ " type.

7. the closed clothing-drying wardrobe of three condensers according to any one of claim 4 ~ 6, is characterized in that: to have plugged into framework to downward-extension in the bottom of described cabinet, described drainpipe, drip tray and compressor are all positioned at this framework.

8. the closed clothing-drying wardrobe of three condensers according to any one of claim 1 ~ 6, is characterized in that: one of them sidewall of described cabinet is provided with cabinet door.

9. the closed clothing-drying wardrobe of three condensers according to any one of claim 1 ~ 6, is characterized in that: described blower fan is vortex fan.