CN204902234U - Domestic air can bathroom dehumidification high temperature hot -water heating system - Google Patents

Abstract

The utility model discloses a domestic air can bathroom dehumidification high temperature hot -water heating system, the refrigerant compressor connects to form in proper order and heats return circuit or dehumidification return circuit with heating return circuit subassembly or dehumidification return circuit subassembly through the electromagnetism cross valve, is equipped with temperature sensor and fan on the evaporimeter. The utility model discloses a heating return circuit, dehumidification return circuit and converting the defrosting return circuit into through electromagnetism cross valve above -mentioned two kinds of return circuits, integrated designs are adopted in three kind above -mentioned return circuits, and it still is equipped with the fan simultaneously. Make the user select the operation to heat return circuit, dehumidification return circuit, fan according to the demand to realizing manufacturing hot water, the function that dehumidifies and take a breath, saving the running cost effectively, the thermal efficiency is high. When operation dehumidification return circuit, both can produce life hot water and can dehumidify to the bathroom simultaneously and not only saved electric energy or raw materials expense, the in -process is moved moreover and harmful substance such as waste water, waste gas, dust can be do not not produced, really accomplished economy, energy -conservation, environmental protection. The utility model is used for the hydrothermal manufacturing of bathing.

Description

Domestic air energy bathroom dehumidifying high temperature water heating system

Technical field

The utility model relates to domestic hot-water and bathroom dehumidification system, particularly one way of life hot water and bathroom and to dehumidify the intelligent hot-water heating system of integral type.

Background technology

Existingly do not have dehumidification function for industry or civilian air energy thermal water system, its structure is all generally independent integral type or Split hot water system, and main frame is often placed in outdoor, and when temperature is low in the winter time, defrost is frequent, and the thermal efficiency is low.Because it does not possess the function of dehumidifying, make bathroom can produce a large amount of damp and hot steam when shower, the excessive health being unfavorable for people of steam under airtight environment, and high humidity steam can condense into the service life that condensed water shortens bath indoor article on bathroom body of wall and article.

Utility model content

The technical problems to be solved in the utility model is: provide a kind of and be placed in the indoor intelligent hot-water heating system integrating air-source water heater and bathroom dehumidifier.

The solution that the utility model solves its technical problem is:

Domestic air energy bathroom dehumidifying high temperature water heating system, comprises the cold medium compressor being provided with refrigerant exit and refrigerant inlet, also comprises solenoid operated four-way valve, heats circuit assemblies and loop dehumidification assembly;

Solenoid operated four-way valve has D interface, E interface, S interface, C interface, and D interface is connected with refrigerant exit pipeline, and S interface is connected with refrigerant inlet pipeline;

Heat circuit assemblies, comprising:

Sequentially be connected on the storage-type condenser assembly between C interface and E interface, the second magnetic valve, filter, electronic throttle expansion valve, evaporimeter;

Loop dehumidification assembly, comprising:

Sequentially be connected on the storage-type condenser assembly between C interface and E interface, the first magnetic valve, except wet condenser, filter, electronic throttle expansion valve, evaporimeter;

Cold medium compressor, solenoid operated four-way valve and heat circuit assemblies and form and heat loop; Cold medium compressor, solenoid operated four-way valve and loop dehumidification assembly form loop dehumidification;

Evaporimeter is provided with temperature sensor and can be used for strengthening the fan that evaporimeter carries out heat exchange.

As the further improvement of such scheme, heat circuit assemblies and loop dehumidification assembly all shared same evaporimeter, electronic throttle expansion valve, filter, storage-type condenser assembly.

As the further improvement of such scheme, storage-type condenser assembly comprises at least two storage-type condensers, is provided with heat(ing) coil in storage-type condenser.

As the further improvement of such scheme, between refrigerant exit and solenoid operated four-way valve, be provided with high voltage protector; Gas-liquid separator and low voltage protection device for electrophonic is provided with between refrigerant inlet and solenoid operated four-way valve.

The beneficial effects of the utility model are: of the present utility modelly heat loop, loop dehumidification and will heat loop by solenoid operated four-way valve or loop dehumidification is converted to defrost circuit, and above-mentioned three kinds of loops adopt integrated design, and it is also provided with fan simultaneously.Make user that operation can be selected according to demand to heat loop, loop dehumidification, fan, to realize the function manufacturing hot water, dehumidifying and ventilation, thus effectively can save operating cost, the thermal efficiency is high.Especially, when running loop dehumidification, both can dehumidify to bathroom while of can having produced domestic hot-water and not only save electric energy or expense of raw materials, and the harmful substances such as waste water, waste gas, dust can not be produced in running, really accomplish economy, energy-saving and environmental protection.The utility model is for the manufacture of hot water of taking a shower.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described.Obviously, described accompanying drawing is a part of embodiment of the present utility model, instead of whole embodiment, and those skilled in the art, under the prerequisite not paying creative work, can also obtain other designs and accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural principle schematic diagram of the utility model embodiment.

Detailed description of the invention

Be clearly and completely described below with reference to embodiment and the accompanying drawing technique effect to design of the present utility model, concrete structure and generation, to understand the purpose of this utility model, characteristic sum effect fully.Obviously; described embodiment is a part of embodiment of the present utility model, instead of whole embodiment, based on embodiment of the present utility model; other embodiments that those skilled in the art obtains under the prerequisite not paying creative work, all belong to the scope of the utility model protection.In addition, all connection/annexations mentioned in literary composition, not singly refer to that component directly connects, and refer to and according to concrete performance, can connect auxiliary by adding or reducing, and form more excellent draw bail.Each technical characteristic in the invention, can combination of interactions under the prerequisite of not conflicting conflict.

See Fig. 1, domestic air energy bathroom dehumidifying high temperature water heating system, comprises the cold medium compressor 11 being provided with refrigerant exit 111 and refrigerant inlet 112, also comprises solenoid operated four-way valve 2, heats circuit assemblies and loop dehumidification assembly;

Solenoid operated four-way valve 2 has D interface, E interface, S interface, C interface, and D interface is connected with refrigerant exit 111 pipeline, and S interface is connected with refrigerant inlet 112 pipeline;

Heat circuit assemblies, comprising:

Sequentially be connected on the storage-type condenser assembly between C interface and E interface, the second magnetic valve 14, filter 15, electronic throttle expansion valve 16, evaporimeter 17;

Cold medium compressor 11 heats circuit assemblies composition by solenoid operated four-way valve 2 connection and heats loop, cold-producing medium is made to enter from refrigerant exit 111 the storage-type condenser assembly heated circuit assemblies through solenoid operated four-way valve 2, then flow out from the evaporimeter 17 heated circuit assemblies, enter solenoid operated four-way valve 2, finally enter cold medium compressor 11 from refrigerant inlet 112;

Loop dehumidification assembly, comprising:

Sequentially be connected on the storage-type condenser assembly between C interface and E interface, the first magnetic valve 18, except wet condenser 19, filter 15, electronic throttle expansion valve 16, evaporimeter 17;

Cold medium compressor 11 forms loop dehumidification by solenoid operated four-way valve 2 and loop dehumidification assembly; Make cold-producing medium enter storage-type condenser assembly loop dehumidification assembly through solenoid operated four-way valve 2 from refrigerant exit 111, then flow out from the evaporimeter 17 heated circuit assemblies, enter solenoid operated four-way valve 2, finally enter cold medium compressor 11 from refrigerant inlet 112.

Solenoid operated four-way valve 2 can make to heat circuit assemblies by the switching between ON and OFF and/or loop dehumidification converts defrost circuit to, namely refrigerant exit 111 connects evaporimeter 17 by solenoid operated four-way valve 2, and refrigerant inlet 112 connects storage-type condenser assembly by solenoid operated four-way valve 2; Cold-producing medium is made to enter from refrigerant exit 111 evaporimeter 17 heated circuit assemblies or loop dehumidification assembly through solenoid operated four-way valve 2, then flow out from the storage-type condenser assembly heated circuit assemblies or loop dehumidification assembly, enter solenoid operated four-way valve 2, finally enter cold medium compressor 11 from refrigerant inlet 112;

For simplifying structure, heat circuit assemblies and loop dehumidification assembly all shared same evaporimeter 17, electronic throttle expansion valve 16, filter 15, storage-type condenser assembly;

Evaporimeter 17 is provided with temperature sensor and can be used for strengthening the fan 21 that evaporimeter 17 carries out heat exchange, fan 21 can also be used for the ventilation in bathroom, the transmission of the temperature signal of evaporimeter 17 then can be reached the control system of peripheral hardware by temperature sensor, if this system finds that evaporimeter 17 has danger or the frosting of frosting, then run defrost circuit.

In order to carry out heat exchange preferably between cold-producing medium and water, more heat can be allowed to stay in storage-type condenser assembly, the storage-type condenser assembly of the present embodiment is made split type, comprise at least two storage-type condensers 13, allow cold-producing medium successively can enter this two storage-type condensers 13, thus forming the storage-type condenser 13 of a high temperature and the storage-type condenser 13 of a low temperature, the storage-type condenser 13 of low temperature can the heat of absorption refrigeration agent more.Be provided with heat(ing) coil 131 in storage-type condenser 13, heat(ing) coil 131 is coiled to form by copper pipe, makes cold-producing medium can carry out heat exchange with water well.

Consider for safety and the stability of a system, between the refrigerant exit 111 of the present embodiment and solenoid operated four-way valve 2, be provided with high voltage protector 31; Gas-liquid separator 32 and low voltage protection device for electrophonic 33 is provided with between refrigerant inlet 112 and solenoid operated four-way valve 2.

Below enclose the state that the utility model works under more excellent parameter:

When operation heats loop:

A () cold medium compressor 11 is energized work, refrigerant compression is become the gas of HTHP, and send into heat(ing) coil 131 heat exchange.

The refrigerant gas of (b) HTHP in heat(ing) coil 131 by after water convection current cooling, heat is walked the water heat temperature raising in storage-type condenser 13 by water-band, and cold-producing medium is cooled into high pressure low temperature liquid, through the second magnetic valve 14, filter 15 to electronic throttle expansion valve 16 reducing pressure by regulating flow.

C the refrigerant liquid of () high pressure low temperature is in electronic throttle expansion valve 16 after reducing pressure by regulating flow, become the gas-liquid two-phase body of low-temp low-pressure, enter evaporimeter 17 gasify and absorb the heat energy in air, the high-temperature low-pressure gas formed, get back to cold medium compressor 11 through gas-liquid separator 32, complete heating operations.

(d) when temperature sensor detect evaporimeter 17 surface temperature lower than-1 DEG C and continue to exceed 45 minutes time, solenoid operated four-way valve 2 energising is opened, the refrigerant gas of HTHP, enter in evaporimeter 17 through solenoid operated four-way valve 2 commutation, utilize the heat discharged the frost layer on evaporimeter 17 surface to be melted and remove; When temperature sensor detects evaporimeter 17 surface temperature >=12 DEG C, stop powering to solenoid operated four-way valve 2, solenoid operated four-way valve 2 is closed, and completes the process of defrosting.

When running loop dehumidification:

A () cold medium compressor 11 is energized work, refrigerant compression is become the gas of HTHP, and send into heat(ing) coil 131 heat exchange.

The refrigerant gas of (b) HTHP in heat(ing) coil 131 by after water convection current cooling, heat is walked the water heat temperature raising in storage-type condenser 13 by water-band, and cold-producing medium is cooled into geothermal liquid in high pressure, through the first magnetic valve 18, except wet condenser 19, filter 15 are to electronic throttle expansion valve 16 reducing pressure by regulating flow.

C the refrigerant liquid of () high pressure low temperature is in electronic throttle expansion valve 16 after reducing pressure by regulating flow, become the gas-liquid two-phase body of low-temp low-pressure, enter evaporimeter 17 gasify and absorb the heat energy in air, the water vapor condensation cooled air in the following air of dew point becomes water droplet to discharge.The high-temperature low-pressure gas that cold-producing medium is formed, gets back to cold medium compressor 11 through gas-liquid separator 32, completes and heat dehumidification process.

When needing to ventilate:

Do not need water heating and dehumidifying time, also can isolated operation fan 21 can by outside the air discharge chamber in bathroom.

Above better embodiment of the present utility model is illustrated, but the invention is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent modifications or replacement under the prerequisite without prejudice to the utility model spirit, and these equivalent modification or replacement are all included in the application's claim limited range.

Claims (4)

1. domestic air energy bathroom dehumidifying high temperature water heating system, comprises the cold medium compressor (11) being provided with refrigerant exit (111) and refrigerant inlet (112), it is characterized in that: also comprise solenoid operated four-way valve (2), heat circuit assemblies and loop dehumidification assembly;

Solenoid operated four-way valve (2) has D interface, E interface, S interface, C interface, and D interface is connected with refrigerant exit (111) pipeline, and S interface is connected with refrigerant inlet (112) pipeline;

Heat circuit assemblies, comprising:

Sequentially be connected on the storage-type condenser assembly between C interface and E interface, the second magnetic valve (14), filter (15), electronic throttle expansion valve (16), evaporimeter (17);

Loop dehumidification assembly, comprising:

Sequentially be connected on the storage-type condenser assembly between C interface and E interface, the first magnetic valve (18), except wet condenser (19), filter (15), electronic throttle expansion valve (16), evaporimeter (17);

Cold medium compressor (11), solenoid operated four-way valve (2) with heat circuit assemblies and form and heat loop; Cold medium compressor (11), solenoid operated four-way valve (2) and loop dehumidification assembly form loop dehumidification;

Evaporimeter (17) is provided with temperature sensor and can be used for strengthening the fan (21) that evaporimeter (17) carries out heat exchange.

2. dehumidifying high temperature water heating system in domestic air energy bathroom according to claim 1, is characterized in that: heat circuit assemblies and loop dehumidification assembly all shared same evaporimeter (17), electronic throttle expansion valve (16), filter (15), storage-type condenser assembly.

3. dehumidifying high temperature water heating system in domestic air energy bathroom according to claim 2, is characterized in that: storage-type condenser assembly comprises at least two storage-type condensers (13), is provided with heat(ing) coil (131) in storage-type condenser (13).

4. dehumidifying high temperature water heating system in domestic air energy bathroom as claimed in any of claims 1 to 3, is characterized in that: be provided with high voltage protector (31) between refrigerant exit (111) and solenoid operated four-way valve (2); Gas-liquid separator (32) and low voltage protection device for electrophonic (33) is provided with between refrigerant inlet (112) and solenoid operated four-way valve (2).