CN201858726U

CN201858726U - Humidifying fresh air heat pump capable of realizing total heat recovery

Info

Publication number: CN201858726U
Application number: CN2010205974642U
Authority: CN
Inventors: 林力健
Original assignee: Emperor Simai Environmental Equipment (shanghai) Co Ltd
Current assignee: Emperor Simai Environmental Equipment (shanghai) Co Ltd
Priority date: 2010-11-09
Filing date: 2010-11-09
Publication date: 2011-06-08
Anticipated expiration: 2020-11-09

Abstract

A humidifying fresh air heat pump capable of realizing total heat recovery comprises an air inlet channel, an exhaust channel and a refrigerating system. The refrigerating system comprises a compressor, a first heat exchanger, a throttling gear and a second heat exchanger, wherein compressor, the first heat exchanger, the throttling gear and the second heat exchanger are successively connected circularly, the first heat exchanger realizes heat exchange of cold and heat sources, the second heat exchanger cools, dehumidifies or heats fresh air and is located in the air inlet channel, an air feeder is arranged in the air inlet channel, an air exhauster is disposed in the exhaust channel, a heat recovery heat exchanger which realizes heat exchange between the fresh air and indoor return air is arranged between an inlet of the air inlet channel and an outlet of the exhaust channel, and a reheater capable of reheating the fresh air after being cooled and dehumidified is selectively connected between the first heat exchanger and the throttling gear and is located behind the second heat exchanger in the air inlet channel along a fresh air flowing direction. The humidifying fresh air heat pump is additionally provided with the heat exchangers to realize dehumidification, reheats air by the reheater, is selective between an air internal circulation mode and an external circulation mode according to concentration of CO2, saves more energy and is simple in control.

Description

The new wind-heat pump of a kind of damping of full recuperation of heat

Technical field

The utility model relates to a kind of new wind-heat pump.

Background technology

An existing class dehumidifier, the refrigeration system that comprises compressor, condenser, throttling arrangement, evaporimeter formation, utilize refrigeration principle air to be carried out cool-down dehumidification by the evaporimeter heat absorption, again whole condensers are added hot-air, remove humidity load like this and born by refrigeration system fully, the unit of electrical energy moisture removal is little, function singleness, utilize whole condensation heat to add hot-air, the leaving air temp height increases cooling load.

Usually, new wind-heat pump is in brand-new wind pattern, and the operating cost height is energy-conservation inadequately.In fact, when the CO2 of room air concentration in reasonable number range, new wind can be provided, adopt in the air circulation just passable.

Summary of the invention

In order to solve the above-mentioned deficiency of existing new wind-heat pump, the utility model provides a kind of heat of setting up to return the new wind-heat pump of damping of receiving the heat exchanger dehumidifying, by reheater air being risen again, can be selected according to CO2 concentration circulation in the air or outer circulation pattern, more energy-conservation, the simple full recuperation of heat of control.

For realizing the purpose of this utility model, adopt following technical scheme:

The new wind-heat pump of damping of full recuperation of heat, comprise air intake passage, air exhaust passage, refrigeration system, central controller, described refrigeration system comprises successively compressor that circulation connects, first heat exchanger with the Cooling and Heat Source heat exchange, throttling arrangement, new wind is carried out second heat exchanger of cool-down dehumidification or heating, described second heat exchanger is positioned at air intake passage, in the described air intake passage pressure fan is set, exhaust blower is set in the air exhaust passage, between the outlet of the inlet of described air intake passage and air exhaust passage, is provided with the heat recovering heat exchanger that new wind and indoor return air are carried out heat exchange; Selectively be connected with the reheater that can rise again to the new wind behind the cool-down dehumidification between described first heat exchanger and the throttling arrangement, described reheater is along new distinguished and admirable to the rear that is positioned at air intake passage second heat exchanger; Described central controller is controlled the flow direction of cold-producing medium in the refrigeration system and the selection of described reheater.

Further, be provided with the CO2 sensor that the CO2 concentration to return air detects in the described return air channel, position between the described heat recovering heat exchanger and second heat exchanger is provided with the T-shaped air-valve, this T-shaped air-valve comprises by-passing valve that new wind passage is communicated with air exhaust passage, be positioned at the air intake valve on the air intake passage and be positioned at exhaust valve on the air exhaust passage, and air intake valve and exhaust valve are positioned at a side of the close heat recovering heat exchanger of by-passing valve; Described CO2 sensor connects central controller, in CO2 concentration is setting value, the central controller controls by-passing valve is opened, air intake valve and exhaust valve are closed, and when CO2 concentration exceeds setting value, the central controller controls by-passing valve cuts out, air intake valve and exhaust valve are opened.

Further, along new distinguished and admirable to be provided with humidity sensor that detects new rheumatism degree and the temperature sensor that detects new wind-warm syndrome degree before second heat exchanger, humidity sensor all is connected with central controller with temperature sensor in the described new wind passage.Central controller judges whether to start the flow direction of cold-producing medium in refrigeration system dehumidifying and the refrigeration system according to the humidity value and the temperature value of the outdoor new wind that detects, thereby selects the three kinds of mode operations that ventilate in cooling in summer dehumidifying, winter warming and humidifying, spring and autumn automatically.

Further, be provided with the humidifier that can carry out humidification to new wind in the indoor of second heat exchanger on the described air intake passage, described humidifier is connected with central controller.Under intensification added wet model, central controller can judge whether to start the humidifier humidification by the detected humidity value of humidity sensor according to detecting.

Further, be arranged in parallel between described first heat exchanger and the throttling arrangement and directly be connected and connect two branch roads, selectively switched by valve between two branch roads by reheater.This valve can be two the discrete valves that are positioned on two branch roads, also can be a three-way diverter valve that selectively switches two branch roads.

Preferably, described Cooling and Heat Source is earth source heat pump or air source heat pump.

Preferably, described throttling arrangement is expansion valve or capillary.

Preferably, described pressure fan and exhaust blower lay respectively at the new wind outlet of air intake passage and the return air exit of air exhaust passage.

Preferably, described refrigeration system also comprises the gas-liquid separator that is arranged between the described compressor and first heat exchanger, and is arranged on reservoir, device for drying and filtering between the described throttling arrangement and first heat exchanger.

Technical conceive of the present utility model is: except that realizing the dehumidifying by refrigeration system, between the outlet of the inlet of described air intake passage and air exhaust passage, set up heat recovering heat exchanger, outdoor new wind and indoor return air carry out temperature exchange in the heat recovering heat exchanger, under the cool-down dehumidification pattern, indoor return air temperature is lower than outdoor new wind, therefore can carry out the cool-down dehumidification of the first step to outdoor new wind, only by the evaporimeter heat absorption air being carried out cool-down dehumidification with respect to the new wind-heat pump of tradition compares, removing humidity load is born by refrigeration system no longer entirely, the heat recovering heat exchanger of consumed power has not just been born and partly removed humidity load, and is therefore more energy-conservation.

Selectively be connected with the reheater that to rise again to the new wind behind the cool-down dehumidification between first heat exchanger and the throttling arrangement, under the cool-down dehumidification pattern, the new wind-warm syndrome degree that comes out by second heat exchanger is lower, through reheater, can absorb the waste heat of the cold-producing medium that is cooled and heat up, to obtain the comfortable new wind of human body sensory.Add hot-air with respect to conventional heat pump by condensation heat and compare, saved first heat exchanger and got involved, only just can realize by the heat exchange with cold-producing medium simply that control is simple, leaving air temp is suitable.

Heat pump also is equipped with CO2 concentration sensor and T-shaped air-valve, in detected return air CO2 concentration is setting value, central controller controls bypass air-valve is opened, air intake valve and exhaust valve are closed, heat pump is in interior circulation pattern, indoor return air enters in the air intake passage again by the bypass air-valve and recycles, heat pump again by air-supply humidity judge whether start that compressor dehumidifies or the humidifier humidification; When detected return air CO2 concentration greater than setting value, the bypass air-valve cuts out, air intake valve and exhaust valve are opened, and heat pump is in the outer circulation pattern, have new wind to send into, return air no longer enters the air intake passage circulation, but send outdoorly, heat pump judges whether to start compressor according to air-supply humidity and temperature again and comes cool-down dehumidification or humidifier intensification humidification then, if outdoor new wind satisfies humidity and temperature requirement, compressor does not start, and outdoor new wind is directly sent into indoor.Like this, the operating cost height that can avoid heat pump to be in brand-new wind pattern being brought, not enough problem of energy saving.

The beneficial effects of the utility model are: (1) sets up the heat recovering heat exchanger dehumidifying, has reduced the humidity load of removing of refrigeration system, and is more energy-conservation; (2) by reheater air is risen again under the cool-down dehumidification pattern, improved the comfort level of new wind; (3) can select circulation or outer circulation pattern in the air automatically according to CO2 concentration, save the operation of heat pump expense, more energy-conservation; (4) if outdoor new wind satisfies humidity and temperature requirement, compressor does not start, and outdoor new wind is directly sent into indoor, saves the operation of heat pump expense, and is more energy-conservation.(5) judge according to the humidity of outdoor new wind and temperature and select the three kinds of mode operations that ventilate in cooling in summer dehumidifying, winter warming and humidifying, spring and autumn automatically, need not manual intervention, more convenient, more comfortable.

Description of drawings

Below in conjunction with accompanying drawing the specific embodiment of the present utility model is described in further detail.

Fig. 1 is the structural representation of the utility model embodiment one;

Fig. 2 is the wind rose of the utility model embodiment one.

Fig. 3 is the refrigerant flow direction figure under the utility model embodiment one cooling in summer dehumidification mode;

Fig. 4 is the refrigerant flow direction figure under the utility model embodiment warming and humidifying pattern in one winter.

The specific embodiment

Embodiment one:

With reference to Fig. 1-4: the new wind-heat pump of damping of full recuperation of heat, comprise air intake passage, air exhaust passage, refrigeration system, central controller, described refrigeration system comprises the compressor 11 that circulation successively connects, first heat exchanger 12 with Cooling and Heat Source 2 heat exchange, throttling arrangement 13, new wind is carried out second heat exchanger 14 of cool-down dehumidification or heating, the described second heat exchanger position 14 is in air intake passage, pressure fan 3 is set in the described air intake passage, exhaust blower 4 is set in the air exhaust passage, between the outlet of the inlet of described air intake passage and air exhaust passage, is provided with the heat recovering heat exchanger 5 that new wind and indoor return air are carried out heat exchange; Selectively be connected with the reheater 15 that to rise again to the new wind behind the cool-down dehumidification between described first heat exchanger 12 and the throttling arrangement 13, described reheater 15 is along new distinguished and admirable to the rear that is positioned at air intake passage second heat exchanger 14, particularly, be arranged in parallel between described first heat exchanger 12 and the throttling arrangement 13 and directly be connected and connect two branch roads by reheater 15, be respectively arranged with valve 16 on two branch roads, central controller controls two valves 16 one open-one closes just can selectively switch reheater.Certainly, the switching mode selected of two branch roads also can realize by a three-way diverter valve is set.Described central controller is controlled by the flow direction of cold-producing medium in 17 pairs of refrigeration systems of cross valve, and the flow direction of refrigeration system cold-producing medium under refrigeration and the warm two kinds of situations of system is opposite.

Air intake passage, air exhaust passage are referring to Fig. 2, as shown by arrows, new wind is entered by outdoor opposite side along heat recovering heat exchanger 5, leading directly to into indoor passage along arrow again is air intake passage, new wind is flowed out by the indoor direction of arrow, and the outdoor passage of opposite side feeding along heat recovering heat exchanger 5 is an air exhaust passage again.

Be provided with the CO2 sensor that the CO2 concentration to return air detects in the described return air channel, position between the described heat recovering heat exchanger 5 and second heat exchanger 14 is provided with the T-shaped air-valve, this T-shaped air-valve comprises by-passing valve 61 that new wind passage is communicated with air exhaust passage, be positioned at the air intake valve 62 on the air intake passage and be positioned at exhaust valve 63 on the air exhaust passage, and air intake valve 62 and exhaust valve 63 are positioned at a side of the close heat recovering heat exchanger 5 of by-passing valve 61; Described CO2 sensor connects central controller, when CO2 concentration in setting value, central controller controls by-passing valve 61 is opened, air intake valve 62 and exhaust valve 63 are closed, heat pump is in interior circulation pattern; When CO2 concentration exceeds setting value, central controller controls by-passing valve 61 cuts out, air intake valve 62 and exhaust valve 63 are opened, and heat pump is in the outer circulation pattern.

In the described new wind passage along new distinguished and admirable to before second heat exchanger 14, being provided with the humidity sensor that detects new rheumatism degree and detecting new wind-warm syndrome degree.Temperature sensor, humidity sensor all is connected with central controller with temperature sensor.Central controller judges whether to start the flow direction of cold-producing medium in refrigeration system dehumidifying and the refrigeration system according to the humidity value and the temperature value of the outdoor new wind that detects, thereby selects the three kinds of mode operations that ventilate in cooling in summer dehumidifying, winter warming and humidifying, spring and autumn automatically.

Be provided with the humidifier 7 that can carry out humidification to new wind in the indoor of second heat exchanger 14 on the described air intake passage, described humidifier 7 is connected with central controller.Under intensification added wet model, central controller can judge whether to start the humidifier humidification by the detected humidity value of humidity sensor according to detecting.

In the present embodiment, described Cooling and Heat Source 2 is an earth source heat pump, with the Cooling and Heat Source of shallow layer geothermal energy as first heat exchanger.

Described throttling arrangement 13 is an expansion valve.Certainly, also can be capillary.

Described pressure fan 3 and exhaust blower 4 lay respectively at the new wind outlet of air intake passage and the return air exit of air exhaust passage.

The described refrigeration system of present embodiment also comprises the gas-liquid separator 18 that is arranged between the described compressor 11 and first heat exchanger 12, and is arranged on reservoir 19, device for drying and filtering 10, liquid-sighting glass 191 between the described throttling arrangement 13 and first heat exchanger 12.

The characteristics of present embodiment are: except that realizing the dehumidifying by refrigeration system, between the outlet of the inlet of described air intake passage and air exhaust passage, set up heat recovering heat exchanger 5, outdoor new wind and indoor return air carry out temperature exchange in the heat recovering heat exchanger 5, under the cool-down dehumidification pattern, indoor return air temperature is lower than outdoor new wind, therefore can carry out the cool-down dehumidification of the first step to outdoor new wind, only by the evaporimeter heat absorption air being carried out cool-down dehumidification with respect to the new wind-heat pump of tradition compares, removing humidity load is born by refrigeration system no longer entirely, the heat recovering heat exchanger of consumed power has not just been born and partly removed humidity load, and is therefore more energy-conservation.

Moreover, between first heat exchanger 12 and throttling arrangement 13, be provided with and select the reheater 15 that uses, its effect is, under the cool-down dehumidification pattern, the new wind-warm syndrome degree that comes out by second heat exchanger 14 is lower, through reheater 15, can absorb the waste heat of the cold-producing medium that is cooled and heat up, to obtain the comfortable new wind of human body sensory.Add hot-air with respect to conventional heat pump by condensation heat and compare, saved first heat exchanger 12 and got involved, only just can realize by the heat exchange with cold-producing medium simply that control is simple, leaving air temp is suitable.

In addition, heat pump also is equipped with CO2 concentration sensor and T-shaped air-valve, in detected return air CO2 concentration is setting value, central controller controls bypass air-valve is opened, air intake valve and exhaust valve are closed, heat pump is in interior circulation pattern, and indoor return air enters in the air intake passage again by the bypass air-valve and recycles, heat pump again by air-supply humidity judge whether start that compressor dehumidifies or the humidifier humidification; When detected return air CO2 concentration greater than setting value, the bypass air-valve cuts out, air intake valve and exhaust valve are opened, and heat pump is in the outer circulation pattern, have new wind to send into, return air no longer enters the air intake passage circulation, but send outdoorly, heat pump judges whether to start according to air-supply humidity that compressor dehumidifies or the humidifier humidification more then, if outdoor new wind satisfies humidity requirement, compressor does not start, and outdoor new wind is directly sent into indoor.Like this, the operating cost height that can avoid heat pump to be in brand-new wind pattern being brought, not enough problem of energy saving.

The new wind-heat pump of the damping of the full recuperation of heat of the utility model has the three kinds of patterns of ventilating in cooling in summer dehumidifying, winter warming and humidifying, spring and autumn, and central controller is judged according to the humidity value and the temperature value of the outdoor new wind that detects, thereby selected three kinds of mode operations automatically.Under the cooling in summer dehumidification mode, first heat exchanger 12 uses as evaporimeter, and second heat exchanger 14 uses as condenser, and under the heating mode, first heat exchanger uses as condenser in the winter time, and second heat exchanger uses as evaporimeter.The operation principle of three kinds of patterns is as follows:

1, cooling in summer dehumidification mode

The high-temperature high-pressure refrigerant gas that compressed machine 11 compressions are come out enters first heat exchanger 12 as condenser, by water one refrigerant (or air-refrigerant) heat exchange, heat is passed to cooling water (earth source heat pump) or outdoor air (air source heat pump), the refrigerant superheat steam of HTHP is condensed into the liquid refrigerant of normal temperature high voltage, pass through further cooling of reheater 15 (by the wind pushing temperature decision) again, abundant cooled subcooled liquid, behind throttling arrangement 13, enter second heat exchanger 14 as evaporimeter, the refrigerant liquid of low pressure rapid evaporation in evaporimeter, absorb the airborne heat of the evaporimeter of flowing through simultaneously, become the superheated steam of low-temp low-pressure, be inhaled into compressor and compress, and so forth circulation.In above-mentioned cyclic process, humid air stream is cooled to below the dew-point temperature through evaporimeter, thereby separates out condensate water, and the absolute moisture content of indoor air-supply descends, and enters reheater again, absorbs the waste heat of the cold-producing medium that is cooled and heats up, and sends into the room by pressure fan at last.

2, winter the warming and humidifying pattern:

The high-temperature high-pressure refrigerant gas that compressed machine compresses out enters second heat exchanger 14 as condenser, by wind-refrigerant heat exchange, heat is passed to the outdoor dry and cold new wind of process heat recovering heat exchanger, the refrigerant superheat of HTHP is condensed into the sub-cooled liquid refrigerant of normal temperature high voltage, behind throttling arrangement 13, enter first heat exchanger 12 as evaporimeter, the refrigerant liquid of low pressure rapid evaporation in evaporimeter, absorb the flow through heat source water (earth source heat pump) of evaporimeter or the heat of outdoor air (air source heat pump) simultaneously, become the superheated steam of low-temp low-pressure, being inhaled into compressor 11 compresses, circulation and so forth, in this process, central controller makes reheater 15 not participate in heat exchange by break-make or the direction control to valve.In above-mentioned cyclic process, by the cold dry air of the outdoor introduction full heat recovering heat exchanger 5 of at first flowing through, carry out preliminary heat exchange with indoor exhaust wind, again through condenser, be heated to the comfort temperature that to control, central controller is controlled humidifier 7 humidifications automatically according to the detected humidity value of humidity sensor, thereby realizes the constant temperature and humidity requirement of new wind air-supply.

3, spring and autumn air vent mode:

Compressor 11 does not start, and outdoor new wind and indoor exhaust wind are directly sent into indoor behind heat recovering heat exchanger 5.

Embodiment two:

In the present embodiment, described Cooling and Heat Source 2 is an air source heat pump, with the heat exchange source of air as first heat exchanger 12.Other structures of present embodiment and implementation and embodiment one are identical.

Claims

1. the new wind-heat pump of the damping of a full recuperation of heat, comprise air intake passage, air exhaust passage, refrigeration system, central controller, described refrigeration system comprises the compressor that circulation successively connects, first heat exchanger with the Cooling and Heat Source heat exchange, throttling arrangement, new wind is carried out second heat exchanger of cool-down dehumidification or heating, described second heat exchanger is positioned at air intake passage, in the described air intake passage pressure fan is set, exhaust blower is set in the air exhaust passage, it is characterized in that: between the outlet of the inlet of described air intake passage and air exhaust passage, be provided with the heat recovering heat exchanger that new wind and indoor return air are carried out heat exchange; Selectively be connected with the reheater that can rise again to the new wind behind the cool-down dehumidification between described first heat exchanger and the throttling arrangement, described reheater is along new distinguished and admirable to the rear that is positioned at air intake passage second heat exchanger; Described central controller is controlled the flow direction of cold-producing medium in the refrigeration system and the selection of described reheater.

2. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 1, it is characterized in that: be provided with the CO2 sensor that the CO2 concentration to return air detects in the described return air channel, position between the described heat recovering heat exchanger and second heat exchanger is provided with the T-shaped air-valve, this T-shaped air-valve comprises by-passing valve that new wind passage is communicated with air exhaust passage, be positioned at the air intake valve on the air intake passage and be positioned at exhaust valve on the air exhaust passage, and air intake valve and exhaust valve are positioned at a side of the close heat recovering heat exchanger of by-passing valve; Described CO2 sensor connects central controller, in CO2 concentration is setting value, the central controller controls by-passing valve is opened, air intake valve and exhaust valve are closed, and when CO2 concentration exceeds setting value, the central controller controls by-passing valve cuts out, air intake valve and exhaust valve are opened.

3. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 1 or 2, it is characterized in that: along new distinguished and admirable to be provided with humidity sensor that detects new rheumatism degree and the temperature sensor that detects new wind-warm syndrome degree before second heat exchanger, humidity sensor all is connected with central controller with temperature sensor in the described new wind passage.

4. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 3, it is characterized in that: be provided with the humidifier that can carry out humidification to new wind in the indoor of second heat exchanger on the described air intake passage, described humidifier is connected with central controller.

5. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 3, it is characterized in that: be arranged in parallel between described first heat exchanger and the throttling arrangement and directly be connected and connect two branch roads, selectively switched by valve between two branch roads by reheater.

6. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 1, it is characterized in that: described Cooling and Heat Source is earth source heat pump or air source heat pump.

7. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 1, it is characterized in that: described throttling arrangement is expansion valve or capillary.

8. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 1 is characterized in that: described pressure fan and exhaust blower lay respectively at the new wind outlet of air intake passage and the return air exit of air exhaust passage.

9. the new wind-heat pump of the damping of full recuperation of heat as claimed in claim 1, it is characterized in that: described refrigeration system also comprises the gas-liquid separator that is arranged between the described compressor and first heat exchanger, and is arranged on reservoir, device for drying and filtering between the described throttling arrangement and first heat exchanger.