CN208419105U - Air-conditioning and its temp and humidity regulator - Google Patents

Abstract

It includes the humidity regulation component and temperature controlling unit being arranged independently of each other that the utility model, which provides a kind of air-conditioning and its temp and humidity regulator, the temp and humidity regulator,；The First Heat Exchanger that the humidity regulation component includes fresh air formation component, is connected to fresh air formation component air duct, with the fresh air outlet being connected to the First Heat Exchanger by the first air duct, the refrigerant inlet of the First Heat Exchanger is connected with the first refrigerant component by refrigerant pipeline；The fresh air that the fresh air formation component is connected and is generated with the First Heat Exchanger inputs the First Heat Exchanger, and the temperature of received fresh air is adjusted to preset value and exported through the fresh air outlet by the First Heat Exchanger.In this way, the supply air temperature of temperature controlling unit can be determined according to body surface comfort level, it is not necessary that the supply air temperature of temperature controlling unit is set in dew-point temperature, so that energy consumption needed for refrigerant component is remarkably reduced, air conditioning energy consumption is reduced.

Description

Air-conditioning and its temp and humidity regulator

Technical field

The utility model belongs to domestic air conditioner technical field, and in particular to a kind of temperature and humidity adjustment dress for air-conditioning It sets.The utility model further includes a kind of air-conditioning including the temp and humidity regulator, and based on the temp and humidity regulator Temperature and humidity adjustment control system and control method.

Background technique

With the continuous improvement of people's living standards, air-conditioning is more and more widely used.Due to Summer Indoor compared with For humidity, and air-conditioning is in refrigeration mode, causes the comfort level of user lower.Therefore, current many air conditioners, which can be all arranged, removes Wet device, to solve the problems, such as Summer Indoor, there was dampness in the air.

The mode that traditional domestic air conditioning mostly uses temperature and humidity joint to adjust, i.e. temperature and humidity are filled by same set of adjusting Set synergic adjustment.Using set of system simultaneously realize refrigeration and dehumidifying when, in order to use condensation method exclude interior more than it is wet, it is cold The temperature in source needs to consider that heat transfer temperature difference and medium convey the temperature difference lower than indoor dew-point temperature, realize 16 DEG C of dew-point temperature About 7 DEG C of sink temperature is needed, i.e. air-conditioner air outlet needs to blow using dew-point temperature, and dew-point temperature is 16 DEG C at this time, and the summer Season human comfort area is 26 DEG C, relative humidity 60%, this allows for cryogenic temperature needed for leaving air temp needs to be substantially less than, thus Result in following a series of problems.

Firstly, within air-conditioning systems, more than half sensible heat load part of total load is accounted for, originally can be arranged using high temperature cold source The low temperature cold source that the heat walked but shares 5~7 DEG C together with dehumidifying carries out, and causes the waste in using energy source grade, leads to energy Source waste；Meanwhile although the air humidity (water capacity) after dehumidification by condensation is met the requirements, temperature is too low, air themperature The temperature difference between shell temperature is much, and comfort level is caused to reduce；In addition, air is cooled down and is removed by condensing mode It is wet, absorb sensible heat can only change in a certain range with latent heat ratio, and building heat moisture ratio actually required compared with Variation in big range is merely able to sacrifice the control to humidity when realizing temperature and humidity adjustment using existing same set of system, leads to It crosses and meets the requirement of room temperature only to compromise, cause the phenomenon that indoor relative humidity is too high or too low, and relative humidity is excessively high The result is that uncomfortable, and then reduce setting value at room temperature, improve thermal comfort by reducing room temperature, cause the unnecessary increasing of energy consumption Add；Finally, current people start more and more to install fresh air system, after introducing fresh air, relative humidity is too low to be also led to Due to causing the energy consumption for handling fresh air to increase with outdoor enthalpy difference increase.

Utility model content

To overcome the problems, such as at least one present in the relevant technologies at least to a certain extent, this application provides air-conditioning and Its temp and humidity regulator, temperature and humidity adjustment control system and method.

To solve the above-mentioned problems, the utility model provides a kind of temp and humidity regulator, is used for air-conditioning, including mutually solely Erect the humidity regulation component and temperature controlling unit set；

The first heat exchange that the humidity regulation component includes fresh air formation component, is connected to fresh air formation component air duct Device, and the fresh air outlet being connected to the First Heat Exchanger by the first air duct, the refrigerant inlet of the First Heat Exchanger with First refrigerant component is connected by refrigerant pipeline；

The fresh air input described first that the fresh air formation component is connected and is generated with the First Heat Exchanger is changed The temperature of received fresh air is adjusted to preset value and exported through the fresh air outlet by hot device, the First Heat Exchanger.

During the work time, which has relatively independent temperature controlling unit and humidity regulation portion Part, to break the confinement that temperature and humidity joint is adjusted, temperature can be adjusted according to temperature requirements, and humidity can be according to humidity need Adjusting is asked, the two independent control is adjusted；In this way, the supply air temperature of temperature controlling unit can be required according to body surface comfort level and ring Border temperature requirement determines, wet cooling condition is removed without regard to arriving, because without the supply air temperature of temperature controlling unit is set in dew Point temperature, to reduce air conditioning energy consumption, avoids energy waste so that energy consumption needed for refrigerant component is remarkably reduced； Simultaneously as the supply air temperature of temperature controlling unit can be improved, so that supply air temperature is close or equal to body surface Comfort temperature, to significantly improve the comfort level of air-conditioning；In addition, humidity control apparatus that can be separately adjustable is without by temperature The limitation of adjustment is spent, the precision of humidity regulation is enhanced, and it is higher to adjust efficiency.

Further, the fresh air formation component includes the fresh-air fan being connected to by air inlet pipeline with new wind regime and institute State the fresh air interface tube that the air outlet of fresh-air fan is connected, and the protector being set in the air inlet pipeline；

The fresh air interface tube is connected by air duct with the First Heat Exchanger.

Further, the protector includes at least one of Electric air valve, fly net and stormproof louvre.

Further, the humidity regulation component further includes new wind filter, and the new wind filter is set to described On fresh air access between one heat exchanger and the fresh air outlet.

Further, the temperature controlling unit includes the second heat exchanger, main air blower and passes through with second heat exchanger The indoor self-loopa air outlet that second air duct is connected；The inlet side of second heat exchanger is connected with indoor return air mouth, Refrigerant inlet is connected with the second refrigerant component by refrigerant pipeline.

Further, the first refrigerant component is arranged independently of each other with the second refrigerant component.

Further, be additionally provided with the first water receiving tank below the First Heat Exchanger, first water receiving tank with it is described The drainpipe of air-conditioning is connected；

And/or the second water receiving tank is additionally provided with below second heat exchanger, second water receiving tank and the air-conditioning Drainpipe be connected.

It further, further include baffle, first air duct is mutually separated with second air duct by the baffle.

Further, the temperature controlling unit further includes self-loopa filter, and the self-loopa filter is set to institute It states on the return air channel between the inlet side of the second heat exchanger and indoor return air mouth.

The utility model also provides a kind of air-conditioning, including indoor unit, outdoor unit and temp and humidity regulator, the temperature and humidity Regulating device is temp and humidity regulator as described above.

Further, the humidity regulation component and the temperature controlling unit are set in the cabinet of the indoor unit, The fresh air interface tube of the fresh air formation component is opened in the cabinet side of the indoor unit；

The first refrigerant component and the second refrigerant component are set in the cabinet of the outdoor unit；

The fresh air formation component is set in the cabinet of the indoor unit or the cabinet of the outdoor unit.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the application Example, and together with specification it is used to explain the principle of the application.

Fig. 1 is the structural schematic diagram that temp and humidity regulator provided by the utility model is integrated in air-conditioning internal machine part；

Fig. 2 is the structural schematic diagram that temp and humidity regulator provided by the utility model is integrated in outdoor machine of air-conditioner part.

Description of symbols:

101- indoor unit 102- outdoor unit

1- First Heat Exchanger 2- the first refrigerant component 3- fresh air outlet

41- fresh-air fan 42- fresh air interface tube 43- Electric air valve 44- fly net 45- stormproof louvre

Self-loopa air outlet 8- indoor return air mouth in the room 5- the second heat exchanger 6- main air blower 7-

9- the second refrigerant component 10- the first water receiving tank 11- the second water receiving tank 12- baffle

The new wind filter 14- self-loopa filter of 13-

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the application.

Fig. 1 and Fig. 2 are please referred to, Fig. 1 is that temp and humidity regulator provided by the utility model is integrated in air-conditioning internal machine portion The structural schematic diagram divided；Fig. 2 is the structure that temp and humidity regulator provided by the utility model is integrated in outdoor machine of air-conditioner part Schematic diagram.

In a specific embodiment, temp and humidity regulator provided by the utility model is used for air-conditioning, especially uses In to the more demanding household of comfort level is cabinet type or hanging air conditioner, it can be realized independent temperature and humidity and adjust, be different from Traditional temperature and humidity combines regulative mode.The temp and humidity regulator includes the humidity regulation component being arranged independently of each other and temperature Regulating member；Wherein, the humidity regulation component include fresh air formation component, be connected to fresh air formation component air duct One heat exchanger 1, and the fresh air outlet 3 being connected to the First Heat Exchanger 1 by the first air duct, the First Heat Exchanger 1 Refrigerant inlet is connected with the first refrigerant component 2 by refrigerant pipeline；Above-mentioned fresh air formation component refers to be produced by any mechanism Structure that is raw or introducing fresh air, for example, blower；The inner cavity of First Heat Exchanger 1 is connected with the first refrigerant component 2, then first is cold Refrigerant in matchmaker's component 2 is entered by refrigerant pipeline in the inner cavity of the first exchanging air, and the fresh air that fresh air formation component generates is logical It crosses air duct to enter within the scope of the heat exchange of First Heat Exchanger 1, by the way that heat exchange occurs to reduce new air temperature with the cold wind in it, need It is to be understood that above-mentioned fresh air formation component refers to that fresh air formation component generates new with " air duct is connected to " of First Heat Exchanger 1 Wind enters on certain path within the scope of the heat exchange of First Heat Exchanger 1, and air duct herein is virtual architecture, it will be appreciated that is fresh air Circulation path.

The fresh air formation component is connected with the First Heat Exchanger 1, and (i.e. fresh air blows to first from fresh air formation component The heat exchange range of heat exchanger 1) and the fresh air that is generated input the First Heat Exchanger 1, referred to herein as fresh air is changed by first The heat-transfer surface of hot device 1, and by with the refrigerant heat exchange in First Heat Exchanger 1 so that the First Heat Exchanger 1 is received Fresh air temperature be adjusted to preset value and through the fresh air outlet 3 export.Specifically, the preset value of the temperature can be people The comfortable temperature of body-sensing feel, such as the arbitrary temp value between 24 ° -27 °, preferably 26 °, to meet the body of most of user Feel comfort temperature.

During the work time, which has relatively independent temperature controlling unit and humidity regulation portion Part, to break the confinement that temperature and humidity joint is adjusted, temperature can be adjusted according to temperature requirements, and humidity can be according to humidity need Adjusting is asked, the two independent control is adjusted；In this way, the supply air temperature of temperature controlling unit can be required according to body surface comfort level and ring Border temperature requirement determines, wet cooling condition is removed without regard to arriving, because without the supply air temperature of temperature controlling unit is set in dew Point temperature, to reduce air conditioning energy consumption, avoids energy waste so that energy consumption needed for refrigerant component is remarkably reduced； Simultaneously as the supply air temperature of temperature controlling unit can be improved, so that supply air temperature is close or equal to body surface Comfort temperature, to significantly improve the comfort level of air-conditioning；In addition, humidity control apparatus that can be separately adjustable is without by temperature The limitation of adjustment is spent, the precision of humidity regulation is enhanced, and it is higher to adjust efficiency.

Specifically, above-mentioned fresh air formation component includes the fresh-air fan 41 being connected to by air inlet pipeline with new wind regime and institute State the fresh air interface tube 42 that the air outlet of fresh-air fan 41 is connected, and the protector being set in the air inlet pipeline；It is described Fresh air interface tube 42 is connected by air duct with the First Heat Exchanger 1.It is apparent that fresh air interface tube 42 and the first heat exchange herein The air duct connection of device also refers to the circulation path of fresh air；When fresh-air fan 41 starts, by outdoor fresh air sucking and through protecting After part completely cuts off hazardous solid, the position where First Heat Exchanger is entered by fresh air interface tube 42, and be sent into room after cooling It is interior, humid medium is removed as indoor.

In theory, fresh air formation component is not limited to above structure form, as long as fresh air can be introduced for equipment , such as fresh air formation component can be only blower, or including blower and the compressed gas source being connected to blower, utilize compression Gas source substitutes outdoor fresh air, to use when Outdoor Air Quality is poor as bailout gas.New blower can indoors, Can in outdoor, when the setting of new blower indoors when, by-passing valve is set before new blower, when only indoor humidity is more than setting value, and When object gas is not above setting value, by-passing valve can be opened, so that room air is entered First Heat Exchanger and carries out humidity regulation. Above-mentioned new wind regime can may be the compressed gas source separately set for atmosphere.

Above-mentioned protector may include at least one of Electric air valve 43, fly net 44 and stormproof louvre 45, preferably Three includes installing stormproof louvre 45 in the outer end of air inlet pipeline, successively installing fly net 44 and electricity again from outside to inside Dynamic air-valve 43, to avoid rainwater, mosquito or dust to enter equipment with fresh air as far as possible, and can adjust Electric air valve 43 as needed Aperture is to adjust intake, to guarantee the cleaning in equipment, extends the service life of related components.

Further, in order to improve the cleannes of the fresh air entered the room, which further includes fresh air filtering Device 13, the new wind filter 13 are set on the fresh air access between the First Heat Exchanger 1 and the fresh air outlet 3, When i.e. fresh air is cooled to through First Heat Exchanger 1 except wet temp, new wind filter 13 is passed through, is filtered out in new wind filter 13 After the nuisances such as tiny particles content, fresh air is entered the room through fresh air outlet 3 again, to improve indoor fresh air cleannes.

In above-mentioned specific embodiment, temperature controlling unit provided by the utility model includes the second heat exchanger 5, master Blower 6 and the indoor self-loopa air outlet 7 being connected with second heat exchanger 5 by the second air duct；Second heat exchanger 5 Inlet side be connected with indoor return air mouth 8, refrigerant inlet is connected with the second refrigerant component 9 by refrigerant pipeline.In work During work, indoor hot wind is sucked air-conditioning by main air blower 6, is sent after the cooling of the second heat exchanger 5 again by indoor self-loopa Air port 7 is blown into interior.Above-mentioned first refrigerant component 2 and the setting independently of each other of the second refrigerant component 9, i.e. the first refrigerant component 2 will not intervene and influence the work of the second refrigerant component 9 when providing refrigerant for humidity regulation component, vice versa.

Specifically, the first refrigerant component 2 includes the first condenser, the first compressor and associated pipe, the second refrigerant portion Part 9 includes the second compressor, the second condenser and associated pipe.

In addition to above-mentioned first refrigerant component corresponds to First Heat Exchanger, the structure of corresponding second heat exchanger of the second refrigerant component with Outside, temp and humidity regulator provided by the invention can also act on two heat exchangers by same set of refrigerant component.Specifically, The refrigerant liquid supply pipe of one compressor is divided into two branches, and branch road respectively sets a throttling set, to adjust the steaming after throttling It sends out pressure (different evaporating pressures corresponds to different evaporating temperatures, that is, two kinds of cryogenic temperatures of available high and low temperature), so Latter two branch is separately connected First Heat Exchanger and the second heat exchanger, converges again after heat exchange and returns to compressor, due to evaporation Pressure is different, so needing to install evaporating pressure regulating valve on the higher road of pressure, to balance the pressure of two branches.

In heat exchanging process, heat exchanger surrounding air can generate liquefaction, and the air after liquefaction forms droplet, in order to keep away Exempt from these droplets and flow into electrical component, guarantees to use safe and equipment life, the lower section of the First Heat Exchanger 1 is additionally provided with First water receiving tank 10, first water receiving tank 10 are connected with the drainpipe of the air-conditioning；And/or second heat exchanger 5 Lower section is additionally provided with the second water receiving tank 11, and second water receiving tank 11 is connected with the drainpipe of the air-conditioning.Theoretically, first Being arranged below the first water receiving tank 10 and the second heat exchanger 5 below heat exchanger 1 and the second water receiving tank 11 is arranged is optimal case, still First water receiving tank 10 is only set below First Heat Exchanger 1 or the second water receiving tank 11 is only set below the second heat exchanger 5 and is also belonged to In the protection scope of the utility model.

Due to humidity regulation and temperature adjust it is independent carry out, in order to avoid for humidity regulation fresh air and be used for temperature It is mixed between the return air of adjusting, guarantees going on smoothly for two adjustings, which further includes baffle 12, institute It states the first air duct and is mutually separated with second air duct by the baffle 12.The first air duct herein refers to the walking road of fresh air Diameter, the second air duct refer to the walking path of return air, and the two is fluid running track or range, not the limit in entity structure It is fixed.

Further, the temperature controlling unit further includes self-loopa filter 14, and the self-loopa filter 14 is arranged On return air channel between the inlet side and indoor return air mouth 8 of second heat exchanger 5, the return air of the entrance of indoor return air mouth 8 The inlet side of the second heat exchanger 5 is entered back into after first passing through the self-loopa filter 14 filtering, to improve the cleanliness of return air.

When object gas is not exceeded, indoor air directly can be introduced into First Heat Exchanger, carry out humidity regulation.For It realizes this function, at least two methods can be used, one is setting by-passing valve on partition 12, which is located at first and changes Before hot device；The second is fresh air machine is enabled to be located at interior, by-passing valve is set before fans entrance, indoor return air can be introduced with this.

In addition to above-mentioned temp and humidity regulator, the utility model also provides a kind of sky including above-mentioned temp and humidity regulator It adjusts, which further includes indoor unit 101 and outdoor unit 102, wherein humidity regulation component and the temperature controlling unit are set to In the cabinet of the indoor unit 101, the fresh air interface tube 42 of the fresh air formation component is opened in the cabinet of the indoor unit 101 The cabinet side towards 102 side of outdoor unit is arranged in, specifically in order to stringing in side；It is new in humidity regulation component The top of the cabinet of machine 101 or the side top towards indoor indoors, the room in temperature controlling unit is arranged in wind air outlet 3 Interior return air inlet 8 is set to the lateral lower part of the cabinet of indoor unit 101, and indoor self-loopa air outlet 7 is set to the machine of indoor unit 101 The lateral top of cabinet, is preferably provided in the lower section of fresh air outlet 3.

The first refrigerant component 2 and the second refrigerant component 9 are set in the cabinet of the outdoor unit 102, specifically Ground, the first compressor, the first condenser, the second compressor and the second condenser are arranged in the cabinet of outdoor unit 102；It is outdoor It further include the equal necessary parts for realizing air-conditioning basic function of main air blower 6, these components and prior art phase in the cabinet of machine 102 Together, it does not repeat.

Above-mentioned fresh air formation component can be set in the cabinet of the indoor unit 101 or the cabinet of the outdoor unit 102, Or the cabinet top on the cabinet top or outdoor unit 102 of indoor unit 101 is arranged in by other installation sled.

Above-mentioned air-conditioning and its temp and humidity regulator can be realized energy conservation and improve the purpose of comfort level, specific technology effect Fruit can preferably be verified by following test datas and theory analysis.

Specifically, in terms of energy conservation, reducing energy consumption, by taking a common parlor as an example, the refrigeration duty in room includes two when summer Part, the refrigeration duty for obtaining heat and being formed that (1) passes through building enclosure；(2) refrigeration duty that indoor heat source, wet source are formed.

With 26 DEG C of room temperature, in case where relative humidity 60%, envelope structure cooling l oad 2881W, indoor heat source Indoor electrical equipment fever is not considered, only considers the load that three adult mans are slightly worked under 26 DEG C of environment of design temperature In the case of, sensible heat 61W, latent heat 73W, moisture dispersed amount 109g/h, at this point, the sensible heat load in room is 3064W, latent heat load is 219W, room total heat load be 3264W, humidity load is 327g/h (it is wet not consider that other open waters dissipate), room air enthalpy Value h1=58.37kJ/kg.Assuming that 33 DEG C of summer outdoor temperature, relative humidity 80%, fresh air volume maximum takes 120m3/h= The enthalpy of 0.033m3/s=0.04kg/s (unit conversion) outdoor air is h2=99.16kJ/kg, maximum new wind load Q= 0.04X (h2-h1) x1000=1634W, so introduce fresh air after total space heating load be 3264+1634=4898W.

Traditional temperature and humidity joint is adjusted under operating condition, and using common operating condition compressor, t0=4 DEG C of evaporating temperature, condensation is warm Tk=40 DEG C of degree, by taking R134a as an example, theoretical coefficient of refrigerating performance is 6.315, and compressor theoretical power consumption is 4898/6.315= 775.6W。

Under the separately adjustable operating condition of temperature and humidity, indoor fresh air and latent heat load are undertaken using a common operating condition compressor, One worst hot case compressor undertakes indoor sensible heat load, wherein t0=4 DEG C of evaporating temperature of common operating condition compressor, condensation temperature Tk=40 DEG C, t0=15 DEG C of evaporating temperature of worst hot case compressor, tk=40 DEG C of condensation temperature of degree.

Common operating condition refrigeration is sent into room after outdoor fresh air is carried out cooling and dehumidifying processing, considers 6 DEG C of heat transfer temperature difference, newly Wind treated state point is 10 DEG C, relative humidity 95%, h3=28.31kJ/kg, and new wind load is Q=Q=0.04X (h2- H3) x1000=2834W, theoretical wasted work rate are 2834/6.315=448.8w.The load of remaining 4898-2834=2064W by Worst hot case compressor burden, calculating parameter are shown in Table one:

One calculating parameter of table

State point	Temperature	Absolute pressure	Specific enthalpy	Specific entropy	Specific volume
						1	14	0.4728	406.5	1.7250
2	44.1	1.0166	423.8	1.7250
						3	40	1.0166	256.4
4’	14	0.4728	219.1
						4	14	0.4728	256.4

Unit mass refrigerating capacity:

Q0=H1-H4=406.5-256.4=150.1kJ/kg

Refrigerant flow:

Mr=φ₀/Q₀=2.064/150.1=0.0138kg/s

Compressor theoretical power (horse-power):

Pth=Mr (H2-H1)=0.0138 (423.8-406.5) x1000=238.7w

The separately adjustable theoretical coefficient of refrigerating performance of temperature and humidity:

ε_th=φ₀/P_th=4898/ (238.7+448.8)=7.124

Therefore, theoretical coefficient of refrigerating performance increases 0.809, improves 12.8%.

It in terms of comfort level, is designed using double air outlets, wherein being born according to the fresh air of traditional air conditioner leaving air temp air-supply The humidity load in room, air quantity is small, and maximum quantity of wind only has 120m3/h, and air port is blown upward, and the influence to the comfort level of human body can To ignore；Indoor return air handles 14 DEG C of evaporating temperatures that heat exchanger uses in air duct, considers 6 DEG C of heat transfer temperature difference, leaving air temp Smaller with the temperature difference of indoor design temperature at 20 degree or more, supply air temperature is high, supply air temperature difference is small to be relaxed with the satisfaction of high degree The requirement of adaptive.

It is understood that same or similar part can mutually refer in the various embodiments described above, in some embodiments Unspecified content may refer to the same or similar content in other embodiments.

It should be noted that term " first ", " second " etc. are used for description purposes only in the description of the present application, without It can be interpreted as indication or suggestion relative importance.In addition, in the description of the present application, unless otherwise indicated, the meaning of " multiple " Refer at least two.

Any process described otherwise above or method description are construed as in flow chart or herein, and expression includes It is one or more for realizing specific logical function or process the step of executable instruction code module, segment or portion Point, and the range of the preferred embodiment of the application includes other realization, wherein can not press shown or discussed suitable Sequence, including according to related function by it is basic simultaneously in the way of or in the opposite order, to execute function, this should be by the application Embodiment person of ordinary skill in the field understood.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the application.In the present specification, schematic expression of the above terms are not Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiment or examples in can be combined in any suitable manner.

Although embodiments herein has been shown and described above, it is to be understood that above-described embodiment is example Property, it should not be understood as the limitation to the application, those skilled in the art within the scope of application can be to above-mentioned Embodiment is changed, modifies, replacement and variant.

Claims (10)

1. a kind of temp and humidity regulator, be used for air-conditioning, which is characterized in that including the humidity regulation component that is arranged independently of each other and Temperature controlling unit；

The First Heat Exchanger that the humidity regulation component includes fresh air formation component, is connected to fresh air formation component air duct (1), the fresh air outlet (3) and with the First Heat Exchanger (1) being connected to by the first air duct, the First Heat Exchanger (1) Refrigerant inlet is connected with the first refrigerant component (2) by refrigerant pipeline；

The fresh air input that the fresh air formation component is connected and is generated with the First Heat Exchanger (1) first heat exchange The temperature of received fresh air is adjusted to preset value and through the fresh air outlet by device (1), the First Heat Exchanger (1) (3) it exports；

It is additionally provided with the first water receiving tank (10) below the First Heat Exchanger (1), first water receiving tank (10) and the sky The drainpipe of tune is connected.

2. temp and humidity regulator according to claim 1, which is characterized in that the fresh air formation component include by into Fresh-air fan (41) that air pipe is connected to new wind regime, the fresh air interface tube being connected with the air outlet of the fresh-air fan (41) And the protector that is set in the air inlet pipeline (42),；

The fresh air interface tube (42) is connected by air duct with the First Heat Exchanger (1).

3. temp and humidity regulator according to claim 2, which is characterized in that the protector includes Electric air valve (43), at least one of fly net (44) and stormproof louvre (45).

4. temp and humidity regulator according to claim 1, which is characterized in that the humidity regulation component further includes fresh air Filter (13), the new wind filter (13) are set between the First Heat Exchanger (1) and the fresh air outlet (3) On fresh air access.

5. temp and humidity regulator according to claim 1-4, which is characterized in that the temperature controlling unit packet Include the second heat exchanger (5), main air blower (6) and the indoor self-loopa being connected with second heat exchanger (5) by the second air duct Air outlet (7)；The inlet side of second heat exchanger (5) is connected with indoor return air mouth (8), refrigerant inlet and the second refrigerant Component (9) is connected by refrigerant pipeline.

6. temp and humidity regulator according to claim 5, which is characterized in that the first refrigerant component (2) with it is described Second refrigerant component (9) is arranged independently of each other.

7. temp and humidity regulator according to claim 5, which is characterized in that

It is additionally provided with the second water receiving tank (11) below second heat exchanger (5), second water receiving tank (11) and the sky The drainpipe of tune is connected.

8. temp and humidity regulator according to claim 5, which is characterized in that further include baffle (12), first wind Road is mutually separated with second air duct by the baffle (12).

9. temp and humidity regulator according to claim 5, which is characterized in that the temperature controlling unit further includes following certainly Ring filter (14), the self-loopa filter (14) are set to inlet side and the indoor return air mouth of second heat exchanger (5) (8) on the return air channel between.

10. a kind of air-conditioning, including indoor unit (101), outdoor unit (102) and temp and humidity regulator, which is characterized in that the temperature Humidity control apparatus is such as the described in any item temp and humidity regulators of claim 5~9；

The humidity regulation component and the temperature controlling unit are set in the cabinet of the indoor unit (101), the fresh air The fresh air interface tube (42) of formation component is opened in the cabinet side of the indoor unit (101)；

The first refrigerant component (2) and the second refrigerant component (9) are set in the cabinet of the outdoor unit (102)；

The fresh air formation component is set in the cabinet of the indoor unit (101) or the cabinet of the outdoor unit (102).