CN205561041U - Air conditioner - Google Patents

Abstract

The utility model discloses an air conditioner, the part integration that this air conditioner will refrigerate requiredly is as an organic whole to can set up easily and indoor and use, and can improve refrigeration efficiency. According to the utility model discloses an air conditioner includes: the condenser is arranged inside outer shell to realize the heat exchange between refrigerant and the cooling water, the expansion valve makes the refrigerant vaporization of following the condenser and providing, the evaporimeter cools off the air that flows into outer shell through the heat exchange that utilizes the refrigerant that provides from the expansion valve, the compressor, the refrigerant compression that will follow the evaporimeter provided later offers the condenser, and cooling water heat exchanging part, constitute by first hot exchange pipe and the hot exchange pipe of second, wherein, first hot exchange pipe arranges between evaporimeter and compressor to make the refrigerant remove the compressor from the evaporimeter, the hot exchange pipe of second accepts first hot exchange pipe in inside, so that the cooling water of externally supply carries out the heat exchange with the refrigerant that removes along first hot exchange pipe.

Description

Air-conditioning

Technical field

This utility model relates to a kind of air-conditioning, in particular to a kind of sky for regulating indoor temperature and humidity Adjust.

Background technology

Along with technology is flourishing, control indoor temperature so that the technology that people are readily adapted to accommodate the temperature changed with season just obtains To exploitation.

Separate indoor set and off-premises station in the prior art, off-premises station has been arranged in outside, and indoor set is arranged in Indoor, thus by being freezed in indoor from the cold-producing medium of off-premises station supply.

But, the following problem arranged can be there is: outside for buildings such as the outer walls on roof or building Portion arranges off-premises station, needs the pipe arrangement etc. being provided for transferring cold-producing medium.

Additionally, in the case of the outer wall of building arranges off-premises station, can exist because of off-premises station and for transferring refrigeration The pipe arrangement of agent etc. and destroy the problem attractive in appearance of building.

Additionally, the distance between off-premises station and indoor set is the most remote, the longest for transferring the pipe arrangement of cold-producing medium, and along elongated The cooling effectiveness of cold-producing medium of pipe arrangement flowing can reduce, thus the problem causing consuming more electric power.

Additionally, be arranged at the off-premises station outside building to cool down cold-producing medium with cooling air mode, and this mode exists Cooling effectiveness and compare the problem that water cooling mode is low.

Utility model content

The purpose of this utility model is to provide a kind of air-conditioning, and the parts required for refrigeration are integrated by this air-conditioning, It is thus possible to be easily positioned on indoor and use, and refrigerating efficiency can be improved.

Air-conditioning according to an embodiment of the present utility model includes: condenser, is arranged in inside housing department, and realizes refrigeration Heat exchange between agent and cooling water；Expansion valve, makes the cold-producing medium vaporization provided from described condenser；Vaporizer, by utilizing The heat exchange of the cold-producing medium provided from described expansion valve and cool down the air that is flowed into described housing department；Compressor, will be from described It is supplied to condenser after the refrigerant compression that vaporizer provides；And cooling water heat exchange part, make from described vaporizer towards pressure The cold-producing medium that contracting machine moves and the cooling from outside supply carry out heat exchange, and are supplied to described cold by cooled cooling water Condenser, improves the cooling effectiveness of described condenser to reduce the temperature of the cooling water being supplied to described condenser.

Described cooling water heat exchange part can make to be supplied to the temperature liter of the cold-producing medium of described compressor from described vaporizer Height, and the temperature reduction of the cooling water provided to described condenser is provided.

Air-conditioning according to an embodiment of the present utility model may include that condensation water collection portion, is used for being stored at by institute The condensed water produced during stating vaporizer cooling extraneous air；And bosh, described compressor is housed to inside And cover, and it is filled with the condensed water provided from condensation water collection portion, together utilizing described condensed water with cooling water The cold-producing medium being circulated within described condenser is carried out dual-cooled.

Described bosh may include that inner wall part, houses described compressor in inside, to be produced described compressor Noise carry out sound insulation；Outside wall portions, houses described condenser between described inner wall part, and is filled with condensed water, with The condensed water provided from described condensation water collection portion is made to contact with described condenser；And cap, it is incorporated into described outside wall portions Top.

Air-conditioning according to an embodiment of the present utility model may include that air discharge portion, is provided to described housing department Top, so that arranging to the upper direction of described housing department by means of pressure fan after being cooled down by means of described vaporizer The air gone out is to the outside discharge of described housing department.

Described air discharge portion may include that main body, connects with described pressure fan and is incorporated into the top of described housing department, And be internally formed air outlet, so that the air blowed by described pressure fan is discharged to outside；And air distribution portion Part, is arranged at described main body, the cooled air discharged to outside by described pressure fan with uniform distribution.

Described air discharge portion can also include: air quantity regulation portion, makes described air distribution part rotate, and passes through with regulation The discharge direction of the air that described air outlet is discharged and output.

Described air quantity regulation portion may include that axle, is incorporated into described main body, and has been rotatably engaged described air distribution Parts；Motor, for transmitting power to described axle.

Air-conditioning according to an embodiment of the present utility model may include that refrigerating/heating conversion valve, is connected to for inciting somebody to action Refrigerant compression and the compressor that circulates to described vaporizer or condenser, when heating, the described cold-producing medium that will be compressed It is supplied to vaporizer, when refrigeration, makes the described cold-producing medium compressed circulate to condenser.

Air-conditioning according to an embodiment of the present utility model can also include: heating coil, is adjacent to described vaporizer Arrange, thus heat towards described pressure fan leaked-in air.

Air-conditioning according to an embodiment of the present utility model can also include: Lighting Division, be arranged at described housing department and At least one in described air discharge portion, and by the running status of air-conditioning described in light representations.

Air-conditioning according to an embodiment of the present utility model can also include: chilled(cooling) water supply (CWS) portion, and control is supplied to described The flow of the cooling water of condenser, and condensed water internal at described condenser with regulation carries out the temperature of the cold-producing medium of heat exchange.

Described chilled(cooling) water supply (CWS) portion may include that chilled(cooling) water supply (CWS) valve, is arranged at cooling water tube, with regulation from outward Portion is supplied to the flow of the cooling water of described condenser；Temperature sensor: be arranged between described condenser and expansion valve, to survey Amount completes the temperature of the cold-producing medium of heat exchange at described condenser；Control portion, for based on providing from described temperature sensor The temperature value of cold-producing medium controls described chilled(cooling) water supply (CWS) valve, to be supplied to the stream of the cooling water of described condenser by regulation Measure and control to be supplied to the temperature of the cold-producing medium of described vaporizer.

As it has been described above, have the effect that will shift to from vaporizer according to the air-conditioning of an embodiment of the present utility model The low-temperature refrigerant of compressor and the cooling water from outside supply carry out heat exchange, are fed to the cooling water of condenser with reduction Temperature, and make the temperature being supplied to the cold-producing medium of compressor raise, thus improve the cooling effectiveness of condenser and the pressure of compressor Contracting efficiency.

Additionally, except cool down can also use in addition to water carry out heat exchange time generation condensed water and to being flowed into condenser Internal cold-producing medium carries out dual-cooled such that it is able to improve refrigerating efficiency and performance.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of the air-conditioning according to an embodiment of the present utility model.

Fig. 2 is the rear isometric view of the air-conditioning according to an embodiment of the present utility model.

Fig. 3 is the sectional view of the air-conditioning according to an embodiment of the present utility model.

Fig. 4 is the mode of operation figure in the air quantity regulation portion in the air-conditioning according to an embodiment of the present utility model.

Fig. 5 is the concept map in the chilled(cooling) water supply (CWS) portion in the air-conditioning according to an embodiment of the present utility model.

Symbol description

100: housing department 110: compressor

120: condenser 130: expansion valve

140: vaporizer 150: pressure fan

160: cooling water heat exchange part 170: condensation water collection portion

180: bosh 190: condensed water discharges means

201: refrigerating/heating conversion valve 210: heating coil

300: chilled(cooling) water supply (CWS) portion 400: Lighting Division

Detailed description of the invention

Hereinafter, referring to the drawings preferred embodiment of the present utility model is described in more detail.

Fig. 1 is the axonometric chart of the air-conditioning according to an embodiment of the present utility model；Fig. 2 is real according to of the present utility model one Execute the rear isometric view of the air-conditioning of example；3 is the sectional view of the air-conditioning according to an embodiment of the present utility model；Fig. 4 is according to this The mode of operation figure in the air quantity regulation portion in the air-conditioning of one embodiment of utility model；Fig. 5 is real according to of the present utility model one Execute the concept map in chilled(cooling) water supply (CWS) portion in the air-conditioning of example.

Referring to figs. 1 through Fig. 5, comprise according to the air-conditioning 1000 of an embodiment of the present utility model: housing department 100, compressor 110, condenser 120, expansion valve 130, vaporizer 140, pressure fan 150, cooling water heat exchange part 160, condensation water collection portion 170 And bosh 180.

Housing department 100 comprises lower case 101, upper case 102, supporting part 103, air inflow hole 104, air discharge Portion 105, air quantity regulation portion 106.

Lower case 101 houses compressor 110, expansion valve 130, condenser 120 and bosh 180 therein. Lower case 101 is formed in the way of more more broadening to top from bottom.That is, lower case forms rounding frustum shape.Or, Lower case 101 can form drum.

Upper case 102 connects with lower case 101 and is incorporated into lower case 101.Upper case 102 is received therein Hold vaporizer 140, pressure fan 150, condensation water collection portion 170.

Supporting part 103 is incorporated into the lower end of lower case 101.Outside supporting part 103 has than lower case 101 and top The wide area of shell 102 is stably to support housing department 100.Supporting part 103 can be formed as disc-shape.

As in figure 2 it is shown, air inflow hole 104 is formed at lower case 101 and the back side of upper case 102.Air flows into It is internal that hole 104 makes room air be flowed into housing department 100.Air inflow hole 104 is made up of multiple holes.In air inflow hole 104 The filter (not shown) that may filter that dust can be attached.

Air discharge portion 105 is incorporated into the top of upper case 102.Air discharge portion 105 can make to pass through air inflow hole 104 leaked-in airs through vaporizer 140 and pressure fan 150 again to indoor discharge.Air discharge portion 105 comprises main body 105a and air distribution part 105b.

Main body 105a is formed as ring-type, and connects with pressure fan 150 and be incorporated into the top of upper case 102.Main body 105a is formed with air outlet 105a-1.

Air outlet 105-a connects with pressure fan 150.Air outlet 105a-1 with pressure fan 150 driving and to Outside air-out.Air outlet 105a-1 spreads and discharges the air that pressure fan 150 is provided to outside.To this end, air Outlet 105a-1 can be formed in the way of gradually broadening towards top from bottom.

Air distribution part 105b is arranged in the upside of air outlet 105a-1.Air distribution part 105b makes along sky While gas outlet 105a-1 and the direction of air discharged perpendicularly to the ground are changed, arrange with making air uniform distribution Go out to indoor.Air distribution part 105b distribution along air outlet 105a-1 discharge air so that this air is with air-conditioning Can discharge to all directions on the basis of 1000.Air distribution part 105b can be formed as from inverted conical shape, inverted triangle cone Some shape selected in many pyramid shape such as shape, quadrangle cone shape.Air distribution part 105b can be as shown in Figure 3 Ground is formed as its lower end and has the rounding frustum shape of arcuate shape, can effectively distribute and air-out.

Air quantity regulation portion 106 is arranged at main body 105a with the through state being incorporated into air distribution part 105b.Air quantity is adjusted Joint portion 106 makes air distribution part 105b rotate and reduce or widen the space of air outlet 105a-1, with regulation by sky The amount of the air that gas outlet 105a-1 is discharged.Air quantity regulation portion 106 comprises axle (shaft) 106a, motor 106b, axle fixed part Part 106c and support member 106d.

Axle 106a is through is incorporated into air distribution part 105b.Axle 106a is rotationally arranged at main body 105a.Axle 106a Rotate together with air distribution part 105b.Motor 106b is arranged at the inside of main body 105a and provides power, so that axle 106a Rotate.Axle fixed component 106c is constituted a pair, and is formed at the inside of main body 105a.Axle fixed component 106c is formed with axle 106a Axle combines.Support member 106d is formed at the inside of air distribution portion 105b.Support member 106d is fixed on axle 106a, so that empty Gas dispenser 105b rotates together with the rotation of axle 106a.

With reference to Fig. 4, air quantity regulation portion 106 makes axle 106a and air distribution part by the power that provided by motor 106b 105b rotates forward or reversely rotates.Direction of rotation according to air distribution part 105b and rotation amount, thus it is possible to vary air Direction that outlet 105a-1 is opened and degree of opening.If that is, air distribution part 105b forward rotation along with axle 106a Turn, then the side of air distribution part 105b will be close to air outlet 105a-1.Now, air distribution part 105b is inclined Tilt to one party, and regulate the space being opened.As it has been described above, may utilize air distribution part 105b and regulate air row Following effect is played in the air quantity regulation portion 106 of the open direction of outlet 105a-1 and the width in open space: can be to sky All directions of gas outlet 105a-1 provide the air being cooled to predetermined extent, or intensively provide quilt to specific direction The air of cooling.

Compressor 110 is arranged in the inside of lower case 101.Compressor 110 is connected by refrigerant circulation pipe 10 To vaporizer 140 and condenser 120.The cold-producing medium transmitted from vaporizer 140 is compressed by compressor 110 so that it is become The gas of High Temperature High Pressure, is provided to condenser 120 or vaporizer 140 by refrigerant cycle pipe 10 afterwards.Compression Machine 110 provides compressed cold-producing medium when refrigeration to condenser 120, and provides compressed when heating to vaporizer 140 Cold-producing medium.

Condenser 120 is arranged in the inside of lower case 101.Condenser 120 is connected to by refrigerant cycle pipe 10 Expand utility model 130 and compressor 110.Being vaporized of that condenser 120 makes to provide from compressor 110, High Temperature High Pressure Cold-producing medium becomes liquid by heat exchange, is then provided to expansion valve 130.Specifically, condenser 120 makes by cold But the cooling water that water supply pipe 20 provides and the cold-producing medium being vaporized from the High Temperature High Pressure of compressor 110 offer carry out heat friendship Change.Condenser 120 makes cold-producing medium become the liquid of High Temperature High Pressure by heat exchange, and by refrigerant cycle pipe 10 It is supplied to expansion valve 130.

Condenser 120 is made up of internal pipeline 121 and external pipe 122.Cooling water is at the internal pipeline of condenser 120 Moving in 121, cold-producing medium moves in external pipe 122.Cooling water along internal pipeline 121 flowing is being carried out with cold-producing medium Go out pipe 21 by cooling water drainage after heat exchange and discharge to outside.

Expansion valve 130 is arranged between condenser 120 and vaporizer 140.Expansion valve 130 is by refrigerant cycle pipe 10 It is connected to condenser 120 and vaporizer 140.Expansion valve 130 makes the cold-producing medium compressed by compressor 110 expand and make its vapour Change, provide it to condenser 120 afterwards.

Vaporizer 140 is arranged in the inside of upper case 102.Vaporizer 140 is arranged in expansion valve 130 and compressor 110 Between.Vaporizer 140 cold-producing medium being vaporized that provided by expansion valve 130 is provided when refrigeration and to from outside leaked-in air Cool down.That is, vaporizer 140 utilizes the cold-producing medium being vaporized to cool down air from the phenomenon around absorbed heat.Evaporation Device 140 utilizes the cold-producing medium being vaporized of the High Temperature High Pressure provided by compressor 110 and to passing through air inflow hole when heating 104 are flowed into the internal leaked-in air of housing department 100 heats.It is right that vaporizer 140 utilizes at the cold-producing medium of inner loop Air cools down or heats, and described air is the driving by the pressure fan 150 being arranged within upper case 102 and passes through Air inflow hole 104 provides the air of vaporizer.

Pressure fan 150 is arranged in the inside of upper case 102.Pressure fan 150 makes room air pass through air inflow hole 104 Flow into and provide vaporizer 140, and the air after vaporizer 140 carries out heat exchange is arranged by air discharge portion 105 Go out to indoor.

Cooling water heat exchange part 160 comprises the first heat-exchange tube 161 and the second heat-exchange tube 162.First heat-exchange tube 161 It is arranged between vaporizer 140 and compressor 110, to enable the refrigerant to move to compressor 110 from vaporizer 140.First Heat-exchange tube 161 is formed by the material that heat conductivity is higher.Second heat-exchange tube 162 houses the first heat-exchange tube therein 161, so that carrying out heat exchange from the cooling water of outside supply with the cold-producing medium moved along the first heat-exchange tube 161.

Complete at vaporizer 140 heat exchange cold-producing medium temperature than supply from outside cooling water temperature low 5 DEG C～ 10℃.Comparing the situation that temperature is room temperature of cold-producing medium, the temperature of cold-producing medium is the pressure that the situation of low temperature also exists compressor 110 The problem that contracting efficiency reduces.Additionally, the cold-producing medium being vaporized of the High Temperature High Pressure compressed by compressor 110 is in condenser 120 Condensation heat is removed and is liquefied.Now, its temperature of cooling water provided to condenser 120 is the lowest more easily remove condensation Heat.

Cooling water heat exchange part 160 improves condenser 120 by the temperature of the cooling water that reduction is supplied to condenser 120 Cooling effectiveness.To this end, cooling water heat exchange part 160 makes shift to the cold-producing medium of compressor 110 from vaporizer 140 and supply from outside The cooling aqueous phase answered carries out heat exchange mutually.Cooling water heat exchange part 160 improves the system being supplied to compressor 110 from vaporizer 140 The temperature of cryogen, and reduce the temperature of the cooling water being supplied to condenser 120.

As it has been described above, to providing the temperature of cold-producing medium of compressor 110 raise and make offer from vaporizer 140 for making For the cooling water heat exchange part 160 of the temperature reduction of the cooling water of condenser 120, it is possible not only to improve compressor 110 Compression efficiency, the most also there is the effect of the cooling effectiveness that can improve condenser 120.

As it has been described above, air-conditioning 1000 of the present utility model utilizes a small amount of cooling water the most fully can eliminate is supplied to condensation The condensation heat of the cold-producing medium of the High Temperature High Pressure of device 120, even if thus have reduce cooling water usage amount also be able to keep cooling The advantage of efficiency.

It is internal to be positioned at the bottom of condenser 110 that condensation water collection portion 170 is arranged in upper case 102.Condensation water collection Portion 170 is collected in when the inside leaked-in air to vaporizer 140 and upper case 102 carries out heat exchange and results from vaporizer 140 surfaces and the condensed water that drops.

Bosh 180 is arranged in the inside of lower case 101.Compressor 110 is housed within it by bosh 180 Portion.Bosh 180 prevents the running noises of compressor 110 to housing department 100 External leakage.Additionally, bosh 180 connects To condensation water collection portion 170, thus fill the cooling water received from condensation water collection portion 170.Accordingly, bosh 180 profit With cooling water and condensed water, cold-producing medium is carried out dual-cooled.

Bosh 180 comprises tank 181, cap 182.Tank 181 comprises inner wall part 181a and outside wall portions 181b.

Inner wall part 181a is formed as the shape of part depression with in formation space, bottom, thus compressor 110 is received Shielded therein.Inner wall part 181a can carry out a sound insulation to the noise of compressor 110, so that the making an uproar of compressor 110 Sound is not transferred to the outside of housing department 100.

Outside wall portions 181b is formed as being coated with inner wall part 181a.It is formed for filling out between outside wall portions 181b and inner wall part 181a The condensed water packing space portion 181c of the condensed water provided by collection portion 170 is provided.Condensed water packing space portion 181c house cold Condenser 120.

Outside wall portions 181b as above can carry out secondary sound insulation to the noise of compressor 110, so that the making an uproar of compressor 110 Sound is not transferred to the outside of housing department 100.

As it has been described above, air-conditioning 1000 can utilize discarded condensed water and cooling water circulating in condenser 120 The cold-producing medium in portion carries out dual-cooled, thus can further improve cooling effect, thus has to be greatly lowered and run into This advantage.

In addition, the condensed water being filled into condensed water packing space portion 181c can carry out three sound insulations and prevent It is contained in the noise produced when the compressor 110 of inner wall part 181a runs to the outside transmission of housing department 100.

As it has been described above, air-conditioning 1000 passes through inner wall part 181a, outside wall portions 181b of bosh 180, is filled into cooling water Packing space portion 181c cools down water and lower case 101 and the noise produced from compressor 110 is carried out quadruple sound insulation, with The minimum produced when making air-conditioning 1000 operate, thus there is the advantage that can increase substantially customer satisfaction.

It addition, inner wall part 181a and outside wall portions 181b can be formed according to the face shaping of air-conditioning 1000 and Inner Constitution For various shape.Such as, inner wall part 181a and outside wall portions 181b can be formed as cylinder or oval or various figure Shape, on the contrary, it is also possible to form various graphics combine and the shape that formed.

Cap 182 is detachably combined in the top of tank such that it is able to the top of sealed cistern 181.

Condensed water discharge pipe 190 comprises the first condensed water discharge pipe 191 and the second condensed water discharge pipe 192.

First condensed water discharge pipe 191 is connected with bosh 180, and if being filled with predetermined at bosh 180 The condensed water of water level, then discharge condensed water to outside.The side of the first condensed water discharge pipe 191 is connected to bosh 180 Top, opposite side is disposed adjacent to ground and is arranged.That is, the first condensed water discharge pipe 191 will be according to bosh Difference in height between 180 and ground and naturally discharge to outside.

Second condensed water discharge pipe 192 is connected to the bottom of bosh 180, whole to be filled into the condensed water of inside It is discharged to the outside.Second condensed water discharge pipe 192 comprises the row for controlling to be filled into the condensed water within bosh 180 The valve 192a whether gone out.As it has been described above, in the period not using air-conditioning 1000, incited somebody to action by the second condensed water discharge pipe 192 Remain in the condensed water within bosh 180 to be all discharged to the outside, thus play and be prevented from condensed water and rot or thin The effect of bacterium breeding.

Refrigerating/heating conversion valve 200 by refrigerant cycle pipe 10 with compressor 110 and condenser 120 and steam Send out device 140 to connect such that it is able to realize following process by the loop direction of conversion cold-producing medium: when refrigeration, will be compressed The cold-producing medium supply of machine 110 compression is to condenser 210 side；When heating, the cold-producing medium supply compressed by compressor 110 is extremely steamed Send out device 140 side.Refrigerating/heating conversion valve 200 can be made up of four way valve (4-way valve).

It addition, also comprise heating coil 210, this heating coil according to the air-conditioning 1000 of an embodiment of the present utility model 210 are arranged at vaporizer 140, to heat to the outside air discharged of housing department 100 by air outlet 105.

Heating coil 210 can be disposed adjacently with vaporizer 140.Heating coil 210 is arranged in air inflow hole 104 and steams Send out between device 140.Heater coil 210 is generated heat by the electric power provided from outside.Heating coil 210 can be to by air stream The air that hand-hole 104 flows into and moves to pressure fan 150 heats.That is, pressure fan 150 can be provided by heating coil 210 Heated air.

As it has been described above, air-conditioning 1000 can utilize heating coil 210 when indoor heating and to from outside leaked-in air Together carry out dual-heated with vaporizer 140, and be provided to indoor, thus have and can improve heating performance further Advantage.

Additionally, air-conditioning 1000 can only realize heating by heating coil 210 and the startup of pressure fan 150, thus have Having can the selective actuation advantage that heats mode.

Chilled(cooling) water supply (CWS) portion 300 controls to be supplied to the flow of the cooling water of condenser 120 such that it is able to regulation is at condenser The temperature of the 120 internal cold-producing mediums carrying out heat exchange with cooling water.

Chilled(cooling) water supply (CWS) portion 300 comprises chilled(cooling) water supply (CWS) valve 310, temperature sensor 320 and control portion 330.

Chilled(cooling) water supply (CWS) valve 310 is arranged at cooling water tube 20 and is strategy externally supplied to the cold of condenser 120 with regulation But the flow of water.Cooling water tube 20, or regulation cooling water tube 20 are opened or closed to chilled(cooling) water supply (CWS) valve 310 The degree being opened or closing.Here, chilled(cooling) water supply (CWS) valve 310 can use electronic valve, magnet valve door (Magnetic Valve), electromagnetic valve (Solenoid Valve) etc..

Temperature sensor 320 is arranged between condenser 120 and expansion valve 130 and completes heat friendship to measure at condenser 120 The temperature value of the cold-producing medium changed.Temperature sensor 320 is attached at the outer surface of condenser 120.Or temperature sensor 320 is arranged In the inside of condenser 120 to measure the temperature of cooling water.

Control portion 330 temperature value based on the cold-producing medium provided from temperature sensor 320 controls chilled(cooling) water supply (CWS) valve 310, it is supplied to vaporizer 140 to be supplied to the flow cooling down water of condenser 120 to regulate by regulation through expansion valve 130 The temperature of cold-producing medium.

Control portion 330 receives the temperature of the cold-producing medium measured from temperature sensor 320 in real time.Control portion 330 is in advance The refrigerant temperature value set and the temperature value passing through the cold-producing medium that temperature sensor 320 provides compare.Afterwards, control portion 330 control chilled(cooling) water supply (CWS) valve 310 and make the temperature value of refrigerant temperature value set in advance and measured cold-producing medium become Obtain unanimously.

As set forth above, it is possible to prevent from carrying out heat exchange with cooling water in condenser 120 by chilled(cooling) water supply (CWS) portion 300 Cold-producing medium is cooled excessively such that it is able to playing the effect preventing evaporimeter frosting, wherein, chilled(cooling) water supply (CWS) portion 300 is to towards cold The supply of the cooling water of condenser 120 supply is controlled, and it is possible to provide vaporizer 140 through expansion valve 130 The temperature of cold-producing medium be provided as predetermined temperature value.Furthermore, it is possible to be efficiently used by chilled(cooling) water supply (CWS) portion 300 Cooling water such that it is able to play the effect of the waste reducing cooling water.

Lighting Division 400 can be by having the light of various color to represent the running status of air-conditioning 1000.Such as, although not Diagram, Lighting Division 400 can send the light with various color by LED.In order to allow users to easily identify, shine Bright portion 400 can be arranged at the outside of air-conditioning 1000.Such as, Lighting Division 400 can be arranged at air discharge portion 103 or shell Portion 100.The Lighting Division 400 running status by light representations air-conditioning.Specifically, when air-conditioning freezes or heats, shine Bright portion 400 can represent its mode of operation by mutually different color, allows the user to identify.Such as, at air-conditioning 1000 When freezing, Lighting Division 400 can represent by having the light of the color of blue series.On the contrary, carry out at air-conditioning 1000 When heating, Lighting Division 400 can utilize the color of red series to represent.In addition, Lighting Division 400 can also be in order at night Between illuminate around, or produce and sent colorful light by the decorative effect of light.

Referring again to Fig. 1 to Fig. 5, running and the action effect to the air-conditioning according to an embodiment of the present utility model Illustrate.

First, to using the process performing refrigeration according to the air-conditioning 1000 of an embodiment of the present utility model to say Bright.

With reference to Fig. 3, perform indoor refrigeration according to the air-conditioning 1000 of an embodiment of the present utility model for using, first will Cold-producing medium is supplied to condenser 120 by circulation pipe 10 after being compressed into High Temperature High Pressure by compressor 110.

Supplied to the external pipe 122 of condenser 120 by the cold-producing medium of refrigerant cycle pipe 10 transmission.Now, condensation The internal pipeline 121 of device 120 has been in the state being supplied with cooling water.The cold-producing medium being fed to external pipe 122 will be supplied Should be dual in the condensed water of the cooling water of inner tube 121 and the condensed water packing space portion 181c being filled in bosh 180 Ground cooling, and it is provided to expansion valve 130.Cold-producing medium is vaporized by expansion valve 130, and is provided to vaporizer 140.This Time, pressure fan 150 is in following state: make room air be flowed into the interior of housing department 100 by air inflow hole 104 Portion, and make it be discharged by air outlet 105a-1 after vaporizer 140.

Will be cooled by vaporizer 140 by pressure fan 150 leaked-in air, and pass through air outlet 105a-1 provides indoor again, thus indoor are performed refrigeration.Now, to air outlet 105a-1 discharge cooled The discharge direction of air will be adjusted by air distribution part 105b and air quantity regulation portion 106.

Cooling water heat will be supplied to hand over it addition, complete the cold-producing medium of the heat exchange between air at vaporizer 140 Change first heat-exchange tube 161 in portion 160.Now, the second heat-exchange tube 162 of cooling water heat exchange part 160 is in and has been filled with The state of the cooling water provided from outside.It is supplied to the cold-producing medium of the first heat-exchange tube 161 and is filled into the second heat exchange The cooling water of pipe 162 will mutually carry out heat exchange.The temperature of the cold-producing medium after heat exchange raises due to cooling water, cools down water Temperature reduce due to cold-producing medium.Carry out and cold-producing medium after the heat exchange that cools down between water in cooling water heat exchange part 160 Compressor will be provided to, and the cooling water after carrying out heat exchange with cold-producing medium will be provided to condenser.

Air-conditioning 1000 repeatedly performs process as above and indoor is performed refrigeration.

It addition, be supplied to the cold-producing medium of vaporizer 140 and be inhaled into the air within upper case 102 and carry out heat During exchange, vaporizer 140 will produce condensed water.Produced by vaporizer 140, condensed water will be collected in cold Condensed water collection portion 170, and it is filled into the condensed water packing space portion 181c of bosh 180.It is filled into condensed water to fill The condensed water of spatial portion 181c is together circulated in the refrigeration within condenser 120 to by refrigerant cycle pipe 10 with cooling water Agent carries out dual-cooled, thus improves cooling effectiveness.

And, if the condensed water being filled into bosh 180 reaches more than predetermined water level, then condensed water will pass through First condensed water discharge pipe 191 and to outside discharge.

When not using air-conditioning 1000, the cooling water being filled into bosh 180 will be by being connected to tank 181 Bottom the second condensed water discharge pipe 192 and be discharged to outside.Now, valve 192a is arranged in the second condensed water discharge pipe 192 such that it is able to control condensed water and discharged by the second condensed water discharge pipe 192.

It addition, compressor 110 by inner wall part 181a, outside wall portions 181b of bosh 180, be filled into condensed water fill Condensed water and the lower case 101 of spatial portion 181c and shielded by quadruple, thus have and can increase substantially running noises The advantage of soundproof effect.

As it has been described above, the air-conditioning 1000 according to an embodiment of the present utility model will be with cooling water vaporizer used along In the heat exchanging process of 140, produced condensed water, carries out dual refrigeration to the cold-producing medium being flowed within condenser 120, from And cooling effectiveness and performance can be increased substantially.

Accordingly, power consumption can be greatly reduced such that it is able to be used for using with relatively cheap running cost, therefore, have Can the advantage that uses of ground free of a burden to running expense.

Claims (13)

1. an air-conditioning, it is characterised in that including:

Condenser, is arranged in inside housing department, and realizes the heat exchange between cold-producing medium and cooling water；

Expansion valve, makes the cold-producing medium vaporization provided from described condenser；

Vaporizer, cools down the sky being flowed into described housing department by utilizing the heat exchange of the cold-producing medium provided from described expansion valve Gas；

Compressor, will be supplied to condenser after the refrigerant compression that described vaporizer provides；And

Cooling water heat exchange part, makes the cold-producing medium moved towards compressor from described vaporizer and the cooling water from outside supply carry out Heat exchange, and cooled cooling water is supplied to described condenser, to reduce the temperature of the cooling water being supplied to described condenser Spend and improve the cooling effectiveness of described condenser.

2. air-conditioning as claimed in claim 1, it is characterised in that

Described cooling water heat exchange part make from described vaporizer be supplied to described compressor cold-producing medium temperature raise, and make to The temperature of the cooling water that described condenser provides reduces.

3. air-conditioning as claimed in claim 1, it is characterised in that including:

Condensation water collection portion, for being stored at the condensed water by producing during described vaporizer cooling extraneous air；With And

Bosh, houses described compressor internal and covers, and be filled with providing from condensation water collection portion cold Solidifying water, together to utilize described condensed water to carry out the cold-producing medium being circulated within described condenser dual cold with cooling water But.

4. air-conditioning as claimed in claim 3, it is characterised in that

Described bosh includes:

Inner wall part, houses described compressor, so that noise produced by described compressor is carried out sound insulation in inside；

Outside wall portions, houses described condenser between described inner wall part, and is filled with condensed water, so that from described condensation The condensed water that water collection portion provides contacts with described condenser；And

Cap, is incorporated into the top of described outside wall portions.

5. air-conditioning as claimed in claim 1, it is characterised in that including:

Air discharge portion, is provided to the top of described housing department so that after being cooled down by means of described vaporizer by The air discharged to the upper direction of described housing department in pressure fan is discharged to the outside of described housing department.

6. air-conditioning as claimed in claim 5, it is characterised in that

Described air discharge portion includes:

Main body, connects with described pressure fan and is incorporated into the top of described housing department, and is being internally formed air outlet, with The air blowed by described pressure fan is made to discharge to outside；And

Air distribution part, is arranged at described main body, with being cooled that uniform distribution is discharged to outside by described pressure fan Air.

7. air-conditioning as claimed in claim 6, it is characterised in that

Described air discharge portion also includes: air quantity regulation portion, makes described air distribution part rotate, with regulation by described air The discharge direction of the air that outlet is discharged and output.

8. air-conditioning as claimed in claim 7, it is characterised in that

Described air quantity regulation portion includes:

Axle, is incorporated into described main body, and has been rotatably engaged described air distribution part；

Motor, for transmitting power to described axle.

9. air-conditioning as claimed in claim 1, it is characterised in that

Including: refrigerating/heating conversion valve, it is connected to for refrigerant compression is circulated to described vaporizer or condenser Compressor, when heating, the described cold-producing medium compressed is supplied to vaporizer, refrigeration time, make the described system compressed Cryogen circulates to condenser.

10. air-conditioning as claimed in claim 5, it is characterised in that

Also include: heating coil, be disposed adjacently with described vaporizer, thus add towards described pressure fan leaked-in air Heat.

11. air-conditionings as claimed in claim 5, it is characterised in that

Also include: Lighting Division, be arranged at least one in described housing department and described air discharge portion, and pass through light representations The running status of described air-conditioning.

12. air-conditionings as claimed in claim 1, it is characterised in that

Also include: chilled(cooling) water supply (CWS) portion, control to be supplied to the flow of the cooling water of described condenser, with regulation at described condenser The temperature of the internal cold-producing medium carrying out heat exchange with condensed water.

13. air-conditionings as claimed in claim 12, it is characterised in that

Described chilled(cooling) water supply (CWS) portion includes:

Chilled(cooling) water supply (CWS) valve, is arranged at cooling water tube, is strategy externally supplied to the cooling water of described condenser with regulation Flow；

Temperature sensor: be arranged between described condenser and expansion valve, to measure the system completing heat exchange at described condenser The temperature of cryogen；

Control portion, controls described chilled(cooling) water supply (CWS) valve for temperature value based on the cold-producing medium provided from described temperature sensor Door, controls to be supplied to the temperature of the cold-producing medium of described vaporizer to be supplied to the flow of the cooling water of described condenser by regulation Degree.