CN108254207A - A kind of air-conditioning enthalpy difference performance test room - Google Patents

Abstract

The invention discloses a kind of air-conditioning enthalpy difference performance test rooms, belong to air-conditioning enthalpy difference technical field of performance test.The air-conditioning enthalpy difference performance test room of the present invention includes two layers, first layer is provided between indoor side test between the first outdoor side test, it is disposed proximate between the first outdoor side test between indoor side test, the second layer is provided between the outer side test of second Room, and top between indoor side test is vertically installed between the outer side test of second Room；With being respectively arranged with the first air handling system and the second air handling system in indoor side test between first outdoor side test, the first air handling system is connect with tested air-conditioning, and the second air handling system is connected with the first air handling system；Between the outer side test of second Room between indoor side test between offer via.The air-conditioning enthalpy difference performance test room of the present invention effectively reduces requirement of the enthalpy difference laboratory to floor space.

Description

A kind of air-conditioning enthalpy difference performance test room

Technical field

The invention discloses air-conditioning enthalpy difference technical field of performance test, more particularly, to a kind of air-conditioning enthalpy difference performance test Room.

Background technology

Air-conditioning enthalpy difference laboratory is the working environment for simulating one or more test products by artificial means, can be used to examine It tests performance when product works, develop new product.At present, it is complete to rely primarily on air-conditioning enthalpy difference laboratory for air conditioning performance test Into the general layout type in laboratory for air-conditioning enthalpy difference performance test is room type air enthalpy difference test, wind tunnel type air enthalpy Method, loop-type air enthalpy difference test and calorimeter formula air enthalpy difference test, the laboratory layout of these modes is all in one direction Laboratory is separated into indoor and outside to test.

It is laid out using conventional enthalpy difference laboratory, the place for building a regular enthalpy difference laboratory needs is very big, input Equipment and instrument it is of high cost, and demand of the different types of product test to laboratory is different, and therefore, it is necessary to existing air-conditioning Enthalpy difference performance test room is improved.

Invention content

The technical problems to be solved by the invention provide a kind of air-conditioning enthalpy difference performance test room, can effectively reduce sky Adjust floor space, the test for efficiently carrying out a variety of air-conditioning equipments.

Solution is used by the present invention solves above-mentioned technical problem：A kind of air-conditioning enthalpy difference performance test room is provided, Including two layers, first layer is provided between indoor side test between the first outdoor side test, with described the between the interior side test It is disposed proximate between one outdoor side test, the second layer is provided between the outer side test of second Room, vertical between the outer side test of the second Room Above being set between the indoor side test；Between described first outdoor side test, between the indoor side test, outside the second Room It is respectively arranged with the first air handling system, the second air handling system, third air handling system in side test, described the One air handling system, the second air handling system, third air handling system are respectively used to adjust the first outside survey Environment between examination, between indoor side test, in the outer side test of second Room is to operating point；Between the outer side test of the second Room with it is described Via is offered between indoor side test, tested air-conditioning can be raised to by institute out of described indoor side test by the via It states in the outer side test of second Room.

As a further improvement of the above technical scheme, in the described first outdoor side test, top is provided with lamp bracket, Radial burner is provided on the lamp bracket, the radial burner penetrates heat to the described first outdoor side test interradius, to simulate true ring Solar radiation situation in border, the lamp bracket are movably set in the described first outdoor side test, can relatively described first Room It is moved up and down between outer side test, to provide the radiation of varying strength, ground is equipped with heat-conducting plate between the described first outdoor side test, Heating equipment is additionally provided in described first outdoor side test, the heating equipment is thermally connected with the heat-conducting plate, with to institute Heat-conducting plate heating is stated, and then simulates true environment terrestrial surface radiation temperature.

As a further improvement of the above technical scheme, along the direction being away between the indoor side test, described the There is folded sheet in one outdoor side test, the folded sheet can be stretched along the width direction of first outside, by described in Mutually independent first test section, the second test section are separated between first outdoor side test, between the interior side test, the first Room Between outer side test, between the outer side test of second Room insulating interlayer is provided on surroundings wall.

As a further improvement of the above technical scheme, it is installed with the first air processing machine in the indoor side test Group, the described first outdoor side test is interior to be installed with the second air-treatment unit, is installed in the outer side test of the second Room Third air-treatment unit, the first air-treatment unit are connected with first for driving the first air-treatment unit work Operating mode unit, the second air-treatment unit are connected with the second operating mode for driving the second air-treatment unit work Unit, the third air-treatment unit are connected with the third operating mode machine for driving the third air-treatment unit work Group, further includes heat recovery system, and the heat recovery system includes cooling tower, heat exchanger, the cooling tower and first operating mode The first cooling cycle pipeline, the second cooling have been respectively communicated between unit, the second operating mode unit, the third operating mode unit Circulation line, third cooling cycle pipeline, the first cooling cycle pipeline, which is back on described cooling tower one end, is parallel with One heat exchange cycle pipeline, the second cooling cycle pipeline, which is back on described cooling tower one end, is parallel with the second heat exchange cycle pipe Road, the third cooling cycle pipeline, which is back on described cooling tower one end, is parallel with third heat exchange cycle pipeline, and described first Heat exchange cycle pipeline, the second heat exchange cycle pipeline, third heat exchange cycle pipeline are parallel on the heat exchanger, and the heat exchanger The first recuperation of heat pipeline, the heat exchanger and second air processing machine are communicated between the first air-treatment unit It is communicated between group between the second recuperation of heat pipeline, the heat exchanger and the third air-treatment unit and is communicated with third heat time Closed tube road, the first recuperation of heat pipeline, the second recuperation of heat pipeline, third recuperation of heat pipeline are parallel on the heat exchanger.

As a further improvement of the above technical scheme, the first shut-off valve is provided on the first heat exchange cycle pipeline, The second shut-off valve is provided on the second heat exchange cycle pipeline, third cut-off is provided on the third heat exchange cycle pipeline Valve, the first recovery tubes road are provided with the 4th shut-off valve, and the second recovery tubes road is provided with the 5th shut-off valve, The third recovery tubes road is provided with the 6th shut-off valve.

As a further improvement of the above technical scheme, water cooling refrigeration system is further included, the water cooling refrigeration system includes Constant temperature water tank and the water chiller for driving constant temperature water tank work are extended with refrigeration pipeline on the constant temperature water tank, The refrigeration pipeline is away from described constant temperature water tank one end and stretches between the indoor side test, for the water inlet end with tested unit Connection, the interior backheat pipeline being fixedly provided with for being connected with the water outlet of tested unit of interior side test, the backheat Pipeline is stretched out between the indoor side test, and is connected with the constant temperature water tank, so as to form a circulation loop, the refrigeration water pipe Triple valve is provided at the water outlet end position of the constant temperature water tank, the refrigeration water pipe passes through the triple valve and the backheat Pipeline connection by adjusting the triple valve, makes the water that the partial reflux in the backheat pipeline is returned flow into the refrigerator pipes Lu Zhong, so as to adjust the refrigeration pipeline, the backheat pipeline in tested unit water inlet end and the temperature being discharged at end position.

As a further improvement of the above technical scheme, the refrigeration pipeline is also parallel with refrigeration with product heat cal rod road Feedback pipe and backheat feedback pipe, and the tested unit one end of refrigeration pipeline connection is provided with the first temp probe, it is described The tested unit one end of backheat pipeline connection is provided with second temperature probe, and the refrigeration pipeline is at the triple valve water exit position Third temp probe is provided with, the backheat pipeline flows at the three-way valve position and is provided with the 4th temp probe, the system Cold feedback pipe, backheat feedback pipe are set between stretching into the described first outdoor side test, the refrigeration feedback pipe, backheat feedback Pipeline is respectively arranged with the 5th temp probe and the 6th temp probe in one end between the described first outdoor side test.

As a further improvement of the above technical scheme, product heat cal rod road, along the flow direction of the backheat pipeline On be disposed with the first heat exchanging pipe, the second heat exchanging pipe, first heat exchanging pipe, the second heat exchanging pipe and the heat exchange Device connects, and the partial heat in the backheat pipeline is recycled by the heat exchanger.

As a further improvement of the above technical scheme, first is communicated between the handpiece Water Chilling Units and the cooling tower to dissipate Thermal cycle pipeline, and the heat dissipation circulation line flows on one end of the cooling tower and is parallel with the second heat dissipation circulation line, institute It states the second heat dissipation circulation line and is parallel to first heat exchanging pipe, on the second heat exchanging pipe.

As a further improvement of the above technical scheme, on first heat exchanging pipe, backheat pipeline described in Yu Qiyu with The 7th shut-off valve is provided between the tie point of second heat dissipation circulation line, is returned on second heat exchanging pipe, described in Yu Qiyu The 8th shut-off valve is provided between the tie point of pipe line and the second heat dissipation circulation line, the product heat cal rod road, in described the The 9th shut-off valve is provided between one heat exchanging pipe and second heat exchanging pipe, is provided on the second heat dissipation circulation line It is provided on tenth shut-off valve, first heat exchanging pipe and/or second heat exchanging pipe, corresponding to described heat exchanger one end 11st shut-off valve.

The beneficial effects of the invention are as follows：

The air-conditioning enthalpy difference performance test room of the present invention is using 2 layout layers, i.e., with the between the indoor side test of first layer Between one outdoor side test, between side test outside the second Room of the second layer, this kind of layout type effectively reduces enthalpy difference experiment Room is to appropriation of land；

By between indoor side test, the first outdoor side test, the various combination outside second Room side test, Ke Yifen The a variety of different air-conditioning products performances of class testing also can be used simultaneously between indoor side test, between the first outdoor side test, outside second Room To meet vehicle, radiation, performance test between side test.

Description of the drawings

Fig. 1 is the layout structure figure of the air-conditioning enthalpy difference performance test room of the present invention；

Fig. 2 is the plane figure of the air-conditioning enthalpy difference performance test room first layer of the present invention；

Fig. 3 is the principle assumption diagram of the air-conditioning enthalpy difference performance test room of the present invention.

Specific embodiment

The technique effect of the design of the present invention, concrete structure and generation is carried out below with reference to embodiment and attached drawing clear Chu is fully described by, to be completely understood by the purpose of the present invention, feature and effect.Obviously, described embodiment is this hair Bright part of the embodiment rather than whole embodiments, based on the embodiment of the present invention, those skilled in the art is not paying The other embodiment obtained under the premise of creative work, belongs to the scope of protection of the invention.In addition, it is arrived involved in patent All connection/connection relations, not singly refer to component and directly connect, and refer to can according to specific implementation situation, by addition or Couple auxiliary is reduced, to form more preferably coupling structure.Each technical characteristic in the present invention, before not conflicting conflict Putting can be with combination of interactions.

Such as Fig. 1, air-conditioning enthalpy difference performance test room of the invention uses 2 laminar arrangements, including between indoor side test 1st, 2 between the first outdoor side test, 3 between the outer side test of second Room, wherein 1 tight between 2 and indoor side test between the first outdoor side test Neighbour's setting, and the two is set to first layer, 3 are located at the second layer between the outer side test of second Room, and 3 vertical between the outer side test of second Room Between indoor side test 1 top is set to, by the arrangement of 2 laminars, is cleverly taken using between same indoor side test 1 Between carrying two outdoor side tests, even if an enthalpy difference laboratory can realize that two enthalpy difference laboratories add a vehicle radiation originally The effect in laboratory greatly reduces land seizure rate.

It is illustrated between each test in detail below：

Between (1) first outdoor side test

Such as Fig. 1 and Fig. 2,2 are provided with the first air handling system between the first outdoor side test, in the present embodiment, in order to have Area between the outdoor side test of the utilization first of effect in 2 vertical direction, 2 upwardly extend to Vertical Square and set between the first outdoor side test It puts, the first air handling system is set between the first outdoor side test 2 top, and the first air handling system passes through air pipeline Realize the cycle of cold wind, 2 top, the air pipeline of the first air handling system are evenly arranged between the first outdoor side test Air outlet, with uniformly 2 between the first outdoor side test in cold air is provided.

In the present embodiment, 2 top is additionally provided with lamp bracket 20 between the first outdoor side test, and spoke is equipped on lamp bracket 20 Shot-light, radial burner 2 can provide heat radiations between the first outdoor side test, when air-conditioning equipment test, can simulate really The heat radiation condition of generation is shined upon in environment.

Preferably, in the present embodiment, lamp bracket 20 is movably set in 2 between the first outdoor side test, can be relative to first 2 move up and down between outdoor side test, so as to achieve the purpose that adjust radiation intensity.

Be equipped with heat-conducting plate between first outdoor side test on 2 ground, and 2 between the first outdoor side test in be provided with plus Thermal, heating unit are thermally connected with heat-conducting plate, and heating unit work makes heat-conducting plate heat production, in the experiment of air-conditioning equipment, leads Hot plate heat production is so as to occur heat radiation, so as to simulate the situation of earth's surface heat radiation in true environment.

In order to reasonably utilize between the first outdoor side test 2 space, between indoor side test is away from 1 direction, 2 intermediate position is provided with folded sheet 21 between first outdoor side test, 2 surrounding wall between 21 and first outdoor side test of folded sheet Wall coordinates, and is separated to form mutually independent first test section 200, the second test section 210 by between the first outdoor side test 2, rolls over Lamination 21 is folding plate, according to actual test equipment, can reasonably select and whether set folded sheet 21 by the first outside 2 are separated between test, after 2 separation between the first outdoor side test, can be used alone the first test section 200 or the second test Area 210 is tested, in this way, the cooling, heating rate in test section are faster, in addition, folded sheet 21 is mobilizable to be set to In 2 between one outdoor side test, can be moved left and right relative between the first outdoor side test 2, so adjust the first test section 200 with The size of second test section 210, effective use of energy sources.

(2) between indoor side test

The second air handling system is provided in 1 between indoor side test, the second air handling system is used to survey indoor 1 provides hot wind between examination, so in regulation room 1 between side test in temperature, in addition, be additionally provided in 1 between indoor side test electricity plus In thermal, electric heater unit and the second air handling system cooperation regulation room 1 between side test in temperature, reach operating mode Required temperature condition.

In the present embodiment, 1 between indoor side test in be additionally provided with indoor test area, indoor test section is for being humidified Unit, water pond, water cooling unit air-conditioner set enthalpy difference performance test.

(3) between the outer side test of second Room

Between the outer side test of second Room 3 be vertically installed between indoor side test 1 top, 3 and room between the outer side test of second Room Via is offered between 1 between interior side test, for air-conditioning equipment to be raised to outside second Room 3 between side test between indoor side test 1 In tested, be directed to the products such as electric rail air-conditioning, overhead electric air-conditioning, in addition to refrigeration end disposed within, be also placed in Outdoor goes out hot junction, it is gone out in the range of hot junction performance detection also belongs to air-conditioning equipment enthalpy difference performance test, in the present embodiment, 3 top is provided with boom hoisting between the outer side test of second Room, is hung air-conditioning equipment between indoor side test 1 by boom hoisting It is packed into outside second Room 3 between side test, the enthalpy difference performance test in hot junction is gone out by 3 progress air-conditioning equipments between side test outside second Room.

The air-conditioning enthalpy difference performance test room of the present invention, indoors between side test between the 1, first outdoor side test outside 2, second Room Insulating interlayer is provided on 3 surroundings wall between side test, it will be 2, second between the between indoor side test 1, first outdoor side test 3 form a keeping warmth space between outdoor side test, increase experiment accuracy.

The air-conditioning enthalpy difference performance test room of the present invention, by 2, second the 1, first outdoor side test between indoor side test 3 reasonable combinations utilize between outdoor side test, can realize a variety of testing schemes, specifically, can by between the first outdoor side test 2 Vehicle environmental simulation is tested with being implemented separately, can be implemented separately to humidification unit, water pond, water by between indoor side test 1 Cold unit air-conditioner unit experiment, by between indoor side test 1 and first 2 with the use of air conditioner in machine room can be carried out between outdoor side test Unit performance test, by by between side test outside between indoor side test 1 and second Room 3 with the use of can carry out electric rail air-conditioning, Overhead electric air-conditioning performance test, by 3 combinations between side test outside 2, second Room between the between indoor side test 1, first outdoor side test It uses, vehicle can be met, trolley air conditioner is tested simultaneously.

To sum up, air-conditioning enthalpy difference performance test room of the invention uses the layout structure of 2 floor, by reasonably combining each survey A variety of test environments can be realized between examination, interior maximize realizes the experiment of equipment enthalpy difference in a limited space, has huge reality Application value.

Such as Fig. 3, the principle assumption diagram of the air-conditioning enthalpy difference performance test room of the present invention is shown, in order to reasonably utilize energy Source, air-conditioning enthalpy difference performance test room of the invention further include heat recovery system, to recycle the heat generated during unit work, by it Send back in test and be used, 1 between specific indoor side test in be installed with the first air-treatment unit 10, the first outside The second air-treatment unit 22 is installed in 2 between test, outside third room 3 between side test in be installed with third air-treatment unit 30, the first air-treatment unit 10 is connected with the first operating mode unit 11 for driving the first air-treatment unit 10, and second is empty Gas disposal unit 22 is connected with the second operating mode unit 23 for driving the work of the second air-treatment unit 22, third air-treatment Unit 30 is connected with the third operating mode unit 31 for third air-treatment unit 30 to be driven to work, heat recovery system of the invention Including cooling tower 4 and heat exchanger 5, the first cooling cycle pipeline 40 is connected between 4 and first operating mode unit 11 of cooling tower, it is cold But the second cooling cycle pipeline 41 is connected between 4 and second operating mode unit 23 of tower, between cooling tower 4 and third operating mode unit 31 Third cooling cycle pipeline 42 is connected with, in this way, cooling tower 4 is to the first operating mode unit 11, the second operating mode unit 23, third operating mode Unit 31 is cooled down, and prevents operating mode unit from overheating.

First cooling cycle pipeline 40 flows on one end of cooling tower 4 and is parallel with the first heat exchange cycle pipeline 400, and second is cold But circulation line 41 flows on one end of cooling tower 4 and is parallel with the second heat exchange cycle pipeline 410, and third cooling cycle pipeline 42 flows Enter to be parallel with third heat exchange cycle pipeline 420, the first heat exchange cycle pipeline 400, the second heat exchange cycle pipe on one end of cooling tower 4 Road 410, third heat exchange cycle pipeline 420 are connected in parallel on heat exchanger 5, the first heat exchange cycle pipeline 400, the second heat exchange cycle Pipeline 410, third heat exchange cycle pipeline 420 are by the heat transfer to heat exchanger 5 absorbed from operating mode unit, in heat exchanger 5 In, heat exchanger 5 by its heat absorption, be connected between 5 and first air-treatment unit 10 of heat exchanger the first recuperation of heat pipeline 50, The second recuperation of heat pipeline 51, heat exchanger 5 and third air processing machine are connected between 5 and second air-treatment unit 22 of heat exchanger Third recuperation of heat pipeline 52, and the first recuperation of heat pipeline 50, the second recuperation of heat pipeline 51, third recuperation of heat are connected between group 30 Pipeline 52 is in parallel to be connect with heat exchanger 5, and the heat that heat exchanger 5 absorbs passes through the first recuperation of heat pipeline 50, the second recuperation of heat pipeline 51st, third recuperation of heat pipeline 52 pass between indoor side test 2 between the 1, first outdoor side test, between the outer side test of second Room 3 into The recycling of row energy.

Preferably, the first heat exchange cycle pipeline 400, the second heat exchange cycle pipeline 411, on third heat exchange cycle pipeline 420 The first shut-off valve 400, the second shut-off valve 411, third shut-off valve 421 are respectively arranged with, for controlling the first heat exchange cycle pipeline 400th, whether the work of the second heat exchange cycle pipeline 401, third heat exchange cycle pipeline 420.

Preferably, the first recuperation of heat pipeline 50, the second recuperation of heat pipeline 51, be respectively arranged on third recuperation of heat pipeline 52 4th shut-off valve 500, the 5th shut-off valve 510, the 6th shut-off valve 520 pass through the 4th shut-off valve 500, the 5th shut-off valve 510, The opening and closing of six shut-off valves 520, control are needed between the test of recycling heat.

The air-conditioning enthalpy difference performance test room of the present invention is also equipped with the function of water cooling refrigeration, for this purpose, the air-conditioning enthalpy difference of the present invention The water chiller 7 that performance test room further includes constant temperature water tank 6 and constant temperature water tank 6 is driven to work, constant temperature water tank 6 are connected with refrigeration Pipeline 60, one end that refrigeration pipeline 60 is away from constant temperature water tank 6 are stretched into 1 between indoor side test, for tested unit into Water end (W.E.) connects, 1 between indoor side test in be additionally provided with the backheat pipeline 61 connect with constant temperature water tank 6, backheat pipeline 61 for The water outlet connection of tested unit, so as to form the cycle of refrigeration between constant temperature water tank 6 and tested unit, refrigeration pipeline 60 in Triple valve 62 is installed at the water outlet end position of constant temperature water tank 6, refrigeration pipeline 60 is connected by triple valve 62 with backheat pipeline 61, By regulating three-way valve 62, the water of partial reflux is flowed directly back into refrigeration pipeline 60 in backheat pipeline 61, then with refrigerator pipes Road 60 flows into tested unit, and the temperature of tested unit water inlet end can be adjusted by regulating three-way valve 62.

Further, in order to be accurately controlled the temperature of tested unit water inlet end, water outlet, in triple valve 62 and tested machine Between group, refrigeration feedback pipe 63 and backheat feedback pipe 64, system are also parallel on refrigeration pipeline 60 and backheat pipeline 61 respectively Cold feedback pipe 63, backheat pipeline pipeline 64 are respectively protruding into 2 settings between the first outdoor side test, wherein, refrigeration pipeline 60 is in quilt It surveys at the water inlet end of unit and is provided with the first temp probe 600, backheat pipeline is provided with second at the water outlet of tested unit Temp probe 610, refrigeration feedback pipe 63 2 one end between the first outdoor side test are provided with third temp probe 630, backheat 2 one end between the first outdoor side test of feedback pipe 64 is provided with the 4th temp probe 640, and refrigeration pipeline 60 is in triple valve 62 It flows at 60 position of refrigeration pipeline and is provided with the 5th temp probe 601, backheat pipeline 61 is flowed at 62 position of triple valve and is provided with 6th temp probe 611, by by the 5th temp probe 601, the temperature of the 6th temp probe 611 and third temp probe 630 The energy loss that can be obtained in pipeline is compared with the temperature of the 4th temp probe 640, then by the 5th temp probe 601st, the temperature of the 6th temp probe 611 and the temperature of the first temp probe 600, second temperature probe 610 are compared, and are gathered Triple valve 62 is adjusted in energy loss in pipeline, so accurately adjust the water inlet end of tested unit, water outlet temperature Degree.

Preferably, between triple valve 62 and tested unit, backheat pipeline 61 is also respectively provided with along its flow direction First heat exchanging pipe 43, the second heat exchanging pipe 44, the first heat exchanging pipe 43, the second heat exchanging pipe 44 are connected with heat exchanger 5, backheat A part of water absorbs heat by 43 inflow heat exchanger 5 of the first heat exchanging pipe by heat exchanger 5 in pipeline 61, then by the Two heat exchanging pipes 44 are back in backheat pipeline 61, and the heat that heat exchanger 5 absorbs is returned by first the 50, second heat of recuperation of heat pipeline Closed tube road 51, third recuperation of heat pipeline 52 are recycled in being recycled between each test.

Further, the first heat dissipation circulation line 70 is connected between handpiece Water Chilling Units 7 and cooling tower 4, passes through the first heat dissipation Circulation line 70 radiates to handpiece Water Chilling Units 7, and the first heat dissipation circulation line 70, which is flowed on one end of handpiece Water Chilling Units 7, is parallel with the Two heat dissipation circulation lines 71, the second heat dissipation circulation line 71 are connected in parallel with the first heat exchanging pipe 43, the second heat exchanging pipe 44, from And the heat in the first heat exchanging pipe 43, the second heat exchanging pipe 44 can flow into cooling tower 4 by the second heat dissipation circulation line 71 In distributed, further, since second heat dissipation circulation line 70 be connected in parallel on the first heat exchanging pipe 43 and the second heat exchanging pipe 44, The heat absorbed in second heat dissipation circulation line 70 from handpiece Water Chilling Units 7 can also be left to heat exchanger 5, absorb heat by heat exchanger 5 Amount, and then by heat recovery between the between indoor side test 1, first outdoor side test outside 2, second Room 3 between side test.

Preferably, the tie point of the first heat exchanging pipe 43, the circulation line 71 that radiates with backheat pipeline 61 and second in it Between be provided with the 7th shut-off valve 430, the second heat exchanging pipe 44 radiates circulation line 71 in itself and backheat pipeline 61 and second Tie point between be provided with the 8th shut-off valve 440, when the 7th shut-off valve 430, the 8th shut-off valve 440 open when, first heat exchange Water of the circulation with heat in pipeline 43, the second heat exchanging pipe 44.

Preferably, backheat pipeline 61 is provided with the 9th shut-off valve between the first heat exchanging pipe 43 and the second heat exchanging pipe 44 611, when closing nine shut-off valve 611, whole water of backheat pipeline 61 are all by the first heat exchanging pipe 43, the second heat exchanging pipe 44 Flow back into constant temperature water tank 6.

Preferably, the tenth shut-off valve 710 is provided on the second heat dissipation circulation line 71, when the tenth shut-off valve 710 is closed, the Two heat dissipation circulation lines 71 are stopped.

Preferably, the first heat exchanging pipe 43 and/or the second heat exchanging pipe 44 are provided with the 11st cut-off in 5 one end of heat exchanger Valve 431 closes the 11st shut-off valve 431, flows through the water in the first heat exchanging pipe 43 without heat exchanger 5.

It is presently preferred embodiments of the present invention to be illustrated, but the present invention is not limited to the embodiment above, Those skilled in the art can also make various equivalent variations or replacement under the premise of without prejudice to spirit of the invention, this Equivalent deformation or replacement are all contained in the application claim limited range a bit.

Claims (10)

1. a kind of air-conditioning enthalpy difference performance test room, it is characterised in that：Including two layers, first layer is provided between indoor side test and It between one outdoor side test, is disposed proximate between the described first outdoor side test between the interior side test, the second layer is provided with the Between two outdoor side tests, top between the indoor side test is vertically installed between the outer side test of the second Room；

The is respectively arranged between the first outdoor side test, between the indoor side test, in the outer side test of the second Room One air handling system, the second air handling system, third air handling system；

Between the outer side test of the second Room between the indoor side test between offer via, can will be tested by the via Air-conditioning is raised to outside the second Room out of described indoor side test in side test.

2. air-conditioning enthalpy difference performance test room according to claim 1, it is characterised in that：Between described first outdoor side test Interior, top is provided with lamp bracket, is provided with radial burner on the lamp bracket, and the radial burner is to the described first outdoor side test interradius Heat is penetrated, to simulate solar radiation situation in true environment, the lamp bracket is movably set in the described first outdoor side test, It can be moved up and down between relatively described first outdoor side test, to provide the radiation of varying strength.Described first outdoor side test Between ground be equipped with heat-conducting plate, be additionally provided with heating equipment in the described first outdoor side test, the heating equipment with it is described Heat-conducting plate is thermally connected, and to be heated to the heat-conducting plate, and then simulates true environment terrestrial surface radiation temperature.

3. air-conditioning enthalpy difference performance test room according to claim 2, it is characterised in that：Edge is away from the indoor side test Between direction on, have folded sheet in the first outdoor side test, the folded sheet can be along the width of first outside Direction is stretched, and will be separated into mutually independent first test section, the second test section, the room between the described first outdoor side test Between interior side test, between the first outdoor side test, between the outer side test of second Room insulating interlayer is provided on surroundings wall.

4. air-conditioning enthalpy difference performance test room according to any one of claim 1-3, it is characterised in that：The indoor is surveyed The first air-treatment unit is installed in examination, the second air-treatment unit, institute are installed in the described first outdoor side test It states in the outer side test of second Room and is installed with third air-treatment unit, the first air-treatment unit is connected with to drive First operating mode unit of the first air-treatment unit work, the second air-treatment unit are connected with to drive described second Second operating mode unit of air-treatment unit work, the third air-treatment unit are connected with to drive the third air The third operating mode unit of unit work is handled, further includes heat recovery system, the heat recovery system includes cooling tower, heat exchanger, It has been respectively communicated between the cooling tower and the first operating mode unit, the second operating mode unit, the third operating mode unit First cooling cycle pipeline, the second cooling cycle pipeline, third cooling cycle pipeline, the first cooling cycle pipeline are back to The first heat exchange cycle pipeline is parallel on described cooling tower one end, the second cooling cycle pipeline is back to the cooling tower one The second heat exchange cycle pipeline is parallel on end, the third cooling cycle pipeline, which is back on described cooling tower one end, is parallel with Three heat exchange cycle pipelines, the first heat exchange cycle pipeline, the second heat exchange cycle pipeline, third heat exchange cycle pipeline are parallel to institute It states on heat exchanger, and the first recuperation of heat pipeline is communicated between the heat exchanger and the first air-treatment unit, described is changed It is communicated between hot device and the second air-treatment unit at the second recuperation of heat pipeline, the heat exchanger and the third air Third recuperation of heat pipeline, the first recuperation of heat pipeline, the second recuperation of heat pipeline, third recovery tubes are communicated between reason unit Road is parallel on the heat exchanger.

5. air-conditioning enthalpy difference performance test room according to claim 4, it is characterised in that：On the first heat exchange cycle pipeline The first shut-off valve is provided with, the second shut-off valve, the third heat exchange cycle pipeline are provided on the second heat exchange cycle pipeline On be provided with third shut-off valve, the first recovery tubes road is provided with the 4th shut-off valve, the second recovery tubes road The 5th shut-off valve is provided with, the third recovery tubes road is provided with the 6th shut-off valve.

6. air-conditioning enthalpy difference performance test room according to claim 5, it is characterised in that：Further include water cooling refrigeration system, institute It states water cooling refrigeration system and includes constant temperature water tank and the water chiller for driving the constant temperature water tank work, the constant temperature water tank On be extended with refrigeration pipeline, the refrigeration pipeline is away from described constant temperature water tank one end and stretches between the indoor side test, is used for It is connected with the water inlet end of tested unit, is fixedly provided with to connect with the water outlet of tested unit in the interior side test Backheat pipeline, the backheat pipeline is stretched out between the indoor side test, and is connected with the constant temperature water tank, so as to form a cycle Circuit, the refrigeration water pipe are provided with triple valve at the water outlet end position of the constant temperature water tank, and the refrigeration water pipe passes through institute Triple valve and the backheat pipeline connection are stated, by adjusting the triple valve, the partial reflux in the backheat pipeline is made to return Water flow into the refrigeration pipeline, so as to adjust the refrigeration pipeline, the backheat pipeline in tested unit water inlet end and go out Temperature at water end (W.E.) position.(pipeline between the first outdoor side test is anti-with refrigeration feedback pipe and backheat in claims 9 Pipeline is presented, the first to the 6th temp probe is used for collecting temperature.

7. air-conditioning enthalpy difference performance test room according to claim 6, it is characterised in that：The refrigeration pipeline and the backheat Refrigeration feedback pipe and backheat feedback pipe are also parallel on pipeline, and the tested unit one end of refrigeration pipeline connection is provided with First temp probe, described tested unit one end of backheat pipeline connection are provided with second temperature probe, and the refrigeration pipeline is in institute It states and third temp probe is provided at triple valve water exit position, the backheat pipeline, which is flowed at the three-way valve position, is provided with the Four temp probes, the refrigeration feedback pipe, backheat feedback pipe are set between stretching into the described first outdoor side test, the refrigeration Feedback pipe, backheat feedback pipe are respectively arranged with the 5th temp probe and the 6th temperature in one end between the described first outdoor side test Degree probe.

8. air-conditioning enthalpy difference performance test room according to claim 7, it is characterised in that：Product heat cal rod road, along described The first heat exchanging pipe, the second heat exchanging pipe, first heat exchanging pipe, second are disposed on the flow direction of backheat pipeline Heat exchanging pipe is connected with the heat exchanger, and the partial heat in the backheat pipeline is recycled by the heat exchanger.

9. air-conditioning enthalpy difference performance test room according to claim 8, it is characterised in that：The handpiece Water Chilling Units and the cooling It is communicated with the first heat dissipation circulation line between tower, and the heat dissipation circulation line flows on one end of the cooling tower and is parallel with the Two heat dissipation circulation lines, the second heat dissipation circulation line are parallel to first heat exchanging pipe, on the second heat exchanging pipe.

10. air-conditioning enthalpy difference performance test room according to claim 9, it is characterised in that：On first heat exchanging pipe, in It is provided with the 7th shut-off valve, second heat exchanger tube between the tie point of the backheat pipeline and the second heat dissipation circulation line On the road, it is provided with the 8th shut-off valve between the tie point of backheat pipeline described in Yu Qiyu and the second heat dissipation circulation line, described time The 9th shut-off valve is provided on pipe line, between first heat exchanging pipe and second heat exchanging pipe, described second dissipates Heat circulation pipe road is provided with the tenth shut-off valve, on first heat exchanging pipe and/or second heat exchanging pipe, corresponding to institute It states heat exchanger one end and is provided with the 11st shut-off valve.