CN202648976U - Integrated energy-saving testing system for waterway detection of various heat-pump/air-conditioning apparatuses - Google Patents

Abstract

The utility model provides an integrated energy-saving testing system for the waterway detection of various heat-pump/air-conditioning apparatuses. The system includes a cooling tower water cooling system and a combined type waterway testing system, the combined type waterway testing system includes a first proportional three-way control valve, a second proportional three-way control valve, a first heating water tank, a second heating water tank, a water tank water circulating system, and a first mainstream pipeline, a second mainstream pipeline, a third mainstream pipeline, a fourth mainstream pipeline, and a fifth mainstream pipeline which are connected to the mixing water pool of the cooling tower water cooling system. The first proportional three-way control valve is arranged on the first mainstream pipeline, and the shunting outlet of the first proportional three-way control valve is connected to the second mainstream pipeline equipped with the first heating water tank; the second proportional three-way control valve is arranged on the third mainstream pipeline, and the shunting outlet of the second proportional three-way control valve is connected to the fourth mainstream pipeline equipped with the second heating water tank; and the water tank water circulating system is respectively connected to the cooling tower water cooling system, the fourth mainstream pipeline, and the fifth mainstream pipeline. The system provided has the advantages of energy saving, less energy consumption, and powerfulness.

Description

The integral energy-saving test macro that is used for all kinds of heat pumps/air-conditioning equipment water route test

Technical field

The utility model relates to the technical field of heating and ventilating equipment, refers in particular to a kind of integral energy-saving test macro for all kinds of heat pumps/air-conditioning equipment water route test.

Background technology

Known in the industry, traditional test macro that is used for the test of all kinds of heating and ventilating equipments water route generally all is separate, namely be each class heating and ventilating equipment relatively have one with the test macro of its configuration, and each test macro is separated from each other, without any association.For above situation, at present in order to tackle the test request of multiclass heating and ventilating equipment, above-mentioned test macro has the of a great variety of test macro now, although can both reach request for utilization, but there is a comparatively serious problem between them, be exactly the overlapping investment of resource, it is specially: the part-structure of some test macros is overlapping, sometimes as required in addition the test macro that will make up two or more finish the work, so not only time-consuming but also trouble was and larger to the input of test macro.Therefore, at present along with the development of social science and technology, how existing test macro is organically combined to satisfy the test request of variety classes heating and ventilating equipment, avoid the overlapping investment of resource, become researchist's urgent problem.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of reliable, energy-saving consumption reasonable in design, the powerful integral energy-saving test macro that is used for all kinds of heat pumps/air-conditioning equipment water route test are provided.

For achieving the above object, technical scheme provided by the utility model is: a kind of integral energy-saving test macro for all kinds of heat pumps/air-conditioning equipment water route test, it includes the cooling tower water cooling system, it also includes the Combined water path test system that joins by pipeline and cooling tower water cooling system, the performance parameter that is used for test heat pump water-heating machine and air conditioner cold water machine, wherein, described Combined water path test system includes the first ratio three-way control valve, the second ratio three-way control valve, the first heating water tank, the second heating water tank, test rise during heat pump water-heating machine the Water in Water Tank circulation system of thermoregulatory effect and respectively with the first main flow pipeline that the pond joins that mixes of cooling tower water cooling system, the second main flow pipeline, the 3rd main flow pipeline, the 4th main flow pipeline, the 5th main flow pipeline, described the first main flow pipeline, the second main flow pipeline, the 3rd main flow pipeline, the 4th main flow pipeline, be separately installed with thermometer on the test link of the 5th main flow pipeline, simultaneously, at this first main flow pipeline, be separately installed with flowmeter on the test link of the 3rd main flow pipeline and the 5th main flow pipeline; Described the first ratio three-way control valve correspondence is installed on the pipeline of the first main flow pipeline, and, one shunting outlet of this first ratio three-way control valve is joined by bypass and the second main flow pipeline, simultaneously, at this second main flow pipeline the first heating water tank is installed; Described the second ratio three-way control valve correspondence is installed on the pipeline of the 3rd main flow pipeline, and, one shunting outlet of this second ratio three-way control valve is joined by bypass and the 4th main flow pipeline, simultaneously, at the 4th main flow pipeline the second heating water tank is installed, and the 4th main flow pipeline joins by the pipeline of another bypass and the Water in Water Tank circulation system, simultaneously, this Water in Water Tank circulation system is joined with cooling tower water cooling system and the 5th main flow pipeline respectively by pipeline.

On described the second main flow pipeline the first water pump is installed.

On described the 4th main flow pipeline the second water pump is installed.

Described cooling tower water cooling system includes and mixes pond, cooling tower, air conditioner cold water machine, the 3rd water pump, the 4th water pump, wherein, joins by pipeline between described mixing pond and the cooling tower, and simultaneously, correspondence is equipped with the 3rd water pump on this pipeline; Described the 4th water pump and air conditioner cold water machine join, and consist of circulation waterway by pipeline with the above-mentioned pond of mixing, and simultaneously, the Water in Water Tank circulation system and this circulation waterway join.

The described Water in Water Tank circulation system mainly is made of two water tanks, and wherein, described two water tanks interconnect by pipeline, and consists of water-flow circuit.

Described heat pump water-heating machine is air-source heat pump hot water or water/ground source heat pump hot water machine.

Described air conditioner cold water machine is air-source air conditioner cold water machine or water/earth source air conditioner cooling-water machine.

The utility model is after having adopted such scheme, its great advantage is that the utility model passes through the combination to different water routes test macro, be specially Combined water path test system of the present utility model, to reach the different request for utilizations when satisfying heat pump water-heating machine and testing with the air conditioner cold water machine, this compared to existing technology, effectively avoid the in the past overlapping investment of resource, saved widely production cost; In addition, the ratio three-way control valve of the utility model by setting up, when test bypass a part of water to corresponding main flow pipeline, so both can reduce the use of blower fan of cooling tower, simultaneously also reduce the heating power of heating water tank, thereby can reach the beneficial effect of energy-saving consumption.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Embodiment

The utility model is described in further detail below in conjunction with specific embodiment.

Shown in accompanying drawing 1, the described integral energy-saving test macro of present embodiment, the Combined water path test system 2 that it includes cooling tower water cooling system 1 and joins by pipeline and this cooling tower water cooling system 1, wherein, the described Combined water path test system 2 of present embodiment is the performance parameters for test heat pump water-heating machine and air conditioner cold water machine, it includes the first ratio three-way control valve 3, the second ratio three-way control valve 4, the first heating water tank 7, the second heating water tank 8, test rise during heat pump water-heating machine the Water in Water Tank circulation system 9 of thermoregulatory effect and respectively with the first main flow pipeline 11 that pond 10 joins that mixes of cooling tower water cooling system 1, the second main flow pipeline 12, the 3rd main flow pipeline 13, the 4th main flow pipeline 14, the 5th main flow pipeline 15, described the first main flow pipeline 11, the second main flow pipeline 12, the 3rd main flow pipeline 13, the 4th main flow pipeline 14, be separately installed with thermometer 17 on the test link of the 5th main flow pipeline 15, simultaneously, at this first main flow pipeline 11, be separately installed with flowmeter 16 on the test link of the 3rd main flow pipeline 13 and the 5th main flow pipeline 15; Described the first ratio three-way control valve 3 correspondences are installed on the pipeline of the first main flow pipeline 11, and, one shunting outlet of this first ratio three-way control valve 3 is joined by bypass and the second main flow pipeline 12, simultaneously, be separately installed with the first water pump 5 at this second main flow pipeline 12, the first heating water tank 7, such design is so that the backwater of the first main flow pipeline 11 (high-temperature water) passes through this first ratio three-way control valve 3, bypass a part of water go in the second main flow pipeline 12, and then can reduce the use of blower fan of cooling tower, also reduce the heating power of heating water tank 7, thereby can reach the beneficial effect of energy-saving consumption; Described the second ratio three-way control valve 4 correspondences are installed on the pipeline of the 3rd main flow pipeline 13, and, one shunting outlet of this second ratio three-way control valve 4 is joined by bypass and the 4th main flow pipeline 14, simultaneously, be separately installed with the second water pump 6 at the 4th main flow pipeline 14, the second heating water tank 8, and, the 4th main flow pipeline 14 joins by the pipeline of another bypass and the Water in Water Tank circulation system 9, such design is so that the backwater of the 3rd main flow pipeline 13 (water at low temperature) passes through this second ratio three-way control valve 4, bypass mix with the water of being sent into through above-mentioned bypass by the Water in Water Tank circulation system 9 in a part of water to the four main flow pipelines 14, can play the coolant-temperature gage effect that reduces this section bypass, thereby reach the beneficial effect of energy-saving consumption; Simultaneously, this Water in Water Tank circulation system 9 is joined with cooling tower water cooling system 1 and the 5th main flow pipeline 15 respectively by pipeline.The described cooling tower water cooling system 1 of present embodiment includes and mixes pond 10, cooling tower 18, air conditioner cold water machine 19, the 3rd water pump 20, the 4th water pump 21, wherein, join by pipeline between described mixing pond 10 and the cooling tower 18, simultaneously, correspondence is equipped with the 3rd water pump 20 on this pipeline; Described the 4th water pump 21 and air conditioner cold water machine 19 join, and consist of circulation waterways by pipeline with the above-mentioned pond 10 of mixing, and are used for the cooling of water temperature when high and process, and simultaneously, the Water in Water Tank circulation system 9 is joined with this circulation waterway.The described Water in Water Tank circulation system 9 of present embodiment mainly is made of two water tanks 22,23, wherein, described two water tanks 22,23 interconnect by pipeline, and consist of water-flow circuit, are used for guaranteeing that water temperature is in the normal range of test when the test heat pump water-heating machine.Below be the concrete test function of the above-mentioned integral energy-saving test macro of present embodiment: 1, when needs are tested the performance parameter of air-source heat pump hot water, only need the test link correspondence of the 4th main flow pipeline 14 and the 5th main flow pipeline 15 is connected to water route input end and the output terminal of air-source heat pump hot water, just can carry out the performance test of this air-source heat pump hot water, under the combination of the 4th main flow pipeline 14 and the 5th main flow pipeline 15, the nominal situation of simulated air source heat pump hot water, then allow this air-source heat pump hot water operation a period of time, specifically observe afterwards flowmeter 16 and thermometer 17 on the 4th main flow pipeline 14 and the 5th main flow pipeline 15, write down correlation parameter, whether reach request for utilization by the performance parameter that calculates this air-source heat pump hot water at last, so just finish the performance test of air-source heat pump hot water; 2, when needing the performance parameter of test water/ground source heat pump hot water machine, only need the first main flow pipeline 11, the second main flow pipeline 12, the 4th main flow pipeline 14, the test link correspondence of the 5th main flow pipeline 15 is connected to water route input end and the output terminal of water/ground source heat pump hot water machine, just can carry out the performance test of this water/ground source heat pump hot water machine, at the first main flow pipeline 11, the second main flow pipeline 12, under the combination of the 4th main flow pipeline 14 and the 5th main flow pipeline 15, the nominal situation of Simulated Water/ground source heat pump hot water machine, then allow this water/ground source heat pump hot water machine operation a period of time, specifically observe afterwards this first main flow pipeline 11, the second main flow pipeline 12, flowmeter 16 and thermometer 17 on the 4th main flow pipeline 14 and the 5th main flow pipeline 15, write down correlation parameter, whether reach request for utilization by the performance parameter that calculates this water/ground source heat pump hot water machine at last, so just finish the performance test of water/ground source heat pump hot water machine; 3, when needs are tested the performance parameter of air-source air conditioner cold water machine, only need the test link correspondence of the 3rd main flow pipeline 13 and the 4th main flow pipeline 14 is connected to water route input end and the output terminal of air-source air conditioner cold water machine, just can carry out the performance test of this air-source air conditioner cold water machine, under the combination of the 3rd main flow pipeline 13 and the 4th main flow pipeline 14, the nominal situation of analog space source of the gas air conditioner cold water machine, then allow this air-source air conditioner cold water machine operation a period of time, specifically observe afterwards flowmeter 16 and thermometer 17 on the 3rd main flow pipeline 13 and the 4th main flow pipeline 14, write down correlation parameter, whether reach request for utilization by the performance parameter that calculates this air-source air conditioner cold water machine at last, so just finish the performance test of air-source air conditioner cold water machine; 4, when needing the performance parameter of test water/earth source air conditioner cooling-water machine, only need the first main flow pipeline 11, the second main flow pipeline 12, the 3rd main flow pipeline 13, the test link correspondence of the 4th main flow pipeline 14 is connected to water route input end and the output terminal of water/earth source air conditioner cooling-water machine, just can carry out the performance test of this water/earth source air conditioner cooling-water machine, at the first main flow pipeline 11, the second main flow pipeline 12, under the combination of the 3rd main flow pipeline 13 and the 4th main flow pipeline 14, the nominal situation of Simulated Water/earth source air conditioner cooling-water machine, then allow this water/earth source air conditioner cooling-water machine operation a period of time, specifically observe afterwards this first main flow pipeline 11, the second main flow pipeline 12, flowmeter 16 and thermometer 17 on the 3rd main flow pipeline 13 and the 4th main flow pipeline 14, write down correlation parameter, whether reach request for utilization by the performance parameter that calculates this water/earth source air conditioner cooling-water machine at last, so just finish the performance test of water/earth source air conditioner cooling-water machine.In a word, after adopting such scheme, the different request for utilizations of the utility model when the combination of different water routes test macro is tested with the air conditioner cold water machine to reach heat pump water-heating machine, this compared to existing technology, effectively avoided the in the past overlapping investment of resource, save widely production cost, also improved work efficiency; In addition, first ratio three-way control valve 3 and the second ratio three-way control valve 4 of the utility model by setting up, when test bypass a part of water to corresponding main flow pipeline, so both can reduce the use of blower fan of cooling tower, also reduced simultaneously the heating power of heating water tank, thereby can reach the beneficial effect of energy-saving consumption, be worthy to be popularized.

The examples of implementation of the above are the preferred embodiment of the utility model only, are not to limit practical range of the present utility model with this, so the variation that all shapes according to the utility model, principle are done all should be encompassed in the protection domain of the present utility model.

Claims (7)

1. one kind is used for the integral energy-saving test macro that all kinds of heat pumps/air-conditioning equipment water route is tested, it includes cooling tower water cooling system (1), it is characterized in that: it also includes the Combined water path test system (2) that joins by pipeline and cooling tower water cooling system (1), the performance parameter that is used for test heat pump water-heating machine and air conditioner cold water machine, wherein, described Combined water path test system (2) includes the first ratio three-way control valve (3), the second ratio three-way control valve (4), the first heating water tank (7), the second heating water tank (8), test rise during heat pump water-heating machine the Water in Water Tank circulation system (9) of thermoregulatory effect and respectively with the first main flow pipeline (11) that pond (10) joins that mixes of cooling tower water cooling system (1), the second main flow pipeline (12), the 3rd main flow pipeline (13), the 4th main flow pipeline (14), the 5th main flow pipeline (15), described the first main flow pipeline (11), the second main flow pipeline (12), the 3rd main flow pipeline (13), the 4th main flow pipeline (14), be separately installed with thermometer (17) on the test link of the 5th main flow pipeline (15), simultaneously, at this first main flow pipeline (11), be separately installed with flowmeter (16) on the test link of the 3rd main flow pipeline (13) and the 5th main flow pipeline (15); Described the first ratio three-way control valve (3) correspondence is installed on the pipeline of the first main flow pipeline (11), and, one shunting outlet of this first ratio three-way control valve (3) is joined by bypass and the second main flow pipeline (12), simultaneously, at this second main flow pipeline (12) the first heating water tank (7) is installed; Described the second ratio three-way control valve (4) correspondence is installed on the pipeline of the 3rd main flow pipeline (13), and, one shunting outlet of this second ratio three-way control valve (4) is joined by bypass and the 4th main flow pipeline (14), simultaneously, at the 4th main flow pipeline (14) the second heating water tank (8) is installed, and, the 4th main flow pipeline (14) joins by the pipeline of another bypass and the Water in Water Tank circulation system (9), simultaneously, this Water in Water Tank circulation system (9) is joined with cooling tower water cooling system (1) and the 5th main flow pipeline (15) respectively by pipeline.

2. a kind of integral energy-saving test macro for all kinds of heat pumps/air-conditioning equipment water route test according to claim 1 is characterized in that: on described the second main flow pipeline (12) the first water pump (5) is installed.

3. a kind of integral energy-saving test macro for all kinds of heat pumps/air-conditioning equipment water route test according to claim 1 is characterized in that: on described the 4th main flow pipeline (14) the second water pump (6) is installed.

4. a kind of integral energy-saving test macro for the test of all kinds of heat pumps/air-conditioning equipment water route according to claim 1, it is characterized in that: described cooling tower water cooling system (1) includes and mixes pond (10), cooling tower (18), air conditioner cold water machine (19), the 3rd water pump (20), the 4th water pump (21), wherein, join by pipeline between described mixing pond (10) and the cooling tower (18), simultaneously, correspondence is equipped with the 3rd water pump (20) on this pipeline; Described the 4th water pump (21) and air conditioner cold water machine (19) join, and consist of circulation waterway by pipeline with the above-mentioned pond (10) of mixing, and simultaneously, the Water in Water Tank circulation system (9) is joined with this circulation waterway.

5. a kind of integral energy-saving test macro for the test of all kinds of heat pumps/air-conditioning equipment water route according to claim 1, it is characterized in that: the described Water in Water Tank circulation system (9) mainly is made of two water tanks (22,23), wherein, described two water tanks (22,23) interconnect by pipeline, and consist of water-flow circuit.

6. a kind of integral energy-saving test macro for the test of all kinds of heat pumps/air-conditioning equipment water route according to claim 1, it is characterized in that: described heat pump water-heating machine is air-source heat pump hot water or water/ground source heat pump hot water machine.

7. a kind of integral energy-saving test macro for the test of all kinds of heat pumps/air-conditioning equipment water route according to claim 1, it is characterized in that: described air conditioner cold water machine is air-source air conditioner cold water machine or water/earth source air conditioner cooling-water machine.

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