CN109442789A - Heat source tower heat pump combined air-conditioning system - Google Patents

Abstract

The present invention provides a kind of heat source tower heat pump combined air-conditioning systems, comprising: heat source tower unit, solution pump, heat source side heat exchanger, expansion valve, four-way valve, compressor, domestic hot water side heat exchanger, circulating pump and unitary air handling unit；Heat source liquid pipeline one end in heat source side heat exchanger is connected to the input terminal of heat source tower unit by solution pump；Refrigerant line one end in heat source side heat exchanger is connected to four-way valve C pipe, and the refrigerant line other end of domestic hot water side heat exchanger is connected to the refrigerant line other end in heat source side heat exchanger by expansion valve；Water lines one end of domestic hot water side heat exchanger is connected to water lines one end of unitary air handling unit by circulating pump, and the water lines other end of domestic hot water side heat exchanger is connected to the water lines other end of unitary air handling unit.Heat source tower heat pump combined air-conditioning system set of system can solve Summer and winter cold and heat supply demand, realize all energy-efficient operation of Summer and winter.

Description

Heat source tower heat pump combined air-conditioning system

Technical field

The present invention relates to air-conditionings and refrigeration technology field, and in particular to a kind of heat source tower heat pump combined air-conditioning system.

Background technique

Mainstream unitary air handling unit has surface air cooler and heater at present, and there is no refrigeration and heat-production functions for itself, passes through master Machine supplying hot water or cold water give assembled air-conditioner heat exchange coil, and then air is realized empty by the heat exchange coil of unitary air handling unit The exchange of the heat of gas and chilled water or hot water.

The cold heat source plan of air-conditioning system mainly has water cooler+boiler, water source/earth source heat pump, air source heat pump etc..It is cold Water dispenser group+boiler system cooling in summer unit efficiency is high, but boiler is idle, and winter utilizes boiler heating, energy utilization rate it is low and Cause environmental pollution；Water source/ground-source heat pump system efficiency is higher, can preferably solve the problems, such as to freeze and heat, but the system Cost is high, and larger using being limited by water source and geological conditions.Air source heat pump have energy conservation and environmental protection, dual-use it is excellent Point is widely applied in China.But because taking air cooling when air source heat pump cooling in summer, condensation temperature is high, unit Performance is far below water-cooled cold water unit；Simultaneously in winter heating operation when, when its evaporator surface temperature be lower than outdoor air Dew-point temperature and frosting can occur for while being lower than 0 DEG C, and then causes heating capacity to be decayed, efficiency reduces, and influences set steady and room Interior thermal comfort.

For the deficiency of existing unitary air handling unit cold heat source plan, in conjunction with the advantage of heat source tower heat pump technology, research Novel, efficient heat source tower heat pump combined air-conditioning system has great importance.Unitary air handling unit combination heat source tower heat Pump technology can realize that set of system solves Summer and winter cold and heat supply demand, realize annual all energy-efficient operation.

Summary of the invention

The present invention provides a kind of heat source tower heat pump combined air-conditioning system, and set of system, which solves Summer and winter cold and heat supply, to be needed It asks, realizes all energy-efficient operation of Summer and winter.Meanwhile to further increase the performance of heat source tower heat pump, system configuration solution temperature Spend regulation device.

To achieve the above object, present invention employs the following technical solutions:

A kind of heat source tower heat pump combined air-conditioning system, comprising: heat source tower unit, solution pump, heat source side heat exchanger, expansion Valve, four-way valve, compressor, domestic hot water side heat exchanger, circulating pump and unitary air handling unit；

Heat source liquid pipeline one end in heat source side heat exchanger is connected to the input terminal of heat source tower unit by solution pump, heat The heat source liquid pipeline other end in source heat exchanger is connected to the output end of heat source tower unit；

Refrigerant line one end in heat source side heat exchanger is connected to four-way valve C pipe, and compressor one end is connected to four-way valve D Pipe, the compressor other end are connected to four-way valve S pipe, and four-way valve E pipe is connected to refrigerant line one end of domestic hot water side heat exchanger, empty The refrigerant line other end of side heat exchanger is adjusted to be connected to the refrigerant line other end in heat source side heat exchanger by expansion valve；

Water lines one end of domestic hot water side heat exchanger is connected to water lines one end of unitary air handling unit by circulating pump, empty The water lines other end of side heat exchanger is adjusted to be connected to the water lines other end of unitary air handling unit by circulating pump.

Compared with the prior art, the invention has the following beneficial effects:

1) cold heat source plan of conventional air conditioning system is water cooler+boiler, and there are the deficiencies that unit leaves unused；Pass through combination Formula air-conditioner set combination heat source tower heat pump technology, refrigeration, heat demand, cooling in summer effect can be met simultaneously by realizing set of system The problem of fruit is more preferable, and energy consumption is lower, and winter avoids air-cooled unit outdoor unit frosting, is able to achieve continuous heat supply, and no setting is required The defrosts module such as auxiliary electrical heater, higher compared to air-source heat pump air conditioning system efficiency, comfort is more preferable；

2) heat source scheme of conventional air conditioning system is to utilize boiler heating in winter, and energy utilization rate is low, while causing environment Pollution；And heat source tower heat pump is not necessarily to fossil fuel, high-efficiency environment friendly；

3) the heat source tower unit of the system includes solution temperature regulation device, can be further improved heat source tower heat pump unit Performance；

4) this heat source tower heat pump combined air-conditioning system energy-saving effect is significant, scalability is strong, control method is simple, operation pipe Reason is convenient, application easy to spread.

Further advantage, target and feature of the invention will be partially reflected by the following instructions, and part will also be by this The research and practice of invention and be understood by the person skilled in the art.

Detailed description of the invention

Fig. 1 is the block diagram of heat source tower heat pump combined air-conditioning system；

Fig. 2 is the structural schematic diagram of heat source tower unit in Fig. 1；

Fig. 3 is the cross-sectional view of liquid reserve tank in Fig. 1；

Fig. 4 is the cross-sectional view of solar energy heating in Fig. 2；

Fig. 5 is the cross-sectional view in Fig. 4 at thermal-arrest pipeline；

Fig. 6 is the enlarged drawing in Fig. 5 at connection component.

Appended drawing reference: heat source tower 1, solar energy heat collection equipment 2, first circulation pump 3, liquid reserve tank 4, jet pipe 40, triple valve 5, Branch pipe 6, second circulation pump 7, mounting rack 20, installs case 21, thermal-arrest pipeline 22, main siphunculus 221, communicating pipe 222, tube body 81, envelope Close cap 82, mounting ring 83, connection component 84, mounting head 85, disturbed belt 86, compression ring 840, mounting blocks 841, clamping arm 842, card Tight block 843, the first spring 844, guide part 845, limited post 846.

Specific embodiment

In order to make the present invention realize technological means, creation characteristic, reach purpose and effect more clearly and be apparent to, The present invention is further elaborated with reference to the accompanying drawings and detailed description:

As shown in Figure 1, a kind of heat source tower heat pump combined air-conditioning system, comprising: heat source tower unit, solution pump, heat source side Heat exchanger, expansion valve, four-way valve, compressor, domestic hot water side heat exchanger, circulating pump and unitary air handling unit.

Heat source liquid pipeline one end in heat source side heat exchanger is connected to the input terminal of heat source tower unit by solution pump, heat The heat source liquid pipeline other end in source heat exchanger is connected to the output end of heat source tower unit.

Refrigerant line one end in heat source side heat exchanger is connected to four-way valve C pipe, and compressor one end is connected to four-way valve D Pipe, the compressor other end are connected to four-way valve S pipe, and four-way valve E pipe is connected to refrigerant line one end of domestic hot water side heat exchanger, empty The refrigerant line other end of side heat exchanger is adjusted to be connected to the refrigerant line other end in heat source side heat exchanger by expansion valve. (four-way valve is referring to https: //wenku.***.com/view/4d09dc5ccaaedd3383c4d3cb.html).

Water lines one end of domestic hot water side heat exchanger is connected to water lines one end of unitary air handling unit by circulating pump, empty The water lines other end of side heat exchanger is adjusted to be connected to the water lines other end of unitary air handling unit by circulating pump.

The heat source tower unit and heat pump unit heat source survey heat exchanger water side and are connected, refrigerant heat source survey heat exchanger with Refrigerating medium carries out heat exchange, flows back to heat source tower unit after refrigerating medium neither endothermic nor exothermic, carries out heat via heat source tower unit and air Exchange externally carries out heat release or heat absorption.

As shown in Fig. 2, solution temperature in heat source tower unit is improved in order to further increase heat source tower heat pump unit performance, The temperature regulation system for regulating and controlling solution temperature in heat source tower unit, solution temperature regulator control system packet are communicated with heat source tower 1 Include: solar energy heat collection equipment 2, first circulation pump 3, liquid reserve tank 4, triple valve 5, branch pipe 6 and second circulation pump 7, heat source tower 1 follows Ring outlet is connected to 5 main channel of triple valve by first circulation pump 3, and 5 first subchannel of triple valve is connected to liquid storage by branch pipe 6 Case 4,5 second subchannel of triple valve are connected to liquid reserve tank 4 by solar energy heat collection equipment 2, and liquid reserve tank 4 passes through second circulation pump 7 It is connected to heat source tower 1 and recycles import.

As shown in FIG. 2 and 3, it in order to enable liquid can be uniformly mixed in liquid reserve tank 4, avoids because of the ejection of jet pipe 40 Solution is inconsistent with solution temperature in liquid reserve tank 4 and solution temperature is caused to be layered, and jet pipe 40, liquid reserve tank 4 are equipped on liquid reserve tank 4 Liquid storage chamber is inside offered, 40 one end of jet pipe is connected to branch pipe 6 and solar energy heat collection equipment 2, and 40 other end of jet pipe and liquid storage chamber connect Logical, liquid storage chamber is cylinder, and angle α is 30 °~60 ° between jet pipe 40 and a diameter of liquid storage chamber bottom surface.What jet pipe 40 sprayed 4 inner wall of hydraulic shock liquid reserve tank, since 4 inner wall of liquid reserve tank is arc, liquid and spray by the reflection of 4 inner wall of liquid reserve tank There is angle between the liquid that pipe 40 sprays, the liquid that the liquid and jet pipe 40 of the reflection of 4 inner wall of liquid reserve tank spray drives liquid reserve tank 4 Interior liquid in rotation forms vortex, to achieve the purpose that mixing.

As shown in Figures 4 to 6, for the simple solar energy heat collection equipment 2 of design structure, solar energy heat collection equipment 2 includes Mounting rack 20, installs case 21 and thermal-arrest pipeline 22；

Installs case 21 includes ontology and transparent panel, and ontology is the box body shape of one side opening, and ontology is away from opening side On the ground by the installation of mounting rack 20, the opening on ontology is closed by transparent panel, and transparent panel is made of transparent material, thermal-arrest Pipeline 22 passes through ontology, and 22 one end of thermal-arrest pipeline is used to be connected to the second subchannel of triple valve 5, and 22 one end of thermal-arrest pipeline is for connecting Logical jet pipe 40.

In order to enable circulation path of the liquid in main siphunculus 221 is elongated, thermal-arrest pipeline 22 includes at least three main siphunculus 221 And several communicating pipes 222, all main siphunculus 221 are arranged in parallel, pass through a connecting pipe between adjacent two main siphunculus 221 222 connections, have distance between adjacent two communicating pipe 222, the main siphunculus 221 of all main 221 1 edges of siphunculus is far from communicating pipe 222 end is used to be connected to the second subchannel of triple valve 5, and the main siphunculus 221 at all main 221 other edges of siphunculus is separate The end of communicating pipe 222 is for being connected to jet pipe 40.

In order to enable circulation path of the liquid in main siphunculus 221 is elongated, so that solution can receive the sun for a long time Radiate and increase solution temperature, be more conducive to it is energy saving, while realize disturbed belt 86 damage after can replace disturbed belt 86, each main siphunculus 221 includes: tube body 81, closing cover 82, mounting ring 83, connection component 84, mounting head 85 and disturbed belt 86, the formation installing port open at one end of tube body 81 is equipped with mounting ring 83 on installing port inner wall, passes through connection group with mounting ring 83 Part 84 is connected with mounting head 85, and mounting head 85 is equipped with the spiral shape disturbed belt 86 stretched in tube body 81, and disturbed belt 86 uses Elastic material is made, and is threaded with closing cover 82 with tube body 81, closing cover 82 closes installing port.

For the simple connection component 84 of design structure, mounting head 85 can be connect by realization in the external world with mounting blocks 841, It realizes the installation that mounting blocks 841 only can be realized by turn closing cover 82 after mounting head 85 is connect with mounting blocks 841, simplifies Operating procedure, connection component 84 include: compression ring 840, mounting blocks 841, clamping arm 842, clamping block 843, the first spring 844 with And guide part 845, mounting ring 83 form mounting groove close to the sunken end face of closing cover 82, mounting blocks are equipped in mounting groove 841, mounting blocks 841 offer through-hole, and through-hole is inserted into for mounting head 85, and the platform being close to mounting head 85 is formed in through-hole wall Rank is provided with two clamping arms 842 in through-hole, is connected with the first spring 844 between two clamping arms 842, on each clamping arm 842 It is respectively connected with guide part 845, two clamping arms 842 can be inserted into vertical in through-hole with mounting head 85 under the guiding of guide part 845 Side move upwards, 842 one end of clamping arm stretches in mounting head 85, and clamping arm 842 is connected with the card in mounting head 85 Tight block 843, clamping block 843 are detached from for limiting mounting head 85 and mounting blocks 841, and being equipped on 82 inner wall of closing cover will install Block 841 is pressed on the compression ring 840 in mounting groove.

Mounting head 85 is inserted into through-hole for convenience, has avoided other from operating and cause this troublesome in poeration, clamping block 843 be wedge shape, and the card hole that shape matches with clamping block 843 is offered in mounting head 85, and the small end of clamping block 843 is close to disturb Dynamic band 86, with only clamping block 843 does not hinder mounting head 85 to move when mounting head 85 is inserted into through-hole.

For the simple guide part 845 of design structure, realizes clamping arm 842, clamping block 843, the first spring 844 and lead It can be detached to portion 845 with mounting blocks 841, to be convenient for changing the first spring 844 and second spring, guide part 845 includes: to lead To cylinder, guide rod and second spring, inserted with guide cylinder on through-hole wall, inserted with guide rod, guide rod energy in guide cylinder It is oppositely oriented cylinder and is being inserted into direction movement vertical in through-hole with mounting head 85, guide rod is connected with clamping arm 842, in clamping Second spring is provided between arm 842 and guide cylinder.

Because of first after being installed in order to avoid mounting head 85 by clamping block 843, clamping arm 842 and the first spring 844 The elasticity of spring 844 and cause clamping block 843 have the tendency that discharge mounting head 85 occur, be protruding in 82 inner wall of closing cover slotting Enter to the limited block between two clamping arms 842.

When installing disturbed belt 86, firstly, mounting head 85 is inserted into mounting blocks 841, due to starting to connect with clamping block 843 Touching is the small end of clamping block 843, and two clamping blocks 843 of extruding of mounting head 85 are close to each other, and the first spring 844 is further pressed Contracting, therefore mounting head 85 can be smoothly inserted into through-hole；Then, after clamping block 843 is inserted into card hole, in the first spring Under 844 elastic force, clamping block 843 is sprung into card hole, not squeezing two clamping arms 842 at this time would not make clamping block 843 release It puts in mounting head 85, under second spring elastic force, guide cylinder is kept to be inserted into through-hole wall；After again, disturbed belt 86 is first worn Cross mounting ring 83, after mounting blocks 841 are placed in mounting groove；Finally, closing cover 82 is threadedly coupled with tube body 81, compression ring 840 are pressed into mounting blocks 841 to mounting groove, and limited post 846 is inserted between two clamping arms 842, two card of the limitation of limited post 846 Tight arm 842 is mutually drawn close.

Finally, it is stated that the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although referring to compared with Good embodiment describes the invention in detail, those skilled in the art should understand that, it can be to skill of the invention Art scheme is modified or replaced equivalently, and without departing from the objective and range of technical solution of the present invention, should all be covered at this In the scope of the claims of invention.

Claims (10)

1. a kind of heat source tower heat pump combined air-conditioning system characterized by comprising heat source tower unit, solution pump, heat source side are changed Hot device, expansion valve, four-way valve, compressor, domestic hot water side heat exchanger, circulating pump and unitary air handling unit；

Heat source liquid pipeline one end in heat source side heat exchanger is connected to the input terminal of heat source tower unit, heat source side by solution pump The heat source liquid pipeline other end in heat exchanger is connected to the output end of heat source tower unit；

Refrigerant line one end in heat source side heat exchanger is connected to four-way valve C pipe, and compressor one end is connected to four-way valve D pipe, The compressor other end is connected to four-way valve S pipe, and four-way valve E pipe is connected to refrigerant line one end of domestic hot water side heat exchanger, air-conditioning The refrigerant line other end of side heat exchanger is connected to the refrigerant line other end in heat source side heat exchanger by expansion valve；

Water lines one end of domestic hot water side heat exchanger is connected to water lines one end of unitary air handling unit, air-conditioning side by circulating pump The water lines other end of heat exchanger is connected to the water lines other end of unitary air handling unit.

2. heat source tower heat pump combined air-conditioning system according to claim 1, which is characterized in that in heat source tower unit, with Heat source tower is communicated with the temperature regulation system for controlling fluid temperature in heat source tower unit, and temperature regulation system includes: the sun Energy collecting apparatus, first circulation pump, liquid reserve tank, triple valve, branch pipe and second circulation pump, heat source tower loop exit pass through first Circulating pump is connected to triple valve main channel, and the first subchannel of triple valve is connected to liquid reserve tank by branch pipe, and triple valve second divides logical Road is connected to liquid reserve tank by solar energy heat collection equipment, and liquid reserve tank is connected to heat source tower by second circulation pump and recycles import.

3. heat source tower heat pump combined air-conditioning system according to claim 2, which is characterized in that be equipped with spray on liquid reserve tank It manages, offers liquid storage chamber in liquid reserve tank, jet pipe one end is connected to branch pipe and solar energy heat collection equipment, the jet pipe other end and liquid storage chamber Connection, liquid storage chamber are cylinder, and angle is 30 °~60 ° between jet pipe and a diameter of liquid storage chamber bottom surface.

4. heat source tower heat pump combined air-conditioning system according to claim 3, which is characterized in that solar energy heat collection equipment packet It includes: mounting rack, installs case and thermal-arrest pipeline；

Installs case includes: ontology and transparent panel, and ontology is the box body shape of one side opening, and ontology passes through peace away from opening side Shelve installation on the ground, the opening on ontology is closed by transparent panel, and transparent panel is made of transparent material, and thermal-arrest pipeline passes through Ontology, thermal-arrest pipeline one end are used to be connected to the second subchannel of triple valve, and thermal-arrest pipeline one end is for being connected to jet pipe.

5. heat source tower heat pump combined air-conditioning system according to claim 4, which is characterized in that thermal-arrest pipeline include: to Few three main siphunculus and several communicating pipes, all main siphunculus are arranged in parallel, pass through a connection between adjacent two main siphunculus Pipe connection, has distance between adjacent two communicating pipe, the main siphunculus of all main one edges of siphunculus is used for far from the end of communicating pipe It is connected to the second subchannel of triple valve, end of the main siphunculus at all main siphunculus other edges far from communicating pipe is for being connected to To jet pipe.

6. heat source tower heat pump combined air-conditioning system according to claim 5, which is characterized in that each main siphunculus wraps Include: tube body, closing cover, mounting ring, connection component, mounting head and disturbed belt, tube body formation installing port open at one end are being installed Mounting ring is installed on mouth inner wall, mounting head is connected with by connection component with mounting ring, mounting head, which is equipped with, stretches to tube body Interior spiral shape disturbed belt, disturbed belt are made of elastic material, are threaded with closing cover, closing cap closure installation with tube body Mouthful.

7. heat source tower heat pump combined air-conditioning system according to claim 6, which is characterized in that connection component includes: pressure Tight ring, mounting blocks, clamping arm, clamping block, the first spring and guide part, mounting ring form peace close to the sunken end face of closing cover Tankage is equipped with mounting blocks in mounting groove, and mounting blocks offer through-hole, and through-hole is inserted into for mounting head, is formed in through-hole wall There is the step being close to mounting head, two clamping arms are provided in through-hole, the first spring, each card are connected between two clamping arms Be respectively connected with guide part on tight arm, under the guiding of guide part two clamping arms can be inserted into through-hole with mounting head in vertical direction Upper movement, clamping arm one end stretch in mounting head, and clamping arm is connected with the clamping block in mounting head, and clamping block is for limiting Mounting head processed and mounting blocks are detached from, and the compression ring being pressed on mounting blocks in mounting groove is equipped on closing cover inner wall.

8. heat source tower heat pump combined air-conditioning system according to claim 7, which is characterized in that clamping block is wedge shape, The card hole that shape matches with clamping block is offered in mounting head, the small end of clamping block is close to disturbed belt, only when mounting head is inserted Clamping block does not hinder mounting head to move when entering in through-hole.

9. heat source tower heat pump combined air-conditioning system according to claim 8, which is characterized in that guide part includes: guiding Cylinder, guide rod and second spring, inserted with guide cylinder on through-hole wall, inserted with guide rod, guide rod energy phase in guide cylinder To guide cylinder, vertical direction movement, guide rod are connected with clamping arm in being inserted into through-hole with mounting head, clamping arm with lead To being provided with second spring between cylinder.

10. heat source tower heat pump combined air-conditioning system according to any one of claims 7 to 9, which is characterized in that closing Cap inner wall is protruding with the limited block being inserted between two clamping arms.