CN202675723U - Energy-saving composite driven lithium bromide absorption-type air source heat pump - Google Patents

Abstract

The invention relates to a device in the field of application of solar energy utilization, lithium bromide absorption-type heat pumps and air source heat pumps, in particular to an energy-saving composite driven lithium bromide absorption-type air source heat pump which is mainly applied in the production and living environment of construction industry, heating systems and the like. The device comprises an air-cooled cold water machine unit, an energy storage tank, a solar heat collector, a heat storage tank water pump, a bidirectional water pump, a generator pump, a water return pump of a heat supply system, a water return pump of the air-cooled cold water machine unit and the like; and all components are combined into an integrated solar energy driven lithium bromide absorption-type air source heat pump. Related technical problems about how to drive a lithium bromide absorption-type heat pump to work by solar energy and the like are mainly solved. The energy-saving composite driven lithium bromide absorption-type air source heat pump has the positive effects that the system is wide in energy source and operated safely and reliably; any substance harmful to the environment does not generate; the influence on system stability caused by rainy days and insufficient light is avoided; and the energy-saving composite driven lithium bromide absorption-type air source heat pump has the advantages of saving energy, improving efficiency and the like.

Description

Energy-saving combined type drives the suction-type lithium bromide air source heat pump

Technical field

The utility model relates to the device of solar energy utilization, lithium bromide absorption type heat pump and air source heat pump application, especially a kind of air source heat pump that is mainly used in the productive life environment such as building industry and heating system, as system body, the hot water that produces with solar thermal collector in conjunction with solar utilization technique drives the suction-type lithium bromide air source heat pump system as a kind of brand-new energy-saving combined solar energy of driving heat source by lithium bromide absorption type heat pump.

Background technology

Fast development along with China's economy, demand for energy constantly increases, yet nearly wherein having, 1/3 energy consumption is used in architectural, the problems such as energy scarcity, energy waste and environmental pollution constantly highlight, this has also stimulated the development of some emerging technologies, people's sight line is transferred in the utilization of regenerative resource, solar energy, air energy etc. all belongs to cleaning, pollution-free, the infinitely-great energy source of reserves.The development of the lithium bromide absorption type heat pump that is complementary therewith is also very fast, just present three's state of development, and advantage separately is as follows:

1, solar energy utilizes the aspect:

(1). being about 130,000,000,000,000 tons of releasable heat energy of standard coal after the annual solar radiant energy that arrives earth surface is amounted to, is 20 000 times of the various energy resource consumption summations in the present world.Reserves are abundant.

(2). luminous energy can change into the energy of the various ways such as electric energy, heat energy, chemical energy, and more flexible in the application, development potentiality is large.

(3). the water and steam temperature that the middle high-temp solar heat collector of newly developing at present produces can reach more than 140 degree, has greatly widened the range of application of solar energy.

2, air source heat pump aspect:

(1). air source heat pump can be realized the cascade utilization of energy, thereby realizes by the purpose of low-temperature level to high temperature bit transition heat, has broad development space at building hot water and heating system.

(2). air is the same with solar energy as thermal source, also is inexhaustible clean energy resource, relies on its abundant source to become one of regenerative resource that 21 century expects.

3, lithium bromide absorption type heat pump aspect:

(1). lithium bromide absorption type heat pump can effectively utilize waste heat, used heat, especially solar energy utilize aspect advantage remarkable.

(2). type of drive is that heat drives, and has alleviated on the one hand power tense, machinery-free moving component on the other hand, security of operation, noise are little.

Still have some difficult problems in the independent application of above three aspects: new technology, for example: although the solar energy source is wide, utilization rate is low, utilizes difficulty; Still need the consumption of some electric energy in the air source heat pump use procedure; The efficient of suction-type lithium bromide system is on the low side etc.

If but above technology is combined, being integrated into a system, many problems will be resolved.Such as can be with solar energy as the driving heat source of lithium bromide system etc.

Have at present the precedent that the solar energy utilization is combined with lithium bromide absorption type heat pump, in ignoring the lithium bromide system under the prerequisite of solution pump power consumption, application in conjunction with energy storage tank, even also the someone proposes to utilize fully solar energy to realize the annual normal operation of system, replaces the non-renewable energy resources such as electricity, coal fully.But also there are a lot of problems in this scheme, even if energy storage tank is done very greatly, the problem that the solar energy that still can occur storing when running into continuous rainy weather is not enough, particularly when the plum rain season of the middle and lower reach of Yangtze River, this problem is particularly outstanding, for this problem, there is the scholar to propose combined solar energy-lithium bromide absorption type heat pump system, that is: between absorber and generator, add a compressor, reducing the load of solar energy, but this has sunk again and will utilize in the middle of " vicious circle " of the high-grade non-renewable energy resources such as electric energy, coal.

Summary of the invention

In order to overcome above-mentioned weak point, main purpose of the present utility model aims to provide a kind of follow-on air source heat pump system, by with lithium bromide absorption type heat pump as system body, the hot water that produces with solar thermal collector in conjunction with solar utilization technique is as driving heat source, realize that in conjunction with the wind-cooled cold-water unit air can be as low-temperature heat source simultaneously, reach the system capacity wide material sources, security of operation, stable; By having carried out improvement and bring new ideas in the accumulation of energy mode, adopt the mode of " continuously accumulation of energy ", can realize utilizing fully the energy-saving combined type of solar energy to drive the suction-type lithium bromide air source heat pump.

The technical problems to be solved in the utility model is: mainly solve system design problem how to utilize the work of Driven by Solar Energy lithium bromide absorption type heat pump; How to solve when Yanguan Pass is sufficient and the Relational Questions such as system of Yanguan Pass when not enough or overcast and rainy.

The technical scheme that its technical problem that solves the utility model adopts is: this device comprises: choke valve, butterfly valve and pipeline etc., also comprise: wind-cooled cold-water unit, generator, absorber, evaporimeter, condenser, heat exchanger, energy storage tank, solar thermal collector, heat-accumulator tank water pump, two way water pump, generator pump, heating system back water pump and wind-cooled cold-water unit back water pump, above-mentioned each component combination is holistic Driven by Solar Energy suction-type lithium bromide air source heat pump, and this device includes at least:

Lead up to wind-cooled cold-water unit back water pump and the evaporimeter of wind-cooled cold-water unit interconnect, and another road interconnects by pipeline and evaporimeter;

The first via of generator interconnects with a end after butterfly valve E and butterfly valve F are in parallel by pipeline, the the second tunnel first end by butterfly valve C and solar thermal collector interconnects, Third Road interconnects by an end of throttle valve A and absorber, the four tunnel other end by generator pump and absorber interconnects, and the five tunnel first end by pipeline and condenser interconnects;

The first via of absorber interconnects by an end of throttle valve A and generator, and the second tunnel other end by generator pump and generator interconnects, and Third Road interconnects by an end of pipeline and evaporimeter;

The first via of evaporimeter interconnects by the first end of pipeline and absorber, the the second tunnel end by choke valve B and condenser interconnects, Third Road interconnects by an end of wind-cooled cold-water unit back water pump and wind-cooled cold-water unit, and the four tunnel other end by pipeline and wind-cooled cold-water unit interconnects;

The first via of condenser interconnects by an end of pipeline and generator, the second the tunnel interconnects with hot user's water main, Third Road interconnects by heating system back water pump and hot user's backwater main, and the four tunnel end by choke valve B and evaporimeter interconnects;

Be provided with heat exchanger in the energy storage tank, one end of described heat exchanger and hot user's backwater main interconnect, the other end of heat exchanger and hot user's water main interconnect, one end of described energy storage tank interconnects by the 3rd end of butterfly valve A and solar thermal collector, and the other end of energy storage tank interconnects by the second end of heat-accumulator tank water pump and butterfly valve B and solar thermal collector;

The first via of solar thermal collector interconnects by an end of butterfly valve C and generator, the second the tunnel is divided into two-way by butterfly valve B, the end of heat-accumulator tank water pump and energy storage tank of wherein leading up to interconnects, another road interconnects with a end after butterfly valve D and butterfly valve G are in parallel, and Third Road interconnects by the other end of butterfly valve A and energy storage tank;

One end of two way water pump interconnects with the end of connecting of butterfly valve D and butterfly valve E, and the other end interconnects with the end of connecting of butterfly valve F and butterfly valve G.

Further, be parallel-connection structure between the heat-accumulator tank water pump of described energy-saving combined type driving suction-type lithium bromide air source heat pump and the two way water pump, condition is: when butterfly valve A, butterfly valve B, butterfly valve C, butterfly valve E and butterfly valve G are opening, when meanwhile, butterfly valve D and butterfly valve F are closed condition.

Further, be cascaded structure between the heat-accumulator tank water pump of described energy-saving combined type driving suction-type lithium bromide air source heat pump and the two way water pump, condition is: when butterfly valve A, butterfly valve C, butterfly valve D and butterfly valve F are opening, when meanwhile, butterfly valve B, butterfly valve E and butterfly valve G are closed condition.

The beneficial effects of the utility model are: follow-on air source heat pump system with lithium bromide absorption type heat pump as system body, the hot water that produces with solar thermal collector in conjunction with solar utilization technique realizes that in conjunction with the wind-cooled cold-water unit air can be as low-temperature heat source simultaneously as driving heat source; These system capacity wide material sources, security of operation, stable, and do not produce any environmentally harmful material, veritably environmental protection and energy saving; And carried out improvement and bring new ideas in the accumulation of energy mode, adopt the mode of " continuously accumulation of energy ", the mode of this continuous accumulation of energy has prolonged the time that system can move greatly when overcast and rainy and Yanguan Pass is inadequate, the system that guaranteed utilizes the feasibility of solar energy and air energy fully, can really realize utilizing fully solar energy, avoided overcast and rainy and the inadequate impact for the stability of a system of illumination, the advantage such as have energy savings, raise the efficiency.

Description of drawings

Accompanying drawing 1 is structural representation of the present utility model;

Attached number in the figure explanation:

1-wind-cooled cold-water unit; 14-throttle valve A;

The 2-generator; 15-choke valve B;

3-absorber; 16-butterfly valve A;

4-evaporimeter; 17-butterfly valve B;

5-condenser; 18-butterfly valve C;

6-heat exchanger; 19-butterfly valve D;

7-energy storage tank; 20-butterfly valve E;

8-solar thermal collector; 21-butterfly valve F;

9-heat-accumulator tank water pump; 22-butterfly valve G;

10-two way water pump; 23-hot user's water main;

11-generator pump; 24-hot user's backwater main;

12-heating system back water pump;

13-wind-cooled cold-water unit back water pump;

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further specified.

See also shown in the accompanying drawing 1, the utility model proposes a kind of brand-new energy-saving combined solar energy and drive the suction-type lithium bromide air source heat pump system, its technical characterstic has following 2 points: 1, with lithium bromide absorption type heat pump as system body, the hot water that produces with solar thermal collector in conjunction with solar utilization technique realizes that in conjunction with the wind-cooled cold-water unit air can be as low-temperature heat source simultaneously as driving heat source.The system capacity wide material sources, security of operation, stable, and do not produce any environmentally harmful material, veritably environmental protection and energy saving; 2, carried out improvement and bring new ideas in the accumulation of energy mode, adopted the mode of " continuously accumulation of energy ", can really realize utilizing fully solar energy, avoided overcast and rainy and the inadequate impact for the stability of a system of illumination; This device comprises: choke valve, butterfly valve and pipeline etc., also comprise: wind-cooled cold-water unit 1, generator 2, absorber 3, evaporimeter 4, condenser 5, heat exchanger 6, energy storage tank 7, solar thermal collector 8, heat-accumulator tank water pump 9, two way water pump 10, generator pump 11, heating system back water pump 12 and wind-cooled cold-water unit back water pump 13, above-mentioned each component combination is holistic Driven by Solar Energy suction-type lithium bromide air source heat pump, and this device includes at least:

The wind-cooled cold-water unit back water pump 13 of leading up to of wind-cooled cold-water unit 1 interconnects with evaporimeter 4, and another road interconnects by pipeline and evaporimeter 4;

The first via of generator 2 interconnects with a end after butterfly valve E20 and butterfly valve F21 are in parallel by pipeline, the the second tunnel first end by butterfly valve C18 and solar thermal collector 8 interconnects, Third Road interconnects by the end of throttle valve A 14 with absorber 3, the four tunnel other end by generator pump 11 and absorber 3 interconnects, and the five tunnel first end by pipeline and condenser 5 interconnects;

The first via of absorber 3 interconnects by the end of throttle valve A 14 with generator 2, and the second tunnel other end by generator pump 11 and generator 2 interconnects, and Third Road interconnects by an end of pipeline and evaporimeter 4;

The first via of evaporimeter 4 interconnects by the first end of pipeline and absorber 3, the the second tunnel end by choke valve B15 and condenser 5 interconnects, Third Road interconnects by the end of wind-cooled cold-water unit back water pump 13 with wind-cooled cold-water unit 1, and the four tunnel other end by pipeline and wind-cooled cold-water unit 1 interconnects;

The first via of condenser 5 interconnects by an end of pipeline and generator 2, the second the tunnel interconnects with hot user's water main 23, Third Road interconnects by heating system back water pump 12 and hot user's backwater main 24, and the four tunnel end by choke valve B15 and evaporimeter 4 interconnects;

Be provided with heat exchanger 6 in the energy storage tank 7, one end of described heat exchanger 6 and hot user's backwater main 24 interconnect, the other end of heat exchanger 6 and hot user's water main 23 interconnect, one end of described energy storage tank 7 interconnects by the 3rd end of butterfly valve A16 and solar thermal collector 8, and the other end of energy storage tank 7 interconnects by the second end of heat-accumulator tank water pump 9 and butterfly valve B17 and solar thermal collector 8;

The first via of solar thermal collector 8 interconnects by an end of butterfly valve C18 and generator 2, the second the tunnel is divided into two-way by butterfly valve B17, the end of heat-accumulator tank water pump 9 and energy storage tank 7 of wherein leading up to interconnects, another road interconnects with a end after butterfly valve D19 and butterfly valve G22 are in parallel, and Third Road interconnects by the other end of butterfly valve A16 and energy storage tank 7;

One end of two way water pump 10 interconnects with the end of connecting of butterfly valve D19 and butterfly valve E20, and the other end interconnects with the end of connecting of butterfly valve F21 and butterfly valve G22.

Further, be parallel-connection structure between the heat-accumulator tank water pump 9 of described energy-saving combined type driving suction-type lithium bromide air source heat pump and the two way water pump 10, condition is: when butterfly valve A16, butterfly valve B17, butterfly valve C18, butterfly valve E20 and butterfly valve G22 are opening, when meanwhile, butterfly valve D19 and butterfly valve F21 are closed condition.

Further, be cascaded structure between the heat-accumulator tank water pump 9 of described energy-saving combined type driving suction-type lithium bromide air source heat pump and the two way water pump 10, condition is: when butterfly valve A16, butterfly valve C18, butterfly valve D19 and butterfly valve F21 are opening, when meanwhile, butterfly valve B17, butterfly valve E20 and butterfly valve G22 are closed condition.

System Working Principle of the present utility model and use procedure are as follows:

1. when Yanguan Pass was sufficient, system utilized the work of Driven by Solar Energy lithium bromide absorption type heat pump, simultaneously accumulation of energy, and the accumulation of energy circulation of heat exchanger 6 is used as auxiliary energy-storage:

This moment, butterfly valve A16, butterfly valve B17, butterfly valve C18, butterfly valve E20 and the butterfly valve G22 of valve were unlatching, meanwhile, the butterfly valve D19 of valve and butterfly valve F21 are for closing, heat-accumulator tank water pump 9 and two way water pump 10 parallel operations under valve control, thereby realize, being used as on the one hand the driving heat source of lithium bromide system from the high-temperature-hot-water of solar thermal collector, is the energy storage tank accumulation of energy on the other hand.Circulate as auxiliary energy-storage for backwater main heat exchanger 6 in parallel with hot user simultaneously, strengthened the accumulation of energy effect.The required low-temperature heat source of system is provided by the wind-cooled cold-water unit.

2. when Yanguan Pass was not enough or overcast and rainy, energy storage tank was as driving heat source, and the accumulation of energy of heat exchanger 6 circulation circulates to use as main accumulation of energy.

This moment, butterfly valve A16, butterfly valve C18, butterfly valve D19 and the butterfly valve F21 of valve were unlatching, and meanwhile, the butterfly valve B17 of valve, butterfly valve E20 and butterfly valve G22 are for closing heat-accumulator tank water pump 9 and two way water pump 10 tandem workings under valve control.Thereby realize the purpose by the operation of energy storage tank drive system, the outstanding feature of native system is, energy storage tank loops accumulation of heat while the accumulation of energy that provides the work thermal source by heat exchanger 6, the mode of this continuous accumulation of energy has prolonged the time that system can move greatly when overcast and rainy and Yanguan Pass is inadequate, the system that guaranteed utilizes the feasibility of solar energy and air energy fully.The required low-temperature heat source of system is provided by the wind-cooled cold-water unit.

Although the utility model is described with reference to current specific embodiment, but those of ordinary skill in the art should be realized that, above embodiment illustrates the utility model, in the situation that does not break away from the utility model spirit, also can make variation and the modification of various equivalences, therefore, as long as to the variation of above-described embodiment, conversion all will drop in the scope of the utility model claims in connotation scope of the present utility model.

Claims (3)

1. an energy-saving combined type drives the suction-type lithium bromide air source heat pump, this device comprises: choke valve, butterfly valve and pipeline, characterized by further comprising: wind-cooled cold-water unit (1), generator (2), absorber (3), evaporimeter (4), condenser (5), heat exchanger (6), energy storage tank (7), solar thermal collector (8), heat-accumulator tank water pump (9), two way water pump (10), generator pump (11), heating system back water pump (12) and wind-cooled cold-water unit back water pump (13), above-mentioned each component combination is holistic Driven by Solar Energy suction-type lithium bromide air source heat pump, and this device includes at least:

The wind-cooled cold-water unit back water pump (13) of leading up to of wind-cooled cold-water unit (1) interconnects with evaporimeter (4), and another road interconnects by pipeline and evaporimeter (4);

The first via of generator (2) is by pipeline and butterfly valve E(20) and butterfly valve F(21) a end after in parallel interconnects, the second the tunnel by butterfly valve C(18) interconnect with the first end of solar thermal collector (8), Third Road interconnects by the end of throttle valve A (14) with absorber (3), the four tunnel other end by generator pump (11) and absorber (3) interconnects, and the five tunnel first end by pipeline and condenser (5) interconnects;

The first via of absorber (3) interconnects by the end of throttle valve A (14) with generator (2), the second tunnel other end by generator pump (11) and generator (2) interconnects, and Third Road interconnects by an end of pipeline and evaporimeter (4);

The first via of evaporimeter (4) interconnects by the first end of pipeline and absorber (3), the second the tunnel by choke valve B(15) interconnect with an end of condenser (5), Third Road interconnects by the end of wind-cooled cold-water unit back water pump (13) with wind-cooled cold-water unit (1), and the four tunnel other end by pipeline and wind-cooled cold-water unit (1) interconnects;

The first via of condenser (5) interconnects by an end of pipeline and generator (2), the second the tunnel interconnects with hot user's water main (23), Third Road interconnects by heating system back water pump (12) and hot user's backwater main (24), and the four the tunnel by choke valve B(15) and an end of evaporimeter (4) interconnect;

Be provided with heat exchanger (6) in the energy storage tank (7), one end of described heat exchanger (6) and hot user's backwater main (24) interconnect, the other end of heat exchanger (6) and hot user's water main (23) interconnect, one end of described energy storage tank (7) is by butterfly valve A(16) interconnect with the 3rd end of solar thermal collector (8), the other end of energy storage tank (7) is by heat-accumulator tank water pump (9) and butterfly valve B(17) and the second end of solar thermal collector (8) interconnect;

The first via of solar thermal collector (8) is by butterfly valve C(18) interconnect with an end of generator (2), the second the tunnel by butterfly valve B(17) be divided into two-way, the end of heat-accumulator tank water pump (9) and energy storage tank (7) of wherein leading up to interconnects, another road and butterfly valve D(19) and butterfly valve G(22) a end after in parallel interconnects, Third Road is by butterfly valve A(16) interconnect with the other end of energy storage tank (7);

One end of two way water pump (10) and butterfly valve D(19) and butterfly valve E(20) the end of connecting interconnect the other end and butterfly valve F(21) and butterfly valve G(22) the end of connecting interconnect.

2. energy-saving combined type according to claim 1 drives the suction-type lithium bromide air source heat pump, it is characterized in that: be parallel-connection structure between described heat-accumulator tank water pump (9) and the two way water pump (10), condition is: at butterfly valve A(16), butterfly valve B(17), butterfly valve C(18), butterfly valve E(20) and butterfly valve G(22) when the opening, meanwhile, butterfly valve D(19) and butterfly valve F(21) when being closed condition.

3. energy-saving combined type according to claim 1 drives the suction-type lithium bromide air source heat pump, it is characterized in that: be cascaded structure between described heat-accumulator tank water pump (9) and the two way water pump (10), condition is: at butterfly valve A(16), butterfly valve C(18), butterfly valve D(19) and butterfly valve F(21) when the opening, meanwhile, butterfly valve B(17), butterfly valve E(20) and butterfly valve G(22) when being closed condition.

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