CN202692536U - Heat pump ice and thermal type energy-saving water boiler - Google Patents

Abstract

The utility model belongs to the technical field of air source heat pump and electrical heating technologies and refrigeration technologies, and discloses a heat pump ice and thermal type energy-saving water boiler. The heat pump ice and thermal type energy-saving water boiler comprises a heat pump heating mechanism and a refrigeration mechanism; the heat pump heating mechanism comprises a heat pump water tank (10) and a heat pump; the refrigeration mechanism comprises a liquid storage pipe for refrigerant, a compressor (15), a condenser (12), a device for drying and filtering (17), a capillary (18), an evaporation coil (23), and an evaporator (11); the condenser (12) is arranged in the heat pump water tank (10); the evaporation coil (23) is coiled on the surface of a cold cover (28); the compressor (15), the evaporation coil (23), the evaporator (11), the device for drying and filtering (17), the capillary (18), and the condenser (12) are connected with each other to form a heat pump heating and refrigeration system loop. According to the utility model, energy consumption can be effectively reduced for an electric heat water boiler and cold water and hot water can be supplied synchronously.

Description

Heat-pump-type ice pattern of fever energy-saving water boiler

Technical field

The utility model belongs to air source heat pump, electric-heating technology and refrigeration technology field, is specifically related to a kind of heat-pump-type ice pattern of fever energy-saving water boiler.

Background technology

Heat pump techniques is the new energy technology that receives much attention in the whole world in recent years, and heat pump is used more and more extensive as a kind of means of novel energy-conserving.The pump that people were familiar with is a kind of plant equipment that can improve potential energy, mainly is that water is extracted into a high position from low level such as water pump.Heat pump is to consume a part of low-grade energy such as mechanical energy, electric energy or high temperature heat as compensation, the device that heat energy is transmitted from low-temperature heat source to high temperature heat source.Its essence is by the grade that reduces a certain amount of merit, provide grade lower and more energy.Because heat pump can be converted to high temperature heat with low temperature heat energy, improve the effective rate of utilization of the energy, therefore be the important channel of reclaiming low temperature exhaust heat, utilizing the energy that stores in the surrounding medium (underground water, surface water, soil and outdoor air etc.), through the electric power acting, providing can be by the used high-grade heat energy of people.

In the office space, public place (such as station, airport), hotel, restaurant, industrial and mining enterprises, dining room and even family etc., the application of boiler is very extensive, and existing conventional boiler is electric water boiler or the boiler boiler that directly adopts Electric heating.Electric water boiler generally comprises water pump, electric heater, water storage box, temperature controller etc., and electric water boiler is owing to being heat energy with electric energy conversion first, and then heating cold water.

But adopt the boiler of Electric heating, thermal efficiency ratio is lower, generally be lower than 90%, its result causes directly that heating power is large, circuit load is high, energy consumption is high, the self-evident shortcoming that boils water is that heat time heating time is long and be unfavorable for energy savings, in addition the service life of electrical heating elements short, change frequent.

Disclose a kind of heat-pump type electric water boiler in CN 101699181 A, comprised pump type heat water tank and electrical heating boiled water tank, still along with people's individual demand, this boiler can only satisfy the function of people's hot water taking, can't use heat pump that cold water is provided.

In view of this, how to make electric water boiler effectively reduce energy consumption, and hot and cold water can be provided simultaneously, become the technical problem of paying close attention in the industry and expectation solves, explore through the applicant, found the method for dealing with problems, technical scheme described below is producing under the background like this.

The utility model content

1, the purpose of this utility model.

The purpose of this utility model is to provide the mode of heating that a kind of pump type heat combines with electrical heating and uses the raising efficiency of heating surface, help to shorten electrical heating elements to the heat time heating time of the heating of the water in the electrical heating boiled water tank, with the service life of energy savings and prolongation electrical heating elements; Utilize simultaneously Principle of Compressor Refrigeration that frozen water can be provided, the heat-pump-type ice pattern of fever energy-saving water boiler that is conducive to reduce network load and can embodies the stepping moisturizing, successively heat.

2, concrete technical scheme of the present utility model.

A kind of heat-pump-type ice pattern of fever energy-saving water boiler comprises that a boiler main body and has the base in a chamber.

This boiler body comprises electrical heating boiled water tank 3, be arranged in the electrothermal tube 8 of electrical heating boiled water tank 3, be installed in the hot water tap 19 who is connected with electrical heating boiled water tank 3 on the outer wall of boiler body, also comprise heat pump mechanism and refrigeration mechanism, heat pump mechanism comprises pump type heat water tank 10 heat pumps; Described refrigeration mechanism is made of cold-producing medium liquid storage tube, compressor 15, condenser 12, device for drying and filtering 17, capillary 18, evaporation coil 23, evaporimeter 11; Condenser 12 is located in the described pump type heat water tank 10, evaporation coil 23 is coiled in cold bag 28 surfaces, wherein, compressor 15, evaporation coil 23, evaporimeter 11, device for drying and filtering 17, capillary 18 and condenser 12 are connected to each other and consist of heat pump and refrigeration system loop.

In a specific embodiment of the present utility model, the boiler body also comprises the cold bag 28 that is coiling evaporation coil 23.

Also have the frozen water tap 20 that is arranged on the electrical heating boiled water tank body outer wall in the specific embodiment to link to each other with cold bag 28 by pipeline of the present utility model.

Also have in the specific embodiment of the present utility model, described pump type heat water tank 10 is below electrical heating boiled water tank 3, and this pump type heat water tank 10 is connected with water supply line and communicates with electrical heating boiled water tank 3.

Also have in the specific embodiment of the present utility model, condenser 12 with case of bending be arranged in the pump type heat water tank chamber of described pump type heat water tank 10, described evaporimeter 11 is connected to an end of compressor 15 by pipeline, the other end of compressor is connected to condenser 12 1 ports by pipeline, condenser 12 another port are connected to evaporation coil 23 again by device for drying and filtering 17, capillary 18, and evaporation coil 23 is connected to evaporimeter 11 by pipeline again.

Also have in the specific embodiment of the present utility model, the pipeline of pump type heat tank inlet pipe is provided with magnetic valve 9, this magnetic valve 9 and control box 4 electrical connections.

Also have in the specific embodiment of the present utility model, through reduce the temperature of water in the cold bag 28 at evaporation coil 23, produce cold water from frozen water tap 20 after running water freezes through compressor 15.

According to the refrigeration system principle, in the course of work of heating and refrigerating heat pump mechanism be: cold-producing medium arrives compressor 15 through liquid storage tube, then arrive condenser 12, arrive capillary 18 through device for drying and filtering 17 again, arrive evaporimeter 11 through evaporation coil 23 again and return again at last compressor 15.

Also have in the specific embodiment of the present utility model, during use, outside running water is divided into two-way, one the tunnel directly enters cold bag 28, by compressor cooling, under evaporation coil 23 effects the coolant-temperature gage of cold bag 28 is reduced, open frozen water tap 20, draw frozen water; Another road running water enters pump type heat water tank 10 by opening of magnetic valve 9 simultaneously, be heated to first uniform temperature at first for the water in the pump type heat water tank 10 by heat pump, warm water after the heating enters boiled water tank 3 again, is heated to boiling water by heating tube 8, the stepping moisturizing, successively heating, open hot water tap 19, draw hot water, during use when the frozen water in the cold bag is filled with, under automatically controlled, blower fan 13 is rotated, carry out heat exchange with ambient atmosphere.When the burning of the water in the boiled water tank 3 was full, water level probe 2 detection signals fed back to control box 4, stop moisturizing.

Also have in the specific embodiment of the present utility model, the pipeline of described pump type heat tank inlet pipe is provided with magnetic valve 9, this magnetic valve 9 and control box 4 electrical connections.

3, the beneficial effects of the utility model.

In sum, the utility model unites two into one heat pump techniques and Refrigeration Technique, boiling water can be provided, can provide frozen water again, satisfy the different demands of client, simultaneously, the mode of heating that utilizes heat pump techniques to combine with electric-heating technology has improved the efficiency of heating surface greatly, and shortened heating tube to embodying energy savings the heat time heating time of boiled water tank, reduce network load and prolonging heating tube service life, reached the purpose of utility model, having embodied to have technique effect.

Description of drawings

Fig. 1 is structure drawing of device of the present utility model.

The specific embodiment

Embodiment 1

As shown in Figure 1, boiler comprises body and base.

The boiler body comprises top cover 1, water level probe 2, control box 4, connecting terminal block 5, right plate 6, temperature controller 7, front panel, 21 display boards 22, left plate 24, electrical heating boiled water tank 3, water spilage tray 27 and the cold bag 28 that is coiling evaporation coil 23, be located at the electrothermal tube 8 that the water for to electrical heating boiled water tank 3 in the electrical heating boiled water tank 3 heats, be installed on the outer wall of boiler body be connected with electrical heating boiled water tank 3 be used for on the water of electrical heating boiled water tank 3 hot water tap 19 who draws and the outer wall that is connected the boiler body by pipeline be connected with cold bag 28 for the frozen water tap 20 that the frozen water of cold bag 28 is drawn, the below of described electrical heating boiled water tank 3 is provided with pump type heat water tank 10, this pump type heat water tank 10 is connected with water supply line and communicates with electrical heating boiled water tank 3

Base comprises base right plate 25, footing 26, is equipped with a heat pump mechanism that is used for the water heating in the pump type heat water tank chamber of pump type heat water tank 10 in the chamber, the end.

Heat pump mechanism comprises compressor 15, evaporimeter 11, condenser 12, evaporation coil 23, blower fan 13, device for drying and filtering 17, capillary 18, compressor 15, evaporimeter 11 and blower fan 13 are located in the described seat chamber, and condenser 12 is located in the described pump type heat water tank 10, and evaporation coil 23 is coiled in cold bag 28 surfaces.Wherein, compressor 15, evaporation coil 23, evaporimeter 11, device for drying and filtering 17, capillary 18 and condenser 12 are connected to each other and consist of heat pump and refrigeration system loop.

Embodiment 2

Condenser 12 with case of bending be arranged in the pump type heat water tank chamber of described pump type heat water tank 10, described evaporimeter 11 is connected to an end of compressor 15 by pipeline, the other end of compressor is connected to condenser 12 1 ports by pipeline, condenser 12 another port are connected to evaporation coil 23 again by device for drying and filtering 17, capillary 18, evaporation coil 23 is connected to evaporimeter 11 by pipeline again, during work, cold-producing medium circulates successively in the loop.

The bottom of the short transverse of described pump type heat water tank has one and is used for the external water source that external water source is incorporated in the described pump type heat water tank chamber is introduced interface, external water source is introduced an end that connects the pump type heat tank inlet pipe on the interface, and the other end of pump type heat tank inlet pipe is connected with water supply line; Have one on the top of the short transverse of pump type heat water tank and be used for drawing joint with what the water in described pump type heat water tank chamber was drawn, this draws an end that connects outlet pipe on the joint, and the other end of outlet pipe is connected with described electrical heating boiled water tank.

The pipeline of described pump type heat tank inlet pipe is provided with magnetic valve 9, this magnetic valve 9 and control box 4 electrical connections.

During use, outside running water is divided into two-way, one the tunnel directly enters cold bag 28,, pass through compressor cooling, under evaporation coil 23 effects, the coolant-temperature gage of cold bag 28 is reduced, open frozen water tap 20, draw frozen water, another road running water enters pump type heat water tank 10 by opening of magnetic valve 9 simultaneously, be heated to first uniform temperature at first for the water in the pump type heat water tank 10 by heat pump, warm water after the heating enters boiled water tank 3 again, is heated to boiling water by heating tube 8, the stepping moisturizing, successively heating, open hot water tap 19, draw hot water, during use when the frozen water in the cold bag is filled with, under automatically controlled, blower fan 13 is rotated, carry out heat exchange with ambient atmosphere.When the burning of the water in the boiled water tank 3 was full, water level probe 2 detection signals fed back to control box 4, stop moisturizing.

Above-described embodiment limits the utility model never in any form, and every employing is equal to replaces or technical scheme that the mode of equivalent transformation obtains all drops in the protection domain of the present utility model.

Claims (7)

1. a heat-pump-type is iced the pattern of fever energy-saving water boiler, comprise boiler main body and the base with chamber, this boiler body comprises electrical heating boiled water tank (3), be arranged in the electrothermal tube (8) of electrical heating boiled water tank (3), be installed in the hot water tap (19) who is connected with electrical heating boiled water tank (3) on the outer wall of boiler body, it is characterized in that: also comprise heat pump mechanism and refrigeration mechanism, heat pump mechanism comprises pump type heat water tank (10) and heat pump; Described refrigeration mechanism is made of cold-producing medium liquid storage tube, compressor (15), condenser (12), device for drying and filtering (17), capillary (18), evaporation coil (23) evaporimeter (11); Condenser (12) is located in the described pump type heat water tank (10), evaporation coil (23) is coiled in cold bag (28) surface, wherein, compressor (15), evaporation coil (23), evaporimeter (11), device for drying and filtering (17), capillary (18) and condenser (12) are connected to each other and consist of heat pump and refrigeration system loop.

2. heat-pump-type according to claim 1 is iced the pattern of fever energy-saving water boiler, and it is characterized in that: the boiler body also comprises the cold bag (28) that is coiling evaporation coil (23).

3. heat-pump-type according to claim 1 and 2 is iced the pattern of fever energy-saving water boiler, it is characterized in that: the frozen water tap (20) that is arranged on the electrical heating boiled water tank body outer wall links to each other with Leng Bao (28) by pipeline.

4. heat-pump-type according to claim 1 is iced the pattern of fever energy-saving water boiler, it is characterized in that: described pump type heat water tank (10) is in the below of electrical heating boiled water tank (3), and this pump type heat water tank (10) is connected with water supply line and communicates with electrical heating boiled water tank (3).

5. heat-pump-type according to claim 1 is iced the pattern of fever energy-saving water boiler, it is characterized in that: refrigeration mechanism by condenser (12) with case of bending be arranged in the pump type heat water tank chamber of described pump type heat water tank (10), described evaporimeter (11) is connected to an end of compressor (15) by pipeline, the other end of compressor is connected to condenser (12) one ports by pipeline, condenser (12) another port is by device for drying and filtering (17), capillary (18) is connected to evaporation coil (23) again, and evaporation coil (23) is connected to evaporimeter (11) by pipeline again.

6. heat-pump-type according to claim 1 is iced the pattern of fever energy-saving water boiler, and it is characterized in that: the pipeline of pump type heat tank inlet pipe is provided with magnetic valve (9), this magnetic valve (9) and control box (4) electrical connection.

7. heat-pump-type according to claim 1 is iced the pattern of fever energy-saving water boiler, it is characterized in that: through reduce the temperature of water in the cold bag (28) at evaporation coil (23), produce cold water from frozen water tap (20) after running water freezes through compressor (15).

Images