CN208139624U - A kind of heat pump unit high-efficiency tank discrepancy waterpipe optimization structure - Google Patents

Abstract

A kind of heat pump unit high-efficiency tank discrepancy waterpipe optimization structure, it is characterised in that：It includes the high-efficiency tank that several are distributed side by side, the top of high-efficiency tank is provided with several outlet pipes, the lower part of high-efficiency tank is provided with several water inlet pipes, the end face that the outlet pipe is connected to primary flow pipe by being discharged skirt, water inlet pipe is connected by the end face of water inlet skirt and main water inlet tube, the main inlet tube and outlet tube, end face be it is planar, out, water inlet skirt, be randomly dispersed on its end face.The utility model has the beneficial effects that：1, structure is simple, and production cost is low, improves the market competitiveness.2, unique pipe design is utilized, aqueduct is mounted on the end face of water main, ensure that the disengaging water pressure of each aqueduct, nozzle diameter is consistent, to ensure that the disengaging water of each high-efficiency tank is uniform, so that each high-efficiency tank and the work of compressor set balance and stability.

Description

A kind of heat pump unit high-efficiency tank discrepancy waterpipe optimization structure

Technical field

The utility model relates to a kind of heat pump accessory, specifically a kind of heat pump unit high-efficiency tank enters and leaves waterpipe optimization knot Structure.

Background technique

Heat pump is a kind of a small amount of electric energy of utilization from low-temperature heat source (such as air, spent hot water) absorption thermal energy, is sent to high warm The heating equipment in source.Its application value essentially consists in the standby thermal energy of work schedule and is much higher than the coke that consumed electric energy can be generated Have burning ears can (such as electric heater), have good energy-saving effect.Heat pump widely used at present mainly utilizes (inverse) Kano former The compressor heat pump of reason.Its principle is to use air as low-temperature heat source, by the carburation by evaporation of the liquid refrigerant in evaporator The thermal energy in air is absorbed, then gaseous working medium is become to the gaseous working medium of high temperature, high pressure by compressor, when this gaseous state work High temperature, high-pressure gaseous working medium discharge thermal energy when matter is transferred to condenser, release a large amount of heat, transmit the deposit in feed-tank Cold water increases water temperature, achievees the purpose that prepare hot water.Its application places is generally family, factory, school etc. to daily life There are the place of relatively fixed demand in hot water amount and period of supplying water.

In existing heat pump unit, in order to accelerate heat transfer rate, heating capacity is promoted, is required to be arranged in systems multiple High-efficiency tank exchanges heat, and under usual, high-efficiency tank is installed using side-by-side configuration, and is carried out side by side by water main and multiple high-efficiency tanks Connection.In daily use process applicants have discovered that, due to by water main front and back there are pressure difference, resistance to water-flow is different The factors such as cause influence, and cause the water to exchange heat into each high-efficiency tank unbalanced, so as to cause the heat exchange of each high-efficiency tank It is inconsistent, seriously affect each compressor operating stability in unit, it is therefore necessary to be improved further to it.

Utility model content

The purpose of this utility model is to overcome prior art there are the shortcomings that, it is simple to provide a kind of structure, user Just, enable to each high-efficiency tank inflow uniform, heat exchange efficiency balance guarantees a kind of heat pump of each compressor balanced operation Unit high-efficiency tank enters and leaves waterpipe and optimizes structure.

The utility model aim is realized with the following methods：A kind of heat pump unit high-efficiency tank discrepancy waterpipe optimization knot Structure, it is characterised in that：It includes the high-efficiency tank that several are distributed side by side, and the top of high-efficiency tank is provided with several outlet pipes, high The lower part of effect tank is provided with several water inlet pipes, and the outlet pipe is connected to the end face of primary flow pipe by water outlet skirt, into Water pipe by water inlet skirt and main water inlet tube end face connect, the main inlet tube and outlet tube, end face be it is planar, out, water inlet Skirt is randomly dispersed on its end face.

The outlet pipe and water inlet pipe is provided with two on same high-efficiency tank, passes through corresponding water-in and water-out Skirt is connected to main inlet tube and outlet tube, end face.

The high-efficiency tank is provided with two rows, is symmetrically distributed in main inlet tube and outlet tube, two sides.

The water-in and water-out skirt is evenly distributed on main inlet tube and outlet tube, end face, water-in and water-out skirt, with main water-in and water-out It uses and is welded and fixed between pipe, end face.

The opposite side of the two rows of high-efficiency tanks in left and right is arranged in the main inlet tube and outlet tube.

The utility model has the beneficial effects that：1, structure is simple, and production cost is low, improves the market competitiveness.2, using only Special pipe design, aqueduct is mounted on the end face of water main, ensure that the disengaging water pressure of each aqueduct, nozzle is straight Diameter is consistent, to ensure that the disengaging water of each high-efficiency tank is uniform, so that each high-efficiency tank and compressor set balance Steady operation.

Detailed description of the invention

Fig. 1,2,3 are the utility model structure diagram.

Fig. 4 is primary flow pipe and water outlet skirt connection schematic diagram in the utility model.

Specific embodiment

Specific further instruction is made to the utility model with reference to the accompanying drawing.A kind of heat pump unit high-efficiency tank discrepancy water pipe Road optimizes structure, it is characterised in that：It includes the high-efficiency tank 1 that several are distributed side by side, and the top of high-efficiency tank 1 is provided with several Outlet pipe 2, the lower part of high-efficiency tank 1 are provided with several water inlet pipes 3, and the outlet pipe 2 is connected to master by water outlet skirt 4 and goes out The end face of water pipe 5, water inlet pipe 3 are connect by skirt 6 of intaking with the end face of main water inlet tube 7, the main inlet tube and outlet tube 7,5 End face be it is planar, out, water inlet skirt 4,6 be randomly dispersed on its end face.

The outlet pipe 2 and water inlet pipe 3 is provided with two on same high-efficiency tank, by it is corresponding into and out of Water skirt 6,4 is connected to main inlet tube and outlet tube 7,5 end faces.

The high-efficiency tank 1 is provided with two rows, is symmetrically distributed in main inlet tube and outlet tube 7,5 two sides.

The water-in and water-out skirt 6,4 is evenly distributed on main inlet tube and outlet tube 7,5 end faces, water-in and water-out skirt 6,4 and master It uses and is welded and fixed between the end face of inlet tube and outlet tube 7,5.

The opposite side of the two rows of high-efficiency tanks in left and right is arranged in the main inlet tube and outlet tube 7,5.

Working principle：T-type threeway connection type is used in traditional technology between aqueduct and water main, therefore, by main water The factors such as the pressure difference of pipe front and back end influence, and cause the water entered in each high-efficiency tank uneven, so that each high-efficiency tank changes The thermal efficiency is inconsistent, to influence the equilibrium and stability of compressor set work.In view of this, in this case, outlet pipe 2 passes through Water outlet skirt 4 is connected to the end face of primary flow pipe 5, and water inlet pipe 3 is connect by skirt 6 of intaking with the end face of main water inlet tube 7, described Main inlet tube and outlet tube 7,5 end face be it is planar, out, water inlet skirt 4,6 be randomly dispersed on its end face.Wherein, out, water inlet Skirt 4,6 is randomly dispersed on the end face of main inlet tube and outlet tube 7,5, ensure that it is each go out, water inlet skirt water inlet area, disengaging The pressure of the water surface is consistent, ensure that the water for entering heat-exchanging water in each high-efficiency tank is consistent indirectly, to ensure that each high The heat exchange efficiency of tank is imitated, the workload approach of each heat pump unit is consistent, so that entire heat pump system the operation is stable is efficient, therefore It can be widely used to promote.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Only illustrate the principles of the present invention, on the premise of not departing from the spirit and scope of the utility model, the utility model is also It will have various changes and improvements, these various changes and improvements fall within the scope of the claimed invention.

Claims (5)

1. a kind of heat pump unit high-efficiency tank, which enters and leaves waterpipe, optimizes structure, it is characterised in that：It includes that several are distributed side by side High-efficiency tank（1）, high-efficiency tank（1）Top be provided with several outlet pipes（2）, high-efficiency tank（1）Lower part be provided with several into Water pipe（3）, the outlet pipe（2）By being discharged skirt（4）It is connected to primary flow pipe（5）End face, water inlet pipe（3）By into Water skirt（6）With main water inlet tube（7）End face connection, the main inlet tube and outlet tube（7,5）End face be it is planar, out, water inlet Skirt（4,6）It is randomly dispersed on its end face.

2. a kind of heat pump unit high-efficiency tank according to claim 1, which enters and leaves waterpipe, optimizes structure, it is characterised in that：It is described Outlet pipe（2）And water inlet pipe（3）It is provided with two on same high-efficiency tank, passes through corresponding water-in and water-out skirt（6, 4）It is connected to main inlet tube and outlet tube（7,5）End face.

3. a kind of heat pump unit high-efficiency tank according to claim 1, which enters and leaves waterpipe, optimizes structure, it is characterised in that：It is described High-efficiency tank（1）Two rows are provided with, main inlet tube and outlet tube is symmetrically distributed in（7,5）Two sides.

4. a kind of heat pump unit high-efficiency tank according to claim 1, which enters and leaves waterpipe, optimizes structure, it is characterised in that：It is described Water-in and water-out skirt（6,4）It is evenly distributed on main inlet tube and outlet tube（7,5）End face, water-in and water-out skirt（6,4）With main water-in and water-out Pipe（7,5）End face between using being welded and fixed.

5. a kind of heat pump unit high-efficiency tank according to claim 3, which enters and leaves waterpipe, optimizes structure, it is characterised in that：It is described Main inlet tube and outlet tube（7,5）The opposite side of the two rows of high-efficiency tanks in left and right is set.