CN218328752U - Cold-storage type evaporator - Google Patents

Abstract

The utility model relates to a cold-storage type evaporator, including the evaporimeter monomer, the regenerator monomer is fixed in the free both sides end of evaporimeter, and the free inboard of evaporimeter is passed in the free middle section of regenerator, the evaporimeter monomer is by the side backplate, the layering fin, the circulation coil pipe, circulation port pipe is constituteed, parallel arrangement about the side backplate, the circulation coil pipe is fixed between two sets of side backplate, circulation port union coupling is in the both sides end of circulation coil pipe, the layering fin is parallel arrangement, and two settings around a plurality of group layer fins divide into, two clearances between the layering fin are passed in the free middle section of regenerator. The utility model discloses optimized the setting of cold-storage condenser, improved and just can realize the exchange of refrigerant for according to the control electronic valve to realize the cold-storage of refrigerant, when the cold volume that needs use the refrigerant to store, still only need the control electronic valve just can release cold volume, simple structure's while theory of operation is more succinct, should use widely.

Description

Cold-storage type evaporator

Technical Field

The utility model relates to a finance payment field especially relates to a cold-storage type evaporimeter.

Background

Evaporation is a physical process by which a liquid state is converted to a gaseous state. The evaporator is a liquid substance and is converted into a gaseous substance, the evaporator is widely applied to the air conditioner, the traditional evaporator converts a refrigerant existing in the air conditioner into a gaseous state from a liquid state, but the environment where the air conditioner is located is greatly influenced, in order to improve the working efficiency of the evaporator, a cold accumulator can be additionally arranged to ensure the working efficiency of the evaporator in a necessary process, and in order to solve the problems, the cold accumulation type evaporator is designed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cold-storage type evaporimeter to solve above-mentioned technical problem, for realizing above-mentioned purpose the utility model discloses a following technical scheme:

the utility model provides a cold-storage type evaporator, includes evaporimeter monomer, regenerator monomer, the regenerator monomer is fixed at the free both sides end of evaporimeter, and the free middle section of regenerator passes the free inboard of evaporimeter, the evaporimeter monomer comprises side backplate, layering fin, circulation coil pipe, circulation port pipe, the side backplate is provided with two sets ofly, parallel arrangement from top to bottom of two sets of side backplate, the circulation coil pipe is fixed between two sets of side backplate, circulation port union coupling is in the both sides end of circulation coil pipe, and just circulation port pipe fixes on the side backplate, the layering fin is provided with a plurality of groups, and a plurality of groups layering fin is parallel arrangement, and a plurality of groups layering fin divide into two front and back and are listed as the setting, and two are listed as and are provided with the clearance between the layering fin, the free middle section of regenerator passes two clearance between the layering fin, the both ends of regenerator monomer are fixed in the both ends outside of two sets of side backplate.

On the basis of the technical scheme, the cold accumulator monomer comprises an external contact coil, two flow dividing pipes, side vertical protective plates, an electronic control valve, two heat-preservation and cold-accumulation tank bodies and a refrigerant input pipe, wherein the side vertical protective plates are provided with two groups, the two groups of side vertical protective plates are oppositely arranged, the two groups of heat-preservation and cold-accumulation tank bodies are respectively fixed on the outer side surfaces of the two groups of side vertical protective plates, the four groups of flow dividing pipes are respectively connected on the inner side surfaces of the two groups of heat-preservation and cold-accumulation tank bodies, the two groups of flow dividing pipes are fixed on the side vertical protective plates, the electronic control valve is connected on the outer side ends of the flow dividing pipes, the refrigerant input pipe is respectively connected on the different end sides of the two groups of heat-preservation and cold-accumulation tank bodies, the external contact coil is provided with a plurality of groups, the plurality of groups of contact coil are respectively connected between the two groups of flow dividing pipes which are oppositely arranged, the side vertical protective plates are respectively fixed on the outer sides of the two ends of the side vertical protective plates, and the external contact coil passes through the gap between the two types of layered fins.

On the basis of the technical scheme, the two groups of heat preservation and cold accumulation tanks are oppositely arranged left and right, I-shaped pistons are arranged inside the two groups of heat preservation and cold accumulation tanks and can move up and down in the heat preservation and cold accumulation tanks, the I-shaped pistons divide the insides of the heat preservation and cold accumulation tanks into an upper part and a lower part, the shunt pipes are connected to the top end and the bottom end of the one-side heat preservation and cold accumulation tank respectively, the two groups of flow pipes are not connected, the electronic control valve is arranged at the connecting point of the heat preservation and cold accumulation tanks and the shunt pipes and controls the communication between the heat preservation and cold accumulation tanks and the shunt pipes, the upper half section cavities of the two groups of heat preservation and cold accumulation tanks separated by the I-shaped pistons are communicated with each other through the two groups of shunt pipes on the upper side and the external contact coil pipes on the upper side, the internal circulation is provided with a refrigerant exchanger A, the lower half cavities of the two groups of heat preservation and cold accumulation tanks separated by the I-shaped pistons are communicated with each other through the two groups of shunt pipes on the lower side and the external contact coil pipes on the lower side, and the internal circulation is provided with a refrigerant exchanger B.

Compared with the prior art, the utility model has the advantages of it is following: the utility model discloses optimized cold-storage condenser's setting, changed the structure of the complicated cold-storage condenser of traditional structure, improved to be one kind and just can realize the exchange of refrigerant according to the control electronic valve to realize the cold-storage of refrigerant, when the cold volume that needs use the refrigerant to store, still only need control the electronic valve just can release cold volume, simple structure's while theory of operation is more succinct, should use widely.

Drawings

Fig. 1 is a general appearance state diagram of the present invention.

Fig. 2 is a schematic diagram of the evaporator unit of the present invention.

Fig. 3 is a schematic view of the single cold accumulator of the present invention.

Fig. 4 is a schematic side plan view of the single cold accumulator of the present invention.

In the figure: the device comprises an evaporator monomer 1, a cold storage monomer 2, a side end protection plate 3, a layered fin 4, a circulating coil pipe 5, a circulating port pipe 6, an external contact coil pipe 7, a shunt pipe 8, a side vertical protection plate 9, an electronic control valve 10, a heat preservation and cold storage tank body 11, a refrigerant input pipe 12, an I-shaped piston 13, a refrigerant exchanger A14 and a refrigerant exchanger B15.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The utility model provides a cold-storage type evaporator, includes evaporimeter monomer 1, regenerator monomer 2 is fixed at evaporimeter monomer 1's both sides end, and regenerator monomer 2's middle section passes evaporimeter monomer 1's inboard, evaporimeter monomer 1 comprises side backplate 3, layering fin 4, circulation coil pipe 5, circulation port pipe 6, side backplate 3 is provided with two sets ofly, parallel arrangement about two sets of side backplate 3, circulation coil pipe 5 is fixed between two sets of side backplate 3, circulation port pipe 6 is connected at circulation coil pipe 5's both sides end, and circulation port pipe 6 fixes on side backplate 3, layering fin 4 is provided with a plurality of groups, and a plurality of groups layering fin 4 parallel arrangement, and sets up around a plurality of groups layering fin 4 divide into, and is provided with the clearance between two layering fin 4, regenerator monomer 2's middle section passes two clearances between the layering fin 4, two both ends outside at two sets of backplate 3 are fixed at regenerator monomer 2's both ends.

The single cold accumulator body 2 is composed of an external contact coil 7, two groups of shunt tubes 8, a side vertical protective plate 9, an electronic control valve 10, two groups of heat preservation and cold accumulation tank bodies 11 and a refrigerant input tube 12, the side vertical protective plate 9 is provided with two groups, the two groups of side vertical protective plates 9 are oppositely arranged, the heat preservation and cold accumulation tank bodies 11 are provided with two groups, the two groups of heat preservation and cold accumulation tank bodies 11 are oppositely arranged, the two groups of heat preservation and cold accumulation tank bodies 11 are respectively fixed on the outer side faces of the two groups of side vertical protective plates 9, the shunt tubes 8 are provided with four groups, the four groups of shunt tubes 8 are respectively connected on the inner side faces of the two groups of heat preservation and cold accumulation tank bodies 11, the two groups of shunt tubes 8 are fixed on the side vertical protective plates 9, the electronic control valve 10 is connected at the outer side ends of the shunt tubes 8, the refrigerant input tube 12 is respectively connected at the different end sides of the two groups of the heat preservation and cold accumulation tank bodies 11, the external contact coil 7 is provided with a plurality of groups of external contact coil 7 is respectively connected between the two groups of flow tubes 8 which are oppositely arranged, the side vertical protective plates 9 are respectively fixed at the two ends of the side vertical protective plates 3, and the external contact coil 7 passes through a gap between two types of layered fins 4.

The two sets of heat preservation cold-storage tank bodies 11 are oppositely arranged left and right, I-shaped pistons 13 are arranged inside the two sets of heat preservation cold-storage tank bodies 11, the I-shaped pistons 13 can move up and down in the heat preservation cold-storage tank bodies 11, the I-shaped pistons 13 divide the interior of the heat preservation cold-storage tank bodies 11 into an upper portion and a lower portion, the shunt tubes 8 are connected to the top ends and the bottom ends of the single-side heat preservation cold-storage tank bodies 11 respectively, the two sets of flow tubes 8 are not connected, the electronic control valve 10 is arranged at the connecting point of the heat preservation cold-storage tank bodies 11 and the shunt tubes 8, the electronic control valve 10 controls the communication between the heat preservation cold-storage tank bodies 11 and the shunt tubes 8, the upper half sections of the two sets of heat preservation cold-storage tank bodies 11 separated by the I-shaped pistons 13 are communicated with each other through the two sets of flow tubes 8 on the upper side and the external contact coil 7 on the upper side, a refrigerant exchanger A14 is arranged in an internal circulation manner, the lower half sections of the two sets of the heat preservation cold-storage tank bodies 11 separated by the I-shaped pistons 13 are communicated with the external contact coil 7 on the lower side by the two sets of the flow tubes 8 on the lower side, and the internal circulation manner is arranged with an exchanger B15 in an internal circulation manner.

The utility model discloses the theory of operation: the use principle of the mechanism is simple, and compared with the traditional evaporator, the cold accumulator is additionally arranged, so that the effects of cold accumulation in idle time and release in use can be realized. In the normal operation state of the evaporator, the circulation port pipes at two ends of the evaporator monomer are connected in the air conditioner system and can circulate through the circulation coil pipe to exchange heat with air, in the process, because the evaporator monomer is in different temperature stages, the cold storage monomer can be controlled to work or pause, when the evaporator and the air conditioner system stop working, the heat radiation fan of the evaporator is used for continuously running, the electronic control valve in the cold storage monomer is opened, the temperature of the refrigerant in the cold storage monomer changes, the refrigerant exchanger A and the refrigerant exchanger B can realize the same or different working states, the states of the four groups of electronic control valves can be specifically controlled, if the two groups of electronic control valves at the upper side are opened, the refrigerant exchanger A at the upper side is subjected to heat exchange with the external air, the I-shaped pistons at two sides gradually move to the lower side to be compressed to the refrigerant exchanger B, the refrigerant exchanger B obtains cold storage, the cold storage through the heat preservation tank body to be kept sealed, then the two groups of electronic control valves at the upper side are closed to realize the heat preservation of the whole system, when the energy in the equipment needs to be used, the process of the cold storage, the cold storage at the single side of the tank body is opened, and the cold storage valve is gradually contacted with the external circulation coil pipe to realize the heat exchange of the external heat preservation coil pipe, and the cold storage process of the external heat preservation of the cold storage can be gradually released.

The foregoing is a preferred embodiment of the present invention, and for those skilled in the art to understand the teaching of the present invention, the changes, modifications, replacements and variations to the embodiments will still fall within the protection scope of the present invention without departing from the principle and spirit of the present invention.

Claims (3)

1. The utility model provides a cold-storage type evaporator, its characterized in that, includes evaporimeter monomer (1), regenerator monomer (2) are fixed at the both sides end of evaporimeter monomer (1), and the middle section of regenerator monomer (2) passes the inboard of evaporimeter monomer (1), evaporimeter monomer (1) comprises side backplate (3), layering fin (4), circulation coil pipe (5), circulation port pipe (6), side backplate (3) are provided with two sets ofly, and parallel arrangement about two sets of side backplate (3), circulation coil pipe (5) are fixed between two sets of side backplate (3), circulation port pipe (6) are connected at the both sides end of circulation coil pipe (5), and circulation port pipe (6) are fixed on side backplate (3), layering fin (4) are provided with a plurality of groups, and a plurality of groups layering fin (4) are parallel arrangement side by side, and a plurality of groups layer fin (4) divide into the front and back and set up, and two are listed as between layering fin (4) and set up the clearance, regenerator monomer (2) pass the middle section fin (4) and fix two sets of interval outside at two sets of sides (3).

2. The cold accumulation type evaporator according to claim 1, wherein the cold accumulator unit (2) is composed of an external contact coil (7), a shunt pipe (8), a side vertical guard plate (9), an electronic control valve (10), a heat preservation cold accumulation tank (11) and a refrigerant input pipe (12), two groups of side vertical guard plates (9) are arranged, the two groups of side vertical guard plates (9) are oppositely arranged, two groups of heat-preservation and cold-storage tank bodies (11) are arranged, the two groups of heat-preservation and cold-storage tank bodies (11) are oppositely arranged, the two groups of heat preservation and cold accumulation tank bodies (11) are respectively fixed on the outer side surfaces of the two groups of side vertical guard plates (9), four groups of shunt tubes (8) are arranged, the four groups of shunt tubes (8) are respectively connected with the inner side surfaces of the two groups of heat preservation and cold accumulation tank bodies (11), and the two component flow pipes (8) are fixed on the side vertical guard plate (9), the electronic control valve (10) is connected with the outer end of the shunt pipe (8), the refrigerant input pipes (12) are respectively connected with the different end sides of the two groups of heat preservation and cold accumulation tanks (11), the external contact coil pipes (7) are provided with a plurality of groups, the external contact coil pipes (7) are respectively connected between two groups of flow dividing pipes (8) which are oppositely arranged, the side vertical guard plates (9) are respectively fixed at the outer sides of the two ends of the side end guard plate (3), the external contact coil (7) penetrates through a gap between the two types of layered fins (4).

3. The cold accumulation type evaporator as claimed in claim 2, wherein the two sets of heat preservation and cold accumulation tank bodies (11) are oppositely arranged left and right, i-shaped pistons (13) are arranged in the two sets of heat preservation and cold accumulation tank bodies (11), the i-shaped pistons (13) can move up and down in the heat preservation and cold accumulation tank bodies (11), the i-shaped pistons (13) divide the interior of the heat preservation and cold accumulation tank bodies (11) into an upper part and a lower part, the shunt tubes (8) are respectively connected to the top end and the bottom end of the one-side heat preservation and cold accumulation tank body (11), the two sets of flow tubes (8) are not connected with each other, the electronic control valve (10) is arranged at the connecting point of the heat preservation and cold accumulation tank bodies (11) and the shunt tubes (8), the electronic control valve (10) controls the communication between the heat preservation and cold accumulation tank bodies (11) and the shunt tubes (8), the upper half-section cavities of the two sets of heat preservation and cold accumulation tank bodies (11) separated by the i-shaped pistons (13) are communicated with each other through the upper contact coil pipe (7) of the two sets of cold accumulation pipe (8) and the lower half-section of the external coil pipe (7) is arranged inside the two sets of cold accumulation tank bodies (11) which are communicated with each other through the external coil (7) and the external cold exchange agent exchange coil (7) which is arranged at the lower side of the two sets of cold accumulation tank bodies (11) which are arranged at the external cold exchange tubes (8).

Images