CN221005564U - Integrated evaporator of vapor compression refrigeration cycle unit - Google Patents

Abstract

The utility model discloses an integrated evaporator of a vapor compression refrigeration cycle unit, which comprises a shell, wherein the shell consists of a mounting box, a wind conveying box and a case, the mounting box, the wind conveying box and the case are fixedly connected from front to back in parallel, a plurality of evaporation components are arranged in the mounting box and used for evaporating and absorbing heat of condensing agent for vapor compression refrigeration, the wind conveying box is fixedly arranged at the rear end of the mounting box, the rear end of the wind conveying box is fixedly connected with the case, and a driving mechanism is rotatably arranged in the case and used for conveying cold air of the evaporator. The split evaporator and the fan are arranged in the box body formed by the mounting box and the machine box, so that the fan is driven to rotate by the driving mechanism which is rotatably arranged in the machine box, the fan inputs air into the conical air-conveying box, and the air-conveying box uniformly inputs air into the mounting box.

Description

Integrated evaporator of vapor compression refrigeration cycle unit

Technical Field

The utility model relates to the technical field of air-conditioning refrigeration equipment, in particular to an integrated evaporator of a vapor compression refrigeration cycle unit.

Background

The working principle of the air conditioner is that the compressor compresses the gaseous condensing agent into the gaseous condensing agent with high temperature and high pressure, then the gaseous condensing agent is sent to the condenser to dissipate heat and then becomes the liquid condensing agent with normal temperature and high pressure, the liquid condensing agent enters the evaporator, and as the space of the condensing agent after reaching the evaporator from the expansion valve is suddenly increased, the pressure is reduced, the liquid condensing agent is vaporized and becomes the gaseous condensing agent with low temperature, thereby absorbing a great amount of heat, and the evaporator is cooled.

The evaporating pipe and the fan on the evaporator of the existing vapor compression refrigeration cycle unit are split, in the use process, the evaporating pipe is required to be fixedly arranged at the front end of the fan, so that the fan outputs low-temperature air on the evaporating pipe to the circulation unit, the air flow conveyed by the fan on the existing evaporator cannot be uniformly input into the evaporating pipe on the evaporator, the refrigeration efficiency of the vapor compression quality circulation unit is influenced, the vapor compression refrigeration cycle unit evaporator is required to be provided with a plurality of groups of evaporating pipes, and the evaporating pipes are required to be fixedly connected in an installation box through bolts in the installation process, so that the installation efficiency of the integrated evaporator is influenced.

Disclosure of utility model

In view of the above-mentioned drawbacks or shortcomings in the prior art, it is desirable to provide an integrated evaporator of a vapor compression refrigeration cycle unit, which is used for solving the technical problems that the air flow conveyed by a fan on the existing evaporator cannot be uniformly input into an evaporation tube on the evaporator, the refrigeration efficiency of the vapor compression quality cycle unit is affected, and the vapor compression refrigeration cycle unit evaporator needs multiple groups of evaporation tubes, and the evaporation tubes need to be fixedly connected in a mounting box through bolts in the mounting process, so that the mounting efficiency of the integrated evaporator is affected.

According to the technical scheme provided by the embodiment of the application, the integrated evaporator of the vapor compression refrigeration cycle unit comprises a shell, wherein the shell consists of an installation box, an air delivery box and a case, the installation box, the air delivery box and the case are fixedly connected from front to back in parallel, a plurality of evaporation components are arranged in the installation box and used for evaporating condensing agents for vapor compression refrigeration to absorb heat, the air delivery box is fixedly arranged at the rear end of the installation box, the rear end of the air delivery box is fixedly connected with the case, and a driving mechanism is rotatably arranged in the case and used for conveying cold air of the evaporator; the locking mechanisms are arranged at the upper end and the lower end of each evaporation assembly in parallel and correspondingly and are used for locking and connecting each evaporation assembly with the mounting box.

Further, the evaporation assemblies are arranged in parallel and are arranged in the installation box at intervals, and evaporation pipes on the evaporation assemblies are arranged at intervals and are used for evaporating the internal condensing agent of the evaporator at low temperature.

Furthermore, the air conveying box is of a cavity conical structure, and a conical top opening on the air conveying box is connected with the case.

Further, the driving mechanism comprises a rotary driving piece and a roller fan, wherein the roller fan is fixedly connected with the output end of the rotary driving piece, and the rotary driving piece is fixedly arranged on the side face of the case.

Furthermore, the installation box is also provided with a plurality of installation grooves, the installation grooves are arranged in parallel and correspondingly arranged on the upper side and the lower side of the installation box, and a plurality of locking holes are uniformly formed in the installation grooves, and each locking hole is connected with a corresponding locking mechanism in a clamping manner and used for installation locking of the evaporation assembly.

Further, the locking mechanism comprises a locking rod and an elastic piece, two ends of a fixing rod on the evaporation assembly are correspondingly provided with a vertical moving groove, the locking rod is movably installed in the moving groove, the elastic piece is arranged in the moving groove, and the locking rod is abutted against the elastic piece.

Further, the side surface of the installation box is fixedly connected with a first valve and a second valve, the first valve is fixedly connected with the inlets of the evaporation pipes on the evaporation assemblies, and the second valve is fixedly connected with the outlets of the evaporation pipes on the evaporation assemblies, so that condensing agents can be uniformly input into the evaporation pipes.

In summary, the application has the following beneficial effects:

1. The split evaporator and the fan are arranged in a box body formed by the installation box and the box body, so that a driving mechanism rotatably arranged in the box body drives the fan to rotate, the fan inputs air into the conical air-feeding box, the air-feeding box uniformly inputs air flow into the installation box, multiple groups of evaporation assemblies arranged in the installation box are used for carrying out cold air conveying, and the refrigerating efficiency of the integrated evaporator is improved;

2. The utility model provides a plurality of evaporation subassembly and locking mechanical system, through installing parallel and spaced evaporation subassembly in the mounting box, and make evaporating pipe interval dislocation set on the evaporation subassembly, thereby improve the refrigeration efficiency of integrated form evaporator, set up corresponding locking mechanical system on the fixed plate on a plurality of evaporation subassembly simultaneously, thereby make the locking lever on the locking mechanical system compress the elastic component at the removal in-process, after the locking lever card is connected in the locking hole, the elastic component carries out the butt to the locking lever, thereby make locking mechanical system carry out the locking installation to the evaporation subassembly, improve the evaporation subassembly installation effectiveness of integrated form evaporator, improve the refrigeration efficiency of integrated form evaporator simultaneously.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the overall front view of the present utility model;

FIG. 2 is a schematic diagram of the overall rear view structure of the present utility model;

FIG. 3 is a schematic view of a rear view cross-section of the present utility model;

FIG. 4 is a schematic side sectional view of the present utility model;

FIG. 5 is a schematic view of the connection structure of the evaporation module and the installation box according to the present utility model;

fig. 6 is an enlarged view at a in fig. 5.

Reference numerals in the drawings: the housing 100, the mounting box 110, the mounting groove 111, the locking hole 1111, the air delivery box 120, the cabinet 130, the driving mechanism 131, the rotation driving member 1311, the drum fan 1312, the evaporation assembly 140, the locking mechanism 141, the locking lever 1411, the elastic member 1412, the evaporation tube 142, the fixing plate 143, and the moving groove 1431.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the utility model are shown in the drawings.

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

The integrated evaporator of the vapor compression refrigeration cycle unit has the structure shown in fig. 1-6, and comprises a shell 100, wherein the shell consists of a mounting box 110, an air delivery box 120 and a case 130, the mounting box 110, the air delivery box 120 and the case 130 are fixedly connected from front to back in parallel, a plurality of evaporation assemblies 140 are arranged in the mounting box 110 and used for evaporating condensing agents for vapor compression refrigeration to absorb heat, the air delivery box 120 is fixedly arranged at the rear end of the mounting box 110, the rear end of the air delivery box 120 is fixedly connected with the case 130, and a driving mechanism 131 is rotatably arranged in the case 130 and used for conveying cold air of the evaporator; the locking mechanisms 141 are arranged in parallel and correspondingly at the upper end and the lower end of each evaporation assembly 140, and are used for locking and connecting each evaporation assembly 140 with the mounting box 110.

When the evaporator is used, the installation box 110, the air delivery box 120 and the case 130 on the integrated evaporator are fixedly connected from front to back in parallel, so that the shell 100 of the integrated evaporator is formed, meanwhile, the driving mechanism 131 is installed in the case 130, so that the driving mechanism 131 drives the roller fan 1312 to rotate, air is input into the conical air delivery box 120, air flow in the air delivery box 120 is uniformly input into the installation box 110, evaporation pipes 142 which are installed in the installation box 110 and are arranged in parallel at intervals on the evaporation assemblies 140 in a staggered manner are used for evaporating condensing agent and absorbing heat, the refrigerating efficiency of the integrated evaporator is improved, and locking mechanisms 141 are arranged on a plurality of evaporation assemblies 140 which are arranged in the installation box 110 in parallel at intervals, so that the locking mechanisms 141 lock the evaporation assemblies 140 in the installation box 110, and the installation efficiency of the evaporation pipes of the integrated evaporator is improved.

As a preferred embodiment, referring to fig. 3 and 4, a plurality of evaporation assemblies 140 are arranged in parallel and spaced apart in the installation box 110, and evaporation tubes 142 on each evaporation assembly 140 are arranged at intervals and staggered for evaporating the condensing agent in the evaporator at low temperature, so as to improve the refrigeration efficiency of the integrated evaporator.

As a preferred embodiment, referring to fig. 2 and 4, the air delivery box 120 has a hollow cone structure, and the cone top opening of the air delivery box 120 is connected to the cabinet 130, so that the air flow in the cabinet 130 is uniformly input into the installation box 110, and the low-temperature air on the evaporation tube 142 is uniformly output by the air flow.

As a preferred embodiment, referring to fig. 2 and 3, the driving mechanism 131 includes a rotary driving member 1311 and a roller fan 1312, the roller fan 1312 is fixedly connected to an output end of the rotary driving member 1311, and the rotary driving member 1311 is fixedly mounted on a side surface of the cabinet 130, and the rotary driving member 1311 drives the roller fan 1312 to rotate, so that air is uniformly input into the cabinet 110 and is input into the conical air delivery box 120 from the other end of the cabinet 110, so that air flow uniformly passes through the evaporation tube 142 on the evaporation assembly 140, and the refrigeration efficiency of the integrated evaporator is improved.

As a preferred embodiment, referring to fig. 5 and 6, the mounting box 110 is further provided with a plurality of mounting slots 111, the plurality of mounting slots 111 are arranged in parallel and correspondingly arranged on the upper side and the lower side of the mounting box 110, and a plurality of locking holes 1111 are uniformly arranged in the mounting slots 111, and each locking hole 1111 is in clamping connection with a corresponding locking mechanism 141 for mounting and locking the evaporation component 140, so as to improve the mounting efficiency of the integrated evaporator.

As a preferred embodiment, referring to fig. 6, the locking mechanism 141 includes a locking rod 1411 and an elastic member 1412, two ends of the fixing rod 143 on the evaporating assembly 140 are correspondingly provided with a vertical moving slot 1431, the locking rod 1411 is movably mounted in the moving slot 1431, the elastic member 1412 is disposed in the moving slot 1431, and the locking rod 1411 abuts against the elastic member 1412.

As a preferred embodiment, referring to fig. 2, the side surface of the installation box 110 is fixedly connected with a first valve 112 and a second valve 113, the first valve 112 is fixedly connected with inlets of evaporation tubes 142 on the plurality of evaporation assemblies 140, and the second valve 113 is fixedly connected with outlets of the evaporation tubes 142 on the plurality of evaporation assemblies 140, so as to uniformly input and output the condensing agent into and out of each evaporation tube 142, thereby improving the refrigeration efficiency of the integrated evaporator.

The working principle of the utility model is as follows:

When the integrated evaporator is used, the mounting box 110, the air delivery box 120 and the case 130 on the integrated evaporator are fixedly connected from front to back in parallel, so that the shell 100 of the integrated evaporator is formed, meanwhile, the driving mechanism 131 is arranged in the case 130, so that the rotary driving piece 1311 on the driving mechanism 131 drives the rotary drum fan 1312 to rotate, air is uniformly input into the conical air delivery box 120, so that air flow in the air delivery box 120 is uniformly input into the mounting box 110, the evaporation pipes 142 which are arranged on the parallel evaporation components 140 and arranged in the mounting box 110 at intervals are used for evaporating condensing agents and absorbing heat, the refrigerating efficiency of the integrated evaporator is improved, a plurality of evaporation components 140 are arranged in the mounting box 110 in parallel at intervals, the contact area between the evaporation pipes 142 and the air is increased, the refrigerating efficiency of the integrated evaporator is improved, the corresponding locking mechanisms 141 are arranged at the upper end and the lower end of the fixing plate 143 of each evaporation component 140, the locking rods 1 on the locking mechanisms 141 are used for compressing the elastic pieces 1412 in the moving process, and when the locking rods 1411 are clamped in the locking holes 1411 and the locking pieces 1411 are connected with the evaporation components 140 at intervals, and the evaporation components 140 are arranged in parallel at intervals, so that the locking efficiency of the locking rods 141 are locked by the elastic pieces are connected to the evaporation components 140, and the evaporation components 141 are arranged.

The above description is only illustrative of the preferred embodiments of the utility model and the technical principles employed. Meanwhile, the scope of the utility model is not limited to the technical scheme formed by the specific combination of the technical features, and other technical schemes formed by any combination of the technical features or the equivalent features thereof without departing from the inventive concept are also covered. Such as the above-mentioned features and the technical features disclosed in the present utility model (but not limited to) having similar functions are replaced with each other.

Claims (7)

1. An integrated evaporator of a vapor compression refrigeration cycle unit is characterized in that:

The refrigerator comprises a shell (100), wherein the shell comprises a mounting box (110), an air delivery box (120) and a case (130), the mounting box (110), the air delivery box (120) and the case (130) are fixedly connected from front to back in parallel, a plurality of evaporation assemblies (140) are arranged in the mounting box (110) and used for evaporating condensing agents for vapor compression refrigeration to absorb heat, the air delivery box (120) is fixedly arranged at the rear end of the mounting box (110), the rear end of the air delivery box (120) is fixedly connected with the case (130), and a driving mechanism (131) is rotatably arranged in the case (130) and used for conveying cold air of an evaporator;

And the locking mechanisms (141) are arranged in parallel and correspondingly arranged at the upper end and the lower end of each evaporation assembly (140) and are used for locking and connecting each evaporation assembly (140) with the installation box (110).

2. The integrated evaporator of a vapor compression refrigeration cycle unit as set forth in claim 1 wherein: the evaporation assemblies (140) are arranged in parallel in the installation box (110) at intervals, and evaporation pipes (142) on the evaporation assemblies (140) are arranged at intervals in a staggered mode and are used for evaporating the internal condensing agent of the evaporator at low temperature.

3. The integrated evaporator of a vapor compression refrigeration cycle unit as set forth in claim 1 wherein: the air delivery box (120) is of a cavity conical structure, and a conical top opening on the air delivery box (120) is connected with the case (130).

4. The integrated evaporator of a vapor compression refrigeration cycle unit as set forth in claim 1 wherein: the driving mechanism (131) comprises a rotary driving piece (1311) and a roller fan (1312), the roller fan (1312) is fixedly connected with the output end of the rotary driving piece (1311), and the rotary driving piece (1311) is fixedly installed on the side face of the case (130).

5. The integrated evaporator of a vapor compression refrigeration cycle unit as set forth in claim 1 wherein: the installation box (110) is further provided with a plurality of installation grooves (111), the installation grooves (111) are arranged in parallel and correspondingly arranged on the upper side and the lower side of the installation box (110), the installation grooves (111) are internally and uniformly provided with a plurality of locking holes (1111), and the locking holes (1111) are connected with the corresponding locking mechanisms (141) in a clamping manner and are used for installation and locking of the evaporation components (140).

6. The integrated evaporator of a vapor compression refrigeration cycle unit as set forth in claim 1 wherein: the locking mechanism (141) comprises a locking rod (1411) and an elastic piece (1412), two ends of a fixing rod (143) on the evaporation assembly (140) are correspondingly provided with a vertical moving groove (1431), the locking rod (1411) is movably installed in the moving groove (1431), the elastic piece (1412) is arranged in the moving groove (1431), and the locking rod (1411) is abutted against the elastic piece (1412).

7. The integrated evaporator of a vapor compression refrigeration cycle unit as set forth in claim 2 wherein: the side of the installation box (110) is fixedly connected with a first valve (112) and a second valve (113), the first valve (112) is fixedly connected with the inlets of the evaporation pipes (142) on the evaporation assemblies (140) in a plurality of mode, and the second valve (113) is fixedly connected with the outlets of the evaporation pipes (142) on the evaporation assemblies (140) in a plurality of mode, and is used for evenly inputting or outputting condensing agents to the evaporation pipes (142).