CN217131559U - Liftable air conditioner evaporation assembly - Google Patents

Abstract

The utility model discloses an air conditioner evaporation subassembly of liftable for solve the evaporation subassembly in the air conditioner in the current equipment cabinet because unable lift, lead to the technical problem of its equipment cabinet of unable adaptation co-altitude installation space. The utility model discloses a bottom frame is connected with elevating gear on the bottom frame, and elevating gear is connected with the evaporation cavity, and evaporation cavity internally mounted has evaporation plant. In this embodiment, when installing the air conditioner inside the equipment cabinet, installer accessible elevating gear adjusts the height of evaporation cavity for air conditioner evaporation subassembly can be pushed the bottom installation space of equipment cabinet smoothly, then, installer controls elevating gear adjustment evaporation cavity again to suitable height, so that the evaporation cavity pastes air supply outlet and the return air inlet of tight equipment cabinet body bottom, thereby accomplishes the installation. Through foretell design, can make the air conditioner evaporate the equipment cabinet that the subassembly can be applicable to not co-altitude installation space for the application scope of air conditioner evaporation subassembly is wider.

Description

Liftable air conditioner evaporation assembly

Technical Field

The utility model relates to an air conditioner design technical field especially relates to a liftable air conditioner evaporation subassembly.

Background

Because electronic components which are easy to generate heat are placed in the existing equipment cabinets, a cooling assembly, namely an air conditioner, needs to be installed in the equipment cabinets.

Use and fill electric pile as an example, because fill electric pile in the charging process, its inside electronic components can give off heat, lead to the unusual condition of operation for avoiding its overheat, among the prior art, generally can be at the bottom installation air conditioner that fills electric pile, so that fill electric pile and maintain normal operating temperature, because the unable lift function that realizes of evaporation subassembly in the current air conditioner, lead to the designer must with the high design in evaporation chamber and fill electric pile bottom installation space's highly uniform when designing air conditioner, the evaporation chamber subassembly just can be placed in filling electric pile's bottom space and paste tightly to filling electric pile inside return air inlet and supply-air outlet, if with this evaporation chamber subassembly install then can't accomplish the installation in the electric pile that fills of other not co-altitude installation space, the designer needs the height in redesign evaporation chamber.

Therefore, in order to solve the above technical problems, it is an important subject of research by those skilled in the art to find a liftable air conditioner evaporation assembly.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses liftable air conditioner evaporation subassembly for solve the evaporation subassembly in the air conditioner in the current equipment cabinet because unable lift, lead to the technical problem of its equipment cabinet of unable adaptation co-altitude installation space.

An embodiment of the utility model provides a liftable air conditioner evaporation subassembly, including the bottom frame, be connected with elevating gear on the bottom frame, elevating gear is connected with the evaporation cavity, evaporation cavity internally mounted has evaporation plant.

Optionally, the bottom frame comprises a longitudinal beam and a guiding beam;

the longitudinal beam and the guide cross beam are mutually connected to form the bottom frame;

the outer side surface of the guide cross beam is provided with an installation inclined surface, and the installation inclined surface gradually inclines upwards from the first end part of the guide cross beam to the second end part of the guide cross beam.

Optionally, the lifting device is a scissor type lifting device;

the scissor type lifting device comprises a first supporting arm and a second supporting arm, wherein the middle part of the first supporting arm and the middle part of the second supporting arm are hinged with each other to form a scissor-shaped structure, the first top end part of the first supporting arm is hinged with the bottom of the evaporation cavity, the second bottom end part of the second supporting arm is hinged with the first end part of the guide cross beam, and the first top end part of the first supporting arm and the second bottom end part of the second supporting arm are vertically arranged;

a first articulated shaft is articulated at the first bottom end part of the first supporting arm, the first articulated shaft is connected to the second end part of the guide cross beam in a sliding manner, a second articulated shaft is articulated at the second top end part of the second supporting arm, the second articulated shaft is connected to the bottom of the evaporation cavity in a sliding manner, and the first articulated shaft and the second articulated shaft are vertically arranged;

the second end of guiding beam is connected with the driving piece, the driving piece can drive first articulated shaft is followed guiding beam is toward the second bottom portion direction removal that is close to the second support arm, so that the direction synchronous motion of the first top portion of first support arm is followed to the second articulated shaft, and then makes evaporation cavity moves along vertical direction rebound.

Optionally, the drive member is a drive screw;

the driving screw is in threaded connection with the second end part of the guide cross beam, the tail end part of the driving screw is abutted to the outer side surface of the first hinged shaft, and when the driving screw is driven to move towards the inner direction of the guide cross beam, the driving screw drives the first hinged shaft to move along the direction of the guide cross beam towards the second bottom end part close to the second support arm, so that the second hinged shaft moves towards the direction of the first top end part of the first support arm synchronously, and the evaporation cavity moves upwards along the vertical direction.

Optionally, a first sliding through groove is formed in the second end of the guide cross beam, and the first sliding through groove extends along the length direction of the guide cross beam;

a second sliding through groove is formed in the bottom of the evaporation cavity and is located right above the first sliding through groove, and the extending direction of the second sliding through groove is the same as that of the first sliding through groove;

first articulated shaft sliding connection in first slip logical groove, second articulated shaft sliding connection in second slip logical groove.

Optionally, the lifting device comprises a lifting screw and a rotating handle connected with the lifting screw;

the lifting screw is rotatably connected to the bottom frame, the evaporation cavity is connected with a nut, the nut is in threaded connection with the lifting screw, and the rotating handle can drive the lifting screw to rotate so that the evaporation cavity can lift along the lifting screw.

Optionally, the lifting device is a jacking cylinder;

the jacking cylinder is fixedly arranged on the bottom frame, and a piston rod of the jacking cylinder is connected with the bottom of the evaporation cavity.

Optionally, the lifting device is a hydraulic cylinder;

the hydraulic cylinder is fixedly arranged on the bottom frame, and a piston rod of the hydraulic cylinder is connected with the bottom of the evaporation cavity.

Optionally, the evaporation assembly comprises an evaporator and an evaporation fan;

the evaporation fan is close to one side of the evaporator and used for driving airflow to pass through the evaporator.

Optionally, a sealing elastic member is disposed at an opening edge of the top surface of the evaporation cavity.

According to the technical solution provided by the utility model, the embodiment of the utility model has the following advantage:

in this embodiment, when installing the internal portion of equipment cabinet with the air conditioner, installer accessible elevating gear adjusts the height of evaporation cavity for air conditioner evaporation subassembly can be pushed the bottom installation space of the equipment cabinet body smoothly, then, installer controls elevating gear adjustment evaporation cavity again to suitable height, so that the evaporation cavity pastes air supply outlet and the return air inlet of tight equipment cabinet body bottom, thereby accomplishes the installation. Through foretell design, can make air conditioner evaporation subassembly can be applicable to the equipment cabinet body in not co-altitude installation space for air conditioner evaporation subassembly's application scope is wider.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural view of a liftable air conditioner evaporation assembly provided in an embodiment of the present invention;

fig. 2 is a schematic side view of a liftable air conditioner evaporation assembly provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a lifting device in a liftable air conditioner evaporation assembly provided in an embodiment of the present invention;

fig. 4 is a schematic position view of a first sliding through groove and a second sliding through groove in a liftable air conditioner evaporation assembly provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a bottom frame in a liftable air conditioner evaporation assembly provided in an embodiment of the present invention;

fig. 6 is a schematic structural view of an air conditioner evaporation assembly provided in an embodiment of the present invention, when the air conditioner evaporation assembly is applied to an air conditioner;

illustration of the drawings: a bottom frame 1; a guide beam 101; a first sliding through slot 1011; a mounting ramp 1012; a longitudinal beam 102; a lifting device 2; a drive screw 201; a first support arm 202; a first tip portion 2021; a first bottom end 2022; a second support arm 203; a second tip portion 2031; a second bottom end 2032; a first hinge shaft 204; an evaporation chamber 3; a second sliding through slot 301; an evaporation device 4; an evaporation fan 401; an evaporator 402; a condensing assembly 5; a compressor 6.

Detailed Description

The embodiment of the utility model discloses liftable air conditioner evaporation subassembly for solve the evaporation subassembly in the air conditioner in the current equipment cabinet because unable lift, lead to the technical problem of its equipment cabinet of unable adaptation co-altitude installation space.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 6, an embodiment of the present invention provides a liftable air conditioner evaporation assembly, including:

the bottom frame 1, be connected with elevating gear 2 on the bottom frame 1, elevating gear 2 is connected with evaporation cavity 3, evaporation cavity 3 internally mounted has evaporation plant 4.

The lifting device 2 can drive the evaporation chamber 3 and the evaporation device 4 inside the evaporation chamber 3 to move upward or downward together.

In this embodiment, when installing the internal portion of equipment cabinet with the air conditioner, installer accessible elevating gear 2 adjusts the height of evaporation cavity 3 for air conditioner evaporation subassembly can be pushed the bottom installation space of the equipment cabinet body smoothly, then, installer controls elevating gear 2 again and adjusts evaporation cavity 3 to suitable height, so that evaporation cavity 3 pastes air supply outlet and the return air inlet of tight equipment cabinet body bottom, thereby accomplishes the installation. Through foretell design, can make air conditioner evaporation subassembly can be applicable to the equipment cabinet body of not co-altitude installation space for air conditioner evaporation subassembly's application scope is wider, will evaporate the supply-air outlet and the return air inlet that cavity 3 pasted tight equipment cabinet body bottom in addition through elevating gear 2, can realize bigger wind pressure under the equal evaporation fan 401 rotational speed, is favorable to the internal cold and hot circulation exchange of equipment cabinet.

Further, the evaporation apparatus 4 in this example specifically includes an evaporator 402 and an evaporation fan 401, where the evaporation fan 401 is close to one side of the evaporator 402 and is used for driving an air flow to pass through the evaporator 402.

The evaporation fan 401 is configured to draw an air flow in the equipment cabinet into the evaporator 402 for heat exchange, and blow the air flow after heat exchange into the equipment cabinet, thereby completing heat and cold cycle exchange in the equipment cabinet.

Further, the edge of the opening of the top surface of the evaporation cavity 3 in this embodiment is provided with a sealing elastic member.

It should be noted that, the elastic sealing member in this embodiment may be a silicone sealing strip or a rubber sealing strip, and through the above design, when the evaporation cavity 3 moves upward under the driving of the lifting device 2 and thereby clings to the air supply opening and the air return opening of the equipment cabinet body, the elastic sealing member can prevent the air flow in the equipment cabinet body from leaking, and ensure that the heat and cold circulation exchange in the equipment cabinet body can be performed normally.

Further, the bottom frame 1 in the present embodiment includes a longitudinal beam 102 and a guide beam 101;

the longitudinal beam 102 and the guide beam 101 are connected with each other to form the bottom frame 1, specifically, the bottom frame is a rectangular frame structure, and the guide beam 101 and the longitudinal beam 102 can be connected in a welding manner;

it should be noted that, the frame-type beam profiles are adopted for splicing, and compared with the plate profiles, the material cost can be lower under the same functional effect.

The outer side surface of the guide beam 101 has an installation inclined surface 1012, and the installation inclined surface 1012 is inclined upward from the first end of the guide beam 101 to the second end of the guide beam 101.

Through the design, when the air conditioner evaporation assembly is installed, the installation structure of the bottom frame 1 and the equipment cabinet body can be more stable by means of gravity, and the whole base frame can be locked only by locking one side of the installation inclined plane 1012.

Further, the lifting device 2 in this example has various structural forms, specifically:

the structure form I:

as shown in fig. 2 and 3, the lifting device 2 in the present embodiment may be a scissor type lifting device 2, and specifically, the scissor type lifting device 2 includes:

a first support arm 202 and a second support arm 203, wherein the middle of the first support arm 202 and the middle of the second support arm 203 are hinged to each other to form a scissor-like structure;

the first top end 2021 of the first support arm 202 is hinged to the bottom of the evaporation chamber 3, the second bottom end 2032 of the second support arm 203 is hinged to the first end of the guide beam 101, and the first top end 2021 of the first support arm 202 and the second bottom end 2032 of the second support arm 203 are vertically arranged;

a first hinge shaft 204 is hinged to a first bottom end 2022 of the first support arm 202, the first hinge shaft 204 is slidably connected to the second end of the guide beam 101, a second hinge shaft (not shown in the drawing) is hinged to a second top end 2031 of the second support arm 203, the second hinge shaft is slidably connected to the bottom of the evaporation cavity 3, and the first hinge shaft 204 and the second hinge shaft are vertically arranged;

the second end of the guiding beam 101 is connected with a driving member, the driving member can drive the first hinge shaft 204 to move along the direction of the second bottom end 2032 of the guiding beam 101 close to the second supporting arm 203, so that the second hinge shaft moves synchronously along the direction of the first top end 2021 of the first supporting arm 202, and the evaporation cavity 3 moves upwards along the vertical direction.

In the above structural form, the driving member is a driving screw 201;

as shown in fig. 4, the driving screw 201 is connected to the second end of the guiding beam 101 in a threaded manner, and a rear end of the driving screw 201 abuts against an outer side surface of the first hinge shaft 204.

When the driving screw 201 is driven to move toward the inner direction of the guiding beam 101, the driving screw 201 drives the first hinge shaft 204 to move toward the direction of the second bottom end 2032 of the second supporting arm 203 along the guiding beam 101, so that the second hinge shaft moves toward the first top end 2021 of the first supporting arm 202 synchronously, and the evaporation cavity 3 moves upward along the vertical direction.

It should be noted that, the installer can use a screwdriver or other operation tool to screw the driving screw 201, so that the driving screw 201 moves toward the inner direction of the guiding beam 101 to drive the first hinge shaft 204 to move toward the second bottom end 2032 of the second supporting arm 203.

Further, as shown in fig. 4, a first sliding through slot 1011 is formed at a second end of the guiding beam 101 in the present embodiment, and the first sliding through slot 1011 extends along the length direction of the guiding beam 101;

a second sliding through groove 301 is formed in the bottom of the evaporation cavity 3, the second sliding through groove 301 is located right above the first sliding through groove 1011, and the extending direction of the second sliding through groove 301 is the same as the extending direction of the first sliding through groove 1011;

the first hinge shaft 204 is slidably connected to the first sliding through slot 1011, and the second hinge shaft is slidably connected to the second sliding through slot 301.

It should be noted that, by designing the first sliding through groove 1011 on the guide beam 101, the first hinge shaft 204 can be smoothly and stably moved, and the first sliding through groove 1011 also has a limiting effect on the first hinge shaft 204, so as to ensure that the first hinge shaft 204 does not deviate when sliding. Similarly, a second sliding through groove is provided at the bottom of the evaporation cavity 3, both for the purpose of making the second hinge shaft smooth and stable when moving and for ensuring that the second hinge shaft does not deviate when sliding.

Structural form two

Besides the first structural form, the lifting device 2 in the present embodiment may also adopt other structures, specifically, the lifting device 2 includes a lifting screw and a rotating handle connected to the lifting screw;

the lifting screw is rotatably connected to the bottom frame 1, the evaporation cavity 3 is connected with a nut, the nut is in threaded connection with the lifting screw, and the rotating handle can drive the lifting screw to rotate so that the evaporation cavity 3 can lift along the lifting screw.

It should be noted that, when the installer needs to lift the evaporation cavity 3, the installer can rotate the handle to drive the lifting screw to rotate relative to the base frame, so that the evaporation cavity 3 can lift along the lifting screw.

Structural form three

Besides the above two modes, the lifting device 2 in this embodiment may also be a jacking cylinder or a hydraulic cylinder;

the jacking cylinder or the hydraulic cylinder is fixedly arranged on the bottom frame 1, and a piston rod of the jacking cylinder or the hydraulic cylinder is connected with the bottom of the evaporation cavity 3.

It should be noted that, when the installer needs to lift the evaporation cavity 3, the installer can directly drive the evaporation cavity 3 to lift by controlling the jacking cylinder or the hydraulic cylinder.

Further, the lifting device 2 in this embodiment may also adopt other structural forms, which are not described one by one in this embodiment.

Further, the liftable air conditioner evaporation assembly in this embodiment is specifically applied to an air conditioner, and when the liftable air conditioner evaporation assembly is applied to an air conditioner, the condensation assembly 5 and the compressor 6 in the air conditioner are both installed on the bottom frame 1, and the evaporation device 4 in this embodiment is connected with the compressor 6 and the condensation assembly 5 through refrigerant pipelines.

It is right above the utility model provides a liftable air conditioner evaporation subassembly introduces in detail, to the general technical personnel in this field, the foundation the utility model discloses the thought of embodiment all has the change part on concrete implementation and application scope, to sum up, this specification content should not be understood as right the utility model discloses a restriction.

Claims (10)

1. The liftable air conditioner evaporation assembly is characterized by comprising a bottom frame, wherein the bottom frame is connected with a lifting device, the lifting device is connected with an evaporation cavity, and an evaporation device is arranged in the evaporation cavity.

2. The liftable air conditioning evaporation assembly of claim 1, wherein the bottom frame comprises a longitudinal beam and a guide beam;

the longitudinal beam and the guide cross beam are mutually connected to form the bottom frame;

the outer side surface of the guide cross beam is provided with an installation inclined surface, and the installation inclined surface gradually inclines upwards from the first end part of the guide cross beam to the second end part of the guide cross beam.

3. A liftable air conditioning evaporator assembly according to claim 2, wherein the lifting means is a scissor type lifting means;

the scissor type lifting device comprises a first supporting arm and a second supporting arm, wherein the middle part of the first supporting arm and the middle part of the second supporting arm are hinged with each other to form a scissor-shaped structure, the first top end part of the first supporting arm is hinged with the bottom of the evaporation cavity, the second bottom end part of the second supporting arm is hinged with the first end part of the guide cross beam, and the first top end part of the first supporting arm and the second bottom end part of the second supporting arm are vertically arranged;

a first articulated shaft is articulated at the first bottom end part of the first supporting arm, the first articulated shaft is connected to the second end part of the guide cross beam in a sliding manner, a second articulated shaft is articulated at the second top end part of the second supporting arm, the second articulated shaft is connected to the bottom of the evaporation cavity in a sliding manner, and the first articulated shaft and the second articulated shaft are vertically arranged;

the second end of guiding beam is connected with the driving piece, the driving piece can drive first articulated shaft is followed guiding beam is toward the second bottom portion direction removal that is close to the second support arm, so that the direction synchronous motion of the first top portion of first support arm is followed to the second articulated shaft, and then makes evaporation cavity moves along vertical direction rebound.

4. A liftable air conditioning evaporation assembly according to claim 3, wherein the driving member is a drive screw;

the driving screw is in threaded connection with the second end part of the guide cross beam, the tail end part of the driving screw is abutted to the outer side surface of the first hinged shaft, and when the driving screw is driven to move towards the inner direction of the guide cross beam, the driving screw drives the first hinged shaft to move along the direction of the guide cross beam towards the second bottom end part close to the second support arm, so that the second hinged shaft moves towards the direction of the first top end part of the first support arm synchronously, and the evaporation cavity moves upwards along the vertical direction.

5. The liftable air conditioner evaporation assembly of claim 3, wherein the second end of the guide beam is provided with a first sliding through groove, and the first sliding through groove extends along the length direction of the guide beam;

a second sliding through groove is formed in the bottom of the evaporation cavity and is located right above the first sliding through groove, and the extending direction of the second sliding through groove is the same as that of the first sliding through groove;

first articulated shaft sliding connection in first slip logical groove, second articulated shaft sliding connection in second slip logical groove.

6. The liftable air conditioner evaporation assembly of claim 1, wherein the lifting device comprises a lifting screw and a rotating handle connected with the lifting screw;

the lifting screw is rotatably connected to the bottom frame, the evaporation cavity is connected with a nut, the nut is in threaded connection with the lifting screw, and the rotating handle can drive the lifting screw to rotate so that the evaporation cavity can lift along the lifting screw.

7. The liftable air conditioner evaporation assembly of claim 1, wherein the lifting device is a jacking cylinder;

the jacking cylinder is fixedly arranged on the bottom frame, and a piston rod of the jacking cylinder is connected with the bottom of the evaporation cavity.

8. A liftable air conditioning evaporator assembly according to claim 1, wherein the lifting means is a hydraulic cylinder;

the hydraulic cylinder is fixedly arranged on the bottom frame, and a piston rod of the hydraulic cylinder is connected with the bottom of the evaporation cavity.

9. A liftable air conditioning evaporation assembly according to claim 1, wherein the evaporation assembly comprises an evaporator and an evaporation fan;

the evaporation fan is close to one side of the evaporator and used for driving airflow to pass through the evaporator.

10. The liftable air conditioner evaporation assembly of claim 1, wherein a sealing elastic member is arranged at the edge of the opening of the top surface of the evaporation cavity.

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