CN220629925U - Cooling device for control cabinet of injection molding manipulator - Google Patents

Abstract

The utility model provides a manipulator switch board heat sink moulds plastics, includes the manipulator of moulding plastics, the manipulator of moulding plastics includes switch board, horizontal arm, perpendicular arm, draws and pulls arm and base, base connection horizontal arm, switch board, horizontal arm connects perpendicular arm, the switch board includes solenoid valve, vortex refrigerator, condenser, evaporimeter, filter, exhaust fan, sucking disc and vacuum generator, the sucking disc is connected to the solenoid valve, the vacuum generator is connected to the sucking disc, filter, evaporimeter, vortex refrigerator are connected to the vacuum generator, vortex refrigerator connects the condenser; the utility model leads the compressed air at the cold end of the vortex refrigerator to the evaporator, so that the evaporator cools the air at the air inlet of the control cabinet, and then the cooled air is sent into the control cabinet by the first exhaust fan of the air inlet to form cold air; through the wind sweeping device on the air inlet exhaust fan, cold air can be uniformly sent to each corner in the control cabinet, so that heating electrical equipment is effectively cooled.

Description

Cooling device for control cabinet of injection molding manipulator

Technical Field

The utility model relates to the technical field of cooling, in particular to a cooling device of an injection molding manipulator control cabinet.

Background

In order to timely take away heat generated by heating electrical equipment in the control cabinet of the injection molding manipulator, an exhaust fan for supplying air to the interior of the cabinet is arranged below one side panel of the control cabinet, and an exhaust fan for exhausting air to the exterior of the cabinet is arranged above the other side panel, so that ventilation in the cabinet is enhanced, and heat dissipation and cooling of the electrical equipment in the cabinet are realized. However, the injection molding manipulator control cabinet is generally installed on the upright post of the injection molding manipulator base, the injection molding machine is arranged below the injection molding manipulator control cabinet, a large amount of heat energy can be generated in the production process of the injection molding machine, surrounding air is heated to a higher temperature, and the hot air moves upwards to the periphery of the injection molding manipulator, so that air at an air inlet of the injection molding manipulator control cabinet is hot air, and air in the control cabinet fed by an exhaust fan is hot air, so that the heat dissipation and cooling effects of electrical equipment are affected.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model aims to provide the cooling device for the injection molding manipulator control cabinet, which is used for realizing cooling control on air at an air inlet of the injection molding manipulator control cabinet, so that the air fed into the control cabinet by the exhaust fan is cold air.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a manipulator switch board heat sink moulds plastics, includes the manipulator of moulding plastics, the manipulator of moulding plastics includes switch board, walk the arm, perpendicular arm, draws and pulls arm and base, base connection walk the arm, switch board, walk the arm and connect perpendicular arm, the switch board includes solenoid valve, vortex refrigerator, condenser, evaporimeter, filter, exhaust fan, sucking disc and vacuum generator, the sucking disc is connected to the solenoid valve, vacuum generator is connected to the sucking disc, filter, evaporimeter, vortex refrigerator are connected to vacuum generator, the condenser is connected to vortex refrigerator.

As a further improvement of the utility model: the transverse arm is connected with the drawing arm through a wire rail and a sliding block.

As a further improvement of the utility model: the vertical arm is connected and installed on the side face of the drawing arm through a wire rail and a sliding block.

As a further improvement of the utility model: the vertical arm is connected with the main arm and the auxiliary arm.

As a further improvement of the utility model: the sucking disc is used for sucking the injection molding piece through negative pressure generated by introducing compressed air into the vacuum generator.

As a further improvement of the utility model: the electromagnetic valve controls the sucker through an execution instruction sent by the controller.

As a further improvement of the utility model: and an air outlet at one end of the vortex refrigerator is connected with the condenser.

As a further improvement of the utility model: the condenser is connected with a filter.

As a further improvement of the utility model: and an air outlet at the other end of the vortex refrigerator is connected with an evaporator.

As a further improvement of the utility model: the exhaust fan comprises a first exhaust fan and a second exhaust fan, the first exhaust fan is located at an air inlet at the upper left side of the control cabinet, and the second exhaust fan is located at an air outlet at the upper right side of the control cabinet.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model leads the compressed air at the cold end of the vortex refrigerator to the evaporator, so that the evaporator cools the air at the air inlet of the control cabinet, the cooled air is sent into the control cabinet by the first exhaust fan of the air inlet to form cold air, and the second exhaust fan of the air outlet of the control cabinet draws air to the outside of the cabinet to enhance the air convection in the cabinet, thereby improving the heat dissipation and cooling effects of electrical equipment, and the cooled compressed air after passing through the evaporator is changed into normal-temperature compressed air; the compressed air at the hot air end of the vortex refrigerator is led to the air cooler, heat is released, normal-temperature compressed air is obtained, and the pressure of the compressed air is reduced after the two paths of compressed air are converged; the cold air can be uniformly sent to each corner in the control cabinet through the air sweeping device on the air inlet exhaust fan, so that heating electrical equipment is effectively cooled; the cooling regulation of air at the air inlet of the injection molding manipulator control cabinet is realized, so that the air fed into the control cabinet by the exhaust fan is cold air, and the cooling effect of the electric equipment is enhanced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of a control cabinet of the present utility model;

FIG. 3 is a right side view of the control cabinet of the present utility model;

FIG. 4 is a schematic view of the bottom view of the control cabinet of the present utility model;

FIG. 5 is a schematic flow diagram of a control cabinet according to the present utility model;

in the figure: 1. a control cabinet; 2. a traversing arm; 3. a vertical arm; 6. an electromagnetic valve; 7. a vortex refrigerator; 10. a filter; 12. a suction cup; 13. a vacuum generator; 14. a main arm; 15. a secondary arm; 16. a first exhaust fan; 17. and a second exhaust fan.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It is noted that the terms "comprises" and "comprising," and any variations thereof, in the description and claims of the present utility model and in the foregoing figures, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; may be a mechanical connection; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

The utility model will now be further described with reference to the accompanying drawings and examples: the cooling device for the control cabinet of the injection molding manipulator comprises an injection molding manipulator, wherein the injection molding manipulator comprises a control cabinet 1, a traversing arm 2, a vertical arm 3, a drawing arm and a base 5, the base 5 is connected with the traversing arm 2 and the control cabinet 1, the traversing arm 2 is connected with the vertical arm 3, the control cabinet 1 comprises an electromagnetic valve 6, an eddy current refrigerator 7, a condenser, an evaporator, a filter 10, an exhaust fan 11, a sucker 12 and a vacuum generator 13, the electromagnetic valve 6 is connected with the sucker 12, the sucker 12 is connected with the vacuum generator 13, the vacuum generator 13 is connected with the filter 10 and the evaporator, the eddy current refrigerator 7 is connected with the condenser.

In a preferred embodiment, the traverse arm 2 is connected with the pulling arm through a wire rail and a sliding block.

As a preferred embodiment, the vertical arm 3 is mounted on the side of the pulling arm by means of a wire rail, a slider connection.

As a preferred embodiment, the vertical arm 3 is connected to a main arm 14 and a sub arm 15.

As a preferred embodiment, the suction cup 12 is supplied with compressed air via a vacuum generator 13 to produce a negative pressure suction injection-molded part.

As a preferred embodiment, the electromagnetic valve 6 controls the suction cup 12 through an execution command sent by the controller.

As a preferred embodiment, an air outlet at one end of the vortex refrigerator 7 is connected with a condenser.

As a preferred embodiment, the condenser is connected to the filter 10.

As a preferred embodiment, the air outlet at the other end of the vortex refrigerator 7 is connected with an evaporator.

As a preferred embodiment, the exhaust fans include a first exhaust fan 16 and a second exhaust fan 17, where the first exhaust fan 16 is located at an air inlet at the upper left side of the control cabinet, and the second exhaust fan 17 is located at an air outlet at the upper right side of the control cabinet.

The working principle of the utility model is as follows:

the utility model leads the compressed air at the cold end of the vortex refrigerator to the evaporator, so that the evaporator cools the air at the air inlet of the control cabinet, the cooled air is sent into the control cabinet by the first exhaust fan of the air inlet to form cold air, and the second exhaust fan of the air outlet of the control cabinet draws air to the outside of the cabinet to enhance the air convection in the cabinet, thereby improving the heat dissipation and cooling effects of electrical equipment, and the cooled compressed air after passing through the evaporator is changed into normal-temperature compressed air; the compressed air at the hot air end of the vortex refrigerator is led to the air cooler, heat is released, normal-temperature compressed air is obtained, and the pressure of the compressed air is reduced after the two paths of compressed air are converged; through the wind sweeping device on the air inlet exhaust fan, cold air can be uniformly sent to each corner in the control cabinet, so that heating electrical equipment is effectively cooled.

Embodiment case one:

the cooling device for the control cabinet of the injection molding manipulator comprises an injection molding manipulator, wherein the injection molding manipulator comprises a control cabinet 1, a traversing arm 2, a vertical arm 3, a drawing arm and a base 5, the base 5 is connected with the traversing arm 2 and the control cabinet 1, the traversing arm 2 is connected with the vertical arm 3, the control cabinet 1 comprises an electromagnetic valve 6, an eddy current refrigerator 7, a condenser, an evaporator, a filter 10, an exhaust fan 11, a sucker 12 and a vacuum generator 13, the electromagnetic valve 6 is connected with the sucker 12, the sucker 12 is connected with the vacuum generator 13, the vacuum generator 13 is connected with the filter 10 and the evaporator, the eddy current refrigerator 7 is connected with the condenser.

The horizontal arm 2 is connected with the drawing arm through a wire rail and a sliding block, the vertical arm 3 is connected with the side face of the drawing arm through the wire rail and the sliding block, the vertical arm 3 is connected with the main arm 14 and the auxiliary arm 15, the sucker 12 is used for generating negative pressure to suck injection molding through compressed air introduced by the vacuum generator 13, the electromagnetic valve 6 is used for controlling the sucker 12 through an execution instruction sent by the controller, one end air outlet of the vortex refrigerator 7 is connected with the condenser, the condenser is connected with the filter 10, the other end air outlet of the vortex refrigerator 7 is connected with the evaporator, the exhaust fan comprises a first exhaust fan 16 and a second exhaust fan 17, the first exhaust fan 16 is positioned at an air inlet above the left side of the control cabinet, and the second exhaust fan 17 is positioned at an air outlet above the right side of the control cabinet.

The injection molding manipulator of this embodiment mainly contains base 5, switch board 1, walk arm 2, perpendicular arm 3, draw arm, master arm 14 and auxiliary arm 15 main assembly, base 5 is used for fixing injection molding manipulator above the injection molding machine cooperation injection molding machine equipment substitution people's action and gets a operation, switch board 1 installs on the stand of injection molding manipulator base 5, the crossbeam of the top of base 5 is walk arm 2, draw arm passes through the line rail, the slider is connected to be installed in walk arm top, perpendicular arm 3 passes through the line rail, slider is connected to be installed in draw arm's side.

Implementation case two:

the cooling device for the control cabinet of the injection molding manipulator comprises an injection molding manipulator, wherein the injection molding manipulator comprises a control cabinet 1, a traversing arm 2, a vertical arm 3, a drawing arm and a base 5, the base 5 is connected with the traversing arm 2 and the control cabinet 1, the traversing arm 2 is connected with the vertical arm 3, the control cabinet 1 comprises an electromagnetic valve 6, an eddy current refrigerator 7, a condenser, an evaporator, a filter 10, an exhaust fan 11, a sucker 12 and a vacuum generator 13, the electromagnetic valve 6 is connected with the sucker 12, the sucker 12 is connected with the vacuum generator 13, the vacuum generator 13 is connected with the filter 10 and the evaporator, the eddy current refrigerator 7 is connected with the condenser.

The horizontal arm 2 is connected with the drawing arm through a wire rail and a sliding block, the vertical arm 3 is connected with the side face of the drawing arm through the wire rail and the sliding block, the vertical arm 3 is connected with the main arm 14 and the auxiliary arm 15, the sucker 12 is used for generating negative pressure to suck injection molding through compressed air introduced by the vacuum generator 13, the electromagnetic valve 6 is used for controlling the sucker 12 through an execution instruction sent by the controller, one end air outlet of the vortex refrigerator 7 is connected with the condenser, the condenser is connected with the filter 10, the other end air outlet of the vortex refrigerator 7 is connected with the evaporator, the exhaust fan comprises a first exhaust fan 16 and a second exhaust fan 17, the first exhaust fan 16 is positioned at an air inlet above the left side of the control cabinet, and the second exhaust fan 17 is positioned at an air outlet above the right side of the control cabinet.

The air path of the cooling device of the control cabinet 1 mainly comprises an electromagnetic valve 6, an eddy current refrigerator 7, a condenser, an evaporator, a filter 10, an exhaust fan, a sucker 12 and a vacuum generator 13. The sucker 12 utilizes the vacuum generator 13 to charge compressed air to generate negative pressure so as to suck injection molding pieces, the electromagnetic valve 6 is used for controlling the sucker 12 to take the required compressed air according to the execution instruction of the controller, namely, when the taking is required, the electromagnetic valve 6 is powered on by the output of the controller, the electromagnetic valve 6 is opened, the compressed air flows through the vortex refrigerator 7, the air outlet at one end of the vortex refrigerator 7 generates hot compressed air, the hot compressed air flows through the condenser 8, the compressed air releases heat, the temperature is reduced, the compressed air at room temperature is obtained, and the moisture in the compressed air is filtered through the filter 10 so as to obtain the compressed air; the other end of the vortex refrigerator 7 generates cold compressed air at the air outlet, the cold compressed air flows into an evaporator arranged at an air inlet at the lower left side of the control cabinet 1, the evaporator absorbs heat to obtain the compressed air at room temperature, and the compressed air is converged into a vacuum generator 13 to generate suction and acts on a sucker 12 to finish taking a piece.

When the evaporator absorbs heat, the air at the air inlet of the control cabinet 1 is cooled to form cold air, the cold air at the air inlet is fed into the control cabinet 1 by the first exhaust fan 16, the second exhaust fan 17 is positioned at the upper right side of the control cabinet 1, and the air exhaust is used for exhausting air outside the control cabinet 1, so that the control cabinet 1 forms cold air flow by the air supply of the first exhaust fan 16 and the air exhaust of the exhaust fan 2, and meanwhile, the air sweeping device of the first exhaust fan 16 sweeps air up and down, so that the cold air can be uniformly distributed in the control cabinet, and the heat dissipation and cooling effects of heating electrical equipment are improved.

The main functions of the utility model are as follows:

the utility model leads the compressed air at the cold end of the vortex refrigerator to the evaporator, so that the evaporator cools the air at the air inlet of the control cabinet, the cooled air is sent into the control cabinet by the first exhaust fan of the air inlet to form cold air, and the second exhaust fan of the air outlet of the control cabinet draws air to the outside of the cabinet to enhance the air convection in the cabinet, thereby improving the heat dissipation and cooling effects of electrical equipment, and the cooled compressed air after passing through the evaporator is changed into normal-temperature compressed air; the compressed air at the hot air end of the vortex refrigerator is led to the air cooler, heat is released, normal-temperature compressed air is obtained, and the pressure of the compressed air is reduced after the two paths of compressed air are converged; through the wind sweeping device on the air inlet exhaust fan, cold air can be uniformly sent to each corner in the control cabinet, so that heating electrical equipment is effectively cooled.

In view of the above, after reading the present document, those skilled in the art should make various other corresponding changes without creative mental effort according to the technical scheme and the technical conception of the present utility model, which are all within the scope of the present utility model.

Claims (10)

1. The utility model provides a manipulator switch board heat sink moulds plastics, its characterized in that, including the manipulator of moulding plastics, the manipulator of moulding plastics includes switch board, walk by arm, perpendicular arm, draws and pulls arm and base, base connection walk by arm, switch board, walk by arm and connect perpendicular arm, the switch board includes solenoid valve, vortex refrigerator, condenser, evaporimeter, filter, exhaust fan, sucking disc and vacuum generator, the sucking disc is connected to the solenoid valve, vacuum generator connects vacuum generator, filter, evaporimeter are connected to vacuum generator, vortex refrigerator connects the condenser.

2. The cooling device for the control cabinet of the injection molding machine according to claim 1, wherein the traverse arm is connected with the drawing arm through a wire rail and a sliding block.

3. The cooling device for the control cabinet of the injection molding machine according to claim 2, wherein the vertical arm is connected and installed on the side surface of the drawing arm through a wire rail and a sliding block.

4. The cooling device for an injection molding manipulator control cabinet of claim 1, wherein the vertical arm is connected to the main arm and the auxiliary arm.

5. The cooling device for the control cabinet of the injection molding machine according to claim 1, wherein the sucking disc is used for sucking the injection molding by introducing compressed air through the vacuum generator to generate negative pressure.

6. The cooling device for the control cabinet of the injection molding machine according to claim 1, wherein the electromagnetic valve controls the sucker through an execution instruction sent by the controller.

7. The cooling device for an injection molding manipulator control cabinet of claim 1, wherein an air outlet at one end of the vortex refrigerator is connected with a condenser.

8. The cooling device for an injection molding machine control cabinet of claim 1, wherein the condenser is coupled to the filter.

9. The cooling device for the control cabinet of the injection molding machine according to claim 1, wherein an air outlet at the other end of the vortex refrigerator is connected with an evaporator.

10. The cooling device for the control cabinet of the injection molding manipulator according to claim 1, wherein the exhaust fan comprises a first exhaust fan and a second exhaust fan, the first exhaust fan is located at an air inlet at the upper left side of the control cabinet, and the second exhaust fan is located at an air outlet at the upper right side of the control cabinet.