CN219337778U - Industrial machine device based on carbon reaching peak - Google Patents

Abstract

The utility model discloses an industrial machine device based on a carbon peak, which belongs to the field of industrial robots and comprises a control box, wherein a trigger switch is fixedly arranged on the upper wall of the control box, a plunger is arranged on the front surface of the trigger switch, an air bag is adhered to one side of the plunger, which is far away from the trigger switch, a cooling fan is fixedly arranged on the outer side of the control box, a rotating mechanism is arranged on the inner side of the control box, a wind distribution disc connected with the rotating mechanism is arranged in the control box, a horizontal cylinder is sleeved on the outer side of the plunger, a linoleum is further embedded and arranged on the outer side of the plunger, an air inlet pipe is fixedly arranged at the output end of the cooling fan, and an air duct is fixedly arranged at one end of the air inlet pipe, which is far away from the cooling fan, so that the industrial machine device can realize non-toxic gas emission in the maintenance process, and reduce the damage to the health of maintenance personnel, and improve the maintenance safety of the industrial machine device.

Description

Industrial machine device based on carbon reaching peak

Technical Field

The utility model relates to the field of industrial robots, in particular to an industrial machine device based on a carbon peak.

Background

The industrial robot is a multi-joint manipulator or a multi-degree-of-freedom robot, the internal electric elements are mainly concentrated in a control box, a large amount of heat is emitted during operation, the temperature rise causes the resistance to increase, the realization of a carbon peak is not facilitated, the heat is usually emitted through a fan, the industrial robot is subjected to heat emission, patent search finds that, chinese patent publication No. CN114193479A discloses an energy-saving environment-friendly industrial robot device based on the carbon peak, the industrial robot device comprises a heat emission component, a driving motor is arranged in the heat emission component, an output shaft of the driving motor is fixedly connected with a driving disc, the outer wall of the driving disc is slidably connected with a movable frame, the bottom of the movable frame is fixedly connected with a sliding sleeve, the inside of the sliding sleeve is fixedly connected with a heat emission motor, the output shaft of the heat emission motor is fixedly connected with a heat emission fan, a triggering component is further arranged in the triggering component, a heat conducting plate is arranged in the bottom of the triggering component, mercury is arranged in the heat conducting plate, a piston is slidably connected with a supporting spring in the top of the piston, and a button is fixedly connected with the top of the heat conducting plate, although the mercury absorbs the heat in the shell, the piston triggers the button, the motor and the driving motor is in a driving mode of triggering the piston, the heat emission of the heat emission is reduced, the heat emission is not required, and the energy consumption is reduced, and the energy is not reduced, and the energy consumption is reduced and can be consumed by the heat emission and is reduced;

however, the problem that the existing industrial machine device is low in maintenance safety due to the fact that mercury is exposed during maintenance is solved, the heat is absorbed through mercury, triggered heat dissipation is carried out, and in the maintenance process of the device, the aged and worn piston is overhauled, and the piston needs to be opened, so that the mercury is exposed in the air and volatilized easily, the body health of maintenance personnel is damaged, and the industrial machine device is low in maintenance safety due to the fact that the mercury is exposed during maintenance is solved.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide an industrial machine device based on a carbon peak, which can realize non-toxic gas emission in the maintenance process, reduce the harm to the health of maintenance personnel and improve the maintenance safety of the industrial machine device.

2. Technical proposal

In order to solve the problems, the utility model adopts the following technical scheme.

The utility model provides an industrial machinery device based on carbon reaches peak, includes the control box, the upper wall fixed mounting of control box has trigger type switch, trigger type switch's front is provided with the plunger, one side that trigger type switch was kept away from to the plunger bonds there is the gasbag, the outside fixed mounting of control box has the cooling fan, the inboard of control box is provided with rotary mechanism, the inside wind distribution dish that is connected with rotary mechanism that is provided with of control box.

Further, the outside of plunger cup joints the horizontal cylinder, the outside of plunger still inserts and installs the felt.

Further, an air inlet pipe is fixedly arranged at the output end of the heat radiation fan, and an air duct is fixedly arranged at one end, far away from the heat radiation fan, of the air inlet pipe.

Further, rotary mechanism includes fixed mounting in the middle of wind distribution dish one side hard tube, the one end of hard tube extends the control box inside and welds a plurality of flabellums, and is a plurality of the flabellum distributes along circumference array, and a plurality of the flabellum all sets up inside the air duct.

Further, one side of the air distribution disc is fixedly provided with a radiating pipe with a snakelike structure, the air inlet end of the radiating pipe is fixedly connected to one end of the hard pipe, and the air outlet end of the radiating pipe is rotatably connected to the air outlet pipe.

Furthermore, a gap is reserved between the fan blade and the inner wall of the air duct, and one end of the air outlet pipe is coaxial with the hard pipe.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) This scheme is when realizing that carbon reaches peak target, the inside hot air of control box wafts upwards, the carbon dioxide in the heating gasbag, the gasbag inflation promotes the plunger and compresses tightly trigger formula switch, trigger formula switch closure, start radiator fan, dispel the heat to the control box inside, the temperature of order electric component falls, the consumption that reduces, thereby realize carbon and reach peak target, and when maintaining industrial machine device, unpack the control box, can be at the maintenance in-process innocuous gas gives off, reduce the injury that causes maintenance personal health, in order to improve the security of industrial machine device maintenance.

(2) This scheme is when the air-supply line is when carrying cold wind to the air duct inside, and cold wind blows on the flabellum for the flabellum promotes the hard tube rotatory, and drives the wind distribution dish and rotate, and cold wind has the heat of wind distribution dish simultaneously, forms the heat absorption area, and rotatory a plurality of electric elements of skipping through the heat absorption area can carry out rotation type heat absorption, reduces the empty window period of heat absorption.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 2B according to the present utility model.

The reference numerals in the figures illustrate:

1. a control box; 2. a trigger switch; 3. a plunger; 4. an air bag; 5. a heat radiation fan; 6. an air distribution disc; 7. a horizontal cylinder; 8. a linoleum; 9. an air inlet pipe; 10. an air duct; 11. a hard tube; 12. a fan blade; 13. a heat radiating pipe; 14. and an air outlet pipe.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Examples:

referring to fig. 1-4, an industrial machine device based on a peak of carbon arrival comprises a control box 1, wherein a main board and a plurality of electric elements arranged on the main board are fixedly arranged in the control box 1, the technical scheme is that in the prior art, a trigger switch 2 is not shown in the drawing, the upper wall of the control box 1 is fixedly provided with the trigger switch 2, the trigger switch 2 is formed by electric coupling of a relay and a capacitor, the front surface of the trigger switch 2 is provided with a plunger 3, one side of the plunger 3 far away from the trigger switch 2 is adhered with an air bag 4, sufficient carbon dioxide is filled in the air bag 4, the air bag is heated and expandable, a heat dissipation fan 5 is fixedly arranged at the outer side of the control box 1, the heat dissipation fan 5 is electrically connected with the trigger switch 2, a rotating mechanism is arranged at the inner side of the control box 1, a wind distribution disc 6 connected with the rotating mechanism is arranged at the inner side of the control box 1, the control box 1 can be used for controlling an industrial robot with model KR16arcHW, when the industrial robot works, a plurality of electric elements generate heat due to self power consumption to cause the temperature inside the control box 1 to rise, when the peak carbon goal is achieved, hot air inside the control box 1 floats upwards, carbon dioxide in the air bag 4 is heated, the air bag 4 expands and pushes the plunger 3 to compress the trigger switch 2, the trigger switch 2 is closed, the heat dissipation fan 5 is started, the heat dissipation fan 5 transmits cold air into the control box 1 and distributes the cold air along the air distribution disc 6, the heat dissipation is carried out inside the control box 1, the temperature of the electric elements is reduced to reduce the power consumption, thereby achieving the peak carbon goal, when the industrial robot device is maintained, the control box 1 is disassembled for maintenance, the plunger 3 or the air bag 4 is replaced, nontoxic gas emission in the maintenance process can be reduced, and the damage to the health of maintenance personnel is reduced, to improve the safety of maintenance of the industrial machine.

Referring to fig. 2 and 3, the outside of plunger 3 has cup jointed horizontal cylinder 7, and the felt 8 is still installed in the embedding in the outside of plunger 3, has absorbed a sufficient quantity of lubricating oil on the felt 8, carries out spacingly through horizontal cylinder 7, and when making things convenient for plunger 3 to be promoted by gasbag 4, is close to trigger switch 2 perpendicularly to smear lubricating oil with felt 8, lubricate horizontal cylinder 7 inner wall, make things convenient for plunger 3 to slide.

Referring to fig. 2 and 4, the output end of the heat dissipation fan 5 is fixedly provided with an air inlet pipe 9, one end of the air inlet pipe 9 away from the heat dissipation fan 5 is fixedly provided with an air duct 10, the opening of the air duct 10 is communicated with the inside of the control box 1, cold air blown out by the heat dissipation fan 5 enters the air duct 10 along the air inlet pipe 9, is drained through the air duct 10, reaches the middle of one side of the air distribution disc 6, and is circumferentially distributed again, so that the heat dissipation area is conveniently enlarged.

Referring to fig. 2 and 4, the rotary mechanism includes a hard tube 11 fixedly installed in the middle of one side of the air distribution disc 6, the outside of the hard tube 11 is rotationally connected to one side of the control box 1 through a sealing bearing, one end of the hard tube 11 extends out of the control box 1 and is welded with a plurality of fan blades 12, the fan blades 12 are distributed along a circumferential array, circumferential air receiving can be achieved, the fan blades 12 are all arranged in the air guide tube 10, gaps are reserved between the fan blades 12 and the inner wall of the air guide tube 10, friction of the inner wall of the air guide tube 10 is avoided, when the air inlet tube 9 conveys cold air in the air guide tube 10, cold air blows on the fan blades 12, the fan blades 12 push the hard tube 11 to rotate and drive the air distribution disc 6 to rotate, meanwhile, the cold air has heat of the air distribution disc 6 to absorb heat, a plurality of electric elements are skipped through rotation of the heat absorption area, and the rotary type air guide tube can be achieved, and the air inlet window period is reduced.

Referring to fig. 1 and 2, a heat dissipation pipe 13 with a serpentine structure is fixedly installed on one side of a wind distribution disc 6, so that the gravity centers of the wind distribution disc 6 and the heat dissipation pipe 13 conveniently fall on the central axis of a hard pipe 11, the air inlet end of the heat dissipation pipe 13 is fixedly connected to one end of the hard pipe 11 through a connector, the air outlet end of the heat dissipation pipe 13 is rotatably connected to an air outlet pipe 14 through a rotary connector, one end of the air outlet pipe 14 is coaxial with the hard pipe 11, the amplitude of jumping during rotation is reduced, cold wind flows in the heat dissipation pipe 13 and rotates along with the wind distribution disc 6 and then flows out along the air outlet pipe 14, when the internal temperature of a control box 1 falls to a certain range, an air bag 4 is contracted, a trigger switch 2 is not extruded any more, the trigger switch 2 is disconnected, and the heat dissipation fan 5 is enabled to sleep, so that energy conservation and emission reduction are facilitated.

Working principle: when the peak goal of carbon reaching is achieved, the hot air in the control box 1 floats upwards, the carbon dioxide in the air bag 4 is heated, the air bag 4 expands and pushes the plunger 3 to press the trigger switch 2, the trigger switch 2 is closed, the heat dissipation fan 5 is started, cold air is conveyed to the control box 1 by the heat dissipation fan 5, the cold air enters the air duct 10 along the air inlet pipe 9, is guided by the air duct 10 and is dispersed along the air distribution disc 6, when the cold air is conveyed to the air duct 10 through the air inlet pipe 9, the cold air blows on the fan blades 12, the fan blades 12 push the hard pipe 11 to rotate and drive the air distribution disc 6 to rotate, meanwhile, the cold air is provided with the heat of the air distribution disc 6 to form a heat absorption area, a plurality of electricity utilization elements are skipped through the rotation of the heat absorption area, the rotation of the heat absorption area can absorb heat, the heat absorption air window period is reduced, the heat dissipation is carried out in the control box 1, the temperature of the electricity utilization elements is reduced, and the power consumption is reduced, so that the peak goal of carbon reaching is achieved.

The above description is only of the preferred embodiments of the present utility model; the scope of the utility model is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present utility model, and the technical solution and the improvement thereof are all covered by the protection scope of the present utility model.

Claims (6)

1. Industrial machine device based on carbon reaches peak, including control box (1), its characterized in that: the automatic control device is characterized in that a trigger switch (2) is fixedly arranged on the upper wall of the control box (1), a plunger (3) is arranged on the front face of the trigger switch (2), an air bag (4) is adhered to one side, far away from the trigger switch (2), of the plunger (3), a heat radiation fan (5) is fixedly arranged on the outer side of the control box (1), a rotating mechanism is arranged on the inner side of the control box (1), and an air distribution disc (6) connected with the rotating mechanism is arranged inside the control box (1).

2. An industrial machine based on a carbon peak according to claim 1, wherein: the outside of plunger (3) has cup jointed horizontal cylinder (7), the outside of plunger (3) is still embedded to install asphalt felt (8).

3. An industrial machine based on a carbon peak according to claim 1, wherein: an air inlet pipe (9) is fixedly arranged at the output end of the heat radiation fan (5), and an air duct (10) is fixedly arranged at one end, far away from the heat radiation fan (5), of the air inlet pipe (9).

4. A peak-on-carbon industrial machine according to claim 3, wherein: the rotary mechanism comprises a hard pipe (11) fixedly installed in the middle of one side of the air distribution disc (6), one end of the hard pipe (11) extends out of the control box (1) and is welded with a plurality of fan blades (12), the fan blades (12) are distributed along a circumferential array, and the fan blades (12) are all arranged in the air duct (10).

5. An industrial machine based on a carbon peak according to claim 4, wherein: one side of the air distribution disc (6) is fixedly provided with a radiating pipe (13) with a snakelike structure, the air inlet end of the radiating pipe (13) is fixedly connected with one end of the hard pipe (11), and the air outlet end of the radiating pipe (13) is rotatably connected with an air outlet pipe (14).

6. An industrial machine based on a peak of carbon according to claim 5, wherein: a gap is reserved between the fan blades (12) and the inner wall of the air duct (10), and one end of the air outlet pipe (14) is coaxial with the hard pipe (11).

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