CN115064971B - Electric automatization's multi-functional low-voltage distribution cabinet - Google Patents

Abstract

The invention is applicable to the field of power distribution cabinets, and provides an electric automation multifunctional low-voltage power distribution cabinet, which comprises a low-voltage power distribution cabinet body and further comprises: mounting panel, components and parts installation guide rail, first guide slot, first direction slider, second direction spout, second direction slider, shower nozzle, trachea, air pump, trachea storage module and reciprocating drive mechanism. The electric appliance component is arranged on the component mounting guide rail, the air pump blows air into the spray head through the air pipe, the reciprocating driving mechanism drives the first guide sliding block to reciprocate left and right in the first guide groove, the first guide sliding block further drives the second guide sliding block to reciprocate left and right, the second guide sliding block drives the spray head to blow air to the electric appliance component on the component mounting guide rail in a left and right reciprocating mode, the electric appliance component is further dedusted, the air flow rate on the surface of the electric appliance component is increased, the electric appliance component is cooled, the temperature in the electric appliance component is prevented from being too high, and the service life of the electric appliance component is prolonged.

Description

Electric automatization's multi-functional low-voltage distribution cabinet

Technical Field

The invention belongs to the field of power distribution cabinets, and particularly relates to an electric automation multifunctional low-voltage power distribution cabinet.

Background

The rated current of the low-voltage power distribution cabinet is 50Hz, and a power distribution system with the rated voltage of 380v is used as power, and the power conversion and control of illumination and power distribution are realized.

After the existing low-voltage power distribution cabinet is used for a long time, dust can enter the cabinet body from the cabinet door and the cabinet body or the heat dissipation opening, and after the dust is accumulated on the electric elements in the cabinet body, heat dissipation of the electric elements is affected, so that heat dissipation performance of the electric elements is poor.

Disclosure of Invention

The embodiment of the invention aims to provide an electric automatic multifunctional low-voltage power distribution cabinet, which aims to solve the problem that heat dissipation of electric elements is affected after dust is accumulated on the electric elements in the cabinet body.

The invention is realized in such a way that an electric automation multifunctional low-voltage power distribution cabinet comprises a low-voltage power distribution cabinet body, and further comprises:

the device comprises a mounting plate, a component mounting guide rail, a first guide groove, a first guide slide block, a second guide slide groove, a second guide slide block, a spray head, an air pipe, an air pump, an air pipe storage assembly and a reciprocating driving mechanism;

the mounting plate is fixed in the low-voltage power distribution cabinet body, the component mounting guide rail is fixed on the mounting plate, the first guide groove is formed in the mounting plate, the first guide sliding block is slidably connected in the first guide groove, the second guide sliding groove is formed in the first guide sliding block, the second guide sliding block is slidably connected in the second guide sliding groove, the spray head is fixed on the second guide sliding block, the air pump is fixed on the low-voltage power distribution cabinet body, two ends of the air pipe are respectively communicated with the spray head and the air pump, the air pipe storage assembly is arranged on the low-voltage power distribution cabinet body, and the reciprocating driving mechanism is arranged on the mounting plate;

the air pipe storage assembly is used for storing an air pipe, and the reciprocating driving mechanism is used for driving the first guide sliding block to reciprocate left and right in the first guide groove.

Further technical scheme, components and parts installation guide rail, first guide way, first direction slider, second direction spout, second direction slider, shower nozzle, trachea, air pump, trachea accomodate subassembly and reciprocating drive mechanism and all are provided with the multiunit.

Further technical scheme, the trachea accomodates the subassembly and includes mounting groove, third direction slider, guide bar, pressure spring and directive wheel, the mounting groove sets up on the inner wall of low-voltage distribution cabinet body, the third direction slider slides and sets up in the mounting groove, the guide bar is fixed at the mounting groove, third direction slider and guide bar sliding fit, the pressure spring cover is established on the guide bar, the directive wheel rotates to be connected on the third direction slider, the trachea is walked around on the directive wheel.

Further technical scheme, reciprocating drive mechanism includes trapezoidal orbit spout, guiding axle, push away round, pressure spring, drive spout, drive slider, drive pressure spring, meshing tooth, drive ratchet board, pressure spring that resets, oblique ejector pad, guide way, spacing subassembly and drive assembly, the both ends of pressure spring that resets are connected with the inner wall of first guide slider and first guide way respectively, trapezoidal orbit spout and guide way all set up on the mounting panel, the guiding axle is fixed on the second guide slider, and guiding axle sliding connection is in trapezoidal orbit spout, push away round rotation connection on the second guide slider, the oblique ejector pad is fixed on the mounting panel, push away round and oblique ejector pad sliding fit, the pressure spring cover is established on the second guide slider, the pressure spring is used for pulling second guide slider downward movement, the drive spout sets up the end at the second guide slider, drive slider sliding connection is in the drive spout, the meshing tooth is fixed on the drive slider, the drive pressure spring cover is established on the meshing tooth, drive ratchet board sliding connection is in the guide way, the power distribution cabinet sets up and is used for limiting the motion of second ratchet board left side, the drive assembly is used for setting up the spacing subassembly to reciprocate on the second guide slider.

Further technical scheme, spacing subassembly includes ratchet board, spacing spout, spacing slider, spacing pressure spring and stopper, the ratchet board is fixed on the mounting panel, spacing spout sets up in the second direction slider, spacing slider sliding connection is in spacing spout, spacing pressure spring cover is established on the stopper, and the both ends of spacing pressure spring respectively with the inner wall of spacing slider and spacing spout, spacing slider and ratchet board meshing cooperation.

Further technical scheme, the drive assembly includes driving plate and connecting rod, the driving plate rotates to be connected on low-voltage distribution cabinet body, the both ends of connecting rod rotate with driving plate and drive ratchet board respectively to be connected, be fixed with the motor on the low-voltage distribution cabinet body, the rotation end and the driving plate fixed connection of motor.

Further technical scheme, the mounting panel passes through the bolt fastening in the low-voltage distribution cabinet body.

According to the multifunctional low-voltage power distribution cabinet with the electric automation, an electric element is arranged on an element installation guide rail, an air pump blows air into a spray head through an air pipe, a reciprocating driving mechanism drives a first guide sliding block to reciprocate left and right in a first guide groove, and then the first guide sliding block drives a second guide sliding block to reciprocate left and right, the second guide sliding block drives the spray head to blow air to the electric element on the element installation guide rail in a left and right reciprocating mode, and then the electric element is dedusted, and the electric element is cooled by increasing the air flow rate on the surface of the electric element, so that the temperature in the electric element is prevented from being too high, and the service life of the electric element is prolonged.

Drawings

Fig. 1 is a schematic structural diagram of an electrical automation multifunctional low-voltage power distribution cabinet according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the self-locking assembly of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1A according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of structure B in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of structure of C in FIG. 4 according to an embodiment of the present invention;

fig. 6 is an enlarged schematic structural diagram of D in fig. 4 according to an embodiment of the present invention.

In the accompanying drawings: the low-voltage power distribution cabinet comprises a low-voltage power distribution cabinet body 101, a mounting plate 102, a component mounting guide rail 103, a first guide groove 104, a first guide slide 105, a second guide slide groove 106, a second guide slide block 107, a spray head 108, a gas pipe 109, a gas pump 110, a gas pipe accommodating assembly 2, a mounting groove 201, a third guide slide block 202, a guide rod 203, a pressure spring 204, a steering wheel 205, a reciprocating driving mechanism 3, a trapezoidal track slide groove 301, a guide shaft 302, a pushing wheel 303, a pressure spring 304, a driving slide groove 305, a driving slide block 306, a driving pressure spring 307, meshing teeth 308, a driving ratchet plate 309, a reset pressure spring 310, a diagonal pushing block 311, a guide groove 312, a limit assembly 4, a ratchet plate 401, a limit slide groove 402, a limit slide block 403, a limit pressure spring 404, a limit block 405, a driving assembly 5, a driving disk 501 and a connecting rod 502.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, fig. 4 and fig. 5, an electrical automation multifunctional low-voltage power distribution cabinet according to an embodiment of the present invention includes a low-voltage power distribution cabinet body 101, and further includes:

mounting plate 102, component mounting rail 103, first guide groove 104, first guide slider 105, second guide chute 106, second guide slider 107, shower head 108, air tube 109, air pump 110, air tube housing assembly 2, and reciprocating drive mechanism 3;

the mounting plate 102 is fixed in the low-voltage power distribution cabinet body 101, the component mounting guide rail 103 is fixed on the mounting plate 102, the first guide groove 104 is formed in the mounting plate 102, the first guide slide block 105 is slidably connected in the first guide groove 104, the second guide slide groove 106 is formed in the first guide slide block 105, the second guide slide block 107 is slidably connected in the second guide slide groove 106, the spray head 108 is fixed on the second guide slide block 107, the air pump 110 is fixed on the low-voltage power distribution cabinet body 101, two ends of the air pipe 109 are respectively communicated with the spray head 108 and the air pump 110, the air pipe accommodating assembly 2 is arranged on the low-voltage power distribution cabinet body 101, and the reciprocating driving mechanism 3 is arranged on the mounting plate 102;

the air pipe accommodating assembly 2 is used for accommodating an air pipe 109, the reciprocating driving mechanism 3 is used for driving the first guide slide block 105 to reciprocate left and right in the first guide groove 104, the component mounting guide rail 103, the first guide groove 104, the first guide slide block 105, the second guide slide groove 106, the second guide slide block 107, the spray head 108, the air pipe 109, the air pump 110, the air pipe accommodating assembly 2 and the reciprocating driving mechanism 3 are all provided with a plurality of groups, and the mounting plate 102 is fixed in the low-voltage power distribution cabinet body 101 through bolts.

In the embodiment of the invention, when the device is used, the electrical components are mounted on the component mounting guide rail 103, the air pump 110 blows air into the spray head 108 through the air pipe 109, the reciprocating driving mechanism 3 drives the first guide slide block 105 to reciprocate left and right in the first guide groove 104, so that the first guide slide block 105 drives the second guide slide block 107 to reciprocate left and right, the second guide slide block 107 drives the spray head 108 to blow air to the electrical components on the component mounting guide rail 103 in a left and right reciprocating manner, the electrical components are further dedusted, and the electrical components are cooled by increasing the air flow velocity on the surface of the electrical components, so that the temperature in the electrical components is prevented from being overhigh, and the service life of the electrical components is prolonged.

As shown in fig. 1 and 3, as a preferred embodiment of the present invention, the air pipe housing assembly 2 includes a mounting groove 201, a third guiding slider 202, a guiding rod 203, a compression spring 204 and a steering wheel 205, wherein the mounting groove 201 is disposed on an inner wall of the low voltage power distribution cabinet body 101, the third guiding slider 202 is slidably disposed in the mounting groove 201, the guiding rod 203 is fixed in the mounting groove 201, the third guiding slider 202 is slidably engaged with the guiding rod 203, the compression spring 204 is sleeved on the guiding rod 203, the steering wheel 205 is rotatably connected to the third guiding slider 202, and the air pipe 109 bypasses the steering wheel 205.

In the embodiment of the invention, the pressure spring 204 pushes the third guide sliding block 202 to move upwards, the third guide sliding block 202 drives the steering wheel 205 to move upwards, and the steering wheel 205 pulls the air pipe 109 to move upwards, so that the air pipe 109 is folded and stored, and the air pipe 109 is tidy.

As shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6, as a preferred embodiment of the present invention, the reciprocating driving mechanism 3 includes a trapezoidal track chute 301, a guide shaft 302, a push wheel 303, a compression spring 304, a driving chute 305, a driving slider 306, a driving compression spring 307, a meshing tooth 308, a driving ratchet plate 309, a reset compression spring 310, an inclined pushing block 311, a guide slot 312, a limiting component 4 and a driving component 5, both ends of the reset compression spring 310 are respectively connected with the inner walls of the first guide slider 105 and the first guide slot 104, the trapezoidal track chute 301 and the guide slot 312 are respectively disposed on the mounting plate 102, the guide shaft 302 is fixed on the second guide slider 107, and the guide shaft 302 is slidably connected in the trapezoidal track chute 301, the push wheel 303 is rotatably connected on the second guide slider 107, the inclined pushing block 311 is fixed on the mounting plate 102, the push wheel 303 is slidably matched with the inclined pushing block 311, the compression spring 304 is sleeved on the second guide slider 107, the compression spring 304 is used for pulling the second guide slider 107 to move downwards, the second guide slider 305 is disposed on the second guide slider 306, the driving slider 306 is disposed on the right guide slider 306, and the driving component 308 is slidably connected to the driving slider 308, and the driving component is disposed on the right guide slot 308, and is slidably connected to the second guide slider 107, and the driving component is slidably connected to the driving component 308, and is disposed on the right guide slider 5, and the driving component is slidably connected to the driving component and the driving slider 308.

In the embodiment of the present invention, the driving component 5 drives the driving ratchet plate 309 to reciprocate left and right, two ends of the driving pressure spring 307 are respectively connected with the driving sliding block 306 and the driving sliding chute 305, so that the driving pressure spring 307 pulls the driving sliding block 306 to move downwards, the driving sliding block 306 drives the engaging teeth 308 to move downwards, the engaging teeth 308 are engaged with the driving ratchet plate 309, when the driving ratchet plate 309 moves rightwards, the engaging teeth 308 can be driven to move rightwards, the engaging teeth 308 drive the second guiding sliding block 107 to move rightwards, the second guiding sliding block 107 drives the first guiding sliding block 105 to move rightwards, when the driving ratchet plate 309 moves leftwards, the limiting component 4 is used for limiting the second guiding sliding block 107 to move leftwards until the inclined pushing block 311 pushes the pushing wheel 303 to move upwards, the pushing wheel 303 drives the second guiding slide block 107 to move upwards, the second guiding slide block 107 drives the guiding shaft 302 to move into the chute above the trapezoid track chute 301, at this time, the meshing teeth 308 are not meshed with the driving ratchet plate 309, the limiting component 4 does not limit the second guiding slide block 107 to move leftwards, the reset pressure spring 310 pulls the first guiding slide block 105 to move leftwards, the first guiding slide block 105 pulls the second guiding slide block 107 to move leftwards, when the second guiding slide block 107 drives the guiding shaft 302 to move to the leftmost end of the trapezoid track chute 301, the pressure spring 304 pulls the second guiding slide block 107 to move downwards, so that the meshing teeth 308 are meshed with the driving ratchet plate 309, and the driving ratchet plate 309 continues to drive the meshing teeth 308 to move rightwards, so that the first guiding slide block 105 reciprocates leftwards and rightwards.

As shown in fig. 1, 4 and 5, as a preferred embodiment of the present invention, the limit assembly 4 includes a ratchet plate 401, a limit chute 402, a limit slider 403, a limit compression spring 404 and a limit block 405, where the ratchet plate 401 is fixed on the mounting plate 102, the limit chute 402 is disposed in the second guide slider 107, the limit slider 403 is slidably connected in the limit chute 402, the limit compression spring 404 is sleeved on the limit block 405, and two ends of the limit compression spring 404 are respectively engaged with the limit slider 403 and an inner wall of the limit chute 402, and the limit slider 403 is engaged with the ratchet plate 401.

In the embodiment of the invention, the limit compression spring 404 pulls the limit slider 403 to move downwards, and the limit slider 403 drives the limit block 405 to move downwards, so that the limit block 405 is meshed with the ratchet plate 401, thereby limiting the left movement of the limit block 405, and further limiting the left movement of the second guide slider 107.

As shown in fig. 1, 4 and 6, as a preferred embodiment of the present invention, the driving assembly 5 includes a driving disc 501 and a connecting rod 502, where the driving disc 501 is rotatably connected to the low-voltage power distribution cabinet body 101, two ends of the connecting rod 502 are respectively rotatably connected to the driving disc 501 and the driving ratchet plate 309, and a motor is fixed to the low-voltage power distribution cabinet body 101, and a rotating end of the motor is fixedly connected to the driving disc 501.

In the embodiment of the present invention, the motor drives the driving disc 501 to rotate, and the driving disc 501 drives the driving ratchet plate 309 to reciprocate left and right through the connecting rod 502.

In the above embodiment of the invention, when in use, the electrical components are mounted on the component mounting guide rail 103, the air pump 110 blows air into the spray head 108 through the air pipe 109, the motor drives the driving disc 501 to rotate, the driving disc 501 drives the driving ratchet plate 309 to reciprocate left and right through the connecting rod 502, two ends of the driving pressure spring 307 are respectively connected with the driving slide block 306 and the driving slide groove 305, so that the driving pressure spring 307 pulls the driving slide block 306 to move downwards, the driving slide block 306 drives the meshing teeth 308 to move downwards, the meshing teeth 308 are meshed with the driving ratchet plate 309, the meshing teeth 308 can drive the meshing teeth 308 to move rightwards when the driving ratchet plate 309 moves rightwards, the second guiding slide block 107 drives the first guiding slide block 105 to move rightwards, and the driving ratchet plate 309 moves leftwards, the limit compression spring 404 pulls the limit slide block 403 to move downwards, the limit slide block 403 drives the limit block 405 to move downwards, and then the limit block 405 is meshed and matched with the ratchet plate 401, so that the limit block 405 is limited to move leftwards, and the second guide slide block 107 is limited to move leftwards, until the inclined push block 311 pushes the push wheel 303 to move upwards, the push wheel 303 drives the second guide slide block 107 to move upwards, the second guide slide block 107 drives the guide shaft 302 to move into the upper slide groove of the trapezoid track slide groove 301, at the moment, the meshing teeth 308 are not meshed with the driving ratchet plate 309, the limit block 405 is not meshed with the ratchet plate 401, the reset compression spring 310 pulls the first guide slide block 105 to move leftwards, the first guide slide block 105 pulls the second guide slide block 107 to move leftwards, the compression spring 304 pulls the second guide slide block 107 to move downwards when the second guide slide block 107 drives the guide shaft 302 to move to the leftmost end of the trapezoid track slide groove 301, the meshing teeth 308 are meshed with the driving ratchet plate 309, the driving ratchet plate 309 continues to drive the meshing teeth 308 to move rightwards, the first guide slide block 105 is further made to reciprocate leftwards and rightwards, the first guide slide block 105 is further made to drive the second guide slide block 107 to reciprocate leftwards and rightwards, the second guide slide block 107 drives the spray head 108 to blow air to the electrical elements on the element mounting guide rail 103 in a leftwards and rightwards reciprocating mode, the electrical elements are further dedusted, and the temperature of the electrical elements is reduced by increasing the air flow rate on the surfaces of the electrical elements, so that the temperature in the electrical elements is prevented from being too high, and the service life of the electrical elements is prolonged.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (4)

1. The utility model provides an electric automatization's multi-functional low-voltage distribution cabinet, includes low-voltage distribution cabinet body, its characterized in that still includes:

the device comprises a mounting plate, a component mounting guide rail, a first guide groove, a first guide slide block, a second guide slide groove, a second guide slide block, a spray head, an air pipe, an air pump, an air pipe storage assembly and a reciprocating driving mechanism;

the mounting plate is fixed in the low-voltage power distribution cabinet body, the component mounting guide rail is fixed on the mounting plate, the first guide groove is formed in the mounting plate, the first guide sliding block is slidably connected in the first guide groove, the second guide sliding groove is formed in the first guide sliding block, the second guide sliding block is slidably connected in the second guide sliding groove, the spray head is fixed on the second guide sliding block, the air pump is fixed on the low-voltage power distribution cabinet body, two ends of the air pipe are respectively communicated with the spray head and the air pump, the air pipe storage assembly is arranged on the low-voltage power distribution cabinet body, and the reciprocating driving mechanism is arranged on the mounting plate;

the air pipe accommodating assembly is used for accommodating an air pipe, and the reciprocating driving mechanism is used for driving the first guide sliding block to reciprocate left and right in the first guide groove;

the reciprocating driving mechanism comprises a trapezoid track sliding groove, a guide shaft, a pushing wheel, a pressure spring, a driving sliding groove, a driving sliding block, a driving pressure spring, meshing teeth, a driving ratchet plate, a reset pressure spring, an inclined pushing block, a guide groove, a limiting component and a driving component, wherein two ends of the reset pressure spring are respectively connected with the inner walls of the first guiding sliding block and the first guide groove, the trapezoid track sliding groove and the guide groove are both arranged on a mounting plate, the guide shaft is fixed on the second guiding sliding block, the guide shaft is slidably connected in the trapezoid track sliding groove, the pushing wheel is rotatably connected on the second guiding sliding block, the inclined pushing block is fixed on the mounting plate, the pushing wheel is slidably matched with the inclined pushing block, the pressure spring is sleeved on the second guiding sliding block, the pressure spring is used for pulling the second guiding sliding block to move downwards, the driving sliding groove is arranged at the tail end of the second guiding sliding block, the driving sliding block is slidably connected in the driving sliding groove, the meshing teeth are fixed on the driving sliding block, the driving pressure spring is sleeved on the meshing teeth, the driving ratchet plate is slidably connected in the guide groove, the driving cabinet is arranged on the low-voltage distribution block, and is used for limiting the driving ratchet plate to move leftwards and limiting the second guiding component to reciprocate in the driving sliding block, and limiting the driving component is arranged on the right-limiting component.

The limiting assembly comprises a ratchet plate, a limiting sliding groove, a limiting sliding block, a limiting pressure spring and a limiting block, wherein the ratchet plate is fixed on the mounting plate, the limiting sliding groove is formed in the second guiding sliding block, the limiting sliding block is slidably connected in the limiting sliding groove, the limiting pressure spring is sleeved on the limiting block, two ends of the limiting pressure spring are respectively engaged with the limiting sliding block and the inner wall of the limiting sliding groove, and the limiting sliding block is matched with the ratchet plate in a meshed manner;

the driving assembly comprises a driving disc and a connecting rod, the driving disc is rotationally connected to the low-voltage power distribution cabinet body, two ends of the connecting rod are rotationally connected with the driving disc and the driving ratchet plate respectively, a motor is fixed to the low-voltage power distribution cabinet body, and the rotating end of the motor is fixedly connected with the driving disc.

2. The electrically automated multifunctional low-voltage power distribution cabinet of claim 1, wherein the component mounting rail, the first guide slot, the first guide slide, the second guide slide, the spray head, the air pipe, the air pump, the air pipe storage assembly and the reciprocating drive mechanism are all provided with a plurality of groups.

3. The electrically automated multifunctional low-voltage power distribution cabinet according to claim 2, wherein the air pipe storage assembly comprises a mounting groove, a third guide sliding block, a guide rod, a pressure spring and a steering wheel, the mounting groove is formed in the inner wall of the low-voltage power distribution cabinet body, the third guide sliding block is arranged in the mounting groove in a sliding mode, the guide rod is fixed to the mounting groove, the third guide sliding block is in sliding fit with the guide rod, the pressure spring is sleeved on the guide rod, the steering wheel is connected to the third guide sliding block in a rotating mode, and the air pipe bypasses the steering wheel.

4. The electrically automated multifunctional low-voltage power distribution cabinet of claim 1, wherein the mounting plate is secured within the low-voltage power distribution cabinet body by bolts.

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