CN108206475A - A kind of vibration-damping radiating method of power distribution cabinet - Google Patents

Abstract

The invention discloses a kind of vibration-damping radiating methods of power distribution cabinet, it is shaken when power distribution cabinet body 1 works, power distribution cabinet body 1 drives movable block 20 to be moved down by sliding block 21 along sliding slot 22 by slide bar 19, extruding and shortening of first spring 24 by movable block 20 simultaneously, extruding and shortening of the second spring 26 by power distribution cabinet body 1, first spring 24 drives movable block 20 to move up using the elastic force of itself, movable block 20 drives power distribution cabinet body 1 to move up by slide bar 19 simultaneously, with this moving up and down back and forth, so as to reach the function of damping and heat dissipation.

Description

A kind of vibration-damping radiating method of power distribution cabinet

Technical field

The present invention relates to power distribution cabinet technical field, the vibration-damping radiating method of specially a kind of power distribution cabinet.

Background technology

Power distribution cabinet（Case）Sub-power power distribution cabinet（Case）, light distribution cabinet（Case）And metering cabinet（Case）, be distribution system end Grade equipment.Power distribution cabinet is the general designation of motor control center.Power distribution cabinet is used load is more dispersed and the less occasion in circuit； Motor control center neutralizes the more occasion in circuit for load collection.They are the electric energy of a certain circuit of upper level controller switching equipment Distribute to load nearby.This grade of equipment reply load provides protection, monitoring and control.

Power distribution cabinet can generate a large amount of heat in use, and the heat dissipation effect of most power distribution cabinet is bad, so as to Prevent from timely discharging in power distribution cabinet, so as to cause the electric wire in power distribution cabinet spontaneous combustion occurs for heat, so as to influence people's Electricity consumption, and since most power distribution cabinet does not have the function of damping, power distribution cabinet is caused to shake and produce when power distribution cabinet works Raw noise so as to influence people’s lives, therefore, is badly in need of a kind of power distribution cabinet with damping and heat sinking function.

Invention content

（One）The technical issues of solution

In view of the deficiencies of the prior art, the present invention provides a kind of vibration-damping radiating methods of power distribution cabinet, and solving power distribution cabinet makes With that can generate a large amount of heat in the process, the heat dissipation effect of most power distribution cabinet is bad, so that heat cannot be timely It discharges in power distribution cabinet, spontaneous combustion occurs so as to cause the electric wire in power distribution cabinet, so as to influence the electricity consumption of people, and due to most Power distribution cabinet does not have the function of damping, therefore power distribution cabinet is caused to shake and generate noise when power distribution cabinet works, so as to influence people Life, therefore, the problem of being badly in need of a kind of power distribution cabinet with damping and heat sinking function.

（Two）Technical solution

To achieve the above object, the present invention provides following technical solution：A kind of vibration-damping radiating method of power distribution cabinet, including power distribution cabinet Ontology, the upper surface of the power distribution cabinet body are fixedly connected with the bottom end of supporting rod, the top of the supporting rod and connecting plate Lower surface is fixedly connected, and the left and right sides of the connecting plate have been fixedly connected with solar panel, under the connecting plate Top of the surface with two fixed links is fixedly connected, and the opposite face of two fixed links respectively with the left and right sides of driving device Face is fixedly connected, and the outer surface of the driving device is sequentially connected by the outer surface of belt and driven wheel, the driven wheel Inner surface is connected with first rotating shaft, and the surface of the first rotating shaft is respectively sleeved on clutch shaft bearing and second bearing, and described first Bearing is connected to the lower surface of connecting plate, and the clutch shaft bearing is located at the left side of fixed link, and the second bearing is connected to distribution The upper surface of cabinet ontology, the outer surface of the first rotating shaft are socketed in the inner surface of first gear, the first gear with two Second gear engages, and the inner surface of the second gear is socketed with 3rd bearing, and the 3rd bearing is connected to power distribution cabinet body The upper surface of inner wall.

The bottom end of second shaft is fixedly connected with the upper surface of blowing device, and the blowing device is located at ventilating board Top, the ventilating board are arranged in power distribution cabinet body, and the left and right sides of the power distribution cabinet body offer ventilation hole, institute The lower surface for stating power distribution cabinet body is fixedly connected with the top of slide bar, and the bottom end of the slide bar and the upper surface of movable block are fixed and connected It connects, the opposite face of the left and right sides of the movable block respectively with two sliding blocks is fixedly connected, and two sliding blocks company of slip respectively It is connected in the sliding slot that the left and right sides of inner walls open up, the lower surface of the movable block passes through the first spring and inner walls Lower surface be fixedly connected, the upper surface of wall has been fixedly connected with limited block at left and right sides of the housing, and two limited blocks Opposite face overlaps respectively with the left and right sides of slide bar, and the surface of the slide bar and housing is socketed with same second spring, Upper surface of the both ends of the second spring respectively with the lower surface of power distribution cabinet body and bottom plate is fixedly connected, the bottom plate it is upper Surface is fixedly connected with the lower surface of housing.

Preferably, the driving device includes motor, the left and right sides of the motor body respectively with two fixed links Opposite face be fixedly connected, the output shaft of the motor is fixedly connected with driving wheel, and the outer surface of the driving wheel passes through belt It is sequentially connected with the outer surface of driven wheel.

Preferably, the blowing device includes fixed block, and the upper surface of the fixed block and the bottom end of the second shaft are fixed Connection, the left and right sides of the fixed block have been fixedly connected with flabellum.

Preferably, the quantity of the supporting rod is four, and four supporting rods are located at the quadrangle of connecting plate lower surface respectively Place.

Preferably, the quantity of the slide bar is four, and four slide bars are located at the quadrangle of power distribution cabinet body lower surface respectively Place.

Preferably, the lower surface of the power distribution cabinet body is respectively arranged with accumulator and control panel, the accumulator Lower surface is fixedly connected with the upper surface of control panel.

Preferably, the output terminal of the solar panel is electrically connected with the input terminal of accumulator, the accumulator it is defeated Outlet is electrically connected with the input terminal of control panel, and the output terminal of the control panel is electrically connected with the input terminal of motor.

（Three）Advantageous effect

The present invention provides a kind of vibration-damping radiating methods of power distribution cabinet, have following advantageous effect：

（1）, the vibration-damping radiating type power distribution cabinet, pass through motor, driving wheel, belt, driven wheel, first rotating shaft, first gear, second Mutual cooperation between gear, the second shaft, flabellum, slide bar, sliding slot, sliding block, the first spring and housing so that motor work band Dynamic driving wheel rotation, driving wheel drive driven wheel to rotate by belt, and driven wheel leads to first rotating shaft and drives first gear rotation, the One gear drives second gear rotation, and second gear drives fixed block and flabellum to rotate by the second shaft, so that flabellum The wind that rotation generates radiates to power distribution cabinet body inside, is shaken when power distribution cabinet body works, power distribution cabinet body is led to Crossing slide bar drives movable block to be moved down by sliding block along sliding slot, while extruding and shortening of first spring by movable block, Extruding and shortening of the second spring by power distribution cabinet body, the first spring drive movable block to move up using the elastic force of itself, Movable block drives power distribution cabinet body to move up by slide bar simultaneously, with this moving up and down back and forth, so as to reach damping and dissipate The function of heat, so as to facilitate the work of people.

（2）, the vibration-damping radiating type power distribution cabinet, and the present invention it is compact-sized, by setting fixed link so that the fixation of motor More stablize, the rotation of itself fuselage when working so as to avoid motor, so that the working condition of motor is more stablized.

（3）, the vibration-damping radiating type power distribution cabinet, and the present invention it is compact-sized, pass through clutch shaft bearing, second bearing and first turn Mutual cooperation between axis so that first rotating shaft rotates more steady in clutch shaft bearing and second bearing.

（4）, the vibration-damping radiating type power distribution cabinet, and the present invention it is compact-sized, pass through the second shaft, 3rd bearing, fixed block Mutual cooperation between flabellum so that the second shaft rotates more steady in 3rd bearing, so that the second shaft Drive fixed block and flabellum rotate more steady.

（5）, the vibration-damping radiating type power distribution cabinet, pass through the mutual cooperation between movable block, sliding block and sliding slot so that sliding block exists It is more steady when being moved up and down in sliding slot, so that it is more steady when movable block is moved up and down by sliding block along sliding slot, and Which has a compact structure and a reasonable design of the present invention, it is highly practical.

Description of the drawings

Fig. 1 is the cross-sectional view that the present invention faces；

Fig. 2 is the structure diagram that A portions amplify in Fig. 1.

In figure：1 power distribution cabinet body, 2 supporting rods, 3 connecting plates, 4 solar panels, 5 fixed links, 6 driving devices, 61 electricity Machine, 62 driving wheels, 7 belts, 8 driven wheels, 9 first rotating shafts, 10 clutch shaft bearings, 11 second bearings, 12 first gears, 13 second teeth Wheel, 14 second shafts, 15 3rd bearings, 16 blowing devices, 161 fixed blocks, 162 flabellums, 17 control panels, 18 ventilating boards, 19 Slide bar, 20 movable blocks, 21 sliding blocks, 22 sliding slots, 23 housings, 24 first springs, 25 limited blocks, 26 second springs, 27 ventilation holes, 28 Bottom plate, 29 accumulators.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

As shown in Figs. 1-2, the present invention provides a kind of technical solution：A kind of vibration-damping radiating method of power distribution cabinet, including distribution Cabinet ontology 1, the upper surface of power distribution cabinet body 1 are fixedly connected with the bottom end of supporting rod 2, under the top of supporting rod 2 and connecting plate 3 Surface is fixedly connected, and the quantity of supporting rod 2 is four, and four supporting rods 2 are located at the four corners of 3 lower surface of connecting plate respectively, By setting supporting rod 2 so that the fixation of connecting plate 3 is more stablized, and the left and right sides of connecting plate 3 have been fixedly connected with the sun Energy solar panel 4, by setting solar panel 4 so that solar panel 4 can convert solar energy into electrical energy, connection Top of the lower surface of plate 3 with two fixed links 5 is fixedly connected, and the opposite face of two fixed links 5 respectively with driving device 6 Left and right sides be fixedly connected, by setting fixed link 5 so that the fixation of motor 61 more stablize, so as to avoid motor The rotation of itself fuselage during 61 work, so that the working condition of motor 61 is more stablized, the outer surface of driving device 6 passes through Belt 7 and the outer surface of driven wheel 8 are sequentially connected, and driving device 6 includes motor 61, and the left and right sides of 61 fuselage of motor are distinguished It is fixedly connected with the opposite face of two fixed links 5, the output shaft of motor 61 is fixedly connected with driving wheel 62, the appearance of driving wheel 62 Face is sequentially connected by the outer surface of belt 7 and driven wheel 8, by setting driving device 6 so that the work of motor 61 drives actively 62 rotation of wheel, driving wheel 62 drive driven wheel 8 to rotate by belt 7, and driven wheel 8 leads to first rotating shaft 9 and drives 12 turns of first gear Dynamic, first gear 12 drives second gear 13 to rotate, and second gear 13 drives fixed block 16 and flabellum 162 by the second shaft 14 Rotation, so that the wind that the rotation of flabellum 162 generates, to radiating inside power distribution cabinet body 1, the inner surface of driven wheel 8 is clamped There is first rotating shaft 9, the surface of first rotating shaft 9 is respectively sleeved on clutch shaft bearing 10 and second bearing 11, and clutch shaft bearing 10 is connected to The lower surface of connecting plate 3, clutch shaft bearing 10 are located at the left side of fixed link 5, and second bearing 11 is connected to the upper table of power distribution cabinet body 1 Face passes through the mutual cooperation between clutch shaft bearing 10, second bearing 11 and first rotating shaft 9 so that first rotating shaft 9 is in clutch shaft bearing 10 and second bearing 11 in rotate more steady, the outer surface of first rotating shaft 9 is socketed in the inner surface of first gear 12, first Gear 12 is engaged with two second gears 13, and the inner surface of second gear 13 is socketed with 3rd bearing 15, and 3rd bearing 15 is clamped In the upper surface of 1 inner wall of power distribution cabinet body.

The bottom end of second shaft 14 is fixedly connected with the upper surface of blowing device 16, and blowing device 16 is located at ventilating board 18 Top, ventilating board 18 are arranged in power distribution cabinet body 1, and blowing device 16 includes fixed block 16, the upper surface of fixed block 16 and the The bottom end of two shafts 14 is fixedly connected, and the left and right sides of fixed block 16 have been fixedly connected with flabellum 162, pass through the second shaft 14th, the mutual cooperation between 3rd bearing 15, fixed block 16 and flabellum 162 so that the second shaft 14 turns in 3rd bearing 15 Dynamic is more steady, so that the second shaft 14 drives fixed block 16 and flabellum 162 to rotate more steady, power distribution cabinet body 1 left and right sides offer ventilation hole 27, and the lower surface of power distribution cabinet body 1 is fixedly connected with the top of slide bar 19, slide bar 19 quantity is four, and four slide bars 19 are located at the four corners of 1 lower surface of power distribution cabinet body, the bottom end of slide bar 19 and work respectively The upper surface of motion block 20 is fixedly connected, and the opposite face of the left and right sides of movable block 20 respectively with two sliding blocks 21 is fixedly connected, And two sliding blocks 21 are slidably connected at respectively in the sliding slot 22 that the left and right sides of 23 inner wall of housing open up, by movable block 20, Mutual cooperation between sliding block 21 and sliding slot 22 so that sliding block 21 is more steady when being moved up and down in sliding slot 22, so that Movable block 20 is more steady when being moved up and down by sliding block 21 along sliding slot 22, and the lower surface of movable block 20 passes through the first spring 24 It being fixedly connected with the lower surface of 23 inner wall of housing, the upper surface of 23 left and right sides wall of housing has been fixedly connected with limited block 25, and The opposite face of two limited blocks 25 respectively with the left and right sides of slide bar 19 overlap, by slide bar 19, movable block 20, sliding slot 22, Mutual cooperation between 21 and first spring 24 of sliding block, shakes, power distribution cabinet body 1 passes through when power distribution cabinet body 1 works Slide bar 19 drives movable block 20 to be moved down by sliding block 21 along sliding slot 22, while the first spring 24 is squeezed by movable block 20 It presses and shortens, extruding and shortening of the second spring 26 by power distribution cabinet body 1, the first spring 24 are driven using the elastic force of itself and lived Motion block 20 moves up, while movable block 20 drives power distribution cabinet body 1 to move up by slide bar 19, with this it is reciprocal on move down Dynamic, so as to achieve the purpose that damping, the surface of slide bar 19 and housing 23 is socketed with same second spring 26, second spring 26 Upper surface of the both ends respectively with the lower surface of power distribution cabinet body 1 and bottom plate 28 be fixedly connected, the upper surface of bottom plate 28 and housing 23 lower surface is fixedly connected, and the lower surface of power distribution cabinet body 1 is respectively arranged with accumulator 29 and control panel 17, passes through setting Control panel 17 so that staff is more convenient to the control of 61 working condition of motor, the lower surface of accumulator 29 and control The upper surface of panel 17 is fixedly connected, and the output terminal of solar panel 4 is electrically connected with the input terminal of accumulator 29, accumulator 29 Output terminal be electrically connected with the input terminal of control panel 17, the output terminal of control panel 17 is electrically connected with the input terminal of motor 61.

In use, pass through operation and control panel 17 so that the work of motor 61 drives driving wheel 62 to rotate, and driving wheel 62 passes through Belt 7 drives driven wheel 8 to rotate, and driven wheel 8 leads to first rotating shaft 9 and first gear 12 is driven to rotate, and first gear 12 drives second Gear 13 rotates, and second gear 13 drives fixed block 16 and flabellum 162 to rotate by the second shaft 14, so that flabellum 162 The wind generated is rotated to radiating inside power distribution cabinet body 1, after the completion of heat dissipation, passes through operation and control panel 17 so that electricity Machine 61 is stopped, and is shaken when power distribution cabinet body 1 works, and power distribution cabinet body 1 drives movable block 20 logical by slide bar 19 It crosses sliding block 21 to move down along sliding slot 22, while extruding and shortening of first spring 24 by movable block 20, second spring 26 Extruding and shortening by power distribution cabinet body 1, the first spring 24 drive movable block 20 to move up using the elastic force of itself, simultaneously Movable block 20 drives power distribution cabinet body 1 to move up by slide bar 19, with this moving up and down back and forth, so as to reach damping and dissipate The function of heat.

It can to sum up obtain, 1, the vibration-damping radiating type power distribution cabinet, pass through motor 61, driving wheel 62, belt 7, driven wheel 8, first Shaft 9, first gear 12, second gear 13, the second shaft 14, flabellum 162, slide bar 19, sliding slot 22, sliding block 21, the first spring Mutual cooperation between 24 and housing 23 so that the work of motor 61 drives driving wheel 62 to rotate, and driving wheel 62 is driven by belt 7 Driven wheel 8 rotates, and driven wheel 8 leads to first rotating shaft 9 and first gear 12 is driven to rotate, and first gear 12 drives 13 turns of second gear Dynamic, second gear 13 drives fixed block 16 and flabellum 162 to rotate by the second shaft 14, so that the rotation of flabellum 162 generates Wind to radiating inside power distribution cabinet body 1, shaken when power distribution cabinet body 1 works, power distribution cabinet body 1 passes through slide bar 19 drive movable blocks 20 moved down by sliding block 21 along sliding slot 22, while the first spring 24 by movable block 20 extruding simultaneously Shorten, extruding and shortening of the second spring 26 by power distribution cabinet body 1, the first spring 24 drives movable block using the elastic force of itself 20 move up, while movable block 20 drives power distribution cabinet body 1 to move up by slide bar 19, with this it is reciprocal move up and down, So as to reach the function of damping and heat dissipation, so as to facilitate the work of people.

2nd, vibration-damping radiating type power distribution cabinet, by setting fixed link 5 so that the fixation of motor 61 is more stablized, so as to keep away The rotation of itself fuselage when motor 61 works is exempted from, so that the working condition of motor 61 is more stablized.

3rd, the vibration-damping radiating type power distribution cabinet, passes through the phase interworking between clutch shaft bearing 10, second bearing 11 and first rotating shaft 9 It closes so that first rotating shaft 9 rotates more steady in clutch shaft bearing 10 and second bearing 11.

4th, vibration-damping radiating type power distribution cabinet, by between the second shaft 14,3rd bearing 15, fixed block 16 and flabellum 162 Mutual cooperation so that the second shaft 14 is rotated in the 3rd bearing 15 more steady, so that the second shaft 14 drives Fixed block 16 and flabellum 162 rotate more steady.

5th, the vibration-damping radiating type power distribution cabinet, passes through the mutual cooperation between movable block 20, sliding block 21 and sliding slot 22 so that sliding Block 21 is more steady when being moved up and down in sliding slot 22, so that movable block 20 is moved up and down by sliding block 21 along sliding slot 22 Shi Gengjia is steady, and which has a compact structure and a reasonable design of the present invention, highly practical.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims (5)

1. a kind of vibration-damping radiating method of power distribution cabinet, it is characterised in that：Pass through operation and control panel 17 so that motor 61 works Driving wheel 62 is driven to rotate, driving wheel 62 drives driven wheel 8 to rotate by belt 7, and driven wheel 8 leads to first rotating shaft 9 and drives first Gear 12 rotates, and first gear 12 drives second gear 13 to rotate, and second gear 13 drives fixed block 16 by the second shaft 14 It is rotated with flabellum 162, so that the wind that the rotation of flabellum 162 generates is completed to radiating inside power distribution cabinet body 1 when radiating Afterwards, pass through operation and control panel 17 so that motor 61 is stopped, and is shaken when power distribution cabinet body 1 works, power distribution cabinet sheet Body 1 drives movable block 20 to be moved down by sliding block 21 along sliding slot 22, while the first spring 24 is by activity by slide bar 19 The extruding and shortening of block 20, extruding and shortening of the second spring 26 by power distribution cabinet body 1, the first spring 24 utilize the bullet of itself Power drives movable block 20 to move up, while movable block 20 drives power distribution cabinet body 1 to move up by slide bar 19, reciprocal with this Move up and down, so as to reach damping and heat dissipation function.

2. a kind of vibration-damping radiating method of power distribution cabinet according to claim 1, it is characterised in that：By motor 61, actively Wheel 62, belt 7, driven wheel 8, first rotating shaft 9, first gear 12, second gear 13, the second shaft 14, flabellum 162, slide bar 19, Mutual cooperation between sliding slot 22, sliding block 21, the first spring 24 and housing 23 so that the work of motor 61 drives 62 turns of driving wheel Dynamic, driving wheel 62 drives driven wheel 8 to rotate by belt 7, and driven wheel 8 leads to first rotating shaft 9 and first gear 12 is driven to rotate, and first Gear 12 drives second gear 13 to rotate, and second gear 13 drives fixed block 16 and flabellum 162 to rotate by the second shaft 14, from And the wind that the rotation of flabellum 162 generates to radiating inside power distribution cabinet body 1, is shaken when power distribution cabinet body 1 works Dynamic, power distribution cabinet body 1 drives movable block 20 to be moved down by sliding block 21 along sliding slot 22, while the first spring by slide bar 19 24 extruding and shortening by movable block 20, extruding and shortening of the second spring 26 by power distribution cabinet body 1,24 profit of the first spring Movable block 20 is driven to move up with itself elastic force, while movable block 20 drives power distribution cabinet body 1 to moving up by slide bar 19 It is dynamic, with this moving up and down back and forth, so as to reach the function of damping and heat dissipation, so as to facilitate the work of people.

3. a kind of vibration-damping radiating method of power distribution cabinet according to claim 1, it is characterised in that：By setting fixed link 5 so that the fixation of motor 61 is more stablized, the rotation of itself fuselage when working so as to avoid motor 61, so that motor 61 working condition is more stablized.

4. a kind of vibration-damping radiating method of power distribution cabinet according to claim 1, it is characterised in that：By clutch shaft bearing 10, Mutual cooperation between second bearing 11 and first rotating shaft 9 so that first rotating shaft 9 turns in clutch shaft bearing 10 and second bearing 11 Dynamic is more steady.

5. a kind of vibration-damping radiating method of power distribution cabinet according to claim 1, it is characterised in that：By the second shaft 14, Mutual cooperation between 3rd bearing 15, fixed block 16 and flabellum 162 so that the second shaft 14 rotated in 3rd bearing 15 It is more steady so that the second shaft 14 drive fixed block 16 and flabellum 162 rotate it is more steady；By movable block 20, Mutual cooperation between sliding block 21 and sliding slot 22 so that sliding block 21 is more steady when being moved up and down in sliding slot 22, so that Movable block 20 is more steady when being moved up and down by sliding block 21 along sliding slot 22.