CN112947128A - Electric automatization control box - Google Patents

Abstract

The invention discloses an electric automation control box, which comprises a mounting plate, an operation box, heat dissipation holes and control buttons, wherein the mounting plate is mounted at the top of the operation box, the mounting plate and the operation box are of an integrated structure, the heat dissipation holes are mounted on the operation box, the operation box is fixedly connected with the heat dissipation holes, the control buttons are arranged on the surface of the operation box and are in clearance fit with the operation box, the operation box is provided with a radiator, an electric control plate, a cooling box, a circulation box and a box body, the cooling box is arranged at the bottom of the box body and is fixedly connected with the box body, the sliding structures are additionally arranged on two sides of a traction end of a transmission column, and sliding points on two sides of the traction end can only slide in a sliding groove which is attached with the traction end of the transmission column, so that the sliding tracks of the transmission column are limited on the same line, when the transmission plate pulls the sliding column to slide, the transmission, thereby causing the angle deviation of the heat radiation fan arranged on the transmission column and causing the deviation of the position acted by heat radiation.

Description

Electric automatization control box

Technical Field

The invention relates to the field of automatic machinery, in particular to an electric automatic control box.

Background

The electric automation control box is a device for installing and arranging electric elements;

but electric automation control box mobile heat dissipation fan under the cooperation of driving plate and transmission post to enlarge electric automation control box heat radiation's scope, the driving plate is when pulling the transmission post removal, the transmission post easily along with the transmission plate between pull tie point upset slope, thereby lead to installing the heat dissipation fan angular deflection on the transmission post, make the equipment heat dissipation used position produce the deviation.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: an electric automation control box structurally comprises a mounting plate, an operation box, heat dissipation holes and control buttons, wherein the mounting plate is mounted at the top of the operation box, the mounting plate and the operation box are of an integrated structure, the heat dissipation holes are mounted on the operation box, the operation box is fixedly connected with the heat dissipation holes, the control buttons are arranged on the surface of the operation box, and the control buttons are in clearance fit with the operation box;

the operation box is equipped with radiator, automatically controlled board, cooling box, circulation case, box, the bottom half is equipped with the cooling box, cooling box and box fixed connection, the circulation case is installed to the both sides of cooling box, circulation case and cooling box activity block, automatically controlled board is established inside the box, box and automatically controlled board gomphosis, the top of box is equipped with the radiator, the radiator passes through loose axle swing joint with the box.

As a further optimization of the technical proposal, the radiator is provided with a limiter, a transmission plate, a shell, a radiating fan, a driving block, a limiting groove, a transmission column and a sliding rod, the two sides of the slide bar are both provided with transmission plates which are in clearance fit with the slide bar, the center of the slide bar is provided with a driving block, the driving block is embedded with the sliding rod, the transmission plate is provided with a transmission column, the transmission column is movably connected with the transmission plate through a movable shaft, the limiting stopper is arranged on the transmission column, the transmission column is movably clamped with the limiting stopper, the transmission column is provided with a heat dissipation fan, the heat dissipation fan is movably clamped with the transmission column, the bottom of the shell is provided with a limiting groove, the limiting groove and the shell are of an integrated structure, the limiting groove is provided with a sliding rail, the limiting groove clamps the transmission column in the middle, and one end, attached to the limiting groove sliding rail, of the transmission column is provided with a protruding sliding shaft.

As a further optimization of the technical scheme, the stopper is provided with a retractable track, a moving track, a device body, an extender, a retractable shaft, a moving column, a rotating shaft and a reinforcing device, the moving track is arranged on both sides of the device body, the moving track is fixedly connected with the device body, the rotating shaft is arranged at the central position of the device body and is embedded with the device body, the moving column is arranged at the outer edge of the rotating shaft, the moving column is in clearance fit with the rotating shaft, the extender is arranged inside the moving column, the extender is in clearance fit with the moving column, the reinforcing device is arranged on the rotating shaft, the rotating shaft is movably clamped with the reinforcing device, the retractable shaft is arranged on the retractable track, the retractable track is in sliding connection with the retractable shaft, a sliding wheel is arranged at one end of the moving column, which is attached to the moving track, the sliding wheel of the moving column is in clearance fit with the connecting shaft body, the other end of the movable column is provided with an arc-shaped sliding block, the movable column is connected with the rotating shaft in a sliding mode through the arc-shaped sliding block, a connecting cylinder is arranged on the rotating shaft, and the rotating shaft is fixedly connected with the transmission column through the connecting cylinder.

As a further optimization of this technical scheme, the telescopic shaft is curved connecting axle structure, the one end of telescopic shaft is equipped with the protruding piece of arc strip, be equipped with the slip recess on the flexible way, the recess diameter that flexible way is identical with the protruding piece of telescopic shaft, the bottom at flexible way is established to the telescopic shaft, the telescopic shaft is equipped with the protruding piece of spring towards the one end of the body coupling wall body, be equipped with the recess identical with the protruding piece of telescopic shaft spring on the body coupling wall body, the telescopic shaft passes through loose axle and removal post swing joint respectively with flexible way, be equipped with the fretwork square opening on the body.

As a further optimization of this technical scheme, the extender is equipped with extension piece, equipment axle, fixed block, extension way, be equipped with the extension piece on the fixed block, extension piece and fixed block structure as an organic whole, the both sides of extension piece all are equipped with the equipment axle, equipment axle and extension piece fixed connection, the extension is said and is established on the fixed block, fixed block and extension way welded connection, the both sides and the zhongzhong of fixed block are equipped with the fretwork mouth, the inside spring that is equipped with of equipment axle, the one end of equipment axle and fixed block laminating is equipped with rectangular connecting axle, the rectangular connecting axle diameter of fixed block is greater than the fretwork mouth of fixed block both sides.

As a further optimization of the technical scheme, an arc connecting column is arranged at one end of the extension block facing the fixed block, a hollow-out opening is arranged on the extension block, the hollow-out opening of the extension block is matched with the diameter of the extension track, a sliding track is arranged on the extension track, the connecting column of the extension block clamps the extension track in the middle, and a pulley is arranged on the connecting column of the extension block.

As a further optimization of the technical scheme, the reinforcing device is provided with a pressing block, a combination board, a turnover board, a rotating block, a rotating column, a displacement cavity and a displacement block, wherein the turnover board is arranged on both sides of the combination board and movably clamped with the combination board, the rotating column is arranged on the combination board, the combination board is fixedly connected with the rotating column, the rotating column is provided with the rotating block, the rotating block is in clearance fit with the rotating column, the displacement cavity is arranged in the rotating block and fixedly connected with the rotating block, the displacement block is arranged at the center of the displacement cavity and in clearance fit with the displacement cavity, the pressing block is arranged on the combination board and movably clamped with the pressing block, the turnover board is an arc board, a spring is arranged in the turnover board, the pressing block is formed by clamping the turnover board by two connecting columns through a movable shaft, and a connecting column of the pressing block is provided with a ball connecting block.

As a further optimization of this technical scheme, the displacement chamber is the cylinder cavity of central point position fretwork, be equipped with the slip track on the wall body in displacement chamber, be equipped with the sliding connection piece on the displacement piece, the other end of displacement piece is equipped with square protruding piece, the one side at the turning block connection face is established in the displacement chamber, the turning block is circular plate block structure, be equipped with the annular slip recess of circle on the turning block, be equipped with the slip connecting axle on the rotation post, the rotation post passes through slip connecting axle and turning block sliding connection.

Advantageous effects

Compared with the prior art, the electric automation control box has the following advantages:

1. the sliding structures are additionally arranged on the two sides of the traction end of the transmission column, and the sliding points on the two sides of the traction end can only slide in the sliding grooves attached to the sliding points, so that the sliding tracks of the transmission column are limited on the same line.

2. The movable column is attached to the sliding track of the stopper in a triangular structure mode, the triangular structure has stability, and when the transmission column is pulled by the transmission plate, the sliding structure on the stopper cannot be inclined easily, so that the transmission column is driven to slide in the horizontal direction, the sliding track of the transmission column is more stable, and the transmission column is prevented from being overturned and inclined along a pulling point due to the pulling force of the transmission plate.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic diagram of an overall structure of an electrical automation control box according to the present invention.

Fig. 2 is a schematic structural diagram of the operation box of the invention.

Fig. 3 is a schematic view of the heat sink structure of the present invention.

Fig. 4 is a schematic structural diagram of the stopper of the present invention.

Fig. 5 is a schematic view of the extender of the present invention.

Fig. 6 is a schematic view of the structure of the stiffener according to the present invention.

In the figure: the cooling device comprises a mounting plate 1, an operation box 2, a heat radiation hole 3, a control button 4, a radiator 2a, an electric control plate 2b, a cooling box 2c, a circulation box 2d, a box body 2e, a limiter a1, a transmission plate a2, a shell a3, a heat radiation fan a4, a driving block a5, a limiting groove a6, a transmission column a7, a sliding rod a8, an expansion channel a11, a moving channel a12, a body a13, an extender a14, an expansion shaft a15, a moving column a16, a rotating shaft a17, a stiffener a18, an extension block 141, an assembly shaft 142, a fixing block 143, an extension channel 144, a pressing block 181, a combination plate 182, a turnover plate 183, a rotating block 184, a rotating column 185, a displacement cavity 186 and a displacement block 187.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1 to 5, an electric automation control box structurally comprises a mounting plate 1, an operation box 2, heat dissipation holes 3 and control buttons 4, wherein the mounting plate 1 is mounted at the top of the operation box 2, the mounting plate 1 and the operation box 2 are of an integrated structure, the heat dissipation holes 3 are mounted on the operation box 2, the operation box 2 is fixedly connected with the heat dissipation holes 3, the control buttons 4 are arranged on the surface of the operation box 2, and the control buttons 4 are in clearance fit with the operation box 2;

operation box 2 is equipped with radiator 2a, automatically controlled board 2b, cooling box 2c, circulation case 2d, box 2e bottom is equipped with cooling box 2c, cooling box 2c and box 2e fixed connection, circulation case 2d is installed to cooling box 2 c's both sides, circulation case 2d and cooling box 2c activity block, automatically controlled board 2b is established inside box 2e, box 2e and automatically controlled board 2b gomphosis, box 2 e's top is equipped with radiator 2a, radiator 2a passes through loose axle swing joint with box 2e, realizes the diffusion of equipment heat dissipation position.

The radiator 2a is provided with a limiter a1, a transmission plate a2, a housing a3, a heat dissipation fan a4, a driving block a5, a limiting groove a6, a transmission column a7 and a sliding rod a8, the transmission plates a2 are arranged on both sides of the sliding rod a8, the transmission plate a2 is in clearance fit with the sliding rod a8, a driving block a5 is arranged at the center of the sliding rod a8, the driving block a5 is embedded with the sliding rod a8, a transmission column a7 is arranged on the transmission plate a2, the transmission column a7 is movably connected with the transmission plate a2 through a movable shaft, the limiter a1 is mounted on the transmission column a7, the transmission column a7 is movably clamped with the limiter a1, a heat dissipation fan a4 is arranged on the transmission column a7, a4 is movably clamped with the transmission column a7, a6 is mounted at the bottom of the housing a3, the limiting groove 6 a is in an integrated with the sliding rail 6 a6, one end of the transmission column a7, which is attached to the sliding track of the limit groove a6, is provided with a convex sliding shaft, and the heat radiation body is moved through a transmission connection structure.

The stopper a1 is provided with a telescopic passage a11, a moving passage a12, a body a13, an extender a14, a telescopic shaft a15, a moving column a16, a rotating shaft a17 and a reinforcing device a18, both sides of the body a13 are provided with moving passages a12, the moving passage a12 is fixedly connected with the body a13, the body a13 is provided with a rotating shaft a17 at the center position, the rotating shaft a17 is embedded with the body a13, the outer edge of the rotating shaft a17 is provided with a moving column a16, the moving column a16 is in clearance fit with the rotating shaft a17, the moving column a16 is internally provided with an extender a14, the extender a14 is in clearance fit with the moving column a16, the reinforcing device a18 is installed on the rotating shaft a17, the rotating shaft a17 is movably engaged with the reinforcing device a17, the telescopic shaft a17 is installed on the telescopic passage a17, the telescopic passage a17 is in clearance fit with the sliding connection with the moving column 17 a17, and one end of the sliding wheel 17 a17 is engaged with the moving column 17 a17, be equipped with the slip track on rotation axis a17, the other end of removing post a16 is equipped with the arc slider, it passes through arc slider and rotation axis a17 sliding connection to remove post a16, be equipped with the connection cylinder on the rotation axis a17, rotation axis a17 is through connecting cylinder and transmission post a7 fixed connection, realizes the spacing removal of the equipment other end.

Telescopic shaft a15 is curved connecting axle structure, telescopic shaft a 15's one end is equipped with the protruding piece of arc strip, be equipped with the slip recess on the flexible a11 of saying, the groove diameter of flexible a11 is identical with the protruding piece of telescopic shaft a15, telescopic shaft a15 establishes the bottom at flexible a11 of saying, telescopic shaft a15 is equipped with the protruding piece of spring towards the one end that the wall body is connected to ware a13, be equipped with the recess identical with the protruding piece of telescopic shaft a15 spring on the ware a13 connection wall body, telescopic shaft a15 and flexible a11 of saying are respectively through loose axle and removal post a16 swing joint, be equipped with square fretwork mouth on the ware a13, the removal structure of reinforcement equipment.

Extender a14 is equipped with extension block 141, equipment axle 142, fixed block 143, extension way 144, be equipped with extension block 141 on fixed block 143, extension block 141 and fixed block 143 are the integral structure, the both sides of extension block 141 all are equipped with equipment axle 142, equipment axle 142 and extension block 141 fixed connection, extension way 144 is established on fixed block 143, fixed block 143 and extension way 144 welded connection, the both sides and the middle part of fixed block 143 are equipped with the fretwork mouth, the inside spring that is equipped with of equipment axle 142, the one end that equipment axle 142 and fixed block 143 laminated is equipped with rectangular connecting axle, the rectangular connecting axle diameter of fixed block 143 is greater than the fretwork mouth of fixed block 143 both sides, realizes the extension of removal connecting axle length.

An arc connecting column is arranged at one end, facing the fixed block 143, of the extension block 141, a hollow-out opening is formed in the extension block 141, the hollow-out opening of the extension block 141 is matched with the diameter of the extension channel 144, a sliding track is arranged on the extension channel 144, the extension channel 144 is clamped in the middle of the connecting column of the extension block 141, a pulley is arranged on the connecting column of the extension block 141, and the extension of the equipment is achieved through a sliding structure.

The using method comprises the following steps: when the power supply is started, the moving column a16 turns over along the rotating shaft a17, the arc shaft body on the extension block 141 slides along the extension track 144, the assembling shaft 142 is pulled to slide along the hollowed-out openings on the two sides of the fixed block 143, so that the shaft body on the moving column a16 is extended, the triangular angle of the sliding of the limiter a1 is enlarged, the extension shaft a15 and the extension track a11 form an arc shaft body which further supports the moving column a16 to be more stable, under the pulling action of the transmission plate a2, the transmission column a7 slides along the sliding rod a8, the transmission column a7 attached to the limiting groove a6 slides along the sliding notch, the moving column a16 at the other end slides along the moving track a12, when the transmission column a7 slides to the fixed position, the moving column a16 slides along the rotating shaft a17, the shaft body length is shortened under the cooperation of the extender a14, so that the included angle between the moving column a16 and the moving column a16 is reduced, and the protruding block 11 on the extension track a15 slides along the, the protruding block of the telescopic shaft a15 is snapped into the body a13 in coincidence with the telescopic path a11, so that the position-adjusted driving post a7 does not easily slide.

Example two

Referring to fig. 1 to 6, an electric automation control box structurally comprises a mounting plate 1, an operation box 2, heat dissipation holes 3 and control buttons 4, wherein the mounting plate 1 is mounted at the top of the operation box 2, the mounting plate 1 and the operation box 2 are of an integrated structure, the heat dissipation holes 3 are mounted on the operation box 2, the operation box 2 is fixedly connected with the heat dissipation holes 3, the control buttons 4 are arranged on the surface of the operation box 2, and the control buttons 4 are in clearance fit with the operation box 2;

operation box 2 is equipped with radiator 2a, automatically controlled board 2b, cooling box 2c, circulation case 2d, box 2e bottom is equipped with cooling box 2c, cooling box 2c and box 2e fixed connection, circulation case 2d is installed to cooling box 2 c's both sides, circulation case 2d and cooling box 2c activity block, automatically controlled board 2b is established inside box 2e, box 2e and automatically controlled board 2b gomphosis, box 2 e's top is equipped with radiator 2a, radiator 2a passes through loose axle swing joint with box 2e, realizes the diffusion of equipment heat dissipation position.

The radiator 2a is provided with a limiter a1, a transmission plate a2, a housing a3, a heat dissipation fan a4, a driving block a5, a limiting groove a6, a transmission column a7 and a sliding rod a8, the transmission plates a2 are arranged on both sides of the sliding rod a8, the transmission plate a2 is in clearance fit with the sliding rod a8, a driving block a5 is arranged at the center of the sliding rod a8, the driving block a5 is embedded with the sliding rod a8, a transmission column a7 is arranged on the transmission plate a2, the transmission column a7 is movably connected with the transmission plate a2 through a movable shaft, the limiter a1 is mounted on the transmission column a7, the transmission column a7 is movably clamped with the limiter a1, a heat dissipation fan a4 is arranged on the transmission column a7, a4 is movably clamped with the transmission column a7, a6 is mounted at the bottom of the housing a3, the limiting groove 6 a is in an integrated with the sliding rail 6 a6, one end of the transmission column a7, which is attached to the sliding track of the limit groove a6, is provided with a convex sliding shaft, and the heat radiation body is moved through a transmission connection structure.

The stopper a1 is provided with a telescopic passage a11, a moving passage a12, a body a13, an extender a14, a telescopic shaft a15, a moving column a16, a rotating shaft a17 and a reinforcing device a18, both sides of the body a13 are provided with moving passages a12, the moving passage a12 is fixedly connected with the body a13, the body a13 is provided with a rotating shaft a17 at the center position, the rotating shaft a17 is embedded with the body a13, the outer edge of the rotating shaft a17 is provided with a moving column a16, the moving column a16 is in clearance fit with the rotating shaft a17, the moving column a16 is internally provided with an extender a14, the extender a14 is in clearance fit with the moving column a16, the reinforcing device a18 is installed on the rotating shaft a17, the rotating shaft a17 is movably engaged with the reinforcing device a17, the telescopic shaft a17 is installed on the telescopic passage a17, the telescopic passage a17 is in clearance fit with the sliding connection with the moving column 17 a17, and one end of the sliding wheel 17 a17 is engaged with the moving column 17 a17, be equipped with the slip track on rotation axis a17, the other end of removing post a16 is equipped with the arc slider, it passes through arc slider and rotation axis a17 sliding connection to remove post a16, be equipped with the connection cylinder on the rotation axis a17, rotation axis a17 is through connecting cylinder and transmission post a7 fixed connection, realizes the spacing removal of the equipment other end.

Telescopic shaft a15 is curved connecting axle structure, telescopic shaft a 15's one end is equipped with the protruding piece of arc strip, be equipped with the slip recess on the flexible a11 of saying, the groove diameter of flexible a11 is identical with the protruding piece of telescopic shaft a15, telescopic shaft a15 establishes the bottom at flexible a11 of saying, telescopic shaft a15 is equipped with the protruding piece of spring towards the one end that the wall body is connected to ware a13, be equipped with the recess identical with the protruding piece of telescopic shaft a15 spring on the ware a13 connection wall body, telescopic shaft a15 and flexible a11 of saying are respectively through loose axle and removal post a16 swing joint, be equipped with square fretwork mouth on the ware a13, the removal structure of reinforcement equipment.

Extender a14 is equipped with extension block 141, equipment axle 142, fixed block 143, extension way 144, be equipped with extension block 141 on fixed block 143, extension block 141 and fixed block 143 are the integral structure, the both sides of extension block 141 all are equipped with equipment axle 142, equipment axle 142 and extension block 141 fixed connection, extension way 144 is established on fixed block 143, fixed block 143 and extension way 144 welded connection, the both sides and the middle part of fixed block 143 are equipped with the fretwork mouth, the inside spring that is equipped with of equipment axle 142, the one end that equipment axle 142 and fixed block 143 laminated is equipped with rectangular connecting axle, the rectangular connecting axle diameter of fixed block 143 is greater than the fretwork mouth of fixed block 143 both sides, realizes the extension of removal connecting axle length.

An arc connecting column is arranged at one end, facing the fixed block 143, of the extension block 141, a hollow-out opening is formed in the extension block 141, the hollow-out opening of the extension block 141 is matched with the diameter of the extension channel 144, a sliding track is arranged on the extension channel 144, the extension channel 144 is clamped in the middle of the connecting column of the extension block 141, a pulley is arranged on the connecting column of the extension block 141, and the extension of the equipment is achieved through a sliding structure.

The reinforcing device a18 is provided with a pressing block 181, a combination board 182, a turnover board 183, a rotation block 184, a rotation column 185, a displacement cavity 186 and a displacement block 187, the turnover board 183 is arranged on both sides of the combination board 182, the turnover board 183 is movably clamped with the combination board 182, the rotation column 185 is mounted on the combination board 182, the combination board 182 is fixedly connected with the rotation column 185, the rotation block 184 is arranged on the rotation column 185, the rotation block 184 is in clearance fit with the rotation column 185, the displacement cavity 186 is mounted in the rotation block 184, the displacement cavity 186 is fixedly connected with the rotation block 184, the displacement block 187 is mounted at the center of the displacement cavity 186, the pressing block 181 is mounted on the combination board 182, the combination board 182 is movably clamped with the pressing block 181, the turnover board 183 is an arc board, a spring is arranged in the turnover board 183, the pressing block 181 is formed by clamping the turnover plate 183 in the middle through two connecting columns by a movable shaft, and the connecting columns of the pressing block 181 are provided with ball connecting blocks to realize fixation of the position after displacement.

Displacement chamber 186 is the cylinder cavity of central point position fretwork, be equipped with the slip track on the wall body in displacement chamber 186, be equipped with sliding connection piece on the displacement piece 187, the other end of displacement piece 187 is equipped with square protruding piece, displacement chamber 186 is established in one side that the face is connected to turning block 184, turning block 184 is circular plate structure, be equipped with the annular slip recess of circle on the turning block 184, be equipped with the slip connecting axle on the rotation post 185, rotation post 185 passes through slip connecting axle and turning block 184 sliding connection, realizes fixing of equipment through buckle structure.

The stiffener a18 is installed on the basis of the first embodiment, when the moving position of the device is determined, the rotating block 184 rotates along the rotating column 185, the end provided with the displacement block 187 is rotated to the end provided with the snap notch of the device body a13, the displacement block 187 slides along the displacement cavity 186, so that the square protruding block on the displacement block 187 is snapped with the snap notch of the device body a13, the pressing block 181 is turned over along the movable shaft on the combination plate 182, the turning plate 183 is pushed to turn over and abut against the connecting plate surface of the device body a13, the abutting and snapping of the device are further realized, and the transmission column a7 with the adjusted position cannot easily slide.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides an electric automatization control box which characterized in that: the structure of the device comprises a mounting plate (1), an operation box (2), heat dissipation holes (3) and control buttons (4), wherein the mounting plate (1) is mounted at the top of the operation box (2), the operation box (2) is fixedly connected with the heat dissipation holes (3), and the control buttons (4) are arranged on the surface of the operation box (2);

operation box (2) are equipped with radiator (2a), automatically controlled board (2b), cooling box (2c), circulation case (2d), box (2e) bottom is equipped with cooling box (2c), circulation case (2d) and cooling box (2c) activity block, automatically controlled board (2b) are established inside box (2e), radiator (2a) pass through loose axle swing joint with box (2 e).

2. The electrical automation control box of claim 1, wherein: radiator (2a) are equipped with stopper (a1), driving plate (a2), casing (a3), heat dissipation fan (a4), driver block (a5), spacing groove (a6), transmission post (a7), slide bar (a8), driving plate (a2) and slide bar (a8) clearance fit, the central point of slide bar (a8) puts and is equipped with driver block (a5), transmission post (a7) passes through loose axle swing joint with driving plate (a2), stopper (a1) are installed on transmission post (a7), heat dissipation fan (a4) and transmission post (a7) activity block, spacing groove (a6) is installed to casing (a3) bottom.

3. The electrical automation control box of claim 2, wherein: the stopper (a1) is provided with a telescopic channel (a11), a moving channel (a12), a device body (a13), an extender (a14), a telescopic shaft (a15), a moving column (a16), a rotating shaft (a17) and a reinforcing device (a18), wherein the moving channel (a12) is fixedly connected with the device body (a13), the central position of the device body (a13) is provided with the rotating shaft (a17), the moving column (a16) is in clearance fit with the rotating shaft (a17), the moving column (a16) is internally provided with the extender (a14), the reinforcing device (a18) is installed on the rotating shaft (a17), the rotating shaft (a17) is movably clamped with the reinforcing device (a18), the telescopic shaft (a15) is installed on the telescopic channel (a11), and the telescopic channel (a11) is in sliding connection with the telescopic shaft (a 15).

4. An electrical automation control box in accordance with claim 3 wherein: the telescopic shaft (a15) is of an arc connecting shaft structure, and one end of the telescopic shaft (a15) is provided with an arc strip protruding block.

5. An electrical automation control box in accordance with claim 3 wherein: the extender (a14) is provided with an extension block (141), an assembly shaft (142), a fixing block (143) and an extension channel (144), the extension block (141) is arranged on the fixing block (143), the assembly shaft (142) is fixedly connected with the extension block (141), and the extension channel (144) is arranged on the fixing block (143).

6. The electrical automation control box of claim 5, wherein: one end of the extension block (141) is provided with an arc connecting column, and a hollow opening is formed in the extension block (141).

7. An electrical automation control box in accordance with claim 3 wherein: the reinforcing device (a18) is provided with a pressing block (181), a combined plate (182), a turnover plate (183), a rotating block (184), a rotating column (185), a displacement cavity (186) and a displacement block (187), the turnover plate (183) is arranged on each of two sides of the combined plate (182), the combined plate (182) is fixedly connected with the rotating column (185), the rotating block (184) is arranged on the rotating column (185), the displacement cavity (186) is fixedly connected with the rotating block (184), the displacement block (187) is arranged at the center of the displacement cavity (186), and the combined plate (182) is movably clamped with the pressing block (181).

8. The electrical automation control box of claim 7, wherein: the displacement cavity (186) is a cylindrical cavity with a hollow center, and a sliding track is arranged on the displacement cavity (186).

Images