CN114566901A - Explosion and electric shock preventing automatic debugging structure for debugging electric control cabinet and debugging method thereof - Google Patents

Abstract

The invention discloses an explosion and electric shock preventing automatic debugging structure for debugging an electric control cabinet and a debugging method thereof, belonging to the technical field of safety protection for debugging the electric control cabinet, wherein an L-shaped bracket is moved forwards to enable L-shaped side clamping arms to be positioned at two sides of the electric control cabinet, a driving assembly is driven by reverse operation to drive the L-shaped side clamping arms to clamp the electric control cabinet, a handle of the electric control cabinet is clamped at the inner side of the electric control cabinet through a handle limiting clamp of the U-shaped electric control cabinet, a first electric telescopic rod is started to drive a door plate pressing assembly to press a door plate, an electric rotary disc is started to rotate to a proper position, a mechanical arm assembly is started to the position of a control button of the electric control cabinet, electric leakage is avoided to electrically injure electric personnel by starting a second electric telescopic rod to press the control button for debugging, preliminary buffering is realized through the door plate pressing assembly when explosion occurs, and door lock is prevented from being opened through the handle limiting clamp of the U-shaped electric control cabinet, further cushioning is achieved by the cooperation of the cushioning assembly with the H-shaped hinged side brackets.

Description

Explosion-proof electric shock automatic debugging structure for debugging electric control cabinet and debugging method thereof

Technical Field

The invention relates to a safety protection structure for debugging of an electric control cabinet, in particular to an explosion and electric shock prevention automatic debugging structure for debugging of the electric control cabinet, and further relates to a safety protection method for debugging of the electric control cabinet, in particular to an explosion and electric shock prevention automatic debugging method for debugging of the electric control cabinet, and belongs to the technical field of safety protection for debugging of the electric control cabinet.

Background

The electric control cabinet is a control cabinet (box) which is formed by assembling switch equipment, measuring instruments, protective electric appliances and auxiliary equipment in a closed or semi-closed metal cabinet or on a screen according to the requirements of electric wiring, and the arrangement of the control cabinet (box) meets the requirements of normal operation of an electric power system, is convenient to overhaul, does not endanger the safety of human bodies and surrounding equipment, comprises a power distribution cabinet (distribution box) (electric appliance control cabinet) and the like, a circuit can be switched on or switched off by a manual or automatic switch in normal operation, a circuit can be switched off or an alarm can be switched off by the protective electric appliances in fault or abnormal operation, various parameters in operation can be displayed by the measuring instruments, certain electric parameters can be adjusted, and the prompting or the signal of the deviation from the normal working state is sent, and the electric control cabinet is commonly used in various power generation, distribution and transformation substations.

In actual operation, electric operating personnel often debugs automatically controlled cabinet through wearing insulating gloves after, close the cabinet door then press control button and debug, and cabinet body electric leakage can appear in the mode of this kind of debugging and lead to electric operating personnel to electrocute the problem, more serious to the problem that circuit short circuit scheduling problem can appear sometimes and lead to appearing exploding to automatically controlled cabinet circuit, lead to electric operating personnel to be injured, design explosion-proof electrocute automatic debugging structure and debugging method for this reason automatically controlled cabinet debugging and optimize above-mentioned problem.

Disclosure of Invention

The invention mainly aims to provide an explosion and electric shock preventing automatic debugging structure for debugging an electric control cabinet and a debugging method thereof, wherein the device is placed at the front door of the electric control cabinet, a bevel gear transmission component is driven by starting a driving component, a screw rod telescopic component is driven by the bevel gear transmission component to drive an L-shaped side clamping arm to the width of a composite electric control cabinet, an L-shaped support is moved forwards to enable the L-shaped side clamping arm to be positioned at two sides of the electric control cabinet, the L-shaped side clamping arm is driven by the reverse operation driving component to clamp the electric control cabinet, a handle of the electric control cabinet is clamped at the inner side of the L-shaped side clamping arm by a handle limiting clamp of the U-shaped electric control cabinet, a first electric telescopic rod is started to drive a door plate pressing component to press a door plate, an electric turntable is started to rotate to a proper position, a mechanical arm component is started to the position of a control button of the electric control cabinet, electric leakage is debugged by starting a second electric telescopic rod to avoid electric leakage from damaging electric personnel, when exploding, realize preliminary buffering through the door plant pressing component, avoid the lock to open through the automatically controlled cabinet handle spacing clamp of U type, realize further buffering through mutually supporting of buffering subassembly and the articulated collateral branch strut of H type.

The purpose of the invention can be achieved by adopting the following technical scheme:

an explosion-proof electric shock automatic debugging structure for debugging an electric control cabinet comprises an L-shaped support and a back plate arranged at the end part of the side of the L-shaped support, wherein one side of the back plate, which is far away from the back plate, is provided with a front panel, the middle part in the front panel is provided with a driving assembly, the top and the bottom of one side of the driving assembly are respectively provided with a bevel gear transmission assembly, two sides of the bevel gear transmission assembly are respectively provided with a screw telescopic assembly, the two sides of the driving assembly are respectively provided with a telescopic slide rod assembly at positions close to the upper part and the lower part of each screw telescopic assembly, the middle part of one side of the front panel, which is far away from the back plate, is provided with a first electric telescopic rod, the output end of the first electric telescopic rod is provided with a door plate pressing assembly, one end of the screw telescopic assembly, which is far away from the front panel, is provided with an L-shaped side clamping arm, and the top of one side of the back plate, which is far away from the front panel, is provided with an electric rotary table, keep away from electric turntable one side of backplate installs L type articulated arm, L type articulated arm is kept away from mechanical arm component is installed to electric turntable's one end, mechanical arm component keeps away from the one end of L type articulated arm is equipped with the arc prevention board, the arc prevention board is kept away from mechanical arm component's one end is equipped with second electric telescopic handle.

Preferably, drive assembly includes fixing base, double-end driving motor and pivot, the fixing base is installed openly the face to the middle part of backplate one side, install double-end driving motor on the fixing base, the pivot is all installed with the bottom output in double-end driving motor's top.

Preferably, the bevel gear transmission assembly comprises a first bevel gear, a third bevel gear and a second bevel gear, the first bevel gear is mounted at the output end of the rotating shaft, and the outer side of the first bevel gear is meshed with the second bevel gear and the third bevel gear respectively.

Preferably, the screw rod telescopic assembly comprises a threaded rod and an outer sleeve, the outer sleeve is installed on the middle portion, away from the first bevel gear, of one side of the second bevel gear and the third bevel gear, the outer sleeve is located on the inner side of the front panel and fixed to the front panel through a bearing, inner threads matched with the threaded rod are arranged on the inner side of the outer sleeve, the threaded rod is partially located on the inner side of the outer sleeve, and the L-shaped side clamping arm is installed at one end, away from the front panel, of the threaded rod.

Preferably, the telescopic sliding rod assembly comprises an inner sliding rod and an outer sleeve, the outer sleeve is arranged on two sides of the front panel and close to the outer sleeve, the inner sliding rod is arranged on the inner side of the outer sleeve, and one end, far away from the front panel, of the inner sliding rod is arranged on the L-shaped side clamping arm.

Preferably, the arm assembly includes second position adjustment motor, first articulated arm, second articulated arm and first position adjustment motor, second position adjustment motor is installed L type articulated arm side top, the output of second position adjustment motor runs through the installation first articulated arm, first articulated arm is kept away from first articulated arm is installed to L type articulated arm side end, the output of first position adjustment motor runs through first articulated arm installs the second articulated arm, the second articulated arm is kept away from the one end installation of first position adjustment motor the anti-arc board.

Preferably, the door plant is pressed the subassembly and is held board, hinge bar, outer slide cartridge, fixed plate, first buffer spring, interior buffering slide bar, second buffer spring, limit slide block and L type slide rail including pressing, the fixed plate is kept away from one side mid-mounting of first electric telescopic handle has outer slide cartridge, the inboard of outer slide cartridge is equipped with first buffer spring, first buffer spring keeps away from interior buffering slide bar is installed to one side of bottom in the outer slide cartridge, interior buffering slide bar is kept away from the one end of first electric telescopic handle is installed and is pressed and hold the board, L type slide rail is installed the fixed plate is kept away from the both ends of first electric telescopic handle one side, slide card is equipped with limit slide block on the L type slide rail, limit slide block pass through the hinge bar with it is articulated to press holding the board, limit slide block towards one side of outer slide cartridge is equipped with the buffer unit, just second buffer spring keeps away from the one end of limit slide block lateral wall is installed on the L type slide rail inner wall.

Preferably, a side connecting plate is installed between the inner sliding rod above one side of the front plate and the inner sliding rod below the front plate, a U-shaped electric control cabinet handle limiting clamp is arranged in the middle of one side of the side connecting plate facing the first electric telescopic rod, and a sponge layer is arranged on the inner side of the U-shaped electric control cabinet handle limiting clamp.

Preferably, the middle part of the outer side of the L-shaped support is hinged with an H-shaped hinged side support frame, the bottom of the L-shaped support is provided with a base, and a buffer component is arranged between the H-shaped hinged side support frame and the base.

The invention also provides a debugging method of the explosion and electric shock preventing automatic debugging structure for debugging the electric control cabinet, which comprises the following steps:

step 1: the device is placed at the front door of the electric control cabinet;

step 2: the driving component is started to drive the bevel gear transmission component, and the bevel gear transmission component drives the screw rod telescopic component to drive the L-shaped side clamping arm to the width of the composite electric control cabinet;

and step 3: moving the L-shaped bracket forwards to enable the L-shaped side clamping arms to be positioned at two sides of the electric control cabinet, and driving the L-shaped side clamping arms to clamp the electric control cabinet through the reverse operation driving assembly;

and 4, step 4: simultaneously, the handle of the electric control cabinet is clamped at the inner side of the U-shaped electric control cabinet handle limiting clamp;

and 5: starting the first electric telescopic rod to drive the door plate pressing component to press the door plate;

step 6: starting the electric turntable to rotate to a proper direction and then starting the mechanical arm assembly to the position of a control button of the electric control cabinet;

and 7: the second electric telescopic rod is started to press the control button for debugging, so that electric leakage is avoided, and electric injury to electric personnel is avoided;

and step 8: when exploding, realize preliminary buffering through the door plant pressing component, avoid the lock to open through the automatically controlled cabinet handle spacing clamp of U type, realize further buffering through mutually supporting of buffering subassembly and the articulated collateral branch strut of H type.

The invention has the beneficial technical effects that:

the invention provides an explosion and electric shock preventing automatic debugging structure for debugging an electric control cabinet and a debugging method thereof, wherein a device is placed at the front door of the electric control cabinet, a bevel gear transmission component is driven by starting a driving component, a screw rod telescopic component is driven by the bevel gear transmission component to drive an L-shaped side clamping arm to the width of a composite electric control cabinet, an L-shaped support is moved forwards to enable the L-shaped side clamping arm to be positioned at two sides of the electric control cabinet, the L-shaped side clamping arm is driven by the bevel gear transmission component to clamp the electric control cabinet by reversely operating the driving component, a handle of the electric control cabinet is clamped at the inner side of the handle limiting clamp by a handle limiting clamp of the U-shaped electric control cabinet, a first electric telescopic rod is started to drive a door plate pressing component to press a door plate, an electric turntable is started to rotate to a proper position, a mechanical arm component is started to a control button position of the electric control cabinet, a second electric telescopic rod is started to debug to avoid electric leakage from causing electric injury to electric personnel, when exploding, realize preliminary buffering through the door plant pressing component, avoid the lock to open through the automatically controlled cabinet handle spacing clamp of U type, realize further buffering through mutually supporting of buffering subassembly and the articulated collateral branch strut of H type.

Drawings

Fig. 1 is an exploded perspective view of an explosion and electric shock preventing automatic debugging structure and a debugging method thereof for debugging an electric control cabinet according to a preferred embodiment of the present invention;

fig. 2 is a schematic view of a combined three-dimensional structure of a clamping assembly, an adjusting transmission assembly, a driving assembly and a pressing door plate assembly according to a preferred embodiment of an explosion and electric shock preventing automatic debugging structure for debugging an electric control cabinet and a debugging method thereof;

fig. 3 is a schematic view of a combined three-dimensional structure of a backboard support assembly and a mechanical arm assembly according to a preferred embodiment of an explosion-proof electric shock automatic debugging structure for debugging an electric control cabinet and a debugging method thereof;

fig. 4 is an overall three-dimensional structure diagram of the device of a preferred embodiment of the explosion-proof electric shock automatic debugging structure for debugging the electric control cabinet and the debugging method thereof according to the present invention;

fig. 5 is a schematic perspective view of a door panel pressing assembly according to a preferred embodiment of an explosion-proof electric shock automatic debugging structure for debugging an electric control cabinet and a debugging method thereof in the present invention;

fig. 6 is a side view of a door panel pressing assembly of an explosion and electric shock preventing automatic debugging structure for debugging an electric control cabinet and a debugging method thereof according to a preferred embodiment of the present invention;

fig. 7 is an enlarged view of a structure at a position a in a preferred embodiment of an explosion-proof electric shock automatic debugging structure for debugging an electric control cabinet and a debugging method thereof according to the present invention;

fig. 8 is an enlarged view of a structure at the position b of a preferred embodiment of the explosion and electric shock preventing automatic debugging structure for debugging the electric control cabinet and the debugging method thereof according to the invention;

fig. 9 is an enlarged view of the structure at the position c of a preferred embodiment of the explosion and electric shock preventing automatic debugging structure for debugging the electric control cabinet and the debugging method thereof according to the invention;

fig. 10 is an enlarged view of a structure at a position d in a preferred embodiment of the explosion and electric shock preventing automatic debugging structure for debugging the electric control cabinet and the debugging method thereof according to the invention;

fig. 11 is an enlarged view of a structure at the position e in a preferred embodiment of the explosion-proof electric shock automatic debugging structure for debugging the electric control cabinet and the debugging method thereof according to the present invention.

In the figure: 1-L-shaped bracket, 2-H-shaped hinged side support frame, 3-base, 4-back plate, 5-L-shaped hinged arm, 6-electric rotary table, 7-L-shaped side clamping arm, 8-first electric telescopic rod, 9-door panel pressing component, 10-mechanical arm component, 11-front panel, 12-bevel gear transmission component, 13-first bevel gear, 14-driving component, 15-inner slide rod, 16-threaded rod, 17-outer sleeve, 18-outer sleeve, 19-first hinged arm, 20-buffer component, 21-side connecting plate, 22-fixing plate, 23-pressing plate, 24-hinged rod, 25-first orientation adjusting motor, 26-inner buffer slide rod, 27-first buffer spring, 28-outer slide cylinder, 29-a limiting slide block, 30-a second buffer spring, 31-an L-shaped slide rail, 32-a U-shaped electric control cabinet handle limiting clamp, 33-a rotating shaft, 34-a second bevel gear, 35-a third bevel gear, 36-a double-head driving motor, 37-a second articulated arm, 38-a second electric telescopic rod, 39-an anti-arc plate and 40-a second azimuth adjusting motor.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example one

As shown in fig. 1-11, the automatic debugging structure for preventing explosion and electric shock for debugging an electric control cabinet provided in this embodiment includes an L-shaped bracket 1 and a back plate 4 installed at the side end of the L-shaped bracket 1, a front plate 11 is installed at one side of the back plate 4 away from the back plate 4, a driving assembly 14 is installed at the middle portion of the front plate 11, bevel gear transmission assemblies 12 are installed at the top and bottom of one side of the driving assembly 14, screw rod telescopic assemblies are installed at both sides of the bevel gear transmission assemblies 12, telescopic slide rod assemblies are installed at positions on both sides of the driving assembly 14 near the upper and lower positions of each set of screw rod telescopic assemblies, a first electric telescopic rod 8 is installed at the middle portion of one side of the front plate 11 away from the back plate 4, a door plate pressing assembly 9 is installed at an output end of the first electric telescopic rod assembly 8, an L-shaped side clamping arm 7 is installed at one end of the screw rod telescopic assembly away from the front plate 11, an electric rotary table 6 is installed at the top of one side of the back plate 4 away from the front plate 11, the side of electric turntable 6 keeping away from backplate 4 installs L type articulated arm 5, and the arm assembly 10 is installed to the one end that electric turntable 6 was kept away from to L type articulated arm 5, and the one end that arm assembly 10 kept away from L type articulated arm 5 is equipped with anti-electric arc board 39, and the one end that arm assembly 10 was kept away from to anti-electric arc board 39 is equipped with second electric telescopic handle 38.

The device is placed at the front door of an electric control cabinet, a bevel gear transmission component 12 is driven by a starting drive component 14, a screw rod telescopic component is driven by the bevel gear transmission component 12 to drive an L-shaped side clamping arm 7 to the width of a composite electric control cabinet, an L-shaped support 1 is moved forwards to enable the L-shaped side clamping arm 7 to be positioned at two sides of the electric control cabinet, the L-shaped side clamping arm 7 is driven by the reverse operation drive component 14 to clamp the electric control cabinet, a handle of the electric control cabinet is clamped at the inner side of the handle limiting clamp 32 of the U-shaped electric control cabinet, a first electric telescopic rod 8 is started to drive a door plate pressing component 9 to press a door plate, an electric rotary disc 6 is started to rotate to a proper position, a mechanical arm component 10 is started to the position of a control button of the electric control cabinet, electric leakage is avoided by starting a second electric telescopic rod 38 to press the control button to debug, electric personnel are prevented from being electrically injured when explosion occurs, realize preliminary buffering through door plant pressing component 9, avoid the lock to open through the automatically controlled cabinet handle of U type spacing clamp 32, realize further buffering through mutually supporting of buffering subassembly 20 and the articulated collateral branch strut frame 2 of H type.

In this embodiment, the driving assembly 14 includes a fixing base, a double-headed driving motor 36 and a rotating shaft 33, the fixing base is installed in the middle of one side of the front panel 11 facing the back panel 4, the double-headed driving motor 36 is installed on the fixing base, the rotating shaft 33 is installed at the top and bottom output ends of the double-headed driving motor 36, the bevel gear transmission assembly 12 includes a first bevel gear 13, a third bevel gear 35 and a second bevel gear 34, the first bevel gear 13 is installed at the output end of the rotating shaft 33, and the outer side of the first bevel gear 13 is respectively engaged with the second bevel gear 34 and the third bevel gear 35.

The double-headed driving motor 36 is started to drive the rotating shaft 33 to rotate, the first bevel gear 13 is driven to rotate through the rotating shaft 33, and the second bevel gear 34 and the third bevel gear 35 are driven to rotate through the first bevel gear 13.

In this embodiment, the screw rod telescopic assembly includes a threaded rod 16 and an outer sleeve 17, the outer sleeve 17 is installed in the middle of one side of the second bevel gear 34 and the third bevel gear 35 away from the first bevel gear 13, the outer sleeve 17 is located at the inner side of the front panel 11 and fixed with the front panel 11 through a bearing, the inner side of the outer sleeve 17 is provided with an internal thread mutually matched with the threaded rod 16, the threaded rod 16 is partially located at the inner side of the outer sleeve 17, and one end of the threaded rod 16 away from the front panel 11 is installed with an L-shaped side clamping arm 7.

The threaded rod 16 is driven to rotate by the rotation of the outer sleeve 17, and the L-shaped side clamping arm 7 is pushed to be in a proper width through the threaded rod 16.

In this embodiment, the telescopic sliding rod assembly comprises an inner sliding rod 15 and an outer sleeve 18, the outer sleeve 18 is installed at both sides of the front panel 11 and near the outer sleeve 17, the inner sliding rod 15 is installed at the inner side of the outer sleeve 18, and the end of the inner sliding rod 15 far away from the front panel 11 is installed with the L-shaped side clamping arm 7.

The inner slide bar 15 is driven to move on the outer sleeve 18 when adjusted by the L-shaped side clamping arm 7.

In the present embodiment, the robot arm assembly 10 includes a second position adjusting motor 40, a first hinge arm 19, a second hinge arm 37 and a first position adjusting motor 25, the second position adjusting motor 40 is installed on the top of the side of the L-shaped hinge arm 5, an output end of the second position adjusting motor 40 penetrates the first hinge arm 19, the first position adjusting motor 25 is installed on an end of the first hinge arm 19 away from the side of the L-shaped hinge arm 5, the second hinge arm 37 is installed on an output end of the first position adjusting motor 25 penetrating the first hinge arm 19, and an arc-proof plate 39 is installed on an end of the second hinge arm 37 away from the first position adjusting motor 25.

The first hinge arm 19 is driven to rotate to a proper position by starting the second azimuth adjusting motor 40, the second hinge arm 37 is driven to rotate to a proper position by starting the first azimuth adjusting motor 25, and the button is pressed by the second electric telescopic rod 38.

In this embodiment, the door pressing assembly 9 includes a pressing plate 23, a hinge rod 24, an outer sliding barrel 28, a fixing plate 22, a first buffer spring 27, an inner buffer sliding rod 26, a second buffer spring 30, a limit slider 29 and an L-shaped sliding rail 31, the outer sliding barrel 28 is installed in the middle of one side of the fixing plate 22 away from the first electric telescopic rod 8, the first buffer spring 27 is installed inside the outer sliding barrel 28, the inner buffer sliding rod 26 is installed on one side of the first buffer spring 27 away from the inner bottom of the outer sliding barrel 28, the pressing plate 23 is installed on one end of the inner buffer sliding rod 26 away from the first electric telescopic rod 8, the L-shaped sliding rail 31 is installed at two ends of one side of the fixing plate 22 away from the first electric telescopic rod 8, the limit slider 29 is slidably clamped on the L-shaped sliding rail 31, the limit slider 29 is hinged to the pressing plate 23 through the hinge rod 24, the buffer assembly 20 is installed on one side of the limit slider 29 facing the outer sliding barrel 28, and one end of the second buffer spring 30 far away from the side wall of the limiting slide block 29 is arranged on the inner wall of the L-shaped slide rail 31.

In this embodiment, a side connecting plate 21 is installed between the inner slide bar 15 located above one side of the front panel 11 and the inner slide bar 15 located below, a U-shaped electric control cabinet handle limiting clamp 32 is arranged at the middle of one side of the side connecting plate 21 facing the first electric telescopic rod 8, and a sponge layer is arranged on the inner side of the U-shaped electric control cabinet handle limiting clamp 32.

In this embodiment, the middle part of the outer side of the L-shaped bracket 1 is hinged with an H-shaped hinged side support frame 2, the bottom of the L-shaped bracket 1 is provided with a base 3, and a buffer assembly 20 is arranged between the H-shaped hinged side support frame 2 and the base 3.

Example two

A debugging method of an explosion and electric shock preventing automatic debugging structure for debugging an electric control cabinet comprises the following steps:

step 1: the device is placed at the front door of the electric control cabinet;

step 2: the driving component 14 is started to drive the bevel gear transmission component 12, and the bevel gear transmission component 12 drives the screw rod telescopic component to drive the L-shaped side clamping arm 7 to the width of the composite electric control cabinet;

and step 3: the L-shaped bracket 1 is moved forwards to enable the L-shaped side clamping arms 7 to be positioned at two sides of the electric control cabinet, and the L-shaped side clamping arms 7 are driven by the reverse operation driving assembly 14 to clamp the electric control cabinet;

and 4, step 4: meanwhile, the handle of the electric control cabinet is clamped at the inner side of the U-shaped electric control cabinet handle limiting clamp 32;

and 5: starting the first electric telescopic rod 8 to drive the door plate pressing component 9 to press the door plate;

step 6: starting the electric turntable 6 to rotate to a proper direction and then starting the mechanical arm assembly 10 to the position of a control button of the electric control cabinet;

and 7: the second electric telescopic rod 38 is started to press a control button for debugging, so that electric leakage is avoided, and electric injury to electric personnel is avoided;

and 8: when exploding, press down subassembly 9 through the door plant and realize preliminary buffering, avoid the lock to open through automatically controlled cabinet handle limit clamp 32 of U type, realize further buffering through mutually supporting of buffering subassembly 20 and the articulated side support frame 2 of H type.

The above description is only a further embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its idea within the scope of the present invention.

Claims (10)

1. The utility model provides an explosion-proof electric shock automatic debugging structure for automatically controlled cabinet debugging which characterized in that: the device comprises an L-shaped support (1) and a back plate (4) arranged at the side end part of the L-shaped support (1), wherein a front panel (11) is arranged on one side, away from the back plate (4), of the back plate (4), a driving assembly (14) is arranged in the middle of the front panel (11), bevel gear transmission assemblies (12) are arranged at the top and the bottom of one side of the driving assembly (14), screw telescopic assemblies are arranged on two sides of each bevel gear transmission assembly (12), telescopic sliding rod assemblies are arranged at the positions, close to the upper and lower positions of each screw telescopic assembly, of two sides of each driving assembly (14), a first electric telescopic rod (8) is arranged in the middle of one side, away from the back plate (4), of the front panel (11), a door plate pressing assembly (9) is arranged at the output end of the first electric telescopic rod (8), and an L-shaped side clamping arm (7) is arranged at one end, away from the front panel (11), of the screw telescopic assembly, keep away from backplate (4) electric turntable (6) are installed at one side top of positive panel (11), electric turntable (6) are kept away from L type articulated arm (5) are installed to one side of backplate (4), keep away from L type articulated arm (5) mechanical arm subassembly (10) are installed to the one end of electric turntable (6), mechanical arm subassembly (10) are kept away from the one end of L type articulated arm (5) is equipped with anti-electric arc board (39), anti-electric arc board (39) are kept away from the one end of mechanical arm subassembly (10) is equipped with second electric telescopic handle (38).

2. The explosion and electric shock preventing automatic debugging structure for debugging the electric control cabinet as claimed in claim 1, which is characterized in that: drive assembly (14) are including fixing base, double-end driving motor (36) and pivot (33), the fixing base is installed positive panel (11) towards the middle part of backplate (4) one side, install double-end driving motor (36) on the fixing base, pivot (33) are all installed to the top and the bottom output of double-end driving motor (36).

3. The automatic debugging structure for preventing explosion and electric shock for debugging of the electric control cabinet, according to claim 2, characterized in that: the bevel gear transmission component (12) comprises a first bevel gear (13), a third bevel gear (35) and a second bevel gear (34), the first bevel gear (13) is installed at the output end of the rotating shaft (33), and the outer side of the first bevel gear (13) is meshed with the second bevel gear (34) and the third bevel gear (35) respectively.

4. The automatic debugging structure for preventing explosion and electric shock for debugging of the electric control cabinet, according to claim 2, characterized in that: the screw rod telescopic assembly comprises a threaded rod (16) and an outer sleeve (17), the outer sleeve (17) is installed at the middle part of one side, away from the first bevel gear (13), of the second bevel gear (34) and the third bevel gear (35), the outer sleeve (17) is located at the inner side of the front panel (11) and fixed to the front panel (11) through a bearing, inner threads matched with the threaded rod (16) are arranged on the inner side of the outer sleeve (17), the threaded rod (16) is partially located on the inner side of the outer sleeve (17), and the L-shaped side clamping arm (7) is installed at one end, away from the front panel (11), of the threaded rod (16).

5. The automatic debugging structure of claim 4, which is used for debugging the electric control cabinet and preventing explosion and electric shock, and is characterized in that: the telescopic sliding rod assembly comprises an inner sliding rod (15) and an outer sleeve (18), the outer sleeve (18) is installed on two sides of the front panel (11) and close to the outer sleeve (17), the inner side of the outer sleeve (18) is provided with the inner sliding rod (15), the inner sliding rod (15) is far away from one end of the front panel (11) and is installed on the L-shaped side clamping arm (7).

6. The automatic debugging structure for preventing explosion and electric shock for debugging of the electric control cabinet, according to claim 1, characterized in that: mechanical arm assembly (10) include second position adjustment motor (40), first articulated arm (19), second articulated arm (37) and first position adjustment motor (25), second position adjustment motor (40) are installed L type articulated arm (5) side top, the output of second position adjustment motor (40) runs through the installation first articulated arm (19), first articulated arm (19) are kept away from first position adjustment motor (25) are installed to L type articulated arm (5) one side tip, the output of first position adjustment motor (25) runs through second articulated arm (37) are installed to first articulated arm (19), second articulated arm (37) are kept away from the one end installation of first position adjustment motor (25) arc prevention board (39).

7. The automatic debugging structure for preventing explosion and electric shock for debugging of the electric control cabinet, according to claim 1, characterized in that: the door plate pressing assembly (9) comprises a pressing holding plate (23), a hinge rod (24), an outer sliding barrel (28), a fixing plate (22), a first buffer spring (27), an inner buffer sliding rod (26), a second buffer spring (30), a limiting slide block (29) and an L-shaped slide rail (31), the middle of one side, far away from the first electric telescopic rod (8), of the fixing plate (22) is provided with the outer sliding barrel (28), the inner side of the outer sliding barrel (28) is provided with the first buffer spring (27), the inner buffer sliding rod (26) is installed on one side, far away from the inner bottom of the outer sliding barrel (28), of the first buffer spring (27), the pressing holding plate (23) is installed on one end, far away from the first electric telescopic rod (8), of the inner buffer sliding rod (26), the L-shaped slide rail (31) is installed on two ends, far away from one side of the first electric telescopic rod (8), of the fixing plate (22), l type slide rail (31) are gone up the sliding card and are equipped with limit slide (29), limit slide (29) through hinge bar (24) with it is articulated to press holding plate (23), limit slide (29) towards one side of outer slide cartridge (28) is equipped with buffering subassembly (20), just second buffer spring (30) are kept away from the one end of limit slide (29) lateral wall is installed on L type slide rail (31) inner wall.

8. The automatic debugging structure for preventing explosion and electric shock for debugging of the electric control cabinet, according to claim 1, characterized in that: and a side connecting plate (21) is arranged between the inner sliding rod (15) above one side of the front panel (11) and the inner sliding rod (15) below the front panel, the side connecting plate (21) faces to a U-shaped electric control cabinet handle limiting clamp (32) arranged in the middle of one side of the first electric telescopic rod (8), and a sponge layer is arranged on the inner side of the U-shaped electric control cabinet handle limiting clamp (32).

9. The automatic debugging structure for preventing explosion and electric shock for debugging of the electric control cabinet, according to claim 1, characterized in that: articulated the articulated collateral branch strut frame of H type (2) of middle part in L type support (1) outside, base (3) are installed to the bottom of L type support (1), the articulated collateral branch strut frame of H type (2) with install buffering subassembly (20) between base (3).

10. The debugging method of the explosion and electric shock preventing automatic debugging structure for debugging the electric control cabinet as claimed in any one of claims 1 to 9, comprising the steps of:

step 1: by placing the device at the front door of the electric control cabinet;

step 2: the bevel gear transmission component (12) is driven by starting the driving component (14), and the screw rod telescopic component is driven by the bevel gear transmission component (12) to drive the L-shaped side clamping arm (7) to the width of the composite electric control cabinet;

and step 3: the L-shaped bracket (1) is moved forwards to enable the L-shaped side clamping arms (7) to be positioned at two sides of the electric control cabinet, and the L-shaped side clamping arms (7) are driven by the reverse operation driving assembly (14) to clamp the electric control cabinet;

and 4, step 4: meanwhile, the electric control cabinet handle is clamped at the inner side of the U-shaped electric control cabinet handle limiting clamp (32);

and 5: starting a first electric telescopic rod (8) to drive a door plate pressing component (9) to press a door plate;

step 6: starting the electric turntable (6) to rotate to a proper position, and then starting the mechanical arm assembly (10) to the position of a control button of the electric control cabinet;

and 7: the second electric telescopic rod (38) is started to press the control button to debug, so that electric leakage is avoided, and electric injury to electric personnel is avoided;

and 8: when exploding, press down subassembly (9) through the door plant and realize preliminary buffering, avoid the lock to open through the spacing clamp of the automatically controlled cabinet handle of U type (32), realize further buffering through mutually supporting of buffering subassembly (20) and the articulated collateral branch strut frame of H type (2).

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