CN113910190A - Portable safety tool access device with misoperation prevention locking function - Google Patents

Abstract

The invention discloses a portable safety tool access device with a misoperation prevention locking function, which comprises a box body, wherein an electroscope storage cavity, an insulating glove storage cavity and a portable grounding wire storage cavity are arranged in the box body; the box body is also internally provided with a cavity IV for placing a battery and a control panel, and the cavity IV is arranged right below the insulating glove storage cavity; this safety tool case has smallly, and convenient to carry can ensure the operation personnel and operate according to standardized operation procedure in the use, has avoided the personal safety because of habitual violation operation causes.

Description

Portable safety tool access device with misoperation prevention locking function

Technical Field

The invention relates to the technical field of electric power safety tool boxes, in particular to a portable safety tool storing and taking device with a misoperation prevention locking function.

Background

Before the overhead transmission line is overhauled in a power failure mode, safety tools such as insulating gloves, electroscopes and grounding wires need to be used for electricity testing and after the grounding wires are installed, overhauling work can be carried out.

However, although the safety tool cabinet used at present meets the requirement of storage environment, the safety tool cabinet is too large in size, cannot be used on a vehicle and on site, and can only be used as a fixed tool cabinet for teams and groups, and the safety tool cabinet does not have a misoperation prevention locking function, so that the habitual violation problem of operators cannot be solved by technical means, for example, habitual violation behaviors such as not wearing insulating gloves when an operation site tests electricity, wearing insulating gloves when a grounding wire is installed, installing a wiring wire when electricity is not tested, and the like occur, and the personal safety of operators cannot be guaranteed. Therefore, it is necessary to provide a portable safety tool access device with an anti-misoperation locking function.

Disclosure of Invention

The invention aims to solve the technical problems that the existing safety tools are inconvenient to carry due to large volume, the safety tools are stored in a messy way on an overhaul site, the storage environment is not compliant, and in addition, the personal safety is easily caused because the operation of an operator to the use process of the safety tools is not operated according to a standardized operation flow.

The technical scheme adopted by the invention for solving the technical problems is as follows: the portable safety tool access device with the misoperation prevention locking function comprises a box body, wherein an electroscope storage cavity, an insulating glove storage cavity and a portable grounding wire storage cavity are arranged in the box body, the electroscope storage cavity and the insulating glove storage cavity are arranged at the left side position of the inner part of the box body, a second partition plate is arranged between the electroscope storage cavity and the insulating glove storage cavity, the portable grounding wire storage cavity is arranged at the right side position of the inner part of the box body, and a first partition plate is arranged between the portable grounding wire storage cavity and the electroscope storage cavity and between the portable grounding wire storage cavity and the insulating glove storage cavity;

a fourth cavity for placing a battery and a control panel is further arranged in the box body, the fourth cavity is arranged right below the insulating glove storage cavity, and a third partition plate is arranged between the insulating glove storage cavity and the fourth cavity;

portable earth connection is deposited the cavity top and is provided with roof two, the inside that cavity was deposited to portable earth connection has set gradually three drawers from last to having set gradually down, the position that corresponds three drawers of group on the right side panel of box all is provided with the drawer mounting groove, the back of drawer stretches into extremely through the drawer mounting groove the inside that cavity was deposited to portable earth connection.

Preferably, a first top plate is transversely arranged in the electroscope storage cavity close to the top, a storage nest for placing an electroscope is arranged at a hole in the middle of the first top plate, the bottom of the storage nest is of a conical structure, and a first signal generator connected with the control board is arranged in the conical structure;

a flexible steel wire electromagnetic lock is sleeved on the periphery of the position, close to the nest opening, above the storage nest, and is fixedly arranged on the top of the first top plate;

the main body of the storage nest is made of soft canvas materials.

Preferably, a group of first sliding rails is symmetrically arranged on the front panel and the rear panel close to the top in the insulating glove storage cavity along the horizontal direction, a flexible board electromagnetic lock is arranged inside the first sliding rails, a reel is arranged at one end of the flexible board electromagnetic lock, the reel is fixedly arranged on the upper surface of the second top plate through a supporting seat, and the other end of the flexible board electromagnetic lock penetrates through the first partition plate and extends into the first sliding rails;

a slide rail fixing plate is arranged below the inner part of the insulating glove storage cavity, two groups of spring slide rails are arranged on the slide rail fixing plate, the tops of the spring slide rails are connected with a bearing platform for placing insulating gloves through movable shafts, and the bearing platform can move up and down along the movable shafts and the spring slide rails;

a contact finger is arranged in the middle of the bottom surface of the bearing platform, a through hole matched with the contact finger is arranged in the middle of the slide rail fixing plate corresponding to the position of the contact finger, and the contact finger extends to the lower part of the slide rail fixing plate through the through hole;

and the middle part of the inner bottom surface of the insulating glove storage cavity is provided with a second signal generator matched with the contact finger, and the second signal generator is connected with the control panel.

Preferably, three groups of third signal generators and first hooks are respectively arranged on the left side surface inside the portable grounding wire storage cavity corresponding to the back of the drawer, and the third signal generators are connected with the control panel;

a contact matched with the third signal generator is arranged on the back panel of the drawer at a position corresponding to the third signal generator;

the surface of drawer all is provided with the electromagnetic lock, and this drawer is used for placing portable earth connection.

Preferably, a second sliding rail matched with the drawer is further arranged inside the portable grounding wire storage cavity, and the drawer is connected inside the portable grounding wire storage cavity in a sliding mode through the second sliding rail.

Preferably, a second hook matched with the first hook is arranged on one side panel of the drawer, and the first hook is connected with the second hook through a spring.

Preferably, the top of the portable ground wire storage cavity is provided with a two-dimensional code scanner, and the two-dimensional code scanner is used for scanning a two-dimensional code unlocking electroscope on an insulating glove and scanning a two-dimensional code on a wire clamp of a lead of the ground wire to be stored in a warehouse.

Preferably, the top of the box body is provided with a starting switch and a loudspeaker at the position close to the left side panel.

Compared with the prior art, the invention has the beneficial effects that: the portable safety tool access device with the misoperation prevention locking function can ensure that an operator can operate the safety tool according to a standardized operation flow by arranging the electromagnetic locking circuit in the box body, optimizing the design of the box body structure and having an intelligent voice prompt function, technically avoid the occurrence of violation behaviors and guarantee the personal safety;

the storage and use state identification of the insulating gloves is realized by arranging the movable bearing platform, the spring slide rail, the slide rail fixing plate and the second signal generator in the insulating glove storage cavity, so that the microprocessor can conveniently judge the position information of the insulating gloves;

the storage nest is arranged in the electroscope storage cavity, the bottom of the storage nest is designed into a cone structure, and the first signal generator is arranged at the cone tip, so that the state identification of the electroscope in storage and use is realized, and meanwhile, the cone structure design can also prevent the electroscope from being placed in storage with the handheld side of the electroscope inwards to cause improper storage damage of the electroscope;

the slide rail type storage drawer, the first hook, the third signal generator, the spring, the contact arranged on the drawer and the second hook are arranged in the portable grounding wire storage cavity, so that the storage and use states of the portable grounding wire are identified, and the structure is simple and effective;

in use, be convenient for scan the two-dimensional code unblock electroscope on the insulating gloves and scan the two-dimensional code on the earth connection wire end clamp through setting up the two-dimensional code scanner and go to the storehouse, realized the standardized operation flow in the safety tool use, this safety tool case is small, portable.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic view of the structure of the electroscope storage chamber of the present invention;

FIG. 4 is a schematic view of the storage chamber of the insulating glove of the present invention;

fig. 5 is a schematic structural view of a portable grounding wire storage cavity according to the present invention;

FIG. 6 is a schematic view of a drawer configuration of the present invention;

fig. 7 is a schematic block diagram of the control board of the present invention.

In the figure: 1. a box body; 2. the electroscope storage cavity; 3. an insulating glove storage cavity; 4. the portable grounding wire storage cavity is provided with a grounding wire storage cavity; 5. a fourth cavity; 6. a battery; 7. a control panel; 8. a two-dimensional code scanner; 9. starting a switch; 10. a speaker; 11. a first clapboard; 12. a second clapboard;

21. a first top plate; 22. a storage nest; 23. a flexible steel wire electromagnetic lock; 24. soft canvas; 25. a first signal generator;

31. a first slide rail; 32. a flexible plate electromagnetic lock; 33. a supporting seat; 34. a slide rail fixing plate; 35. a spring slide rail; 36. a bearing platform; 37. a contact finger; 38. a second signal generator;

41. a second top plate; 42. a second slide rail; 43. an electromagnetic lock; 44. a third signal generator; 45. a first hook; 46. a drawer;

461. a drawer slide; 462. a contact; 463. a second hook; 464. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the portable safety tool storing and taking device with the misoperation prevention locking function comprises a box body 1, wherein an electroscope storing cavity 2, an insulating glove storing cavity 3 and a portable grounding wire storing cavity 4 are arranged inside the box body 1, the electroscope storing cavity 2 and the insulating glove storing cavity 3 are arranged at the left side position inside the box body 1, a second partition plate 12 is arranged between the electroscope storing cavity 2 and the insulating glove storing cavity 3, the portable grounding wire storing cavity 4 is arranged at the right side position inside the box body, and a first partition plate 11 is arranged between the portable grounding wire storing cavity 4 and the electroscope storing cavity 2 and the insulating glove storing cavity 3;

a cavity IV 5 for placing a battery 6 and a control panel 7 is also arranged in the box body 1, the cavity IV 5 is arranged right below the insulating glove storage cavity 3, and a partition plate III is arranged between the insulating glove storage cavity 3 and the cavity IV 5;

portable earth connection is deposited cavity 4 top and is provided with roof two 41, portable earth connection is deposited cavity 4's inside from last three drawers 46 of having set gradually down, the position that corresponds three drawers 46 on box 1's the right side panel all is provided with the drawer mounting groove, the inside that cavity 4 was deposited to portable earth connection is stretched into through the drawer mounting groove in drawer 46's the back.

Referring to fig. 3, a top plate 21 is transversely arranged in the electroscope storage cavity 2 near the top, a storage nest 22 for placing an electroscope is arranged at an opening in the middle of the top plate 21, the bottom of the storage nest 22 is a cone structure, and a first signal generator 25 connected with the control board 7 is arranged in the cone structure;

a flexible steel wire electromagnetic lock 23 is sleeved on the periphery of the position, close to the nest opening, above the storage nest 22, and the flexible steel wire electromagnetic lock 23 is fixedly arranged on the top of the top plate I21;

the main part of storage nest 22 chooses for use soft canvas 24 material to make, and the softer canvas of material is adopted to the main part of storage nest in this embodiment, and the flexible steel wire electromagnetic lock 23 of the cooperation of being convenient for is used, carries out the lock to die the use or the unblock use with the electroscope.

In the embodiment, the bottom of the electroscope storage nest 22 is designed into a cone structure, the tip of the cone is provided with a first signal generator 25 and is connected with the control panel 7, when the metal contact of the electroscope is placed into the storage nest 22 with the side facing inwards, the metal contact of the electroscope can trigger the first signal generator 25 at the tip of the cone, the state signal of the electroscope is transmitted to the microprocessor, and the microprocessor gives a next operation instruction according to the state signal; if the hand-held side of the electroscope is placed into the storage nest 22, the first signal generator 25 at the tip of the cone cannot be triggered, and the next operation step cannot be normally carried out. Because of the special long stick type structure of electroscope, the flexible steel wire electromagnetic lock 23 of electroscope storage cavity 2 inside cooperates soft canvas storage nest 22, the operation of being more convenient for.

Referring to fig. 4, a set of first sliding rails 31 is symmetrically arranged on the front and rear panels near the top inside the insulating glove storage cavity 3 along the horizontal direction, a flexible board electromagnetic lock 32 is installed inside the first sliding rails 31, a reel is arranged at one end of the flexible board electromagnetic lock 32, the reel is fixedly installed on the upper surface of the second top plate 41 through a support seat 33, and the other end of the flexible board electromagnetic lock 32 penetrates through the first partition plate 11 and extends into the first sliding rails 31;

a slide rail fixing plate 34 is arranged below the inner part of the insulating glove storage cavity 3, two groups of spring slide rails 35 are arranged on the slide rail fixing plate 34, the tops of the spring slide rails 35 are connected with a bearing platform 36 for placing insulating gloves through movable shafts, and the bearing platform 36 can move up and down along the movable shafts and the spring slide rails 35;

a contact finger 37 is arranged in the middle of the bottom surface of the bearing platform 36, a through hole matched with the contact finger 37 is arranged in the middle of the slide rail fixing plate 34 corresponding to the position of the contact finger 37, and the contact finger 37 extends into the lower part of the slide rail fixing plate 34 through the through hole;

the middle part of the inner bottom surface of the insulating glove storage cavity 3 is provided with a second signal generator 38 matched with the contact finger 37, and the second signal generator 38 is connected with the control panel 7.

In the embodiment, the insulating glove storage cavity 3 adopts the flexible plate electromagnetic lock 32 which can be curled, and when the insulating glove storage cavity 3 needs to be locked, the flexible plate is controlled by the electromagnetic lock to close the insulating glove storage cavity 3 along the first slide rail 31; when the insulating glove storage cavity 3 needs to be unlocked, the flexible plate slides out along the first slide rail 31 and is retracted by the scroll. The lower end of the insulating glove storage cavity 3 is composed of a bearing platform 36 which can move up and down along a movable shaft, a spring slide rail 35, a slide rail fixing plate 34 and a second signal generator 38. When the insulating gloves are arranged in the insulating glove storage cavity 3, the self weight of the insulating gloves presses the bearing platform 36 to move downwards along the spring slide rail 35, the contact finger 37 arranged at the bottom of the bearing platform 36 also moves along with the bearing platform 36, and finally the second signal generator 38 fixed at the bottom of the insulating glove storage cavity 3 is triggered to transmit the state signals of the insulating gloves to the microprocessor; when the insulating glove is taken out for use, the bearing platform 36 moves upwards under the elastic force of the spring slide rail 35 and drives the contact finger 37 to be separated from the second signal generator 38, which indicates that the insulating glove is taken out for use.

Referring to fig. 5, three sets of third signal generators 44 and first hooks 45 are respectively disposed on the left side of the inside of the portable ground wire storage cavity 4 corresponding to the back of the drawer 46, and the third signal generators 44 are connected to the control board 7;

referring to fig. 6, a contact 462 for cooperating with the third signal generator 44 is disposed on the back panel of the drawer 46 corresponding to the third signal generator 44;

the drawer 46 is provided with an electromagnetic lock 43 on the surface, and the drawer 46 is used for placing a portable grounding wire.

Referring to fig. 5, a second slide rail 42 engaged with a drawer 46 is further disposed inside the portable ground wire storage cavity 4, and the drawer 46 is slidably connected inside the portable ground wire storage cavity 4 through the second slide rail 42.

Referring to fig. 6, a second hook 463 engaged with the first hook 45 is disposed on one side panel of the drawer 46, and the first hook 45 and the second hook 463 are connected by a spring 464.

In this embodiment, the portable ground wire storage cavity 4 is provided with three drawer-type structures for storing three portable ground wires, each drawer is provided with an electromagnetic lock 43, a third signal generator 44 and a first hook 45, and the drawer adopts a slide rail structure. The back of the drawer 46 is provided with a contact 462 that mates with the third signal generator 44, and the actuation signal of the third signal generator 44 is representative of the open or closed state of the drawer 46. The second hook 463 is connected to the first hook 45 via a spring 464. The drawer slide 461 matches with the second slide 42 inside the portable grounding wire storage cavity 4, and after the drawer 46 is pulled open and the grounding wire is taken out, the drawer 46 will be automatically closed under the elastic force of the spring 464, and the third signal generator 44 is triggered.

Referring to fig. 1, a two-dimensional code scanner 8 is disposed at the top of the portable ground wire storage cavity 4, and the two-dimensional code scanner 8 is used for scanning a two-dimensional code unlocking electroscope on an insulating glove and scanning a two-dimensional code on a wire clamp of a ground wire to be stored.

Referring to fig. 1, a start switch 9 and a speaker 10 are disposed at the top of the cabinet 1 near the left panel.

Referring to fig. 7, a control panel 7 is provided with a microprocessor, an electromagnetic lock control circuit, a flexible steel wire electromagnetic lock control circuit, a flexible board electromagnetic lock control circuit and an intelligent voice module, when a start switch 9 is pressed down, the microprocessor automatically controls the flexible board electromagnetic lock in the insulating glove storage cavity control circuit to be opened, and a speaker 10 synchronously broadcasts an intelligent voice prompt: before using the electroscope, please correctly wear the insulating gloves; after an operator takes out the insulating gloves, the movable bearing platform 36 below the insulating glove storage cavity 3 moves upwards along the spring slide rail 35 under the action of spring force, the contact finger 37 arranged at the bottom of the bearing platform 36 moves together with the bearing platform 36 to be separated from the second signal generator 38, at the moment, the second signal generator 38 at the lower end of the insulating glove storage cavity 3 sends an insulating glove taken-out signal to the microprocessor, and the microprocessor automatically controls the electromagnetic lock 32 of the flexible plate in the insulating glove storage cavity 3 to be closed after counting for 10 seconds. Insulating gloves take out and dress the back that finishes, with the two-dimensional code on the insulating gloves of 8 discernment of two-dimensional code scanner, microprocessor receives insulating gloves two-dimensional code signal after, control electroscope deposits the flexible steel wire electromagnetic lock 23 in the cavity 2 and opens, take out the electroscope after, the first signal generator 25 separation of storage nest 22 bottom in electroscope metal contact and the electroscope deposits cavity 2, first signal generator 25 sends the electroscope to microprocessor and has taken out the signal, microprocessor automatic control intelligence voice module, report the safety precautions in the electroscope uses, guarantee that the operating personnel develop the electroscope operation according to standardized operation flow. After the electroscope is over, reset electroscope to electroscope and deposit cavity 2, then electroscope metal contact will trigger the first signal generator 25 of storage nest 22 bottom, first signal generator 25 sends electroscope reset signal to microprocessor, microprocessor automatic control flexible steel wire electromagnetic lock 23 locks the electroscope, and the portable earth connection of synchronous control deposits the upper drawer electromagnetic lock in the cavity and opens, microprocessor synchronous control intelligence voice module, report the safe notice in the use of portable earth connection, and automatic delay 30 seconds, any drawer that causes in this period of time open and shut the operation by mistake, and the drawer rear end third signal generator 44 that leads to triggers by mistake, triggering signal is invalid signal. When the portable grounding wire is taken out from the drawer 46, the grounding wire storage drawer is automatically closed along the second sliding rail 42 under the action of the elastic force of the spring 464 connected with the first hook 45 in the cavity, and the third signal generator 44 is triggered, after the third signal generator 44 exceeds the automatic delay time of the microprocessor, a reset signal of the portable grounding wire storage drawer is sent to the microprocessor, and the microprocessor controls the electromagnetic lock of the drawer on the upper layer of the portable grounding wire storage cavity 4 to be locked. At the moment, after the microprocessor counts for 1 minute, the flexible board electromagnetic lock 32 in the insulating glove storage cavity 3 is automatically controlled to be opened, after the grounding wire is installed, the insulating glove is taken off and placed in the insulating glove storage cavity 3, the insulating glove is pressed by the gravity to move downwards along the spring slide rail 35 along the bearing platform 6, the contact finger 37 arranged at the bottom of the bearing platform 36 moves together with the bearing platform to trigger the second signal generator 38, the second signal generator 38 sends a return signal of the insulating glove to the microprocessor, and after the microprocessor counts for 10 seconds, the flexible board electromagnetic lock 32 in the insulating glove storage cavity 3 is automatically controlled to be closed to form a closed loop. And then the next phase is hung up, and the steps are repeated.

After power failure, the two-dimension code scanner 8 on the box body is only used for recognizing the two-dimension code on the portable grounding wire after the grounding wire is detached, the microprocessor controls the electromagnetic lock of the portable grounding wire storage drawer to be opened after receiving the two-dimension code signal of the portable grounding wire, the grounding wire is put into the rear closed drawer, the third signal generator 44 at the rear end of the drawer is triggered, the third signal generator 44 sends a reset signal of the portable grounding wire storage drawer to the microprocessor, and the microprocessor controls the electromagnetic lock of the corresponding portable grounding wire storage drawer to be locked. At the moment, after the work is finished, all the safety tools and instruments are reset to the portable safety tool and instrument access device with the misoperation prevention locking function, and the closed loop of the rectification operation is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Portable safety tool access arrangement with maloperation locking function prevents, its characterized in that: the portable grounding wire storage cavity is arranged at the right side position of the inner part of the box body, and a first partition plate is arranged between the portable grounding wire storage cavity and the electroscope storage cavity as well as the insulating glove storage cavity;

a fourth cavity for placing a battery and a control panel is further arranged in the box body, the fourth cavity is arranged right below the insulating glove storage cavity, and a third partition plate is arranged between the insulating glove storage cavity and the fourth cavity;

portable earth connection is deposited the cavity top and is provided with roof two, the inside that cavity was deposited to portable earth connection has set gradually three drawers from last to having set gradually down, the position that corresponds three drawers of group on the right side panel of box all is provided with the drawer mounting groove, the back of drawer stretches into extremely through the drawer mounting groove the inside that cavity was deposited to portable earth connection.

2. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 1, wherein: a first top plate is transversely arranged in the electroscope storage cavity close to the top, a storage nest for placing an electroscope is arranged at a hole in the middle of the first top plate, the bottom of the storage nest is of a cone structure, and a first signal generator connected with the control board is arranged in the cone structure;

a flexible steel wire electromagnetic lock is sleeved on the periphery of the position, close to the nest opening, above the storage nest, and is fixedly arranged on the top of the first top plate;

the main body of the storage nest is made of soft canvas materials.

3. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 1, wherein: a group of first sliding rails are symmetrically arranged on the front panel and the rear panel close to the top in the insulating glove storage cavity along the horizontal direction, a flexible board electromagnetic lock is arranged in each first sliding rail, a scroll is arranged at one end of each flexible board electromagnetic lock, each scroll is fixedly arranged on the upper surface of the corresponding top plate II through a supporting seat, and the other end of each flexible board electromagnetic lock penetrates through the corresponding partition plate I and extends into the corresponding first sliding rail;

a slide rail fixing plate is arranged below the inner part of the insulating glove storage cavity, two groups of spring slide rails are arranged on the slide rail fixing plate, the tops of the spring slide rails are connected with a bearing platform for placing insulating gloves through movable shafts, and the bearing platform can move up and down along the movable shafts and the spring slide rails;

a contact finger is arranged in the middle of the bottom surface of the bearing platform, a through hole matched with the contact finger is arranged in the middle of the slide rail fixing plate corresponding to the position of the contact finger, and the contact finger extends to the lower part of the slide rail fixing plate through the through hole;

and the middle part of the inner bottom surface of the insulating glove storage cavity is provided with a second signal generator matched with the contact finger, and the second signal generator is connected with the control panel.

4. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 1, wherein: three groups of third signal generators and first hooks are respectively arranged on the left side surface inside the portable grounding wire storage cavity corresponding to the back position of the drawer, and the third signal generators are connected with the control panel;

a contact matched with the third signal generator is arranged on the back panel of the drawer at a position corresponding to the third signal generator;

the surface of drawer all is provided with the electromagnetic lock, and this drawer is used for placing portable earth connection.

5. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 4, wherein: the inside of cavity is deposited to portable earth connection still is provided with the second slide rail with drawer complex, and this drawer passes through second slide rail sliding connection and is in the inside of cavity is deposited to portable earth connection.

6. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 4, wherein: and a second hook matched with the first hook is arranged on one side panel of the drawer, and the first hook is connected with the second hook through a spring.

7. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 1, wherein: the portable ground wire storage cavity is provided with a two-dimensional code scanner at the top, and the two-dimensional code scanner is used for scanning a two-dimensional code unlocking electroscope on an insulating glove and scanning a two-dimensional code on a wire end clamp of a ground wire to be stored.

8. The portable safety tool access device with the misoperation prevention locking function as claimed in claim 1, wherein: and a starting switch and a loudspeaker are arranged at the position, close to the left side panel, of the top of the box body.

Images