CN220065479U - Locking device capable of preventing misoperation locking - Google Patents

Abstract

The utility model relates to the technical field of locking devices and discloses an anti-misoperation locking device which comprises a locking unit, a propelling unit and an operating unit, wherein the locking unit comprises a limiting column, a first limiting groove is formed in the horizontal direction of the limiting column in a penetrating manner, a second limiting groove is formed in the vertical direction of the limiting column in a penetrating manner, and a locking column is arranged in the penetrating manner through the first limiting groove; the propulsion unit comprises a propulsion piece which is connected with the locking column and can change the horizontal position of the locking column, and the propulsion piece is connected with a first rotating rod which passes through the second limiting groove. According to the utility model, the locking unit is driven to move through the rotation of the operation unit, so that the basic locking function is realized, and the rotation of the operation unit can drive the first prompting board and the second prompting board to deflect when the device is in a locking/unlocking state, so that the visual monitoring of the locking device of the high-voltage switch cabinet is realized.

Description

Locking device capable of preventing misoperation locking

Technical Field

The utility model relates to the technical field of locking devices, in particular to a locking device capable of preventing misoperation locking.

Background

Some existing high-voltage switch cabinets cannot realize the purpose of safe locking in the manufacturing process, so that the existing high-voltage switch cabinets cannot be locked smoothly. In order to solve the above problems, a safe locking device is adopted in the market at present, and a safe and reliable locking function is mainly executed. For example, one type of safety locking device in the related art is in the form of a shutter cover that clamps a crowbar switch to prevent malfunction and to lock safely.

In the actual operation process, the normal maintenance steps are guaranteed by adopting the systems such as working tickets, operation tickets and the like, and the situations that maintenance staff use the working tickets, the operation tickets are not standard and are not in place still exist. And after the electrified indicator lamp of the high-voltage switch cabinet fails, the situation that a maintainer closes the grounding switch blade by mistake is easy to occur, so that potential safety hazards are caused. Therefore, in the use process of the locking device, daily inspection work is often required, the locking device of the high-voltage switch cabinet in the prior market does not have a visual monitoring function, and does not have a misoperation prevention function, so that the use safety of the lockset is low, and the operation of a user is not facilitated.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

The utility model provides the method for reducing the occurrence of the artificial misoperation accidents of the power system station.

Accordingly, the present utility model is directed to a locking device for preventing false locking, which aims to: the visual monitoring of the locking device of the high-voltage switch cabinet is realized, the locking operation is more single, and the misoperation of a user is reduced.

In order to solve the technical problems, the utility model provides the following technical scheme: the locking device comprises a locking unit, a propelling unit and an operating unit, wherein the locking unit comprises a limiting column, a first limiting groove is formed in the horizontal direction of the limiting column in a penetrating manner, a second limiting groove is formed in the vertical direction of the limiting column in a penetrating manner, and a locking column is arranged in the penetrating manner through the first limiting groove; the pushing unit comprises a pushing piece which is connected with the locking column and can change the horizontal position of the locking column, and the pushing piece is connected with a first rotating rod which passes through the second limiting groove; and an operation unit including a second rotating lever connected with the first rotating lever, the second rotating lever being provided with a rotating disk away from a side connected with the first rotating lever.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the locking column is close to the side of the pushing piece and is provided with a first pushing column and a second pushing column which are symmetrical along the first rotating rod, the first pushing column and the second pushing column are identical in structure, and the limiting column is also provided with a third limiting groove matched with the first pushing column and the second pushing column.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the first pushing column comprises an outer edge column matched with the pushing piece, and a supporting column which is arranged inside the outer edge column and matched with the third limiting groove.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the pushing piece area is divided into a rotating shaft area matched with the first rotating rod, and pushing areas which are symmetrical along the rotating shaft area and matched with the first pushing column and the second pushing column.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the second bull stick be close to with the carousel is connected the side and is provided with the brace table, the carousel district divide into with the extension ring that brace table direction extends, with the disk body that the second bull stick is connected, the operation hole has been seted up to the disk body.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the epitaxial ring is close to the supporting table side and is provided with a fixed plate, and the fixed plate is connected with an elastic plate.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the supporting table is provided with a connecting rotating rod perpendicular to the second rotating rod, and the connecting rotating rod is sleeved with a deflection piece matched with the epitaxial ring.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the deflection piece keep away from with connect the bull stick connection side be provided with along connect bull stick central symmetry, and with elastic plate matched with first deflection pole and second deflection pole, first deflection pole and second deflection pole structure are the same.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: the epitaxial ring is provided with a first groove and a second groove which are matched with the deflection piece.

As a preferred embodiment of the locking device for preventing false locking according to the present utility model, the following applies: connect bull stick fixedly connected with along connect bull stick symmetrical first suggestion board and second suggestion board, first suggestion board and second suggestion board structure are the same.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the locking unit is driven to move through the rotation of the operation unit, so that the basic locking function is realized, and the rotation of the operation unit can drive the first prompting board and the second prompting board to deflect when the device is in a locking/unlocking state, so that the visual monitoring of the locking device of the high-voltage switch cabinet is realized.

In addition, in the locking operation, the locking/unlocking of the device can be realized only by rotating the operation unit in one direction, so that the misoperation of a user is reduced. Different states are prompted to operators by the first prompting board and the second prompting board, and even if a common power warning lamp stops working, the monitoring of the locking state of the power supply cabinet can be realized through the first prompting board and the second prompting board.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a schematic diagram of the overall structure of a locking device for preventing false locking of the present utility model.

Fig. 2 is a schematic diagram of a locking unit of the locking device for preventing misoperation locking.

FIG. 3 is a schematic diagram showing the connection between the locking unit and the propulsion unit of the locking device for preventing misoperation of the present utility model.

Fig. 4 is a schematic diagram illustrating a process of the pushing member driving the first pushing post and the second pushing post to move according to the present utility model.

Fig. 5 is a schematic diagram of an operation unit of the locking device for preventing misoperation of the utility model.

FIG. 6 is a schematic diagram of a second embodiment of an operation unit of the locking device for preventing false locking of the present utility model.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Further, in describing the embodiments of the present utility model in detail, the cross-sectional view of the device structure is not partially enlarged to a general scale for convenience of description, and the schematic is only an example, which should not limit the scope of protection of the present utility model. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

Example 1

Referring to fig. 1 to 3, for a first embodiment of the present utility model, there is provided a locking device for preventing erroneous locking, which includes a locking unit 100, a propulsion unit 200, and an operating unit 300.

The locking unit 100 comprises a limiting column 101, wherein a first limiting groove m is formed in the horizontal direction of the limiting column 101 in a penetrating manner, a second limiting groove n is formed in the vertical direction of the limiting column in a penetrating manner, and a locking column 102 is arranged in the penetrating manner through the first limiting groove m; the propulsion unit 200 comprises a propulsion piece 201 which is connected with the locking column 102 and can change the horizontal position of the locking column 102, and the propulsion piece 201 is connected with a first rotating rod 202 which passes through a second limiting groove n; and an operation unit 300 including a second rotating lever 301 connected to the first rotating lever 202, the second rotating lever 301 being provided with a rotating disk 302 at a side remote from the connection with the first rotating lever 202.

In use, by rotating the operation unit 300, the second rotating rod 301 rotates, and at this time, the first rotating rod 202 cooperatively connected with the second rotating rod 301 rotates, wherein the first rotating rod 202 is perpendicular to the second rotating rod 301.

In this embodiment, the rotation of the first rotating rod 202 drives the pushing member 201 connected with the first rotating rod to rotate, and the pushing member 201 is in a left-right symmetrical elliptical shape along the first rotating rod 202, so that the rotation of the pushing member 201 can drive the locking column 102 to move transversely.

In this embodiment, the locking column 102 is driven to move horizontally in the first limiting groove m by the rotation of the pushing member 201, and when the locking column 102 extends out of the first limiting groove m, the locking column can act as a door bolt to lock the power supply cabinet, wherein the locking device switches to a locked/unlocked state once every time the rotating disc 302 rotates for one circle.

Example 2

Referring to fig. 1 to 4, a second embodiment of the present utility model is different from the first embodiment in that: the side of the locking column 102, which is close to the pushing piece 201, is provided with a first pushing column 103 and a second pushing column 104 which are symmetrical along the first rotating rod 202, the first pushing column 103 and the second pushing column 104 have the same structure, and the limiting column 101 is also provided with a third limiting groove l matched with the first pushing column 103 and the second pushing column 104.

The first pushing post 103 includes an outer edge post 103a matching with the pushing member 201, and a supporting post 103b disposed inside the outer edge post 103a and matching with the third limiting slot l. The pushing member 201 is divided into a rotation shaft region 201a matched with the first rotation shaft 202, and a pushing region 201b symmetrical along the rotation shaft region 201a and matched with the first pushing post 103 and the second pushing post 104.

Further, the structure of the urging member 201 and the movement relationship of the urging member 201 and the lock post 102 will be described in comparison with embodiment 1.

The rotating shaft area 201a of the pushing member 201 is located at an edge position of the pushing member 201, so that the pushing area 201b of the pushing member 201 can move along the first pushing post 103 and the second pushing post 104 during rotation of the pushing member.

In this embodiment, when the rotating disc 302 rotates clockwise, the rotating disc 302 drives the second rotating rod 301 to rotate clockwise, and at this time, the first rotating rod 202 cooperatively connected with the second rotating rod 301 rotates counterclockwise perpendicular to the direction of the second rotating rod 301.

In this embodiment, the pushing member 201 connected with the second rotating rod 301 is driven to rotate counterclockwise, during the rotation process, the pushing area 201b on the left side of the pushing member 201 is propped against the first pushing post 103, the pushing area 201b on the right side of the pushing member 201 is propped against the second pushing post 104, the distance between the pushing area 201b on the left side of the pushing member 201 and the first rotating rod 202 is gradually increased, and the distance between the pushing area 201b on the right side of the pushing member 201 and the first rotating rod 202 is gradually decreased, so that the pushing area 201b on the left side of the pushing member 201 pushes the first pushing post 103, and the pushing area 201b on the right side of the pushing member 201 provides a accommodation position for the leftward displacement of the second pushing post 104.

The locking column 102 connected with the first pushing column 103 and the second pushing column 104 is displaced leftwards, the third limiting groove l limits the first pushing column 103 and the second pushing column 104, so that the locking column 102 is limited, the locking column 102 can move along the first limiting groove m, the locking column 102 enters the inside of the limiting column 101 in the process, and the locking device is unlocked.

In this embodiment, when the edge of the pushing area 201b on the left side of the pushing member 201 contacts with the first pushing post 103, the locking post 102 reaches the leftmost position, the rotating disc 302 is continuously rotated clockwise, the second pushing post 104 contacts with the rotating shaft area 201a, and the rotating shaft area 201a provides pushing force for the second pushing post 104 to cooperate with the first pushing post 103 to enter the lower half of the pushing area 201b on the left side of the pushing member 201, during this movement, the positions of the first pushing post 103 and the second pushing post 104 are cooperatively maintained by the rotating shaft area 201a and the lower half of the pushing area 201b, i.e. during this rotation, the horizontal position of the locking post 102 is not changed, and through a sufficiently large operation margin, the operation error of the staff is reduced.

By continuing to rotate the rotating disc 302, the pushing member 201 is turned upside down, the pushing area 201b on the left side of the original pushing member 201 is abutted against the second pushing post 104, and the pushing area 201b on the left side of the original pushing member 201 pushes the second pushing post 104 to displace rightward, and the moving process is mirror image to the unlocking process of the locking device, so that the locking device is locked.

The rest of the structure is the same as that of embodiment 1.

Example 3

Referring to fig. 1 to 6, a third embodiment of the present utility model is different from the second embodiment in that: the second rotating lever 301 is provided with a support base 303 on the side adjacent to the side connected to the rotating plate 302, and the rotating plate 302 is divided into an extension ring 302a extending in the direction of the support base 303, and a plate body 302b connected to the second rotating lever 301, and the plate body 302b is provided with an operation hole 302c.

In this embodiment, the epitaxial ring 302a is provided with a fixing plate 304 on the side close to the support table 303, and the elastic plate 305 is connected to the fixing plate 304. The support 303 is provided with a connecting rod 306 perpendicular to the second rod 301, the connecting rod 306 being sleeved with a deflector 307 cooperating with the extension ring 302 a. The first rotating rod 202 and the second rotating rod 301 are matched with each other, so that the second rotating rod 301 rotates for two circles, and the first rotating rod 202 rotates for one circle.

In this embodiment, the deflection member 307 is provided with a first deflection rod 307a and a second deflection rod 307b which are symmetrical along the center of the connection rotating rod 306 and are matched with the elastic plate 305, and the first deflection rod 307a and the second deflection rod 307b have the same structure, away from the connection side with the connection rotating rod 306.

Wherein the epitaxial ring 302a is provided with a first recess 302a-1 and a second recess 302a-2 cooperating with the deflector 307. The connecting rod 306 is fixedly connected with a first prompting board 306a and a second prompting board 306b which are symmetrical along the connecting rod 306, and the first prompting board 306a and the second prompting board 306b have the same structure.

In comparison with embodiment 2, further, the operation unit 300 is described to realize the visual monitoring of the locking state of the locking device, and the monitoring mode is realized only mechanically without the participation of an electric signal.

In this embodiment, by rotating the rotating disc 302, the racks extending from both sides of the deflecting member 307 are abutted against the extending ring 302a, and at this time, the first indicator plate 306a is opposite to the rotating disc 302, and the first indicator plate 306a is used to know whether the device is locked.

In this embodiment, when the rotating disc 302 rotates clockwise and the pushing member 201 is inverted, the elastic plate 305 disposed on the side of the extension ring 302a near the supporting table 303 contacts with the first deflection rod 307a of the deflection member 307, at this time, the deflection member 307 rotates around the first deflection rod 307a under the action of the first deflection rod 307a and the elastic plate 305, at this time, racks on both sides of the deflection member 307 enter the first groove 302a-1 formed on the extension ring 302a, and the first deflection rod 307a on the deflection member 307 continuously abuts against the elastic plate 305, the deflection member 307 continuously rotates, the first groove 302a-1 drives the deflection member 307 to complete the whole rotation process, the deflection member 307 completes one deflection process, in this process, the locking device completes one time of switching of locking/unlocking states, the deflection of the deflection member 307 drives the connection rotating rod 306 to rotate, and the rotation of the connection rotating rod 306 completes the switching of the first prompting plate 306a and the second prompting plate 306b, so as to realize prompting the current state of the locking device.

In this embodiment, the initial operation state of the locking device may be that the rotating disc 302 is rotated counterclockwise, and the second groove 302a-2 is used to provide a guiding position for the deflecting member 307 when the rotating disc 302 is rotated counterclockwise, where the first deflecting rod 307a and the second deflecting rod 307b on the deflecting member 307 are disposed in an oblique symmetry along the central position of the deflecting member 307, and when the deflecting action of the deflecting member 307 is finished, the positions of the two deflecting rods are interchanged, and at this time, the functions born by them are interchanged. (deflection support rod, standby deflection support rod)

The rest of the structure is the same as that of embodiment 2.

Example 4

Referring to fig. 1 to 6, a fourth embodiment of the present utility model is different from the third embodiment in that: the size of the pushing member 201 is increased to be exposed outside the high-voltage switch cabinet, the first prompting board 306a and the second prompting board 306b are omitted, the structural arrangement matched with the first prompting board is omitted, the left side of the pushing member 201, which is propped against the first pushing post 103 in embodiment 2, is coated with colors, the right side of the pushing member 201 is coated with different colors, and the colors can be red and green.

Compared to embodiment 3, further, with the position of the pushing member 201 changed (the left side of the rotating shaft area 201a is exposed to the outside of the high voltage switch cabinet), at this time, the red portion of the pushing member 201 is exposed to the outside of the high voltage switch cabinet, and the locking device is in the unlocked state, so that the red portion exposed to the outside of the high voltage switch cabinet prompts the inspector to unlock the high voltage switch cabinet.

In this embodiment, by continuing to rotate the rotating disc 302, the locking device enters a locked state, and at the same time, the green part of the propulsion member 201 is exposed to the outside of the high-voltage switch cabinet, so as to prompt the inspector that the high-voltage switch cabinet is in the locked state.

The rest of the structure is the same as that of embodiment 3.

As shown in fig. 1 to 6, during the locking process, the second rotating lever 301 is rotated by rotating the operating unit 300, and at this time, the first rotating lever 202 cooperatively connected with the second rotating lever 301 is rotated, wherein the first rotating lever 202 is perpendicular to the second rotating lever 301.

The rotation of the first rotating rod 202 drives the propelling piece 201 connected with the first rotating rod to rotate, and the propelling piece 201 is of a left-right symmetrical ellipse-like shape along the first rotating rod 202, so that the rotation of the propelling piece 201 can drive the locking column 102 to transversely move.

The locking column 102 is driven to horizontally move in the first limit groove m by the rotation of the pushing piece 201, and after the locking column 102 extends out of the first limit groove m, the locking column can play a role of a door bolt, so that the power supply cabinet is locked, wherein the locking device is switched to a locking/unlocking state once every time the rotating disc 302 rotates for one circle.

When the rotating disc 302 rotates clockwise, the rotating disc 302 drives the second rotating rod 301 to rotate clockwise, and at this time, the first rotating rod 202 cooperatively connected with the second rotating rod 301 rotates counterclockwise perpendicular to the direction of the second rotating rod 301.

The second rotating rod 301 rotates to drive the pushing member 201 connected with the second rotating rod to rotate anticlockwise, in the rotating process, the pushing area 201b on the left side of the pushing member 201 is propped against the first pushing post 103, the pushing area 201b on the right side of the pushing member 201 is propped against the second pushing post 104, the distance between the pushing area 201b on the left side of the pushing member 201 and the first rotating rod 202 is gradually increased, the distance between the pushing area 201b on the right side of the pushing member 201 and the first rotating rod 202 is gradually decreased, so that the pushing area 201b on the left side of the pushing member 201 is formed to push the first pushing post 103, and the pushing area 201b on the right side of the pushing member 201 provides a containing position for leftward displacement of the second pushing post 104.

The locking column 102 connected with the first pushing column 103 and the second pushing column 104 is displaced leftwards, the third limiting groove l limits the first pushing column 103 and the second pushing column 104, so that the locking column 102 is limited, the locking column 102 can move along the first limiting groove m, the locking column 102 enters the limiting column 101 in the process, and the locking device is unlocked.

When the edge of the pushing area 201b on the left side of the pushing member 201 contacts with the first pushing post 103, the locking post 102 reaches the leftmost position at this time, the rotating disc 302 continues to rotate clockwise, the second pushing post 104 contacts with the rotating shaft area 201a, and the rotating shaft area 201a provides pushing force for the second pushing post 104 to cooperate with the first pushing post 103 to enter the lower half of the pushing area 201b on the left side of the pushing member 201, during this movement, the positions of the first pushing post 103 and the second pushing post 104 are cooperatively maintained by the rotating shaft area 201a and the lower half of the pushing area 201b, that is, during this rotation, the horizontal position of the locking post 102 does not change, and through a sufficient operation margin, the operation error of the staff is reduced.

By continuing to rotate the rotating disc 302, the pushing member 201 is turned upside down, the pushing area 201b on the left side of the original pushing member 201 is abutted against the second pushing post 104, and the pushing area 201b on the left side of the original pushing member 201 pushes the second pushing post 104 to displace rightward, and the moving process is mirror image to the unlocking process of the locking device, so that the locking device is locked.

When the rotating disc 302 rotates clockwise, the rotating disc 302 drives the second rotating rod 301 to rotate clockwise, and at this time, the first rotating rod 202 cooperatively connected with the second rotating rod 301 rotates counterclockwise perpendicular to the direction of the second rotating rod 301.

The second rotating rod 301 rotates to drive the pushing member 201 connected with the second rotating rod to rotate anticlockwise, in the rotating process, the pushing area 201b on the left side of the pushing member 201 is propped against the first pushing post 103, the pushing area 201b on the right side of the pushing member 201 is propped against the second pushing post 104, the distance between the pushing area 201b on the left side of the pushing member 201 and the first rotating rod 202 is gradually increased, the distance between the pushing area 201b on the right side of the pushing member 201 and the first rotating rod 202 is gradually decreased, so that the pushing area 201b on the left side of the pushing member 201 is formed to push the first pushing post 103, and the pushing area 201b on the right side of the pushing member 201 provides a containing position for leftward displacement of the second pushing post 104.

The locking column 102 connected with the first pushing column 103 and the second pushing column 104 is displaced leftwards, the third limiting groove l limits the first pushing column 103 and the second pushing column 104, so that the locking column 102 is limited, the locking column 102 can move along the first limiting groove m, the locking column 102 enters the limiting column 101 in the process, and the locking device is unlocked.

When the edge of the pushing area 201b on the left side of the pushing member 201 contacts with the first pushing post 103, the locking post 102 reaches the leftmost position at this time, the rotating disc 302 continues to rotate clockwise, the second pushing post 104 contacts with the rotating shaft area 201a, and the rotating shaft area 201a provides pushing force for the second pushing post 104 to cooperate with the first pushing post 103 to enter the lower half of the pushing area 201b on the left side of the pushing member 201, during this movement, the positions of the first pushing post 103 and the second pushing post 104 are cooperatively maintained by the rotating shaft area 201a and the lower half of the pushing area 201b, that is, during this rotation, the horizontal position of the locking post 102 does not change, and through a sufficient operation margin, the operation error of the staff is reduced.

By continuing to rotate the rotating disc 302, the pushing member 201 is turned upside down, the pushing area 201b on the left side of the original pushing member 201 is abutted against the second pushing post 104, and the pushing area 201b on the left side of the original pushing member 201 pushes the second pushing post 104 to displace rightward, and the moving process is mirror image to the unlocking process of the locking device, so that the locking device is locked.

During the rotation of the rotating disc 302, the racks extending from the two sides of the deflection member 307 are abutted against the extending ring 302a, and at this time, the first indicator plate 306a is opposite to the rotating disc 302, and whether the device is locked or not is known through the first indicator plate 306 a.

When the rotating disc 302 continues to rotate clockwise and the pushing piece 201 is turned upside down, the elastic plate 305 arranged on the side, close to the supporting table 303, of the extension ring 302a is contacted with the first deflection rod 307a of the deflection piece 307, at the moment, the deflection piece 307 rotates around the first deflection rod 307a under the action force of the first deflection rod 307a and the elastic plate 305, at the moment, racks on two sides of the deflection piece 307 enter the first groove 302a-1 formed on the extension ring 302a, the first deflection rod 307a on the deflection piece 307 continuously abuts against the elastic plate 305, the deflection piece 307 continuously rotates, the first groove 302a-1 drives the deflection piece 307 to complete the whole rotating process, the deflection piece 307 completes one-time deflection process, in this process, the locking device completes one-time locking/unlocking state switching, the deflection of the deflection piece 307 drives the connecting rotating rod 306 to rotate, and the rotation of the connecting rotating rod 306 completes switching of the first prompting plate 306a and the second prompting plate 306b so as to prompt the current state of the locking device.

The initial operation state of the locking device may be to rotate the rotating disc 302 counterclockwise, and the second groove 302a-2 is used to provide a guiding position for the deflecting member 307 when the rotating disc 302 is rotated counterclockwise, wherein the first deflecting rod 307a and the second deflecting rod 307b on the deflecting member 307 are arranged in an oblique symmetry along the central position of the deflecting member 307, and when the deflecting action of the deflecting member 307 is finished, the positions of the two deflecting rods are interchanged, and at this time, the functions born by the two deflecting rods are interchanged. (deflection support rod, standby deflection support rod)

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a locking device of mistake prevention shutting which characterized in that: comprising the steps of (a) a step of,

the locking unit (100) comprises a limiting column (101), wherein a first limiting groove (m) is formed in the horizontal direction of the limiting column (101) in a penetrating manner, a second limiting groove (n) is formed in the vertical direction of the limiting column in a penetrating manner, and a locking column (102) is arranged in the first limiting groove (m) in a penetrating manner;

a propulsion unit (200) comprising a propulsion member (201) connected to the locking column (102) and capable of changing the horizontal position of the locking column (102), the propulsion member (201) being connected to a first lever (202) passing through the second limit slot (n); the method comprises the steps of,

an operation unit (300) comprises a second rotating rod (301) connected with the first rotating rod (202), and a rotating disc (302) is arranged on the side, far away from the connection side of the second rotating rod (301) with the first rotating rod (202).

2. The lockout-by-mistake lockout device of claim 1, wherein: the locking column (102) is provided with a first pushing column (103) and a second pushing column (104) which are symmetrical along the first rotating rod (202) near the pushing piece (201), the first pushing column (103) and the second pushing column (104) are identical in structure, and the limiting column (101) is further provided with a third limiting groove (l) matched with the first pushing column (103) and the second pushing column (104).

3. The lockout device of claim 2, wherein: the first pushing column (103) comprises an outer edge column (103 a) matched with the pushing piece (201), and a supporting column (103 b) which is arranged inside the outer edge column (103 a) and matched with the third limiting groove (l).

4. A lockout device for preventing false lockout as claimed in claim 3, wherein: the pushing piece (201) is divided into a rotating shaft area (201 a) matched with the first rotating rod (202), and pushing areas (201 b) which are symmetrical along the rotating shaft area (201 a) and matched with the first pushing column (103) and the second pushing column (104).

5. The false-locking-preventing locking device according to any one of claims 1 to 4, wherein: the second rotating rod (301) is provided with a supporting table (303) near the connection side of the rotating disc (302), the rotating disc (302) is divided into an extension ring (302 a) extending along the direction of the supporting table (303) and a disc body (302 b) connected with the second rotating rod (301), and the disc body (302 b) is provided with an operation hole (302 c).

6. The lockout device of claim 5, wherein: the epitaxial ring (302 a) is provided with a fixed plate (304) near the supporting table (303), and the fixed plate (304) is connected with an elastic plate (305).

7. The lockout device of claim 6, wherein: the supporting table (303) is provided with a connecting rotating rod (306) perpendicular to the second rotating rod (301), and the connecting rotating rod (306) is sleeved with a deflection piece (307) matched with the epitaxial ring (302 a).

8. The lockout device of claim 7, wherein: the deflection piece (307) is far away from a first deflection rod (307 a) and a second deflection rod (307 b) which are arranged on the connecting side of the connecting rotating rod (306) and are symmetrical along the center of the connecting rotating rod (306) and matched with the elastic plate (305), and the first deflection rod (307 a) and the second deflection rod (307 b) are identical in structure.

9. The lockout device of claim 8, wherein: the epitaxial ring (302 a) is provided with a first groove (302 a-1) and a second groove (302 a-2) which are matched with the deflection piece (307).

10. The lockout device of claim 9, wherein: the connecting rotating rod (306) is fixedly connected with a first prompting plate (306 a) and a second prompting plate (306 b) which are symmetrical along the connecting rotating rod (306), and the first prompting plate (306 a) and the second prompting plate (306 b) are identical in structure.