CN116352669B - Fingerprint identification tool cabinet and intelligent regulation and control system for tool cabinet - Google Patents

Abstract

The application discloses a fingerprint identification tool cabinet, which comprises a tool cabinet, a fingerprint identification device and a fingerprint identification device, wherein the tool cabinet comprises a screen cabinet and a cabinet door rotatably connected with the screen cabinet; the door lock is arranged on the cabinet door; the ventilation assembly comprises a ventilation box, a rotating fan and a pushing piece, wherein the ventilation box is connected with the screen cabinet, the rotating fan is installed in the ventilation box, and the pushing piece is connected with the ventilation box and matched with the rotating fan. The operation and maintenance personnel information is read and registered in a face recognition and fingerprint recognition mode, omission is avoided, and automatic locking is achieved by the aid of the electric lockset.

Description

Fingerprint identification tool cabinet and intelligent regulation and control system for tool cabinet

Technical Field

The application relates to the technical field of tool cabinets, in particular to a fingerprint identification tool cabinet and an intelligent regulation and control system for the tool cabinet.

Background

There are many shortages in the current tool cabinet use: when the operation and maintenance personnel receive and return the tools, the received and returned tools need to be registered in a correlated way, because the registration form belongs to handwriting of the operation and maintenance personnel, when the service condition of the tools is counted, the time spent according to the counted time limit is different, and the information registered by the management personnel cannot be used up, otherwise, the specific names of the tools cannot be distinguished; when emergency repair work is met, in most cases, the tool is not registered by the operation and maintenance personnel, and when continuous repair work is met, the tool cannot be returned in time by the operation and maintenance personnel; the existing tool cabinet adopts keys or is directly unlocked, tools and tools are easy to lose, and related personnel are difficult to find.

Disclosure of Invention

This section is intended to summarize some aspects of embodiments of the application and to briefly introduce some preferred embodiments, which may be simplified or omitted in this section, as well as the description abstract and the title of the application, to avoid obscuring the objects of this section, description abstract and the title of the application, which is not intended to limit the scope of this application.

The present application has been made in view of the above and/or problems occurring in the prior art.

Therefore, the technical problems to be solved by the application are that the operation and maintenance personnel receive and return the tools and the registration is complicated, handwriting cannot be identified, the tools cannot be registered and returned in time when the emergency repair work is carried out, the existing tools and tools cabinet adopts keys or is directly unlocked, the tools and tools are easy to lose, and the problems of difficulty in finding related personnel are solved.

In order to solve the technical problems, the application provides the following technical scheme: the fingerprint identification tool cabinet comprises a tool cabinet body, wherein the tool cabinet body comprises a screen cabinet body and a cabinet door rotatably connected with the screen cabinet body; the door lock is arranged on the cabinet door; the ventilation assembly comprises a ventilation box, a rotating fan and a pushing piece, wherein the ventilation box is connected with the screen cabinet, the rotating fan is installed in the ventilation box, and the pushing piece is connected with the ventilation box and matched with the rotating fan.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the screen cabinet comprises a placing cavity, a partition plate and a hanging column, wherein the placing cavity is arranged on the side face of the screen cabinet, the partition plate is arranged on the inner wall of the placing cavity, the hanging column is arranged on the other inner wall, and a plurality of partition plates and the hanging column are arranged.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the screen cabinet further comprises an air inlet hole, an air outlet hole and a screen cabinet locking groove, wherein the air inlet hole is penetrated through the side face of the screen cabinet, the air outlet hole is formed in the other side face, the screen cabinet locking groove is formed in the inner wall of the placing cavity, and the ventilation box is penetrated in the air inlet hole.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the ventilation box comprises a ventilation cavity, a ventilation filter screen, a support frame and a ventilation sliding groove, wherein the ventilation cavity is arranged on the side face of the ventilation box, the ventilation filter screen is arranged on the other side face of the ventilation box, the support frame is arranged in the ventilation cavity, the ventilation sliding groove is arranged at the upper end of the ventilation box, and the rotating fan is connected with the support frame.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the rotary fan comprises a fan rotating shaft, a fan blade rotating column, a sliding column and a connecting rod, wherein the fan rotating shaft is arranged on the side face of the rotary fan, the fan blade rotating column is arranged on the side face of the fan rotating shaft, the sliding column is arranged on the fan rotating shaft and is in sliding fit with the fan rotating shaft, one end of the connecting rod is connected with the sliding column in a rotating mode, and the other end of the connecting rod is matched with the fan blade rotating column.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the fan blade rotating column comprises fixed fan blades, fan blade rotating grooves and rotating fan blades, wherein the fixed fan blades and the fan blade rotating grooves are formed in the circumferential surface of the fan blade rotating column, a plurality of fan blades are arranged at intervals in the fixed fan blades and the fan blade rotating grooves, and the rotating fan blades are arranged in the fan blade rotating grooves and are connected with the fan blade rotating grooves in a rotating mode.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the fan blade rotating device is characterized in that a connecting placing groove is formed in the side face of the rotating fan blade, a connecting rotating column is arranged in the connecting placing groove, and the connecting rotating column is connected with the connecting rod in a rotating mode.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the side surface of the sliding column is provided with a sliding attaching groove;

the pushing piece comprises an electric push rod and a moving rod, the electric push rod is arranged at the upper end of the ventilation box, the moving rod is connected with the electric push rod, and the moving rod is inserted into the ventilation sliding groove.

As a preferable scheme of the fingerprint identification tool cabinet, the fingerprint identification tool cabinet comprises the following components: the side face of the movable rod is provided with a movable sliding block, and the movable sliding block is arranged in the sliding fit groove.

An intelligent regulation and control system for a tool cabinet comprises a fingerprint identification tool cabinet and also comprises,

a regulation unit comprising;

the temperature monitoring module is used for monitoring the real-time temperature in the tool cabinet;

the image monitoring module is used for remotely monitoring the site situation;

the information recording module is used for recording the names of the used tools and the names of the users;

the central processing unit is used for collecting and summarizing related information and sending out instructions;

the temperature monitoring module, the image monitoring module and the information recording module are respectively connected with the central processing unit and are installed on the cabinet door.

The application has the beneficial effects that: the operation and maintenance personnel information is read and registered in a face recognition and fingerprint recognition mode, omission is avoided, and automatic locking is achieved by the aid of the electric lockset.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, 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 application, 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 an assembly structure of a fingerprint identification tool cabinet and an intelligent regulation system of the tool cabinet according to an embodiment of the present application;

fig. 2 is a schematic connection diagram of a tool cabinet and a ventilation assembly in the fingerprint identification tool cabinet and the intelligent regulation system of the tool cabinet according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a fingerprint identification tool cabinet and a ventilation assembly in an intelligent regulation system of the tool cabinet according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a connection structure of a rotating fan and a pushing member in a fingerprint identification tool cabinet and an intelligent control system for the tool cabinet according to an embodiment of the present application;

fig. 5 is a schematic diagram of a connection structure of a door lock and a cabinet door in a fingerprint identification tool cabinet and an intelligent regulation system of the tool cabinet according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a cross-sectional structure of a fingerprint identification tool cabinet and a lock case in an intelligent control system for the tool cabinet according to an embodiment of the present application;

fig. 7 is a schematic diagram of another view cross-sectional structure of a fingerprint identification tool cabinet and a lock shell in an intelligent control system of the tool cabinet according to an embodiment of the present application;

fig. 8 is a schematic diagram of a fingerprint identification tool cabinet and a lock core in an intelligent regulation system of the tool cabinet according to an embodiment of the present application;

fig. 9 is a schematic diagram of a connection cross-section structure of a fingerprint identification tool cabinet and a lock core and a switching member in an intelligent control system of the tool cabinet according to an embodiment of the present application;

fig. 10 is a schematic diagram of a cross-sectional structure of a fingerprint identification tool cabinet and a lock core in an intelligent control system of the tool cabinet according to an embodiment of the present application;

FIG. 11 is a schematic diagram of a fingerprint identification tool cabinet and a moving spring block in an intelligent control system for the tool cabinet according to an embodiment of the present application;

FIG. 12 is a schematic diagram illustrating connection of a fingerprint identification tool cabinet and a rotating member in an intelligent regulation system of the tool cabinet according to an embodiment of the present application;

FIG. 13 is a schematic diagram illustrating a cross-sectional structure of a fingerprint recognition tool cabinet and a handle in an intelligent control system for the tool cabinet according to an embodiment of the present application;

fig. 14 is a schematic structural diagram of a fingerprint identification tool cabinet and a handle lock core in an intelligent control system of the tool cabinet according to an embodiment of the present application;

fig. 15 is a schematic connection diagram of a fingerprint identification tool cabinet and a control unit in an intelligent control system for the tool cabinet according to an embodiment of the present application.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application 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 application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

In the following detailed description of the embodiments of the present application, reference is made to the accompanying drawings, which form a part hereof, and in which are shown by way of illustration only, and in which is shown by way of illustration only, and in which the scope of the application is not limited for ease of illustration. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

Further still, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the application. 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.

Example 1

Referring to fig. 1 to 4, the present embodiment provides a fingerprint recognition tool cabinet including a tool cabinet 100, a door lock 200, and a ventilation assembly 300.

The tool cabinet 100 comprises a screen cabinet 101 and a cabinet door 102 rotatably connected with the screen cabinet.

Door lock 200, door lock 200 is mounted on cabinet door 102.

The ventilation assembly 300, the ventilation assembly 300 includes a ventilation box 301, a rotating fan 302 and a pushing member 303, the ventilation box 301 is connected with the cabinet 101, the rotating fan 302 is installed in the ventilation box 301, and the pushing member 303 is connected with the ventilation box 301 and is matched with the rotating fan 302.

The cabinet 101 includes placing chamber 101a, baffle 101b and suspension post 101c, places the chamber 101a and sets up in cabinet 101 side, and baffle 101b sets up on placing chamber 101a inner wall, suspension post 101c sets up on another inner wall, and baffle 101b and suspension post 101c are provided with a plurality ofly.

A space is formed between the plurality of partitions 101b for the existence of the relevant tools.

The screen cabinet 101 further comprises an air inlet hole 101d, an air outlet hole 101e and a screen cabinet locking groove 101f, wherein the air inlet hole 101d is arranged on the side surface of the screen cabinet 101 in a penetrating mode, the air outlet hole 101e is arranged on the other side surface, the screen cabinet locking groove 101f is arranged on the inner wall of the placing cavity 101a, and the ventilation box 301 is inserted into the air inlet hole 101d and fixedly connected with the air inlet hole 101 d.

The air inlet 101d and the air outlet 101e are provided in plurality as required, and a filter screen is provided in the air outlet 101 e.

The ventilation box 301 comprises a ventilation cavity 301a, a ventilation filter screen 301b, a support frame 301c and a ventilation sliding groove 301d, wherein the ventilation cavity 301a is arranged on the side surface of the ventilation box 301, the ventilation filter screen 301b is arranged on the other side surface, the support frame 301c is arranged in the ventilation cavity 301a, the ventilation sliding groove 301d is arranged at the upper end of the ventilation box 301, and the rotary fan 302 is fixedly connected with the support frame 301 c.

The rotating fan 302 includes a fan rotating shaft 302a, a fan blade rotating column 302b, a sliding column 302c and a connecting rod 302d, the fan rotating shaft 302a is disposed on the side of the rotating fan 302, the fan blade rotating column 302b is disposed on the side of the fan rotating shaft 302a, the sliding column 302c is disposed on the fan rotating shaft 302a and is in sliding fit with the fan rotating shaft 302a, one end of the connecting rod 302d is rotationally connected with the sliding column 302c, and the other end is matched with the fan blade rotating column 302 b.

The fan blade rotating column 302b includes a fixed fan blade 302b-1, a fan blade rotating groove 302b-2 and a rotating fan blade 302b-3, the fixed fan blade 302b-1 and the fan blade rotating groove 302b-2 are disposed on the circumferential surface of the fan blade rotating column 302b, a plurality of fixed fan blades 302b-1 and fan blade rotating grooves 302b-2 are disposed at intervals, and the rotating fan blade 302b-3 is disposed in the fan blade rotating groove 302b-2 and is rotationally connected with the same.

The side of the rotating fan blade 302b-3 is provided with a connecting placing groove 302b-31, a connecting rotating column 302b-32 is arranged in the connecting placing groove 302b-31, and the connecting rotating column 302b-32 is rotationally connected with a connecting rod 302 d.

Sliding column 302c is provided with a sliding engagement groove 302c-1 on the side.

The pushing member 303 includes an electric push rod 303a and a moving rod 303b, the electric push rod 303a is disposed at the upper end of the ventilation box 301, the moving rod 303b is connected to the electric push rod 303a, and the moving rod 303b is inserted into the ventilation sliding groove 301 d.

The movable rod 303b is provided with a movable slider 303b-1 on the side surface thereof, and the movable slider 303b-1 is placed in the slide engaging groove 302c-1.

A heater is also provided in the ventilation box 301 at the front end of the rotary fan 302, and is turned on to assist drying when the air is wet.

When the cabinet is used, tools are placed on the partition plate 101b or the hanging column 101c in the cabinet 101, the cabinet door 102 is closed and fixed through the door lock 200, and when the cabinet 101 is moist or the temperature is too high, the rotary fan 302 is turned on to perform ventilation and cooling; when the effect is poor, the electric push rod 303a is started to drive the moving rod 303b to move, the moving rod 303b drives the sliding column 302c to move, the connecting rod 302d rotates and drives the rotating fan blade 302b-3 to rotate, when the electric push rod 303a moves to a certain position to stop, the fan blade on the fan blade rotating column 302b is the sum of the fixed fan blade 302b-1 and the rotating fan blade 302b-3, the ventilation effect is increased by adding the fan blade, and the quick drying and cooling efficiency is achieved.

Example 2

Referring to fig. 5 to 11, in order to provide a second embodiment of the present application, based on the previous embodiment, the present embodiment provides an implementation manner of a fingerprint identification tool cabinet.

The door lock 200 arranged on the safety door 102, the door lock 200 comprises a lock shell 201, a lock cylinder 202, a rotating piece 203 and a switching piece 204, the lock cylinder 202, the rotating piece 203 and the switching piece 204 are arranged in the lock shell 201, and the rotating piece 203 is matched with the switching piece 204.

A control module disposed within the lock housing 201.

The control module comprises a main board and a power supply.

The lock shell 201 includes a fingerprint touch area 201a, a keyboard 201b and a rotation slot 201c, the fingerprint touch area 201a, the keyboard 201b and the rotation slot 201c are disposed on the side of the lock shell 201, the keyboard 201b is located at the lower end of the rotation slot 201c, and the switching member 204 is inserted into the rotation slot 201 c.

The lock shell 201 further comprises a lock cavity 201d, a lock cylinder hole 201e and a groove 201f, wherein the lock cavity 201d is arranged at the upper end of the lock shell 201, the lock cylinder hole 201e is arranged on the side surface of the lock shell 201, and the groove 201f is arranged inside the lock shell 201 and is communicated with the lock cavity 201d and the rotating groove hole 201c respectively.

The key cylinder holes 201e are provided in two.

The lock cavity 201d comprises a gear motor 201d-1, a gear rotating shaft 201d-2, a sliding groove 201d-3 and a rack column 201d-4, wherein the gear motor 201d-1 and the gear rotating shaft 201d-2 are arranged on the inner wall of the lock cavity 201d, the sliding groove 201d-3 is arranged on the other inner wall, the rack column 201d-4 is arranged in the sliding groove 201d-3, the gear rotating shaft 201d-2 is rotationally connected with the inside of the lock cavity 201d through a bearing, two sliding grooves 201d-3 are symmetrically arranged along the central line of the lock cavity 201d, and the rack column 201d-4 is respectively meshed with the gear motor 201d-1 and the gear rotating shaft 201 d-2.

The rack post 201d-4 is slidably coupled to the slide groove 201 d-3.

The rack column 201d-4 comprises a rack spring 201d-41 and a rack clamping groove 201d-42, the rack spring 201d-41 is arranged on the side face of the rack column 201d-4, the rack clamping groove 201d-42 is arranged at the upper end of the rack column 201d-4 in a penetrating mode, and the rack spring 201d-41 is fixedly connected with the inside of the sliding groove 201 d-3.

Further, a pulley is provided on the lower end surface of the rack column 201d-4 to reduce friction force during movement.

The lock cylinder 202 comprises a lock cylinder 202a, a first spring 202b, a pulley 202c and a pushing groove 202d, wherein the lock cylinder 202a is arranged on the side surface of the lock cylinder 202, the first spring 202b is arranged on the other side surface, the pulley 202c is arranged at the upper end of the lock cylinder 202, the pushing groove 202d is arranged on the side surface of the lock cylinder 202, two pushing grooves 202d are symmetrically arranged along the central line of the lock cylinder 202, and the rack column 201d-4 is inserted in the pushing groove 202 d.

The lock cylinder 202a is symmetrically arranged along the center line of the lock cylinder 202, the first springs 202b are arranged in plurality, and the pulley 202c is symmetrically arranged along the center line of the lock cylinder 202 to reduce friction.

The lock cylinder 202 further includes a moving groove 202e and a switching groove 202f, the moving groove 202e is provided inside the lock cylinder 202 and communicates with the two pushing grooves 202d, and the switching groove 202f is provided on the side of the lock cylinder 202 and communicates with the moving groove 202 e.

The switching member 204 includes a moving spring block 204a and a pressing block 204b, the moving spring block 204a is placed in the moving groove 202e, the pressing block 204b is placed in the switching groove 202f, and the pressing block 204b is engaged with the moving spring block 204 a.

The movable spring block 204a comprises a convex plate 204a-1 and inclined surface grooves 204a-2, wherein the convex plate 204a-1 is arranged at the upper end of the movable spring block 204a, the inclined surface grooves 204a-2 are arranged on the side surface of the movable spring block 204a, and the convex plate 204a-1 is symmetrically arranged along the central line of the movable spring block 204 a.

The extrusion block 204b includes an extrusion spring 204b-1 and an extrusion bevel block 204b-2, the extrusion spring 204b-1 and the extrusion bevel block 204b-2 are disposed on the side of the extrusion block 204b, and the extrusion bevel block 204b-2 is engaged with the bevel groove 204 a-2.

The pressing spring 204b-1 is fixedly connected to the inside of the switching groove 202 f.

The gear motor 201d-1, the keypad 201b, and the fingerprint-touch section 201a are electrically connected to the main board, respectively.

The cabinet 101 and the safety door 102 are in a closed state in a normal state.

The staff can input the password and press the fingerprint through the keyboard 201b or the fingerprint touch area 201a, if the password is correct or the fingerprint information recorded in the main board is correct, the gear motor 201d-1 is driven to unlock the lock at the moment, and if the staff in a non-station use, the staff on duty can take the temporary password to unlock the lock in a telephone mode.

The keyboard 201b, the fingerprint touch area 201a and the motherboard used in the above description are all of the prior art, and specific principles are not repeated here.

In the power-on locking state, the lock cylinder 202a extends out from the lock cylinder hole 201e and is inserted into the screen cabinet locking groove 101f, at this time, the plurality of first springs 202b are not in a compressed state, the two rack posts 201d-4 are respectively positioned in the pushing groove 202d, at this time, the upper end convex plate 204a-1 on the moving spring block 204a is inserted into the rack clamping groove 201d-42 on the first rack post 201d-4 meshed with the gear motor 201d-1, and the lower end convex plate 204a-1 of the moving spring block 204a is completely positioned in the moving groove 202 e.

When the lock is unlocked, a password is input or a fingerprint is pressed, the gear motor 201d-1 rotates to drive the first rack column 201d-4 to move, so that the lock cylinder 202 is driven to move, the lock column 202a moves out of the screen cabinet locking groove 101f to release the fixation, the safety door 102 can be opened by pulling, and the first spring 202b deforms to generate elastic potential energy; the second rack post 201d-4 engaged with the gear rotation shaft 201d-2 during this process does not move in the push groove 202d and does not block the movement of the lock cylinder 202.

The time for the gear motor 201d-1 to rotate is fixed, and after a certain time, the main board cuts off the power of the gear motor 201d-1, and the idle running is performed under the action of the first spring 202b to restore to the locked state.

The tool cabinet in the device can be automatically locked, and has various opening modes, so that the influence on work caused by the loss of tools is prevented.

Example 3

Referring to fig. 11 to 14, in a third embodiment of the present application, based on the above two embodiments, this embodiment provides an implementation manner of a fingerprint identification tool cabinet.

The rotating member 203 comprises a handle 203a, a movable extrusion block 203b and a handle lock cylinder 203c, wherein the handle lock cylinder 203c is rotatably connected with the handle 203a, the movable extrusion block 203b is rotatably connected with the handle 203a, the handle 203a is inserted into the rotary slot 201c, and the movable extrusion block 203b is arranged in the groove 201 f.

One end of the handle 203a is provided with a spline 203a-1, the other end is provided with an unlocking rotation groove 203a-2, the circumferential surface of the handle 203a is provided with an arc-shaped protruding block 203a-3 and an arc-shaped opening groove 203a-4, the arc-shaped opening groove 203a-4 is communicated with the unlocking rotation groove 203a-2, and a handle lock cylinder 203c is arranged in the unlocking rotation groove 203 a-2; the arc-shaped opening groove 203a-4 penetrates the handle 203a, and two arc-shaped protruding blocks 203a-3 are symmetrically arranged along the central line of the handle 203 a.

Torsion springs are arranged in the handle lock cylinder 203c and the unlocking rotating groove 203a-2, and the handle lock cylinder 203c can be automatically restored to the original position after being rotated.

The gear rotating shaft 201d-2 is provided with spline grooves 201d-21 on the side surface thereof, and the spline 203a-1 is engaged with the spline grooves 201 d-21.

An arc-shaped lug groove 201c-1 is formed in the rotary groove hole 201c, the arc-shaped lug groove 201c-1 is communicated with the groove 201f, an arc-shaped lug 203a-3 is arranged in the arc-shaped lug groove 201c-1, and two arc-shaped lug grooves 201c-1 are correspondingly formed.

A disk restricting groove 201c-2 is also provided in the rotation groove hole 201 c.

The side of the handle lock cylinder 203c is provided with a key hole 203c-1 and an open slot 203c-2 is arranged on the circumferential surface, a limit fixed block 203c-3 which is rotationally connected with the open slot 203c-2 is arranged in the open slot 203c-2, and the limit fixed block 203c-3 passes through the arc open slot 203a-4 and is arranged in the disc limit slot 201c-2.

The open grooves 203c-2 are symmetrically provided in two along the center line of the handle cylinder 203 c.

A torsion spring is arranged at the rotation connection position of the limiting fixed block 203c-3 and the open slot 203c-2, so that the limiting fixed block 203c-3 is always in an open state and is placed in the disc limiting slot 201c-2.

The two limiting fixing blocks 203c-3 are arranged, the limiting fixing blocks 203c-3 are provided with arc surfaces, and the two opening grooves 203c-2 are arranged in a mode that the arc surface of one limiting fixing block 203c-3 faces downwards and the arc surface of the other limiting fixing block 203c-3 faces upwards.

In the energized state, the key hole 203c-1 is in a horizontal state, the limiting fixed block 203c-3 is placed in the disc limiting groove 201c-2, at this time, the spline 203a-1 is not matched with the spline groove 201d-21, the movable extrusion block 203b is placed in the groove 201f, the extrusion block 204b is in contact with the movable extrusion block 203b, and the handle 203a is limited at this time and cannot rotate or move back and forth.

When the handle lock cylinder 203c is turned clockwise by inserting a key into the key hole 203c-1 under the condition of power failure, the limiting fixed blocks 203c-3 are contacted with the arc-shaped opening grooves 203a-4 and are extruded to cause the two limiting fixed blocks 203c-3 to rotate slowly to be placed in the opening grooves 203c-2, after the two limiting fixed blocks 203c-3 are rotated to a certain position, the two limiting fixed blocks 203c-3 are completely placed in the opening grooves 203c-2, at the moment, the front and rear limiting of the handle 203a is released, and similarly, if the handle is rotated anticlockwise, the limiting fixed blocks 203c-3 are contacted with the arc-shaped opening grooves 203a-4 and are blocked, and the limiting fixed blocks 203c-3 cannot rotate, so that the front and rear limiting of the handle 203a cannot be released.

Then pushing the handle 203a to move back and forth, inserting the spline 203a-1 into the spline groove 201d-21, and removing the arc-shaped lug 203a-3 from the arc-shaped lug groove 201c-1 when the spline 203a-1 and the spline groove are completely attached, wherein the handle 203a can rotate; in this process, the movable extrusion block 203b moves along with the movement of the handle 203a to push the extrusion block 204b to move, the extrusion inclined surface block 204b-2 moves in the inclined surface groove 204a-2 and pushes the movable spring block 204a to move downwards, the upper protruding plate 204a-1 moves out of the rack clamping groove 201d-42 on the first rack post 201d-4, the lower protruding plate 204a-1 stretches out of the moving groove 202e and is inserted into the rack clamping groove 201d-42 on the second rack post 201d-4, the handle 203a is rotated to rotate the gear rotating shaft 201d-2 to drive the second rack post 201d-4 to move to drive the lock cylinder 202 to move, the lock post 202a moves out of the screen cabinet locking groove 101f to release the fixation, and the safety door 102 can be opened by pulling the handle 203a, at this time, the first rack post 201d-4 does not move in the pushing groove 202 d-4 and the movement of the lock cylinder 202 cannot be blocked.

The device is provided with a plurality of opening modes including how to unlock under the outage condition, so that the phenomenon that the cabinet door of a tool cannot be opened due to outage is avoided, and the work is affected.

Example 4

Referring to fig. 15, in a fourth embodiment of the present application, based on the above three embodiments, this embodiment provides an implementation manner of an intelligent regulation system for a tool cabinet.

The regulation unit 400 includes:

the temperature monitoring module 401 is used for monitoring the real-time temperature in the tool cabinet, and the temperature monitoring module 401 adopts a temperature sensor.

And an image monitoring module 402 for remotely monitoring the site situation; the image monitoring module 402 is a high-definition camera and has a face recognition function.

An information recording module 403 for recording the name of the tool used and the user; the information recording module 403 is an intelligent memory chip, and is used for storing fingerprints, personnel information and tool information.

A central processor 404 for collecting and summarizing related information and issuing instructions; the operation is performed by the instructions corresponding to the information release of the temperature monitoring module 401, the image monitoring module 402 and the information recording module 403.

The temperature monitoring module 401, the image monitoring module 402 and the information recording module 403 are respectively connected with the central processing unit 404 and are installed on the cabinet door 102.

The main board, the electric push rod 303a, the heater and the rotating fan 302 are respectively connected with the central processing unit 404.

A touch screen is provided on the cabinet door 102 for a worker to input or select the name of the tool used, and then store the recorded information in the information recording module 403.

The specific working principle is as follows:

based on the real-time temperature transmitted by the temperature sensor, the cpu 404 turns on or off the rotary fan 302, the heater, and the electric push rod 303a.

When the temperature in the screen cabinet 101 exceeds the set normal temperature, the rotating fan 302 is started to cool;

if the temperature in the cabinet 101 rises and reaches a high temperature value, the electric push rod 303a is started to increase the ventilation efficiency;

when the interior of the screen cabinet 101 is excessively wet, the heater is started to dry, so that the safety of tools and instruments in the screen cabinet 101 is ensured.

The fingerprints and the face images of related workers are recorded in the information recording module 403, when the workers take tools and instruments to input the fingerprints or passwords to unlock the door lock 200, the high-definition camera and the information recording module 403 synchronously record the pictures and the fingerprints of the users and compare the stored worker information, and then the pictures and the fingerprints are recorded in the information recording module 403, so that the later-stage loss is convenient to check; therefore, even if other factories temporarily borrow tools, corresponding photos can be taken, and corresponding personnel can be conveniently searched in the later period.

The device adopts the mode of face identification and fingerprint identification to read and register the information of operation and maintenance personnel, avoids omission, and adopts the electric lockset to realize automatic locking.

The information recording module 403 is used for recording user information, and when using tools, a worker needs to input own name and telephone to perform subsequent unlocking operation, so that later tools are convenient to lose and check.

It is important to note that the construction and arrangement of the application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present application. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present applications. Therefore, the application is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the application, or those not associated with practicing the application).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application 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 application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (2)

1. The utility model provides a fingerprint identification tool cabinet which characterized in that: comprising the steps of (a) a step of,

the tool cabinet (100) comprises a screen cabinet (101) and a cabinet door (102) rotatably connected with the screen cabinet;

a door lock (200), the door lock (200) being mounted on the cabinet door (102);

the door lock (200) comprises a lock shell (201), a lock cylinder (202), a rotating piece (203) and a switching piece (204), wherein the lock cylinder (202), the rotating piece (203) and the switching piece (204) are arranged in the lock shell (201), and the rotating piece (203) is matched with the switching piece (204);

a control module arranged inside the lock shell (201);

the lock shell (201) comprises a fingerprint touch area (201 a), a keyboard (201 b) and a rotating slot hole (201 c), wherein the fingerprint touch area (201 a), the keyboard (201 b) and the rotating slot hole (201 c) are arranged on the side surface of the lock shell (201), the keyboard (201 b) is positioned at the lower end of the rotating slot hole (201 c), and the switching piece (204) is inserted into the rotating slot hole (201 c);

the lock shell (201) further comprises a lock cavity (201 d), a lock cylinder hole (201 e) and a groove (201 f), wherein the lock cavity (201 d) is arranged at the upper end of the lock shell (201), the lock cylinder hole (201 e) is arranged on the side face of the lock shell (201), and the groove (201 f) is arranged in the lock shell (201) and is communicated with the lock cavity (201 d) and the rotating groove hole (201 c) respectively;

the lock cavity (201 d) comprises a gear motor (201 d-1), a gear rotating shaft (201 d-2), a sliding groove (201 d-3) and rack columns (201 d-4), wherein the gear motor (201 d-1) and the gear rotating shaft (201 d-2) are arranged on the inner wall of the lock cavity (201 d), the sliding groove (201 d-3) is arranged on the other inner wall, the rack columns (201 d-4) are arranged in the sliding groove (201 d-3), the gear rotating shaft (201 d-2) is rotationally connected with the inside of the lock cavity (201 d) through bearings, the two sliding grooves (201 d-3) are symmetrically arranged along the central line of the lock cavity (201 d), and the two rack columns (201 d-4) are respectively meshed with the gear motor (201 d-1) and the gear rotating shaft (201 d-2);

the rack column (201 d-4) is in sliding connection with the sliding groove (201 d-3);

the rack column (201 d-4) comprises a rack spring (201 d-41) and a rack clamping groove (201 d-42), the rack spring (201 d-41) is arranged on the side face of the rack column (201 d-4), the rack clamping groove (201 d-42) is arranged at the upper end of the rack column (201 d-4) in a penetrating mode, and the rack spring (201 d-41) is fixedly connected with the inside of the sliding groove (201 d-3);

the lock cylinder (202) comprises a lock cylinder (202 a), a first spring (202 b), pulleys (202 c) and pushing grooves (202 d), wherein the lock cylinder (202 a) is arranged on the side surface of the lock cylinder (202), the first spring (202 b) is arranged on the other side surface, the pulleys (202 c) are arranged at the upper end of the lock cylinder (202), the pushing grooves (202 d) are arranged on the side surface of the lock cylinder (202), two pushing grooves (202 d) are symmetrically arranged along the central line of the lock cylinder (202), and rack columns (201 d-4) are inserted in the pushing grooves (202 d);

the lock cylinder (202) further comprises a moving groove (202 e) and a switching groove (202 f), wherein the moving groove (202 e) is arranged in the lock cylinder (202) and is communicated with the two pushing grooves (202 d), and the switching groove (202 f) is arranged on the side surface of the lock cylinder (202) and is communicated with the moving groove (202 e);

the switching piece (204) comprises a movable spring block (204 a) and a pressing block (204 b), wherein the movable spring block (204 a) is arranged in the movable groove (202 e), the pressing block (204 b) is arranged in the switching groove (202 f), and the pressing block (204 b) is matched with the movable spring block (204 a);

the movable spring block (204 a) comprises a convex plate (204 a-1) and inclined grooves (204 a-2), wherein the convex plate (204 a-1) is arranged at the upper end of the movable spring block (204 a), the inclined grooves (204 a-2) are arranged on the side surface of the movable spring block (204 a), and the convex plate (204 a-1) is symmetrically provided with two convex plates along the central line of the movable spring block (204 a);

the extrusion block (204 b) comprises an extrusion spring (204 b-1) and an extrusion inclined surface block (204 b-2), the extrusion spring (204 b-1) and the extrusion inclined surface block (204 b-2) are arranged on the side surface of the extrusion block (204 b), and the extrusion inclined surface block (204 b-2) is matched with the inclined surface groove (204 a-2);

the rotating piece (203) comprises a handle (203 a), a movable extrusion block (203 b) and a handle lock cylinder (203 c), wherein the handle lock cylinder (203 c) is rotationally connected with the handle (203 a), the movable extrusion block (203 b) is rotationally connected with the handle (203 a), the handle (203 a) is inserted into the rotary slot hole (201 c), and the movable extrusion block (203 b) is arranged in the groove (201 f);

one end of the handle (203 a) is provided with a spline (203 a-1), the other end of the handle is provided with an unlocking rotation groove (203 a-2), the circumferential surface of the handle (203 a) is provided with an arc-shaped protruding block (203 a-3) and an arc-shaped opening groove (203 a-4), the arc-shaped opening groove (203 a-4) is communicated with the unlocking rotation groove (203 a-2), and a handle lock cylinder (203 c) is arranged in the unlocking rotation groove (203 a-2); the arc-shaped open slot (203 a-4) penetrates through the handle (203 a), and two arc-shaped protruding blocks (203 a-3) are symmetrically arranged along the central line of the handle (203 a);

a spline groove (201 d-21) is formed in the side face of the gear rotating shaft (201 d-2), and the spline (203 a-1) is matched with the spline groove (201 d-21);

an arc-shaped lug groove (201 c-1) is formed in the rotary groove hole (201 c), the arc-shaped lug groove (201 c-1) is communicated with the groove (201 f), the arc-shaped lug (203 a-3) is arranged in the arc-shaped lug groove (201 c-1), and two arc-shaped lug grooves (201 c-1) are correspondingly formed;

a disc limiting groove (201 c-2) is also arranged in the rotating groove hole (201 c);

a key hole (203 c-1) is arranged on the side surface of the handle lock cylinder (203 c), an open slot (203 c-2) is arranged on the circumferential surface, a limit fixed block (203 c-3) which is rotationally connected with the open slot (203 c-2) is arranged in the open slot (203 c-2), and the limit fixed block (203 c-3) passes through the arc open slot (203 a-4) and is arranged in the disc limit slot (201 c-2); a ventilation assembly (300), wherein the ventilation assembly (300) comprises a ventilation box (301), a rotary fan (302) and a pushing piece (303), the ventilation box (301) is connected with the screen cabinet (101), the rotary fan (302) is installed in the ventilation box (301), and the pushing piece (303) is connected with the ventilation box (301) and matched with the rotary fan (302);

the screen cabinet (101) comprises a placing cavity (101 a), a partition board (101 b) and a hanging column (101 c), wherein the placing cavity (101 a) is arranged on the side face of the screen cabinet (101), the partition board (101 b) is arranged on the inner wall of the placing cavity (101 a), the hanging column (101 c) is arranged on the other inner wall, and a plurality of partition boards (101 b) and the hanging column (101 c) are arranged;

the screen cabinet (101) further comprises an air inlet hole (101 d), an air outlet hole (101 e) and a screen cabinet locking groove (101 f), the air inlet hole (101 d) is arranged on the side surface of the screen cabinet (101) in a penetrating mode, the air outlet hole (101 e) is arranged on the other side surface, the screen cabinet locking groove (101 f) is arranged on the inner wall of the placing cavity (101 a), and the ventilation box (301) is inserted in the air inlet hole (101 d);

the ventilation box (301) comprises a ventilation cavity (301 a), a ventilation filter screen (301 b), a support frame (301 c) and a ventilation sliding groove (301 d), wherein the ventilation cavity (301 a) is arranged on the side face of the ventilation box (301), the ventilation filter screen (301 b) is arranged on the other side face, the support frame (301 c) is arranged in the ventilation cavity (301 a), the ventilation sliding groove (301 d) is arranged at the upper end of the ventilation box (301), and the rotary fan (302) is connected with the support frame (301 c);

the rotary fan (302) comprises a fan rotating shaft (302 a), a fan blade rotating column (302 b), a sliding column (302 c) and a connecting rod (302 d), wherein the fan rotating shaft (302 a) is arranged on the side surface of the rotary fan (302), the fan blade rotating column (302 b) is arranged on the side surface of the fan rotating shaft (302 a), the sliding column (302 c) is arranged on the fan rotating shaft (302 a) and is in sliding fit with the fan rotating shaft (302 a), one end of the connecting rod (302 d) is connected with the sliding column (302 c) in a rotating mode, and the other end of the connecting rod is matched with the fan blade rotating column (302 b);

the fan blade rotating column (302 b) comprises fixed fan blades (302 b-1), fan blade rotating grooves (302 b-2) and rotating fan blades (302 b-3), wherein the fixed fan blades (302 b-1) and the fan blade rotating grooves (302 b-2) are arranged on the circumferential surface of the fan blade rotating column (302 b), a plurality of fixed fan blades (302 b-1) and the fan blade rotating grooves (302 b-2) are arranged at intervals, and the rotating fan blades (302 b-3) are arranged in the fan blade rotating grooves (302 b-2) and are in rotating connection with the fan blade rotating grooves;

the side surface of the rotating fan blade (302 b-3) is provided with a connecting placing groove (302 b-31), a connecting rotating column (302 b-32) is arranged in the connecting placing groove (302 b-31), and the connecting rotating column (302 b-32) is rotationally connected with the connecting rod (302 d);

a sliding fit groove (302 c-1) is formed in the side face of the sliding column (302 c);

the pushing piece (303) comprises an electric push rod (303 a) and a moving rod (303 b), the electric push rod (303 a) is arranged at the upper end of the ventilation box (301), the moving rod (303 b) is connected with the electric push rod (303 a), and the moving rod (303 b) is inserted into the ventilation sliding groove (301 d);

the side face of the moving rod (303 b) is provided with a moving sliding block (303 b-1), and the moving sliding block (303 b-1) is arranged in the sliding attaching groove (302 c-1).

2. An intelligent regulation and control system for a tool cabinet is characterized in that: comprising the fingerprint identification tool cabinet of claim 1, further comprising,

a regulation unit (400) comprising;

the temperature monitoring module (401) is used for monitoring the real-time temperature in the tool cabinet;

an image monitoring module (402) for remotely monitoring a field situation;

an information recording module (403) for recording the names of the tools and the users used;

a central processing unit (404) for collecting and summarizing the related information and issuing instructions;

the temperature monitoring module (401), the image monitoring module (402) and the information recording module (403) are respectively connected with the central processing unit (404) and are arranged on the cabinet door (102).