CN212990225U - Intelligent tool cabinet and tool management system - Google Patents

Abstract

The utility model relates to an intelligence tool cabinet and tool management system. Intelligent tool cabinet for deposit the instrument, intelligent tool cabinet includes: a cabinet body, wherein an article placing part is arranged in the cabinet body; the image capturer is arranged in the cabinet body and is positioned above the object placing part; the radio frequency identification assembly comprises a reader-writer arranged in the cabinet body, and the reader-writer is used for identifying a label on the tool; and the master control machine, the image capturer and the reader-writer are electrically connected with the master control machine. In the intelligent tool cabinet, the image transmitted into the main control computer through the image capturer and the checking condition of the radio frequency identification assembly can be jointly used for judging the tool storage condition in the intelligent tool cabinet, in addition, even if the label on the tool drops, the tool storage condition in the tool cabinet can be determined through the image capturer, and the identification degree of the main control computer on the tool storage condition can be effectively improved.

Description

Intelligent tool cabinet and tool management system

Technical Field

The utility model relates to an instrument management technical field especially relates to intelligent tool cabinet and instrument management system.

Background

The tool cabinet is generally applied to the customization management of tools in a production field, so that a user can access and use the tools more conveniently and efficiently. The traditional tool cabinet does not have the capacity of identifying the tools stored in the tool cabinet, cannot sense the storage state of the tools, needs to intervene in the inventory and the storage state of the tools manually, and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

Based on this, to traditional tool cabinet not possess the ability of discernment and deposit instrument in it, unable perception instrument deposit state, awkward problem, this application provides an intelligent tool cabinet and tool management system.

An intelligent tool cabinet for storing tools, the intelligent tool cabinet comprising: a cabinet body, wherein an article placing part is arranged in the cabinet body; the image capturer is arranged in the cabinet body and is positioned above the object placing part; the radio frequency identification assembly comprises a reader-writer arranged in the cabinet body, and the reader-writer is used for identifying a label on the tool; and the image capturer and the reader-writer are electrically connected with the main control machine.

In one embodiment, the rfid component further includes an antenna electrically connected to the reader.

In one embodiment, the reader is disposed below the placement part.

In one embodiment, the cabinet body comprises a cabinet main body with an opening and a door body movably connected with the cabinet main body, and the door body is matched with the opening in an opening and closing manner;

the intelligent tool cabinet further comprises a door control device arranged on the door body and a biological identification module electrically connected with the door control device, and the biological identification module is electrically connected with the main control computer.

In one embodiment, the door body includes a first door body and a second door body, the first door body and the second door body are rotatably connected to the cabinet main body, the first door body and the second door body are mutually matched to open or close the opening, the door control device includes an electrically controlled lock electrically connected to the biometric identification module, and the electrically controlled lock is used for locking the first door body and the second door body.

In one embodiment, the door control device further comprises a first door magnet arranged on the first door body and a second door magnet arranged on the second door body, the first door magnet and the second door magnet are both electrically connected with the biological identification module, and the first door magnet and the second door magnet are used for sending an alarm signal to the main control computer when the time that the first door body and/or the second door body are in the open state exceeds the preset time.

In one embodiment, the first door magnet and the second door magnet are aligned when the first door body and the second door body are in a closed state, and the first door magnet and the second door magnet are dislocated when the first door body and/or the second door body are in an open state.

A tool management system comprising: a tool management module; a biometric module in communicative connection with the tool management module; an image capturer communicatively coupled with the tool management module; a radio frequency identification component in communicative connection with the tool management module; and the data center is in communication connection with the tool management module.

In one embodiment, the tool management system further comprises an access control management module and a door control device, wherein the access control management module and the door control device are in communication connection with the biological identification module.

In one embodiment, the tool management system further comprises a door control device, and the door control device is connected with the biological recognition module in a communication mode.

In the intelligent tool cabinet and the tool management system, the image transmitted into the main control computer through the image capturer and the checking condition of the radio frequency identification component can jointly judge the tool storage condition in the intelligent tool cabinet, in addition, even if the label on the tool falls off, the tool storage condition in the tool cabinet can be determined through the image capturer, and the identification degree of the main control computer on the tool storage condition can be effectively improved.

Drawings

Fig. 1 is a first schematic structural diagram of an intelligent tool cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent tool cabinet according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a tool management system according to an embodiment of the present invention.

Description of reference numerals:

100. a cabinet body; 110. a door body; 111. a first door body; 112. a second door body; 120. a cabinet main body; 200. a main control machine; 300. a biometric identification module; 400. an image capturer; 500. a radio frequency identification component; 510. a reader/writer; 520. an antenna; 610. an electrically controlled lock; 620. a first gate magnet; 630. and a second door magnet.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1-2, one embodiment relates to an intelligent tool cabinet for storing tools, which includes a cabinet 100, an image capturer 400, a radio frequency identification assembly 500, and a main controller 200.

The cabinet 100 has a hollow structure, the cabinet 100 may have a square structure or a cylindrical or other structure, and the cabinet 100 is mainly used for storing various tools.

Specifically, in this embodiment, the cabinet 100 has a square structure, the cabinet 100 includes a cabinet main body 120 having an opening and a door body 110 movably connected to the cabinet main body 120, the door body 110 is opened and closed in cooperation with the opening, and the door body 110 is used for controlling the opening to be opened and closed, so as to open and close the whole cabinet 100.

The cabinet body 100 is internally provided with a storage part, tools can be placed on the storage part, the image capturer 400 is arranged in the cabinet body 100 and positioned above the storage part, and the image capturer 400 is electrically connected with the main control computer 200. The image capturer 400 may capture the tools in the cabinet 100 and then transfer the captured images to the main controller 200, where the main controller 200 performs the recognition process.

Specifically, in this embodiment, the main control computer 200 is a tablet computer, the image capturing device 400 is a camera, and the camera and the main control computer 200 may be connected in a wired or wireless manner.

The rfid assembly 500 includes a reader/writer 510 disposed in the cabinet 100, the reader/writer 510 is configured to identify a tag on the tool, and the reader/writer 510 is electrically connected to the main control machine 200. The tools to be placed in the intelligent tool cabinet need to be provided with labels in an embedding, sticking or binding mode, and after the tools with the labels are placed in the intelligent tool cabinet, the reader-writer 510 can read the label information and then transmit the related information to the main control computer 200.

Further, the rfid component 500 further includes an antenna 520, the antenna 520 is electrically connected to the reader/writer 510, the placement portion may be a transparent or hollow partition, the antenna 520 is laid on the partition, a tool with a tag is used for being placed on the antenna 520, and the reader/writer 510 is disposed below the placement portion and is used for identifying the tag on the tool.

Specifically, in the present embodiment, the reader 510 and the antenna 520 are the reader 510 and the antenna 520 based on the RFID technology. The RFID electronic tags are installed on the tools stored in the tool cabinet in an embedding, sticking or binding manner, the reader-writer 510 can check the tools stored in the tool cabinet, and when the electronic tags attached to the tools are checked, the corresponding identifiers of the electronic tags are recorded.

In the above-mentioned intelligent tool cabinet, the image transmitted to the main control computer 200 by the image capturer 400 and the checking status of the rfid assembly 500 can be used to jointly determine the tool storage status in the intelligent tool cabinet, and in addition, even if the label on the tool drops, the tool storage status in the tool cabinet can be determined by the image capturer 400, so that the recognition degree of the main control computer 200 on the tool storage status can be effectively improved.

In one embodiment, the intelligent tool cabinet further includes a door control device disposed on the door 110, and a biometric module 300 electrically connected to the door control device, wherein the biometric module 300 is electrically connected to the main controller 200.

Optionally, the biometric module 300 is disposed on the outer side of the door 110, and the biometric module 300 may be a fingerprint identification module or an iris identification module. Specifically, in this embodiment, the biometric module 300 is a fingerprint machine based on semiconductor identification, the fingerprint machine is used to verify user information and control the door control device to open or close the door 110, and the biometric module 300 is connected to the main control computer 200 through a network cable.

In one embodiment, the electric control door includes a first door 111 and a second door 112, the first door 111 and the second door 112 are both rotatably connected to the cabinet main body, the first door 111 and the second door 112 are mutually matched to open or close the opening, the door control device includes an electric control lock 610 electrically connected to the biometric identification module 300, and the electric control lock 610 is used for locking the first door 111 and the second door 112.

In one embodiment, the door control device further includes a first door magnet 620 disposed on the first door 111 and a second door magnet 630 disposed on the second door 112, the first door magnet 620 and the second door magnet 630 are both electrically connected to the biometric identification module 300, and the first door magnet 620 and the second door magnet 630 send an alarm signal to the main control computer 200 when the time when the first door 111 and/or the second door 112 is in the open state exceeds a preset time.

Specifically, the first door knob 620 and the second door knob 630 are both wired door knobs, and the first door knob 620 and the second door knob 630 are both electrically connected to the biometric module 300. Wherein, the preset time may be 3 minutes or more than 3 minutes, and is not limited herein.

More specifically, the first door knob 620 is disposed on the inner side of the first door body 111, the second door knob 630 is disposed on the inner side of the second door body 112, and when the first door body 111 and the second door body 112 are both in a closed state, the first door knob 620 is aligned with the second door knob 630. When the first door magnet 620 and the second door magnet 630 are not aligned and a preset time period is exceeded, the biometric identification module 300 electrically connected with the first door magnet 620 and the second door magnet 630 generates a warning signal and transmits the warning signal to the main control computer 200, and the main control computer 200 prompts a user. Through first door magnetism 620, second door magnetism 630 and biological identification module 300, whether first door body 111 and the second door body 112 that can real-time detection instrument cabinet in time closed, improve the security.

As shown in FIG. 3, an embodiment also relates to a tool management system that includes a tool management module, a biometric module 300, an image capturer 400, a radio frequency identification component 500, and a data center. The biometric module 300, the image capturer 400, the radio frequency identification component 500, and the data center are all communicatively coupled to a tool management module.

In one embodiment, the data center is mounted on the main control computer 200 and is used for storing information such as user identity information, an RFID tag ID number of a tool, a management system registration code, a storage location, image information, and a person in charge, and meanwhile, the data center also stores a history access record of the tool. Specifically, the data center is an SQL Server-based database.

In one embodiment, the tool management module is mounted on the main control computer 200, and a display screen of the main control computer 200 displays a user operation interface of the tool management module for a user, and the user operation interface updates information of the tool, such as an in-place state and a user, in real time. Meanwhile, the user can view the historical access records of the tool on the user operation interface.

In one embodiment, the tool management system further comprises a door control device 110 and a door access management module communicatively connected to the biometric module 300. The entrance guard management module is used for managing user information and registering new users, and meanwhile, the entrance guard management module can also set various technical parameters of the biological recognition module 300. The door control device is used for controlling the opening and closing of the door body 110 and detecting whether the door body 110 is closed in time.

Specifically, the access control management module needs to set an administrator after initialization is completed, user registration needs to be performed after administrator authentication is successful, and identity information of a registered user can be stored in the data center. Meanwhile, the administrator can change or delete the user information in the access control management module.

In one embodiment, the biometric module 300 is a fingerprint machine based on semiconductor identification, the user presses the registered finger on the fingerprint identification area of the fingerprint machine, the fingerprint machine matches the identified fingerprint information with the fingerprint information stored in the data center, and if the matching is successful, the identity authentication is passed, and the fingerprint machine controls the door control device to open the door 110.

In one embodiment, the specific process of using the tool cabinet is as follows: the user carries out fingerprint identification on the biological identification module 300, the biological identification module 300 matches the identified fingerprint information with the fingerprint information stored in the data center, when the fingerprint information identified by the biological identification module 300 is successfully matched with the fingerprint information stored in the data center, the biological identification module 300 controls the electric control lock 610 to unlock, and the user can carry out access operation when opening the door body 110. In the process of access operation by a user, the rfid component 500 checks the tag attached to the tool, and at the same time, the image capturer 400 transmits the related image to the tool management module, the tool management module identifies and compares the corresponding image with the tool image information stored in the data center, and the two are combined to judge the on-site state of the tool, and after the information is processed by the tool management module on the main control computer 200, the user operation interface on the main control computer 200 updates the on-site state of the tool in real time in combination with the identity information of the user, and at the same time, uploads the information to the data center for storage.

In one embodiment, the user performs tool access operations, and may perform application operations through the terminal device in addition to the above-described identification directly on the biometric module 300. The terminal equipment can send the authentication information to the main control machine 200 in a wired connection or wireless connection mode, the authentication information is matched with the authentication information reserved in the data center, after the matching is successful, the main control machine 200 can control the fingerprint identification module to unlock, and a user can carry out tool access operation. The terminal device can be a mobile phone, a computer and the like, and the authentication information of the user can be a login user name and a login password of the user.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An intelligent tool cabinet for storing tools, the intelligent tool cabinet comprising:

a cabinet body, wherein an article placing part is arranged in the cabinet body;

the image capturer is arranged in the cabinet body and is positioned above the object placing part;

the radio frequency identification assembly comprises a reader-writer arranged in the cabinet body, and the reader-writer is used for identifying a label on the tool; and

the image capturer and the reader-writer are electrically connected with the main control machine.

2. The intelligent tool cabinet of claim 1, wherein the radio frequency identification assembly further comprises an antenna, the antenna being electrically connected to the reader.

3. The intelligent tool cabinet according to claim 1, wherein the reader/writer is disposed below the storage unit.

4. The intelligent tool cabinet according to claim 1, wherein the cabinet body comprises a cabinet main body with an opening and a door body movably connected with the cabinet main body, and the door body is in open-close fit with the opening;

the intelligent tool cabinet further comprises a door control device arranged on the door body and a biological identification module electrically connected with the door control device, and the biological identification module is electrically connected with the main control computer.

5. The intelligent tool cabinet according to claim 4, wherein the door body comprises a first door body and a second door body, the first door body and the second door body are rotatably connected with the cabinet main body, the first door body and the second door body are mutually matched to open or close the opening, the door control device comprises an electric control lock electrically connected with the biological identification module, and the electric control lock is used for locking the first door body and the second door body.

6. The intelligent tool cabinet according to claim 5, wherein the door control device further comprises a first door magnet arranged on the first door body and a second door magnet arranged on the second door body, the first door magnet and the second door magnet are both electrically connected to the biological recognition module, and the first door magnet and the second door magnet are used for sending an alarm signal to the main control computer when the time that the first door body and/or the second door body is in the open state exceeds a preset time.

7. The intelligent tool cabinet of claim 6, wherein: the first door magnet and the second door magnet are aligned when the first door body and the second door body are in a closed state, and the first door magnet and the second door magnet are staggered when the first door body and/or the second door body are in an opened state.

8. A tool management system, comprising:

a tool management module;

a biometric module in communicative connection with the tool management module;

an image capturer communicatively coupled with the tool management module;

a radio frequency identification component in communicative connection with the tool management module; and

a data center in communicative connection with the tool management module.

9. The tool management system of claim 8, further comprising an access control module communicatively coupled to the biometric module.

10. The tool management system of claim 9 further comprising a door control device communicatively coupled to the biometric module.

Images