CN115674125A - Maintenance tool box based on RFID - Google Patents

Abstract

The invention discloses an overhaul tool box based on RFID, which comprises a box body, wherein a first accommodating part is movably arranged in the box body, a second accommodating part is movably arranged at the top of the first accommodating part, and overhaul tools with RFID labels are stored in the first accommodating part and the second accommodating part; the identification assembly comprises a main control module and an RFID antenna, wherein the main control module is arranged at the bottom of the box body, and the RFID antenna is arranged on the inner side wall of the box body. According to the tool management system, the tools in the tool box can be automatically checked through the matching of the tools with the RFID tags and the identification assembly, the tools are intelligently managed, and the tools are prevented from being lost and omitted.

Description

Maintenance tool box based on RFID

Technical Field

The invention relates to the technical field of tool boxes, in particular to an overhauling tool box based on RFID.

Background

Tools such as various wrenches, pliers, screwdrivers and the like which are often needed to be used in the daily overhaul test work of an electric power system are usually placed in a tool box, and the management of tools and instruments in the tool box becomes a big pain point and difficulty in the daily work: that is, various tools are placed in a box in a messy manner, and the tools are often left on the work site or randomly placed at other positions due to the carelessness of workers, so that the tools in the tool box are lost, the tools in the tool box are used less, and the difficulty in tool management is high.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and title of the application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

In order to solve the technical problems, the invention provides the following technical scheme: an overhaul tool box based on RFID comprises a box body, wherein a first accommodating part is movably arranged in the box body, a second accommodating part is movably arranged at the top of the first accommodating part, and overhaul tools with RFID labels are stored in the first accommodating part and the second accommodating part; the identification assembly comprises a main control module and an RFID antenna, wherein the main control module is arranged at the bottom of the box body, and the RFID antenna is arranged on the inner side wall of the box body.

As a preferable aspect of the RFID-based service kit of the present invention, wherein: the first accommodating part is slidably mounted inside the box body by adopting a drawing structure, a spacing block is arranged in the middle of the first accommodating part, a push rod is arranged at the top of the spacing block, and first accommodating cavities are formed in two sides of the spacing block.

As a preferable aspect of the RFID-based service kit of the present invention, wherein: the second accommodating part is slidably mounted inside the box body by adopting a pull-out structure, the sliding displacement direction of the second accommodating part is perpendicular to that of the first accommodating part, and the two groups of second accommodating parts are respectively positioned above the two groups of first accommodating cavities.

As a preferable aspect of the RFID-based service kit of the present invention, wherein: the top of the spacing block is provided with a fixed block, the middle part of the fixed block is provided with a displacement groove, and a push-pull piece connected with the second accommodating piece is movably arranged in the displacement groove.

As a preferable scheme of the RFID-based service kit of the present invention, wherein: the push-pull piece comprises a first push-pull column and a second push-pull column, the first push-pull column and the second push-pull column are respectively located on two sides of the displacement groove, a first push-pull rod hinged with the two groups of second accommodating pieces is hinged to the first push-pull column, a second push-pull rod hinged with the two groups of second accommodating pieces is hinged to the second push-pull column, and the first push-pull rod and the second push-pull rod surround the diamond structure.

As a preferable scheme of the RFID-based service kit of the present invention, wherein: the bottom of the first push-pull column is provided with a connecting rod, a push groove is formed in the connecting rod, the push rod is located in the push groove, and a through hole for the connecting rod to penetrate through is formed in the bottom of the second push-pull column.

As a preferable aspect of the RFID-based service kit of the present invention, wherein: and a third accommodating cavity is arranged at the top of the second accommodating part, and a cover plate is arranged at the top of the third accommodating cavity.

As a preferable aspect of the RFID-based service kit of the present invention, wherein: the apron is provided with two sets ofly to hinge bar activity through both sides sets up in third holding chamber top, and the hinge bar symmetry that two sets of apron were established sets up, is connected with the dwang between two sets of hinge bars relatively, sets up the running gear on the dwang.

As a preferable scheme of the RFID-based service kit of the present invention, wherein: the top of the first push-pull column is provided with a first driving rack which is meshed with the rotating gear arranged on one group of cover plates, the top of the second push-pull column is provided with a second driving rack which is meshed with the rotating gear arranged on the other group of cover plates.

As a preferable aspect of the RFID-based service kit of the present invention, wherein: the master control module comprises a master controller, an RFID reader and an RFID communication module, and the master controller is in signal connection with the RFID reader through the RFID communication module.

The invention has the beneficial effects that: the automatic checking of tools in the tool box can be realized through the tool matching identification assembly with the RFID tag, the tools are intelligently managed, and the tools are prevented from being lost and omitted.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor. Wherein:

FIG. 1 is a schematic view of the external structure of the case of the present invention.

FIG. 2 is a schematic view of an identification component of the present invention.

FIG. 3 is a schematic view of the internal structure of the case of the present invention.

Fig. 4 is an exploded view of the internal structure of the case of the present invention.

Fig. 5 is a schematic structural view of the push-pull member of the present invention.

FIG. 6 is a schematic structural diagram of the case in an open state according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying figures of the present invention are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as specifically described herein, and it will be appreciated by those skilled in the art that the present invention may be practiced without departing from the spirit and scope of the present invention and that the present invention is not limited by the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. 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 2, for a first embodiment of the present invention, the embodiment provides an RFID-based maintenance tool kit, which includes a kit body 100 and an identification component 200, wherein a maintenance tool with an RFID tag is stored in the kit body 100, the identification component 200 identifies the maintenance tool through the RFID tag, so as to count the number and types of tools in the kit, so as to remind a worker that the tool is not put back into the kit in time after use, a first accommodating part 101 is movably arranged in the kit body 100, a second accommodating part 102 is movably arranged at the top of the first accommodating part 101, maintenance tools with RFID tags are stored in the first accommodating part 101 and the second accommodating part 102, the first accommodating part 101 and the second accommodating part 102 are movably arranged in the kit body 100, so that the first accommodating part 101 or the second accommodating part 102 can be taken out of the kit body when the tool is needed to be used, and different types of corresponding maintenance tools are stored in the first accommodating part 101 or the second accommodating part 102, which is convenient for the worker to quickly find the maintenance tool when the tool is needed; the identification component 200 comprises a main control module 201 and an RFID antenna 102, wherein the main control module 201 is arranged at the bottom of the box body 100, the RFID antenna 102 is arranged on the inner side wall of the box body 100, the RFID antenna 102 can obtain information on an RFID label of the maintenance tool and transmit the obtained information to the main control module 201, and the main control module 201 can know whether the tool in the tool box is lost or not according to the information fed back by the RFID antenna 102.

Further, the main control module 201 includes a main controller 201a, an RFID reader 201b, and an RFID communication module 201c, and the main controller 201a establishes a signal connection with the RFID reader 201b through the RFID communication module 201 c.

The main controller 201a can adopt an industrial control board (domestic Mitsubishi PLC), the RFID communication module 201c is connected with a communication port of the main controller 201a through a data line, the main controller 201a can communicate with the RFID communication module 201c, the RFID communication module 201c can communicate with the RFID reader 201b, the RFID reader 201b can communicate with the RFID antenna 102, the RFID antenna 102 can obtain RFID tag information, and the RFID reader 201b, the RFID communication module 201c and the RFID tag all adopt commercially available products (the RFID reader can adopt a reader with the model of KEZLIY JY-L802, and the RFID communication module can adopt a thinmagic M6e (UHF) RAIN identification module). The RFID reader 201b emits electromagnetic wave signals outwards through the RFID antenna 102, the electromagnetic wave signals activate the RFID tag attached to the tool, then the RFID tag returns tool information, the tool information is transmitted to the RFID reader 201b through the RFID antenna 102, the RFID reader 201b processes the tool information to obtain an electronic tag identification number of the RFID tag, and then the information is fed back to the main controller 201a through the RFID communication module 201 c.

The tools in the tool box can be automatically checked through the tool matching identification component 200 with the RFID tag, the tools are intelligently managed, and the tools are prevented from being lost and omitted.

Example 2

Referring to fig. 1 to 6, a second embodiment of the present invention is different from the first embodiment in that: the first accommodating part 101 is slidably mounted inside the box body 100 by adopting a drawing structure, a spacing block 101a is arranged in the middle of the first accommodating part 101, a push rod 101b is arranged at the top of the spacing block 101a, first accommodating cavities 101c are arranged on two sides of the spacing block 101a, and tools with RFID tags are stored in the first accommodating cavities 101 c. The first accommodating part 101 is similar to a drawer and is slidably mounted inside the box 100 in a pull-out structure, when a tool in the first accommodating cavity 101c needs to be used, the first accommodating part 101 can be pulled out from the inside of the box 100, the tool is placed in the original position after the tool is used, and then the first accommodating part 101 is restored.

Further, the second accommodating part 102 is slidably mounted inside the box 100 by a pull-out structure, and the sliding displacement direction of the second accommodating part 102 is perpendicular to the sliding displacement direction of the first accommodating part 101, and two sets of the second accommodating parts 102 are disposed above the two sets of the first accommodating cavities 101c, respectively.

The second accommodating part 102 is similar to a drawer and is slidably mounted inside the box body 100 by adopting a pull-out structure, a second accommodating cavity is arranged in the second accommodating cavity, tools with RFID labels are stored in the second accommodating cavity, when the tools in the second accommodating cavity need to be used, the second accommodating part 102 can be pulled out from the inside of the box body 100, the tools are placed in the original position after the tools are used, and then the second accommodating part 102 is restored.

Furthermore, a fixed block 103 is arranged at the top of the spacing block 101a, the fixed block 103 is fixedly connected with the box body 100, a displacement groove 103a is formed in the middle of the fixed block 103, a push-pull piece 104 connected with the second accommodating piece 102 is movably installed in the displacement groove 103a, and the push-pull piece 104 can move along the displacement groove 103 a.

The push-pull piece 104 comprises a first push-pull column 104a and a second push-pull column 104b, the first push-pull column 104a and the second push-pull column 104b are respectively located on two sides of the displacement slot 103a, the first push-pull column 104a and the second push-pull column 104b are slidably mounted in the displacement slot 103a, a first push-pull rod 104c hinged with the two groups of second accommodating pieces 102 is hinged on the first push-pull column 104a, a second push-pull rod 104d hinged with the two groups of second accommodating pieces 102 is hinged on the second push-pull column 104b, and the first push-pull rod 104c and the second push-pull rod 104d surround a diamond structure. When the first push-pull column 104a and the second push-pull column 104b move oppositely along the displacement slot 103a, the first push-pull rod 104 hinged with the first push-pull column 104a and the second push-pull rod 104d hinged with the second push-pull column 104b are pushed to deflect and approach each other, so that the two groups of the second accommodating parts 102 are pushed out of the box body 100; when the first push-pull column 104a and the second push-pull column 104b move oppositely along the displacement slot 103a, the first push-pull rod 104 hinged to the first push-pull column 104a and the second push-pull rod 104d hinged to the second push-pull column 104b are pulled to deflect away from each other, thereby retracting the two sets of the second receiving members 102 inside the box 100.

The bottom of the first push-pull column 104a is provided with a connecting rod 104a-1, the connecting rod 104a-1 is provided with a pushing groove 104a-2, the pushing rod 101b is positioned in the pushing groove 104a-2, and the bottom of the second push-pull column 104b is provided with a through hole 104b-1 for the connecting rod 104a-1 to pass through.

In an initial state, the first receiving member 101 and the second receiving member 102 are located inside the box 100, the first push-pull column 104a and the second push-pull column 104b are located at two sides of the displacement slot 103a respectively, the first push-pull rod 104c and the second push-pull rod 104d extend along the direction of the displacement slot 103a and have a certain inclination angle, and the push rod 101b is located at one side of the push slot 104a-2 close to the first push-pull column 104 a. When a tool in the box body 100 needs to be used, the first accommodating part 101 is pulled to extend out of the box body 100, the first accommodating part 101 extends out to drive the push rod 101b at the top of the spacing block 101a to displace along the push groove 104a-2, when the push rod 101b reaches the side, away from the first push-pull column 104a, of the push groove 104a-2, the first accommodating part 101 continues to be pulled outwards, the push rod 101b simultaneously pulls the connecting rod 104a-1 to move along the displacement groove 103a, the connecting rod 104a-1 pulls the first push-pull column 104a to move along the displacement groove 103a towards the second push-pull column 104b, the first push-pull column 104a drives the first push-pull rod 104c to deflect and open, so as to push the second accommodating parts 102 at two sides towards the outside of the box body 100, the second accommodating part 102 moves outwards and simultaneously drives the second push-pull column 104b to deflect and open, so that the second push-pull column 104b is pulled to move towards the first push-pull column 104a direction along the displacement groove 103a, the connecting rod 104 a-pull column 104 a-pull rod 104b and the second push-pull rod 104b completely pass through the first push-pull rod 104a, so as to be convenient for selecting when the first push-pull rod 104a and the second push-pull rod 104a completely pass through hole 104b, and the second push-pull rod 104b, and the second accommodating part are completely, and the second push-pull rod 104a, and the second push-pull rod 104b are completely, and the second push-pull rod 104b, so as to be capable of the first push-pull rod 104a, and the second accommodating part, and the second push-pull rod 104b are completely and the second push-pull rod 104b, and the second accommodating part completely move, and the second push-pull rod 104a completely move, so as to be convenient for selecting tool, and the second push-pull rod can be conveniently for selecting process, and the first push-pull rod 104b, and the first push-pull rod 104a tool is completely, and the second push-pull rod 104b, and the second push-pull rod 104a tool completely move out, and the first push-pull rod 104b, and the second push-pull rod 104b are completely, and the second push-pull rod 104b is completely, and the selecting process is completely. After the tool is used, the first accommodating part 101 is pushed into the box body 100 again, the first accommodating part 101 moves to drive the push rod 101b to move along the push groove 104a-2 towards the first push-pull column 104a, when the push rod 101b reaches the end of the push groove 104a-2, the first accommodating part 101 is continuously pushed, the push rod 101b drives the connecting rod 104a-1 and the first push-pull column 104a to move along the first push-pull column 104a towards the direction away from the second push-pull column 104b, the first push-pull column 104a moves to drive the first push-pull rod 104c to deflect and retract, so that the second accommodating parts 102 on the two sides are pulled to move towards the inside of the box body 100, the second accommodating parts 102 move inwards and drive the second push-pull column 104b to deflect and retract, the second push-pull column 104b is pushed to move along the displacement groove 103a away from the first push-pull column 104a, and when the first accommodating part 101 is completely retracted, the second accommodating parts 102 are simultaneously retracted.

When the tool box is used, the first accommodating part 101 can be opened firstly, and when the first accommodating part 101 is opened to a half opening degree, the second accommodating part 102 is opened gradually, so that the most common tools can be placed outside the first accommodating part 101, and the second accommodating part 102 is also opened along with the opening of the first accommodating part 101, and all tools in the box are displayed in front of workers; the user can also directly open the second container 102, and the second container 102 can also drive the first container 101 to open to a half-opening degree while opening, and the opening process is similar to the process in which the first container 101 drives the second container 102, and is not described here again.

Example 3

Referring to fig. 1 to 6, a third embodiment of the present invention is provided, which is based on the second embodiment: a third accommodating cavity 105 is formed in the top of the second accommodating part 102, a cover plate 105a is arranged on the top of the third accommodating cavity 105, tools with RFID tags are also stored in the third accommodating cavity 105, so that the storage space in the box body 100 is increased, and the cover plate 105a arranged on the top of the third accommodating cavity 105 can seal the third accommodating cavity 105.

Further, two sets of cover plates 105a are arranged and movably arranged at the top of the third accommodating cavity 105 through hinge rods 105b at two sides, the two sets of cover plates 105a are spliced to completely seal the third accommodating cavity 105, the hinge rods 105b of the two sets of cover plates 105a are symmetrically arranged, when the top cover plate 105a is opened, the two sets of cover plates 105 respectively move towards two sides of the third accommodating cavity 105 under the action of the symmetrically arranged hinge rods 105b, and when the top cover plate 105a is closed, the two sets of cover plates 105 oppositely move under the action of the symmetrically arranged hinge rods 105b to be spliced to seal the third accommodating cavity 105 again.

A rotation lever 105c is connected between the two opposing hinge levers 105b, and a rotation gear 105d is provided on the rotation lever 105 c. The top of the first push-pull column 104a is provided with a first driving rack 104e, the first driving rack 104e is meshed with a rotating gear 105d arranged on one group of cover plates 105a, the top of the second push-pull column 104b is provided with a second driving rack 104f, and the second driving rack 104f is meshed with a rotating gear 105d arranged on the other group of cover plates 105 a.

When the first accommodating part 101 is opened, the first accommodating part 101 drives the second accommodating part 102 to be opened, so that the first push-pull column 104a and the second push-pull column 104b in the displacement slot 103a move in opposite directions and approach to each other, the first push-pull column 104a moves to drive the first driving rack 104e at the top thereof to move, the second push-pull column 104b moves to drive the second driving rack 104f at the top thereof to move, the first driving rack 104e and the second driving rack 104f move to drive the rotating gear 105d engaged therewith to rotate, the rotating gear 105d rotates to drive the rotating rod 105c to rotate, the rotating rod 105c rotates to drive the hinge rod 105b to rotate around the midpoint of the rotating rod 105c, so that the cover plate 105a is opened under the action of the hinge rod 105b, and the first driving rack 104e and the second driving rack 104f also move in opposite directions due to the opposite movements of the first push-pull column 104a and the second push-pull column 104b, so that the two sets of hinge rods 105a connected to the cover plate 105a move towards two sides of the third accommodating cavity 105, and the third accommodating cavity 105 is opened.

When the first accommodating part 101 is closed, the first accommodating part 101 drives the second accommodating part 102 to close, so that the first push-pull column 104a and the second push-pull column 104b move away from each other in an opposite direction, and the hinge rods 105b connected with the two groups of cover plates 105a deflect in opposite directions under the action of the first push-pull column 104a and the second push-pull column 104b, so that the two groups of cover plates 105a are spliced again to seal the third accommodating cavity 105.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides an overhaul toolbox based on RFID which characterized in that: comprises the steps of (a) preparing a substrate,

the RFID tag maintenance box comprises a box body (100), wherein a first accommodating part (101) is movably arranged in the box body (100), a second accommodating part (102) is movably arranged at the top of the first accommodating part (101), and maintenance tools with RFID tags are stored in the first accommodating part (101) and the second accommodating part (102);

the identification component (200) comprises a main control module (201) and an RFID antenna (102), wherein the main control module (201) is arranged at the bottom of the box body (100), and the RFID antenna (102) is arranged on the inner side wall of the box body (100).

2. The RFID-based service kit of claim 1, wherein: the first accommodating piece (101) is slidably mounted in the box body (100) by adopting a drawing structure, a spacing block (101 a) is arranged in the middle of the first accommodating piece (101), a push rod (101 b) is arranged at the top of the spacing block (101 a), and first accommodating cavities (101 c) are formed in two sides of the spacing block (101 a).

3. The RFID-based service kit of claim 2, wherein: the second accommodating piece (102) is slidably mounted inside the box body (100) by adopting a drawing structure, the sliding displacement direction of the second accommodating piece (102) is perpendicular to that of the first accommodating piece (101), and two groups of the second accommodating pieces (102) are arranged and are respectively positioned above the two groups of the first accommodating cavities (101 c).

4. The RFID-based service kit of claim 3, wherein: the top of the spacing block (101 a) is provided with a fixing block (103), the middle of the fixing block (103) is provided with a displacement groove (103 a), and a push-pull piece (104) connected with the second accommodating piece (102) is movably arranged in the displacement groove (103 a).

5. The RFID-based service kit of claim 4, wherein: the push-pull piece (104) comprises a first push-pull column (104 a) and a second push-pull column (104 b), the first push-pull column (104 a) and the second push-pull column (104 b) are respectively located on two sides of the displacement groove (103 a), a first push-pull rod (104 c) hinged with the two groups of second accommodating pieces (102) is hinged to the first push-pull column (104 a), a second push-pull rod (104 d) hinged with the two groups of second accommodating pieces (102) is hinged to the second push-pull column (104 b), and the first push-pull rod (104 c) and the second push-pull rod (104 d) surround a diamond structure.

6. The RFID-based service kit of claim 5, wherein: the bottom of the first push-pull column (104 a) is provided with a connecting rod (104 a-1), the connecting rod (104 a-1) is provided with a push groove (104 a-2), the push rod (101 b) is located in the push groove (104 a-2), and the bottom of the second push-pull column (104 b) is provided with a through hole (104 b-1) for the connecting rod (104 a-1) to pass through.

7. The RFID-based service kit of claim 5 or 6, wherein: a third accommodating cavity (105) is formed in the top of the second accommodating part (102), and a cover plate (105 a) is arranged on the top of the third accommodating cavity (105).

8. The RFID-based service kit of claim 7, wherein: the cover plates (105 a) are arranged in two groups and movably arranged at the top of the third accommodating cavity (105) through hinge rods (105 b) on two sides, the hinge rods (105 b) arranged on the two groups of cover plates (105 a) are symmetrically arranged, a rotating rod (105 c) is connected between the two opposite groups of hinge rods (105 b), and a rotating gear (105 d) is arranged on the rotating rod (105 c).

9. The RFID-based service kit of claim 8, wherein: the top of the first push-pull column (104 a) is provided with a first driving rack (104 e), the first driving rack (104 e) is meshed with a rotating gear (105 d) arranged on one group of cover plates (105 a), the top of the second push-pull column (104 b) is provided with a second driving rack (104 f), and the second driving rack (104 f) is meshed with a rotating gear (105 d) arranged on the other group of cover plates (105 a).

10. The RFID-based service kit of any of claims 1-6, 8, 9, wherein: the master control module (201) comprises a master controller (201 a), an RFID reader (201 b) and an RFID communication module (201 c), wherein the master controller (201 a) is in signal connection with the RFID reader (201 b) through the RFID communication module (201 c).

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