CN111113008A - Screw anti-lock-leakage jig and screw anti-lock-leakage management method and device - Google Patents

Abstract

The invention provides a screw anti-leakage lock jig, a screw anti-leakage lock management method and a screw anti-leakage lock management device, wherein the jig comprises: the body is used for being adsorbed to the surface of the screw component to be locked; the screw component comprises a body, at least one hole, a screw bolt and a screw bolt, wherein the body is provided with at least one screw hole; at least one identification information, identification information set up in the preset position in hole, each identification information corresponds at least one the hole, identification information is used for supplying screw lock to attach the device scanning in order to obtain identification information corresponds screw information and screw torque information that the screw hole corresponds, wherein, screw information is used for confirming the screw that the screw hole corresponds, screw torque is used for supplying screw lock to attach the device according to the screw torque attaches the screw lock to the screw hole. Through the tool can solve the technical problem that the screw hole is missed to lock, wrong lock screw.

Description

Screw anti-lock-leakage jig and screw anti-lock-leakage management method and device

Technical Field

The invention relates to the technical field of screw locking, in particular to a screw anti-leakage locking jig, a screw anti-leakage locking management method and a screw anti-leakage locking management device.

Background

During the production and manufacturing process of the equipment, the parts of the equipment need to be connected through screws. The more complex the structure of the equipment is, the more diversified the material, model and size of the required screw is, the product volume is huge in the manufacturing process of large-scale products such as airplanes, high-speed rails and other equipment, the extremely high requirement is provided for the safety performance of the product, and if the screw is not locked, the serious consequence can occur.

Disclosure of Invention

In view of the above, it is necessary to provide a screw lock-missing prevention jig, a screw lock-missing prevention management method and a screw lock-missing prevention management device to solve the technical problems of missing locking and wrong locking of screws in screw holes.

The first aspect of this application provides a screw leak protection lock tool, the tool includes:

the body is used for being adsorbed to the surface of the screw component to be locked;

the screw component comprises a body, at least one hole, a screw bolt and a screw bolt, wherein the body is provided with at least one screw hole;

at least one identification information, identification information set up in the preset position in hole, each identification information corresponds at least one the hole, identification information is used for supplying screw lock to attach the device scanning in order to obtain identification information corresponds screw information and screw torque information that the screw hole corresponds, wherein, screw information is used for confirming the screw that the screw hole corresponds, screw torque is used for supplying screw lock to attach the device according to the screw torque attaches the screw lock to the screw hole.

Preferably, the jig further comprises:

and the jig marking information is used for the screw locking device to determine whether the screw anti-missing locking jig is adsorbed on the surface of the screw part to be locked.

Preferably, the body is made of any one of the following materials: plastic, rubber, silica gel, cellophane, metal.

Preferably, the diameter of the hole is larger than the diameter of the screw hole corresponding to the screw member to be locked.

Preferably, the body comprises an adsorption element which is a vacuum adsorption structure used for adsorbing the body to the surface of the screw component to be locked.

Preferably, the body comprises an adsorption element which is a magnetic adsorption structure, and the magnetic adsorption structure is used for adsorbing the body to the surface of the screw component to be locked.

Preferably, the identification information comprises one or more of letters, numbers, words, images, two-dimensional codes, bar codes and RFID electronic tags.

A second aspect of the present application provides a screw anti-leakage lock management method, which is applied to a screw anti-leakage lock management device, where the screw anti-leakage lock management device and a screw lock attachment jig are in communication connection through a network, and the method includes:

acquiring identification information corresponding to at least one hole in a screw anti-missing lock jig acquired by a screw locking device, wherein the screw anti-missing lock jig comprises a body, at least one hole arranged on the body and the identification information corresponding to the hole, and the body is adsorbed on the surface of a screw component to be locked;

searching screw information and screw torque corresponding to the identification information in a database, and sending the screw information and the screw torque to the screw locking device;

and acquiring and storing identification information corresponding to at least one hole sent by the screw locking device and a screw locking result corresponding to the identification information, wherein the screw locking result comprises locking start time, locking end time, final locking torque and a rotation angle of the screw.

Preferably, the method further comprises the step of judging whether the screw anti-missing locking jig is adsorbed to the surface of the screw component to be locked, wherein the judging step comprises the following steps:

acquiring at least one piece of jig marking information acquired by the screw locking device, and comparing the acquired jig marking information with at least one piece of jig marking information prestored in a database;

if the collected jig marking information is consistent with the jig marking information pre-stored in the database, outputting a prompt message that all the screw anti-lock-leakage jigs are located on the surface of the screw part to be locked;

and if the collected jig marking information is inconsistent with the jig marking information prestored in the database, tool omission prompt information is output.

Preferably, the step of acquiring and storing the identification information corresponding to the at least one hole and the screw locking result corresponding to the identification information sent by the screw locking device further includes:

judging whether the screw holes corresponding to all the holes corresponding to the at least one jig marking information complete screw locking;

if all the parts are finished, outputting the parts to be locked corresponding to the screw anti-leakage locking jig, which are subjected to screw locking;

if not, outputting the jig mark information and/or the hole identification information which are not locked by the screws.

Preferably, the method for judging whether the screw holes corresponding to all the holes on the at least one jig marking information complete screw locking includes:

searching a screw locking result corresponding to the identification information of the at least one hole corresponding to the jig marking information in a database according to the jig marking information of the screw anti-lock-leakage jig, wherein the database stores the corresponding relationship between the jig marking information of the screw anti-lock-leakage jig and the marking information corresponding to the at least one hole on the screw anti-lock-leakage jig;

and if the locking result of the screw corresponding to the identification information of the at least one hole corresponding to the jig marking information is that locking is finished, the locking of the screw hole corresponding to the at least one hole on the screw missing-locking prevention jig is finished.

A second aspect of the present application provides a screw anti-leakage lock management device, the device including:

a memory storing a computer program and a database; and

a processor, the processor when executing the computer program to:

acquiring identification information corresponding to at least one hole in a screw anti-missing lock jig acquired by a screw locking device, wherein the screw anti-missing lock jig comprises a body, at least one hole arranged on the body and the identification information corresponding to the hole, and the body is adsorbed on the surface of a screw component to be locked;

searching screw information and screw torque corresponding to the identification information in a database, and sending the screw information and the screw torque to the screw locking device;

and acquiring and storing identification information corresponding to at least one hole sent by the screw locking device and a screw locking result corresponding to the identification information, wherein the screw locking result comprises locking start time, locking end time, final locking torque and a rotation angle of the screw.

The jig for preventing the missing lock of the screw, the management method for preventing the missing lock of the screw and the management device for preventing the missing lock of the screw can ensure that the screw hole is locked with a correct screw according to the design requirement, and achieve the effects of preventing the missing lock, the wrong lock and the locking of the screw.

Drawings

Fig. 1 is a schematic structural diagram of a screw lock-missing prevention jig according to an embodiment of the present invention.

Fig. 2 is a flowchart of a screw lock leakage prevention management method according to an embodiment of the present invention.

Fig. 3 is a schematic view of a screw anti-lock-leakage management device according to an embodiment of the present invention.

Description of the main elements

Tool 100 for preventing screws from being locked

Body 1

Hole 2

Identification information 3

Jig mark information 4

Screw anti-lock-leakage management device 200

Memory 20

Processor 30

Computer program 40

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a detailed description of the present invention will be given below with reference to the accompanying drawings and specific embodiments. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth to provide a thorough understanding of the present invention, and the described embodiments are merely a subset of the embodiments of the present invention, rather than a complete embodiment. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Fig. 1 is a schematic structural diagram of a screw missing-locking prevention fixture according to an embodiment of the present invention.

The screw anti-lock-leakage jig 100 comprises a body 1, at least one hole 2 and at least one piece of identification information 3.

The body 1 is used for being adsorbed to the surface of a screw component to be locked. The screw member to be locked may be any member of a product requiring a screw lock in production, and the present invention is not limited thereto. For example, the screw component to be locked may be the whole or each component of an airplane, a ship, a vehicle, a household appliance, a consumer electronic product and the like.

In the present embodiment, the material of the body 1 includes, but is not limited to, plastic, rubber, silicone, cellophane, metal, and the like.

The body 1 includes an adsorption element by which the body 1 is adsorbed to a surface of a screw part to be locked.

In an embodiment of the present invention, the adsorption element is a vacuum adsorption structure. The adsorption structure may be the body 1 itself, and the adsorption function is realized by the material or structure of the body 1. In one embodiment, when the material of the body is rubber or silica gel, the body 1 is adsorbed to the surface of the screw component to be locked through the viscosity of the material of the body. In another embodiment, when the body is made of plastic or metal, the suction structure is a suction cup disposed on the body, and the body is sucked to the surface of the screw member to be locked by the suction cup.

In another embodiment of the present invention, the adsorption element is a magnetic adsorption structure, and the magnetic adsorption structure is used for adsorbing the body to the surface of the screw component to be locked. In one embodiment, the body 1 is made of a magnetic material, and the magnetic material of the body attracts the body to the surface of the screw member to be locked. In another embodiment, a magnetic attraction element, such as a magnet, may be disposed on the body 1 for a predetermined purpose to attract the body 1 to the surface of the screw member to be locked.

In this embodiment, the shape and size of the body 1 are adapted to the size and shape of the screw member to be locked. The shape of the body 1 may include but is not limited to a polygon, a circle, an i-shape, a T-shape, etc., and may be set differently according to actual needs.

For example, in the aircraft manufacturing industry, the screw anti-lock jig 100 ensures that the screws are not locked and not locked in the process of connecting the components through the screws. In the manufacturing process of the same airplane, a plurality of screw anti-lock-leakage jigs are required to be correspondingly designed according to parts of the airplane. According to the shape of the screw component to be locked, the jig 100 for preventing the screw from being locked with different materials and shapes is designed. For example, the wing part of the airplane corresponds to a rectangular screw anti-lock jig made of plastic, the tail part of the airplane corresponds to a round screw anti-lock jig made of silica gel, and the nose part of the airplane corresponds to a triangular screw anti-lock jig made of rubber. The screw anti-missing locking jig can be repeatedly used for manufacturing a plurality of airplanes of the same model, and the effect of saving resources is achieved through repeated utilization of the jig. For example, the aircraft model is A001, 100 screw leak-proof locking jigs corresponding to the aircraft model A001 are provided, and the 100 screw leak-proof locking jigs can be used for assembling a plurality of aircraft of the model A001. After the first aircraft with the model A001 uses the 100 screw anti-leakage lock jigs to complete screw locking, the 100 screw anti-leakage lock jigs can be used when manufacturing the second and third aircraft with the model A001.

In an embodiment, the screw anti-lock-leakage jig 100 is used for screw connection of a flange and a web on an airplane wing beam, the flange of the airplane is made of forged aluminum alloy or high-strength alloy steel, and the web is made of a hard aluminum alloy plate, so that the body 1 and the flange and the web are adsorbed in a vacuum manner, and the body 1 is made of plastic. Since the flange is i-shaped, the body 1 conforms to the relief plate and is also i-shaped.

As another example, in the high-speed rail manufacturing industry, the screw anti-lock leakage jig 100 is used for connecting a high-speed rail air conditioner ventilation opening and a high-speed rail car body, the high-speed rail car body is made of metal iron, so that the body 1 is made of a magnetic material, the body can be attracted to the high-speed rail car body by the magnetic force attraction mode, the high-speed rail car body is rectangular, and the shape of the body 1 is the same as that of the high-speed rail car body.

At least one hole 2 is distributed on the body 1, and the arrangement mode of the holes corresponds to the arrangement mode of at least one screw hole on the screw component to be locked one by one. In one embodiment, when the screw missing-locking prevention jig is located on the surface of the screw component to be locked, the hole 2 is aligned with the screw on the surface of the screw component to be locked, preferably, the area of the hole is larger than that of the screw hole, and the diameter of the hole is larger than that of the screw hole corresponding to the screw component to be locked. When the diameter of the hole is larger than the diameter of the screw hole corresponding to the screw component to be locked, the screw locking device can conveniently lock and attach the screw.

For example, in the aircraft manufacturing industry, the screw lock leakage prevention jig 100 is used for screw connection of flanges and webs on an aircraft wing spar, the number of the holes 2 on the body 1 of the screw lock leakage prevention jig 100 is the same as that of the screw connection, the flanges and the webs need to be connected through 10 screw holes, the number of the holes 2 is 10, and the arrangement mode of the 10 holes on the body 1 is the same as that of the 10 screw holes on the flanges. When the flange coincides with the screw holes in the web, the body 1 is attracted to the surface of the flange, and the holes 2 are aligned with the screw holes in the flange.

The identification information 3 is arranged corresponding to the hole 2, the identification information 3 is arranged at the preset position of the hole 2, and each identification information 3 corresponds to at least one hole 2. Identification information 3 is used for supplying the screw lock to attach the device scanning in order to obtain the screw information and the screw moment of torsion information that identification information 3 corresponds the screw hole and corresponds, wherein, screw information is used for confirming the screw that the screw hole corresponds, the screw moment of torsion is used for supplying the screw lock to attach the device according to the screw moment of torsion attaches the screw to the screw hole.

The identification information 3 may include one or more of letters, numbers, characters, images, two-dimensional codes, bar codes, and RFID tags.

When the screw locking device is used, the identification information 3 is scanned, the characteristic information of the identification information is identified, and the screw information and the locking torque information of the screw to be locked on the screw hole corresponding to the characteristic information of the identification information are inquired in a database. The screw information comprises the type of the screw, the material of the screw, the batch information of the screw and the like. And the screw locking and attaching device locks and attaches the screw according to the screw information and the locking and attaching torque information.

For example, on the body 1 of the screw anti-missing lock jig 100 in which the flange and the web on the airplane wing spar are connected by screws, the identification information 3 is located in the two-dimensional code on one side of the hole 2, the screw locking attachment device scans the two-dimensional code and then sends the two-dimensional code to the screw anti-missing lock management device 200, and the screw anti-missing lock management device 200 obtains the screw information and the screw torque information of the screw to be locked.

In an embodiment, the body 1 is further provided with a fixture mark information 4, the fixture mark information 4 is used for the screw locking device to scan to determine fixture identity information and send the fixture identity information to the screw anti-leakage lock management device 200, so that the screw anti-leakage lock management device 200 determines whether all the screw anti-leakage lock fixtures 100 corresponding to the product of the screw to be locked have been completely adsorbed on the surface of the screw component to be locked through the fixture identification information. The jig mark information 4 may be one or a combination of letters, numbers, characters, images, two-dimensional codes, bar codes, and RFID electronic tags. Preferably, the screw locking device is provided with an RFID reader, and the screw locking device scans radio frequency signals of the electronic tag to obtain characteristic information of the jig marking information 4. And searching all jig marking information in the screw anti-leakage management device 200 according to the characteristic information, and matching the obtained jig marking information with all jig marking information. If the acquired jig marking information matches the jig marking information stored in the screw anti-leakage lock management device 200, it is output that at least one screw anti-leakage lock jig 100 has been adsorbed on the surface of the screw part to be locked. The reader can complete the scanning of all the jig identification information at one time, so that the time is saved and the efficiency is improved.

Fig. 2 is a flowchart illustrating a method for managing a screw lock leakage prevention according to an embodiment of the present invention. The order of the steps in the flow chart may be changed and some steps may be omitted according to different needs.

The screw anti-leakage lock management method is applied to a screw anti-leakage lock management device 200, and the screw anti-leakage lock management device 200 is in communication connection with a screw locking device through a network. The screw anti-leakage lock management device 200 is stored with a database, and the database is stored with tool mark information of at least one screw anti-leakage lock tool corresponding to a screw component to be locked, and screw information and screw torque information corresponding to at least one identification information 3 on the at least one screw anti-leakage lock tool.

The screw anti-leakage management device 200 includes a personal computer, a server, a cloud server, and the like.

The screw locking device may be, but is not limited to, a locking gun, an electric locking screwdriver or other screw locking device for locking a screw into a screw hole of a screw member to be locked.

Step S1, identification information corresponding to at least one hole in the screw anti-leakage locking jig collected by the screw locking device is obtained, wherein the screw anti-leakage locking jig comprises a body, at least one hole arranged on the body and the identification information corresponding to the hole, and the body is adsorbed on the surface of a screw component to be locked.

In an embodiment of the present invention, the screw locking device acquires identification information corresponding to at least one hole in the screw anti-lock-leakage jig by scanning, and sends the acquired information to the screw anti-lock-leakage management device, and the screw anti-lock-leakage management device 200 acquires the identification information and correspondingly stores the identification information and the identification information corresponding to at least one hole in the jig of the screw anti-lock-leakage jig.

In another embodiment of the present invention, the step S1 further includes determining whether the screw missing-locking prevention jig adsorbs the surface of the screw component to be locked.

Acquiring at least one piece of jig marking information acquired by a screw locking device, and comparing the acquired jig marking information with jig marking information in a database, wherein the database stores the at least one piece of jig marking information;

if the screw locking prevention jigs are consistent with the screw locking prevention jigs, outputting a prompt message that all the screw locking prevention jigs are positioned on the surface of the screw part to be locked;

and if the screw locking prevention jig is inconsistent with the screw locking prevention jig, outputting prompt information missed by the screw locking prevention jig.

For example, the screw anti-leakage management method is applied to the field of high-speed rail manufacturing, in the process of manufacturing the high-speed rail, a large number of parts and complex structures of the high-speed rail are needed, and in the process of connecting the parts, locking through screws is needed. According to the position of the screw component to be locked in the high-speed rail, at least one corresponding screw anti-leakage locking jig is arranged on the surface of the screw component to be locked in the high-speed rail, for example, a braking device in a carriage of the high-speed rail is divided into 10 parts, wherein each part corresponds to one screw anti-leakage locking jig, the total number of the 10 screw anti-leakage locking jigs is 10, and the jig numbers of the 10 screw anti-leakage locking jigs are B01, B02 … …, B09 and B10 respectively. The screw anti-leakage lock management device 200 obtains jig marking information of screw anti-leakage lock jigs located on the screw component to be locked, which is acquired by the screw locking device, and compares the obtained jig marking information with marking information of the screw anti-leakage lock jigs on the screw component to be locked, which is stored in a database, for example, 10 jig marking information corresponding to a braking device in the high-speed railway carriage is stored in the database, and the jig marking information is B01, B02 … …, B09 and B10, respectively. The jig marking information of the screw anti-leakage locking jig on the screw component to be locked, which is acquired by the screw locking device, is B01, B02 … …, B09 and B10 respectively, and the jig marking information acquired by the screw locking device is compared with the jig marking information stored in the database.

And comparing, wherein the jig marking information acquired by the screw locking device is consistent with the jig marking information stored in the database, and the screw anti-leakage locking jig is completely positioned on the prompt message of the surface of the screw part to be locked.

And comparing, if the jig mark information acquired by the screw locking device is inconsistent with the jig mark information stored in the database, outputting prompt information of missing prevention of the screw locking jig.

And step S2, searching the screw information and the screw torque corresponding to the identification information in the database, and sending the information and the screw torque to the screw locking device.

The data base stores screw information and screw torque corresponding to screw holes in the object to be locked, and the screw information and the torque information are pre-stored by working personnel according to the design requirements of the screw holes in the object to be locked. The screw information is used for determining a screw corresponding to the screw hole, and the screw torque is used for enabling the screw locking device to lock the screw to the screw hole according to the screw torque.

The screw locking device locks the screw according to the screw information and the screw torque sent by the screw anti-leakage management device 200, wherein the screw information includes the type of the screw, the material of the screw, the batch information of the screw, and the like.

And step S3, acquiring and storing the identification information corresponding to at least one hole and the screw locking result corresponding to the identification information, which are sent by the screw locking device.

After the screw locking device completes locking, the screw locking result corresponding to the identification information and the identification information are sent to the screw anti-leakage management device 200. The screw anti-leakage management device 200 obtains identification information corresponding to at least one hole and a screw locking result corresponding to the identification information, and correspondingly stores the screw locking result and jig identification information of the screw anti-leakage jig corresponding to the identification information in a database. The screw locking result comprises locking start time, locking end time and actual torque of the screw.

The steps further include:

and judging whether the screw holes corresponding to all the holes on the at least one jig marking information complete screw locking. In one embodiment, the screw anti-lock-leakage management device 200 searches a screw locking result corresponding to the identification information of the at least one hole corresponding to the jig marking information in a database according to the jig marking information of the screw anti-lock-leakage jig, wherein the database stores a corresponding relationship between the jig marking information of the screw anti-lock-leakage jig and the marking information corresponding to the at least one hole on the screw anti-lock-leakage jig; and if the locking result of the screw corresponding to the identification information of the at least one hole corresponding to the jig marking information is that locking is finished, the locking of the screw hole corresponding to the at least one hole on the screw missing-locking prevention jig is finished.

If all the screw holes corresponding to all the holes on the mark information of at least one jig are completely locked, outputting the screw anti-leakage locking jig that the screw locking is completed;

if the screw holes corresponding to all the holes on at least one jig mark information are not completely finished, outputting jig mark information and/or hole identification information of the jig for which the screw locking prevention jig does not finish screw locking.

The screw anti-leakage management method can ensure that the correct screw is locked on the screw hole on the screw component to be locked according to the correct torque without omission.

Please refer to fig. 3, which is a schematic diagram of a screw anti-lock-leakage management device according to a real-time embodiment of the present invention.

The screw anti-leakage lock management device 200 includes a memory 20, a processor 30, and a computer program 40, such as a shipment quality control program, stored in the memory 20 and executable on the processor 30. The processor 30 implements the steps of the above-mentioned embodiment of the screw anti-leakage management method, such as the steps S1 to S3 shown in fig. 2, when executing the screw anti-leakage management device 200. Alternatively, the processor 30 executes the computer program 40 to:

acquiring identification information corresponding to at least one hole in a screw anti-missing lock jig acquired by a screw locking device, wherein the screw anti-missing lock jig comprises a body, at least one hole arranged on the body and the identification information corresponding to the hole, and the body is adsorbed on the surface of a screw component to be locked;

searching screw information and screw torque corresponding to the identification information in a database, and sending the screw information and the screw torque to the screw locking device;

and acquiring and storing identification information corresponding to at least one hole sent by the screw locking device and a screw locking result corresponding to the identification information, wherein the screw locking result comprises locking start time, locking end time, final locking torque and a rotation angle of the screw.

Illustratively, the screw anti-lockdown management device 200 may be divided into one or more modules/units, which are stored in the memory 20 and executed by the processor 30 to accomplish the present invention. The one or more modules/units may be a series of computer program instruction segments capable of performing specific functions, which are used to describe the execution process of the computer program 40 in the screw anti-leakage management device 200.

The screw anti-lock-leakage management device 200 may be a desktop computer, a notebook, a palm computer, a cloud server, or other computing devices. It will be understood by those skilled in the art that the schematic diagram is merely an example of the screw anti-missing lock management apparatus 200, and does not constitute a limitation of the screw anti-missing lock management apparatus 200, and may include more or less components than those shown, or combine some components, or different components, for example, the screw anti-missing lock management apparatus 200 may further include an input-output device, a network access device, a bus, etc.

The Processor 30 may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. The general purpose processor may be a microprocessor or the processor 30 may be any conventional processor or the like, and the processor 30 is a control center of the screw anti-leakage management device 200 and connects the various parts of the entire screw anti-leakage management device 200 by using various interfaces and lines.

The memory 20 can be used for storing the computer program 40 and/or the module/unit, and the processor 30 implements various functions of the screw anti-leakage management device 200 by running or executing the computer program and/or the module/unit stored in the memory 20 and calling data stored in the memory 20. The memory 20 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required by at least one function (such as a sound playing function, an image playing function, etc.), and the like; the stored data area may store data (such as audio data, a phone book, etc.) created according to the use of the screw leakage prevention lock management apparatus 200, and the like. In addition, the memory 20 may include high speed random access memory, and may also include non-volatile memory, such as a hard disk, a memory, a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), at least one magnetic disk storage device, a Flash memory device, or other volatile solid state storage device.

The integrated module/unit of the screw anti-leakage lock management device 200 may be stored in a computer readable storage medium if it is implemented in the form of a software functional unit and sold or used as a separate product. Based on such understanding, all or part of the flow of the method according to the embodiments of the present invention may also be implemented by a computer program, which may be stored in a computer-readable storage medium, and which, when executed by a processor, may implement the steps of the above-described embodiments of the method. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer-readable medium may include: any entity or device capable of carrying the computer program code, recording medium, usb disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution medium, etc. It should be noted that the computer readable medium may contain content that is subject to appropriate increase or decrease as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, computer readable media does not include electrical carrier signals and telecommunications signals as is required by legislation and patent practice.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. The plurality of units or the screw leakage prevention lock management devices 200 recited in the claims of the screw leakage prevention lock management device 200 may be implemented by the same unit or the screw leakage prevention lock management device 200 through software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Finally, it should be noted that the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention is 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.

Claims (12)

1. The utility model provides a screw leak protection lock tool which characterized in that, the tool includes:

the body is used for being adsorbed to the surface of the screw component to be locked;

the screw component comprises a body, at least one hole, a screw bolt and a screw bolt, wherein the body is provided with at least one screw hole;

at least one identification information, identification information set up in the preset position in hole, each identification information corresponds at least one the hole, identification information is used for supplying screw lock to attach the device scanning in order to obtain identification information corresponds screw information and screw torque information that the screw hole corresponds, wherein, screw information is used for confirming the screw that the screw hole corresponds, screw torque is used for supplying screw lock to attach the device according to the screw torque attaches the screw lock to the screw hole.

2. The screw missing-locking prevention jig of claim 1, further comprising:

and the jig marking information is used for the screw locking device to determine whether the screw anti-missing locking jig is adsorbed on the surface of the screw part to be locked.

3. The jig for preventing the missing locking of the screw according to claim 1, wherein the body is made of any one of the following materials: plastic, rubber, silica gel, cellophane, metal.

4. The screw missing-locking prevention jig of claim 1 wherein the diameter of the hole is larger than the diameter of the screw hole corresponding to the screw member to be locked.

5. The jig for preventing the missing locking of the screw according to claim 1, wherein the body comprises an absorption element, the absorption element is a vacuum absorption structure, and the vacuum absorption structure is used for absorbing the body to the surface of the screw component to be locked.

6. The jig for preventing the missing locking of the screw according to claim 1, wherein the body comprises an absorption element, the absorption element is a magnetic absorption structure, and the magnetic absorption structure is used for absorbing the body to the surface of the screw component to be locked.

7. The jig for preventing the missing locking of the screw according to claim 1, wherein the identification information comprises one or more combinations of letters, numbers, words, images, two-dimensional codes, bar codes and RFID electronic tags.

8. A screw anti-leakage lock management method is applied to a screw anti-leakage lock management device, the screw anti-leakage lock management device is in communication connection with a screw locking jig through a network, and the method is characterized by comprising the following steps:

acquiring identification information corresponding to at least one hole in a screw anti-missing lock jig acquired by a screw locking device, wherein the screw anti-missing lock jig comprises a body, at least one hole arranged on the body and the identification information corresponding to the hole, and the body is adsorbed on the surface of a screw component to be locked;

searching screw information and screw torque corresponding to the identification information in a database, and sending the screw information and the screw torque to the screw locking device;

and acquiring and storing identification information corresponding to at least one hole sent by the screw locking device and a screw locking result corresponding to the identification information, wherein the screw locking result comprises locking start time, locking end time, final locking torque and a rotation angle of the screw.

9. The method for managing the screw missing-proof lock as claimed in claim 8, further comprising determining whether the screw missing-proof lock fixture is attached to the surface of the screw member to be locked, wherein the determining step comprises:

acquiring at least one piece of jig marking information acquired by the screw locking device, and comparing the acquired jig marking information with at least one piece of jig marking information prestored in a database;

if the collected jig marking information is consistent with the jig marking information pre-stored in the database, outputting a prompt message that all the screw anti-lock-leakage jigs are located on the surface of the screw part to be locked;

and if the collected jig marking information is inconsistent with the jig marking information prestored in the database, tool omission prompt information is output.

10. The method for managing the anti-lock leakage of the screw according to claim 9, wherein the step of obtaining and storing the identification information corresponding to the at least one hole and the screw locking result corresponding to the identification information sent by the screw locking device further comprises:

judging whether the screw holes corresponding to all the holes corresponding to the at least one jig marking information complete screw locking;

if all the parts are finished, outputting the parts to be locked corresponding to the screw anti-leakage locking jig, which are subjected to screw locking;

if not, outputting the jig mark information and/or the hole identification information which are not locked by the screws.

11. The method for managing the anti-lock leakage of screw according to claim 10, wherein the method for determining whether the screw holes corresponding to all the holes on the at least one jig mark information are locked by screws comprises:

searching a screw locking result corresponding to the identification information of the at least one hole corresponding to the jig marking information in a database according to the jig marking information of the screw anti-lock-leakage jig, wherein the database stores the corresponding relationship between the jig marking information of the screw anti-lock-leakage jig and the marking information corresponding to the at least one hole on the screw anti-lock-leakage jig;

and if the locking result of the screw corresponding to the identification information of the at least one hole corresponding to the jig marking information is that locking is finished, the locking of the screw hole corresponding to the at least one hole on the screw missing-locking prevention jig is finished.

12. A screw anti-lost lock management device, the device comprising:

a memory storing a computer program and a database; and

a processor, the processor when executing the computer program to:

acquiring identification information corresponding to at least one hole in a screw anti-missing lock jig acquired by a screw locking device, wherein the screw anti-missing lock jig comprises a body, at least one hole arranged on the body and the identification information corresponding to the hole, and the body is adsorbed on the surface of a screw component to be locked;

searching screw information and screw torque corresponding to the identification information in a database, and sending the screw information and the screw torque to the screw locking device;

and acquiring and storing identification information corresponding to at least one hole sent by the screw locking device and a screw locking result corresponding to the identification information, wherein the screw locking result comprises locking start time, locking end time, final locking torque and a rotation angle of the screw.

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