CN114492693A

CN114492693A - Clothing positioning system in clothing production process

Info

Publication number: CN114492693A
Application number: CN202210116009.3A
Authority: CN
Inventors: 王建中; 王川; 牛金龙; 陈沉
Original assignee: Ningxia Huichuan Garment Co ltd
Current assignee: Ningxia Huichuan Garment Co ltd
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-05-13

Abstract

The application provides a clothing positioning system in clothing production process includes: the system comprises a label, a base station group and a label positioning server; the garment to be positioned and the label are located at the same physical position, so that the garment to be positioned is positioned through the position of the label; the label is provided with a signal transmitter which transmits signals to the base station group at preset time intervals; each base station included in the base station group is located at different physical positions of a production workshop, and each base station is used for receiving signals to obtain a plurality of signals with different intensities and sending the signals to a label positioning server; the label positioning server determines the position of the label in the production workshop based on the plurality of signals, and marks the position on the corresponding position of the workshop map, wherein the marked position is the position of the garment to be positioned; the shop map marks the locations of the garment processing devices accommodated by the production shop at the production shop. Therefore, the clothes positioning efficiency is improved.

Description

Clothing positioning system in clothing production process

Technical Field

The application relates to the technical field of clothing production, in particular to a clothing positioning system in a clothing production process.

Background

During the garment manufacturing process, situations are often encountered where the garment location needs to be located. For example, due to different processing procedures, a garment is moved from one processing device to another processing device, when the processing progress of the garment needs to be obtained, the position of the garment needs to be located, and the processing progress of the garment is determined according to the position of the garment; for another example, when a garment is finished, it is necessary to locate the garment to facilitate collection of the garment by a worker.

At present, workers enter a production workshop mainly, and the positions of the clothes are determined after the clothes are identified manually. Obviously, the positioning of the garment by hand is only time consuming and laborious, resulting in inefficient garment positioning.

Disclosure of Invention

The application provides a clothing positioning system in clothing production process for solve the problem of clothing location inefficiency among the prior art.

The application provides a clothing positioning system in clothing production process includes: the system comprises a label, a base station group and a label positioning server;

the garment to be positioned and the label are located at the same physical position, so that the garment to be positioned is positioned through the position of the label;

the label is provided with a signal transmitter which transmits signals to the base station group at preset time intervals;

each base station included in the base station group is located at different physical positions of a production workshop, and each base station is used for receiving signals to obtain a plurality of signals with different intensities and sending the signals to a label positioning server;

the label positioning server determines the position of the label in the production workshop based on the plurality of signals, and marks the position on the corresponding position of the workshop map, wherein the marked position is the position of the garment to be positioned;

the shop map marks the locations of the garment processing devices accommodated by the production shop at the production shop.

Optionally, the garment positioning system further comprises a production management server and a first terminal;

the production management server is used for storing the corresponding relation between the clothing identification and the label identification;

the first terminal is used for receiving the clothing identification to be inquired input by a user and sending the clothing identification to be inquired to the production management server, so that the production management server returns the label identification to be inquired corresponding to the clothing identification to be inquired and sends the label identification to be inquired to the label positioning server;

and the tag positioning server receives the tag identification to be inquired, renders the position of the tag corresponding to the tag identification to be inquired on the workshop map, and returns the rendered workshop map to the first terminal, so that the first terminal displays the rendered workshop map.

Optionally, an audio player is arranged on the tag, and the audio player is used for playing audio to remind the position of the garment when the garment corresponding to the tag is queried.

Optionally, a light source is arranged on the label, and the light source is used for emitting light to remind the position of the garment when the garment corresponding to the label is queried.

Optionally, the garment positioning system further comprises a second terminal and a third terminal;

the second terminal is used for receiving the clothing information and the label information input by the user, generating a clothing two-dimensional code according to the clothing information and generating a label two-dimensional code according to the label information;

the third terminal is used for scanning the clothing two-dimensional code and the label two-dimensional code, acquiring clothing information and label information from the clothing two-dimensional code and the label two-dimensional code, establishing a corresponding relation, and sending the corresponding relation to the production management server.

Optionally, the garment positioning system further includes a fourth terminal, and the fourth terminal is connected to the tag positioning server and is configured to obtain the rendered map of the workshop from the tag positioning server.

Optionally, the garment positioning system further comprises a receptacle for receiving the garment and the tag during the garment production process such that the garment and the tag are in the same physical location.

Optionally, the label is removably secured to the container.

Optionally, the third terminal is a PDA.

Optionally, rendering the position on the workshop map where the label is located includes: and rendering the position corresponding to the label on the workshop map into a color different from other positions so as to perform distinguishing marking.

According to the method and the device, the garment to be positioned and the label are placed at the same physical position, so that the garment can be positioned by positioning the label. The label sends a signal to the base station group during positioning, the base station group forwards the signal to the label positioning server after receiving the signal, and the label positioning server determines the position of the label according to the signal and marks the position on a workshop map, so that a worker can know the position of the garment by inquiring the workshop map; compare in prior art and accomplish through the manual work, need the staff to be close to the clothing and just can confirm the clothing position, the positioning method labour saving and time saving that this application embodiment provided has improved clothing positioning efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a block diagram of a garment positioning system in a garment manufacturing process according to an embodiment of the present application;

fig. 2 is a flowchart of a garment positioning method in a garment production process according to an embodiment of the present application;

FIG. 3 is a block diagram of a garment positioning system in a garment manufacturing process according to yet another embodiment of the present application;

fig. 4 is a block diagram of a garment positioning system in a garment manufacturing process according to another embodiment of the present application;

FIG. 5 is a block diagram of a garment positioning system in a garment manufacturing process according to another embodiment of the present application;

fig. 6 is a schematic block diagram of a structure of a tag according to an embodiment of the present application;

FIG. 7 is a block diagram illustrating a tag according to an embodiment of the present application;

FIG. 8 is a block diagram illustrating a tag according to an embodiment of the present application;

FIG. 9 is a block diagram of a garment positioning system in a garment manufacturing process according to yet another embodiment of the present application;

FIG. 10 is a view of a garment positioning mark provided in accordance with another embodiment of the present application;

fig. 11 is a rendering diagram of a garment positioning according to another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application are clearly and completely described below, and it is obvious that the described embodiments are a part of the embodiments of the present application, but not all of the embodiments. 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 application. In addition, it should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Fig. 1 is a block diagram illustrating a garment positioning system in a garment manufacturing process according to an embodiment of the present application. As shown in fig. 1, the garment positioning system includes: a tag 100, a base station group 200, a tag location server 300.

Wherein, the tag 100 is provided with a signal transmitter 101, and the signal transmitter 101 transmits a signal to the base station group 200 at preset time intervals.

The base station group 200 includes at least three base stations, each base station is located at a different physical location of the production workshop, and each base station is configured to receive the signal transmitted by the tag 100, obtain a plurality of signals with different strengths, and send the plurality of signals to the tag positioning server 300.

The tag location server 300 determines the location of the tag 100 at the production shop based on the plurality of signals having different strengths and marks the location on the corresponding location of the shop map.

Wherein the shop map marks the locations of the garment processing devices accommodated by the production shop at the production shop.

In addition, it should be noted that, in the process of producing the garment, the garment to be positioned and the tag 100 need to be in the same physical position, so that the position of the tag 100 can be used as the position of the garment to be positioned.

Since the tag location server 300 needs at least three signals with different strengths to calculate the location of the tag, the base station group 300 includes at least three base stations, but sometimes it cannot be ensured that three signals with different strengths are obtained for the same tag, for example, when the three base stations are the same distance from the tag, the base station group 300 generally includes more than three base stations, and further, the number of the base stations can be determined according to the space size of the workshop, for example, the number includes 10 base stations.

Further, in conjunction with fig. 2, the garment positioning process is as follows:

first, before a garment is manufactured, the garment is placed in the same physical location as the tag 100 and is maintained in the same physical location during the manufacturing process;

secondly, in the processing process, at preset intervals, the tag 100 transmits a signal to the base station group 200 through the signal transmitter 101;

thirdly, each base station included in the base station group 200 receives the signal transmitted by the tag 100, and since each base station is located at a different position, generally, the base stations can obtain signals with different strengths and transmit the signals with different strengths to the tag positioning server 300;

fourthly, the tag positioning server 300 calculates the position of the tag 100 according to the signals with different intensities, and marks the position on the corresponding position of the workshop map, thereby realizing the positioning of the tag 100, namely the positioning of the garment.

It should be noted that the above positioning process is a positioning process for a garment to be positioned at a certain time point. The same approach can be used for other garments so that the garment in process can be marked on the shop map. Illustratively, as shown in FIG. 10, a map of the shop and the location of each garment in the production shop is shown in FIG. 10.

In addition, the above mentioned marks are used for distinguishing the positions of the clothes and the positions of workshop equipment, but when a certain piece of clothes is inquired, the inquired clothes needs to be distinguished from other clothes, and the equipment shown in fig. 4 needs to be referred to in the relevant part, and the corresponding description is referred to in the specification.

According to the method and the device, the garment to be positioned and the label are placed at the same physical position, so that the garment can be positioned by positioning the label. The label sends a signal to the base station group during positioning, the base station group forwards the signal to the label positioning server after receiving the signal, and the label positioning server determines the position of the label according to the signal and marks the position on a workshop map, so that a worker can know the position of the clothing by inquiring the workshop map; compare in prior art and accomplish through the manual work, need the staff to be close to the clothing and just can confirm the clothing position, the positioning method labour saving and time saving that this application embodiment provided has improved clothing positioning efficiency.

Because the garment has different processing procedures in the garment production process, and the different processing procedures are completed by different processing equipment, the garment can be moved from one processing equipment to another processing equipment in the production process. That is, the positions of the clothing and the labels may change, and the positions of the clothing marked on the workshop map may also change, that is, the workshop map may be updated in real time, and the positions of the clothing and the labels may be located.

Further, the frequency of updating the garment position of the workshop map is related to the preset time of the interval, a signal is transmitted to the base station group 200 once every the preset time, the base station group 200 also transmits a signal to the tag positioning server 300 once every the preset time, and the tag positioning server 300 performs positioning according to the signal, that is, the garment position is updated once every the preset time.

Alternatively, communication between the base station group 200 and the tag 100 is achieved by 5G technology.

The coverage area of a 5G macro station is large, the radius of the macro station can generally reach about 700 meters, the network guarantee of a production workshop can be met, and compared with a wired network and a WIFI network which are high in cost and difficult to maintain, the 5G wireless network is adopted, and the network deployment architecture inside the production workshop can be well simplified.

Optionally, the preset time is set according to actual requirements, for example, when more accurate positioning information is needed, the preset time may be set to be shorter, for example, to be 1 second, the tag 100 sends a signal to the base station group 200 every second, the base station group 200 also sends a signal to the tag positioning server 300 every second, and the tag positioning server 300 updates the position of the to-be-positioned garment on the workshop map every second. Of course, when the preset time is set to 5 seconds, the tag positioning server 300 updates the position of the garment to be positioned on the map of the workshop every 5 seconds, similarly.

The tag 100 may also transmit tag information to the base station group 200 once every preset time interval, and the tag information is transmitted to the tag positioning server 300 via the base station group 200. The user can access the tag location server 300 through the first terminal 500 to acquire tag information.

The first terminal 500 is in communication connection with the tag positioning server 300, and a user can interact with the tag positioning server 300 through the first terminal 500.

The label information comprises a label identification, a label type, an under-voltage prompt, extended data and the like.

The tag types generally include a temperature tag and a location tag. The tag type is a location tag in the embodiments of the present application.

The under-voltage reminding is used for generating when the label electric quantity is insufficient and sending to the label positioning server 300 so that the user can know that the label electric quantity is insufficient through the first terminal 500 and then can charge the label to ensure normal use of the label.

The extension data may be other information written to the tag during the garment production process, and the tag transmits the information to the tag positioning server 300 so that the worker can grasp the other information of the tag 100 in time.

Further, the above mentions that the tag positioning server 300 needs at least three signals with different strengths to determine the position of the tag 100, and therefore, the base station group 200 includes at least three base stations.

Of course, the number of base stations is also related to the size of the workshop, and at least three base stations in the base station group 200 are required to be ensured to be capable of receiving signals and to be three signals with different strengths. For example, when the plant is large, more base stations may be set, for example, 17 base stations may be set, and when the plant is small, fewer base stations may be set, for example, 6 base stations may be set.

The tag positioning server 300 may be one server, a server cluster composed of a plurality of servers, or a cloud computing service center.

Optionally, referring to fig. 3, the garment positioning system further comprises a container 400, the container 400 being adapted to receive the garment and the tag during the garment manufacturing process such that the garment and the tag are in the same physical location.

It should be noted here that since the garment is processed on the processing equipment most of the time during the garment production process, the container 400 is only needed when the garment is transported from one processing equipment to another.

The container 400 may be made of plastic, which is light in weight and convenient for the worker to use.

In addition, the tag 100 is typically secured to the container 400 throughout the manufacturing process of the garment to prevent the tag 100 from falling off.

Optionally, the label 100 is removably secured to the container 400.

When the tag 100 is detachably fixed on the container 400, if the tag 100 has faults such as insufficient power, damaged parts and the like, the tag 100 can be detached from the container 400, so that operations such as charging, maintenance and the like are facilitated.

By the method, all the clothes in the production process can be positioned, marked on a workshop map, and the positions of the clothes are updated in real time.

Furthermore, according to the real-time positioning condition of the garment, the distribution condition of the processing equipment can be known, so that the distribution of each processing equipment can be optimally arranged. For example, fewer processing devices may be deployed for locations where garment positioning is more densely displayed. Therefore, the condition that the working personnel gather at the same position at the same time to process can be reduced, the gathering of the working personnel at the same position of a workshop can be reduced, the working personnel can work in the workshop conveniently, and the working efficiency is improved.

After the positioning of the garment is realized, the position of any garment being processed can be inquired at any time, and optionally, the position of the garment can be inquired through a garment positioning system as shown in fig. 4. Referring to fig. 4, the garment positioning system further includes a first terminal 500 and a production management server 600.

The production management server 600 is configured to store a corresponding relationship between the clothing identifier and the tag identifier.

The corresponding relation comprises the corresponding relation between the clothing identification of all the clothing in the production process and the corresponding label identification. Therefore, when any one of the garments needs to be inquired, the label identification corresponding to the garment can be obtained from the corresponding relation in time.

The first terminal 500 is configured to receive a clothing identifier to be queried input by a user, and send the clothing identifier to be queried to the production management server 600, so that the production management server 600 returns a label identifier to be queried corresponding to the clothing identifier to be queried, and sends the label identifier to be queried to the label positioning server 300.

The first terminal 500 and the production management server 600 may establish a communication link by wire or wirelessly.

The clothing identification to be inquired is the clothing identification corresponding to the clothing at the position to be inquired.

When the tag positioning server 300 receives the tag identifier to be queried, renders the position of the tag corresponding to the tag identifier to be queried on the workshop map, and returns the rendered workshop map to the first terminal 500, so that the rendered workshop map is displayed by the first terminal 500, and a worker can view the position of the garment to be queried on the first terminal 500.

It should be noted that the rendering is used to distinguish the position of the clothing to be queried from the positions of other clothing, and is mainly used to distinguish the clothing from the processing equipment in the workshop, unlike the position of marking the clothing on the workshop map.

Optionally, the position where the tag is rendered on the workshop map by the tag positioning server 300 includes: and rendering the position corresponding to the label on the workshop map into a color different from the positions of other clothes for distinguishing and marking.

Optionally, the rendering operation further comprises rendering the size of the positioning icon corresponding to the clothing to be queried to be different from the size of other positioning icons.

Illustratively, as shown in fig. 11, the size of the anchor icon of the clothing to be queried is rendered larger than the anchor icons of the other clothing.

Further, after the position is rendered into different colors, the position can be highlighted by enabling the brightness of the color of the position to be higher than that of other positions, and therefore the position is convenient for a user to observe.

Among them, the hardware structure of the first terminal 500 includes a processor, a memory, and a display device, and the software structure includes a client of an application installed on the first terminal 500. The application is a production management application. After the client of the application program is started, the first terminal 500 may display an application interface, and may obtain the clothing identifier to be queried input by the user through the interface, and send the clothing identifier to be queried to the production management server 600, or be configured to display one or more messages sent by the production management server 600.

The type of the first terminal 500 includes, but is not limited to, a smart phone, a tablet computer, a television, a notebook computer, a desktop computer, and the like, which is not particularly limited in this embodiment of the application.

The production management server 600 may be one server, a server cluster composed of a plurality of servers, or a cloud computing service center.

Optionally, referring to fig. 5, the garment positioning system further includes a fourth terminal 900, and the fourth terminal 900 is connected to the tag positioning server 300.

The hardware configuration of the fourth terminal 900 includes a processor, a memory, and a display device, and the software configuration includes a client of a tag location application installed on the fourth terminal 900. After the client of the tag positioning application program is started, the fourth terminal 900 may display an application interface, and obtain, through the interface, a tag identifier corresponding to a clothing identifier to be queried, which is input by a user, and send the tag identifier to the tag positioning server 300, after receiving the tag identifier, the tag positioning server 300 renders a position corresponding to the tag identifier on a workshop map, and sends the rendered workshop map to the fourth terminal 900.

The type of the fourth terminal 900 includes, but is not limited to, a smart phone, a tablet computer, a television, a notebook computer, a desktop computer, and the like, which is not particularly limited in this embodiment of the application.

As can be seen from fig. 4, the first terminal 500 is connected to both the tag positioning server 300 and the production management server 600, so that the first terminal 500 can communicate with the two servers at the same time, and thus, after the user inputs the clothing identifier to be queried through the first terminal 500, the user can first obtain the corresponding tag identifier from the production management server 600, and then query the location corresponding to the tag identifier from the tag positioning server 300 through the tag identifier. Therefore, the tag identification does not need to be input again through the fourth terminal 900, so that the operation process is simplified, the fourth terminal 900 can be omitted, and the cost is reduced.

If the cost is not considered and the tag identifier corresponding to the clothing to be queried is known, the location of the clothing to be queried can be directly queried through the fourth terminal 900.

Optionally, referring to fig. 6, an audio player 102 is disposed on the tag 100, and when the garment corresponding to the tag 100 is queried and an audio playing instruction is received by the audio player 102, the audio player 102 plays audio to remind the position of the garment.

The process of receiving the audio playing instruction by the audio player is as follows:

a user inputs a clothing identification to be inquired through an application program client interface installed on the first terminal 500;

the first terminal 500 sends the clothing identification to be inquired to the production management server 600;

the production management server 600 returns the tag identifier corresponding to the clothing identifier to be queried to the first terminal 500;

the first terminal 500 transmits the received tag identification to the tag positioning server 300;

the tag positioning server 300 sends an audio playing instruction to the tag corresponding to the tag identifier;

and the label receiving the audio playing instruction executes the audio playing operation.

When the audio player 102 plays audio, workers in a workshop can hear the audio, and can easily find the position of the garment to be inquired, so that the efficiency of the workers for finding the garment to be inquired is improved.

Optionally, referring to fig. 7, a light source 103 is disposed on the tag 100, and when the garment corresponding to the tag 100 is queried, the light source 103 emits light to remind the user of the position of the garment.

When the light source 103 emits light, workers in a workshop can see the light source 103 emitting light, so that the position of the garment to be inquired can be easily found, and the efficiency of searching the garment to be inquired by the workers is improved.

Optionally, referring to fig. 8, the tag 100 may include both an audio player 102 and a light source 103 to improve the efficiency of the staff searching for the clothing to be queried through audio playing and lighting.

Optionally, referring to fig. 9, the garment positioning system further comprises a second terminal 700 and a third terminal 800.

The second terminal 700 is connected to the third terminal 800, and the third terminal 800 is connected to the production management server 600.

The second terminal 700 is configured to receive clothing information and tag information input by a user, generate a clothing two-dimensional code according to the clothing information, and generate a tag two-dimensional code according to the tag information.

The hardware structure of the second terminal 700 includes a processor, a memory, and a display device, and the software structure includes a client of an application installed on the second terminal 700. The application program is an application program for generating a two-dimensional code. After the client of the application program is started, the second terminal 700 may display an application interface, and may obtain a clothing identifier or a label identifier of the two-dimensional code to be generated, which is input by the user, through the interface, and generate a corresponding two-dimensional code according to the clothing identifier or the label identifier. Further, the second terminal 700 may be further connected to the production management server, and configured to send the generated two-dimensional code to the production management server 600, or configured to display one or more messages sent by the production management server 600.

The type of the second terminal 700 includes, but is not limited to, a smart phone, a tablet computer, a television, a notebook computer, a desktop computer, and the like, which is not particularly limited in this embodiment of the application.

The third terminal 800 may be a terminal having a function of scanning a two-dimensional code, and is configured to scan a clothing two-dimensional code and a label two-dimensional code displayed on the display interface of the second terminal 700, obtain clothing information and label information from the clothing two-dimensional code and the label two-dimensional code, establish a corresponding relationship between the scanned clothing information and the label information, and send the corresponding relationship to the production management server 600.

The type of the third terminal 800 includes, but is not limited to, a smart phone, a tablet computer, a television, a notebook computer, a desktop computer, and the like, which is not particularly limited in this embodiment of the application.

Alternatively, the third terminal 800 may also be a Personal Digital Assistant (PDA).

Finally, it should be noted that all the contents not described in the technical solutions of the present application can be implemented by using the prior art. In addition, the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A garment positioning system in a garment production process, comprising: the system comprises a label, a base station group and a label positioning server;

each base station included in the base station group is located at different physical positions of a production workshop, and each base station is used for receiving the signals to obtain a plurality of signals with different intensities and sending the signals to the label positioning server;

the label positioning server determines the position of the label in the production workshop based on the plurality of signals, and marks the position on the corresponding position of a workshop map, so that the marked position is the position of the garment to be positioned;

2. The garment positioning system of claim 1, further comprising a production management server and a first terminal;

the first terminal is used for receiving a clothing identifier to be inquired input by a user, sending the clothing identifier to be inquired to the production management server, so that the production management server returns a label identifier to be inquired corresponding to the clothing identifier to be inquired, and sends the label identifier to be inquired to the label positioning server;

and the tag positioning server receives the tag identification to be inquired, renders the position of the tag corresponding to the tag identification to be inquired on the workshop map, and returns the rendered workshop map to the first terminal, so that the rendered workshop map is displayed by the first terminal.

3. The garment positioning system according to claim 2, wherein an audio player is arranged on the tag, and the audio player is configured to play audio to remind a user of a position of the garment when the garment corresponding to the tag is queried.

4. The garment positioning system according to claim 2, wherein a light source is arranged on the tag, and the light source is used for emitting light to remind a user of the position of the garment when the garment corresponding to the tag is queried.

5. The garment positioning system of claim 2, further comprising a second terminal and a third terminal;

6. The garment positioning system according to claim 2, further comprising a fourth terminal connected to the tag positioning server for obtaining the rendered map of the workshop from the tag positioning server.

7. The garment positioning system according to any of claims 1-6, further comprising a container for holding the garment and the tag during the garment production process such that the garment and the tag are in the same physical location.

8. The garment positioning system of claim 7, wherein the tag is removably secured to the container.

9. The garment positioning system of claim 5, wherein the third terminal is a PDA.

10. The garment positioning system of claim 2, wherein the rendering the location on the shop map where the tag is located comprises: and rendering the position corresponding to the label on the workshop map into a color different from other positions so as to perform distinguishing marking.