KR200452260Y1 - Network control analysis system using touch screen terminal - Google Patents

Abstract

The present invention relates to a process management system using a touch screen, while the conventional process management solution raises the price of the solution by using complicated programs and expensive equipment, although the process varies depending on the products manufactured such as semiconductors and automobiles. Not only did they not achieve product-specific process control, but most of all, there was a lack of preparation and handling of various events that could occur during the process. In order to solve the problems described above, the present invention allows both the workers and the supervisors who work in the field to participate in the process management, while the field workers can report the progress of the process and post opinions without interrupting the performance of the process. It provides a terminal, which provides a process management system that enables both workers and supervisors to check the progress of each process in real time and to view, judge and cope with the process as a whole when an event occurs.

Process Control, Touch Screen

Description

NETWORK CONTROL ANALYSIS SYSTEM USING TOUCH SCREEN TERMINAL}

The present invention relates to a network process management system using a touch screen.

The present invention relates to a product that improves the efficiency of process management using a touch screen. More specifically, the process management enables real-time management of information on the process and at the same time enables immediate communication in both directions on the current progress, allowing for a smooth understanding of inventory and process progress and immediate response in the event of an emergency. The purpose is to provide a reporting system.

The specific process management solution that is currently offered is only common and general process management because there is no difference in the specific process depending on what products are produced such as semiconductor equipment, automobile, clothing, etc. It can only be used to produce, and it was often impossible to apply it to other processes.

For example, the semiconductor manufacturing process consists of a design process, a mask manufacturing process, a wafer manufacturing process, a wafer processing process, an assembly process, and an inspection process, and the wafer processing process includes a thin film forming process, an oxidation process, a doping process, an annealing process, and a resist. It is subdivided into a process, an exposure process, an etching process, a washing process, etc.

A semiconductor manufactured through such a number of processes is completed in consideration of the defective product rate, yield rate, yield, etc., calculated based on the experience value for each process or product in advance, so that the number of good products is calculated as desired.

However, if there is a change in production or a sudden increase in the rate of defective products in a particular process due to a specific reason, the production process should be changed. However, this can be solved through direct dialogue between the worker and the entire manager. Current process control solutions have to cope with this.

This is because existing solutions are optimized for specific manufacturing processes such as semiconductors, automobiles, and clothing. These optimizations do not have all the coping scenarios for unforeseen situations. Because it is done.

In addition, most of the solutions have a one-way direction in which the field worker inputs the progress of the work and is supervised by the supervisor. In the case where the field worker performs work required for process control other than the field work, the field work efficiency is often lowered.

Korean Patent Publication No. 10-2003-0078523 'Statistical Process Management System and Method for Quality Control of Production Line' integrates precision measurement equipment and statistical process control analysis software and hardware to guarantee the accuracy and reliability of measurement data. The production manager analyzed the quality change factors of the process through real-time monitoring to enable appropriate precautions.However, if the quality measurement value is close to the tolerance for quality change, statistically analyze the change factor of the quality measurement value accordingly. It is to control the processing equipment, but there is a disadvantage that it is not prepared at all if the cause of exceeding the tolerance for quality change is unexpected.

Republic of Korea Patent Publication No. 10-2006-0011170 'Process management analysis system and process management analysis method' wireless communication by receiving a detection signal from a sensor, a sensor that detects the presence of electronic products and outputs a detection signal A transmitter that transmits a sensed signal from a transmitter, a receiver that receives a sensed signal from a transmitter in a wireless communication method, an arithmetic device that calculates the time required to produce an electronic product by receiving the sensed signal from the receiver, and displays the calculated result on a screen in real time. The overall process efficiency of each worker will be evaluated including the display device. Such a system helps to identify where the responsible stock of defective stock is located, but it can be responsible for the person responsible for each process, but it cannot be a fundamental measure in case of an accident.

In particular, these products are far from reality in terms of size and price. Process management that eliminates unnecessary unnecessary programs and equipment, checks process progress precisely, and responds to situations occurring in real time while having only necessary functions. There is a need to provide a system.

The present invention was devised to overcome the above-mentioned disadvantages, and can provide a process management system and equipment for this, which can actively cope with an accident occurrence and allow all workers to understand the current progress of the entire process. The purpose.

In order to achieve the above object, the present invention provides a terminal and a system for real time process management using a touch screen.

A main body including a control device, a storage device, and a wireless transceiver for processing information coming from the terminal;

And a touch screen that displays information processed from the main body and serves as an input device. The touch screen is positioned at an eye level of an adult so that the touch screen can be best seen at the eye level of a standing adult, and the main body supports the touch screen. It may be there.

 The terminal further includes a keyboard for input, wherein a magnet is attached to one side of the keyboard and the main body is made of metal so that the keyboard is attached to the main body for use.

 The main body is formed of an elongated support portion and a built-in material for storing the parts constituting the main body coupled to the back of the support, the inner material is to have a vertically elongated shape to reduce the floor area occupied by the terminal dolf Can be.

 The touch screen may be formed with an inclination so that the touch screen faces the upper surface for convenience of touch.

 The touch screen may further include a microphone and a speaker for a voice call.

In addition, as a real-time process management system using a touch screen,

Always-on systems consist of one or more terminals placed in the shop floor consisting of one or more processes.

It is connected to the terminal through wired and wireless communication and consists of a server that collects information sent from the terminal and sends to the terminal in real time,

The terminal may have a touch screen at an eye level of an adult.

The menu displayed on the terminal may be a selective type having a wide area so as to be easily touched by a worker's finger.

The method of claim 2, wherein the keyboard coupling portion is a 'c' shaped engaging groove is formed at the bottom of the one side is rotatably coupled to the end of the recessed groove is formed in the rod-shaped pedestal that can be inserted into the groove Can be.

The terminal further includes a handset and the terminal is connected to an extension telephone line, and the server controlling the terminal for process management is connected to an external telephone line. Just by calling the extension number in the internal may be to call the process worker to be able to call.

The process management system using the touch screen as described above has the effect of providing a process management system that can easily enter and confirm the progress of the work without having to affect the work and communicate with other processes.

1 is a diagram showing a terminal used in the present invention. The terminal shown in FIG. 1 is installed near the site where each process is performed. The terminal has a display on the front and the display is formed at a position that is at the eye level of the person standing so that it can be seen and directly touched without having to bend or sit down. Originally, the kiosk refers to the 'unmanned terminal installed in the public place' and uses the touch screen method to process information such as information, purchase, ticketing, registration, etc. The original kiosk is completely different from the process management or production management. As a product of other fields, the present invention 'first' introduced the concept of kiosk in process control and production control.

In addition, the display can be easily input by touching the touch screen. After completing the work in the field, the progress of the current process is input through the touch screen. For this task, it is unnecessary to sit in front of the computer, take out the keyboard, click the mouse, and click to enter data, which is unnecessary. Because it is eaten, it is possible to input directly after finishing work. Since most of the work in the field is standing, sitting down for data entry and then standing up again will break the workflow of the site.

In addition, the screen head supporting the touch screen is installed to lie slightly, because if a person touches the touch screen while standing, it is uncomfortable to touch if the touch screen is upright.

Also, if the touch screen is lying in the waist position, you need to bow your head to see what is displayed on the touch screen, so you cannot see the display on the touch screen without going to the terminal. The height of the touch screen is adjusted to the height of the human eye, and the touch screen is inclined slightly to the rear for convenience of touch.

The height of an adult is from the height of an average adult female to the height of an average adult male, but may be larger or lower. The height is approximately 150 cm to 180 cm.

Therefore, it is possible to proactively cope with accidents in the process and to make sure that all workers can understand the progress of the whole process while occupying a small space even in a small workplace so that the workplace can be used efficiently and the process management system of the worker It increases the accessibility to, minimizes the time to access the terminal during work and also the time to return to work again.

In addition, in order to introduce a terminal for process management at the work site, the terminal has a long vertical structure to reduce the floor area occupied by the terminal, and devices such as hard disks are installed vertically at the back of the support leg to reduce the floor area occupied. The touch screen is located at the height of 150 ~ 180 so as to be the height of the eyes of adult women and men, thereby allowing users to input while standing and working without taking out the keyboard from the terminal. The keyboard is designed to be attached to the front of the main body whenever needed.

Therefore, while operating, you can operate the terminal for a while and get back to work.

Work efficiency can be maximized. In particular, the microphone and speaker should be installed separately for more smooth communication. In case of needing special input, the keyboard should be provided, but the main body of the terminal should be made of a material that can be attached to the magnet. When you need a keyboard with a strong magnet, you can use the keyboard anytime. In the same way, you can attach the plate with the magnet to the main body and work with the mouse.

 The other means other than the touch screen takes time to take out and use the input means, so the efficiency is reduced, so that the process progress can be reported by selecting a menu using the touch screen.

However, when a situation occurs in which a touch screen cannot be input, that is, there may be a case in which a conventional input means such as a keyboard must be used, the keyboard is always provided and used. However, having equipment such as a keyboard stand increases the floor area occupied by the terminal, so to minimize this, a strong magnetic plate is installed at the back of the keyboard and the keyboard is attached to the terminal body. The keyboard can be connected wirelessly, and even if it is wired, it can be used on the inside or side of the terminal and attached to the terminal body, so that it can be used when needed without taking up a lot of space. .

For smooth use of the keyboard, dig a '.'- shaped groove recessed inward in the body where the keyboard is engaged and engage the keyboard here. At the bottom of the groove, a bar-shaped pedestal made of metal rotatably coupled to one end of the terminal is rotated and pulled out to the outside, and the keyboard is placed on the groove while the keyboard is placed thereon. Since the bar rests on the underside of the keyboard, even when the stand is in the groove, the space of the keyboard remains the same. Therefore, while working with the keyboard combined with the usual, if the work is long, you can support the keyboard by removing the bar support.

Therefore, the keyboard connection structure makes the process control terminal in the form of a kiosk so that the operator can easily access and use the process control system during the work process when the actual operator uses the process control system in the field. The touch screen is positioned at the worker's eye level so that the worker does not have to lean his head or lower his back, and further includes a microphone and a speaker for urgent contact, and attaches to the terminal at any time for more complicated information exchange. It is equipped with a keyboard that can be used to input complicated matters.

If you need an input device such as a mouse, you can attach a plate with a magnet to the terminal body to work with the mouse.

In addition, the report on the work in the field is made through the touch screen, but the voice call may be made with a microphone and a speaker to enable the voice call if necessary.

The terminal of FIG. 1 has an elongated vertical structure to reduce the floor area occupied in the field, and includes a touch screen on the top. The hardware such as a CPU and a hard disk driving the terminal is located behind the support leg of the lower terminal of the touch screen. It is attached to. In addition, separate devices such as keyboards and mice can communicate with terminals via wireless communications, such as Bluetooth.

2 is a view showing a process management system configured according to the present invention. Terminal 11 as shown in Figure 1 is installed in each site by a wireless LAN.

The server 10 is connected to the terminal 11 installed at the site where each process is being performed, and the incoming and outgoing management department of the product used for production or the product waiting to be shipped and collects information coming from each terminal. Retransmit to the terminal at each site in real time.

At the site where each process is performed, the process progress is input in real time after the process is completed. Since the input is possible only by touching a finger using the terminal as shown in FIG. You can work immediately after typing.

The server and the terminal are connected to the wireless LAN, but the wired connection is not excluded, and any connection method used for data communication between the server and the terminal can be used.

Since the server collects the information from each terminal and sends it to the terminal in the field, it is possible to grasp the work progress of the site in real time from all the sites, so it is not necessary to prepare the daily report.

In addition, all employees of the company can understand the flow of internal business at a glance and communicate with each other to induce mutual organic information sharing and work flow, and immediately and efficiently through computerized material, inventory and product shipment management programs. Production process management is possible.

In other words, the process management according to the present invention connects the server and the terminal through a wired / wireless communication network and inputs the work progress in the field in real time, and enables each terminal to be checked through the server. Independent contact with the terminal enables communication so that field workers can immediately deal with any problems that may occur in the field.

Figure 3 is the actual execution screen of the product according to the present invention can be seen at a glance that the process is in progress for each worker and to enable keyboard input by selecting a place such as the above message transmission, but the keyboard is attached and detached To make the space useful.

In addition, each terminal may further include a telephone, and the terminal is connected to an extension telephone line, and when a call is received from outside or inside, the telephone call is directly connected to a server, and the terminal is working according to the pressed extension number. Can be connected to. In other words, if you need to contact a specific process of a factory from inside or outside the company, pressing the extension number can directly call the worker who is working on it. have.

4 shows another embodiment in which a rod-shaped support is formed.

1 and 4 show a terminal according to the present invention;

2 shows a system according to the present invention;

3 is one embodiment of a process management system according to the present invention

<Brief Description of Drawings>

10: server 11,12,13: terminal

20: Terminal 21: Touch screen

22: screen head 23: main body

24: keyboard 25: magnet

26: bar support 27: keyboard combination

Claims (4)

Terminal for real-time process control using touch screen, A main body including a control device, a storage device, and a wireless transceiver for processing information coming from the terminal; And a touch screen that displays information processed from the main body and serves as an input device. The touch screen is positioned at an eye level of an adult so that the touch screen can be best seen from a standing position, and the main body supports the touch screen. The main body is formed of a built-in material for storing the parts forming the main body coupled to the elongated shape of the support and the back of the support, the interior material has a vertically elongated shape to reduce the floor area occupied by the terminal. The terminal further includes a flat keyboard engaging portion 27 made of metal on the front side;  In addition, the terminal further includes a keyboard for input, a magnet is attached to the back of the keyboard to attach the keyboard to the main body by attaching a magnet on the back of the keyboard using the touch screen, using a touch screen Terminal for real time process control According to claim 1, The touch screen is a terminal for real-time process management using a touch screen, characterized in that the touch screen is formed with an inclination to face the upper surface for convenience of the touch According to claim 2, The keyboard engaging portion 'c' shaped engaging groove is formed at the bottom of the one side is rotatably coupled to the end of the recessed groove is formed in the rod-shaped pedestal that can be inserted into and out of the groove Terminal for real-time process control using touch screen The terminal of claim 3, wherein the terminal further includes a handset, the terminal is connected to an extension telephone line, and the server controlling the terminal for process management is connected to an external telephone line so that the server is connected to an internal connection request from an internal or external telephone. Terminal for real-time process management using the touch screen, characterized in that by calling the corresponding terminal to call the process worker by calling the extension number from the outside, the touch screen

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