KR19980069353A - Automated path preparation device with touch inspection function of hand insert parts and method - Google Patents

Abstract

The present invention relates to a self-insertion path preparation device having a touch inspection function of a hand insertion part and a method thereof, and more particularly, to calculate an area between a hand insertion part and a pre-assembled part and to determine whether they intersect with each other. The present invention relates to a self-insertion path preparation device having a touch inspection function of a hand insert part for displaying whether or not a touch is made, and a method thereof.

After inputting a command to select the manual insertion part touch inspection menu through an input means, the area is obtained from all parts to be inserted into the printed circuit board to be worked on in the parts database, and the intersection between the selected manual insertion part and other parts is determined. By displaying the part names that are crossed on the monitor and storing them in the memory, design errors can be eliminated in advance to reduce the defective rate of the printed circuit board, which can reduce production costs, reduce the manual insertion time, and improve productivity. Can be improved.

Description

Automated path preparation device with touch inspection function of hand insert parts and method

The present invention relates to an apparatus and method for creating a self-diagnostic path having a touch inspection function of a manual insertion part and a method thereof, and more particularly, to a pre-assembled component with a manual insertion part. The present invention relates to a method and a method for creating a self-insertion path having a touch inspection function of a hand insertion part for determining whether or not the hand insertion part is touched with a pre-assembled part by calculating an area with a part.

In the process of automatically inserting the parts into the printed circuit board, the preparation time and the work guidance table of the self-insertion board are prepared and the efficiency of the self-insertion equipment is increased. In order to operate the auto inserter, a self-insertion path is created in advance, and the auto inserter inserts a part along the path to increase efficiency.

A large number of equipments are used depending on the parts at the time of insertion, and the path and order of insertion are determined according to the characteristics of each equipment and the characteristics of the parts. For the operation of the insertion machine, the computer and its operating software automatically determine the path of the insertion, and the numerical control program and the work guidance table are prepared by the machine.

However, depending on the type of parts, there are some parts that can be mounted by auto inserters and parts that need to be handled by hand. Since the parts to be processed by hand insertion are unusual in size and shape, it is impossible to insert them automatically.In the process of automatically inserting parts on the printed circuit board, when inserting parts with the automatic inserter and when inserting parts by humans In general, the process of inserting parts is performed by automatic insertion first and then manual insertion. When inserting a component into a printed circuit board completed in the manual insertion process and the manual insertion process, do not check in advance whether a component touch occurs between the inserted insertion part and the insertion part during manual insertion due to a design error. If not, since a touch occurs between the manual insertion part and the already inserted insertion part when the insertion part is inserted into the finished printed circuit board, there is a problem in that it is impossible to insert the discarded printed circuit board.

The present invention is to solve the above problems, an object of the present invention is a magnetic insertion path creating apparatus having a touch inspection function of the insertion component can be inspected before the printed circuit board whether the touch occurs between the insertion component and the insertion component. And a method thereof.

Another object of the present invention is to reduce the production cost by preventing the disposal of the printed circuit board due to design errors in advance by inspecting the touch state of the self-inserted parts and hand-manufactured parts due to design errors in the design stage of the printed circuit board. The present invention provides a method and method for creating a self-insertion path having a touch inspection function of a hand insert which can increase productivity.

In order to achieve the above object, an apparatus according to the present invention includes input means for inputting various data such as component data and CAD data, display means for receiving and displaying display data, and width and width of each of the two inserted parts. Hand insertion part touch inspection means for determining that touch occurs when the width and width in the obtained and inserted state are less than or equal to the sum of the width and width of each component in the non-inserted state, and a memory for storing various data. A command for selecting the manual insertion part touch inspection menu through the input means, and obtains an area for all parts to be inserted into the PCB to be worked on in the parts database, and whether the selected manual insertion part intersects with other parts. And a main controller to display the part names to be crossed on the monitor and to store them in the memory.

In addition, the method according to the present invention receives the command to select the manual insertion component touch inspection menu through the input means to obtain the area for all the components to be inserted into the printed circuit board to be currently working in the component database, and the other selected components and other components It judges whether it intersects with and displays the part name that crosses on the monitor and saves it in the memory.

1 is a block diagram showing the configuration of a self-insertion path creating apparatus having a touch inspection function of a hand insert according to the present invention.

2 is a main menu screen displayed on a monitor.

3 is a flow chart showing a touch inspection method of the insertion component according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: main control unit 20: input means

30: Optimal path generation and correction means 40: Touch inspection means of the insertion part

50: memory means 60: data analysis and handling means

70: monitor means 80: parts distribution means between equipment

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a self-insertion path creating apparatus having a hand-insertable part touch inspection function according to the present invention.

The main control unit 10 is a personal computer or a Pentium PC compatible with an IBM PC, and executes the software according to the present invention to form a database of CAD data and component data input from the input unit 20 and store the memory. It stores in the means 50, generate | occur | produces various inserting route data, etc., and controls each part of the insertion apparatus.

The input unit 20 may be a key input unit, a floppy disk drive unit, a scanner, or the like, and inputs various data such as component data and CAD data into the main controller 10. Optimal path generation and correction means 30 is realized by a software program, and by reading data from the database to generate the insertion path for the parts assigned to the insertion apparatus and by the correction data input from the input means 20 Modify the path of the insert.

The manual insertion part touch inspection means 40 is realized by a software program, and obtains the width and the width of each of the two inserted parts to determine the width and the width of each part in the inserted state and the width of the inserted part. It is determined that a touch occurs when less than or equal to the summed value.

The data analysis and handling means 60 is realized by a software program. The data analysis and handling means 60 receives CAD data and component data input from the input means 20 and generates a database. The monitor means 70 receives the display data from the main controller 10 and displays it. The component distribution means 90 between the devices is realized by a software program, and the components for each device are balanced between the AXIAL device and the heterogeneous axial device, and the radial device and the radial device in consideration of balancing. Distribute the parts and display the different colors for each equipment.

Hereinafter, the operation and effect of the present invention will be described with reference to a flow chart of software which is a means for realizing a touch insertion part touch inspection function.

The apparatus for creating a self-insertion path according to the present invention is achieved by software for realizing a plurality of functions, and the functions are organically combined with each other to generate and determine an optimal path, generate a touch inspection data, generate a file for a tester, and a result file for transplanting equipment. Functions such as generation, part distribution data generation between equipment, generation of self-insertion / hand insertion indexes, design changes, and construction of manual insertion lines are realized.

When the user supplies power, the magnetic insertion path creating device displays the main menu screen shown in FIG. 2 on the monitor means 70.

The main menu screen 200 displays a component arrangement diagram 201 created by CAD data and a pattern diagram 203 for connecting each component on the lower left side thereof, and a menu 202 for selecting a function on the right side thereof. do.

When the CAD data and the component data of the printed circuit board, which are prepared in advance, are input through the input means 20 composed of a key input means, a floppy disk drive unit, a scanner, and the like, and the manual insertion component touch inspection function menu is selected from a plurality of menus. Part information, hole information, and the like are made into the database using the CAD data and the part data, and are stored in the memory means 50.

The present invention generates a self-insertion path from the CAD data and the component data of the printed circuit board to be worked on, and distributes the hand-held parts in consideration of the line balancing, the number and insertion capacity of the workers, the standard time of the parts, and the like for each operator of the manual insertion line. Thus, the insertion part with the heat sink is configured by adding the area of the heat sink to the area of the part and assigning the insertion part to the worker to form the insertion part.

Therefore, before the present invention is executed, a process of generating a self-insertion path is performed, and by selecting the touch inspection menu of the manual insertion part in the menu 202 for selecting a function shown on the right side in the main menu screen 200 shown in FIG. Is executed.

3 (a) and (b) show a flow chart showing a touch inspection method of the hand insertion part of the insertion apparatus according to the present invention.

In step 301, the main menu is displayed on the screen of the monitor means 70 as shown in FIG. In step 302, it is determined whether a command for selecting a manual insertion part touch inspection menu has been input through the input means 20. If a command for selecting the manual insertion part touch inspection menu has not been entered, if the command of repeating the process of step 301 and a command for selecting the manual insertion part touch inspection menu is input, in step 303 the printed circuit board to work on the monitor means 70 A message for receiving a model selection is displayed, and the printed circuit board model name is received through the input means 20. In step 304, data is read from the CAD data and the component data of the PCB to be operated to select a manual insertion component. In step 305, the width and width of the currently selected component are read from the component database, and the area (ie area = width × width) of all the components inserted into the printed circuit board to be worked on is calculated and stored in the memory means 50. do. In step 306, it is determined whether there is a part that intersects with the currently selected hand insert part. If there are no intersecting parts, go directly to step 308. If there are intersecting parts, the intersecting part names are stored in the memory means in step 307 and the step proceeds to step 308.

In step 308, it is determined whether the touch inspection is completed for all the manually inserted parts. If the touch inspection is not completed for all the manually inserted parts, the next manually inserted parts are selected in the parts database in step 309 and the following steps are performed to check whether there is a part intersecting with the next manually inserted parts. When the touch inspection is completed for all the inserted components, the touch inspection result is displayed on the monitor means 70 in step 310, stored in the memory means 50, and the present program is terminated.

As described above, according to the present invention, the touch inspection between the manual insertion part and other parts is performed before assembling the printed circuit board and displayed on the monitor, thereby reducing the defective rate of the manufactured printed circuit board by eliminating design errors in advance. It can reduce the time, reduce the manual insertion time, and improve the productivity.

Claims (2)

In the interpolation path creating device, Input means for inputting various data such as parts data and CAD data; Display means for receiving and displaying display data; The insertion part which determines that the touch occurs when the width and the width of each of the two inserted parts are less than or equal to the sum of the width and the width of each part in the inserted state and the width and the width of the non-inserted part. Touch inspection means, Memory means for storing various data; After inputting a command to select the manual insertion part touch inspection menu through an input means, the area is obtained from all parts to be inserted into the printed circuit board to be worked on in the parts database, and the intersection between the selected manual insertion part and other parts is determined. And a main control section for displaying the parts names to be displayed on the monitor and storing them in a memory. In the touch inspection method of the hand-inserted parts of the insertion path making apparatus, After inputting a command to select the manual insertion part touch inspection menu through an input means, the area is obtained from all parts to be inserted into the printed circuit board to be worked on in the parts database, and the intersection between the selected manual insertion part and other parts is determined. A method of creating a self-insertion path having a touch inspection function of a hand-inserted part, comprising the steps of displaying the part names to be crossed on a monitor and storing them in a memory.