JPH0366533A - Display device for assembling parts on assembly line - Google Patents

Abstract

PURPOSE:To eliminate assembly error by displaying the assembling parts on a station on the display means of each station, at every time of carrying-in of a new work to each assembly station. CONSTITUTION:Assembly stations ST-1 - ST-m are provided on an assembly line with same intervals as the arranged intervals of bodies 20A --, and parts display devices 30-1, 30-2, 30-n and work detecting sensors 40-1, 40-2, 40-n are arranged on the stations ST-1, ST-2, ST-m requiring display of assembling parts. In the display devices 30 --, respectively four display parts, CPU, and memories are integatedly provided and connected to an operation command computer 60 through LAN 50. When a body 20-B reaches the station ST-1, it is detected with the limit switch 40-1, and a stored part name in the memory is displayed by CPU of the display device 30-1. Consequently, assembly error can be eliminated by assembling this part.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a display device that is applied to an assembly line for automobiles, etc., and displays the parts to be assembled at each assembly station on the assembly line.

[Conventional technology]

In a conventional automobile assembly line, as shown in FIG. 6, an assembly instruction sheet 2 is attached to the front or rear of the automobile body 1, which is a workpiece.

As shown in FIG. 7, the assembly instructions 2 describe the parts to be assembled at each assembly station on the assembly line,
The worker reads the parts to be assembled at the station in charge from the instructions 2 and assembles the parts to the body 1.

[Problem to be solved by the invention]

The assembly instruction sheet 2 describes all the parts to be assembled at each assembly station. For this reason, when an operator reads the assembly parts for the station in charge from the instruction sheet 2, he or she may erroneously read the assembly parts for other stations.

In view of this situation, it is an object of the present invention to provide a display device for parts to be assembled on an assembly line that can inform workers of the parts to be assembled at individual stations on the assembly line without using the assembly instructions. There is a particular thing.

[Means to solve the problem]

The display device according to the present invention includes an arrangement order instructing means for instructing the arrangement order of the plurality of types of workpieces on the assembly line, and an arrangement order instruction means for instructing the arrangement order of the plurality of types of workpieces on the assembly line, and an arrangement order instruction means for instructing the arrangement order of the plurality of types of workpieces on the assembly line, and an arrangement ordering means for instructing the arrangement order of the plurality of types of workpieces on the assembly line. a storage means stored in advance, a workpiece detection means provided at each of the assembly stations to detect that the workpiece has been carried into the station, instruction contents of the arrangement order instruction means, and storage contents of the storage means. and an assembly part setting means for setting the assembly parts at each of the individual assembly stations based on the output of the workpiece detection means; and display means for displaying the attached parts on their respective stages.

[Effect]

In this display device, each time a new work is carried into each assembly station, the parts to be assembled at those stations are displayed on the display means of each station.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of the present invention applied to an automobile assembly line.

A conveyor 10 shown in the figure is disposed along an assembly line, and conveys automobile bodies 20 suspended at predetermined intervals via hangers 11 in the direction of the arrow.

Note that there are three types of bodies 20 in this embodiment, and symbols 20-A, 20-B, and 20-C indicate bodies of type A, type B, and c1 type, respectively.

On the assembly line, assembly stations 5T-1, 5T-2, 5T-3, .
...ST-m, ... are provided, and among these, stations 5T-1, which require display of assembled parts,
3T-2, -8T-m-..., parts display 30-1
．． 30-2. ...30-n... and workpiece detection sensor 40-1.40-2. . . 40-n, . . . are arranged, respectively.

Each component display 30 includes four display sections 31, 32, 33, and 34 as shown in FIG. 2, and also incorporates a CPU for display processing, a memory (not shown), and the like.

The parts display 30 is connected to a work instruction computer 60 via a LAN (local area network) 50.

Each workpiece detection sensor 40 consists of a limit switch, a limit switch, etc., and is connected to a corresponding component display 301.

Table 1 below shows the parts display 30-1, 30-2. ...30
−n,..., the assembled parts to be displayed in body 2.
This is a model-specific parts file shown for each of machines IA, B, and C of No. 0, and this file is stored in the memory 61 of the work instruction computer 60.

Table 1> Data is transmitted to the data processor 60 (transmission format is batch or real time).

The work instruction computer 60 creates a parts selection instruction file as shown in Table 2 below based on the data indicating the arrangement order and the contents of the model-specific parts files shown in Table 1, and stores this in the memory 62. ruminate.

The memory 71 of the line management computer 70 connected to the work instruction computer 60 stores in advance the arrangement order of the bodies 20 to be carried into the assembly line.

The above arrangement order is stored in the memory 71 as a series of model codes such as . . . BCABA . . . .

The operation of this embodiment will be explained below.

From the line management computer 70, data indicating the arrangement order of the bodies 20 is sent to the work instruction combination table 2. Change.

The progress shown in Table 2 above represents the progress position of each body 20 on the assembly line based on the first station 5T-1. For example, a body with progress 1 is at the first station 5T-1.
It will be located at 1.

If a parts selection instruction file with the contents shown in Table 2 above has been created at this point, the arrangement shown in Figure 1 will be on the assembly line! The bodies 20 of each model are arranged at Mr.
,... are displayed as follows.

That is, as shown in FIG. 3, the display section 3 of the display device 30-1
1 includes station 5T-1 for body 20-B currently located at idle station ST-〇〇.
The display section 32 also displays the name of the assembled part in the station 5T-1 for the body 20-A currently located at the station 5T-1.
In addition, the display section 33 shows the current station 5T-
Station 5T for body C located at 2
The assembly part name "c" in -1 is displayed respectively.

The contents contained in the display 30-1 are also displayed on the other display devices. For example, the display section 31 of the display device 30-2 shows the assembly part name "2" at station 5T-2 for the body 20-A currently located at station 5T-1, and the display section 32 shows the assembly part name "2" at station 5T-2. Regarding the body 20-C currently located at station 5T-2, the assembly part name "3" at station 5T-2 is
Furthermore, the display section 33 shows the station 5T- for the body 20-B currently located at the station 5T-3.
The assembly part name "1" in 2 is displayed respectively.

In short, each display 30-1.30-2. ...30-
The display section 31 of n, . The names of the parts to be assembled at the relevant station regarding the body are further displayed in display section 3.
3 displays the names of the parts to be assembled at the corresponding station for the body currently located at the station next to the corresponding station.

The above display processing may be performed by the work instruction computer 60 based on the data in Table 2, or by each display 3.
0-1.30-2,...30-n.

This is done by manually operating a display operating means (not shown) provided in... In addition, each display 3
0-1.30-2. The display contents of . . . are respectively stored in a built-in memory (not shown).

When the conveyor 10 moves from the state shown in FIG. 1, the body 20-B, which had been located at the idle station 5T-00, is moved toward the station 5T-1. And this body 20-B is station 5T-
1, as shown by the broken line in Figure 1,
Body 20-A is located at station 5T-00, and body 20-A is located at station 5T-2.

When the body 20-B reaches the station 5T-1, the limit switch 40-1 detects this and applies the detection signal to the display 30-1.

As a result, the CPU provided in the display 30-1 changes the part name "mouth" that has been displayed on the display 31 to the display 32 based on the display content stored in the memory of the display 30-1. , and the part name "A" that had been displayed on the display section 32 until then is displayed on the display section 33 (see FIG. 4).

On the other hand, the CPU of the display device 30-1 sends a display data request signal to the work instruction computer 60 via the LAN 50. Accordingly, the computer 60 displays the part name "A" in the column of progress -1 in Table 2, that is, the assembly part name "A" for the body 20-A at station 5T-1, as display data on the display. 30-1.

Then, the CPU of the display device 30-1 stores the above-mentioned display data in the memory, and displays the component name "I" on the display section 31.
Display.

Thus, at the same time when the limit switch 40-1 is activated, each of the display sections 31, 32 and 33 of the display 30-1 is activated.
As shown in Figure 4, the part names “I” and “I” are included.
is displayed. Therefore, the worker recognizes that the name of the assembly part for the body 20-B that has been moved to station 5T-1 is "mouth" based on the display content on the display unit 32, and places the part with this name in the parts storage area. It can be taken out and assembled into the body 20-B.

In addition, the worker can know in advance the name "A" of the part to be assembled next at station 5T-1 from the display content on the display unit 31, thereby speeding up the response to the next task and improving work efficiency. be able to.

On the other hand, since the name of the part to be assembled at station 5T-1 for the body 20-A that has already passed is displayed on the display section 33, if for some reason the body 20-A
If there is a delay in the parts installation work for A, it can be dealt with based on the display contents of the display section 33.

Furthermore, Figure 5 shows the idle station 5T-0 in Figure 1.
1 shows the display contents of the display 30-1 at the time when the body A, which was located at the station 5T-1, reaches the station 5T-1.

Here, the display contents of the display section 34 shown in FIG. 2 will be explained.

The display section 34 displays the jig number or hanger number on the conveyor 10. For example, the display unit 34 of the display u30-1 shown in FIG. 3 displays the jig number or number 11 for the body 20-A located at station 5T-1 in FIG. Ru.

Note that this jig number or numberer number is filed in advance together with the model data shown in Table 2 above.

Other display device 30-2. . . . also performs a display similar to the display 30-1. That is, when the bodies are arranged as shown in FIG. 1, the following content is displayed on the display 30-2 of the station 5T-2, for example.

That is, the display section 31 of the display 30-2 displays the component name 2 shown in the column of progress 1 in Table 2, and the display section 32 further displays the component name 3 shown in the column of progress 2 in the same table. In the section 33, the component names 1 shown in the column of progress 3 in the same table are displayed.

When the limit switch 40-2 detects that the body 20-A, which had been located at the station 5T-1, has reached the station 5T-2, the display sections 31, 32 and 32 of the display 30-1 The display contents of 33 are changed to 1, 2, and 3, respectively.

In addition, the limit switch 40- of station 5T-1
1 and limit switch 40-2 of station 5T-2
do not necessarily operate at the same time. That is,
Both switches 40-1 and 40-2 are station 5T-
The required working time at Station 1 and the same time at Station 5T-2. In consideration of variations between the two, the detection timings for the body may be shifted, and in this case, the switching timing of the display content on the display 30-1 and that on the display 30-2 may be shifted. arise.

Other limit switches are also switch 40- for the same reason.
1.40-2 and the detection timing do not necessarily match.

After all, each display 30-1, 30-2. ... is limit switch 40-1.40-2. . . . display data request signals are output individually based on the detection signals of the display devices, and therefore the display contents on those displays are also switched independently from each other.

By the way, the conveyor 10 operates from the state shown in FIG. 1 and all the limit switches 40-1, 40-2, . . .
-n, . . . detects the body 20 moving from the downstream side, the work instruction computer 60 changes the data stored in the memory shown in Table 2 as follows.

That is, the progress shown in the table is fixed because it is address information, but other data is shifted to the lower hand by one line. New data is then stored in the blank column of the top row.

The new data is created based on the model number transferred from the line management computer and the contents of Table 1, as described above.

In this way, the contents of Table 2 are updated sequentially as the line moves, and based on the updated contents, each of the indicators 30-1, 30-2, . ...30-n.

The display contents of ... will also be changed.

Although the above described the effect when only the main conveyor 10 is used, this embodiment is also applicable when the sub-conveyor 80 shown in FIG. 1 is installed.

That is, for example, when assembling the engines of three models assembled on the sub-conveyor 80 into the bodies of the corresponding models at station 5T- of the main conveyor 10, the parts display 30- and the limit switch 40 are attached to the sub-conveyor 80. It is sufficient to set -.

In the above embodiment, there is a station (for example, station 5T-3) that is not provided with the parts display 30 and limit switch 40, but this station is a station that does not require a display, for example, for the body of each machine scale. There are common parts that are installed at the station.

〔Effect of the invention〕

According to the present invention, it is possible to instruct a worker about the parts to be assembled at each assembly station without attaching assembly instructions to each body.

Furthermore, since the display means at each station can be placed at the optimal position for the operator, it is possible to facilitate the recognition work of the designated parts.

[Brief explanation of drawings]

FIG. 1 is a conceptual diagram showing an embodiment of a display device according to the present invention, FIG. 2 is a conceptual diagram illustrating a panel of a component display device (I, I, C), and FIGS. 3, 4, and 5. 6 is a conceptual diagram illustrating the display mode of the display unit, FIG. 6 is a perspective view showing the installation state (l) of the assembly instruction manual, and FIG. 7 is a lI reminder diagram illustrating the contents of the assembly instruction manual. 10.80...Conveyor, 20...Body, 30.
・・Parts display, 40・・Limit switch, 50・
... LAN, 60... Work instruction computer, 70.
・Line management computer. Figure 6 Figure 7

Claims (1)

[Scope of Claims] Arrangement order instructing means applied to an assembly line in which a plurality of types of workpieces are conveyed, and for instructing the arrangement order of the plurality of types of workpieces on the assembly line; a storage means that stores parts to be assembled in advance according to the type of the workpiece; a workpiece detection means provided at each of the assembly stations to detect that the workpiece has been carried into the station; and an arrangement order instruction. The present invention is characterized by comprising an assembly part setting means for setting the parts to be assembled at each of the assembly stations based on the instruction content of the means, the memory content of the storage means, and the output of the workpiece detection means. A display device for assembled parts on an assembly line.