JPH01199206A - Numerical controller - Google Patents

Abstract

PURPOSE:To increase the display speed and to reduce the overall scale of a system by connecting the standard CNC and MMC directly to a graphic control printed board with a bus. CONSTITUTION:A standard numerical controller CNC10 is connected to a graphic control printed board 20 with a bus A13 of a mother board 1. At the same time a man-machine interface controller MMC30 is also connected to the board 20 with a bus B32. Then the board 20 is connected to a CRT monitor 28 with a cable. As a result, both the CNC10 and the MMC30 can give accesses to the monitor 28 via the board 20 independently of each other.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a numerical control device having an MMC (Man Machine Interface Controller), and particularly to a numerical control device that allows high-speed access to a display device.

[Conventional technology]

The functions of numerical control device systems are becoming more complex and sophisticated due in part to improvements in semiconductor technology.

For this purpose, the functions of the numerical control device (CNC) are divided into the following parts to form a numerical control device system.

That is, firstly, a standard CNC that performs the functions of a standard CNC common to many machine tools.

Second, PMC controls mechanical parts specific to each machine tool.
(7" programmable machine controller). The third is an MMC device (man-machine interface controller) which is an interface between humans and machines.

As an example of this, Japanese Unexamined Patent Application Publication No. 1983-1982, filed by the present applicant,
There is No.-43703. The standard CNC and MMC are schematically shown in FIG. 3, in which the PMC is omitted. In FIG. 3, the standard CNC 141 is a standard CNC printed board, 42 is a serial interface printed board, and 43 is a bus.

Reference numeral 50 denotes an MMC, which is constructed by a user, a machine manufacturer, developing software specific to the machine to which it is coupled. In particular, it is hardware that operates software created with a focus on human-machine interfaces, such as machine-specific displays and key operations. 51 is a serial interface printed board, 52 is another MMC printed board, 53
55 is a bus, and 55 is a CRT monitor, which is connected to another printed circuit board 52 by a cable 54. Also, standard CNC
40 and MMC 50 are connected by a cable 44.

[Problem to be solved by the invention]

However, the configuration shown in FIG. 3 has the following problems.

First, the larger the hardware configuration of the MMC 50 is, the higher the cost and the larger the required space.

Second, since the interface between the standard CNC 40 and MMC 50 is serial, the data transfer speed is slow.

Thirdly, since the CRT monitor 55 is connected to the hardware of the MMC 50, access from the standard CNC 40 must always be done via the MMC 50;
R7 display speed is slow.

The present invention has been made in view of these points, and an object of the present invention is to provide a numerical control device that allows high-speed access to a display device.

[Means to solve the problem]

In order to solve the above problems, the present invention provides an MMC (Man Machine Interface Controller) and a PM
A numerical control device having a C (programmable machine controller), a motherboard having at least two buses, a standard CNC having standard functions of a numerical control device (CNC) coupled to the first bus; an MMC coupled to the second bus and performing the functions of a user program; and a standard CNC coupled to the first bus.

A numerical control device is provided, comprising: a graphics control printed board coupled to an MMC via a second bus; and a display device coupled to the graphics control printed board.

[Effect]

The standard CNC and MMC are independently coupled to the graphic control printed circuit board by respective buses, allowing the display signals of both to be transmitted at high speed.

Furthermore, the configuration of the MMC can be relatively simple.

〔Example〕

Hereinafter, one embodiment of the present invention will be described based on the drawings.

In FIG. 2 which shows a conceptual diagram of the present invention, numeral 1 is a motherboard, which is a printed board that is the center of the numerical control device system. 10 is a standard CNC, which is composed of a plurality of printed boards.

20 is a graphic control printed board, 30 is MM
C, and is composed of multiple printed boards.

Standard CNCl0 and graphic control printed board 20 are connected by bus A13 of motherboard 1, and MMC3
0 is also connected to the Graphink control printed circuit board 20 by bus B32.

On the other hand, the graphic control printed board 20 is connected to a CRT monitor 28 by a cable. Therefore, standard CNC
10 and MMC 30 can independently access the CRT monitor 28 via the graph ink control printed board 20.

FIG. 1 shows a partial block diagram of the numerical control device of the present invention. In the figure, a PMC (programmable machine controller) is omitted. In the figure, 1 is a motherboard which is the center of the numerical control device system, and is configured to be able to mount a large number of printed boards and the like. 10 is a standard CNC, which is composed of a plurality of printed boards and the like. Although not shown in the drawings, the functions of the standard CNC are also processed by LSIs and the like mounted on the motherboard 1 as well as these printed boards.

Reference numeral 11 denotes a printed board centered on the main processor that controls the entire standard CNCl0. 12 is another printed board, and although only one is shown in the figure, there are actually 5 to 5 printed boards.
It consists of about 10 printed boards.

20 is a graphic control printed board, and bus A13
It is bus-coupled with standard CNC10 via standard CNC10.
It can be accessed directly from the NC 10 via this bus A13. 21 is a bus buffer, 23 is a bus C, and the processor 24 and the memory 25 are connected via the bus C23.
, frame memory 26, which are interconnected by a bus. Further, a CRT control LSI 29 for controlling a CRT monitor 28 is connected to the frame memory 26, and the CRT control LSI 29 converts image information in the frame memory 26 into signals for the CRT monitor. 27 is CRT
This is a drive circuit that drives the monitor 28, and is a drive circuit that drives the CRT monitor 2.
Outputs display signals and synchronization signals necessary for 8.

A path buffer 22 is connected to a bus B32, and an MMC 30 is connected to the bus B32.

30 is an MMC (man-machine interface controller), which allows machine manufacturers and others who are users of boat fishing to create a man-machine interface suitable for machine tools and construct a unique numerical control device system. It has become.

31 is a printed board mainly containing a processor that controls the entire MMC 30, and 33 is a printed board for disk control. A hard disk unit 34 stores a user program created by a machine tool manufacturer.

35 is a serial interface printed board to which devices 36 such as a paper tape reader and a tape puncher are connected.

The MMC 30 is coupled to the graphics control printed board 20 by a bus B32 and can directly access the graphics control printed board 20.

In this way, both the standard CNC 10 and the MMC 30 can be connected to the CRT monitor 28 via the graphic control printed board 20.
Since the CRT monitor 28 can be independently accessed to display images on the CRT monitor 28, it is possible to transmit display signals at higher speeds.

In addition, the MMC configuration is simpler, takes up less space, and
The cost will also be lower.

In the above description, the user program is stored in the hard disk unit 34, but a floppy disk unit or the like may be used instead.

〔Effect of the invention〕

As explained above, in the present invention, standard CNC and MMC
is configured to couple directly to the graphics control printed circuit board via a bus, thereby increasing the speed of display signals from standard CNCs and MMCs.

In addition, the MMC space is smaller and the cost is lower.
The overall space of the numerical controller system is also reduced.

[Brief explanation of the drawing]

FIG. 1 is a partial block diagram of a numerical control device of the present invention, FIG. 2 is a conceptual diagram of the present invention, and FIG. 3 is a schematic diagram of a conventional standard CNC and MMC. 1・・・・・・・・・・−・−・・・・Motherboard 10
・-------・-・-・・-Standard CNC11-・-・-
-Main processor 20-- ---Frame memory 28----CRT monitor 30---------MMC (Man Machine Interface Controller) 33--1---- −−1−−−・Hard disk control interface 34・−・−・−1−−−−−−−
・Hard Disk Unit Patent Applicant Fanuc Co., Ltd. Agent Patent Attorney Takeshi Hattori Figure 2 Figure 3

Claims (6)

[Claims] (1) In a numerical control device having an MMC (Man Machine Interface Controller) and a PMC (Programmable Machine Controller), a motherboard having at least two buses and a numerical control coupled to the first bus. a standard CNC having standard functions of the device (CNC); an MMC coupled to the second bus and performing the functions of a user program; A numerical control device comprising: a graphic control printed board coupled with an MMC; and a display device coupled to the graphic control printed board. (2) The numerical control device according to claim 1, wherein the graphic control printed board includes a processor, a memory, a frame memory, and an LSI for controlling a display device. (3) The numerical value according to claim 1, wherein the user printed board has a hard disk interface for connecting a hard disk unit, and a user program is stored in the hard disk. Control device. (4) The user printed board is a floppy disk.
2. The numerical control device according to claim 1, further comprising a floppy disk interface for connecting the units, and a user program is stored on the floppy disk. (5) The numerical control device according to claim 1, wherein the user printed board has a serial interface and is configured to be able to connect a paper tape reader, paper tape puncher, etc. (6) The numerical control device according to claim 1, wherein the display device is a CRT monitor.