JPS60156110A - Numerical control device - Google Patents

Abstract

PURPOSE:To execute service of working information for other NC devices, too, on-line, by dividing a cable circuit between main and sub-control parts into a signal cable circuit exclusive for automatic programming (AP) and an NC signal cable circuit. CONSTITUTION:A main control part 12 and a sub-control part 18 of NC devices 2, 4 are divided into two cable circuits and connected, and a signal cable circuit 24 exclusive for AP and an NC signal cable circuit 26 are formed. As for these two NC devices 2, 4, one end of the AP-exclusive signal cable 24 and the other end are connected to the main control part 12 of the NC device 2 and the sub-control part 18 of the NC device 4, respectively. In this state, in the sub- control part 18 of the NC device 2, an operation of an NC operating relation of the NC device 2 can be executed, and in the sub-control part 18 of the NC device 4, working information by AP of the entirely different NC device 2 is generated, and its working information can be sent on-line.

Description

[Detailed Description of the Invention] [Technical Field of the Invention] This invention provides on-fin automatic programming (hereinafter referred to as A).
Numerical control (hereinafter abbreviated as NC) equipment equipped with P (abbreviated as P) function, especially NC equipment for ponds.

It concerns a No device with an improved signal cable for providing AP data services.

[Prior art]

Conventionally, there has been a device shown at the block entrance in FIG. 1 as a No. 1 device equipped with an AP. In FIG.

The main control trunk performs calculations based on the input medium α1 or AP data from the sub-control unit (2), which will be explained later, and further controls machining of the machine tool Q4 based on machining instructions from the sub-control unit (to). Section C. Performs AP calculation based on AP input information from the operator's manual operation αe, etc., outputs AP data online to the main control section (B), and outputs data related to AP display to external display 4.

In addition, the width control unit (to) performs calculations such as display settings based on machining instructions such as manual operation DI from the operator and control signals from the main control unit, and outputs one display data to external display 4.
Outputs processing instruction command signals to the main control section (b).

The main control section (2) and the sub-control section (to) are connected by one cable line.

FIG. 2 is a detailed block diagram of the main control section (2) and the sub-control section (c). First, a detailed explanation of the main control section (2) will be provided.

Input medium <1 (for example, processing information from paper tape)
Alternatively, the machining information Ak created by the AP from the sub-output unit of the sub-control unit (to) is read by the machining information input staff, and based on this machining information Nb, the machining trajectory etc. It is calculated in part (2). The output of the processing information input section is applied to the main discriminator, and this main discriminator is
A given No control signal Sd is output from the sub-output section - of the sub-control section (to). Further, the AP control signal fA (ii) is output to this main discrimination input section (to).The drive section (to) performs machining control using the machining control signal Ne of the machine tool a4.

Next, a detailed explanation will be given focusing on the AP of the sub-control unit (g).

The AP input information Sf by the operator etc. and the main control unit (2
) is read into the operation input section -, and based on this AP input information,
The input machining information Ah is sent to the sub-calculation section, and the No. machining locus and the like are calculated. The output of the sub-processing section) is applied to the sub-discriminating section, where code conversion etc. are performed, and N(3 processing information Ai, K
Become. The output of the sub-discrimination section (product) is applied to the sub-output section -, and this sub-output section - outputs processing information Ak t - main control section (2)
It is output to the processing information input section (1) of
P input signal Aj t-output to main discriminator (b), AP display data Al l external display! ! ! ! Output to Kan.

Next, the No instruction command of the sub-control unit (to) will be explained in detail. The NO operation information Sf by the operator etc. and the NO control signal S(l) which is the output of the main discrimination section of the main control section (2)
is read into the operation input section (transfer), and this N (3 control information S
Based on g, the N and C instruction commands sh are calculated in the sub-calculation section, and the output is applied to the sub-discrimination section (material), and the processing instruction commands and
This becomes setting display data S1. The output of the sub-discrimination section is - The sub-output section fiK is applied to 1 and 0. The sub-I output section ■ outputs the machining instruction command 5jt to the main discriminator section (material) of the main control section (2), and displays the NC settings. Data S1 is output to external display S■.

The main control unit (2) and sub-control unit (to) are APs dedicated to %AP.
Control signal A (1, AP input signal Aj, processing information Ak,
The NO control signal Sd for NOfi diversion and the processing instruction command Sj are connected by one cable line.

Since the conventional No. device with AP function is configured as above, the processing information created by the AP of one NC device is serviced only to that No., and cannot be serviced to other NC devices. was there.

[Summary of the invention]

This invention was made to eliminate the drawbacks of the conventional ones as described above, and includes a main control section (2) and a sub-control section mt-
The connecting cable line @'i is separated into an AP dedicated signal cable line and a No signal cable line, and provides an NC device that can provide processing information created by the AP of one No device to other NC devices on-fin. The purpose is to

[Embodiments of the invention]

An embodiment of this invention will be described below.

In the eighth reason, the main control section 4 and the sub-control section (to) are separated and connected to two cable lines. (Foundation) is AP
A dedicated signal cable line, A'P control signal A, AP input signal Aj, processing information Akf) AP quantity related signal line t-summary, (E) is the No signal cable line, NO control signal S (1 and This is a summary of the signal lines t related to the NO operation of the processing instruction command Sj. Figure 4 is a detailed block □□□ of Figure 8, and the operation is exactly the same as the conventional device, so 1
Processing information can be created using the AP in the NC@@ of the machine.

Figure 5 shows an AP dedicated signal cable using two No.
Connect one end of v (c) to the main control unit (6) of the No device (2).

This is an embodiment in which the other end is connected to the sub-control unit 0 of the No device (4).

In the sub-control unit (to) of the No. device (2), the No. device (2)
You can perform operations related to NO operation, and also use an NC device! t (
In the sub-control unit a of 4), A of a completely different No. device (2)
Processing information is created by P and can be sent online. If the connection is made as shown in FIG. 5, the AP function will not be necessary for the sub-control section (to) of the NC device (2). Note that the No. device (4) is a barrel, and creates machining information for the No. device (2) that is completely different from outputting machining instructions for the NC device (4).

In addition, there may be 8 or more NC devices, and if only one has an AP function in the sub-control unit 0, even if the sub-control unit (to) of other No. devices does not have an AP function, the AP-dedicated signal cable wealth)
By connecting, you can receive processing information services created by the AP online.

〔Effect of the invention〕

As described above, according to the present invention, the cable line connecting the main control unit and the sub-control unit is separated into the AP-dedicated signal cable line and the NO signal cable line.
Processing information created with Velli's AP can also be provided online to Ike's No equipment.

[Brief explanation of the drawing]

1 and 2 are block diagrams of a conventional numerical control device, and FIGS. 8, 4, and 6 are block diagrams of a numerical control device according to an embodiment of the present invention. In the figure, (2) and (4) are the No. devices, Q (I is the input medium, main is the main control unit, α4 is the machine tool, αe is manual operation,
(To) is the sub-control unit, (E) is the external display, (C) is the cable line, (1) is the processing information input unit, @ is the processing information calculation unit, (Foundation) is the main discrimination unit , @ is the drive section, (trans) is the operation input section, the trunk is the sub-calculation section, (goods) is the sub-discrimination section, and the master is the sub-output section. Note that the same reference numerals in each figure indicate the same or corresponding parts. Agent Masuo Oiwa 1st review

Claims (1)

[Claims] In a numerical control device that has a main control section that performs numerical control, a sub-control section that performs constant display of automatic delogoming and processing instructions, etc., and a signal cable that connects the main control section and the sub-control section, the signal cable is connected to the pond. A numerical control device characterized by being separated into an automatic programming signal cable and a numerical control signal cable so that processing information can be provided online to the AM control device.