JPH0644623Y2 - Industrial robot safety device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a safety device applied to an industrial robot capable of teaching by directly moving a robot arm.

<Prior Art> FIG. 2 shows an example of the prior art. As shown in the figure, the power source (here, it is assumed to be AC200V) is connected to the DC power source device 1 for the servo power source through the electromagnetic switch contact 4,
The output terminal of the DC power supply device 1 is connected to the DC power receiving terminal of one or a plurality of servo amplifiers 2, and the servo amplifier 2 is based on the command value of the motor rotation instruction device 6 and the amount corresponding to this command value. Only the servo motor 3 is driven. The interlock device 5 not only gives a drive command to the motor rotation instruction device 6 to drive the servo motor 3, but also controls the DC power supply 1 via the electromagnetic switch contact 4.

In the teaching mode in which the position data of the robot is taught in the control of the robot and the like, which has a function of holding the tip of the arm of the robot and directly teaching, the interlock device 5 generally opens the electromagnetic switch contact 4. For example, the output of the DC power supply device 1 is deactivated, and the servo motor 3 is prohibited from starting via the servo amplifier 2 for safety.

The interlock device 5 may be composed of a control device having a central processing unit (CPU).

<Problems to be Solved by the Invention> In the prior art, as shown in FIG. 2, the output of the DC power supply device 1 is made inactive by opening the electromagnetic switch contact 4 based on an instruction from the interlock device 5. Therefore, the output of the DC power supply device 1 may be activated due to a malfunction of the interlock device 5 and the electromagnetic switch contact 4, etc., which is extremely dangerous especially in the direct teaching state in the teaching mode in robot control. This happens.

The present invention provides a safety device for avoiding this dangerous state and increasing safety.

<Means for Solving the Problems> The present invention supplies the output of the voltage detection device to the interlock device by adding a voltage detection device for knowing the activation state of the output voltage of the DC power supply device. The interlock device enables selection of the robot teaching mode when the output of the DC power supply device is below a predetermined value.

<Operation> When the output of the DC power supply device is in the active state, the interlock device that has obtained the output of the voltage detection device prevents the direct teaching mode in robot control from being selected.

<Example> FIG. 1 shows an example. As shown in the figure, the DC power supply device 1 is supplied with power via an electromagnetic switch contact 4 and generates a DC voltage. This DC voltage is supplied to one or a plurality of servo amplifiers 2 arranged in parallel to drive a servo motor 3 incorporated in the robot body. The servo amplifier 2 and the servo motor 3 are driven based on the command value output from the motor rotation instructing device 6 according to the drive command of the interlock device 5, and the interlock device 5 opens the electromagnetic switch contact 4. Close.

The voltage detection device 7 is arranged to detect the voltage across the output of the DC power supply device 1, and when the detected voltage is below a predetermined value, the detection signal of the voltage detection device 7 is sent to the interlock device 5. To be done.

In the case of this embodiment, in the playback operation of the robot, the electromagnetic switch contact 4 is closed by the control of the interlock device 5, the DC power supply device 1 is excited, and the output voltage of the DC power supply device 1 is increased by the servo amplifier 2. The servo motor 3 is driven by the command value of the motor rotation instruction device 6 and the drive command of the inter 6 device 5.

On the other hand, when a person directly moves the robot arm to teach the robot, the interlock device 5 opens the electromagnetic switch contact 4. Then, when the output voltage of the DC power supply device 1 becomes equal to or lower than the predetermined voltage and the detection signal is sent from the voltage detection device 7 to the interlock device 5, the interlock device 5 can enter the robot teaching mode. And

Note that the interlock device may be a control device composed of a CPU.

<Effects of the Invention> As described above with reference to the embodiments, according to the present invention, the teaching of the robot is performed when the output voltage of the DC power supply device becomes a predetermined value or less and the voltage detection device monitoring this voltage generates a detection signal. It increases the safety effect by enabling the mode.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIG. 2 is a circuit diagram showing a conventional technique. In the drawings, 1 is a DC power supply device, 2 is a servo amplifier, 3 is a servo motor, 4 is an electromagnetic switch contact, 5 is an interlock device, 6 is a motor rotation instruction device, and 7 is a voltage detection device.

Claims (1)

[Scope of utility model registration request] 1. A controller for an industrial robot capable of directly teaching with the arm of an industrial robot, comprising: a servomotor for driving the industrial robot; and a servomotor for supplying electric power to the servomotor to drive the servomotor. Width device, DC power supply device for supplying DC power to the servomotor through the servo amplifier, voltage detection device for monitoring the output voltage of the DC power supply device, and output of the DC power supply device by the voltage detection device A safety device for an industrial robot, comprising: an interlock device capable of selecting to put the industrial robot into a teaching mode when it is detected that the voltage is equal to or lower than a predetermined value.