JPH02186581A - Trouble detecting device - Google Patents

Abstract

PURPOSE:To reduce the installation space and cost by connecting one terminal of a comparator with a current detector and the other terminal with heater wire breakage detecting and solid state relay trouble detecting potentiometers through a changing switch. CONSTITUTION:One terminal of a comparator 34 is connected with a current detector 31, while the other terminal is connected with two heater wire breakage detecting and solid state relay trouble detecting potentiometers 35, 36 having different set values through a changing switch 37, so wire breakage of a heater 1 is detected by a single current detector 33, and that troubles at a solid state relay 4 is detected. The space required for installation can thus be small, and the cost can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a failure detection device for an injection molding machine, and particularly to a failure detection device for a heater disconnection and an SSR used in an injection molding machine.

(Prior art) Conventionally, a molding material heated and fluidized in a heating cylinder is injected into a mold under high pressure, cooled and atomized or hardened therein, and then the mold is opened to take out the molded product. In this injection molding machine, a solid state relay (SSR) is used to control the band heater disposed in the heating cylinder.

That is, based on the temperature detected by a temperature sensor disposed on the peripheral wall of the object heated by the hand heater, for example, a heating cylinder, the heater temperature regulator is activated to make the solid state relay conductive or non-conductive. This turns the band heater on and off.

A failure detection circuit is provided to detect a disconnection of the hand heater or a failure of the solid state relay.

The conventional failure detection device described above is shown in FIG.

In the figure, reference numeral 1 denotes a heater disposed in a heating cylinder for heating the molding material of an injection molding machine, and is connected to a heater power supply 3 via a heater power supply line 2.

The heater 1 uses its heat to heat the heating cylinder and melt the molding material, and at this time it is controlled on and off by a solid state relay 4 disposed in the heater power line 2. .

In other words, a temperature detector 5 is disposed near the heating cylinder heated by the heater 1 to detect the temperature of the heating cylinder. The temperature sensor 5 is connected to the line 6
A signal outputted from the temperature detector 5 and indicating a voltage proportional to the temperature of the heating cylinder is transmitted to the heater temperature regulator 7 .

The heater temperature regulator 7 is connected to the solid state relay 4 via a line 8, and outputs a gate signal to the solid state relay 4 based on the signal from the temperature detector 5. When the gate signal is on, the solid state relay 4 is in a conductive state, and when it is off, it is in a non-conductive state.

By the way, the heater power supply line 2 that supplies current to the heater 1 is equipped with a current detector 11.1 for detecting disconnection of the heater 1 and failure of the solid state relay 4.
2 are arranged. The current detector 11 is used to detect a disconnection of the heater 1, and the current detector 12 is used to detect a failure of the solid state relay 4.

The current detector 11 is connected to a heater break detector 14 via a line 13. The heater disconnection detector 14 is
Comparator 15 and potentiometer 16 that outputs a setting signal
When the gate signal of the solid state relay 4 is on, the value detected by the current detector 11 is compared with a reference value, and if the detected value is less than the reference value, it is determined that the heater 1 is disconnected. It makes a judgment and outputs an alarm output from line 17. The line 18 is used to send a signal to the comparator 15 and instruct its comparison operation when the gate signal of the solid state relay 4 is on.

That is, when the heater 1 is disconnected, no current flows through the heater power supply line 2 even though the gate signal of the solid state relay 4 is on, so this is detected by the current detector 11 and compared with a reference value. By doing so, it can be determined whether or not the heater 1 is disconnected.

Meanwhile, current detector 12 is connected via line 21 to solid state relay fault detector 22 .

The solid state relay failure detector 22 includes a comparator 2
3 and a potentiometer 24 that outputs a setting signal, and when the gate signal of the solid state relay 4 is off, the value detected by the current detector 12 is compared with a reference value, and if the detected value is greater than the reference value. It is determined that the conduction mode of the solid state relay 4 has failed, and an alarm output is output from the line 25. Note that the line 26 is used to send a signal to the comparator 23 and instruct its comparison operation when the gate signal of the solid state relay 4 is off.

That is, when the solid state relay 4 fails, the heater power supply line 2 is often kept in a conductive state even though the gate signal of the solid state relay 4 is off. In that case, the heater 1 cannot be turned off, and in order to prevent the occurrence of a fire, it is necessary to detect a failure in the solid state relay 4, but the above failure detection can be done by monitoring the current supplied to the heater 1. This is done by If the current of the solid state relay 4 is abnormally large even though the gate signal of the solid state relay 4 is off, it is determined that the solid state relay 4 is malfunctioning and is in a conductive state.

(Problem to be Solved by the Invention) However, in the conventional failure detection device described above, current detection for detecting a disconnection of the heater 1 and current detection for detecting a failure of the solid state relay 4 are performed simultaneously. and independent heater disconnection detectors 14.
and a solid state relay failure detector 22.

Therefore, the current detector 1 is included in the heater power supply line 2.
1.12 is required, which increases the space for the failure detection device of the injection molding machine and increases the cost.

The present invention solves the above-mentioned problems by integrating a current detector for detecting a break in a heater and a current detector for detecting a failure in a solid state relay, thereby making installation easier. It takes up less space for
The purpose of the present invention is to provide a low-cost failure detection device.

(Means for Solving the Problems) To achieve this, in the present invention, a heater, a heater power source, and a solid stay relay that is conductive or non-conductive depending on whether a gate signal is turned on or off are connected by a heater power line, and the heater In the failure detection device for an injection molding machine, the failure detection device includes a temperature detector that detects the temperature of an object to be heated, and a heater temperature regulator that outputs a gate signal to the solid state relay based on the value detected by the temperature detector. A current detector is installed on the heater power line and connected to the fault detector.

The fault detector has a comparator and two different set values.
Potentiometers for heater disconnection detection and solicit state relay failure detection, and the above-mentioned case! - Consists of a changeover switch that selects the potentiometer for detecting heater breakage when the signal is on, and the potentiometer for detecting solid state relay failure when the gate signal is off.

The comparator has one terminal connected to the current detector,
The other terminal is connected to a heater disconnection detection potentiometer and a solid state relay failure detection potentiometer via the changeover switch.

(Function) According to the present invention, a current detector is disposed in the power supply line for the heater and connected to a failure detector, and the failure detector is connected to a comparator and two heater burnout detectors having different set values. and a potentiometer for detecting solid state relay failure, and a changeover switch that selects the potentiometer for detecting heater burnout when the gate signal is on and the potentiometer for detecting solid state relay failure when the gate signal is off. One terminal of the device is connected to the current detector, and the other terminal is connected to the potentiometer for heater burnout detection and solid state relay failure detection via the changeover switch. It becomes possible to detect disconnections in the relay, as well as failures in solid state relays.

(Example) Hereinafter, an example of the present invention will be described in detail based on FIG.

FIG. 1 is a circuit diagram of a failure detection device according to the present invention.

In the figure, a heater 1 is connected to a heater power source 3 via a heater power line 2, and is controlled on and off by a solid state relay 4, as in the conventional failure detection device.

Then, a signal outputted from the temperature detector 5 and indicating a voltage proportional to the temperature of the heating cylinder is transmitted to a heater temperature regulator 7, which controls the temperature detector 5.
A gate signal is output to the solid state relay 4 based on the signal from the solid state relay 4. When the gate signal is on, the solid state relay 4 is in a conductive state and energizes the heater IC 2, and when it is off, it is in a non-conductive state and stops energizing the heater 1.

By the way, the heater power inlet 2 that supplies current to the heater 1 is equipped with a current detector 31 for detecting disconnection of the heater 1 and failure of the solid state relay 4.
is installed. The current detector 31 is used to detect a disconnection of the heater 1 and a failure of the solid state relay 4.
is now shared.

The current detector 31 includes a potentiometer 35 that outputs a setting signal for connection to a heater disconnection and solid state relay failure detector 33 via a line 32, and a potentiometer 36 for detecting failure of the solid state relay 4. It has a changeover switch 37 for selecting the potentiometer 3536 by switching.

The switching switch 37 is connected to a line 38 that connects the heater temperature regulator 7 and the solid state relay 4, and can receive the gate signal of the solid state relay 4 from the line 38. When the gate signal is on, that is, when the heater 1 is energized, the switching switch 37 is connected to the potentiometer 35 for detecting heater disconnection, and when the data 1 signal is off, That is, when the heater 1 is not energized, it is connected to the potentiometer 3G for detecting failure of the solino relay 4.

One terminal 40 of the comparator 34 is selectively supplied with the q(if- value) from both potentiometers 35+36 via the switching switch 37, and the current detector 31 is supplied to the other terminal 41 of the comparator 34. Detected value will be input."

In the failure detection device having the above configuration, when the heater 1 is in the operating state when the data 113 of the line 38 is on, the changeover switch 37 is switched on for heater burnout detection because the gate signal is on. potentiometer 3
5 and the potentiometer 35 to W4 (the value is θ of the comparator 34;

If the Peter 1 is disconnected in this state, the current (broiler 31) detects the disconnection and inputs it to the input terminal 41 of the comparator 34. When the detected value is less than the reference value by comparison with the reference value, it is determined that the heater 1 has exceeded Ur'jfAt, and an alarm output is output from the line 43.

On the other hand, when the gate signal on line 38 is off and the heater 1 is inactive, the gate signal is off, so the selector switch 37 is connected to the flint-state relay 4.
It is connected to a potentiometer 36 for failure detection, and a reference value is input from the potentiometer 36 to a terminal 40 of the comparator 34 .

In this state, if solid state relay 4 fails and becomes conductive, current detector 31 detects this and inputs it to input terminal 41 of comparator 34 . At this time, the comparator 34 compares the value detected by the current detector 31 with a reference value, and if the detected value is greater than the reference value, it is determined that the solid state relay 4 has failed, and an alarm is sent from the line 43. Print the output.

Note that the present invention is not limited to the above embodiments,
Various modifications are possible based on the spirit of the present invention, and these are not excluded from the scope of the present invention.

(Effects of the Invention) As explained above, in the fault detection device of the present invention, a current detector is provided at the heater power supply in and connected to the fault detector, and the fault detector is connected to the comparator. and two potentiometers for detecting heater disconnection and solid state relay fault detection with appropriate setting values, and a potentiometer for detecting heater disconnection when the data 1 signal is on, and a solid state potentiometer for detecting heater disconnection when the gate signal is off. One terminal of the Q2 comparator is connected to the current detector, and the other terminal is connected to the switch for peak disconnection detection and the switching switch for selecting the potentiometer for relay failure detection. Since it is connected to the solid state relay failure detection potentiometer, it is possible to detect heater disconnection with one current detector, and also to detect failures in the solid state relay.

Therefore, the current detector for detecting a heater disconnection and the current detector for detecting a failure of the soliso 1-stay L' rule can be reduced to one, so the installation space is small. Therefore, it becomes possible to obtain a failure detection device with low cost.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a failure detection device according to the present invention, and FIG. 2 is a circuit diagram of a conventional failure detection device. 1--Heater, 2--Heater TiR line, 3-
...Hita power supply, 4..Solid state relay degree detector, 7.-Heater temperature controller, 11, 12. 31...
・Current detector, 14... Heater disconnection detector, 15, 2
3. 34... Comparator, 16, 24. 35. 36
...Potentiometer, 22...Storage/7 stay 1 relay failure detector, 33...Hitor disconnection and solid state relay failure detector.

Claims (1)

[Claims] A heater, a heater power source, and a solid-state relay that is conductive or non-conductive depending on whether a gate signal is turned on or off are connected by a heater power line, and the temperature of the object heated by the heater is detected. In a failure detection device consisting of a detector and a heater temperature regulator that outputs a gate signal to the solid state relay based on the value detected by the temperature detector, (a) a current detector is disposed in the power supply line for the heater; (b) The fault detector includes a comparator, two potentiometers for heater burnout detection and solid state relay fault detection with different set values, and when the gate signal is on, the fault detector is connected to a fault detector. (c) the comparator has one terminal connected to the current detector; A failure detection device characterized in that the other terminal is connected to a heater disconnection detection potentiometer and a solid state relay failure detection potentiometer via the changeover switch.