KR0133177Y1 - Out-put compensation circuit in displacement detective apparatus - Google Patents

Abstract

The present invention relates to an output correction circuit of a displacement detection device. In an electric displacement detection device using a variable resistor, an operation of a driver is required to correct an error or an electrical error of a device and to determine whether a power line is disconnected. A mechanism part for restoring the operation lever to a neutral position at one end of the operation lever and freely operating the operation lever; A detector mounted to the mechanism to detect an electrical signal according to an operation displacement; A variable resistor in contact with the detector and having a variable resistance value according to the movement of the detector; A power supply unit connected to both ends of the variable resistor to supply power; A first corrector connected between the variable resistor and the voltage output terminal of the power supply unit to correct a first output deviation caused by an increase in the resistance value of the variable resistor; And a second corrector connected between the variable resistor and the ground terminal of the power supply unit to correct a second output deviation generated by a decrease in the resistance value of the variable resistor.

Description

Output Correction Circuit of Displacement Detection Device

1 is a schematic configuration diagram showing a conventional displacement detection device.

2 is a circuit diagram of the displacement detection device shown in FIG.

3 is an output correction circuit diagram of the displacement detection apparatus according to the present invention.

FIG. 4 is a circuit diagram for explaining an example of use of the output correction circuit of the displacement detection device shown in FIG.

* Explanation of symbols for main parts of the drawings

8: mechanism 9: detector

10: variable resistor 11: power supply

12: first compensator 13: second compensator

14: first correction variable resistor 15: first correction detector

16: second correction variable resistor 17: second correction detector

The present invention relates to an output correction circuit of a displacement detection device. More specifically, in an electric displacement detection device using a variable resistor, a displacement detection is performed to determine whether a power line is disconnected while correcting a mechanical error or an electrical error. It relates to an output compensation circuit of the device.

In general, the displacement detection device, which is built into various operating devices such as an excavator and detects displacement of position and speed, that is, a degree of change in a neutral position as a reference, outputs an electrical signal proportional to the operation angle of a lever operated by a user. It is a device for detecting displacement.

FIG. 1 is a schematic block diagram showing a conventional displacement detection device.

As shown in FIG. 1, in the conventional displacement detection apparatus, an operating lever 1, commonly referred to as a “joystick”, detects an angular displacement according to the driver's operation, and is mounted at one end of the operating lever 1. The restoring spring 2 restores the operation lever 1 to the neutral position. Then, the universal joint (3) is mounted on the bottom of the operating lever (1) to allow the driver to operate the operating lever (1) freely.

In addition, a pair of variable resistors 4 are mounted on the bottom of the operation lever 1 so as to measure the operation displacement of the operation lever 1. A power supply section 5 for supplying a constant power supply is connected to both ends of the variable resistor 4.

2 shows a circuit diagram of the displacement detection device shown in FIG.

As shown in FIG. 2, the operating lever 1, the restoring spring 2, and the universal joint 3 of FIG. 1 are collectively referred to as one mechanism part 6. As shown in FIG.

The mechanism 6 is equipped with a detector 7 for detecting the value of the variable resistor 4, and the power supply 5 is connected to both ends of the variable resistor 4.

The conventional displacement detection device configured as described above has a detector mounted to the mechanism part 6 by the action of the universal joint 3 mounted in the mechanism part 6 according to the operated displacement when the driver operates the operation lever 1 ( 7) is changed position. When the position of the detector 7 changes, the contact surface between the variable resistor 4 and the detector 7 connected to both ends of the power supply unit 5 is moved to change the resistance value. Accordingly, the voltage value input from the power supply unit 5 to the detector 7 through the variable resistor 4 is varied, so that the displacement of the driver operating the operating lever 1 is measured, and the corresponding device is measured according to the measured displacement. It works.

However, as described above, the conventional displacement detection apparatus detects various displacements by outputting an electrical signal proportional to the operating angle of the lever by using various mechanical elements and variable resistors, and therefore, electric Displacement error occurs. Therefore, since a displacement error is included in the output of a general displacement detection device, there is a problem in that an accurate output state proportional to the driver's operating angle cannot be obtained.

In addition, since an accurate output state proportional to the driver's engraving angle cannot be obtained, the corresponding device malfunctions. That is, in the case of various operation devices using a displacement detection device such as an excavator, etc., if the neutral position is not detected correctly, the device may operate even without the driver's intention to operate. In addition, even if the displacement detection device is in the neutral range, if it is not exactly positioned in the neutral range and is biased to one side, there is a problem that various safety accidents occur due to the movement of the operating device due to the small vibration generated during driving of the corresponding device. .

Accordingly, an object of the present invention is to solve the above-described problems, and an object of the present invention is to correct an mechanical error and an electrical error of an electric displacement detection device using a variable resistor, thereby detecting an accurate neutral position. To provide an output correction circuit.

Another object of the present invention is to provide an output correction circuit of a displacement detection device that can easily determine the presence of disconnection of the power supply line.

A feature of the present invention for achieving the above object is a mechanism for restoring the operation lever to a neutral position on one end of the operation lever under the driver's operation, freely operating the operation lever; A detector mounted to the mechanism to detect an electrical signal according to an operation displacement; A variable resistor in contact with the detector and having a variable resistance value according to the movement of the detector; A power supply unit connected to both ends of the variable resistor to supply power; A first corrector connected between the variable resistor and the voltage output terminal of the power supply unit to correct a first output deviation caused by an increase in the resistance value of the variable resistor; And a second compensator connected between the variable resistor and the ground terminal of the power supply unit and correcting a second output deviation caused by a decrease in the resistance value of the variable resistor.

In the feature of the present invention, it is preferable that the above-described first corrector comprises a first correction variable resistor connected in series with the variable resistor and a first correction detector movably contacted with the voltage output terminal of the power supply unit. .

The second corrector described above is preferably configured with a second correction variable resistor connected in series to the variable resistor and a second correction detector movably contacted with the ground terminal of the power supply unit.

Hereinafter, a preferred embodiment of the output correction circuit of the displacement detection apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

3 is an output correction circuit diagram of the displacement detection apparatus according to the present invention.

Referring to FIG. 3, in the displacement detection device shown in FIG. 1, an operation lever, a restoring spring, and a universal joint, which receives a driver's operation, are collectively referred to as a single mechanism 8. In addition, the mechanism 8 is equipped with a detector 9 for detecting an electrical signal according to the operation displacement.

On the other hand, the detector 9 is connected to the variable resistor 10 whose resistance value is variable so as to be movable in accordance with the operation displacement of the mechanism part 8, and the power supply part 11 for supplying power to both ends of the variable resistor 10 is provided. Connected. A first compensator 12 for correcting the electrical output deviation is connected between the variable resistor 10 and the voltage output terminal of the power supply unit 11, and an electrical output deviation between the variable resistor 10 and the ground terminal of the power supply unit 11. The second corrector 13 for correcting the is connected.

Here, the above-described first corrector 12 includes a first correction variable resistor 10 connected in series to the variable resistor 10 and a first correction detector 15 connected to the voltage output terminal of the power supply unit 11. 1 is configured to be movable in contact with the variable resistor 10 for correction.

In addition, the above-described second corrector 13 is connected to the second correction variable resistor 16 connected in series with the variable resistor 10 and the second correction detector 17 connected between the ground terminal of the power supply unit 11. The correction variable resistor 16 is configured to be in contact with the movable member.

In addition, the variable resistors used in the first corrector 12 and the second corrector 13 are inexpensive. It is preferable to use a small trimmer resistor.

The operation of the present invention configured as described above will be described in detail with reference to FIG.

First, the present invention can detect an accurate neutral range in which the corresponding device such as an excavator does not operate. Even if the driver operates the mechanism 8 to position the detector 9 of the displacement detection device in the neutral range, the detector 9 causes the accurate detection of the variable resistor 10 due to mechanical errors and electrical displacement errors. A case where the position is located at the position 10a rather than the neutral position 10b may occur. When an error in which the resistance value is increased in this way occurs, the detector 9 generates an electrical output deviation proportional to the resistance value corresponding to the displacement of | 10b-10a | at the correct neutral position. At this time, the position of the first correction detector 15 in contact with the first correction variable resistor 14 in the first corrector 12 is moved between 12a and 12b so as to be twice the resistance value of | 10b-10a |. That is, the first correction detector contacting the first correction variable resistor 14 in the first corrector 12 so that the resistance values at both ends of the detector 9 positioned at the point 10a of the variable resistor 10 are the same. Move the position of 15) to correct the electric output deviation.

If an error of reduced resistance occurs, such as the case where the detector 9 of the displacement detection device is not located in the neutral range but is located at the point 10c, the detector 9 detects a displacement of | 10c-10b | at the correct neutral position. An electrical output deviation occurs in proportion to the corresponding resistance value. At this time, the position of the second correction detector 17 in the second corrector 13 is moved between 13a and 13b so as to be twice the resistance value of | 10c-10b |, that is, located at the 10c point of the variable resistor 10. The output deviation is corrected by moving the position of the second correction detector 17 in contact with the second correction variable resistor 16 in the second corrector 13 so that the resistance values at both ends thereof are the same with respect to the detector 9.

FIG. 4 is a circuit diagram for explaining an example of use of the output correction circuit of the displacement detection device shown in FIG.

In addition, the output correction circuit of the shift detection device according to the present invention can also be used as a device for checking the disconnection of the power line for supplying power to the displacement detection device. That is, as shown in FIG. 4, when the first compensator 12 and the second compensator 17 are fixed so that the first compensator 12 and the second compensator 13 have a constant resistance value, the first compensator 12 and the second compensator 17 are fixed. The voltage range applied to the resistor 10 is as follows.

Here, the resistance value of the variable resistor is 10 [Ω: ohm (resistance unit)], and the resistance values of B and C are 5 [Ω], respectively, and it is assumed that the voltage range of the power supply part is 0 to 5V. The voltage range applied to the variable resistor 10 becomes about 2.5 [V: volts (voltage unit)]. Here, the voltage range applied to the variable resistor 10 is always smaller than the voltage range supplied from the power supply unit 11, that is, less than the maximum value of the voltage supplied from the power supply unit 11 and greater than the minimum value. However, when the wiring L1 for supplying the output voltage from the power supply unit 11 to the first corrector 12 is disconnected, the voltage range applied to the variable resistor 10 takes the maximum voltage supplied from the power supply unit 11. When the wire L2 for supplying the ground voltage to the second compensator 13 is disconnected from (11), the voltage range applied to the variable resistor 10 takes the minimum voltage supplied from the power supply unit 11. Therefore, it is possible to determine whether the power input lines L1 and L2 are disconnected.

As described above, according to the output correction circuit of the displacement detection device according to the present invention, a simple correction circuit for additionally correcting mechanical and electrical errors in an electrical displacement detection device using a rotating or linear variable resistor is additionally installed. By doing so, it is possible to accurately detect the neutral position, that is, the output of the range in which the device does not operate. Therefore, there is an advantage that the safety accident can be prevented in advance in various equipment using a displacement detection device such as an excavator.

In addition, by grasping the magnitude of the voltage applied to the variable resistor, it is possible to confirm whether or not the wiring is supplied from the power supply unit, thereby increasing the reliability of the displacement detection device.

On the other hand, in the present invention has been described in detail with reference to the embodiments as described above, the present invention is not limited to this, it will be known in advance that the modification or improvement is possible by those skilled in the art and ordinary knowledge.

Claims (3)

A mechanism unit for restoring the operation lever to a neutral position at one end of the operation lever subjected to the driver's operation and freely operating the operation lever; A detector mounted to the mechanism to detect an electrical signal according to an operation displacement; A variable resistor in contact with the detector and having a variable resistance value according to the movement of the detector; A power supply unit connected to both ends of the variable resistor to supply power; A first corrector connected between the variable resistor and the voltage output terminal of the power supply unit to correct a first output deviation caused by an increase in the resistance value of the variable resistor; And a second compensator connected between the variable resistor and the ground terminal of the power supply unit and correcting a second output deflection generated by decreasing the resistance value of the variable resistor. 2. The first compensator according to claim 1, characterized in that the first compensator comprises a first compensating variable resistor connected in series with the variable resistor and a first compensating detector which is movably in contact with the voltage output terminal of the power supply unit. Output correction circuit of displacement detector. 2. The displacement of claim 1, wherein the second corrector comprises a second correction variable resistor connected in series with the variable resistor and a second correction detector movably contacted with a ground terminal of the power supply unit. Output compensation circuit of detection device.