KR200206119Y1 - Rheostat - Google Patents

Abstract

The present invention relates to a variable resistor, in the variable resistor consisting of one fixed terminal and a plurality of movable terminals, the partial resistance 16 is connected between the movable terminals (11, 13) having a constant resistance value and the A plurality of terminals 14 and 15 connected to the fixed terminal 12 and the movable terminals 11 and 13 by a rapid jump circuit are formed, and the plurality of movable terminals on which the fixed terminal 12 and the terminals 14 and 15 are formed. (11, 13) and the partial resistance (16) are printed in one pattern circuit, and the pattern circuit of the terminals (14, 15) is applied with a conductive paste or metal thin film circuit using a conductor to stabilize the jump of the variable resistor. This is to keep the curve.

Description

Rheostat

The present invention relates to a variable resistor, and more particularly, to a variable resistor capable of maintaining a stable jump curve using a plurality of terminals of a rapid jump circuit of a fixed resistor formed in the variable resistor.

A variable resistor is a resistance device whose value can be easily changed by a mechanism such as a knob or knob. The variable resistor has one fixed terminal and one or more movable terminals. The resistance of the fixed terminal is moved so that the resistance value between the terminals changes.

These variable resistors allow the input or output voltage or resistance value to be changed by changing the resistance value. The variable resistor is a rotary type or a slide type that is pushed and pulled from side to side according to the shape or use of the knob to change the resistance value. Divided.

Such a variable resistor is conventionally composed of a fixed terminal 3 formed of a circular conductor in the center, and a plurality of movable terminals 2 and 4 having a circular resistor on the outer circumference, as shown in FIG. , 4) and a partial resistance 7 having a constant resistance value. In addition, fixed resistors 5 and 6 each having a predetermined resistance value are formed at one end of the movable terminals 2 and 4, respectively. In addition, the fixed terminal 3 and the movable terminal (2, 4) above the rotatable contact is connected to have a corresponding resistance value at the point where the contact is located, so the magnitude of the output voltage is different.

In the variable resistor 1, the fixed resistors 5 and 6 formed on the movable terminal 3 are doubled with carbon paste having a predetermined resistance value for rapid jump after the partial resistor 7 is printed in a pattern form. Apply. The total resistance of the variable resistor 1 is a value obtained by adding the resistance value of the second fixed resistor 6 to the resistance value of the first fixed resistor 5 and the resistance value of the partial resistor 7. (5) and the second fixed resistor 6 occupy 12% of the total resistance.

FIG. 2 shows an equivalent circuit of FIG. 1, in which the resistance display in the center is a part resistance 7 showing a constant resistance value and is connected to the fixed terminal 3, and the resistance display at both ends has a predetermined resistance value. The fixed resistors 5 and 6 are connected to the movable terminals 2 and 4 by rapid jump.

However, while the conventional fixed resistors formed on the movable terminals of the variable resistor have to be printed to have a resistance value of 12% of the total resistance, it is difficult to have the same value of resistance value in mass production of the variable resistor, as well as 10% or When printed at about 13%, the overall resistance becomes unstable, and there is a problem in maintaining the accurate jump curve of the variable resistor and decreasing the accuracy.

Therefore, the conventional variable resistor is not easy to manufacture a fixed resistor having the same resistance value, the failure rate is high, the manufacturing process is cumbersome, and the manufacturing cost is increased because the fixed resistor must be printed again after the partial resistance is printed once. It acted as a factor.

The present invention has been devised in view of the above problems, and by forming a jump circuit in the form of a terminal between the fixed terminal and the movable terminal, it is possible to manufacture a more stable jump curve and printing of one resistance part. It is an object to provide a variable resistor.

1 is a structural diagram showing a conventional variable resistor;

2 is an equivalent circuit diagram of FIG. 1;

3 is a structural diagram showing a variable resistor according to the present invention,

4 is an equivalent circuit diagram of FIG. 4;

5 is a graph showing the characteristics of the variable resistor according to the present invention. 6 and 7 are structural diagrams of a variable resistor according to another embodiment of the present invention.

♣ Explanation of symbols for main part of drawing ♣

10: Variable resistor 11, 13: Operation terminal

12: fixed terminal 14, 15: terminal

16: partial resistance 18: contactor

The present invention for achieving the above object, in a variable resistor consisting of one fixed terminal and a plurality of movable terminals, the partial resistance connected between the movable terminal having a constant resistance value, and the fixed terminal and the movable terminal It is characterized by forming a plurality of terminals connected by a jump circuit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a structural diagram of a variable resistor according to the present invention.

According to the present invention, the variable resistor 10 is composed of a fixed terminal 12 formed of a circular conductor at the center and a plurality of movable terminals 11 and 13 having a circular resistor on the outer circumference of the fixed terminal 12. .

Partial resistors 16 having a constant resistance value are formed between the movable terminals 11 and 13, and rapid jump terminals 14 and 15 are formed at both ends of the partial resistors 16. That is, a plurality of terminals 14 and 15 connected to the first movable terminal 11 and the second movable terminal 13 by a rapid jump circuit are formed.

The terminals 14 and 15 have a shape that is inserted into the space portion provided in the circular portion of the fixed terminal 12. Referring to the equivalent circuit of FIG. 4, terminals 14 and 15 made of rapid jump circuits are formed at both ends of the partial resistor 16 connected to the centers of the movable terminals 11 and 13 to form the variable resistor 10. The total resistance value becomes the resistance value of the partial resistance 16. Therefore, it is possible to maintain a constant stored value at all times without connecting a separate fixed resistor.

In addition, the plurality of movable terminals 11 and 13 and the partial resistance 16 having the fixed terminal 12 and the terminals 14 and 15 are printed in one pattern circuit, and the pattern circuits of the terminals 14 and 15 are printed. It is preferable that any one of a conductive paste or a metal thin film circuit using a conductor is applied.

Above the fixed terminal 12 and the movable terminals 11 and 13, the rotatable contactor 18 is connected to have a corresponding resistance value at the point where the contactor 18 is located, and thus the magnitude of the output voltage is different. .

That is, the voltage applied from the fixed terminal 12 or any one of the movable terminals 11 and 13 by the contactor 18 positioned at one end of the fixed terminal 12 and the movable terminals 11 and 13 corresponds to the corresponding resistance value. Each outputs a different current value.

It is common for a conventional rotary potentiometer 10 to have 20 clicks by 15 ° at a rotation angle of about 300 °, but according to the present invention, it has only two clicks of 12 to 24 °.

Furthermore, referring to the graph showing the characteristics of the variable resistor of FIG. 5, the rapid jump curve shows the same voltage or resistance value regardless of distance, in which the fixed resistance value of the terminals 14 and 15 is equal to the distance or voltage or resistance value. It can be seen that the resistance value corresponding to the partial resistance 16 is proportional.

Therefore, the variable resistor having a plurality of terminals of the present invention can obtain a constant and stable curve by the connection of the rapid jump circuit.

6 and 7 are structural diagrams of a variable resistor according to another embodiment of the present invention, and FIG. 6 is a terminal made of a jump jump circuit in which terminals 14 and 15 are close to both ends of the inside of the partial resistor 16. (14, 15) were formed, and had the same effect as FIG. At this time, the fixed terminal 12 and the movable terminals 11 and 13 are connected to the rotatable contact 18 to have a corresponding resistance value at the point where the contact 18 is located, and thus the magnitude of the output voltage. Is different. In addition, in the case of Fig. 7, the terminals 14 and 15 form terminals 14 and 15 made of rapid jump circuits so as to be close to both ends of the outer side of the partial resistor 16. This also has the same effect as in Fig. 3, by the contactor 18 located at one end of the fixed terminal 12 and the movable terminals 11 and 13, the fixed terminal 12 or any one of the movable terminals (11, 13) The voltage applied from outputs a different current value by the corresponding resistance value. 6 and 7 are the same as the equivalent circuit of FIG. Thus, the stable jump curve can be maintained even when the terminals 14 and 15 made of rapid jump circuits are inserted into the fixed terminals 12 or formed inside or outside. The variable resistor according to the present invention is to maintain a stable jump curve by forming a terminal of the metal thin film having a rapid jump curve of the fixed terminal and the movable terminal without a separate fixed resistance portion, the present invention in consideration of the above It will be able to change, convert, substitute, and substitute sufficiently, and is not limited to this.

As described above, the variable resistor of the present invention is connected between the movable terminals to have a partial resistance having a constant resistance value, and a plurality of terminals connected to the fixed terminal and the fixed terminal by a rapid jump circuit are formed to maintain a more stable jump curve. It can be manufactured by printing the resistance part of the burner has the effect of minimizing the defective rate of the variable resistor, simplifying the process and reducing the manufacturing cost.

Claims (2)

In the variable resistor composed of one fixed terminal and a plurality of movable terminals, A partial resistance connected between the movable terminals and having a constant resistance value; And a plurality of terminals connected to the fixed terminal and the movable terminal by a rapid jump circuit. The method of claim 1, wherein the fixed terminal and the plurality of movable terminals and the partial resistance on which the terminal is formed are printed in one pattern circuit, and the pattern circuit of the terminal is any one of a conductive paste or a metal thin film circuit using a conductor. Variable resistor, characterized in that applied.