KR200329956Y1 - Variable resistor for part type formation - Google Patents

Abstract

The present invention relates to a variable resistor, which is applied to a circular round type or a linear slide type, and has a resistance control function for each section in a resistor that can be arbitrarily changed by increasing or decreasing the resistance value by sliding on a carbon film resistor or a resistance winding. By adding it, it is possible to control the car wiper step by step, as well as supply the desired speed, temperature and sound quality.

The variable resistor of the present invention for realizing this comprises a conductor (101) formed in the housing (100) and a resistor (102) for changing the resistance value through electrical contact around the conductor (101). In the conventional variable resistor, the resistor 102 is characterized in that it is intermittently provided in a plurality of places at a predetermined interval (d) along the sliding path of the conductor (101).

Description

Variable resistor with section resistance {VARIABLE RESISTOR FOR PART TYPE FORMATION}

The present invention relates to a variable resistor, and more particularly, a variable resistor for improving the state of change of the resistance value when the user sets the wiper control of the car or the volume control of the audio so that the user can supply the desired resistance value. It relates to a resistor printed structure of.

In general, resistors used in various electrical and electronic circuits consist of fixed resistors with a constant resistance value, and a round type of round type or a linear type of slide type. There is a variable resistor that can be increased or decreased.

Dual variable resistor is applied for volume control in home appliances (home audio or car audio) and speed of car wiper. Especially, in the case of car wiper, it is usually combined with a combination switch installed on the driver's side. (OFF), low speed rotation, high speed rotation, intermittent rotation and so on.

Fig. 1 is a circuit diagram showing a wiper control apparatus of a general automobile, and Fig. 2 is a plan view showing the structure of a variable resistor used in a conventional vehicle wiper control apparatus.

In this configuration, as shown in the circuit diagram of FIG. 1, three switching switches of the high speed switching switch 1, the low speed switching switch 2, the intermittent switching switch 3, and the high speed low speed counter action switch 4 are provided for a predetermined time. The operation was opened and closed by a timer 5 for driving and two contact switches SW1 and SW2 driven by a cam switch. Here, the high speed low speed reverse operation switch 4 is opened only when the high speed and low speed switching switches 1 and 2 are selected, and is otherwise closed.

Meanwhile, the round type variable resistor 6 applied to the control circuit has a conductor 11 formed inside the housing 10 and an arc shape around the conductor 11 as shown in FIG. 2. It consists of a resistor 12 and connection terminals 13a, 13b, 13c fixed to the conductor 11 and the resistor 12 for external connection, and the conductor 11 and the resistor 12 are rotated. A contactor (not shown) is rotatably connected to allow variable resistance adjustment.

In the figure, reference numeral 14 denotes an accommodating part to which the rotation shaft for applying the rotational force to the conductor 11 is axially coupled.

3 shows a conventional slide type variable resistor, in which a predetermined pattern 17 is formed on a surface of a substrate 16, and a resistor 18 is formed in a predetermined section on the pattern 17.

However, in the conventional variable resistor, when the rotary contactor is operated in one direction, as shown in the graph of FIG. 4, the resistance value is constantly changed, thereby increasing the error range for each lot, thereby providing a desired resistance value at a desired position. There was a problem that can not be.

In addition, to take advantage of the same function, the cost of the raw material is excessive, the problem of time and management cost is increased.

The present invention is proposed to improve the above problems in the prior art, it is possible to achieve the desired resistance value by printing the resistance of the section on the substrate surface to satisfy the speed control of the car wiper through a certain operating range of the actuator The purpose is to make it work.

In addition, the purpose of this feature is to enable a variety of products in the complex precision parts.

1 is a wiper drive control circuit diagram of a typical vehicle.

Figure 2 is a structure diagram of a conventional round type variable resistor.

Figure 3 is a conventional slide type variable resistor structure diagram.

Figure 4 is a graph showing a set value change state according to the resistance change in the conventional variable resistor.

5 is a plan view of a round type variable resistor according to an embodiment of the present invention.

Figure 6 is a plan view of a slide type variable resistor according to another embodiment of the present invention.

Figure 7 is a graph showing a set value change state according to the resistance change in the subject innovation variable resistor.

8 and 9 is a structural diagram of a multifunction variable resistance switch according to another embodiment of the present invention.

10 shows a comparison of circuit characteristics of a variable resistor.

10a is a circuit characteristic diagram of a conventional variable resistor.

10b and 10c are circuit characteristic diagrams of the variable resistor of the present invention.

<Explanation of symbols for the main parts of the drawings>

100 housing 101 conductor

102,108: Resistor 103: Connection terminal

106: substrate 107: constant pattern

The object is to provide a conductor formed in a housing and a resistance variable around the conductor, wherein the resistor is intermittently provided in a plurality of places at regular intervals along a sliding path of the conductor. It can be achieved through a variable resistor characterized in that.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to FIGS. 5 to 10.

5 is a plan view of a round type variable resistor according to an embodiment of the present invention, Figure 6 is a plan view of a slide type variable resistor according to another embodiment of the present invention, Figure 7 is a variable resistor according to the present invention 8 and 9 are structural diagrams of the multifunction variable resistance switch according to another embodiment of the present invention, and FIG. 10 compares the circuit characteristics of the conventional and the present invention.

First, referring to FIG. 5, a structure of a round type variable resistor for controlling the operation of an automobile wiper as an embodiment of the present invention is illustrated, as shown in FIG. Located in the center of the body 101, the receiving portion 104, the rotary shaft is axially coupled, the resistor 102 formed in an arc shape along the circumference of the conductor 101, and the conductor 11 and the resistor (12) Each of them consists of a connection terminal 103 fixed for external connection.

The resistor 102 is formed by printing a carbon film layer on the surface of AG. AG is exposed between the resistors 102, and is completed by assembling with the conductor 101 when the printing operation is completed.

In addition, the resistors 102 printed intermittently are formed to maintain a predetermined interval d so that the amount of resistance change in stages can be uniformly increased or decreased.

The connecting terminal 103 is provided at both ends of the conductor 101 and the resistor 102, respectively, and soldering to the circuit board by the connecting terminals 103a, 103b and 103c is the same as before.

6 illustrates a slide type variable resistor according to another embodiment of the present invention, and a predetermined pattern 107 having connection terminals at both ends is formed on a surface of the substrate 106, and on the predetermined pattern 107. The carbon film layer is printed at a predetermined interval d 'over a predetermined period to form the resistor 108.

The operation of the wiper of the vehicle having the variable resistor of the present invention having such a configuration and the effects thereof will be described.

If the clock through the windshield roll is bad due to the rain while driving the vehicle, the driver operates the wiper's operation switch. In this case, if the rotational position of the wiper drive motor is properly adjusted according to the amount of rain, the conductor 101 Slides at a specific position along the resistor 102 so that a desired resistance value can be supplied on the wiper drive circuit.

That is, when the conductor 101 rotates and slides along the intermittent arc path of the resistor 102, the rotational speed of the wiper is changed step by step as the resistance is gradually increased as shown in the graph of FIG. This can be seen that the problem that the supply of the desired resistance value at the desired position can not be solved because the resistance value is constantly changed as compared with the graph characteristic of FIG. 4.

In particular, the speed setpoint at each step can be artificially set by changing the distance d between the resistors 102 or increasing or decreasing the printing location in the manufacturing process of the resistor.

Therefore, in the case of the round type variable resistor of the present embodiment, the resistance value can be controlled in a plurality of stages according to the printing form of the section-by-section path of the resistor 102, and according to the poor situation of the watch and the amount of rain falling. It can be seen that the wiper can be controlled at the optimum speed.

In addition, such a function may be shown in the slide type variable resistor of FIG. 6, and when the slide (not shown) is slid on the substrate 106, the function is printed at a predetermined interval d 'on the pattern 107. As the electrical contact is intermittently changed by the resistor 108 which is present, the stepwise adjustment of the resistance value is achieved.

That is, according to the variable resistor structure of the present invention, the resistance value is changed step by step according to the user's control of sliding the sliding element on the substrate 106 to control the desired drive speed using the resistance for each section. Therefore, it can be seen that it is possible to apply to the digital composite precision components of the resistor.

On the other hand, in the comparative example, as in the circuit characteristics of Figure 10a in the conventional variable resistor is supplied with a resistance according to the operating range of the activator to perform the timer operation of the wiper, according to the present design shown in Figures 10b and 10c As the use range is divided into circuit characteristics, the error range can be reduced by supplying a constant resistance according to the step-by-step operating range at a desired angle.

And while specific embodiments of the present invention have been described and illustrated above, it is obvious that the variable resistor structure of the present invention can be variously modified and implemented by those skilled in the art.

For example, when the present invention is applied to a multi-function variable resistance switch, as shown in FIG. 8, the use range may be subdivided to form intermittent resistors 102 'on the upper and lower portions, respectively. As shown in Fig. 9, only one side forms the intermittent resistor 102 'and the other side forms the conventional continuous resistor 102 " to supply a constant resistance at a desired angle, thereby reducing the error range and reducing the manufacturing cost. It can be seen that.

In addition, in the above embodiment, a case in which the variable resistor of the present invention is installed for controlling the operation of an automobile wiper has been described. Application can be made possible.

Therefore, such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments shall fall within the appended utility model registration claims of the present invention.

As described above, the variable resistor of the present invention is composed of a circular round type or a linear slide type, and a section-by-section adjustment function is provided for a resistor that can arbitrarily vary the resistance value by sliding on a carbon film resistor or a resistance winding. By adding, it gives a practical effect of being able to receive the desired speed, temperature and sound quality through stepwise control.

In addition, it is easy to operate according to the present invention shows an advantage that can be applied to a variety of precision products that are becoming digital.

Claims (4)

In the conventional variable resistor constituting the conductor (101) formed in the housing 100 and the resistance (102, 102 ') for the change of the resistance value through electrical contact around the conductor 101, Wherein the resistor (102, 102 ') is a variable resistor formed section resistance, characterized in that intermittently provided in a plurality of places along the sliding path around the conductor (101). The method according to claim 1, Wherein each of the resistor 102 is a variable resistor with a resistance for each section, characterized in that formed to maintain a predetermined interval (d) between each other. The method according to claim 1, Wherein the resistor 102 is a variable resistor, the resistance of each section is formed, characterized in that the carbon film layer is printed. The method according to claim 1, The resistor (102 ') is a variable resistor with a section-specific resistance, characterized in that formed at least on one side.