KR20040066562A - Variable resistor limited in varying its resistance and optical pick-up using the same - Google Patents

Abstract

PURPOSE: A variable resistance having a limited variance and an optical pickup using variable resistance are provided to prevent a set variable resistance value from being changed by shock while moving an apparatus, and to prevent the changed resistance value from causing malfunction or a defect in the apparatus, thereby removing a possibility of apparatus malfunction. CONSTITUTION: Terminals(11,12,13) are connected to an outer circuit. An adjustable knob(14) is used to control resistance values among the terminals(11,12,13). A rotational range restricting unit restricts a rotation of the adjustable knob(14) to a predetermined range. The rotational range restricting unit consists of a projection portion(14a) and a stopper(10a). The projection portion(14a) is protruded in side direction of the adjustable knob(14). The stopper(10a) is protruded on an upper side of a body(10), is contacted with the projection portion(14a) while rotating the adjustable knob(14), and prevents the adjustable knob(14) from being additionally rotated.

Description

Variable resistor limited in varying its resistance and optical pick-up using the same}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable resistor. In particular, a variable resistor having a variable resistance can be prevented from being excessively changed or even slightly changed due to inadvertent or shock during movement after actual use. It is about. The present invention also relates to an optical pickup including such a variable resistor.

A variable resistor is a resistor that can select and use the necessary resistance value according to the situation in the range between the minimum value close to 0 and the predetermined maximum value, not having a fixed resistance value. It is a general-purpose component used in various electric and electronic devices. to be.

1 is a perspective view illustrating an example of a conventional variable resistor, and FIG. 2 is a circuit diagram corresponding to the variable resistor of FIG. 1.

As shown therein, the external appearance of the variable resistor is composed of a body 1, three terminals 2, 3 and 4, and an adjustment knob 5, and a fixed terminal among the three terminals 2, 3 and 4. Connecting two terminals (2,3), which are called, to a circuit, obtains a fixed maximum resistance. In the case of circuit wiring, a variable terminal is one terminal except for the two fixed terminals (2,3). (4) and one of the two fixed terminals (2, 3) is connected to the circuit.

The adjustment knob 5 can be rotated using a suitable tool such as a screwdriver. When the adjustment knob 5 is rotated in one direction, the position of the variable terminal 4 in FIG. 2 is shifted to the right. Rotation in this direction causes the position of the variable terminal 4 to move in the opposite direction in FIG. In order to move the variable terminal 4 from the leftmost to the rightmost position in FIG. 2 or vice versa, it is usually necessary to rotate the adjusting knob 5 of FIG. 1 several times.

However, when the variable resistor is actually used in an electric and electronic device, it is rarely used over the entire range of resistance values that the variable resistor can make, and usually only a part of the resistance value is used.

For example, the optical recording / reproducing apparatus optical pickup unit has a size of 500 Ω depending on the type of pickup for the purpose of adjusting the gain of the circuit in the current-voltage conversion circuit or for adjusting the current value to the laser diode. I use a 2.2 kΩ variable resistor, and in the actual application of these variable resistors, neither the range of 0-500 Ω nor the range of 0-2.2 kΩ is used, but 300-500 respectively. You can choose the resistance of the variable resistor in the Ω and 1.5 to 2.2 kΩ ranges. In addition to using it in a certain range, if it is incorrectly adjusted to an excessively low resistance value, it may cause equipment failure or failure.

However, in the conventional variable resistor, the adjustment knob rotates due to inattention in the process of moving the variable resistor after assembling it to the device or assembling other parts after assembling the variable resistor, thus lowering the value beyond the originally adjusted resistance value. It is frequently changed to a resistance value or to a high resistance value, and as described above, there is a problem of causing a failure or failure of the device, especially when the resistance value is changed to a very low resistance value.

Therefore, the technical problem to be achieved by the present invention is a failure or failure of the device caused by having a resistance value outside the range actually required in the environment in which the variable resistor is to be used by the shock applied to the variable resistor due to the impact during movement or carelessness of the operator. It is to provide a variable resistor to prevent the.

1 is a perspective view showing an example of a conventional variable resistor.

FIG. 2 is a circuit diagram corresponding to the variable resistor of FIG. 1. FIG.

Figure 3 is a perspective view showing an embodiment of a variable resistor of the present invention.

Figure 4 is a perspective view showing a variable resistance of another embodiment of the present invention.

5 is a perspective view showing a variable resistance of another embodiment of the present invention.

Figure 6 is a perspective view showing a variable resistance of another embodiment of the present invention.

In order to solve the technical problem to be achieved by the present invention as described above, the main body, terminals connected to an external circuit, an adjustment knob for adjusting the resistance value between the terminals, and the rotation of the adjustment knob is limited to a predetermined range. A variable limited variable resistor is provided which comprises a rotation range limiting means.

In addition, in order to solve the technical problem to be achieved by the present invention, the main body, terminals connected to an external circuit, an adjustment knob for adjusting the resistance value between the terminals, and a force of a predetermined size or more must be applied to rotate the adjustment knob. A variable limited variable resistor is provided which comprises a rotation suppressing means for suppressing rotation of the adjustment knob.

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

3 is a perspective view showing an embodiment of a variable resistor of the present invention.

As shown therein, the variable resistor of the present invention includes an adjustment knob for adjusting the resistance value between the main body 10, terminals 11, 12, and 13 connected to an external circuit, and terminals 11, 12, and 13; (14) is the same as the conventional variable resistor shown in FIG. 1, and the main difference is that the rotation range limiting means is provided so that the rotation of the adjustment knob 14 is within a predetermined range.

Rotation range limiting means for limiting the rotation of the adjustment knob 14 to a predetermined range is provided with a protrusion 14a protruding laterally of the adjustment knob 14 and an upper surface of the main body 10 to adjust the adjustment knob 14. The stopper 10a may be configured to contact the protrusion 14a during rotation to prevent further rotation of the adjustment knob 14.

When only one stopper 10a is installed, the rotatable range of the adjustment knob 14 is limited to one wheel in any of clockwise and counterclockwise directions, and two stoppers 10a are installed as shown. In this case, the rotatable range of the adjustment knob 14 is limited between the two stoppers 10a.

In the case of the above embodiment, when the variable resistor is manufactured, the adjustment knob 14 in which the protrusion 14a is formed in the state where the variable resistor is adjusted to have a resistance value that is about the middle value of the resistance value range required by the device in which the variable resistor is to be used. ), The variable resistor of the present invention can be manufactured.

4 is a perspective view showing a variable resistance of another embodiment of the present invention.

This embodiment differs from the previous embodiment in that the laterally projecting projection 25a of the adjustment knob 24 is not integrally formed with the adjustment knob 24 but is later coupled to the adjustment knob 24. Do.

That is, in this embodiment, the rotation range limiting means for limiting the rotation of the adjustment knob 24 to a predetermined range has a projection member 25 having a projection 25a protruding outward and coupled to the adjustment knob 24. And a stopper 20a protruding from an upper surface of the main body 20 to contact the protrusion 25a of the protrusion member 25 to prevent further rotation of the adjustment knob 24 when the adjustment knob 24 is rotated. Can be.

In this embodiment, when the variable resistor is manufactured, the protruding member 25 is not coupled, and when the variable resistor is actually used in the device, the adjustment knob 24 is adjusted to the resistance value required by the device in which the variable resistor is to be used. After adjusting by turning, the projection member 25 is coupled to the adjustment knob 24 so that the adjustment knob 24 is not affected by the interference between the projection 25a formed on the projection member 25 and the stopper 20a on the upper surface of the body 20. Limit the rotatable range.

As a method for coupling the protrusion member 25 to the adjustment knob 24, the inner diameter of the protrusion member 25 may be made to be slightly smaller than the outer diameter of the adjustment knob 24, or press-fitted, or the adjustment knob 24 may be used. Various methods may be used, such as forming a tooth on the outer diameter and forming a tooth to engage with the inner diameter of the protrusion member 25 to engage with each other.

5 is a perspective view showing another embodiment of the present invention.

In the embodiment of Fig. 5, there is a means for suppressing rotation at all beyond limiting the range of rotation of the adjustment knob. That is, the main body 30, the terminals 31, 32, 33 connected to the external circuit, the adjustment knob 34 for adjusting the resistance value between the terminals 31, 32, 33, and a force of a predetermined magnitude or more. The variable resistance variable resistor is provided, which includes rotation suppression means for suppressing rotation of the adjustment knob 34 so that the adjustment knob 34 can be rotated only when it is operated.

The rotation suppressing means here is a plurality of teeth (34a) provided on the outer periphery of the adjustment knob 34, and the teeth (34a) to be formed on the upper surface of the main body 30 and to apply an elastic resistance in the direction of rotation of the adjustment knob (34) It may be composed of an elastic protrusion (30a) fitted in the groove between.

On the contrary, as shown in FIG. 6, an elastic protrusion 44a is formed on the outer circumference of the adjustment knob 44, and an adjustment knob enclosing portion 40a having a plurality of teeth is coupled to the upper surface of the main body so that the elastic protrusion 44a can be coupled. It may be formed.

The embodiment of FIGS. 5 and 6 is different from other embodiments that limit the range of rotation of the adjustment knob. In order to rotate the adjustment knobs 34 and 44, a force that is capable of overcoming the elastic repulsive force exerted by the elastic protrusions 30a and 44a should be applied, and by appropriately adjusting the thickness of the elastic protrusions 30a and 44a, It is possible to rotate the adjustment knobs 34 and 44 using a tool such as a drive, but it is possible to prevent the adjustment knobs 34 and 44 from rotating due to inadvertent force or the degree of impact during movement of the device. Do.

The variable resistor as described above may be used for optical pickup of an optical recording / reproducing apparatus, in which case the variable resistor value set at the factory is not changed by an impact during movement of the apparatus, and an operator accidentally applies the variable resistor. Even if the resistance value of the variable resistor does not change or does not change, it does not change to a value that may cause a failure or failure of the device. As such, when used for optical pickup, a good effect can be obtained, but it can be used in other general electric and electronic devices except optical pickup, and of course, similar effects can be obtained.

In the case of using the present invention as described above, even if the resistance value of the variable resistor does not change at all or changes due to the impact on the variable resistor due to the impact during movement or carelessness of the operator equipped with the variable resistor. It only changes within a small range without the risk of causing a failure, thereby preventing the failure or failure of the device caused by excessive resistance value change.

Claims (9)

A variable resistance variable resistor configured to include a main body, terminals connected to an external circuit, an adjustment knob for adjusting a resistance value between the terminals, and a rotation range limiting means for rotating the adjustment knob to a predetermined range. . According to claim 1, wherein the rotation range limiting means comprises a projection which protrudes in the lateral direction of the adjustment knob, and a stopper protruding on the upper surface of the main body to contact the projection when the adjustment knob rotates to prevent further rotation of the adjustment knob Variable resistance variable variable, characterized in that. The variable resistance variable resistance of claim 2, wherein two stoppers are installed at a predetermined angle in the circumferential direction. According to claim 1, wherein the rotation range limiting means, has a projection projecting in the outward direction, and a projection member coupled to the adjustment knob, protrudingly installed on the upper surface of the main body is in contact with the projection of the projection member when rotating the adjustment knob Variable resistance variable resistance, characterized in that it consists of a stopper to prevent further rotation of the adjustment knob. The variable resistance variable resistance of claim 4, wherein two stoppers are installed at a predetermined angle in the circumferential direction. A main body, terminals connected to an external circuit, an adjustment knob for adjusting the resistance value between the terminals, and rotation suppressing means for suppressing rotation of the adjustment knob so that the adjustment knob can be rotated only when a force of a predetermined magnitude or more is applied. Variable resistance variable resistor configured. 7. The rotation control means according to claim 6, wherein the rotation suppressing means comprises a plurality of teeth provided on an outer circumference of the adjustment knob, and an elastic protrusion formed on the upper surface of the main body and fitted in the groove between the teeth so as to apply elastic resistance in the direction of rotation of the adjustment knob. Variable resistance variable variable, characterized in that. 7. The rotation suppressing means includes an elastic protrusion formed on an outer circumference of the adjustment knob, and an adjustment knob enclosing portion formed on an upper surface of the main body and surrounding the adjustment knob to have a plurality of teeth to which the elastic protrusion can be coupled. A variable resistance variable resistor, characterized in that. An optical pickup apparatus of an optical recording / reproducing apparatus, wherein the variable resistance of the variable variable of claims 1 to 8 is used.