KR910007043Y1 - Solenoid's circuit - Google Patents

Abstract

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Description

Current Drop Solenoid (SOLENOID)

Figure 1 (a) (b) is a sectional view showing the operating state of the present invention.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

2: flange 3: bobbin

4: primary coil 5: secondary coil

6: operating rod 7: core

8: Spring 9: Gage Ring

10: support member 11, 12: contact terminal

The present invention winds the 1st and 2nd coils to the solenoid, and connects the 1st and 2nd coils after the operation of the flanger after supplying power to the primary coil at the initial stage of operation of the solenoid through the contact switch. The present invention relates to a current drop solenoid that enables a significant drop in current.

In the conventional solenoid, since a strong force is required at the beginning of operation, a large amount of current must be supplied. However, when maintaining the state after operation, only the return prevention force of the flanger is necessary, so that a large amount of current supply is unnecessary, In order to satisfy the initial power, the solenoid was manufactured by determining the resistance of the coil based on the initial power.

Such conventional solenoids are used in various devices used in the industrial field by using solenoid power by means of solenoids, and in parts using long time power. In the latter case, coil burnout and fire are generated due to continuous operation of solenoids. There was a risk, and there was a big problem with power consumption due to the continuous current supplied from the solenoid.

In particular, many functions of the solenoid are required in places such as steering wheel lock devices and safety devices of automobiles, but existing solenoids cannot be used in these devices because of electrical problems in parts requiring long-term operation.

The present invention conceived from such a conventional problem is a strong flanger built up in the bobbin hollow by the primary coil only at the first operation by connecting the coil to the bobbin with a double connection of the first and second coils and the switch detached therebetween. It operates by force and shorts the contact switch by the operated flanger so that the primary coil is connected to the secondary coil, so that it supplies only a minute current that supplies only the force that keeps the flanger operating, thereby minimizing heat generation for long time operation. It is to be maintained.

Hereinafter, the structure of the present invention will be described in detail with reference to the accompanying drawings. The coil 4 and 5 are wound around the bobbin 3 in the case 1 and the flanger 2 is inserted into the center hole of the bobbin 3. In the conventional solenoid, which is pulled by the spring (8) outside the case (1) and the engaging ring (9), the insulating plate (10) on which the core (7) is fixed is in close contact with the bobbin (3) and the core (7) An actuating rod 6 of the flanger 2 protrudes through the center hole, and an elastic contact 11 is fixed with a screw 13 in front of the actuating rod 6, and a fixed contact is provided at an end side of the contact 11. The terminal 12 is provided. It is connected to the contactor 11 connected between the primary and secondary coils 4 and 5 of one of the two lead wires of the solenoid and to the fixed contactor 12 connected to the secondary coil 5 of the other lead wire. When the contactor 11 is attached to the fixed contact terminal 12, the input power is supplied to the primary coil 4, and when the contactor 11 is separated from the fixed contact terminal 12, the secondary coil 5 passes through the secondary coil 5. It is the structure which let the primary coil 4 energize.

Reference numeral 14 denotes a shock absorbing material of the flanger (2).

When the power supply is supplied to the lead wire of the solenoid as described above, the contactor 11 is attached to the fixed contact terminal 12 as shown in FIG. 2 so that the power supply is energized directly to the primary coil 4 so as to be strong. By generating a magnetic force, the flanger 2 moves in the direction in which the operating rod 6 moves while retracting the spring 8, and thus the operating rod 6 pushes the contactor 11 from the fixed contact terminal 12. Since the supply power is supplied to the secondary coil 5 through the secondary coil 5, the initial supply current is reduced to a small current value that maintains the elasticity of the spring 8, thereby reducing the consumption of electricity and Since it minimizes heat generation, there is no effect of coil burnout and fire.

Claims (1)

In the conventional solenoid which installs the flanger 2 in the center hole of the bobbin 3 in which the case 1 was wound and the coil was wound in it, the insulating plate 10 to which the core 7 was fixed was attached to the bobbin 3, The contactor 11 and the fixed contact terminal 12 are installed by closely contacting the fixed contact terminal 12 connected to the secondary coil 5 and the contactor 11 connected between the primary and secondary coils 4 and 5. ) A current drop solenoid connecting two lead wires to each other to detach the operating rod (6) of the flanger (2).