KR200203311Y1 - Solenoid having stop function of forward movement or backward movement - Google Patents

Abstract

The present invention relates to a solenoid having a forward and reverse stop function.

In the conventional solenoid, since the power must be continuously applied to maintain the forward state after the power is applied and the core has been advanced once, there is a drawback in that the power consumption is high. The key to minimizing the consumption was that the battery consumed a lot of power and had to be recharged at any time.

The present invention connects and installs separate forward and backward operation shafts made of synthetic resin injection molded parts in front of the solenoid's core, and forms slide cam grooves and linear slide grooves on the upper and middle sides of the shafts, and then slide slide locking bars are inserted between them. As the front and back operation shafts connected to the core move forward and backward, one end of the slide locking bar is inserted into the slide cam groove, and the hook jaw formed on both sides of the bottom of the cam groove is engaged at each time. Even if the supply is cut off, it is possible to maintain the forward and reverse conditions.

Description

Solenoid having a forward and backward stop function {Solenoid having stop function of forward movement or backward movement}

The present invention relates to a solenoid having a forward and reverse stop function, and in detail, changes a characteristic of a solenoid in which a core moves forward only when a power is applied, and thus moves forward and backward without continuously applying power in a forward or reverse state. It relates to a solenoid that allows to maintain a state.

As is well known, the solenoid uses the principle of electromagnet, and is composed of a coil bobbin and a core reciprocating inside. A bracket is fastened to the outer end of the core to connect with related parts in various electric, electronic and mechanical parts. The core is elastically supported by the compression coil spring so that when the power is applied, the core is moved forward, and when the power is cut off, the core is moved backward by the spring force of the spring.

In the conventional solenoid, since power is applied and the core is moved forward, the power must be continuously applied to maintain the forward state. Therefore, there is a drawback in that the power consumption is high. The key to minimizing the power consumption is that the battery consumes a lot of power and has to be recharged at any time.

The present invention has been devised to solve the above-mentioned drawbacks, and is provided by connecting the separate forward and backward operation shafts made of synthetic resin injection molded parts in front of the core of the solenoid, and the slide cam groove and the linear slide at the center and one side of the upper surface of the shaft After the groove is formed, the slide locking bar is inserted between them, so that the forward and backward moving shafts connected to the core move forward and backward, so that one end of the slide locking bar is fitted into the arrowhead type slide cam groove. Even if the power supply is cut off at each time of the forward and backward stops on the jamming jaws formed on both sides, the power consumption can be minimized by maintaining the forward and backward states until the power is supplied and operated again. .

1 is a perspective view of the subject innovation of the subject innovation

2 is a plan view of the present invention

3 is a side view of the present invention

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

1-solenoid 2-housing

3-coil bobbin 4-core

5-forward and reverse working shaft 6-housing cover

10-Slide Cam Groove 11-Straight Slide Groove

12-slide locking bar 13a, 13b-front and rear locking jaws

Hereinafter, the present invention according to the accompanying drawings and preferred embodiments in detail as follows.

The solenoid 1 of the present invention has a coil bobbin 3 in which a coil is wound inside the housing 2 as usual, and the core 4 is inserted horizontally in the inner center thereof so that the horizontal forward and backward operations are performed. In the front end of the core (4) is connected to the injection molding product forward, backward operation shaft (5) is installed by screwing, the previous, reverse operation shaft (5) is connected by the housing cover (6) One side is located inside the cover and the other side is installed to protrude to the outside in the state receiving the elastic force by the compression coil spring (8) inserted between the spring support flange (7) formed to be located inside the housing cover (6) A pair of flanges 9a and 9b are formed at the outer end and connected to other parts at intervals, and the upper side has a slide cam groove 10 on the outside with respect to the housing cover 6. ) Is formed, and inside the straight slab Id groove 11 is formed.

In the housing cover 6, the linear slide groove 11 formed on the outside and the slide cam groove 10 of the arrowhead type are in a state in which the 'c' shaped slide locking bar 12 is fitted with both ends fitted in each groove. It is installed to move along each groove according to the forward and backward movements of the core 4 and the forward and backward operating shafts 5, where the inner end is intact and the outer end is the arrowhead type slide cam groove 10. Along the plane will move left and right.

At this time, the bottom surface of the slide cam groove 10 has a front locking jaw 13a is formed on the right side of the front end, and a rear locking jaw 13b is formed on the left side of the slide cam groove 10 on the right side. One side is high between these locking jaws and downward slope toward the opposite locking jaw so that the lower end of the tip of the slide locking bar 12 once slides smoothly and slides down to the opposite locking jaw to stop. It is configured to maintain.

The present invention configured as described above maintains the forward and reversed operation state by the momentary power supply at a time, and once the power is applied, the core 4 is caused by the magnetic field generated by the coil bobbin 3. Forward and reverse working shafts 5 are advanced.

At this time, the 'c'-shaped slide locking bar 12 is in a state of being in place, but in the upper and outer housing cover (6) of the forward and backward operating shaft (5) of the linear slide groove 11 and the arrowhead type Since the slide cam groove 10 is inserted in an inclined state, the inner side of the slide slide groove 11 is moved as it is without jamming, but in the case of the outer arrowhead type slide cam groove 10, the slide locking bar is located along the ellipse. The front end of the 12 moves left and right, but the front and rear catching jaws 13a are disposed above and below the bottom surface of the slide cam groove 10.

13b is formed, and since it is mutually inclined surfaces, once the power is applied and the core 4 and the forward and backward working shafts 5 are moved forward by momentary pulling forward, the backward locking step 13b The tip of the slide locking bar 12, which has been caught on, rises over the catching jaw, and then slides with the repulsive force of the compression coil spring 8 along the downward inclined surface, and then hangs on the wall of the forward catching jaw 13a. It will maintain the advanced state even if the power is cut off.

On the contrary, when the momentary power is applied during the reverse operation, the tip of the slide locking bar 12, which is caught on the forward locking step 13a, rises over the forward locking step 13a. The slide is held by the backward latching jaw 13b on the rear side to maintain the reversed state, thereby maintaining the original and reverse stop state.

The present invention as described above can prevent the power consumption because the solenoid can maintain the stop state after the forward and reverse operation only by the instantaneous power during the forward and reverse operation, it can be very large and small solenoids applied to countless industries Not only can it be dramatically improved, but in particular, it is possible to have various improvement effects across various industries, such as minimizing the consumption of power in the various devices used for charging by batteries, thereby greatly extending the charging time. It is expected to be.

Claims (1)

In the coil bobbin (3) in which the coil is wound inside the housing (2), and in the inner center thereof, the core (4) is inserted laterally so that the horizontal solenoid operation is performed in accordance with the application of power. The front and back operation shafts 5 are connected to the front end of the head 4, and the upper surface is formed with a linear slide groove 11 and a slide cam groove 10 on the inner side and the outer side with respect to the housing cover 6. 'C' shaped slide locking bar (12) is installed in a state in which both ends are fitted into each groove, the bottom surface of the slide cam groove 10, the front end in the plane on the right side relative to the center of the forward and backward direction, the forward engaging jaw (13a) on the right side, The rear locking jaw 13b is formed on the left side, and one side is formed as a downwardly inclined surface facing toward the opposite locking jaw, and the slide locking bar 12 moves forward and backward of the forward and backward operating shafts 5 according to the instantaneous power supply. The solenoid having the forward and reverse stop function, characterized in that the lower end of the front end portion once exceeds the locking step, the slide gently slides down and is caught on the opposite locking step to maintain the stop state.