KR200445048Y1 - Door Locking Structure using a Solenoid - Google Patents

Abstract

The present invention relates to a door locking structure using a solenoid, and more particularly, the movable iron core of the solenoid is returned by the elastic force of the stopper for fixing the door, and in particular, by coating a durable Teflon on the outer peripheral surface of the movable iron core, The present invention relates to a door locking structure capable of extending the life of a solenoid by reducing friction between the movable core and the drive winding.

The present invention for realizing this, the closing plate is mounted to the body and its lower surface; A stopper vertically protruding downward of the closing plate by receiving elastic support on the lower surface of the body; A solenoid mounted on the side of the body; Direction switching means for converting a horizontal movement of the solenoid into a vertical movement of a stopper according to the operation of the solenoid; A door opening and closing detection sensor installed at one side of the body to detect an open / closed state of the door; And a control unit for controlling / locking / unlocking the solenoid according to the signal of the door opening / closing detection sensor.

Solenoid, Teflon Coating, Movable Core, Stopper

Description

Door Locking Structure using a Solenoid}

The present invention relates to a door locking structure using a solenoid, and more particularly, the movable iron core of the solenoid is returned by the elastic force of the stopper for fixing the door, and in particular, by coating a durable Teflon on the outer peripheral surface of the movable iron core, The present invention relates to a door locking structure capable of extending the life of a solenoid by reducing friction between the movable core and the drive winding.

In general, companies or nursery schools that require security, the door is automatically locked when the door is closed to secure the security or safety.

To achieve this function, the door is provided with a door locking structure. This door locking structure uses a lot of solenoid to make the operation in a simple form.

For example, the door locking structure includes a body installed in the door frame such that the bottom surface is almost in contact with the top surface of the door, and the body is provided with a stopper installed to move up and down while being projected to the bottom surface by the support of the elastic spring. It is. In addition, the body is provided with a solenoid that operates in the vertical or horizontal direction with the stopper.

The conventional door locking structure is configured such that when the solenoid is installed vertically, the solenoid is mounted on the same line as the stopper and the stopper is closed according to the operation of the solenoid when the door is closed. In addition, when the solenoid is installed horizontally, the tapered or inclined surface is formed in each of the portion where the drive winding of the solenoid meets the stopper, so that when the door is closed, the solenoid pushes the stopper to lock the door.

Of course, the door locking structure includes a sensor for determining an open / closed state of the door in the body, and control means for controlling the operation of the solenoid by the sensor.

However, the conventional door locking structure using the solenoid has the following problems.

1) If the solenoid operates frequently due to frequent opening and closing of the door, the solenoid may malfunction due to heat generated by friction between the moving core and the drive winding.

2) In addition, the failure of the solenoid will not be able to ensure safety, and additional costs such as maintenance costs due to maintenance will be high.

3) The conventional solenoid should be constructed so that the movable core is supported at both ends of the body in order to prevent the movable core and the drive winding from contacting each other, that is, to maintain the gap (gap) therebetween. There is a problem of complexity.

The present invention for realizing this,

A closing plate mounted to the body and the bottom thereof;

A stopper vertically protruding downward of the closing plate by receiving elastic support on the lower surface of the body;

A solenoid mounted on the side of the body;

Direction switching means for converting a horizontal movement of the solenoid into a vertical movement of a stopper according to the operation of the solenoid;

A door opening and closing detection sensor installed at one side of the body to detect an open / closed state of the door; And

And a control unit for locking / unlocking the solenoid according to the signal of the door opening / closing detection sensor.

In addition, the solenoid is characterized in that the Teflon coating on the outer circumferential surface of the movable iron core is configured to prevent damage by friction and heat between the movable core and the drive winding through improved durability.

In particular, the solenoid is not provided with a separate restoring spring is characterized in that the movable core is restored by the elastic force that the stopper is restored to the opening of the door.

In addition, the solenoid is characterized in that the ball is provided between the movable iron core and the direction switching means so as to eliminate rotational interference due to the rotational movement of the direction switching means with respect to the horizontal movement of the solenoid.

In addition, the solenoid is preferably further provided with a connecting member made of a plastic material to move on the same operation line between the ball and the movable core, it is preferable to block the transmission of electric force between the movable core and the direction change means or the body. .

In addition, the direction switching means is characterized in that one end is connected to the hinge to rotate by the horizontal movement of the movable iron core to elastically press the stopper to protrude down.

In particular, the direction switching means includes an operation detection unit installed in the operating radius to detect the operation of the stopper to be sent to the control unit, it is characterized in that to operate the solenoid when the door is unlocked to lock the door do.

In addition, the control unit maintains the power supply of the solenoid as the door open / close detection sensor outputs a signal according to the open state of the door, and controls the power of the solenoid as the door open / close detection sensor outputs a signal according to the closed state of the door. It is characterized by maintaining the ON state.

The control unit may control ON / OFF of the solenoid according to whether the door is opened or closed according to a detection signal of the operation detection unit detecting whether the direction switching means is operated.

According to the present invention, the following effects are obtained.

1) Since the outer peripheral surface of the solenoid's movable iron core is coated with Teflon, it is possible to extend the life of the solenoid by reducing the friction between the movable core and the drive winding.

2) Accordingly, the maintenance cost of the door locking structure is low and can be conveniently managed.

3) Since the restoring force of the movable core is obtained by using the restoring force of the stopper, the structure of the solenoid is simplified, and in particular, the total length of the solenoid can be reduced, so that the total length of the door locking structure can be reduced.

Hereinafter, the configuration and operation of the present invention with reference to the accompanying drawings.

1 is an exploded perspective view for showing a door locking structure using a solenoid according to the present invention, Figures 2a and 2b is a cross-sectional view showing a state according to the opening and closing of the door locking structure according to the present invention.

The present invention includes a body 10 accommodated in the door frame 100 facing the upper surface of the door and a closing plate 20 integrally mounted to the body 10 and fixed to the door frame 100.

In particular, the body 10 is provided with a seating portion 11 for receiving the stopper 30 perpendicular to the lower surface, and communicates with the seating portion 11 to a predetermined depth in the longitudinal direction of the body 10. The slot 12 having is cut open.

In addition, the body 10 has a mounting hole 13 for mounting the solenoid 40 on one side thereof, and the mounting hole 13 and the slot 12 communicate with each other through the guide hole 14. It is.

In a preferred embodiment of the present invention, the slot 12, the mounting hole 13 and the guide hole 14 are formed in the body 10 so as to be in the same line with each other, the linear movement of the solenoid 40 to be described later It is preferable to configure the direction of movement by the turning means 50 can be switched.

In addition, the body 10 may further include a door opening and closing detection sensor 15 on a lower surface thereof, so that the opening state of the door may be output to the controller 60. Here, the door opening and closing detection sensor 15 may use a sensor operated by the magnetism of the door 200 using a simple magnet or the like.

The stopper 30 is mounted to the seating portion 11 thus formed. The stopper 30 is the same shape as the seating portion 11, Figure 1 shows an example produced in a cylindrical shape. In particular, the stopper 30 is preferably formed so that the inner end inserted into the seating portion 11 has a step 31 wider than the outside. The stopper 30 is fitted to the outer restoring spring 32 to the outer periphery, the end is mounted so as to protrude to the bottom of the closing plate (20).

In a preferred embodiment of the present invention, the restoring spring 32 is located between the step 31 and the closing plate 20, the stopper 30 is pressed down by the turning means 50 to be described later It is desirable to be able to have a restoring force when. In addition, the restoring spring 32 has a restoring force capable of restoring the movable core 41 sequentially connected thereto as well as restoring force for allowing the stopper 30 to be completely received into the seating portion 11. It is preferable.

In particular, when the stopper 30 is completely accommodated in the seating portion 11 by the restoring spring 32, the end portion of the stopper 30 may be flush with the bottom surface of the closing plate 20 to open and close the door 200. It is desirable to be able to avoid visual interference.

In addition, the stopper 30 is provided with a sheet 33 made of rubber, a soft synthetic resin, or the like on the step 31, so that the step 31 may be generated while hitting the inner surface of the seating part 11. It is desirable to be able to prevent the noise that is present.

In a preferred embodiment of the present invention, the step 31 is described as an example formed integrally with the stopper 30, but instead of the step 31 is composed of a rubber or soft synthetic resin step 31 instead of It is also possible to use.

The slot 12 of the body 10 is provided with a direction switching means 50 for converting the horizontal movement of the solenoid 40 in the vertical direction.

The turning means 50 shows an example formed of an "L" shape, and the upper part is hinged and fixed to the slot 12 so that the lower part is below the step 31. In particular, the direction switching means 50 is rotated by the operation of the solenoid 40, in this case the lower portion is forced to push down the stopper 30 by the interference with the step 31 (slot ( It is preferable to be configured to hinge fixed to 12).

In addition, the direction switching means 50 is preferably configured to further include an operation detecting unit 51 which is a kind of contact sensor within the operating range.

In a preferred embodiment of the present invention, the operation detecting unit 51 shows an example mounted on the lower surface of the body 10 to be located between the stopper 30 and the turning means 50, in particular the stopper 30 ) Is configured to detect a signal when protruding to the bottom of the closing plate 20 as much as possible and to send a signal to the control unit 60.

In addition, the direction switching means 50, although not shown in the accompanying drawings, as the stopper 30 is accommodated in the seating portion 11, the portion in contact with the slot 12 or the movable core of the solenoid 40 to be described later It is desirable to cover rubber or soft synthetic resin on the part which is in contact with 41 so as to prevent noise that may be generated while striking between components during operation.

The solenoid 40 is attached to the mounting hole 13 of the body 10. The solenoid 40 typically comprises a drive winding 42 in which a coil is wound and a movable iron core 41 that moves in the longitudinal direction by a magnetic field generated therein.

At this time, the solenoid 40 includes a solenoid body 43 inserted into and fixed to the mounting hole 13, and the driving winding 42 is mounted inside the solenoid body 43, and the movable core ( 41 protrudes into the body 10 directly or indirectly through the end of the solenoid body 43. This direct and indirect protrusion method will be described later.

In particular, the present invention is to use the Teflon coating on the outer peripheral surface of the movable iron core (41). Teflon is well known for its excellent durability as well as its anti-static effect such as dust and dirt. Accordingly, the movable iron core 41 is not only prevented from being caught inside the drive winding 42 by dust, but also provides flexibility of operation to obtain an effect of improving durability.

In addition, in the present invention, a separate restoring spring is not provided to provide restoring force of the movable iron core 41. That is, the movable iron core 41 is rotated horizontally and its end rotates the direction changing means 50. At this time, the direction changing means 50 operates the stopper 30, the stopper 30. It is restored by using the restoring force of the restoring spring 32 provided in the.

Here, the movable iron core 41 may be rotated by pushing the direction switching means 50 in a direct contact method, it is also possible to indirectly push the rotation means 50 to rotate.

In the direct contact method, the solenoid body 43 is manufactured in a cylindrical shape, the drive winding 42 is fixed therein, and the movable iron core 41 directly drives the direction switching means 50 through the guide hole 14. Push to rotate the stopper 30.

In the indirect contact method to rotate the stopper 30 as described above, between the movable core 41 and the turning means 50, the ball 44 or the connecting member 45, or both It inserts into the guide hole 14, and is comprised.

The indirect contact method will be described in more detail. In a preferred embodiment of the present invention, the ball 44 is inserted into the guide hole 14 of the body 10, and the connecting member 45 made of a material such as plastic is provided. It is fitted behind it. At this time, one end of the connecting member 45 is in contact with the ball 44, the other end is in contact with the movable iron core 41 through the solenoid body 43.

Accordingly, when the movable iron core 41 is operated in a horizontal direction, the connecting member 45 is pushed, and thus the ball 44 is configured to rotate by rotating the direction changing means 50.

In a preferred embodiment of the present invention, the length of the connecting member 45 is preferably determined according to the distance between the movable core 41 and the direction switching means (50).

Finally, the present invention includes a controller 60 for controlling these components. The control unit 60 receives a signal from the door opening and closing detection sensor 14 and the operation detecting unit 51 to operate the solenoid 40.

That is, the controller 60 supplies power to the solenoid 40 when the door 200 is closed by the door open / close detection sensor 14. Accordingly, the movable iron core 41 pushes the connecting member 45 and the ball 44 sequentially so that the direction switching means 50 rotates while the stopper 30 pops out while the door 200 is locked. Let's go.

At this time, the operation detection unit 51 is operated by the rotation of the direction switching means 50, the direction rotation means 50 is determined to be normal when the stopper 30 is pressed down by rotation, otherwise In this case, the control unit 60 again sends a signal to supply power to the solenoid 40 again.

On the other hand, when the door 200 is opened, the door opening and closing detection sensor 15 detects this and sends a signal to the control unit 60, the control unit 60 cuts off the power supply to the solenoid 40. Accordingly, the stopper 30 is accommodated in the seating portion 11 by the elastic force of the restoring spring 32 and rotates the turning means 50 upward. The rotation of the turning means 50 is such that the opening of the door 200 is made while the ball 44, the connecting member 45 and the movable iron core 41 retreat sequentially.

At this time, the operation detecting unit 51 determines whether the direction switching means 50 is rotated. When the turning means 50 rotates, the controller 60 does not perform any operation. If the turning means 50 does not rotate, it is determined that power is supplied to the solenoid 40. Will block. If the power supply to the solenoid 40 is cut off, if the direction switching means 50 does not continue to rotate, it is determined that the solenoid 40 is broken or the locking structure is broken.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will include such modifications and variations as fall within the spirit of the present invention.

1 is an exploded perspective view for showing a door locking structure using a solenoid according to the present invention.

Figure 2a is a cross-sectional view showing a door locking structure according to the present invention when the door is closed.

Figure 2a is a cross-sectional view showing a door locking structure according to the present invention in the open state.

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

10: body

11: seating part

12: slot

13: mounting hole

14: guide hole

15: Door opening and closing detection sensor

20: finishing plate

30: stopper

31: step

32: restoring spring

33: sheet

40: solenoid

41: movable iron core

42: drive winding

43: solenoid body

44: ball

45: connecting member

50: direction switching means

51: operation detection unit

60: control unit

100: door frame

200: door

Claims (10)

The mounting portion 11 is formed perpendicular to the lower surface, the slot 12 having a predetermined depth in the longitudinal direction and communicating with the mounting portion 11 is cut off, and a mounting hole 13 is formed at one side thereof. A body 10 communicated with each other by a guide hole 14 between the mounting hole 13 and the slot 12; A closing plate 20 mounted on the lower surface of the body; A stopper (30) having a step (31) which is elastically supported by a restoring spring (32) on a lower surface of the body (10) to protrude downwardly of the closing plate (20); A solenoid 40 having a teflon-coated movable core 41 mounted on the side mounting hole 13 of the body; At the tip of the movable iron core 41, a connection member 45 made of a plastic material and a ball 44 installed in the guide hole 14 of the body to move on the same operation line; According to the operation of the solenoid one end is hinged to convert the horizontal movement of the solenoid to the vertical movement of the stopper, installed in the hinged operating radius to detect the operation of the stopper 30 to the control unit 60 Direction switching means 50 having an operation detecting unit 51 for sending out; A door opening and closing detection sensor 15 installed at one side of the body to detect an open / closed state of the door; And And a control unit (60) for controlling / locking / unlocking the solenoid (40) according to the signal of the door opening / closing detection sensor (15). delete delete delete delete delete delete The method of claim 1, The control unit 60 is a door locking structure using a solenoid, characterized in that for maintaining the power of the solenoid 40 as the door opening and closing detection sensor 15 outputs a signal according to the open state of the door. The method according to claim 1 or 8, The control unit 60 is a door locking structure using a solenoid, characterized in that to maintain the power ON state of the solenoid 40 as the door opening and closing detection sensor 15 outputs a signal according to the closed state of the door. The method according to claim 1 or 9, The control unit 60 controls the solenoid 40 ON / OFF according to whether the door is opened or closed in accordance with a detection signal of the operation detecting unit 51 detecting whether the direction switching means 50 is operated. Door locking structure using.

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