KR102146409B1 - Electromagnet door lock - Google Patents

Abstract

A present invention relates to an electromagnet door lock. The electromagnet door lock includes: an armature module (10) installed on one side of a door and including a permanent magnet (101) having a single polarity in one direction; and an electromagnet module (20) installed on one side of a door frame where the door is installed or a wall, and allows the permanent magnet (101) and attractive force or repulsive force to selectively act through a magnetic force and polarity control generated according to an electrical signal to open and close the door. According to the present invention, by providing a multi-pole electromagnet core capable of controlling the magnetic force and polarity by controlling the electrical signal, not only can the door perform lock control quickly and easily but also the door can be automatically opened without a mechanical operation by a driving means or the like. Convenience according to door opening and closing and user entry and exit is greatly improved.

Description

Electromagnet door lock

The present invention relates to an electromagnet door lock, and more particularly, the door is controlled to lock through magnetic force control of a multi-pole electromagnet core generated by an electrical signal, and the door is automatically opened through polarity control of the multi-pole electromagnet core. By doing so, it relates to an electromagnet door lock that facilitates opening and closing of a door and entry and exit of a user.

In general, door locks are installed on entrance doors (hereinafter referred to as “doors”) of places such as houses, apartments, or offices to prevent unauthorized entry and intrusion of outsiders.

In the conventional door lock, a mechanical door lock operated by manual operation by an administrator was mainly used, but in recent years, a digital (electronic) door lock is used in which the door lock is automatically controlled by checking the person through password, card input, fingerprint input, etc. This is a generalized situation.

However, the conventional digital door lock has a disadvantage in that a malfunction of the door lock occurs due to a malfunction of the solenoid by using a solenoid as a driving means of the lock, and there is a disadvantage of low productivity due to a complicated structure and high manufacturing cost.

Thus, in recent years, an electromagnet door lock that prevents malfunction by using an electromagnet that generates a magnetic field by a power source as a driving means of a locker, and simplifies the structure to greatly lower the manufacturing cost, has been developed, and its use is gradually increasing.

The conventional electromagnet door lock is composed of an electromagnet module having an electromagnet core and fixedly installed on the door frame or wall, and an armature module installed on the door and attached to the electromagnet core by magnetic force.

Thus, when a current is applied to the electromagnet core while the door is closed, a strong magnetic force is generated in the electromagnet core, and the armature module installed in the door is attached to the electromagnet core to lock the door. When the current supplied to the electromagnet core is cut off , As the magnetic force generated in the electromagnet core is dissipated, the armature module installed in the door becomes detachable from the electromagnet core, and the door is unlocked, thereby enabling the door to be opened.

However, in the conventional electromagnet door lock, a strong magnetic force is generated in the electromagnet core by the current applied to the electromagnet core, and the armature module installed in the door is attached to the electromagnet core by magnetic force. Even if the current applied to the core is blocked, residual magnetism remains in the electromagnet core, and the armature module does not easily fall off the electromagnet core, and the door is delayed, causing inconvenience in opening and closing the door and for the user to enter.

Registered Patent Publication No. 10-1549370

In order to solve the conventional disadvantages as described above, an object of the present invention is to provide an electromagnet door lock capable of controlling the lock of the door by having a multi-pole electromagnet core capable of controlling magnetic force and polarity by controlling an electrical signal.

Another object of the present invention is to provide an electromagnet door lock capable of automatically opening a door through polarity control of a multipole electromagnet core without mechanical operation by a driving means or the like.

The electromagnet door lock of the present invention in order to achieve the above-described object includes an armature module 10 provided on one side of the door and having a permanent magnet 101 having a single polarity in one direction;

An electromagnet module 20 that is installed on one side of the door frame or wall where the door is installed and controls the opening and closing of the door by allowing the permanent magnet 101 and the attractive force or repulsive force to selectively act through magnetic force and polarity control generated according to an electrical signal. ); Includes.

The armature module 10,

A first long hole 102c is formed on one side, and a first bracket 102 on which a permanent magnet 101 is installed on the other side;

On one side, a second long hole 103c is formed to be fastened to the first long hole 102c by a fastening means, and a second coupling hole 103d is formed on the other side so that it can be fixed to one side of the door, so that the first bracket 102 A second bracket 103 to enable the horizontal and vertical position adjustment of the; It characterized in that it further comprises.

The electromagnet module 20,

A housing 201 fixedly installed on a door frame or wall by having an opening 201a on one side thereof;

A multi-pole electromagnet core 202 installed inside the housing 201 and having a plurality of magnetic surfaces 202a and 202b exposed through the opening 201a and capable of selectively controlling polarity through current supply control;

A magnetic sensor 203 installed inside the multi-pole electromagnet core 202 to sense a magnetization state and a change in polarity and provide it to the control unit 205;

A door opening/closing sensor 204 installed on one side of the housing 201 to detect whether the door is opened or closed and provide it to the control unit 205;

A control unit 205 for selectively controlling magnetization and polarity by supplying current to the multipole electromagnet core 202; It characterized in that it comprises a.

The multi-pole electromagnet core 202 is characterized in that magnetic force surfaces 202a and 202b having different polarities are alternately formed at predetermined intervals on one surface.

The electromagnet module 20,

A third coupling hole (206a) formed on one side so that the housing 201 is coupled;

A third long hole (206b) into which the fastening means is inserted so as to be fixedly installed on the door frame or wall; It characterized in that it is further provided with an installation member 206 comprising a.

According to the present invention, by providing a multi-pole electromagnet core capable of controlling magnetic force and polarity by controlling an electrical signal, not only is the door locking control fast and simple, but also the door can be automatically opened without mechanical operation by a driving means, etc. There is an effect of greatly improving the convenience according to the opening and closing of the door and the user's access.

In addition, the structure is simple, so that manufacturing cost can be reduced, and installation work can be performed quickly and easily.

1 is a perspective view according to an embodiment of the electromagnet door lock of the present invention.
Figure 2 is an exploded perspective view according to an embodiment of the electromagnet door lock of the present invention.
Figure 3 is a side cross-sectional view of the installation state according to an embodiment of the electromagnet door lock of the present invention.
Figure 4 is an exploded perspective view according to another embodiment of the electromagnet door lock of the present invention.
Figure 5 is a side cross-sectional view of the installation state according to another embodiment of the electromagnet door lock of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiments can be modified in various ways and have various forms, the scope of the present invention should be understood to include equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only those effects, the scope of the present invention should not be understood as being limited thereto.

The meaning of the terms described in the present invention should be understood as follows.

Terms such as "first" and "second" are used to distinguish one component from other components, and the scope of rights is not limited by these terms. For example, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component. When a component is referred to as being "connected" to another component, it should be understood that although it may be directly connected to the other component, another component may exist in the middle. On the other hand, when it is mentioned that a component is "directly connected" to another component, it should be understood that there is no other component in the middle. On the other hand, other expressions describing the relationship between components, that is, "between" and "directly between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

Singular expressions are to be understood as including plural expressions unless the context clearly indicates otherwise, and terms such as "comprises" or "have" refer to specified features, numbers, steps, actions, components, parts, or It is to be understood that it is intended to designate that a combination exists and does not preclude the presence or addition of one or more other features or numbers, steps, actions, components, parts, or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the field to which the present invention belongs, unless otherwise defined. Terms defined in a commonly used dictionary should be construed as having the meanings of the related technology, and cannot be construed as having an ideal or excessively formal meaning unless explicitly defined in the present invention.

1 is a perspective view according to an embodiment of the electromagnet door lock of the present invention, Figure 2 is an exploded perspective view according to an embodiment of the electromagnet door lock of the present invention, Figure 3 is a combination according to an embodiment of the electromagnet door lock of the present invention A side cross-sectional view of a state, and FIG. 4 is a side cross-sectional view of an electromagnet door lock according to another embodiment of the present invention.

This will be described with reference to FIGS. 1 to 4.

The electromagnet door lock of the present invention is installed on one side of the door, and is installed on one side of the door frame or wall where the door is installed and the armature module 10 having a permanent magnet 101 having a single polarity in one direction and generated according to an electrical signal It includes an electromagnet module 20 for controlling the opening and closing of the door by selectively acting on the permanent magnet 101 and the attractive force or repulsive force through magnetic force and polarity control.

The armature module 10 may further include a first bracket 102 and a second bracket 103.

The first bracket 102 is formed of a first horizontal plate 102a and a first vertical plate 102b connected to each other so as to have a vertical cross-sectional shape of a right angle, and a first bracket is provided on both sides of the first horizontal plate 102a. A first long hole 102c is formed in the length direction of 102, and a permanent magnet 101 is installed on the inner surface of the first vertical plate 102b.

In this case, the permanent magnet 101 is preferably such that the surface facing the electromagnet module 20 has a single polarity.

The second bracket 103 is formed to have a vertical cross-sectional shape of a right angle like the first bracket 102, and a plurality of second coupling holes 103d are formed in the second vertical plate 103a to form a second coupling hole ( The second vertical plate 103a is fixedly installed on one surface of the door by means of a direct screw or the like inserted into 103d).

In addition, on both sides of the second horizontal plate 103b, second long holes 103c are formed in the width direction (orthogonal direction in the length direction) of the second bracket 103, so that the first long holes 102c of the first bracket 102 ) And the second long hole 103c of the second bracket 103 with fastening bolts so that the position of the permanent magnet 101 installed in the first bracket 102 can be adjusted in the horizontal and vertical directions.

Therefore, it is possible to improve the accuracy and reliability of the door opening and closing through the precise position control of the permanent magnet 101 that allows the door to open and close by the action of the electromagnet module 20 and the manpower or repulsive force.

In particular, even if the wall on which the electromagnet module 20 is installed is not flat or bent so that the electromagnet module 20 is installed inclined to one side, the position of the permanent magnet 101 corresponding to the electromagnet module 20 can be accurately adjusted. .

The electromagnet module 20 includes a housing 201, a multi-pole electromagnet core 202, a magnetic sensor 203, a door opening and closing sensor 204, and a control unit 205.

The housing 201 has an opening 201a formed on one side thereof and a plurality of installation holes formed on the other side of the housing 201 and is fixedly installed to the door frame or wall using fastening screws.

The multi-pole electromagnet core 202 is installed inside the housing 201, and has a plurality of magnetic surfaces 202a and 202b exposed through the opening 201a of the housing 201 to control the supply of electric current. Selection control becomes possible.

That is, in the multi-pole electromagnet core 202, a bobbin having a coil wound therein is inserted into a plurality of core portions in which accommodating grooves are formed, and magnetic surfaces 202a and 202b formed in each core portion are the openings 201a of the housing 201. It is installed to be exposed through.

At this time, the magnetic surfaces 202a and 202b of each core portion are provided to have different polarities, so that magnetic surfaces 202a and 202b having different polarities are alternately formed on one surface of the multipole electromagnet 202 at predetermined intervals.

Therefore, the attractive force or repulsive force selectively acts between the multi-pole electromagnet core 202 and the permanent magnet 101 of the armature module 10 according to the magnetization state of the polarity of the magnetic force surfaces 202a and 202b of the multipole electromagnet core 202. do.

The magnetic sensor 203 is installed inside the multi-pole electromagnet core 202 to detect a magnetization state and a change in polarity and provide it to the control unit 205.

That is, the magnetic sensor 203 detects a core portion that has become magnetized among a plurality of core portions installed in the multipole electromagnet core 202 and a change in the polarity of the core portion and provides it to the controller 205.

The door opening/closing sensor 204 is installed on one side of the housing 201 to detect whether the door is opened or closed, and provide it to the control unit 205.

In one embodiment, the door opening/closing sensor 204 detects whether or not the door is opened or closed through a time when measurement light output from the light emitting unit is reflected by the door and sensed by the light receiving unit by using an optical sensor.

In another embodiment, the door opening/closing sensor 204 detects whether a door is opened or closed through a change in illuminance detected by the illuminance sensor when the door is opened or closed by using an illuminance sensor.

In another embodiment, the door opening/closing sensor 204 detects whether the door is opened or closed through contact with the door detected by the contact sensor when the door is opened or closed by using a contact sensor.

The control unit 205 is installed inside the housing 201 and selectively controls the magnetization and polarity of the multipole electromagnet core 202 by controlling the supply of current to the multipole electromagnet core 202.

That is, only the N-pole magnetic surface 202a is magnetized by selectively supplying current to only a specific core part among a plurality of core parts provided in the multi-pole electromagnet core 202 by the current supply control of the controller 205, Only the S-pole magnetic surface 202b can be magnetized.

Therefore, in the case where the permanent magnet 101 is installed so that the polarity of the surface facing the multi-pole electromagnet core 202 in the permanent magnet 101 provided in the armature module 10 installed on the door has an S-pole, the control unit 205 If only the N-pole magnetic surface 202a is magnetized among the magnetic surfaces 202a and 202b of the multi-pole electromagnet core 202 under the control of the armature module 10 installed on the door, the electromagnet installed on one side of the door frame or wall where the door is installed The door is maintained in a closed state as an attraction force that pulls each other acts between the modules 20.

On the other hand, in the case where the permanent magnet 101 is installed so that the polarity of the surface facing the multi-pole electromagnet core 202 in the permanent magnet 101 provided in the armature module 10 installed on the door has an S pole, the control unit 205 ), if only the S-pole magnetic surface 202b is magnetized among the magnetic surfaces 202a, 202b of the multi-pole electromagnet core 202, the armature module 10 installed on the door and the door frame or wall installed on one side of the door As the repulsive force pushing each other between the electromagnet modules 20 acts, the door in the closed state is automatically opened when a separate door latch is not installed.

On the other hand, when the open state of the door is detected according to the detection value provided by the door open/close sensor 204, the control unit 205 controls the current supplied to the multipole electromagnet core 202 to be cut off, thereby closing the door in the open state again. At this time, the permanent magnet 101 installed in the armature module 10 of the door is magnetically attached to the multi-pole electromagnet core 202 so that the closed state of the door can be maintained.

At this time, when the door opening/closing sensor 204 detects the closing of the door and the detection value is provided to the control unit 205, the control unit 205 resumes supplying current to the multipole electromagnet core 202 to restart the armature module ( 10) The closed state of the door is maintained by the strong magnetic force of the electromagnet module 20 by allowing an attractive force to act between the electromagnet module 20 and the electromagnet module 20.

In addition, in order to maintain the door in a closed state, a multi-pole for automatic opening of the door in a state in which current is supplied by the control unit 205 so that a magnetic force with polarity control is generated in the multi-pole electromagnet core 202 of the electromagnet module 20. When the supply of current is controlled so that a magnetic force of a polarity different from the existing polarity is generated in the electromagnet core 202, the phenomenon of temporarily closing the door due to the residual magnetic force is eliminated, so that the door opening and closing and the user's access accordingly are easier. Is done.

On the other hand, the inside of the housing 201 of the electromagnet module 20 and the connection part to which the various sensors and the control unit 205 are electrically connected, and the control unit 205 are coated with a resin such as epoxy to prevent rainwater or various foreign substances from entering and It is desirable to prevent damage or malfunction due to external impact.

4 is an exploded perspective view of the electromagnet door lock according to another embodiment of the present invention, and FIG. 5 is a side cross-sectional view of the electromagnet door lock according to another embodiment of the present invention.

This will be described with reference to FIGS. 4 to 5.

The electromagnet module 20 may further include an installation member 206.

The installation member 206 has a third coupling hole 206a formed on one side of the housing 201 so that the housing 201 can be coupled, and a third long hole 206b into which a fastening means is inserted so as to be fixedly installed on the door frame or wall is the other side. By being formed in the mounting member 206, it is possible to stably install the electronic module even on a wall surface that is not flat and has severe curves.

As described above, embodiments of the present invention are not implemented only through the above-described apparatus and/or operation method, but through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded, etc. It may be implemented, and such implementation can be easily implemented by an expert in the technical field to which the present invention belongs from the description of the above-described embodiment.

In addition, although the embodiments of the present invention have been described in detail, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

10: amateur module
101: permanent magnet
102: first bracket
102a: first horizontal plate
102b: first vertical plate
102c: the first long ball
103: second bracket
103a: second vertical plate
103b: second horizontal plate
103c: Chapter 2
103d: second coupling hole
20: electromagnet module
201: housing
201a: opening
202: multi-pole electromagnet core
202a, 202b: magnetic surface
203: magnetic sensor
204: door open/close sensor
205: control unit
206: mounting member
206a: third coupling hole
206b: Chapter 3

Claims (5)

Doedoe installed on one side of the door, the armature module 10 having a permanent magnet 101 having a single polarity in one direction;
An electromagnet module 20 that is installed on one side of the door frame or wall where the door is installed and controls the opening and closing of the door by allowing the permanent magnet 101 and the attractive force or repulsive force to selectively act through magnetic force and polarity control generated according to an electrical signal. ); Including,
The armature module 10,
A first long hole 102c is formed on one side, and a first bracket 102 on which a permanent magnet 101 is installed on the other side;
On one side, a second long hole 103c is formed to be fastened to the first long hole 102c by a fastening means, and a second coupling hole 103d is formed on the other side to be fixed to one side of the door, so that the first bracket 102 A second bracket 103 to enable the horizontal and vertical position adjustment of the; It further includes,
The electromagnet module 20,
A housing 201 fixedly installed on a door frame or wall by having an opening 201a on one side thereof;
A multi-pole electromagnet core 202 installed inside the housing 201 and having a plurality of magnetic surfaces 202a and 202b exposed through the openings 201a and capable of selectively controlling polarity through current supply control;
A magnetic sensor 203 installed inside the multi-pole electromagnet core 202 to sense a magnetization state and a change in polarity and provide it to the control unit 205;
A door opening/closing sensor 204 installed on one side of the housing 201 to detect whether the door is opened or closed and provide it to the control unit 205;
A control unit 205 for selectively controlling magnetization and polarity by supplying current to the multipole electromagnet core 202;
A third coupling hole (206a) formed on one side so that the housing 201 is coupled;
A third long hole (206b) into which the fastening means is inserted so as to be fixedly installed on the door frame or wall; Installation member 206 comprising a; Including,
The multi-pole electromagnet core 202 has magnetic force surfaces 202a, 202b having different polarities on one surface thereof, alternately formed at predetermined intervals, and provided in the multi-pole electromagnet core 202 by the current supply control of the controller 205. An electromagnet door lock, characterized in that the current is selectively supplied to only a specific core part among the plurality of core parts so that only the N-pole magnetic surface 202a is magnetized or only the S-pole magnetic surface 202b is magnetized. delete delete delete delete

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