KR101616430B1 - Safety door lock - Google Patents

Abstract

An embodiment of the present invention provides a safety door lock. According to an embodiment of the present invention, the safety door lock of the present invention comprises: an opening and closing member to open and close the door, whose part is made of an electric conductor; a power supply unit electrically connected to the opening and closing member; a detecting unit to measure a current flowing in between the opening and closing member and a power supply unit; a locking member to limit the opening of the door; and a control unit to limit the opening of the door by operating the locking member when the measured value of the detecting unit is a standard value or greater.

Description

[0001] Safety door lock [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety door locking device, and more particularly, to a safety door locking device that prevents a user who does not have a safety device from opening.

A cabinet with electrical equipment is used to protect various types of electrical equipment and devices that use high voltage.

However, since the electric equipment and devices require periodic maintenance such as the electric operation state and the aging state of the equipment, the manager can not but open the door provided in the cabinet to check the electric equipment and the like.

Therefore, the cabinet door is combined with a mechanical locking device such as a key to manage the cabinet, and the door handle is made of a plastic material so as not to allow electricity to pass through. In addition, the cabinet is in contact with the ground, so that an electric shock accident can be prevented.

However, since the operation state of the electric equipment provided in the cabinet can not be visually confirmed, when the electric equipment is operated and the inside of the cabinet is opened and the electric equipment is touched with the bare hands, a safety accident such as an electric shock accident may occur have.

Conventionally, when the electrical equipment in the cabinet is operating, the cabinet door is not opened, or the power supplied to the electrical equipment is cut off to prevent a safety accident such as an electric shock accident.

However, in general, the electrical equipments and equipments provided in the cabinet generally operate continuously for a long period of time, so it is practically impossible to stop the operation or cut off the power supply.

Therefore, the door of the cabinet is opened by inserting safety gear such as insulated gloves through the training of the manager. However, it is necessary to take measures to prevent the door from being opened because the manager can not open the door due to the mistake of the manager.

Japanese Patent Application Laid-Open No. 1999-210299 (August 03, 1999) Korean Patent Publication No. 10-2011-00138560 (December 28, 2011)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a safety door locking device for preventing a safety accident such as an electric shock accident.

The technical problem of the present invention is not limited to the above-mentioned problems, and another technical problem which is not mentioned can be clearly understood by those skilled in the art from the following description.

The safety door locking device according to the present invention is characterized in that it comprises a door opening / closing member that partially opens and closes a door, a power source unit electrically connected to the opening / closing member, a detecting unit that measures a current flowing between the opening / closing member and the power source unit, And a control unit for limiting the opening of the door by operating the locking member when the measured value of the detecting unit is not less than the reference value.

And a current control unit for controlling an amount of current applied from the power supply unit to the opening and closing member.

The current control unit may include a capacitor connected in parallel to the power supply unit.

The current control unit may further include a charge amount measuring unit for measuring a charge amount of the capacitor and a charge switch for connecting or disconnecting the power source unit and the capacitor according to a charged amount of the capacitor.

The current amount control unit may apply a high voltage and a low current to the opening and closing member.

The power supply unit may have one pole grounded and the other pole electrically connected to the opening and closing member.

The control unit may determine whether the lock member is operated by receiving the measured value of the detection unit when the opening and closing member operates.

The safety door locking device according to the present invention can prevent a safety accident such as an electric shock accident when a manager opens the door irrespective of whether the electric equipment provided inside the cabinet is operated or not.

Particularly, it is possible to effectively prevent a safety accident that may occur when the door is opened by using an opening and closing member such as a handle of the door with a bare hand which has good electricity.

1 is a view illustrating a cabinet including a schematic circuit diagram of a safety door lock apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic view of the safety door lock device of FIG. 1. FIG.
3 is a schematic view of a circuit diagram of a safety door lock apparatus according to an embodiment of the present invention.
FIG. 4 is a schematic view of the safety door locking device of FIG. 3. FIG.
5 is a flowchart showing the operation method of FIG.
FIG. 6 is a flowchart showing an operation method of FIG. 3. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and methods for achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is only defined by the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, a safety door locking device according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 6. FIG.

FIG. 1 is a view showing a cabinet including a schematic circuit diagram of a safety door lock apparatus according to an embodiment of the present invention, and FIG. 2 is a schematic view of the safety door lock apparatus of FIG. 3 is a schematic view of a circuit diagram of a safety door lock apparatus according to an embodiment of the present invention. FIG. 4 is a schematic view of the safety door locking device of FIG. 3. FIG.

1 to 4, a safety door locking device 100 or 200 according to an embodiment of the present invention applies a voltage to an opening and closing member 110 of a door 2, and a conductive object, such as a manager's hand, So that the locking member 140 is operated. That is, when the manager touches the opening and closing member 110 such as a handle with his or her bare hand, if the flow of current through the opening and closing member 110 is confirmed using the detecting unit 130, The door 2 is closed.

1 and 2, the safety door locking device 100 includes an opening and closing member 110, a power source 120, a detecting unit 130, a locking member 140, and a control unit 150.

The opening and closing member 110 is a means used for opening and closing the door 2 of the cabinet 1 according to a user's operation and generally refers to a handle. This includes, but is not limited to, means necessary to open and close the door 2. The opening and closing member 110 is made of a conductor through which at least a part of current can flow. For example, a part of the opening and closing member 110 may be made of a conductor such as a metal, or a structure in which a conductive material is included together with an insulating material. However, the opening and closing member 110 may be installed to be electrically isolated from other components of the cabinet 1 so that the current applied through the power supply unit 120 is not leaked.

The power supply unit 120 supplies power to the opening and closing member 110 so that current can flow. The power source unit 120 may use a power source branched from a power source for operating electrical equipment and equipment of the cabinet 1 and may be used as a separate power source for operating the safety door lock apparatus 100. The power source unit 120 has one pole grounded and the other pole electrically connected to the opening and closing member 110.

The detecting unit 130 is connected to the opening and closing member 110 to measure whether or not a current flows through the opening and closing member 110. For example, when a conductive object such as a human bare hand touches the opening and closing member 110, a current supplied from the power source unit 120 flows to the person through the opening and closing member 110. At this time, a change occurs in the current flow in the detection unit 130. [ For example, a galvanometer can be used as the detecting unit 130. [ A variety of devices capable of measuring changes in current flow can be used, including but not limited to.

The locking member 140 is coupled to the door 2 of the cabinet 1 and receives a signal from the control unit 150 to limit the opening of the door 2. [ The locking member 140 may be integrally formed with the opening and closing member 110 to limit the operation of the opening and closing member 110 and may operate separately from the opening and closing member 140 to restrict the operation of the door 1 itself .

The control unit 150 monitors the flow of the current shown in the detection unit 130 and operates the lock member 140 according to a signal corresponding to the change in the current flow. For example, when the current detection is detected in the detection unit 130 or if the measured current value exceeds the reference value, the lock member 140 is operated to limit the opening of the door 2. [ If the current detection is not detected in the detection unit 130 or if the measured current value does not exceed the reference value, the lock member 140 is operated to release the locked state of the door 2. [ Here, releasing the locking state of the door 2 includes not only that the locking state of the door 2 is automatically released, but also the possibility that the locking state of the door 2 is released manually. At this time, a current flows from the power supply unit 120 to the opening and closing member 110.

3 and 4, the safety door locking device 200 according to another embodiment of the present invention includes an opening / closing member 210, a power source 220, a sensing unit 230, a locking member 240, (250) and a current amount control unit (260).

The opening / closing member 210, the power source unit 220, the sensing unit 230, the locking member 240, and the control unit 250 may include the opening and closing member 110, the power source unit 120, the sensing unit 130, 140, and the control unit 150 are the same or similar to those of the control unit 150, the description thereof will be replaced or simplified.

The current amount control unit 260 controls the amount of current flowing through the opening and closing member 210 so that the current flows to the opening and closing member 210 more safely. For example, when the power source applied to the opening and closing member 210 is directly supplied from an electric facility, the amount of current that can cause an electric shock accident is controlled by a high-voltage high current to prevent this.

The current control unit 260 may use various methods for controlling the amount of current. For example, a method of adjusting the resistance value or cutting off a part of the current applied to the opening and closing member 210 may be used. However, the safety door locking device 200 according to the embodiment of the present invention uses the capacitor 262 to control the amount of current. The capacitance of the capacitor 262 is adjusted to adjust the amount of current flowing through the opening and closing member 210. As shown in Fig. 3, the capacitor 262 is connected in parallel with the power supply unit 220. Fig.

The amount of current control unit 260 controls the amount of charge of the capacitor 262 and the amount of charge of the capacitor 262 in accordance with the amount of charge of the capacitor 262. In the case of controlling the amount of current using the capacitor 262, 262) connected to each other.

The control unit 250 monitors the charge amount measured by the charge amount measuring unit 264 to determine whether the capacitor 262 is charged. The control unit 250 changes the charging switch 266 to the ON state and charges the capacitor 262 when the charging amount of the capacitor 262 does not reach an appropriate value.

As shown in FIG. 3, the current switch 215 may further include a current switch 215 for connecting or disconnecting a current flowing from the power supply unit 220 to the opening and closing member 210.

The control unit 250 turns on the current switch 215 when the current is to be applied to the opening and closing member 210.

 For example, when the current is to be continuously applied to the opening and closing member 210 even when normal, the current switch 215 is kept in the ON state. When the current is detected in the detecting unit 230 or the measured current value If the reference value is exceeded, the lock member 240 is operated.

Alternatively, the current switch 215 may be maintained in the OFF state at normal times, and the current switch 215 may be turned ON when the user actuates the opening and closing member 210, To be detected. At this time, if current flow is detected in the detection unit 230 or if the measured current value exceeds the reference value, the lock member 240 is operated.

When the capacitor 262 is to be charged, the current switch 215 is turned off to cut off the current flowing to the opening / closing member 210 during charging.

That is, the control unit 250 prevents the current switch 215 and the charging switch 266 from being closed at the same time.

Therefore, when the capacitor 262 is to be charged, the charge switch 266 is turned on and the current switch 215 is turned off. Therefore, when the current switch 215 is in the OFF state, current does not flow through the opening and closing member 210, and the opening of the door 2 is restricted by operating the lock member 240. [

When the charging of the capacitor 262 is completed, the charge switch 266 is turned off and the current switch 215 is turned on.

With this operation, the controller 250 determines whether the lock member 240 is operated according to whether the capacitor 262 is charged or not. For example, when the capacitor 212 is charged, the control unit 250 actuates the lock member 240 to lock the door 2. On the other hand, when the charging of the capacitor 212 is finished, the controller 250 operates the lock member 240 to release the lock state of the door 2. [ Here, releasing the locked state of the door 2 includes not only the automatic locking of the door 2, but also the possibility of releasing the locked state of the door 2 manually.

In addition, when the current switch 215 is off, the control unit 250 may switch the charging switch to the ON state to enable charging. For example, when the opening / closing member 210 is not operated, the current switch 215 is kept in an OFF state. When the opening / closing member 210 is operated, when the current switch 215 is turned ON, When the opening and closing member 210 is not operated, the capacitor 262 can be charged. For example, when the lock member 240 is operated by sensing the current flow in the detection unit 230 in a state where the current switch 215 is normally turned on, the current switch 215 is turned off And the charging switch 266 is turned on so that the capacitor 262 is charged.

The safety door lock devices 100 and 200 may further include a DC converter (not shown). The DC converter (not shown) converts the current flowing from the power supply units 120 and 220 to the opening and closing members 110 and 210 into a direct current and supplies the DC current to the opening and closing members 110 and 210.

5 and 6 are flowcharts illustrating an operation method according to an embodiment of the present invention.

Referring to FIG. 5, the safety door lock device 100 applies power to the opening and closing member 110 to allow current to flow from the power source unit 120 to the opening and closing member 110 (S100). If a current flow is detected in the detecting unit 130 or a current flow exceeding a threshold value is sensed, the controller 150 activates the locking member 140 and locks the door 2 (S110, S120, S130). At this time, the control unit 150 may cut off the flow of the current flowing from the power supply unit 120 to the opening and closing member 110. Thereafter, when no current flow or current flow exceeding the threshold value is sensed in the detecting unit 130, the controller 150 operates the locking member 140 to release the locking state of the door 2 (S110, S120, S140). Alternatively, when the door 2 is locked, the control unit 150 determines whether the locking member 140 is operated according to the measured value of the detection unit 130 when the opening and closing member 110 operates do. Alternatively, when the door 2 is changed to the locked state and a predetermined time has passed, the control unit 150 can release the locked state of the door 2 by operating the locking member 140.

Referring to FIG. 6, the safety door locking device 200 can be safely used by controlling the amount of current applied to the opening and closing member 210. The amount of current flowing from the power supply unit 220 to the opening and closing member 210 is limited by the capacitor 262 of the electricity quantity control unit (S200). When the conductive member touches the opening / closing member 210 through which a low current flows, a current flow is detected in the detecting unit 230 or a current flow exceeding a threshold value is sensed (S210, S220) (Step S240). At this time, the control unit 250 switches the current switch 215 to the OFF state, blocks the flow of the current flowing from the power source unit 220 to the opening and closing member 210, turns on the charging switch 266, State to allow the capacitor 212 to be charged (S240).

Thereafter, the control unit 250 operates the lock member 240 to release the locked state of the door 2 (S250).

The control unit 250 monitors the value received from the charge amount measuring unit 264. When the charge amount is less than a proper value, that is, when charging is required, the capacitor 262 and the power supply unit 220 are electrically connected, (S210, S230, S240). At this time, the control unit 250 changes the switch of the lock member 240 to the ON state to lock the door 2 (S240). The controller 250 changes the switch of the lock member 240 to the OFF state to release the locked state of the door 2 (step < RTI ID = 0.0 > (S250). At this time, the controller 250 electrically disconnects the capacitor 262 and the power supply unit 220, so that current flows from the power supply unit 220 to the opening and closing member 210.

The control unit 250 maintains the unlocked state of the door 2 when the current flowing through the detection unit 230 or the current flow exceeding the threshold value is not detected and the charged amount exceeds the proper value (S210, S220, S230, S250).

 While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1: cabinet 2: door
100, 200: Safety door lock
110, 210: opening / closing member 120, 220:
130, 230: Detector 140, 240: Locking member
150, 250: control unit 260: current amount control unit
262: capacitor 264: charge amount measuring unit

Claims (7)

An opening / closing member which opens and closes the door and is partly made of a conductor;
A power supply unit electrically connected to the opening and closing member;
A detecting unit for measuring a current flowing between the opening and closing member and the power source unit;
A locking member for restricting the opening of the door; And
And a control unit for operating the lock member to restrict opening of the door if the measured value of the detecting unit is equal to or greater than a reference value. The safety door lock apparatus according to claim 1, further comprising a current amount control unit for controlling an amount of current applied from the power source unit to the opening and closing member. The safety door lock apparatus according to claim 2, wherein the current amount control unit includes a capacitor connected in parallel to the power source unit. The apparatus of claim 3, wherein the current control unit further comprises: a charge amount measuring unit for measuring a charge amount of the capacitor; and a charge switch for connecting or disconnecting the power source unit and the capacitor according to a charge amount of the capacitor, . The safety door lock apparatus according to claim 2, wherein the current amount control unit applies a high voltage and a low current to the opening and closing member. The safety door lock apparatus according to claim 1, wherein the power source unit has one pole grounded and the other pole electrically connected to the opening and closing member. The safety door lock apparatus as claimed in claim 1, wherein the control unit receives the measured value of the detecting unit when the opening and closing member operates, and determines whether the locking member operates.

Images