KR101640086B1 - Emergency charging device and method in door lock equipment - Google Patents

Abstract

The present invention relates to an emergency charging device for a door lock and a method thereof and, more specifically, to an emergency charging device for a door lock capable of: operating the door lock using a battery or a secondary battery in a normal charging mode depending on the remaining charged amount by charging the secondary battery using light or the battery when the battery is not discharged; and operating the door lock in an emergency charging mode by charging the secondary battery urgently using light when the battery is discharged and a method thereof. To that end, according to the present invention, the emergency charging device includes: a primary battery; a solar cell module which receives input of external light and outputs a voltage; a secondary battery which receives the voltage outputted by the primary battery or solar cell module and stores electricity; and a door lock control unit which controls the operation of the door lock to be driven by the secondary battery if the amount of electricity stored in the secondary battery is equal to or greater than a predefined maximum value or by the primary battery if the amount is less than the maximum value.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an emergency charging apparatus and method,

The present invention relates to an emergency recharging apparatus and method for a door lock, and more particularly, to an emergency recharging apparatus and method for a door lock using a battery or a rechargeable battery in an always- The present invention relates to an emergency charging apparatus and method for a door lock capable of emergency driving a door lock by urgently charging a secondary battery using light in an emergency charging mode in which a battery is discharged.

In the case of mechanical door locks, there is an inconvenience of having to carry a key, so electric door locks are widely used in recent years, in which most doors can be opened by a password or fingerprint input.

Since most of the electric door locks operate using the battery, if the battery is not discharged before the battery is discharged, the door lock may be stopped and the door may not be opened.

To solve this problem, a product has been introduced that exposes the battery terminal outside the door lock. In the case of a door lock in which a battery terminal is exposed, the operation stop due to the battery discharge can be conveniently solved, but it is also inconvenient to carry another battery in preparation for battery discharge.

On the other hand, Korean Patent Registration No. 1096915 discloses an electrically operated door lock provided with a self-charging unit that can charge a battery by rotating a handle of a door lock, but the configuration of the power generation apparatus using the rotational force of the handle is complicated There is an inconvenience that the user must manually rotate the handle.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an emergency charger for a door lock which can drive a door lock by charging in a simple and convenient way during battery discharge of a door lock.

It is another object of the present invention to provide a door lock emergency charging device capable of delaying battery discharge of a door lock by using electric energy stored through normal charging.

In order to achieve the above object, according to the present invention, there is provided a charging device for a door lock comprising an outer lever and an inner lever, wherein the charging device comprises a replaceable primary battery built in the inner lever, A solar cell module for receiving external light and outputting a voltage; a secondary battery for receiving a voltage output from the solar cell module and storing electricity; A charge control unit for adjusting the voltage of the secondary battery and applying the voltage to the secondary battery; and a control unit for determining an amount of electricity stored in the secondary battery in a normal charging mode, , The secondary battery is operated as the driving power source for the door lock, and when the amount of electricity stored in the secondary battery reaches the minimum set amount and the maximum amount The primary battery is operated as a driving power source for the door lock if the amount of electricity stored in the secondary battery is less than a minimum set amount, And a door lock controller for charging the secondary battery using the battery.

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The door lock control unit is configured to cause the secondary battery to operate as a driving power source for the door lock when the primary battery is discharged and the amount of electricity stored in the secondary battery is equal to or greater than a minimum set amount.

Wherein the door lock control unit receives a voltage from the solar cell module when the primary battery is discharged and the amount of electricity stored in the secondary battery is equal to or less than a minimum set amount, And the secondary battery is operated as a driving power source for the door lock when the set amount is exceeded.

A method of charging a door lock according to the present invention is a charging method for a door lock comprising a primary battery which is composed of an outer lever and an inner lever and is replaceable in the inner lever and a solar cell module built in the outer lever, Wherein the amount of electricity charged in the secondary battery in accordance with an amount of electricity stored in the secondary battery in a normal charging mode, which is not the discharging state, is equal to or greater than a maximum setting amount A step of operating the secondary battery as a driving power source for the door lock; and a step in which when the amount of electricity charged in the secondary battery in the normal charging mode is between a minimum setting amount and a maximum setting amount, And when the amount of electricity charged in the secondary battery in the normal charging mode is less than the minimum set amount, And charging the secondary battery using the output voltage of the primary battery while operating the secondary battery.

As described above, the door lock according to the present invention includes a solar cell module to generate electricity from light of the sun or a lamp in a normal charging mode, charge the secondary battery, selectively use a battery or a secondary battery as a door lock power source So that the discharge of the battery can be delayed.

Further, the door lock according to the present invention allows a user to charge the battery easily and quickly by using the light of the flashlight or the smartphone in the emergency charging mode in which the battery is discharged, .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an internal configuration diagram of an emergency filling apparatus for a door lock according to the present invention; Fig.
FIG. 2 is a flowchart illustrating an operation process in a normal charging mode of a door lock according to the present invention; FIG.
FIG. 3 is a flowchart illustrating an operation process in an emergency charging mode of a door lock according to the present invention; FIG.
4 shows an embodiment of a door lock according to the invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and the operation and effect thereof will be clearly understood through the following detailed description.

Before describing the present invention in detail, the same components are denoted by the same reference symbols as possible even if they are displayed on different drawings. In the case where it is judged that the gist of the present invention may be blurred to a known configuration, do.

1 shows a schematic internal structure of an emergency filling apparatus for a door lock according to the present invention.

Referring to FIG. 1, the door lock emergency charging apparatus includes a charging unit 10, a door lock control unit 20, a door lock driving unit 30, a primary battery (battery) 40, and the like.

The charging unit 10 includes a solar cell module 12, a charge control unit 14, a secondary battery 16, and the like.

The solar cell module 12 includes a plurality of solar cells, and receives a light generated from the sun or electricity, and outputs a predetermined voltage. A solar cell consists of a semiconductor device that converts light energy into electrical energy.

The charge control unit 14 receives the voltage from the solar cell module 12 or the primary battery 40 and adjusts the chargeable voltage to a chargeable voltage. The charge controller 14 may control the secondary battery 14 so as not to overcharge when charging the secondary battery 14.

The secondary battery 16 receives the regulated voltage from the charge control unit 14 and stores electric energy. As the secondary battery, a lithium battery, a lithium ion battery, or the like can be used. In the embodiment of the present invention, the minimum set amount of the secondary battery 16 is 3.0 to 3.4 V, and the maximum set amount is 3.6 to 4.2 V.

The door lock control unit 20 controls the door lock driving unit 30. The door lock control unit 20 controls the secondary battery 16 or the battery 40 to be used as a power source for the door lock by checking the amount of electricity stored in the secondary battery 16, And controls the charging operation of the secondary battery 16 using the battery.

That is, when the amount of electricity stored in the secondary battery 16 is equal to or greater than the maximum set amount, the door lock control unit 20 causes the secondary battery 16 to be used as a driving power source for the door lock, When the amount of electricity stored in the secondary battery 16 is between the maximum set amount and the minimum set amount, the electricity amount of the secondary battery 16 has energy to drive the door lock, but if the battery 40 is not in a discharged state The battery 40 is used as the driving power source for the door lock without using the secondary battery 16 as the driving power source for the door lock. The door lock control unit 20 may be configured to maintain the primary battery 40 as the driving power source for the door lock when the amount of electricity stored in the secondary battery 16 is less than the minimum set amount, (16) is charged.

The door lock driving unit 30 opens or closes the door lock according to a control command of the door lock control unit 20. [ The door lock control unit 20 outputs an open command to the door lock driving unit 30 when the password inputted from the door lock input unit (not shown) matches or outputs a closing command to the door lock driving unit 30 when the door closing is confirmed .

The primary battery 40 is a battery used as a driving power source for a door lock. The primary battery 40 according to the present invention is used not only as a driving power for the door lock but also as a source for charging the secondary battery 16.

The door lock emergency charger according to the present invention is divided into an ordinary charging mode in which the primary battery 40 is not in a discharged state and an emergency charging mode in which the primary battery 40 is discharged, The operation of the door lock will be described.

FIG. 2 shows an operation process when the door lock emergency charging device is in the always-charging mode.

Referring to FIG. 2, the door lock emergency charger first determines whether the amount of electricity stored in the secondary battery 16 is equal to or greater than a maximum set amount (S10). At this time, when the emergency charging device of the door lock is in an environment exposed to sunlight or electric lamp, the secondary cell 16 can be charged using the solar cell module 12. [

If the amount of electricity stored in the secondary battery 16 is not equal to or greater than the maximum setting amount, the primary battery 40 operates as the driving power for the door lock (S20). If the amount of electricity stored in the secondary battery 16 is equal to or greater than the maximum setting amount, The vehicle battery 16 is operated as the driving power source for the door lock (S30).

In a situation where the primary battery 40 or the secondary battery 16 is being used as the driving power for the door lock, the door lock emergency charger confirms whether the amount of electricity stored in the secondary battery 16 is equal to or less than the minimum set amount (S40) .

If the amount of electricity stored in the secondary battery 16 is less than the minimum set amount, the door lock emergency charging device charges the secondary battery 16 using the primary battery 40 (S50). When the amount of electricity stored in the secondary battery 16 is equal to or less than the minimum set amount, when the secondary battery 16 operates as a driving power source and discharges after the primary battery 40 operates as a driving power source and discharges, When the battery 16 is discharged due to short circuit or natural discharge. If the primary battery 40 is replaced while the secondary battery 16 is operating as a driving power source after the discharge of the primary battery 40 is discharged, the primary battery 40 charges the secondary battery 16 And the primary battery 40 can charge the secondary battery 40 when the secondary battery 40 is short-circuited or discharged by natural discharge in a state where the primary battery 40 is used as a driving power source. have.
If the amount of electricity stored in the secondary battery 16 is not less than the minimum set amount, the process returns to step S10 and the same process is performed. That is, when the amount of electricity stored in the secondary battery 16 is between the maximum set amount and the minimum set amount, the emergency lock apparatus of the door lock causes the primary battery 40 to operate as a driving power source for the door lock, The secondary battery 16 is charged using the primary battery 40 while the primary battery 40 is maintained as the driving power source for the door lock.

FIG. 3 shows an operation procedure when the door lock emergency charger is in the emergency charging mode.

3, when the primary battery 40 is discharged and the amount of electricity stored in the secondary battery 16 is equal to or greater than the minimum set amount, the step S60 of charging the secondary battery 16 proceeds immediately. However, The charging process for the secondary battery 16 may be omitted because the battery 16 can be used as a driving power source for the door lock. That is, the secondary battery charging process of FIG. 3 is performed when the secondary battery 16 falls below the minimum set amount and the door lock does not operate. When the electricity quantity of the secondary battery 16 becomes less than the minimum set amount When the secondary battery 16 is discharged as a driving power source after the primary battery 40 is discharged. However, if the secondary battery 16 is used as a drive power source for the door lock but the primary battery 40 is replaced before the discharge, the charging process for the secondary battery 16 may be omitted, The user can charge the secondary battery 16 with the light of the flashlight or the smartphone irrespective of the discharge of the secondary battery 16.

When the primary battery 40 is discharged and the amount of electricity stored in the secondary battery is equal to or less than the minimum set amount, the operation of the door lock is stopped. When the user lights the flash lamp or the smart phone on the solar cell module 12, Charging of the battery 16 proceeds (S60).

4 shows a door lock according to an embodiment of the present invention.

4, a secondary battery 16 (not shown) is built in an outer lever 100 of a door lock, a solar cell module 12 is installed at an end of the outer lever 100, 40) (not shown).

When the battery 40 of the internal lever 200 is discharged and the secondary battery of the external lever 100 is not charged with the electric quantity capable of driving the door lock, To flash a flash of smartphone.

When the solar cell module 12 receives the light energy and outputs the voltage, the door lock emergency charging device charges the secondary battery 16 using the output voltage of the solar cell module 12, 16) is equal to or greater than the minimum set amount (S70).

When the amount of electricity stored in the secondary battery 16 is not more than the minimum set amount, charging continues. When the amount of electricity stored in the secondary battery 16 reaches the minimum set amount, the secondary battery 16 is driven To be used as a power source (S80).

In the embodiment of the present invention, the solar cell module 12 is disposed at the end of the outer lever 100. This is not limited to the arrangement in consideration of design, And the like.

The foregoing description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art without departing from the spirit of the present invention.

Accordingly, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of equivalents should be construed as being included in the scope of the present invention.

10: charger 12: solar cell module
14: charge controller 16: secondary battery
20: door lock control unit 30: door lock driving unit
40: Primary cell

Claims (9)

An apparatus for filling a door lock comprising an outer lever and an inner lever,
A replaceable primary battery built into the internal lever,
A solar cell module installed on a bottom surface of an end portion of the outer lever to receive external light and output a voltage;
A secondary battery which receives a voltage output from the solar cell module and stores electricity;
A charging controller for adjusting a voltage output from the primary cell module or the solar cell module to a chargeable voltage and applying the voltage to the secondary battery,
If the amount of electricity stored in the secondary battery is equal to or greater than the maximum setting amount in the normal charging mode in which the primary battery is not discharged, the secondary battery is operated as the driving power source for the door lock If the amount of electricity stored in the secondary battery is between a minimum setting amount and a maximum setting amount, the primary battery is operated as a driving power source for the door lock. If the amount of electricity stored in the secondary battery is less than a minimum setting amount, And a door lock control unit operable to drive the secondary battery by using the voltage of the primary battery while operating the door lock unit as a driving power source for the door lock. delete delete The method according to claim 1,
The door lock control unit may determine an amount of electricity stored in the secondary battery in an emergency charging mode in which the primary battery is discharged and if the amount of electricity stored in the secondary battery is equal to or greater than a minimum set amount, So as to operate the door lock device. delete delete And a secondary battery which is composed of an outer lever and an inner lever and is replaceable by being embedded in the inner lever and which is accommodated in the outer lever and is charged by a solar cell module installed on the bottom of the end of the outer lever. In the charging method,
A step in which the secondary battery is operated as a driving power source for a door lock when the amount of electricity charged in the secondary battery is equal to or greater than a maximum setting amount in accordance with an amount of electricity stored in the secondary battery in a normal charging mode,
Operating the primary battery as a driving power source for the door lock when the amount of electricity charged in the secondary battery in the normal charging mode is between a minimum setting amount and a maximum setting amount;
Charging the secondary battery using the output voltage of the primary battery while allowing the primary battery to operate as the driving power source for the door lock when the amount of electricity charged in the secondary battery in the normal charging mode is less than the minimum setting amount A method of charging a door lock. 8. The method of claim 7,
Further comprising the step of operating the secondary battery as a driving power source for the door lock when the amount of electricity charged in the secondary battery is equal to or greater than a minimum set amount in accordance with the amount of electricity stored in the secondary battery in the emergency charging mode in which the primary battery is discharged Wherein the door lock mechanism comprises: delete

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