KR100763508B1 - Digital Door Lock with an electric shockproof circuit - Google Patents

Abstract

The present invention relates to a digital door lock having an electric shock protection circuit capable of protecting a product from a high voltage electric shock.

The present invention is a power supply unit 110 for supplying power to each component inside the digital door lock; An electric shock detection unit 120 for determining whether power applied from the power supply unit 110, that is, electric shock; A current control unit 130 for controlling the current inside the door lock when the electric shock detection unit 120 detects the electric shock; A power abnormality determining unit 140 for determining that the power inside the digital door lock is an abnormal power source when the electric shock detection unit 120 is higher than a preset power value at the time of electric shock detection unit; A protection circuit unit 150 for converting the digital door lock to a stopped state when the power abnormality discriminating unit 140 is determined, that is, when a power abnormality is detected; An emergency state switching unit 160 is configured to switch the digital door lock to an emergency operation state with an emergency power when the power abnormality discriminating unit 140 is discriminated, that is, when power abnormality is detected.

Electric Shock, Digital Door Lock, High Voltage

Description

Digital Door Lock with an electric shockproof circuit

1 is a block diagram showing the configuration of a digital door lock having an electric shock protection circuit according to the present invention.

2 is a flowchart illustrating a control method of an electric shock protection circuit according to a preferred embodiment of the digital door lock having the electric shock protection circuit according to the present invention.

Figure 3 is a schematic diagram showing an outer device of the digital door lock to which the present invention is applied.

<Explanation of symbols for main parts of the drawings>

10 ... emergency power terminal

100 ... electric shock protection circuit

110 ... power supply

120 ... electric shock detector

130 ... current control unit

140 ... power failure
150 ... protection circuit

delete

160 ... emergency switch

The present invention relates to a digital door lock, and more particularly, to a digital door lock having an electric shock protection circuit capable of protecting a product from a high voltage electric shock.

Recently, commercial homes, shops, government agencies, and businesses have widely used access control systems to restrict outsiders. These access control systems come in a variety of forms, ranging from simple low-cost locks to expensive devices with complex mechanisms.

Here, the simple lock realizes the opening and closing of the door by mechanical matching of the key and the lock, but as the number of devices requiring access control such as a house or a car increases, the number of keys to be carried increases, so that many keys are carried. There is discomfort to be done. In order to make up for the shortcomings of the simple lock, various types of digital door locks using a password input method through a key input unit and an integrated circuit (IC) card method are used. Currently, the digital door lock is installed in 2 million households, and it is expected to be distributed to 5 million households, which is 60% of the total apartment-type furniture.

However, as recently reported in the media, consumers are in anxiety as it is known that the door opens easily when a high voltage electric shock is applied to the digital door lock. Testing of a high voltage of 30,000 volts on commercially available digital door locks has already confirmed that the lock can be easily opened in a matter of seconds. If you use an electric shock device that is used to detect criminals or fight larvae, the digital door lock is exposed unprotected.

Therefore, there is a need for a technical means capable of preventing the unlocking of the door lock due to electric shock as well as protecting the entire system of the digital door lock from damage.

The present invention was created in order to solve the above problems, to prevent theft by protecting the digital door lock device from high-voltage electric shock, as well as to protect the entire system of the digital door lock electric shock to minimize the repair cost, etc. It is an object of the present invention to provide a digital door lock having a protection circuit.

Digital door lock having an electric shock protection circuit according to the present invention for achieving the above technical problem,
A power supply unit 110 for supplying power to each component inside the digital door lock;
An electric shock detection unit 120 for determining whether power applied from the power supply unit 110, that is, electric shock;
A current control unit 130 for controlling the current inside the door lock when the electric shock detection unit 120 detects the electric shock;
A power abnormality determining unit 140 for determining that the power inside the digital door lock is an abnormal power source when the electric shock detection unit 120 is higher than a preset power value at the time of electric shock detection unit;
A protection circuit unit 150 for converting the digital door lock to a stopped state when the power abnormality discriminating unit 140 is determined, that is, when a power abnormality is detected;
An emergency state switching unit 160 is configured to switch the digital door lock to an emergency operation state with an emergency power when the power abnormality discriminating unit 140 is discriminated, that is, when the power abnormality is detected.

delete

Hereinafter, a preferred embodiment of a digital door lock having an electric shock protection circuit according to the present invention will be described in detail with reference to the accompanying drawings.
1 is a block diagram showing the configuration of a digital door lock having an electric shock protection circuit according to the present invention, Figure 2 is an electric shock protection according to a preferred embodiment of the digital door lock having an electric shock protection circuit according to the present invention It is a flowchart which shows the control method of a circuit.

delete

1, the electric shock prevention circuit 100 according to the present invention, the power supply unit 110 for supplying power to each component inside the digital door lock; An electric shock detection unit 120 for determining whether power applied from the power supply unit 110, that is, electric shock; A current control unit 130 for controlling the current inside the door lock when the electric shock detection unit 120 detects the electric shock; A power abnormality determining unit 140 for determining that the power inside the digital door lock is an abnormal power source when the electric shock detection unit 120 is higher than a preset power value at the time of electric shock detection unit; A protection circuit unit 150 for converting the digital door lock to a stopped state when the power abnormality discriminating unit 140 is determined, that is, when a power abnormality is detected; The emergency state switching unit 160 is configured to switch the digital door lock to an emergency operation state when the power abnormality discrimination unit 140 is discriminated, that is, when the power abnormality is detected.

The impact protection circuit 100 may be simply installed in a conventional digital door lock device by being designed as an independent circuit.

Referring to FIG. 2, the electric shock detection unit 120 is driven (S10) to determine whether an electric shock is applied inside the digital door lock (S12). As a result of determining the electric shock state, when it is determined that the electric shock is applied, the current control unit 130 is driven to control only a predetermined amount of current to flow (S14). Subsequently, the power failure determination unit 140 is driven (S16) to determine whether there is a power failure (S18), and when a power failure is detected, the protection circuit unit 150 is driven to switch the digital door lock to a stop state (S20). ).

When the emergency power is applied (S22), when the emergency power is applied, the emergency state switching unit 160 is driven to switch the digital door lock from the stop state to the emergency operation state (S24).

In the emergency power supply method, when the 9V commercial battery is contacted with the emergency power terminal 10 as shown in FIG. 3 for 1 to 2 seconds and then removed, the emergency power is switched to the emergency operation state. Press the password on the keypad 20 in the state in which the battery is in contact with the semiconductor key terminal 30 mounted on the protective cover 40 or the semiconductor key to be able to open and access the door.

If the third party switches to the emergency operation mode using the emergency power terminal in the same way in the stop operation state due to the electric shock, there is no risk of opening the door unless the user knows the password or possesses the semiconductor key.

In addition, when the electric shock is applied after the emergency power is applied for the purpose of product damage or unlocking again in the emergency operation state, the protection circuit unit 150 is driven to switch the digital door lock to the operation stop state again. If it is not a normal way, there is no room for the lock to be released.

As described above, although the present invention has been described by way of limited embodiments and drawings, the terms or words used in the present specification and claims are not to be construed as being limited to ordinary or dictionary meanings, and are consistent with the technical spirit of the present invention. It must be interpreted as meaning and concept. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

As described above, the digital door lock having the electric shock protection circuit and a control method thereof according to the present invention can protect the digital door lock device from electric shock of high voltage, thereby preventing theft and minimizing repair costs. Provide effect.

Claims (2)

A power supply unit 110 for supplying power to each component inside the digital door lock; An electric shock detection unit 120 for determining whether power applied from the power supply unit 110, that is, electric shock; A current control unit 130 for controlling the current inside the door lock when the electric shock detection unit 120 detects the electric shock; A power abnormality determining unit 140 for determining that the power inside the digital door lock is an abnormal power source when the electric shock detection unit 120 is higher than a preset power value at the time of electric shock detection unit; A protection circuit unit 150 for converting the digital door lock to a stopped state when the power abnormality discriminating unit 140 is determined, that is, when a power abnormality is detected; Equipped with an electric shock protection circuit, characterized in that the emergency state switching unit 160 for switching the digital door lock into an emergency operation state when the power abnormality determination unit 140, that is, when the power abnormality detection is detected. Digital door lock. delete

Images