KR20120041860A - Fastening device for reinforcement door - Google Patents

Abstract

According to the present invention, the control unit of the locking device is not installed outside the tempered glass door, and only the control unit of the locking device is installed inside the tempered glass door so that others cannot artificially damage or break the lock from the outside and release the lock. Regarding the locking device for the tempered glass door to prevent the configuration of the touch pad 110 with the number input unit 111 and the card recognition unit 112 is installed on one surface, the external light emitting sensor 120 ) Is installed, the operation button 130 and the on / off switch 140 is installed on the back, the circuit board and the control unit is installed therein, the input unit main body 100 is provided with a power supply unit 150 on the selected side; The light receiving sensor 210 is installed to be maintained at a predetermined distance from the input unit main body and receives a signal from the floodlight sensor on one side thereof, and a locking means operating unit for operating the locking means 220 according to the signal of the light receiver sensor on one of the inner sides. A door lock part body 200 having a power supply part 240 for supplying power to the 230 and its locking means operating part; The input part body and the door lock part body are installed to face each other inside the tempered glass door 300 to be maintained at a predetermined interval, and the input part body of the input part body and the door lock part body is in close contact with the inner surface of the tempered glass door. It is installed to be in contact, the door lock body is made of the light-emitting sensor and the light-receiving sensor is installed to face each other on the upper portion of the tempered glass door.

Description

Fastening Device for Reinforcement Door}

According to the present invention, the control unit of the locking device is not installed outside the tempered glass door, and only the control unit of the locking device is installed inside the tempered glass door so that others cannot artificially damage or break the lock from the outside and release the lock. A locking device for tempered glass doors is provided.

In general, tempered glass doors, such as offices and shopping malls, are installed so that door locks are installed to prevent theft and outsiders' access, and the door locks are in contact with the front and rear surfaces of the tempered glass doors. The front of the tempered glass door is an input unit body formed with a cart recognition unit for recognizing numbers from 1 to 0 indexed card and the like is installed in the rear and the door lock to lock the tempered glass door and release the lock The main body is installed.

The conventional tempered glass door locking device having the configuration as described above is provided with a protective cover for designating the number input part in the number input unit installed on the front of the tempered glass door to open the protective cover and enter the corresponding number (password) or By recognizing the card, the lock of the door lock body is activated to release the lock and to open and close the tempered glass door.

However, the tempered glass door locking device may be damaged or damaged by others when the input body is installed at the front of the tempered glass door, and there is a limit to maintain security. Since the main body and the door lock are installed to face each other around the tempered glass door, there are problems in terms of installation difficulty, structural complexity, and the appearance of the tempered glass door.

The present invention has been made to solve this problem in view of the above problems, the object is to install the input body and the door lock body to maintain a certain distance and both the input body and the door lock body installed to maintain the constant distance is reinforced The present invention provides a locking device for tempered glass doors which is installed inside the glass door so that others cannot artificially damage or break the locking device of the present invention from the outside and can not release the lock.

In order to solve the problem of the present invention for achieving the above object, the touch pad 110 provided with the number input unit 111 and the card recognition unit 112 is installed on one surface, and the external light transmitting sensor 120 is provided on one side. Is installed, the operation button 130 and the on / off switch 140 is installed on the back, the circuit board and the control unit is installed inside, the input unit body 100 is provided with a power supply unit 150 on the selected side;

The light receiving sensor 210 is installed to be maintained at a predetermined distance from the input unit main body and receives a signal from the floodlight sensor on one side thereof, and a locking means operating unit for operating the locking means 220 according to the signal of the light receiver sensor on one of the inner sides. A door lock part body 200 having a power supply part 240 for supplying power to the 230 and its locking means operating part;

The input part body and the door lock part body are installed to face each other inside the tempered glass door 300 to be maintained at a predetermined interval, and the input part body of the input part body and the door lock part body is in close contact with the inner surface of the tempered glass door. It is installed to be in contact, the door lock body is made of the light-emitting sensor and the light-receiving sensor is installed to face each other on the upper portion of the tempered glass door.

In addition, the locking means operating unit 230 is a drive pinion 233 is installed on the shaft 232 of the stationary motor 231, a rotary shaft 234 is installed in the adjacent position of the drive pinion, the rotary shaft A satellite pinion 235 coupled to the driving pinion is installed, and a locking means operating lever 236 for manually opening and closing the locking means 220 is installed at one end of the rotary shaft, and the other end of the rotary shaft. Consists of a locking means and is installed to be disassembled.

In addition, the locking means 220 is a pinion 221 is installed to be disassembled and coupled to the other end of the rotary shaft, one side of the pinion is installed a locking pin 222, the locking pin is coupled to the pinion is interlocked The rack 223 is formed.

The rotatable rotating body 160 is installed on the rear surface of the input unit body 100, and the power supply unit 150 is formed on the rotating body, and a handle 310 installed on the tempered glass door on one side of the rotating body. The fixing part 170 fixed to the tempered glass door is formed to extend integrally with the rotating body, and the vibration sensor 113 is installed on each number input part 111 of the rear surface of the touch pad 110.

The locking device for the tempered glass door of the present invention as described above is installed to maintain a certain distance between the input unit body and the door lock unit body, and the input unit body and the door lock unit body installed to maintain the constant distance are all located inside the tempered glass door. By installing it, there is an effect that another person does not artificially damage or break the locking device of the present invention from the outside and cannot release the lock.

1 is a rear perspective view of the input unit main body in the locking device for tempered glass door of the present invention;
Figure 2 is a front perspective view of the input unit body in the locking device for tempered glass door of the present invention,
Figure 3 is an exploded perspective view of the door lock body in the locking device for tempered glass door of the present invention,
Figure 4 is an exploded perspective view of the locking means operating part in the locking device for tempered glass door of the present invention,
5 is an exploded perspective view of the locking means in the locking device for a tempered glass door of the present invention;
Figure 6 is a perspective view showing a coupling state of the locking means operating portion and the locking means in the locking device for tempered glass door of the present invention before the operation of the locking means,
Figure 7 is a perspective view showing a coupling state of the locking means operating portion and the locking means in the locking device for a tempered glass door of the present invention after the operation of the locking means,
8 is a perspective view of a state in which the locking device for tempered glass door of the present invention is installed in a tempered glass door.

In the present invention, as shown in FIG. 2, the touch pad 110 having the number input unit 111 and the card recognition unit 112 is installed on one surface thereof, and a light transmitting sensor 120 is installed on the outer side thereof. As shown in FIG. 1, an operation button 130 and an on / off switch 140 are installed, a circuit board and a control unit (not shown) are installed therein, and an input unit main body in which a power supply unit 150 is provided at one side of the selected unit. 100 is installed on the inner surface of the tempered glass door 300, the installation position of the input unit body 100 is in close contact with the inner surface of the tempered glass door at a position where a person can touch the touch pad 110 It is installed in contact.

In addition, the upper portion of the inside of the tempered glass door 300 is provided with a door lock main body 200 to maintain a certain distance with the input unit body 100, as shown in Figure 8, the configuration of the door locking unit 200 3 and 4, the light receiving sensor 210 receiving the signal of the light transmitting sensor 120 is installed at one outside of the outer side, that is, the lower side, and the locking means 220 is mounted in accordance with the signal of the light receiving sensor 210. There is formed a locking means operating unit 230 for operating the power supply unit 240 for supplying power to the locking means operating unit 230.

And the configuration of the locking means operating unit 230 is the drive pinion 233 is installed on the shaft 232 of the stationary motor 231, the rotary shaft 234 is installed in the adjacent position of the drive pinion 233 The rotary shaft 234 is provided with a satellite pinion 235 coupled to the driving pinion 233, and a locking means for manually opening and closing the locking means 220 at one end of the rotary shaft 234. The lever 236 is installed, and the other end of the rotary shaft 234 is installed to be disassembled with the locking means 220.

In addition, the configuration of the locking means 220 is a pinion 221 is provided so as to be disassembled and coupled to the other end of the rotary shaft 234, as shown in Figure 5, the locking pin 222 on one side of the pinion 221 Is installed, the locking pin 222 is coupled to the pinion 221 is formed with a rack 223 to interlock.

Meanwhile, as shown in FIGS. 1 and 2, a rotatable rotating body 160 is installed on the rear surface of the input unit body 100, and a power supply unit 150 is formed on the rotating body 160, and the rotating body ( One side of the 160 is formed integrally with the rotating body 160, the fixing portion 170 is fixed to the tempered glass door 300 together with the handle 310 is installed on the tempered glass door (300). The vibration sensor 113 is installed at each number input unit 111 of the rear surface of the touch pad 110.

The action of the locking device for the tempered glass door of the present invention having the configuration as described above will be described in detail with reference to FIG. 6B.

Locking device for a tempered glass door of the present invention as described above the touch pad 110 on the outer surface of the tempered glass door 300 in a state in which the input unit body 100 and the door locking unit body 200 is installed in the corresponding position. Touching the corresponding number (password) to each number input unit 111 of the touch shock is transmitted to the corresponding vibration sensor 113 installed on the back of the touch pad 110 through the tempered glass door 300 and the vibration The vibration of the received vibration sensor 130 transmits a signal from the floodlight sensor 120 through a circuit board and a controller (not shown).

On the other hand, when the corresponding card is in contact with the card recognition unit 112 instead of the touch of the corresponding number (password), the card recognition unit 112 also recognizes the corresponding card through the circuit board and the controller (not shown) Transmitting sensor 120 sends a signal. At this time, the contact of the corresponding card is made on the outer (outdoor) surface of the tempered glass door 300 similarly to the respective touch numbers.

 The operating principle of the vibration sensor 113 and the card recognition unit 112 and the operating principle of the circuit board and the control unit are well known in the art, and a detailed description thereof will be omitted.

As described above, the signal generated from the floodlight sensor 120 is received from the light receiving sensor 210 installed at one side, that is, the lower portion of the door locking unit 200, and drives the stationary motor 231 of the locking means operating unit 230 and drives the same. As the shaft 232 rotates to rotate the drive pinion 233.

Therefore, the satellite pinion 235 of the rotary shaft 234 installed in the adjacent position of the drive pinion 233 is rotated, and at the same time the pinion 221 of the locking means 220 while the rotary shaft 234 is rotated. Is rotated, the lock pin 222 is operated in the upper vertical direction by the rack 223 in accordance with the rotation of the pinion 221 is to lock the door.

Meanwhile, a rotatable rotating body 160 is installed on the rear surface of the input unit body 100, and a power supply unit 150 is formed on the rotating body 160, and tempered glass doors are formed on one side of the rotating body 160. The fixing part 170 fixed to the tempered glass door 300 together with the handle 310 installed on the 300 extends integrally with the rotating body 160.

Since the fixing part 170 has a hole 171 formed therein, the handle 310 installed in the tempered glass door 300 may be fixed using the fixing member through the hole 171. The reason for allowing the 160 to be rotated is to easily adjust the center of the end of the handle 310 to which the fixing member is fastened and the center of the hole 171 formed in the fixing unit 170.

In addition, the power supply unit 150 formed in the input unit main body 100 and the power supply unit 240 formed in the door lock unit main body 200 have respective batteries 151 and 241 seated in their respective battery boxes and their respective batteries. 151 and 241 serve to supply power to the components that require power in each of the components of the input unit body 100 and the door lock unit 200.

The light transmitting sensor 120 formed on the input unit main body 100 and the light receiving sensor 210 formed on the door locking unit main body 200 should be installed to face each other and maintain a straight line. The reason for this is the input main body 100. This is to ensure that the signal generated from the light transmitting sensor 12 of) is accurately and precisely transmitted to the light receiving sensor 210 of the door locking unit body 200.

In addition, the operation button 130 and the on / off switch 140 is installed on the back of the input unit body 100, the role of the operation button 130 is to strengthen the glass door 300 to the person in the room to go outdoors The on / off switch 140 is used to open the input unit body 100 and the door lock unit body 200 manually when the on / off switch 140 is turned on. It is automatically made according to the operation of the input unit body 100 and the door lock unit body 200, the on / off switch 140 must be opened manually.

The locking means 220 for operating the locking pin 222 of the present invention is shown in FIG. 5, which is one embodiment. In addition to the embodiment of FIG. 5, the locking pin 222 is converted into a vertical rotational force in the horizontal direction. The configuration for moving the vertical direction may be configured in various ways, all of them belong to the scope of the present invention.

In the present invention, the locking means operating lever 236 for manually opening and closing the locking pin 222, which is the locking means 220, is installed at one end of the rotary shaft 234, and the locking means operating lever 236 is tempered glass. It is installed to be located on the outer surface of the door (300). The reason for this is to manually operate the locking pin 222 when the locking device of the present invention is not automatically operated due to an abnormality of the input unit body 100 or the door locking unit body 200.

As described above, the locking device for the tempered glass door of the present invention is installed to maintain the input unit body and the door lock unit body at a constant distance, and the input unit body and the door lock unit body installed to maintain the constant distance are both located inside the tempered glass door. It is installed so that others do not artificially damage or damage the locking device of the present invention from the outside and can not release the lock, as well as structurally simple, easy to install, reinforced glass after installation There is an advantage that the appearance of the door is beautiful.

100: input unit 111: number input unit
112: card recognition unit 113: vibration sensor
120: floodlight sensor 130: operation button
140: on / off switch 150: power supply
151 battery 160 rotating body
170: fixing part 200: door lock body
210: light receiving sensor 220: locking means
221: pinion 222: locking pin
223: rack 230: locking means operating portion
231: forward and reverse motor 232: axis
233: driving pinion 234: rotation shaft
235: satellite pinion 236: locking means operating lever
240: power supply 300: tempered glass door
310: handle

Claims (5)

The touch pad 110 provided with the number input unit 111 and the card recognition unit 112 is installed on one surface, and a flood sensor 120 is installed on one side of the outside, and an operation button 130 and an on / off surface are provided on the rear surface. An input unit main body 100 in which a switch 140 is installed, a circuit board and a control unit are installed therein, and a power supply unit 150 is provided at a selected side;
The light receiving sensor 210 is installed to be maintained at a predetermined distance from the input unit main body and receives a signal from the floodlight sensor on one side thereof, and a locking means operating unit for operating the locking means 220 according to the signal of the light receiver sensor on one of the inner sides. A door lock part body 200 having a power supply part 240 for supplying power to the 230 and its locking means operating part;
The input part body and the door lock part body are installed to face each other inside the tempered glass door 300 to be maintained at a predetermined interval, and the input part body of the input part body and the door lock part body is in close contact with the inner surface of the tempered glass door. The door locking unit is installed to be in contact with the locking device for the tempered glass door, characterized in that the floodlight sensor and the light receiving sensor is installed to face each other on the upper portion of the tempered glass door. According to claim 1, The locking means operating unit 230 is a drive pinion 233 is installed on the shaft 232 of the stationary motor 231, the rotary shaft 234 is installed in the adjacent position of the drive pinion The rotary shaft is provided with a satellite pinion 235 coupled to the driving pinion, and a locking means operating lever 236 for manually opening and closing the locking means 220 is installed at one end of the rotating shaft. The other end of the rotary shaft is a locking device for tempered glass door, characterized in that installed in the disassembleable coupling with the locking means. According to claim 1 or 2, The locking means 220 is a pinion 221 is installed so as to be disassembled and coupled to the other end of the rotary shaft, one side of the pinion is provided with a locking pin 222, Locking device for tempered glass door, characterized in that the lock pin is coupled to the pinion is coupled with the rack (223). The rotating body 160 is installed on the rear surface of the input unit main body 100, and the power supply unit 150 is formed on the rotating body, and installed on the tempered glass door on one side of the rotating body. Locking device for a tempered glass door, characterized in that the fixing portion 170 is fixed to the tempered glass door with the handle 310 is formed integrally with the rotating body. The lock device for tempered glass door according to claim 1, wherein each of the number input parts (111) of the rear surface of the touch pad (110) is provided with a vibration sensor (113).

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