EP3882873A1

EP3882873A1 - Smart gate

Info

Publication number: EP3882873A1
Application number: EP21163465.4A
Authority: EP
Inventors: Hyunchul Kim; Wonjin Lee; Kiyeal Seo; Jaeyoung Jo; Junghoon Lee
Original assignee: LG Electronics Inc
Current assignee: LG Electronics Inc
Priority date: 2020-03-19
Filing date: 2021-03-18
Publication date: 2021-09-22
Also published as: KR20210117469A; CN215565361U

Abstract

A smart gate includes a door frame installed on a structure; an access door for opening and closing an opening formed inside the structure; a door hinge rotatably coupling the door frame and the access door; a handle disposed on the access door; a door display disposed on the access door;
A cable connector disposed between the door frame and the access door; and a power cable receiving power from the outside of the access door and providing power to the handle and door display, the power cable is inserted into the access door through the cable connector, and is connected to the handle and the door display.
the present disclosure has the advantage of providing power and control signals to the access door of a rotatable structure, since the cable connector is installed on the door frame and the access door and the power cable and the control cable are connected to the handle and the door display through the cable connector.

Description

BACKGROUND OF THE INVENTION

1. Field of the invention

The present disclosure relates to a smart gate that the user can access being installed in a building.

2. Description of the Related Art

When visitors enter and exit a building, an entrance door or gate may be the first or last structure encountered and leave a lasting impression on the overall appearance of the building, and there is a demand for elegant and appealing doors.
In addition, as apartments and multi-family homes are on the rise, security is becoming increasingly important and there is a need for front doors and gates that only people with access authentication can pass.
In particular, when the entrance opening is formed in the front door, since a visitor can release the door lock of the entrance door through the entrance opening, there is a problem that is very vulnerable to security.
Korean Patent Registration No. 10-0809044 discloses a'noncontact face authentication door lock system'. The door lock system is a system in which a door lock that locks or unlocks the door is placed on the access door, and a zoom camera for authenticating the user's face is attached to the ceiling, so that only the authenticated person can enter and exit. Since the door lock is controlled by receiving a wireless signal from the camera, it is not only vulnerable to external hacking, but also a number of parts that provide a wireless signal must be provided, and there is a problem that the door lock malfunctions when noise is generated by external electronic devices.

SUMMARY OF THE INVENTION

An object of the present disclosure is to provide a rotatable smart gate capable of providing power and network to electronic devices by wire.
The object of the present invention is achieved with a smart gate as defined in independent claim 1. Advantageous embodiments are defined in the dependent claims.
In the present disclosure, since the cable connector is installed on the door frame and the access door, the power cable and the control cable are connected to the handle and door display through the cable connector, power and control signals can be provided to the rotatable access door.
The smart gate according to independent claim 1 includes a door frame installed in the structure; an access door for opening and closing an opening formed inside the structure; a door hinge rotatably coupling the door frame and the access door; a handle disposed on the access door; a door display disposed on the access door; a cable connector disposed between the door frame and the access door; and a power cable receiving power from the outside of the access door and providing power to the handle and the door display, the power cable is inserted into the access door through the cable connector, and is connected to the handle and the door display.
The power cable includes: a first cable having one end disposed outside the access door and the other end disposed inside the access door through the cable connector; a second cable branched from the first cable and connected to the door display; and a third cable branched from the first cable and connected to the handle.
The first cable may be disposed between the door frame and the access door.
The first cable may be disposed inside the door frame.
The cable connector may include a first connector body disposed on one of the door frame or the access door
The cable connector may include a second connector body disposed on the other one of the door frame or the access door.
The cable connector may include a connection body connecting the first connector body and the second connector body.
The connection body may have a hollow formed therein, and the power cable may be disposed to pass through the hollow.
The connection body may include a first connection case disposed on the first connector body.
The connection body may include a second connection case disposed on the second connector body.
The connection body may include a connection member assembled to the first connection case and the second connection case and rotated relative to at least one of the first connection case and the second connection case.
The connection member may have a hollow formed therein, and the power cable may be disposed to pass through the hollow.
A first body groove concave may be formed in the first cable connector.
A second body groove may be formed concave in the second cable connector, and when the access door is closed, the first connection case may be inserted into the second body groove, and the second connection case may be into the first body groove.
A first insertion groove may be formed concave in the door frame and into which the first connector body is inserted.
A second insertion groove may be formed concave in the access door and into which the second connector body is inserted.
A security panel may be disposed in the opening.
An authentication device may be disposed on the security panel.
A control cable may be for transmitting the control signal of the authentication device to the handle or door display.
The cable connector may include a first cable connector through which the power cable passes; and a second cable connector through which the control cable passes.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a smart gate according to an embodiment of the present disclosure.
FIG. 2 is an exemplary view of the operation of FIG. 1.
FIG. 3 is an exemplary diagram showing a wiring structure of a smart gate according to an embodiment of the present disclosure.
FIG. 4 is a perspective view of the cable connector shown in FIG. 3.
FIG. 5 is an exemplary view of the operation of FIG. 4.
FIG. 6 is a partially cut-away perspective view of the cable connector shown in FIG. 4.
FIG. 7 is an exploded perspective view of the entrance gate shown in FIG. 1.
FIG. 8 is a perspective view as viewed from the other side of FIG. 7.
FIG. 9 is a schematic front view of the authentication device shown in FIG. 3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Advantages and features of the present disclosure, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present disclosure is not limited to the embodiments disclosed below, but may be embodied in various different forms, and the present embodiments merely make the disclosure of the present disclosure complete, and those of ordinary skill in the art to which the present disclosure belongs. it is provided to fully inform the person having the scope of the disclosure, which is defined only by the scope of the claims. like reference numerals refer like elements through.
Hereinafter, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.
FIG. 1 is a perspective view of a smart gate according to an embodiment of the present disclosure. FIG. 2 is an exemplary view of the operation of FIG. 1.
Referring to FIGs. 1 to 2, the smart gate according to the present embodiment includes an access door 140 that a user can access, and a storage box 500 that can store or deliver goods in a non-face-to-face manner.
A first space 101 is disposed in front of the smart gate according to the present embodiment, and a second space 102 is disposed behind the smart gate. That is, the smart gate partitions the first space 101 and the second space 102.
The smart gate authenticates an user and opens the access door 140. The smart gate blocks access to unauthentic persons.
In addition, the smart gate may temporarily store items delivered through courier services. The smart gate opens the storage box 500 after authenticating a visitor who owns the authenticated code. The visitor who owns the authentication code may store goods in the open storage box 500.
The storage box 500 is exposed to the first space 101 and the second space 102, respectively. The user can retrieve the stored item from the second space 102.
The smart gate according to this embodiment is disposed between the first space 101 disposed on the front side and the second space 102 disposed on the rear side.
The smart gate includes an access gate 100 fixed to the structure, a delivery gate 200 disposed between the first space 101 and the second space 102 and disposed on the side of the access gate, and a security assembly 300 disposed between the access gate 100 and the delivery gate 200, capable of selectively locking or unlocking at least one of the access gate 100 or the delivery gate 200.
In this embodiment, the first space 101 may be a space accessible to a visitor, and the second space 102 may be a space in which the user's privacy should be protected.
Thus, the first space 101 may, for example, a front porch or a community hallway, while the second space 102 may be residential room or foyer. The first space 101 may be public and accessible to outsiders, and the second space 102 may be a secure private space for residents and their guests.
Both the access gate 100 and the delivery gate 200 are disposed between the first space 101 and the second space 102 and separate the first space 102 from the second space 102.
The access gate 100 and the delivery gate 200 are installed in the structure, and the first space 101 and the second space 102 may be divided by the access gate 100 and the delivery gate 200. The structure 10 may be a wall or pillar constituting a building.
The access gate 100 and the delivery gate 200 are installed in the structure, and the first space 101 and the second space 102 may be divided by the access gate 100 and the delivery gate 200. The structure 10 may be a wall or pillar constituting a building.
An opening 15 communicating the first space 101 and the second space 102 is disposed in the structure 10. The access gate 100 is disposed on one side of the opening 15 (right side in this embodiment), the delivery gate 200 is disposed on the other side (left side in this embodiment) of the opening 15, and the security assembly 300 is disposed between the access gate 100 and the delivery gate 200.
In this embodiment, the access gate 100 is used for user access. In this embodiment, the delivery gate 200 is used to store or deliver goods in a non-face-to-face manner. In this embodiment, the numbering of the access gate 100 and the delivery gate 200 does not imply a usage purpose or priority.
The opening 15 is formed through the structure 10. The opening 15 communicates the first space 101 and the second space 102.
The structure 10 includes a first structure 21 disposed on one side (right side in this embodiment) of the opening 15, a second structure 21 disposed on the other side (left side in this embodiment) of the opening 15, a third structure 23 disposed above the opening 15 and a fourth structure 24 disposed below the opening 15 and connecting the first structure 21 and the second structure 22.
The first structure 21 and the second structure 22 may be walls or columns. The third structure 23 may be a ceiling or a wall. The fourth structure 24 may be a floor or a wall.
The structure 10 is disposed between the first space 101 and the second space 102. The opening 15 is formed on inside direction of the structure 10, and the opening 15 is disposed between the first space 101 and the second space 102.
The upper ends of the first structure 21 and the second structure 22 are coupled to the third structure 23 and integrally formed with the third structure 23.
The lower ends of the first structure 21 and the second structure 22 are coupled to the fourth structure 24 and are integrally formed with the fourth structure 24.
The first structure 21, the second structure 22, the third structure 23, and the fourth structure 24 may be part of a building. For example, in the case of a reinforced-concrete structure building, at least one of the first structure 21, the second structure 22, the third structure 23, and the fourth structure 24 may be formed of a concrete material. have. In the case of a wooden building, at least one of the first structure 21, the second structure 22, the third structure 23, and the fourth structure 24 may be wood. In the case of a steel structure building, at least one of the first structure 21, the second structure 22, the third structure 23 and the fourth structure 24 may include a steel material. In case of a brick stone building, the first and second structure can be formed of brick stones, and the third and fourth structure of concrete material.
The smart gate according to the present embodiment can be installed regardless of the building material or manufacturing method of the building.
The opening 15 includes a first opening part 11, a second opening part 12 and a third opening part 13. The access gate 100 is disposed in the first opening part 11. The delivery gate 200 is disposed in the second opening part 12. The security assembly 300 is disposed in the third opening part 13.
One area of the opening 15 forms the first opening part 11. Another area of the opening 15 forms the second opening part 12. And another area of the opening 15 forms the third opening part 13. The size of the opening 15 is identical to the sum of the sizes of the first, second and third opening parts.
The first opening part 11 occupies the largest area of the opening 15, and the third opening part 13 occupies the smallest area of the opening 15. The second opening part 12 is smaller in size than the first opening part 11 and larger than the third opening part 13.
Since the user moves through the access gate 100, it is preferable that the first opening 11 has the widest width and area.
In this embodiment, the first opening part 11, the second opening part 12, and the third opening part 13 have different left and right widths.
At least two of the first opening part 11, the second opening part 12, and the third opening part 13 may have the same height. In this embodiment, the first opening part 11, the second opening part 12, and the third openings part 13 all have the same height. Therefore, the access gate 100, the delivery gate 200, and the security assembly 300 have the same height and have different widths.
The first opening part 11 is disposed on one side of the opening 15 (right side in this embodiment), and the second opening part 12 is disposed on the other side of the opening 15 (left side in this embodiment).
The access gate 100 closes one side of the opening 15. The access door 140 may open and close the first opening part 11.
The delivery gate 200 is arranged with two doors to store or deliver the goods. The delivery gate 200 may open and close at least a portion of the second opening part 12. One of the doors of the delivery gate 200 is exposed to the first space 101 and the other is exposed to the second space 102. The delivery gate 200 closes the other side of the opening 15.
The security assembly 300 occupies the third opening part 13 and closes the third opening part 13. The security assembly 300 may be coupled to and fixed to at least one of the access gate 100, the delivery gate 200, or the structure 10.
FIG. 3 is an exemplary diagram showing a wiring structure of a smart gate according to an embodiment of the present disclosure.
Referring to FIGs. 3 and 8, the entrance gate 100 includes the door frame 120 installed on the structure 10, an access door 140 hinged to the door frame 120 and opening and closing the first opening 11, a handle 400 disposed on the access door 140, a door display 180 disposed on the access door 140, a door hinge 130 rotatably coupling the door frame 120 and the access door 140, and a cable connector 150 disposed between the door frame 120 and the access door 140.
The door frame 120 includes a first door frame 121 in close contact with the first structure 21, a second door frame 122 in close contact with the security assembly 300, a third door frame 123 in close contact with the third structure 23, and a fourth door frame 124 in close contact with the fourth structure 24.
The first door frame 121, the second door frame 122, the third door frame 123, and the fourth door frame 124 are preferably formed of a steel material for security.
The third door frame 123 is disposed above the opening 15, and the fourth door frame 124 is disposed below the opening 15. The first door frame 121 is disposed vertically to one side of the opening 15, and the second door frame 122 is disposed vertically in the middle of the opening 15.
The first door frame 121, the second door frame 122, the third door frame 123, and the fourth door frame 124 occupy the edge of the first opening 11, and the access door 140 occupies the rest of the first opening 11.
In this embodiment, the access door 140 is rotated in a left-right direction to open and close the first opening 11. To this end, the access door 140 is hinge-coupled with either the first door frame 121 or the second door frame 122 according to an opening method.
At least one of the first door frame 121, the third door frame 123, and the fourth door frame 124 must be coupled to the structure 10. It is preferable that the first door frame 121, the third door frame 123, and the fourth door frame 124 are all coupled to and fixed to the structure 10.
The second door frame 122 may be in close contact with the right side of the security assembly 300. It is preferable that the second door frame 122 is coupled to the right side surface of the security assembly 300.
A through hole 125 (FIG. 8) for locking the access gate 100 is formed in the second door frame 122. When the position of the door lock is changed, the position of the through hole 125 may also be changed accordingly.
A locking portion 126 (FIG. 8) are formed in the access door 140 at position opposite to the through hole 125. The through hole 125 and the locking portion 126 is disposed to face each other. In addition, referring to FIGs. 1 to 3, the delivery gate 200 is disposed on the other side (left in this embodiment) of the security assembly 300.
The delivery gate 200 includes a box frame 220 installed on the structure 10 and a storage box 500 assembled on the box frame 220. A plurality of storage boxes 500 may be disposed.
The delivery gate 200 closes the second opening 12, and the first space 101 and the second space 102 can communicate with each other through the storage box 500 on the box frame 220.
The storage box 500 includes a box 510 in which a storage space 505 (FIG. 2) is formed therein, a first box door 520 disposed in the box 510, exposed to the first space 101, and opening and closing the storage space and a second box door 540 disposed in the box 510, exposed to the second space 102, and opening and closing the storage space.
The box 510 has an overall shape in a hexahedral shape, and the storage space 505 is formed therein. The box may be formed in various shapes, and the idea of the present disclosure is not limited by the shape of the box.
In this embodiment, the box 510 is formed in a rectangular parallelepiped shape. The upper, lower, left and right sides of the box 510 are closed.
In this embodiment, two storage boxes 500 are disposed. The storage box disposed on the lower side is defined as a first storage box 500-1, and a storage box stacked on the upper side of the first storage box 500-1 is defined as a second storage box 500-2.
When it is necessary to distinguish the configuration of each storage box 500, the configuration of the first storage box 500-1 is referred to as "first", and the configuration of the second storage box 500-2 is referred to as "second".
The box frame 220 includes a first box frame 221 in close contact with the second structure 22, a second box frame 222 in close contact with the security assembly 300, a third box frame 223 in close contact with the third structure 23 and a fourth box frame 224 in close contact with the fourth structure 24.
The first box frame 221, the second box frame 222, the third box frame 223, and the fourth box frame 224 are preferably formed of a steel material for security.
The first box frame 221 is disposed vertically to the other side of the opening 15, and the second box frame 222 is disposed vertically in the middle of the opening 15. The third box frame 223 is disposed above the opening 15, and the fourth box frame 224 is disposed below the opening 15.
The first box frame 221, the second box frame 222, the third box frame 223 and the fourth box frame 224 occupy the edge of the second opening part 12, and the storage box 500 occupies the rest of the second opening part 12.
Referring to FIG. 3, the security assembly 300 includes a security panel 310 disposed between the access gate 100 and the delivery gate 200, an authentication device 700 disposed on the security panel 310, an access door lock 301, 302 disposed on the security panel 310 and selectively locking or unlocking the access door 140, and a box door lock 303, 304 disposed on the security panel 310 and selectively locking or unlocking the first box door 520.
The dead bolt 301a, 302a of the access door lock 301, 302 is inserted into the locking portion 126 through the through portion 125. When unlocking, the dead bolts 301a and 302a of the access door lock may be located within the through portion 125 or within the access door lock 301, 302.
The dead bolts 303a and 304a of the box door locks 303 and 304 mutually engage with the first box door 520 and lock or unlock the first box door 520.
Meanwhile, referring to FIG. 3, in the smart gate according to the present embodiment, at least two door hinges 130 are disposed. In this embodiment, three door hinges 130 are disposed, and are defined as a first door hinge 131, a second door hinge 132, and a third door hinge 133 in a direction from an upper side to a lower side.
The smart gate according to this embodiment includes a handle 400, a power cable 191 providing power to the door display 180, and a control cable 195 for transmitting a control signal to the handle 400 and the door display 180.
The power cable 191 and the control cable 195 are inserted into the access door 140 through the cable connector 150.
In this embodiment, cable connector 150 includes a plurality of cable connectors. The power cables 191 is installed in one of the plurality of cable connectors 150, and the control cable 195 is installed in the other one of the plurality of cable connectors 150.
In this embodiment, the cable connector 150 to which the power cable 191 is installed is referred to as a first cable connector 150a, and the cable connector 150 to which the control cable 195 is installed is referred to as a second cable connector 150b. There are no special restrictions on the installation positions of the first cable connector 150a and the second cable connector 150b. In this embodiment, the first cable connector 150a is disposed between the first door hinge 131 and the second door hinge 132, and the second cable connector 150b is disposed between the second door hinge 132 and the third door hinge 133. The power cable 191 includes a first cable 192 connected to the authentication device 700 and passing through the first cable connector 150a, a second cable 193 branched from the first cable 192 and connected to the door display 180 and a third cable 194 branched from the first cable 192 and connected to the handle 400.
The first cable 192 may be disposed on the door frame 120. For example, the first cable 192 may be installed by being inserted inside the door frame 120.
The first cable 192 may be disposed between the door frame 120 and the access door 140. In this case, a groove may be formed in the door frame 120 to prevent contact with the access door 140, and the first cable 192 may be inserted into the groove.
One end of the first cable 192 is disposed outside the access door 140, and the other end is disposed inside the access door 140.
One end of the first cable 192 is connected to the authentication device 700, and the other end passes through the first cable connector 150a.
The second cable 193 is disposed inside the access door 140. One end of the second cable 193 is connected to the first cable 192 and the other end is connected to the door display 180.
The third cable 194 is disposed inside the access door 140. One end of the third cable 194 is connected to the first cable 192 and the other end is connected to the handle 400.
In the present embodiment, the power cable 191 branch to a second cable 193 and a third cable 194 to facilitate installation of the first cable connector 150a. The branched portion of the power cable 191 is disposed inside the access door 140.
Unlike this embodiment, a power cable may be connected to the handle 400 and the door display 180, respectively. In this case, one power cable composed of the first cable 192, the second cable 193 and the third cable 194 Is disposed.
When the power cable is branched and used, the number of the first cable connectors 150a can be minimized to one.
The structure of the control cable 195 is the same as that of the power cable 191.
The structure of the control cable 195 is the same as that of the power cable 191.
The control cable 195 includes a first cable 196 connected to the authentication device 700 and passing through the second cable connector 150b, a second cable 197 branched from the first cable 196 and connected to the door display 180 and a third cable 198 branched from the first cable 196 and connected to the handle 400.
The first cable 196 may be disposed on the door frame 120. For example, the first cable 196 may be inserted and installed in the door frame 120.
The first cable 196 may be disposed between the door frame 120 and the entrance door 140. In this case, a groove may be formed in the door frame 120 to prevent contact with the access door 140, and the first cable 196 may be inserted into the groove. One end of the first cable 196 is disposed outside the access door 140, and the other end is disposed inside the access door 140.
One end of the first cable 196 is connected to the authentication device 700, and the other end passes through the second cable connector 150b.
The second cable 197 is disposed inside the access door 140. One end of the second cable 197 is connected to the first cable 196 and the other end is connected to the door display 180.
The third cable 198 is disposed inside the access door 140. One end of the third cable access 198 is connected to the first cable access 196 and the other end is connected to the handle 400. The branched portion of the control cable 195 is disposed inside the access door 140.
FIG. 4 is a perspective view of the cable connector shown in FIG. 3. FIG. 5 is an exemplary view of the operation of FIG. 4. FIG. 6 is a partially cut-away perspective view of the cable connector shown in FIG. 4.
Referring to FIGs. 4 to 6, the cable connector 150 includes a first connector body 152 disposed on either the door frame 120 or the access door 140, a second connector body 154 disposed on the other one of the door frame 120 or the access door 140 and a connection body 160 connecting the first connector body 152 and the second connector body 154.
In this embodiment, the first connector body 152 is installed on the door frame 120, and the second connector body 154 is installed on the access door 140.
The first connector body 152 is embedded in the door frame 120 and only an exposed surface 152a is exposed to the outside. The second connector body 154 is embedded in the access door 140 and only an exposed surface 154a is exposed to the outside. When the access door 140 is closed, the exposed surfaces 152a and 154a are disposed to face each other.
Referring to FIG. 4, the first connector body 152 includes a first body groove 151 concavely formed on the exposed surface 152a. The second connector body 154 includes a second body groove 153 concavely formed on the exposed surface 154a.
Referring to FIG. 4, one end of the connection body 160 is installed on the one side surface 152a, and the other end is installed on the other side surface 154a. One end of the connection body 160 may be inserted into the second body groove 153, and the other end of the connection body 160 may be inserted into the first body groove 151.
Referring to FIG. 4, the connection body 160 includes a first connection case 161 disposed on the first connector body 152, a second connection case 162 disposed on the second connector body 154 and a connection member 165 that is assembled to the first connection case 161 and the second connection case 162 and rotates relative to at least one of the first connection case 161 and the second connection case 162.
Referring to FIG. 4, the first connection case 161 is disposed at one end of the connection body 160 and protrudes from the exposed surface 152a. The second connection case 162 is disposed at the other end of the connection body 160 and protrudes from the exposed surface 154a.
Referring to FIG. 6, a first cavity 163 is formed in the first connection case 161, and a second cavity 164 is formed in the second connection case 162.
Referring to FIG. 4, the cable connector 150 includes a first body groove 151 concavely formed on the exposed surface 152a. The second connector body 154 includes a second body groove 153 concavely formed on the exposed surface 154a.
Referring to FIG. 6, the cable connector 150 further includes a first connection hole 151a formed in the first connector body 152 and communicating the first body groove 151 and the first cavity 163 and a second connection hole 151b formed to penetrate the first connector body 152 and communicating the first body groove 151 and the outside of the first connector body 152. Further, referring to FIG. 6, the cable connector 150 further includes a first connection hole 153a formed in the second connector body 154 and communicating the second body groove 153 and the second cavity 164 and a second connection hole 153b formed to penetrate the second connector body 154 and communicates the second body groove 153 and the outside of the second connector body 154.
Referring to FIG. 5, when the access door 140 is closed, the first connection case 161 may be inserted into the second body groove 153. When the access door 140 is closed, the second connection case 162 may be inserted into the first body groove 151.
The connecting member 165 may be a material having elasticity. One end 165a of the connection member 165 is assembled with the first connection case 161, and the other end 165b of the connection member 165 is assembled with the second connection case 162.
Referring to FIG. 6, the connection member 165 has a hollow 166 formed therein, and the power cable 191 or the control cable 195 may be inserted into the hollow 166.
Referring to FIG. 6, in this embodiment, one end 165a of the connection member 165 is inserted into the first cavity 163 through the first connection case 161 and the other end 165b of the connection member 165 is inserted into the second cavity 164 through the second connection case 162.
In this embodiment, one end 165a of the connecting member 165 may be rotated in the state inserted into the first connection case 161 and the other end 165b of the connecting member 165 may be rotated in the state inserted into the second connection case 162.
Through the rotation of the connecting member 165, the torsional deformation caused by the rotation of the access door 140 can be eliminated.
Since the connection member 165 can be rotated with respect to the connection cases 161 and 162, it is possible to solve the problem that the power cable 191 or the control cable 195 is twisted or entangled.
Referring to FIG. 6, the power cable 191 or the control cable 195 may be inserted inside the access door 140 through the second connection hole 151b of the first connection case 161, the first connection hole 151a of the first connection case 161, the hollow 166 of the connection member 165, the first connection hole 153a of the second connection case 162, and the second connection hole 153b of the second connection case 162.
Although reference numerals are not described, a plurality of fastening holes for fastening the first connector body 152 and the second connector body 154 may be disposed respectively.
FIG. 7 is an exploded perspective view of the entrance gate shown in FIG. 1. FIG. 8 is a perspective view as viewed from the other side of FIG. 7.
Referring to FIG. 7, the access door 140 includes a first panel 1150 exposed at least in part to the first space 101 and a second panel 1160 exposed to the second space 102.
Referring to FIG. 7, the first panel 1150 includes a front portion 1151 exposed to the first space 101, a first side portion 1152 bent toward the second space 102 in the front portion 1151 and disposed to face the first door frame 121, a second side portion 1153 bent toward the second space 102 in the front portion 1151 and disposed to face the second door frame 122, a first rear portion 1154 bent from the first side portion 1152 toward the second door frame 122 and disposed to face the second panel 1160, a second rear portion 1155 bent toward the first door frame 121 in the second side portion 1153 and disposed to face the second panel 1160, and a first handle hole 1156 is formed penetrating the front portion 1151.
The first panel 1150 is preferably formed of a metal material for security and fire prevention performance. The first panel 1150 may be manufactured by bending one plate.
Referring to FIG. 7, the handle 400 is assembled in the first handle hole 1156. The handle 400 may be inserted into the first handle hole 1156 to provide a plane continuous with the front portion 1151.
The first side portion 1152 may be hinge-coupled to the first door frame 121 and may be rotated based on the hinge 130. When the access door 140 is closed, the first side portion 1152 is disposed to face the inner surface of the first door frame 121.
The second side portion 1153 may be rotated around the hinge 130. The second side portion 1153 may be disposed to face the inner surface of the second door frame 122 when the access door 140 is closed.
Referring to FIG. 7, the first rear portion 1154 and the second rear portion 1155 are in close contact with the front surface of the second panel 1160 and are assembled with the second panel 1160 by a fastening member.
Referring to FIG. 7, edges of the first panel 1150 and the second panel 1160 are coupled, and the inner side is spaced apart to form a door inner space 141.
A third panel 1170 on which the door display 180 is installed may be disposed in the door inner space 141. When the door display 180 is disposed, a part of the second panel 1160 may be formed of a transparent material.
Referring to FIG. 7, the third panel 1170 is assembled on at least one of the first panel 1150 and the second panel 1160. A display opening 1171 in which the door display 180 is installed is formed inner side of the third panel 1170. The display opening 1171 is formed to penetrate the third panel 1170.
The third panel 1170 may be used to support the door display 180 and hide various cables connected to the door display 180. The door display 180 is disposed facing the second space 102. In this embodiment, the door display 180 displays information in the second space 102 through the display opening 1171.
Unlike the present embodiment, when the display opening 1171 is not formed on the third panel 1170, the door display 180 is installed on the rear surface of the third panel 1170, and provides Information the user of the second space 102 through a transparent second panel.
In this embodiment, the door display 180 is disposed on the third panel 1170, but unlike the present embodiment, the door display 180 may be disposed directly on the second panel 1160. Referring to FIG. 7, in this embodiment, the second panel 1160 includes a transmission panel 1162 disposed to face the door display 180 and formed of a material that can transmit light, and a fixing panel 1164 coupled to the transmission panel 1162 and the first panel 1150.
Referring to FIG. 7, the fixing panel 1164 in this embodiment includes a first fixing panel 1164a disposed on the left side of the transmission panel 1162, a second fixing panel 1164b disposed above the transmission panel 1162, and a third fixing panel 1164c disposed under the transmission panel 1162. It is preferable that the fixing panel 1164 is formed of a metal material. Unlike the present embodiment, a fourth fixing panel may be disposed on the right side of the transmission panel 1162. It is preferable that the fixing panel 1164 is coupled to at least two edges of the transmission panel 1162 to support the transmission panel 1162.
Referring to FIG. 8, a second handle hole 1166 is formed in the fixing panel 1164, and a second handle 420 is exposed through the second handle hole 1166.
The handle 400 is disposed on the access door 140. The handle 400 may provide a flat surface continuous with the access door 140 and may selectively protrude from the access door 140. The handle 400 includes a first handle 410 protruding from the access door 140 toward the first space 101, a second handle 420 protruding from the access door 140 toward the second space 102, and a handle driving device (not shown) for selectively moving at least one of the first handle 410 and the second handle 420. The first handle 410 may provide a plane continuous with the first panel 1150 to maintain a state accommodated in the first panel 1150. The first handle 410 may cover the first handle hole 1156 and may form a plane with the front portion 1151 of the first panel 1150.
The first handle 410 may protrude toward the first space 101 than the front portion 1151 when the first handle 410 is used and may be positioned on the same plane as the front portion 1151 when the first handle 410 is not in use.
The second handle 420 may provide a plane continuous with the second panel 1160 to maintain a state accommodated in the second panel 1160. The second handle 420 may cover the second handle hole 1166 and form a plane with the fixing panel 1164 of the second panel 1160.
The second handle 420 may protrude toward the second space 102 than the fixing panel 1164 only when the second handle 420 is used and may be positioned on the same plane as the fixing panel 1164 when the second handle 420 is not in use.
Meanwhile, the outer surface of the first door frame 121 is in close contact with the first structure 21, and the inner surface 121a is disposed toward the access door 140.
A first insertion groove 171 is disposed in the inner surface 121a of the first door frame 121, and the first connector body 152 (FIG. 4) is inserted into the first insertion groove 171. Likewise, a second insertion groove 172 or an insertion hole may be formed in the first side portion 1152, and the second connector body 154 is inserted into the second insertion groove 172.
Since the first connector body 152 and the second connector body 154 are inserted and disposed, the separation distance between the access door 140 and the first door frame 121 can be minimized.
FIG. 9 is a schematic front view of the authentication device shown in FIG. 3.
Referring to FIG. 9, the authentication device 700 includes a case 710, a display 720, a camera 730, a light emitting member 740, an illuminance sensor 750, a proximity sensor 760, a microphone 770, and a speaker 780.
The case 710 is installed on the security panel 310 and is disposed on the first space 101 side of the security panel 310. In this embodiment, the case 710 is installed by being inserted into the security panel 310.
In this embodiment, the case 710 is formed in a rectangular parallelepiped shape. Unlike the present embodiment, the case 710 may have other shapes.
The display 720 is installed in the case 710 and is disposed facing the first space 101. Information on the display 720 can be checked from the first space 101.
A plurality of cameras 730 may be disposed. In this embodiment, the cameras include an external call image camera 732, a vein authentication camera 734 for vein authentication, and a face recognition camera 736 for facial authentication.
The light emitting member 740 is formed to surround the vein authentication camera 734, the face recognition camera 736, the illuminance sensor 750, and the proximity sensor 760. The light emitting member 740 may emit light to confirm the positions of the vein authentication camera 734 and the face recognition camera 736.
In addition, the light emitted from the light emitting member 740 provides light to the image camera 732, the vein authentication camera 734, the face recognition camera 736, and the illuminance sensor 750. Even if the illuminance is low, the recognition rate of the image camera 732, the vein authentication camera 734, the face recognition camera 736, and the illuminance sensor 750 may be improved through the light emitted from the light emitting member 740.
The controller may operate the light emitting member 740 according to a value sensed by the illuminance sensor 750.
According to the value detected by the proximity sensor 760, at least one of the display 720, the camera 730, the light emitting member 740, the illuminance sensor 750, the proximity sensor 760, the microphone 770, the speaker 780 can be operated.
In this embodiment, the authentication device 700 performs vein authentication after the user's facial authentication. That is, the authentication device 700 checks the user through the face recognition camera 736 and then checks the user's vein through the vein authentication camera 734.
The smart gate according to the present disclosure has one or more of the following effects.
First, the present disclosure has the advantage of providing power and control signals to the access door of a rotatable structure, since the cable connector is installed on the door frame and the access door and the power cable and the control cable are connected to the handle and the door display through the cable connector.
Second, the present disclosure has the advantage of eliminating the distortion caused by rotation of the access door, since the connection body into which the cable is inserted is capable of relative rotation with at least one of the door frame and the access door.
Third, the present disclosure has the advantage of minimizing the separation distance when the access door is closed, since the connection case in which the cable is installed is inserted into the groove of the opposite connector body.
Fourth, the present disclosure has the advantage of minimizing the risk of hacking, since the authentication device is disposed to separate from the access door and the control signal of the authentication device is provided to the handle through a wired cable.
Fifth, the present disclosure has the advantage of minimizing the risk of damage to the power cable and a short circuit, since external power is supplied to the door display disposed on the access door through a power cable and the power cable passes through the inside of the cable connector.
The effects of the present disclosure are not limited to the effects mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

Claims

A smart gate comprising:
a door frame (120) installed at a structure;

an access door (140) for opening or closing an opening (11);

a door hinge (130) rotatably coupling the access door (140) to the door frame (120);

a handle (400) disposed at the access door (140);

a door display (180) disposed at the access door (140);

a cable connector (150) disposed between the door frame (120) and the access door (140); and

a power cable (191) receiving power from an outside of the access door (140) and supplying power to the handle (400) and the door display (180),

wherein the power cable (191) is inserted into the access door (140) through the cable connector (150), and is connected to the handle (400) and the door display (180).
The smart gate of claim 1, wherein the power cable (191) includes:
a first cable (192) having one end disposed outside of the access door (140), the other end disposed inside of the access door (140) passing through the cable connector (150);

a second cable (193) branched from the first cable (192) and connected to the door display (180); and

a third cable (194) branched from the first cable (192) and connected to the handle (400).
The smart gate of claim 2, wherein the first cable (192) is disposed between the door frame (120) and the access door (140).
The smart gate of claim 2, wherein the first cable (192) is disposed inside the door frame (120).
The smart gate of any one of claims 1 to 4, wherein the cable connector (150) includes:
a first connector body (152) disposed at one of the door frame (120) and the access door (140);

a second connector body (154) disposed at the other one of the door frame (120) and the access door (140); and

a connection body (160) connecting the first connector body (152) and the second connector body (154).
The smart gate of claim 5, wherein the connection body (160) has a hollow (166) there inside, and the power cable (191) is disposed to pass through the hollow (166).
The smart gate of claim 6, wherein the connection body (160) includes:
a first connection case (161) disposed at the first connector body (152);

a second connection case (162) disposed at the second connector body (154); and

a connection member (165) connecting the first connection case (161) and the second connection case (162), and rotatably connected to at least one of the first connection case (161) and the second connection case (162).
The smart gate of claim 7, further comprising:
a first body groove (151) formed at the first connector body (152); and

a second body groove (153) formed at the second connector body (154) ,

wherein the first connection case (161) is inserted into the second body groove (153) and the second connection case (162) is inserted into the first body groove (151), when the access door (140) is closed.
The smart gate of any one of claims 5 to 8, further comprising:
a first insertion groove (171) formed at the door frame (120), wherein the first connector body (152) is inserted into the first insertion groove (171); and

a second insertion groove (172) formed at the access door, wherein the second connector body (154) is inserted into the second insertion groove (172).
The smart gate of any one of claims 1 to 9, further comprising:
a security panel (310);

an authentication device (700) disposed at the security panel (310); and

a control cable (195) transmitting a control signal of the authentication device (700) to the handle (400) or the door display (180).
The smart gate of claim 10, wherein the cable connector (150) includes:
a first cable connector (150a) passing the power cable (191) there through; and

a second cable connector (150b) passing the control cable (195) there through.
The smart gate of claim 10, or 11, wherein the control cable (195) includes:
a first cable (196) connected to the authentication device (700) and passing through the second cable connector (150b);

a second cable (197) branched from the first cable (196) and connected to the door display (180); and

a third cable (198) branched from the first cable (196) and connected to the handle (400).
The smart gate of claim 12, wherein the first cable (196) of the control cable (195) is disposed between the door frame (120) and the access door (140).
The smart gate of claim 12, wherein the first cable (196) of the control cable (195) is disposed inside the door frame (120).