WO2022010074A1 - Smart gate - Google Patents

Abstract

Provided is a smart gate, and more particularly, to a smart gate including an entrance door disposed between a first space defined in front of a structure and a second space defined behind the structure and configured to open and close a connection passage connecting the first space and the second space; an authenticator disposed on the entrance door and configured to authenticate a user, a storage portion disposed at one side of the entrance door and between the first space and the second space together with the entrance door and configured to store delivered goods at room temperature or a low temperature, a supporter that extends vertically along a boundary between the entrance door and the storage portion, and a lock disposed on the supporter and engaged to lock or unlock each of the entrance door and the storage portion.

Description

SMART GATE

The present disclosure relates to a smart gate installed in a building and that may be accessed by a user.

A front door of a house such as an apartment includes an inlet hole for putting delivered goods such as milk, yogurt, and newspaper into an indoor space thereof. In addition, as a locking device is disposed at the front door, the front door may be opened when the locking device is unlocked.

However, there is a problem in that relatively bulky delivery goods may not be put through the inlet hole of the front door in related art, thereby increasing a risk of loss of the delivery goods. In addition, when the front door includes the inlet hole, there is a problem in that outsiders may unlock the locking device disposed at the front door through the inlet hole, thereby resulting in weak security.

Korean Registered Utility Model Publication No. 20-0357547 discloses a refrigerator for take delivery of food disposed on the wall contacting a front door. The refrigerator includes a storage opening and closing door disposed at an outside of the front door and a receiving opening and closing door disposed at an inside of the front door.

However, the refrigerator has a problem in that, as the storage opening and closing door disposed at the outside of the front door may be opened and only the receiving opening and closing door disposed at the inside of the front door includes a locking device, goods stored in the outside space are stolen. Accordingly, there is a need for improving the above issue.

The background technology of the present disclosure is disclosed in Korean Registered Utility Model Publication No. 20-0357547 (registered on July 19, 2004 and disclosure title: Refrigerator for take delivery of food).

The present disclosure provides a smart gate including an authenticator to improve security of a front door and a storage portion.

The present disclosure provides a smart gate to store delivered goods in a storage portion, thereby preventing loss of the delivered goods.

The present disclosure provides a smart gate in which an outsider may not unlock a locking device disposed at a front door through an inlet hole because the front door does not include an addition inlet hole.

The present disclosure provides a smart gate capable of preventing loss of delivered goods stored in the storage portion as the locking device is disposed for each door of the storage portions.

The present disclosure provides a smart gate to prevent external intrusion by concealing the authenticator and the lock.

The objects of the present disclosure are not limited to the above-mentioned objects, and other objects and advantages of the present disclosure that are not mentioned may be understood by the following description, and will be more clearly understood by embodiments of the present disclosure. In addition, it will be easily understood that the objects and advantages of the present disclosure may be realized by features described in claims and a combination thereof.

For a smart gate according to the present disclosure for addressing the above-described problems, an authenticator to authenticate a user is disposed on at least one of an entrance door or a storage portion and authenticates a user.

In addition, the authenticator to authenticate the user is disposed on a rotating first door body and is rotated together with the first door body to open and close a connection passage.

In addition, the authenticator to authenticate the user may be disposed at a fixed second door frame.

In addition, the authenticator to authenticate the user may be disposed on a first storage door or a second storage door of a storage portion facing a first space.

In addition, the authenticator to authenticate the user may be disposed on a first fixing portion or a second fixing portion of the storage portion.

In addition, the authenticator functions to authenticate the user and locking of the storage portion and the entrance door may be controlled by a locking pillar disposed at a rear side of the storage portion and the entrance door.

In addition, according to the present disclosure, a smart gate may include an entrance door disposed between a first space defined in front of a structure and a second space defined behind the structure and configured to open and close a connection passage connecting the first space and the second space, an authenticator disposed on the entrance door and configured to authenticate a user, a storage portion disposed at one side of the entrance door and between the first space and the second space together with the entrance door, and configured to store delivered goods at room temperature or a low temperature, a supporter that extends vertically along a boundary between the entrance door and the storage portion, and a lock disposed on the supporter and engaged to lock or unlock each of the entrance door and the storage portion.

In addition, the authenticator may include at least one of a camera configured to capture a user located at a front, a microphone configured to receive voice of the user located at the front, a speaker configured to generate sound, a display configured to output an image, a light emitting member configured to transmit light toward the front, or an illumination sensor configured to measure illumination.

In addition, the entrance door may include a first door frame coupled to the structure and a first door body rotatably connected to the first door frame and configured to place the authenticator.

In addition, the authenticator may be disposed on a front surface of the first door body facing the first space.

In addition, the entrance door may include a second door frame coupled to the structure and at which the authenticator is disposed and a second door body rotatably connected to the second door frame.

In addition, the second door frame may include a second door frame body coupled to the structure and having a rectangular shape and a fixing frame that extends from the second door frame body and is flush with the second door body, and configured to place the authenticator.

In addition, the authenticator may be disposed on a front surface of the fixing frame facing the first space.

In addition, the supporter may be disposed on a rear surface of the entrance door and the storage portion and may be concealed from the first space.

In addition, the storage portion may be disposed at one side of the entrance door and include a first storage portion configured to store the delivered goods at room temperature or a low temperature and a second storage portion disposed under the first storage portion and configured to store the delivered goods at room temperature or a low temperature.

In addition, the first storage portion may include a first main body defining a first inner space configured to store the delivered goods, a first door disposed on at least one of a side surface or a rear surface of the first main body facing the second space and configured to open and close the first inner space, and a first storage door configured to open and close a front portion of the first main body facing the first space.

In addition, the second storage portion may include a second main body defining a second inner space configured to store the delivered goods, a second door disposed on at least one of a side surface or a rear surface of the second main body facing the second space and configured to open and close the second inner space, a second storage door configured to open and close a front portion of the second main body facing the first space.

In addition, the lock may include a front door lock coupled to the supporter and engaged to lock or unlock the entrance door, a first lock coupled to the supporter and engaged to lock or unlock the first storage door, and a second lock coupled to the supporter and engaged to lock or unlock the second storage door.

In addition, the front door lock, the first lock, and the second lock may each be inserted into the supporter.

In addition, according to the present disclosure, a smart gate may include an entrance door disposed between a first space defined in front of a structure and a second space defined behind the structure and configured to open and close a connection passage connecting the first space and the second space, a storage portion disposed at one side of the entrance door and between the first space and the second space together with the entrance door, and configured to store delivered goods at room temperature or a low temperature, an authenticator disposed on the storage portion and configured to authenticate a user, a supporter that extends vertically along a boundary between the entrance door and the storage portion, and a lock disposed on the supporter, engaged to lock or unlock each of the entrance door and the storage portion.

In addition, the storage portion may be disposed at one side of the entrance door and include a first storage portion configured to store the delivered goods at room temperature or a low temperature and a second storage portion disposed under the first storage portion and configured to store the delivered goods at room temperature or a low temperature.

In addition, the first storage portion may include a first main body defining a first inner space configured to store the delivered goods, a first door disposed on at least one of a side surface or a rear surface of the first main body facing the second space and configured to open and close the first inner space, and a first storage door configured to open and close a front portion of the first main body facing the first space and configured to place the authenticator.

In addition, the first storage portion may include a first main body defining a first inner space configured to store the delivered goods and place the authenticator, a first door disposed on at least one of a side surface or a rear surface of the first main body facing the second space and configured to open and close the first inner space, and a first storage door configured to open and close a front portion of the first main body facing the first space.

In addition, the second storage portion may include a second main body defining a second inner space configured to store the delivered goods, a second door disposed on at least one of a side surface or a rear surface of the second main body facing the second space and configured to open and close the second inner space, and a second storage door configured to open and close a front portion of the second main body facing the first space and place the authenticator.

In addition, the second storage portion may include a second main body defining a second inner space configured to store the delivered goods and place the authenticator, a second door disposed on at least one of a side surface or a rear surface of the second main body facing the second space and configured to open and close the second inner space, and a second storage door configured to open and close a front portion of the second main body facing the first space.

In addition, the lock may include the front door lock coupled to the supporter and engaged to lock or unlock the entrance door, the first lock coupled to the supporter and engaged to lock or unlock the first storage portion, and the second lock coupled to the supporter and engaged to lock or unlock the second storage portion.

According to the present disclosure, for a smart gate, an authenticator is disposed on an entrance door or a storage portion and authenticates a user, thereby improving security and space utilization.

In addition, according to the present disclosure, opening and closing of the entrance door and the storage portion are controlled by a locking pillar disposed at a rear side of the storage portion and the entrance door, thereby improving security and space utilization.

In addition, according to the present disclosure, the authenticator authenticates the user and unlocks each of the entrance door and the storage portion. In this case, the user may receive delivered goods in a non-face-to-face manner, thereby improving security.

In addition, according to the present disclosure, the delivery goods may be stored inside the storage portion, thereby preventing loss of the delivery goods.

In addition, according to the present disclosure, a locking device is disposed for each door of the storage portions, thereby preventing the loss of the delivered goods and external intrusion through the storage portion.

In addition, according to the present disclosure, the entrance door does not include an additional inlet hole and the storage portion that may be used only by an authenticated user is disposed at a side of the entrance door, thereby preventing the external intrusion through the inlet hole.

In addition, according to the present disclosure, the locking device to control the locking of the entrance door and the storage portion is concealed from a first space, thereby preventing the external intrusion and improving security.

In addition to the above-described effects, further effects of the present disclosure are described together with explanations of specific matters to implement the present disclosure.

FIG. 1 is a perspective view showing a smart gate disposed according to a first embodiment of the present disclosure.

FIG. 2 is a perspective view showing a locking pillar disposed at a smart gate according to a first embodiment of the present disclosure.

FIG. 3 is a perspective view showing main components of a smart gate according to a first embodiment of the present disclosure.

FIG. 4 is a front view showing a smart gate according to a first embodiment of the present disclosure.

FIG. 5 is a perspective view showing an entrance door according to a first embodiment of the present disclosure.

FIG. 6 is an exploded perspective view showing an entrance door according to a first embodiment of the present disclosure.

FIG. 7 is an exploded perspective view showing an authenticator according to a first embodiment of the present disclosure.

FIG. 8 is a front view showing a smart gate according to a second embodiment of the present disclosure.

FIG. 9 is a perspective view showing an entrance door according to a second embodiment of the present disclosure.

FIG. 10 is a front view showing a smart gate according to a third embodiment of the present disclosure.

FIG. 11 is a front view showing a smart gate according to a fourth embodiment of the present disclosure.

FIG. 12 is a front view showing a smart gate according to a fifth embodiment of the present disclosure.

FIG. 13 is a perspective view showing a storage portion according to a fifth embodiment of the present disclosure.

FIG. 14 is a front view showing a smart gate according to a sixth embodiment of the present disclosure.

FIG. 15 is a perspective view showing a storage portion according to a sixth embodiment of the present disclosure.

The above-mentioned objects, features, and advantages of the present disclosure are described in detail with reference to accompanying drawings. Accordingly, the skilled person in the art to which the present disclosure pertains may easily implement the technical idea of the present disclosure. A detailed description of a well-known technology relating to the present disclosure may be omitted if it unnecessarily obscures the gist of the present disclosure. Hereinafter, one or more embodiments of the present disclosure are described in detail with reference to the accompanying drawings. In the drawings, same reference numerals are used to refer to same or similar components.

[First embodiment]

FIG. 1 is a perspective view showing a smart gate 1 disposed according to a first embodiment of the present disclosure. FIG. 2 is a perspective view showing a locking pillar disposed at a smart gate 1 according to a first embodiment of the present disclosure. FIG. 3 is a perspective view showing main components of a smart gate 1 according to a first embodiment of the present disclosure.

As shown in FIGS. 1 to 3, a smart gate 1 authenticates a user and opens an entrance door 20. The smart gate 1 blocks access for an unauthorized person. In addition, the smart gate 1 may authenticate the user with an authenticated code or authenticated body information and then open a storage portion 70 or the entrance door 20. In addition, as the smart gate 1 controls locking of the storage portion 70 after authenticating an outsider, the user may take out delivered goods 210 stored in the storage portion 70.

According to the first embodiment of the present disclosure, a first space (A) is defined in front of the smart gate 1 and a second space (B) is defined behind the smart gate 1. That is, the smart gate 1 partitions the first space (A) and the second space (B). In this case, the first space (A) may be a space accessible to outsiders and the second space (B) may be a space where user privacy needs be protected.

In addition, for the smart gate 1 according to the present disclosure, an electrical portion 120 is disposed on the entrance door 20 to authenticate a user. According to the first embodiment of the present disclosure, the smart gate 1 may include an entrance door 20, a storage portion 70, an authenticator 111, and a locking pillar 200.

[Structure]

An entrance door 20 and a storage portion 70 may each be disposed in a structure 10 and a first space (A) and a second space (B) may be partitioned by the entrance door 20, the storage portion 70, and an authenticator 111. The structure 10 may be the wall or a pillar of a building. The structure 10 provides a connection passage (C) to communicate the first space (A) with the second space (B).

According to a first embodiment of the present disclosure, the structure 10 includes a first structure 11, a second structure 12, a third structure 13, and a fourth structure 14. The first structure 11 is disposed at a first side of the connection passage (C) (i.e., the right side of FIG. 1) and extends vertically. The second structure 12 is disposed at a second side of the connection passage (C) (i.e., the left side of FIG. 1) and extends vertically. The third structure 13 is disposed on the connection passage (C) and extends horizontally. The fourth structure 14 is disposed under the connection passage (C), extends horizontally, and connects the first structure 11 and the second structure 12. The first structure 11 and the second structure 12 may each be the wall or a pillar. The third structure 13 may be the ceiling or the wall. The fourth structure 14 may be the floor or the wall.

The third structure 13 is coupled to upper portions of the first structure 11 and the second structure 12 and may be integrated with the first structure 11 and the second structure 12. The fourth structure 14 may be coupled to lower portions of the first structure 11 and the second structure 12 and be integrated with the first structure 11 and the second structure 12. The first structure 11, the second structure 12, the third structure 13, and the fourth structure 14 may be components of a building and may be integrated with one another. For example, when the structure 10 is a reinforced-concrete structure building, at least one of the first structure 11, the second structure 12, the third structure 13, or the fourth structure 14 may be made of concrete. Alternatively, when the structure 10 is a wooden building, the at least one of the first structure 11, the second structure 12, the third structure 13, or the fourth structure 14 may be made of wood. Alternatively, when the structure 10 is a steel-frame structure building, the at least one of the first structure 11, the second structure 12, the third structure 13, or the fourth structure 14 may be made of steel.

Meanwhile, the smart gate 1 according to the first embodiment of the present disclosure may be installed irrespective of the construction materials of the structure 10 or a method of manufacturing the structure 10.

[Entrance door]

FIG. 4 is a front view showing a smart gate 1 according to a first embodiment of the present disclosure. FIG. 5 is a perspective view showing an entrance door 20 according to a first embodiment of the present disclosure. FIG. 6 is an exploded perspective view showing an entrance door 20 according to a first embodiment of the present disclosure.

As shown in FIGS. 4 to 6, the entrance door 20 may be variously modified within the technical idea of opening and closing a connection passage (C) in order for a user to enter and exit through the connection passage (C). The entrance door 20 is disposed between a first space (A) defined in front of a structure 10 and a second space (B) defined behind the structure 10. In addition, the entrance door 20 opens and closes the connection passage (C) to connect the first space (A) and the second space (B). The entrance door 20 may be operated in a sliding manner or about a hinge.

According to the first embodiment of the present disclosure, the entrance door 20 may include a first door frame 30, a first door body 40, and a handle 67.

The door frame 30 is coupled to the structure 10 and the connection passage (C) is defined at an inside of the first door frame 30. The first door frame 30 is disposed along an outer circumference of the first door body 40 and rotatably supports the first door body 40. The first door frame 30 may have a rectangular frame shape.

According to the first embodiment of the present disclosure, the first door frame 30 may include a first frame 31, a second frame 32, a third frame 35, and a fourth frame 36.

The first frame 31 is provided at a position facing a first structure 11 and extends vertically. According to the first embodiment of the present disclosure, the first frame 31 is a rectangular panel and is coupled in contact with an inner side of the first structure 11. The first frame 31 is disposed at a first side of the connection passage (C) (i.e., on the right side of FIG. 6).

The second frame 32 is provided at a position opposite to the first frame 31 and extends vertically. According to the first embodiment of the present disclosure, the second frame 32 is a rectangular panel and is disposed in parallel to the first frame 31. The second frame 32 is disposed at a second side of the connection passage (C) (i.e., the left side of FIG. 6). The second frame 32 is disposed between the entrance door 20 and the storage portion 70.

The third frame 35 is provided at a position facing the third structure 13 and extends horizontally. According to the first embodiment of the present disclosure, the third frame 35 is a rectangular panel and is coupled in contact with a lower portion of the third structure 13. The third frame 35 is disposed on the connection passage (C). In addition, the third frame 35 connects an upper portion of the first frame 31 to an upper portion of the second frame 32.

The fourth frame 36 is provided at a position facing the fourth structure 14 and extends horizontally. According to the first embodiment of the present disclosure, the fourth frame 36 is a rectangular panel and is coupled in contact with the fourth structure 14. The fourth frame 36 is disposed under the connection passage (C). In addition, the fourth frame 36 connects a lower portion of the first frame 31 to a lower portion of the second frame 32. The fourth frame 36 is disposed in parallel to the third frame 35.

The first frame 31, the second frame 32, the third frame 35, and the fourth frame 36 are preferably made of steel for security.

According to the first embodiment of the present disclosure, the first door body 40 is connected to the first door frame 30 using a hinge and is rotated about the hinge to open and close the connection passage (C).

At least one of the frames of the first door frame 30 except for the frame coupled to the entrance door 20 using the hinge may be removed. According to the present embodiment, the at least one of the second frame 32, the third frame 35, or the fourth frame 36 except for the first frame 31 may be removed. In addition, the at least one of the first frame 31, the third frame 35, or the fourth frame 36 is coupled to the structure 10. Advantageously, the first frame 31, the third frame 35, and the fourth frame 36 are all coupled to the structure 10.

The first door body 40 may be variously modified within the technical idea of being rotatably connected to the first door frame 30 and opening and closing the connection passage (C). The first door body 40 may have a known door shape or may be provided as a single member.

According to the first embodiment of the present disclosure, the first door body 40 includes a first panel 41 disposed at the front and a second panel 45 disposed at the rear. In addition, the first door body 40 may further include a third panel 50 and a door display 51 disposed between the first panel 41 and the second panel 45.

The first panel 41 includes a front portion 42 exposed to the first space (A) and a door side portion 43 that is bent from the front portion 42 toward the second space (B). In addition, the first panel 41 includes a first hand-hole 44 for inserting a handle 67.

In addition, an authenticator 111 is coupled to the first panel 41, and for the coupling, the first panel 41 includes an installation hole for inserting the authenticator 111. The authenticator 111 may be variously modified, for example, the authenticator 111 may be coupled to the first panel 41, and as necessary, the authenticator 111 may be coupled to a second panel 45 or a third panel 50.

The front portion 42 of the fist panel 41 is preferably made of metal to improve security and fire prevention performance. The first panel 41 may be manufactured by bending a single plate. The front portion 42 may have a rectangular panel shape, and may be changed into various shapes as necessary.

The door side portion 43 is disposed along an edge of the front portion 42 and is bent from the front portion 42. The door side portion 43 may be rotatably disposed on the first door frame 30. Alternatively, various modifications may be made, for example, the second panel 45 may be connected to the first door frame 30 using a hinge.

The handle 67 is assembled to the first hand-hole 44 defined at the front portion 42. The handle 67 may be inserted into the first hand-hole 44 to be flush with the front portion 42 and may protrude forward from the front portion 42. If the handle 67 is flush with the front portion 42, the handle 67 may protrude outward from the front portion 42 after user authentication is completed.

The second panel 45 faces the first panel 41 and has a vertical shape. An edge of the first panel 41 is coupled to an edge of the second panel 45 and an inside portion of the first panel 41 is spaced apart from an inside portion of the second panel 45 to define a door inner space 52.

A third panel 50 may be further disposed in a door inner space 52, and a door display 51 is coupled to the third panel 50. When the door display 51 is disposed in the door inner space 52, some of the second panel 45 may be made of a transparent material.

The third panel 50 is assembled to at least one of the first panel 41 or the second panel 45. The third panel 50 supports the door display 51 and may be used to hide various cables 195 connected to the door display 51.

The door display 51 faces a second space (B). In one embodiment, the door display 51 displays information toward the second space (B). The door display 51 may be inserted into a mounting hole of the third panel 50, and the door display 51 is disposed on a rear surface of the third panel 50 as necessary.

The door display 51 is disposed on the rear surface of the third panel 50 to provide information to the user located in the second space (B) through the transparent second panel 45. In one embodiment, the door display 51 is disposed on the third panel 50. In another embodiment, the door display 51 may be disposed directly on the second panel 45.

The authenticator 111 may face the door display 51, and as necessary, the authenticator 111 may not overlap with the door display 51. In addition, a display 124 of the authenticator 111 and the door display 51 of the entrance door 20 may provide image information to a user located in a second space (B). In addition, the display 124 disposed on the authenticator 111 may provide the image information to the user located in the first space (A) and the door display 51 may provide the image information to the user located in the second space (B).

In one embodiment, the second panel 45 includes a transmission panel 46 facing the door display 51 and made of a light-transmitting material and a fixed panel 47 coupled to the transmission panel 46. The fixing panel 47 may be flush with the transmission panel 46.

The handle 67 is disposed at the first door body 40. The handle 67 may be flush with the first door body 40 and may protrude outward from the first door body 40 as necessary. The handle 60 may be variously modified within the technical idea of being coupled to the first door body 40 and gripped by a user to facilitate movement thereof. According to the first embodiment of the present disclosure, the handle 67 includes a first handle 68 that protrudes from the first door body 40 toward the first space (A), a second handle 69 that protrudes from the first door body 40 toward the second space (B), and a handle driving device (not shown) configured to selectively move at least one of the first handle 68 or the second handle 69.

The handle 67 may protrude outward from the first door body 40 and be provided as a fixed door handle. Only when the user is authenticated, the handle 67 may protrude outward from the first door body 40.

The first handle 68 is flush with the first panel 41 and may be accommodated in the first panel 41. The first handle 68 may be inserted into the first hand-hole 44 and be flush with the front portion 42 of the first panel 41.

The second handle 69 may be flush with the second panel 45 and be accommodated in the second panel 45. The second handle 69 may be inserted into the second hand-hole 48 and may be flush with the fixing panel 47 of the second panel 45. The second hand-hole 48 may be defined at the fixing panel 47.

The first handle 68 is flush with the first panel 41 of the first door body 40, and when the first handle 68 is used, the first handle 61 protrudes outward from the first panel 41. The second handle 69 is flush with the second panel 45 of the first door body 40, and when the second handle 62 is used, the second handle 62 protrudes outward from the secpmd panel 45.

[Storage portion]

As shown in FIG. 2, a storage portion 70 is disposed at one side of an entrance door 70. The storage portion 70 may be disposed on the left side (see FIG. 2) of the entrance door 20, and as necessary, the storage portion 70 may be disposed on at least one of a right side, an upper side, a lower side, a front side, or a rear side of the entrance door 20. According to a first embodiment of the present disclosure, the storage portion 70 may include a plurality of spaces to store delivered goods 210. In addition, various modifications may be made, for example, clothing and fresh food may be stored in the storage portion 70. The storage portion 70 is disposed side by side with the entrance door 20. In addition, the storage portion 70 may be disposed at a boundary between a first space (A) and a second space (B) together with the entrance door 20.

A user may store goods in the storage portion 70 in an outside space which is the first space (A) and take out the stored goods in an indoor space which is the second space (B). In this case, the user may receive the delivery goods 210 in a non-face-to-face manner, thereby improving security. According to the first embodiment of the present disclosure, the storage portion 70 may include a first storage portion 80 and a second storage portion 90.

[First storage portion]

A first storage portion 80 may store delivered goods 210 at room temperature or a low temperature. In addition, the first storage portion 80 is disposed side by side with an entrance door 20. A right side of the first storage portion 80 may be provided at a position facing a left side of the entrance door 20 and an additional component may be disposed between the first storage portion 80 and the entrance door 20.

In the present disclosure, the first storage portion 80 is used for refrigeration or freezing and the second storage portion 90 is used for room-temperature storage. However, as necessary, various modifications may be made, for example, the second storage portion 90 may be used for the refrigeration or the freezing and the first storage portion 80 may be used for room-temperature storage.

According to the first embodiment of the present disclosure, the first storage portion 80 may be used for temporary storage and accommodation of the delivery goods 210 requiring temperature control. In this example, a temperature control component may be disposed in the first storage portion 80.

For example, a thermoelectric module configured to provide cooling or heating may be disposed in the first storage portion 80. When the thermoelectric module is disposed, cool air and warm air may be provided as necessary by controlling a current applied to the thermoelectric module.

In addition, when the first storage portion 80 is used for refrigeration or freezing, components of the refrigerator may be disposed in the first storage portion 80. When the components of the refrigerator are disposed, a compressor to compress refrigerant, a condenser to exchange heat between the compressed refrigerant and outside air, an expansion valve to expand the condensed refrigerant, and an evaporator to exchange heat between air in the first inner space 82 and the expanded refrigerant may each be disposed in the first storage portion 80. Alternatively, various modifications may be made, for example, the main components of the refrigerator are disposed at the outside of the first storage portion 80 and only the evaporator may be disposed at an inside of the first main body 81.

Alternatively, when the thermoelectric module or a refrigeration cycle is used to adjust an air temperature of the first storage portion 80, an insulating material is disposed on the first main body 81 and a packing member may be disposed at peripheries of the first door 83 and the first storage door 85 to block air movement.

According to the first embodiment of the present disclosure, the first storage portion 80 may include a first main body 81, a first door 83, a first storage door 85, and a first door lock 84.

The first main body 81 may be variously modified within the technical idea of providing the first inner space 82 to store the delivered goods 210. According to the first embodiment of the present disclosure, the first main body 81 has a rectangular parallelepiped shape. A first storage door 85 is disposed at a front side of the first main body 81 facing the first space (A) and the first door 83 is disposed at a side surface or a rear surface of the first main body 81 facing the second space (B).

The first door 83 may be variously modified within the technical idea of being disposed on at least one of the side surface or the rear surface of the first main body 81 facing the second space (B) and opening and closing the first inner space 82.

In addition, the first storage door 85 opens and closes a front portion of the first main body 81 facing the first space (A). In addition, the first storage door 85 may be variously modified within the technical idea of being locked and unlocked by an operation of a first lock 204 under the control of the authenticator 111.

The first storage door 85 is a door used by a user located in the first space (A) and the first door 83 is a door used by a user located in the second space (B). The first storage door 85 and the first door 83 are operated by a hinge, and as necessary, the first storage door 85 and the first door 83 are operated in various operating manners including a sliding manner to open and close the first inner space 82.

In addition, the first door lock 84 is disposed at the first main body 81 to restrict the movement of the first door 83, and as necessary, the first door lock 84 may also be disposed in the other structure 10 facing the first door 83.

[Second storage portion]

A second storage portion 90 may be variously modified within the technical idea of being disposed under a first storage portion 80 and storing delivered goods 210 at room temperature or a low temperature. The second storage portion 90 is disposed at a side surface of an entrance door 20 and is disposed side by side with the entrance door 20. The second storage portion 90 may be provided at a side surface of a lower portion of the entrance door 20, and an additional component may be disposed between the second storage portion 90 and the entrance door 20.

In one embodiment, as the second storage portion 90 is used for temporary storage and accommodation of the delivery goods 210 that do not require temperature control, a temperature control component is not disposed in the second storage portion 90.

According to a first embodiment of the present disclosure, the second storage portion 90 may include a second main body 91, a second door 93, a second storage door 95, and a second door lock 94.

The second main body 91 may be variously modified within the technical idea of providing a second inner space 92 to store the delivered goods 210. According to the first embodiment of the present disclosure, the second main body 91 has a rectangular parallelepiped shape. The second storage door 95 is disposed on a front surface of the second main body 91 facing a first space (A) and the second door 93 is disposed on a side surface or a rear surface of the second main body 91 facing a second space (B). The first main body 81 may be integrated with the second main body 91, and as necessary, various operating manners may be used, for example, the first main body 81 and the second main body 91 are manufactured separately and coupled to each other.

The second door 93 may be variously modified within the technical idea of being disposed on at least one of the side surface or the rear surface of the second main body 91 facing the second space (B) and opening and closing the second inner space 92.

In addition, the second storage door 95 opens and closes the front portion of the second main body 91 facing the first space (A). In addition, a second storage door lock 96 may be disposed at the second main body 91 to restrict movement of the second storage door 95. As necessary, various modifications may be made, for example, the second storage door lock 96 may be disposed at the second storage door 95.

The second storage door 95 is a door used by a user located in the first space (A) and the second door 93 is a door used by a user located in the second space (B). The second storage door 95 and the second door 93 are operated using hinges, and as necessary, the second storage door 95 and the second door 93 are operated in various opening manners including a sliding manner to open and close the second inner space 92.

In addition, the second door lock 94 is disposed at the second main body 91 to restrict the movement of the second door 93, and as necessary, the second door lock 94 may also be disposed in other structure 10 facing the second door 93.

Meanwhile, a first door lock 84 may be disposed on the first door 83 to restrict movement of the first door 83. In addition, the second door lock 94 may be disposed on the second door 93 to restrict the movement of the second door 93.

[Authenticator]

FIG. 7 is an exploded perspective view showing an authenticator according to a first embodiment of the present disclosure. As shown in FIGS. 4 and 7, an authenticator 111 may be coupled to at least one of an entrance door 20, a storage portion 70, a locking pillar 200, or a structure 10.

The authenticator 111 includes an electrical portion 120 to authenticate a user. The authenticator 111 may only include the electrical portion 120, and as necessary, the authenticator 111 may further include a housing 160 to couple the electrical portion 120. According to a first embodiment of the present disclosure, the authenticator 111 may include the electrical portion 120 and the housing 160.

According to the first embodiment of the present disclosure, the authenticator 111 is disposed on a front surface of a first door body 40. In addition, the authenticator 111 authenticates a user located in a first space (A) and controls locking and unlocking of each of the entrance door 20 and the storage portion 70.

The housing 160 defines an appearance of the authenticator 111. The housing 160 is coupled to the first door body 40 and defines a space to accommodate the electrical portion 120. The housing 160 may be made of a high-strength metal to prevent intrusion of outsiders. The housing 160 according to the first embodiment of the present disclosure is made of steel.

The housing 160 may be coupled to the entrance door 20. The fastening position between the housing 160 and the door frame 30 is concealed from the first space (A) to block disassembly by the outsiders and the housing 160 may be coupled by welding or a rivet. According to the first embodiment of the present disclosure, the housing 160 includes a first security panel 170, a second security panel 180, and a cover member 190.

The electrical portion 120 is disposed on the first security panel 170. A cover member 190 is disposed on a front surface of the first security panel 170 and a second security panel 180 is disposed on a rear surface of the first security panel 170. The first security panel 170 may have various shapes such that the electrical portion 120 is stably disposed on the first security panel 170. The electrical portion 120 disposed between the first security panel 170 and the cover member 190 is concealed by the cover member 190.

According to the first embodiment of the present disclosure, the first security panel 170 is manufactured by bending a plate. In another embodiment, the first security panel 170 may also be manufactured by casting, injection molding, or press processing. According to the first embodiment of the present disclosure, the first security panel 170 may include a first panel body 171, a second panel body 172, and a third panel body 174.

The second panel body 172 extends from the first panel body 171, and a third panel body 174 extends from the second panel body 172. In addition, the first panel body 171 and the third panel body 174 are flush with each other, the second panel body 172 defines a concaved fixing groove 173 and protrudes toward the second security panel 180.

The first panel body 171 may support the cover member 190 and may be flush with the third panel body 174.

The second panel body 172 has a first side defining a stepped portion with the first panel body 171 and a second side defining a stepped portion with the third panel body 174 and has a curved shape. The second panel body 172 is curved in a U-shape, and the electrical portion 120 is disposed in the fixing groove 173 defined at an inside of the second panel body 172.

The fixing groove 173 is concaved from the front side to the rear side. The electrical portion 120 may be inserted into the fixing groove 173 and be supported by the second panel body 172. Therefore, when an external force is applied to the authenticator 111, the external force is reduced or blocked by the first panel body 170, thereby preventing loss of the electrical portion 120 and durability of the electrical portion 120.

At least one of a left surface or a right surface of the second panel body 172 to place the authenticator 120 may be opened to replace or repair the electrical portion 120 through the opening defined at a side surface of the second panel body 172.

The second security panel 180 is disposed on a rear surface of the first security panel 170 and the opening at the inlet of the first security panel 170 is covered by the cover member 190. The cover member 190 may be variously modified within the technical idea of being disposed on a front surface of the first security panel 170 and facing the electrical portion 120. According to the first embodiment of the present disclosure, the cover member 190 is made of a light-transmitting material. In addition, tempered glass or double junction glass (laminated glass) may be used as an example of the cover member 190.

The electrical portion 120 is disposed inside the housing 160 facing the first space (A). The electrical portion 120 is a device to determine an outsider as an authorized user. The electrical portion 120 may selectively open and close at least one of the entrance door 20, the first storage door 85, or the second storage door 95 of the storage portion 70.

The electrical portion 120 determines the registered user and opens and closes the entrance door 20, thereby improving security. In addition, the electrical portion 120 may selectively open and close the storage portion 70. If a person is an unregistered person, the electrical portion 120 may open the storage portion 70 based on an authenticated code and automatically close the storage portion 70 after a predetermined time period.

If the unregistered user has an authenticated code (e.g., a barcode, a quick response (QR) code, and the like) for delivery service or delivery of goods, the electrical portion 120 may check the authenticated code and open the first storage door 85 or the second storage door 95 of the storage portion 70.

According to a first embodiment of the present disclosure, the electrical portion 120 may include at least one of a camera 130, a microphone 122, a speaker 123, a display 124, a light emitting member 125, an illumination sensor 126, a case 121, or a proximity sensor 127. According to the first embodiment of the present disclosure, the case 121 may have a rectangular parallelepiped shape and may be changed into various shapes as necessary.

The camera 130 captures a user located in the first space (A). A plurality of cameras 130 may be disposed. In the present embodiment, the camera 130 includes an external call image camera 131, a vein authentication camera 132 for vein authentication, and a face recognition camera 133 for facial authentication.

The microphone 122 receives voice of a user located at the front and the speaker 123 generates sound.

In addition, the display 124 outputs an image toward the first space (A) or the second space (B). The display 124 is disposed at the case 121 and toward the first space (A). Information output on the display 124 may be identified in the first space (A) or the second space (B).

The light emitting member 125 transmits light toward a first space (A) which is a front space. The light emitting member 125 surrounds the image camera 131, the vein authentication camera 132, and the face recognition camera 133. According to the first embodiment of the present disclosure, the light emitting member 125 provides the light toward the first space (A) to facilitate accurate execution of the operations of the vein authentication camera 132 and the face recognition camera 133. The light emitting member 125 may emit the light, provide the light to the first space (A), and provide the light to each of the image camera, the vein authentication camera, the face recognition camera 133, and the illumination sensor 126. Therefore, when the illumination is low, a recognition rate of the camera 130 may be improved.

The illumination sensor 126 is a sensor to measure illumination. A controller may operate the light emitting member 125 based on a value detected by the illumination sensor 126.

Based on the value detected by the proximity sensor 127, the controller may operate at least one of the display 124, the camera 130, the light emitting member 125, the illumination sensor 126, the proximity sensor 127, the microphone 122, or the speaker 123.

Meanwhile, when the first storage door 85 is open, the electrical portion 120 maintains the first door 83 in a locked state to prevent external intrusion. In addition, even when the second storage door 95 is open, the electrical portion 120 maintains the second door 93 in a locked state. Therefore, when the first storage door 85 or the second storage door 95 is opened, it is possible to prevent an outsider from entering the second space (B) through the inside of the storage portion 70.

[Locking pillar]

As shown in FIGS. 2 to 4, according to a first embodiment of the present disclosure, a locking pillar 200 is disposed at a boundary between an entrance door 20 and a storage portion 70 and extends vertically. In addition, the locking pillar 200 locks or unlocks each of the entrance door 20 and the storage 70. The locking pillar 200 includes a supporter 201 provided at a position facing the boundary between the entrance door 20 and the storage portion 70 and that extends vertically and a lock 202 coupled to the pillar 201 and engaged to lock or unlock each of the entrance door 20 and the storage portion 70.

The supporter 201 is provided at the position facing the boundary between the entrance door 20 and the storage portion 70 and extends vertically. The entrance door 20 and the storage portion 70 are each disposed on a front surface of the supporter 201, and the supporter 201 is concealed when viewed from a first space (A), thereby improving the security.

The lock 202 may include a front door lock 206 engaged with the entrance door 20 to control locking and unlocking of the entrance door 20 and a storage lock 203 engaged with a door of the storage portion 70 to control locking or unlocking of the storage portion 70.

The storage lock 203 includes a first lock 204 configured to control locking and unlocking of the first storage door 85 and a second lock 205 configured to control locking and unlocking of the second storage door 95. In addition, the front door lock 206 includes a first front door lock 207 and a second front door lock 208 configured to control the locking and the unlocking of the door body 40.

The storage lock 203 and the front door lock 206 are each disposed along the supporter 201. The front door lock 206 is disposed on a rear surface of the entrance door 20 and is engaged with the entrance door 20 to restrict the movement of the entrance door 20.

According to the first embodiment of the present disclosure, a plurality of front door locks 206 are provided to improve security. The second front door lock 208 may be disposed below the first front door lock 207. The first front door lock 207 and the second front door lock 208 are each disposed at the rear side of the entrance door 20.

A hook hang on the front door lock 206 is disposed on the rear surface of the entrance door 206. In this case, the hook that protrudes rearward from the entrance door 20 may be coupled to the front door lock 206 based on the rotation of the entrance door 20. In addition, the front door lock 206 may be operated based on a control signal of the authenticator 111 to automatically unlock the entrance door 20.

The storage lock 203 is disposed at a rear side of the storage portion 70 and controls locking of each of the first storage door 85 and the second storage door 95 of the storage portion 70. The storage lock 203 according to the first embodiment of the present disclosure includes the first lock 204 and the second lock 205.

The first lock 20 is disposed in the supporter 201 and is engaged to lock or unlock the first storage door 85. The second lock 205 is disposed below the first lock 204. The second lock 205 is disposed in the supporter 201 and is engaged to lock or unlock the second storage door 95.

The first lock 204 is disposed at a rear side of the first storage door 85 of the first storage portion 80. In addition, the second lock 205 is disposed at a rear side of the second storage door 95 of the second storage portion 90.

A hook hang on the first lock 204 is disposed on the rear surface of the first storage door 85. In this case, the hook that protrudes rearward from the first storage door 85 may be coupled to the first lock 204 based on the rotation of the first storage door 85. In addition, the first lock 204 may be operated based on a control signal of the authenticator 111 to automatically unlock the first storage door 85.

A hook hang on the second lock 205 is disposed on the rear surface of the second storage door 95. In this case, the hook that protrudes rearward from the second storage door 95 may be coupled to the second lock 205 based on the rotation of the second storage door 95. In addition, the second lock 205 may be operated based on a control signal of the authenticator 111 to automatically unlock the second storage door 95.

[Operation in the first embodiment]

When a user is located in front of an entrance door 20 to move to a second space (B) through the entrance door 20, an electrical portion 120 is operated to authenticate the user. A camera 130 of the electrical portion 120 is operated to perform the user authentication. Alternatively, the user is authenticated based on additional body information recognition, password input, or a QR code authentication.

After the authentication is completed by the electrical portion 120, the locking of the entrance door 20 is automatically unlocked. A control signal of the electrical portion 120 is transmitted to each of a first front door lock 207 and a second front door lock 208 to unlock the entrance door 20. In addition, as a first handle 68 protrudes forward from the door body 40, the user grips the first handle 68 to move the door body 40, and then moves toward the second space (B).

When a delivery man or an external user delivers delivered goods 210, the delivery man or the external user receives temporary user authentication from the authenticator 111. The authenticator 111 may authenticate the user using the entrance door 20 and the user using the storage portion 70.

The authenticator 111 opens the first storage door 85 or the second storage door 95 according to types of the delivered goods 210. The first lock 204 receives the control signal of the authenticator 111 to unlock the first storage door 85. In addition, the second lock 205 receives the control signal of the authenticator 111 to unlock the second storage door 95.

[Second Embodiment]

Hereinafter, a smart gate 2 according to a second embodiment of the present disclosure is described with reference to the drawings. For convenience of explanation, components including the same configuration and operation as those of the first embodiment of the present disclosure are referred to by the same reference numerals, and detailed descriptions thereof are omitted.

FIG. 8 is a front view showing a smart gate 2 according to a second embodiment of the present disclosure. FIG. 9 is a perspective view showing an entrance door 21 according to a second embodiment of the present disclosure.

As shown in FIGS. 8 and 9, for the smart gate 2 according to the second embodiment of the present disclosure, an authenticator 112 is disposed at a second door frame 60 of the entrance door 21. According to the second embodiment of the present disclosure, the entrance door 21 includes the second door frame 60 and the second door body 64.

The detailed configurations of a structure 10, the storage portion 70, the locking pillar 200, and the authenticator 112 of the smart gate 2 according to the second embodiment of the present disclosure are similar or identical to those in the first embodiment of the present disclosure, so a detailed description thereof is omitted.

The second door frame 60 may be changed into various shapes within the technical idea of being coupled to the structure 10 and at which the authenticator 112 is placed. According to the second embodiment of the present disclosure, the second door frame 60 includes a second door frame body 61 coupled to the structure 10 and having a rectangular shape and a fixing frame 60 that protrudes from the second door frame body 61 and configured to support the authenticator 112.

The fixing frame 62 extends from the second door frame body 61 and a front surface of the fixing frame 62 may be flush with a front surface of the second door body 64 in a closed state. Alternatively, a front surface of the authenticator 112 disposed on the front surface of the fixing frame 62 may be flush with a front surface of the second door body 64 in a closed state.

The fixing frame 62 protrudes inward from the second door frame body 61 and extends toward an inner side of the second door body 64. The authenticator 112 may be disposed on the front surface of the fixing frame 62 facing the first space (A).

The second door body 64 is rotatably connected to the second door frame 60 and a side surface of the second door body 64 is cut to avoid interference with the fixing frame 62. The second door body 64 may have a general door shape and a structure of the first door body 40 according to the first embodiment of the present disclosure.

The smart gate 2 according to the second embodiment of the present disclosure is opened and closed based on the rotation of the second door body 64 and the fixed authenticator 112 authenticates a user.

[Third embodiment]

Hereinafter, a smart gate 3 according to a third embodiment of the present disclosure is described with reference to drawings. For convenience of explanation, components including the same configuration and operation as those of the first embodiment of the present disclosure are referred to by the same reference numerals, and detailed descriptions thereof are omitted.

FIG. 10 is a front view showing a smart gate 3 according to a third embodiment of the present disclosure.

As shown in FIG. 10, for the smart gate 3 according to the third embodiment of the present disclosure, an authenticator 113 is disposed on a front surface of a first storage portion 80. According to the third embodiment of the present disclosure, the smart gate 3 includes an entrance door 20, a storage portion 70, a locking pillar 200, and an authenticator 113.

The entrance door 20, the storage portion 70, the locking pillar 200, and the authenticator 113 of the smart gate 3 according to the third embodiment of the present disclosure are similar or identical to those in the first embodiment of the present disclosure, so a detailed description thereof is omitted.

According to the third embodiment of the present disclosure, the authenticator 113 is disposed on the first storage door 85. The authenticator 113 is disposed on a front surface of the first storage door 85 and authenticates a user. In addition, the authenticator 113 may control operation of the lock 202 to automatically control locking of each of the entrance door 20 and the storage portion 70.

[Fourth embodiment]

Hereinafter, a smart gate 4 according to a fourth embodiment of the present disclosure is described with reference to drawings. For convenience of explanation, components including the same configuration and operation as those in the first embodiment of the present disclosure are referred to by the same reference numerals, and a detailed description thereof is omitted.

FIG. 11 is a front view showing a smart gate 4 according to a fourth embodiment of the present disclosure.

As shown in FIG. 11, for the smart gate 4 according to the fourth embodiment of the present disclosure, an authenticator 114 is disposed on a front surface of a second storage portion 90. According to the fourth embodiment of the present disclosure, the smart gate 4 includes an entrance door 20, a storage portion 70, a locking pillar 200, and an authenticator 114.

As the entrance door 20, the storage portion 70, the locking pillar 200, and the authenticator 114 of the smart gate 4 according to the fourth embodiment of the present disclosure are identical or similar to those of the first embodiment of the present disclosure, a detailed description thereof is omitted.

According to the fourth embodiment of the present disclosure, the authenticator 114 is disposed on the second storage door 95. The authenticator 114 disposed on the front surface of the second storage door 95 authenticates a user located in a first space (A). In addition, the authenticator 114 may control operation of the lock 202 to automatically control the locking of each of the entrance door 20 and the storage portion 70.

[Fifth embodiment]

Hereinafter, a smart gate 5 according to a fifth embodiment of the present disclosure is described with reference to drawings. For convenience of explanation, components including the same configuration and operation as those of the first embodiment of the present disclosure are referred to by the same reference numerals, and a detailed description thereof is omitted.

FIG. 12 is a front view showing a smart gate 5 according to a fifth embodiment of the present disclosure. FIG. 13 is a perspective view showing a storage portion 70 according to a fifth embodiment of the present disclosure.

As shown in FIGS. 12 and 13, for the smart gate 5 according to the fifth embodiment of the present disclosure, an authenticator 115 is disposed on a first storage portion 80. According to the fifth embodiment of the present disclosure, the first storage portion 80 includes a first main body 81, a first door 83, a first door lock 84, and a first storage door 85. The first main body 81 includes a first fixing portion 86 that protrudes toward the first storage door 85.

The first fixing portion 86 extends from the first main body 81 and may be flush with the first storage door 85 in a closed state. The first fixing portion 86 extends from an inlet of the first main body 81 in a direction of closing the inlet of the first main body 81. The authenticator 115 is coupled to a front surface of the first fixing portion 86 and rotation of the authenticator 115 is restricted together with the first fixing portion 86.

The entrance door 20, the second storage portion 90, the locking pillar 200, and the authenticator 115 of the smart gate 5 according to the fifth embodiment of the present disclosure are similar or identical to those in the first embodiment of the present disclosure, so a detailed description thereof is omitted.

The first storage door 85 is rotatably connected to the first main body 81 and a side surface of the first storage door 85 is cut to avoid interference with the authenticator 115 and the first fixing portion 86.

The smart gate 5 according to the fifth embodiment of the present disclosure may be opened and closed based on the rotation of the first storage door 85 and the fixed authenticator 115 authenticates a user.

[Sixth embodiment]

Hereinafter, a smart gate 6 according to a sixth embodiment of the present disclosure is described with reference to darwings. For convenience of explanation, components including the same configuration and operation as those of the first embodiment of the present disclosure are referred to by the same reference numerals, and detailed descriptions thereof are omitted.

FIG. 14 is a front view showing a smart gate 6 according to a sixth embodiment of the present disclosure. FIG. 15 is a perspective view showing a storage portion 70 according to a sixth embodiment of the present disclosure.

As shown in FIGS. 14 and 15, for the smart gate 6 according to the sixth embodiment of the present disclosure, an authenticator 116 is disposed on a second storage portion 90. According to the sixth embodiment of the present disclosure, the second storage portion 90 includes a second main body 91, a second door 93, a second door lock 94, and a second storage door 95. The second main body 91 include a second fixing portion 96 that protrudes toward the second storage door 95.

The second fixing portion 96 extends from the second main body 91 and may be flush with the second storage door 95 in a closed state. The second fixing portion 96 extends from an inlet of the second main body 91 in a direction of blocking the inlet of the second main body 91. The authenticator 116 is disposed on a front surface of the second fixing portion 96 and rotation of the authenticator 116 is restricted together with the second fixing portion 96.

The entrance door 20, the first storage portion 80, the locking pillar 200, and the authenticator 116 of the smart gate 6 according to the fifth embodiment of the present disclosure are similar or identical to those in the first embodiment of the present disclosure, so a detailed description thereof is omitted.

The second storage door 95 is rotatably connected to the second main body 91 and a side surface of the second storage door 95 is cut to avoid interference with the authenticator 116 and the second fixing portion 96.

The smart gate 6 according to the sixth embodiment of the present disclosure is opened and closed based on the rotation of the second storage door 95 and the fixed authenticator 116 authenticates a user.

Although the present disclosure has been described as described above with reference to exemplary drawings, the present disclosure is not limited to the embodiments and drawings disclosed herein, and various modifications can be made by those skilled in the art within the scope of the technical idea of the present disclosure. Further, even if working effects obtained based on configurations of the present disclosure are not explicitly described in the description of embodiments of the present disclosure, effects predictable based on the corresponding configuration have to be recognized.

Claims (20)

1. A smart gate, comprising:

   an entrance door disposed between a first space defined in front of a structure and a second space defined behind the structure and configured to open and close a connection passage connecting the first space and the second space;

   an authenticator disposed on the entrance door and configured to authenticate a user;

   a storage portion disposed at one side of the entrance door and between the first space and the second space together with the entrance door, and configured to store delivered goods at room temperature or a low temperature;

   a supporter that extends vertically along a boundary between the entrance door and the storage portion; and

   a lock disposed on the supporter and engaged to lock or unlock each of the entrance door and the storage portion.
2. The smart gate of claim 1, wherein the authenticator comprises at least one of a camera configured to capture a user located at a front, a microphone configured to receive voice of the user located at the front, a speaker configured to generate sound, a display configured to output an image, a light emitting member configured to transmit light toward the front, or an illumination sensor configured to measure illumination.
3. The smart gate of claim 2, wherein the entrance door comprises:

   a first door frame coupled to the structure; and

   a first door body rotatably connected to the first door frame and configured to place the authenticator.
4. The smart gate of claim 2, wherein the authenticator is disposed on a front surface of the first door body facing the first space.
5. The smart gate of claim 2, wherein the entrance door comprises:

   a second door frame coupled to the structure and at which the authenticator is disposed; and

   a second door body rotatably connected to the second door frame.
6. The smart gate of claim 5, wherein the second door frame comprises:

   a second door frame body coupled to the structure and having a rectangular shape; and

   a fixing frame that extends from the second door frame body and is flush with the second door body and configured to place the authenticator.
7. The smart gate of claim 6, wherein the authenticator is disposed on a front surface of the fixing frame facing the first space.
8. The smart gate of claim 1, wherein the supporter is disposed on a rear surface of the entrance door and the storage portion and is concealed from the first space.
9. The smart gate of claim 1, wherein the storage portion is disposed at one side of the entrance door and comprises:

   a first storage portion configured to store the delivered goods at room temperature or a low temperature; and

   a second storage portion disposed under the first storage portion and configured to store the delivered goods at room temperature or a low temperature.
10. The smart gate of claim 9, wherein the first storage portion comprises:

    a first main body defining a first inner space to store the delivered goods;

    a first door disposed on at least one of a side surface or a rear surface of the first main body facing the second space and configured to open and close the first inner space; and

    a first storage door configured to open and close a front portion of the fist main body facing the first space.
11. The smart gate of claim 10, wherein the second storage portion comprises:

    a second main body defining a second inner space configured to store the delivered goods;

    a second door disposed on at least one of a side surface or a rear surface of the second main body facing the second space and configured to open and close the second inner space; and

    a second storage door configured to open and close a front portion of the second main body facing the first space.
12. The smart gate of claim 11, wherein the lock comprises:

    a front door lock coupled to the supporter and engaged to lock or unlock the entrance door;

    a first lock coupled to the supporter and engaged to lock or unlock the first storage door; and

    a second lock coupled to the supporter and engaged to lock or unlock the second storage door.
13. The smart gate of claim 12, wherein the front door lock, the first lock, and the second lock are each inserted into the supporter.
14. A smart gate, comprising:

    an entrance door disposed between a first space defined in front of a structure and a second space defined behind the structure and configured to open and close a connection passage connecting the first space and the second space;

    a storage portion disposed at one side of the entrance door and between the first space and the second space together with the entrance door and configured to store delivered goods at room temperature or a low temperature;

    an authenticator disposed on the storage portion and configured to authenticate a user;

    a supporter that extends vertically along a boundary between the entrance door and the storage portion; and

    a lock disposed on the supporter and engaged to lock or unlock each of the entrance door and the storage portion.
15. The smart gate of claim 14, wherein the storage portion is disposed at one side of the entrance door and comprises:

    a first storage portion configured to store the delivered goods at the room temperature or the low temperature; and

    a second storage portion disposed under the first storage portion and configured to store the delivered goods at the room temperature or the low temperature.
16. The smart gate of claim 15, wherein the first storage portion comprises:

    a first main body defining a first inner space configured to store the delivery goods;

    a first door disposed on at least one of a side surface or a rear surface of the first main body facing the second space and configured to open and close the first inner space; and

    a first storage door configured to open and close a front portion of the first main body facing the first space and configured to place the authenticator.
17. The smart gate of claim 15, wherein the first storage portion comprises: a first main body defining a first inner space configured to store the delivery goods and place the authenticator;

    a first door disposed on at least one of a side surface or a rear surface of the first main body facing the second space and configured to open and close the first inner space; and

    a first storage door configured to open and close a front portion of the first main body facing the first space.
18. The smart gate of claim 15, wherein the second storage portion comprises:

    a second main body defining a second inner space configured to store the delivery goods;

    a second door disposed on at least one of a side surface or a rear surface of the second main body facing the second space and configured to open and close the second inner space; and

    a second storage door configured to open and close a front portion of the second main body facing the first space and place the authenticator.
19. The smart gate of claim 15, wherein the second storage portion comprises:

    a second main body defining a second inner space configured to store the delivery goods and place the authenticator;

    a second door disposed on at least one of a side surface or a rear surface of the second main body facing the second space and configured to open and close the second inner space; and

    a second storage door configured to open and close a front portion of the second main body facing the first space.
20. The smart gate of claim 12, wherein the lock comprises:

    the front door lock coupled to the supporter and engaged to lock or unlock the entrance door;

    the first lock coupled to the supporter and engaged to lock or unlock the first storage portion; and

    the second lock coupled to the supporter and engaged to lock or unlock the second storage portion.

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