CN215565505U - Intelligent door - Google Patents

Abstract

The intelligence door includes: a structure having an opening formed therein; a security panel provided so as to straddle the opening in the up-down direction; an access door disposed in the opening and disposed at one side of the security panel; a storage box disposed in the opening and disposed at the other side of the security panel; an assembly structure disposed behind the security panel and secured to the structure. In the present disclosure, the security panel on which the authentication device is mounted is disposed in the opening, and the assembly structure is disposed behind the security panel, and since the assembly structure is coupled to the structure, even if the security panel is detached from the outside, it is possible to prevent the outside intrusion due to the assembly structure.

Description

Intelligent door

Technical Field

The present disclosure relates to smart doors installed in buildings and accessible by users.

Background

Generally, a front door of a house such as an apartment has a slit for inserting delivery goods such as milk, yogurt, and newspaper into the inside. However, there is a problem in that it is impossible to place a large article such as a delivered article or package through the slit.

In particular, when a slit is formed at the front door, there is a problem in that security is very easily caused since visitors can unlock the door lock of the front door through the slit.

Korean registered utility model publication No.20-0357547 discloses a food receiving refrigerator in which a refrigerator is mounted on a wall attached to a front door.

The refrigerator has a structure in which a delivery door is disposed outside a front door, and a storage door is disposed inside the front door.

However, since the refrigerator has a structure in which a delivery door provided outside a front door can be opened, and a door lock is provided only on a storage door provided inside the front door, there is a problem in that articles stored from the outside are stolen.

In addition, since the refrigerator is disposed to pass through the center of the building structure, if the installation space of the refrigerator is not reflected during construction, there is a problem in that the inner wall of the building must be damaged.

In addition, since the refrigerator and the front door are separately installed and operated, there is a problem in that they cannot provide organic coupling relationship and operation relationship during installation and operation.

In addition, there is a problem in that the locking device of the refrigerator and the locking device of the front door are separately arranged so that interlocking cannot be performed.

SUMMERY OF THE UTILITY MODEL

It is an object of the present disclosure to provide a smart door that can deliver goods in a non-face-to-face manner.

An object of the present disclosure is to provide a smart door capable of improving the security of a security panel in which an authentication device and a locking device are installed.

It is an object of the present disclosure to provide an intelligent door capable of improving fire-resistant performance through a component structure installed in an opening.

The object of the present disclosure is not limited to the above object, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In the present disclosure, an unauthorized person may deliver items to an indoor user through a storage case in a non-face-to-face manner.

In the present disclosure, since the security panel mounted with the authentication device is disposed in the opening, the assembly structure is disposed at the rear of the security panel, and the assembly structure is coupled with the structure, even if the security panel is detached from the outside, it is possible to prevent the outside intrusion due to the assembly structure.

In the present disclosure, since the security panel and the assembly structure are formed of steel materials, thermal deformation of the smart door can be minimized even when a fire breaks out.

The present disclosure includes: a structure having an opening formed therein; a security panel provided so as to straddle in an up-down direction; an access door disposed in the opening and disposed at one side of the security panel; a storage box disposed in the opening and disposed at the other side of the security panel; an assembly structure fixed to a structure formed with an opening.

The upper end of the assembly structure may be fixed to the third structure, and the upper end of the assembly structure may protrude upward than the upper end of the security panel.

The lower end of the assembly structure may be fixed to the fourth structure, and the lower end of the assembly structure may protrude downward from the lower end of the security panel.

The assembly structure may be disposed at a rear of the security panel, and the assembly structure and the security panel may be coupled.

A door frame disposed between the access door and the security panel is also included, and the door frame and the assembly structure may be coupled.

A box frame disposed between the storage bin and the security panel may also be included, and the box frame and the assembly structure may be coupled.

At least a portion of the assembly structure may be disposed between the door frame and the cabinet frame.

The first space may be disposed in front of the structure in which the opening is formed, and the second space may be disposed behind the opening.

The assembly structure may include: a first intermediate portion disposed to face a rear surface of the security panel; a second intermediate portion provided toward the second space; and a connecting intermediate portion connecting the first intermediate portion and the second intermediate portion.

The structure cover includes: a first cover portion covering one side of the assembly structure; a second cover portion covering the other side of the assembly structure; and a third cover portion that connects the first cover portion and the second cover portion and covers a rear surface of the assembly structure.

Drawings

Fig. 1 is a perspective view of a smart door according to an embodiment.

Fig. 2 is an exemplary diagram of the operation of fig. 1.

Fig. 3 is a perspective view of the structure also shown in fig. 1.

Fig. 4 is an exploded perspective view of the structure shown in fig. 3.

Fig. 5 is a perspective view of the delivery door shown in fig. 1.

Fig. 6 is a partially exploded perspective view of the access door, delivery door, and safety assembly shown in fig. 1.

Fig. 7 is a partially exploded perspective view of the other side of fig. 6.

Fig. 8 is an exploded perspective view of the safety assembly of fig. 1.

Fig. 9 is a front view of the safety assembly of fig. 1.

Fig. 10 is a perspective view of the first security panel shown in fig. 8.

Fig. 11 is a rear perspective view of the first security panel of fig. 10.

Fig. 12 is a perspective view illustrating a locking device installed in the first security panel of fig. 11.

Fig. 13 is a partially enlarged view of fig. 12.

Fig. 14 is a sectional view taken along a-a' of fig. 9.

Fig. 15 is a sectional view taken along B-B' of fig. 9.

Fig. 16 is a perspective view illustrating an assembled state of the safety assembly shown in fig. 1.

Fig. 17 is a perspective view from the other side of fig. 16.

Fig. 18 is a partially exploded view of fig. 16.

Fig. 19 is a perspective view from the other side of fig. 18.

Fig. 20 is a schematic front view of the authentication device shown in fig. 18.

Detailed Description

Advantages and features of the present disclosure and methods of accomplishing the same will become apparent with reference to the following detailed description of the embodiments and 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 embodiments only complete the disclosure of the present disclosure and enable those of ordinary skill in the art to which the present disclosure pertains to understand the present disclosure. This disclosure is provided to fully inform those skilled in the art of the scope of the disclosure, which is limited only by the scope of the claims. Like reference numerals refer to like elements throughout.

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 door according to a first embodiment of the present disclosure. Fig. 2 is an exemplary diagram of the operation of fig. 1. Fig. 3 is a perspective view of the structure also shown in fig. 1. Fig. 4 is an exploded perspective view of the structure shown in fig. 3.

Referring to fig. 1 to 2, the smart door 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.

The first space 101 is disposed in front of the smart door, and the second space 102 is disposed in the rear of the smart door. That is, the smart door partitions the first space 101 and the second space 102.

The smart door authenticates the user and opens the access door 140. The intelligent door prevents access by unauthorized persons.

In addition, the smart door may temporarily store items delivered by courier services.

After authenticating the visitor with the authentication code, the smart door opens the storage box 500.

A visitor with an authentication code may store an item in the opened storage case 500.

The storage box 500 is exposed to the first space 101 and the second space 102. The user can take out the items stored in the second space 102.

The smart door is disposed between a first space 101 disposed at the front and a second space 102 disposed at the rear. The smart door includes an access door 100 fixed to the structure, a delivery door 200 disposed between the first space 101 and the second space 102 and disposed at the other side of the structure, and a safety assembly 300 disposed between the access door 100 and the delivery door 200 and configured to selectively lock or unlock at least one of the access door 100 or the delivery door 200.

In the present embodiment, the first space 101 may be a space accessible by a guest, and the second space 102 may be a space in which user privacy is protected.

Thus, the first space 101 may be, for example, a front porch or community corridor, while the second space 102 may be a residential room or hallway. The first space 101 may be public and accessible to the outside, while the second space 102 may be a secure private space for the residents and their guests.

The access door 100 and the delivery door 200 are each disposed between the first space 101 and the second space 102, and divide the first space 102 and the second space 102.

The access door 100 and the delivery door 200 are installed in a structure, and the first space 101 and the second space 102 may be partitioned by the access door 100 and the delivery door 200. The structure 10 may be a wall or a column constituting a building.

The structure 10 is provided with an opening 15 communicating the first space 101 and the second space 102.

The access door 100 is disposed on one side (the right side in the present embodiment) of the opening 15, and the delivery door 200 is disposed on the other side (the left side in the present embodiment) of the opening 15, with the safety assembly 300 disposed between the access door 100 and the delivery door 200.

In this embodiment, the access door 100 is used for user access. In this embodiment, the delivery door 200 is used to store or deliver items in a non-face-to-face manner. In the present embodiment, the numbering of the access doors 100 and delivery doors 200 does not imply a purpose of use or priority.

An opening 15 is formed in one side of 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 the present embodiment) of the opening 15, a second structure 22 disposed on the other side (left side in the present embodiment) of the opening 15, a third structure 23 disposed above the opening 15 and connecting the first structure 21 and the second structure 22 to each other, and a fourth structure 24 disposed below the opening 15 and connecting the first structure 21 and the second structure 22 to each other.

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 arranged between a first space 101 and a second space 102. An opening 15 is formed inside the structure 10, and the opening 15 is provided between the first space 101 and the second space 102.

The opening 15 is a space formed by the structure 10. The opening 15 has a thickness (t), a width (w), and a height (h).

In the present embodiment, the thickness (t) is a length between the first space 101 and the second space 102, and is formed in the front-rear direction. The width (w) is an inner length of the first structure 21 and the second structure 22, and is formed in the left-right direction. The height (h) is a length between the third structure 23 and the fourth structure 24, and is formed in the vertical direction.

The access door 100, delivery door 200, or safety assembly 300 occupies at least a portion of the thickness (t). The access door 100, delivery door 200, or safety assembly 300 occupies all of the width (w) and height (h) and encloses the first space 101 and the second space 102.

The upper end of each of the first structure 21 and the second structure 22 is coupled to the third structure 23, and is integrally formed with the third structure 23.

The lower end of each of the first structure 21 and the second structure 22 is coupled to the fourth structure 24, and is integrally formed with the fourth structure 24.

The first, second, third and fourth structures 21, 22, 23, 24 may be parts 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. 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.

The smart door according to the present embodiment may be installed regardless of the material or manufacturing method of the building.

The openings 15 include a first opening 11, a second opening 12, and a third opening 13. The access door 100 is disposed in the first opening 11. The delivery door 200 is disposed in the second opening 12. The safety assembly 300 is disposed in the third opening 13.

One of the openings 15 forms the first opening 11. Yet another of the openings 15 forms the second opening 12. The other of the openings 15 forms a third opening 13.

The first opening 11 in the openings 15 occupies the largest area, while the third opening 13 in the openings 15 occupies the smallest area. The second opening 12 is smaller than the first opening 11 and larger than the third opening 13.

Since the user passes through the access door 100, it is preferable that the first opening 11 has the widest width and area.

In the present embodiment, the left and right widths of the first opening 11, the second opening 12, and the third opening 13 are formed to be different.

At least two of the first opening 11, the second opening 12, and the third opening 13 may have the same height. In the present embodiment, the first opening 11, the second opening 12, and the third opening 13 all have the same height.

Thus, access door 100, delivery door 200, and safety assembly 300 have the same height and all have different widths.

The first opening 11 is provided on one side (the right side in the present embodiment) of the opening 15, and the second opening 12 is provided on the other side (the left side in the present embodiment) of the opening 15.

The access door 100 closes one side of the opening 15. The access door 140 can open and close the first opening 11.

The delivery door 200 is provided with two doors to store or deliver goods. The delivery door 200 can open and close at least a portion of the second opening 12. One of the doors of the delivery door 200 is exposed to the first space 101, and the other door is exposed to the second space 102. The delivery door 200 closes the other side of the opening 15.

The safety assembly 300 occupies the third opening 13 and closes the third opening 13. Safety assembly 300 may be coupled and secured to at least one of access door 100, delivery door 200, or structure 10.

Referring to fig. 3 or 4, the assembly structure 250 may be disposed in the third opening 13.

The access door 100 is disposed on one side of the assembly structure 250 and the delivery door 200 is disposed on the other side of the assembly structure 250.

In this embodiment, the assembly structure 250 uses an H-beam made of steel and may be selectively mounted in the opening 15 of the structure 10.

The upper end 251 of the assembly structure 250 is coupled to the third structure 23 and the lower end 252 is coupled to the fourth structure 24. The upper end 251 of the assembly structure 250 may be embedded in the third structure 23 and the lower end 252 of the assembly structure 250 may be embedded in the fourth structure 24.

The first opening 11 is provided at one side of the assembly structure 250, and the second opening 12 is provided at the other side of the assembly structure 250. The component structure 250 occupies a portion of the third opening 13, and the safety component 300 is disposed in front of the component structure 250.

The thickness of the assembly structure 250 and the safety assembly 300 in the front-rear direction is equal to or less than the thickness t of the opening 15.

The assembly structure 250 prevents intrusion into the third opening 13 and improves the security of the smart door. Since the assembly structure 250 is coupled to the door frame 120 and the box frame 220 (to be described later), the door frame 120, the assembly structure 250, and the box frame 220 are integrated.

The assembly structure 250 may be exposed to the second space 102. In this embodiment, a structural cover 260 is further provided around the assembly structure 250.

The structural cover 260 may cover the front, back, left, and right sides of the assembly structure 250. In this embodiment, the structural cover 260 covers both sides and the rear of the assembly structure 250.

Fig. 5 is a perspective view of the delivery door shown in fig. 1. Fig. 6 is a partially exploded perspective view of the access door, delivery door, and safety assembly shown in fig. 1. Fig. 7 is a partially exploded perspective view as viewed from the other side of fig. 6.

Referring to fig. 5, the delivery door 200 is disposed at the other side (left side in the present embodiment) of the safety assembly 300.

Delivery door 200 includes a box frame 220 mounted on structure 10 and a storage bin 500 assembled on box frame 220. A plurality of storage cases 500 may be provided on the case frame 220.

The delivery door 200 may close the second opening 12, and the first space 101 and the second space 102 may communicate with each other through the storage box 500.

The storage box 500 includes a box 510 having a storage space 505 (fig. 2) formed therein, a first door 520 disposed in the box 510, exposed to the first space 101, and opening and closing the storage space, and a second 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 of a hexahedral shape, and a storage space 505 is formed therein. The case 510 may be formed in various shapes, and the concept of the present disclosure is not limited to the shape of the case 510.

In the present embodiment, the case 510 is formed in a rectangular parallelepiped shape. The upper, lower, left and rear sides of the box 510 are closed.

In the present embodiment, two storage cases 500 are provided. The storage box disposed at the lower side is defined as a first storage box 500-1, and the storage box stacked at 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".

Referring to fig. 6 or 7, 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 safety 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.

For safety, the first, second, third and fourth door frames 121, 122, 123 and 124 are preferably formed of a steel material.

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 perpendicular to one side of the opening 15, and the second door frame 122 is disposed perpendicular to the middle of the opening 15.

The first, second, third and fourth door frames 121, 122, 123 and 124 occupy the edge of the first opening 11, and the access door 140 occupies the remaining portion of the first opening 11.

In the present embodiment, the access door 140 opens and closes the first opening 11. For this, the access door 140 is hinged to the first door frame 121 or the second door frame 122 according to an opening method.

At least one of the frames other than the frame hinged with the access door 140 may be removed. According to the present exemplary embodiment, at least one of the second door frame 122, the third door frame 123, and the fourth door frame 124 may be removed in addition to the first door frame 121.

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. Preferably, the first door frame 121, the third door frame 123 and the fourth door frame 124 are all coupled and fixed to the structure 10.

Second doorframe 122 may be in close contact with the right side of safety assembly 300. Preferably, second door frame 122 is coupled to the right side of safety assembly 300.

A through hole 125 for locking the access door 100 is formed in the second door frame 122. The through hole 125 is formed to penetrate the second doorframe 122.

The through hole 125 passes through the outer and inner surfaces of the second door frame 122. The through hole 125 is disposed to face the right side of the safety assembly 300. At least one of the passage door locks 301 and 302 provided in the safety assembly 300 is inserted into the through hole 125.

When the position of the door lock is changed, the position of the through hole 125 may be changed accordingly. The through hole 125 is formed from the left side of the second door frame 122 toward the first door frame 121.

In the present embodiment, since the plurality of passage door locks 301 and 302 for locking or unlocking the passage door 140 are provided, the through holes 125 are also formed at a plurality of positions corresponding thereto.

The door lock includes a first door lock 301 and a second door lock 302 disposed below the first door lock 301. The plurality of through holes 125 are provided in the up-down direction.

The case frame 220 includes a first case frame 221 in close contact with the second structure 22, a second case frame 222 in close contact with the safety assembly 300, a third case frame 223 in close contact with the third structure 23, and a fourth case frame 224 in close contact with the fourth structure 24.

For safety, the first, second, third and fourth case frames 221, 222, 223 and 224 are preferably formed of a steel material.

The first case frame 221 is disposed perpendicular to the other side of the opening 15, and the second case frame 222 is disposed perpendicular to the middle of the opening 15. The third box frame 223 is disposed above the opening 15, and the fourth 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 12. The storage compartment 500 occupies the remaining portion of the second opening 12.

Fig. 8 is an exploded perspective view of the safety assembly of fig. 1. Fig. 9 is a front view illustrating a mounted state of the safety assembly shown in fig. 8. Fig. 10 is a perspective view of the first security panel shown in fig. 8. Fig. 11 is a rear perspective view of fig. 10. Fig. 12 is a perspective view illustrating a locking device installed in the first security panel of fig. 11. Fig. 13 is a partially enlarged view of fig. 12.

Referring to fig. 8-13, safety assembly 300 is disposed between access door 100 and delivery door 200. Safety assembly 300 may be secured to structure 10, access door 100, and delivery door 200, respectively.

The third opening 13 is formed between the access door 100 and the delivery door 200 spaced apart from each other. The safety assembly 300 closes the third opening 13.

The safety assembly 300 is coupled to the access door 100 and the delivery door 200, respectively, such that the first space 101 disposed at the front and the second space 102 disposed at the rear are separated.

In this embodiment, the safety assembly 300 may be fastened and fixed to the door frame 120 and the case frame 220, respectively.

The security component 300 includes: a safety panel 310 disposed between the access door 100 and the delivery door 200; an authentication device 700 provided on the security panel 310; and a locking device provided on the security panel 310 and selectively locking or unlocking the access door 100 or the storage box 500.

In the present embodiment, the locking means includes the access door locks 301 and 302 that selectively lock or unlock the access door 140. The locking means includes box door locks 303 and 304 that selectively lock or unlock the storage box 500.

The security panel 310 serves to prevent visitor intrusion, and a metal material having high strength may be used. In the present embodiment, the security panel 310 is formed of a steel material.

One side of the safety panel 310 may be fixed to the access door 100, and the other side of the safety panel 310 may be fixed to the delivery door 200. The security panel 310 and the access door 100 may be welded or riveted, making it difficult for visitors to remove.

When the safety panel 310 and the access door 100 are fastened and coupled, the head of the fastening member is not exposed to the first space 101 and should be disposed at the opening 15 or the second space 102.

The security panel 310 and the delivery door 200 are also combined in the manner described above.

In the present embodiment, one side (right side in the present embodiment) of the security panel 310 is coupled to the door frame 120, and the other side (left side in the present embodiment) is coupled to the box frame 220.

The channel door locks 301 and 302 and the box door locks 303 and 304 are coupled to the security panel 310.

The doorway door locks 301, 302 and the box door locks 303, 304 are not exposed to the first space 101 and are hidden within the security panel 310. Therefore, in the first space 101, the passage door locks 301, 302 and the box door locks 303, 304 are inaccessible without releasing the security panel 310.

The authentication device 700 is disposed in front of the security panel 310. The authentication apparatus 700 may verify a guest that is authorized for use.

The authentication device 700 may selectively open and close the access door 100. The authentication apparatus 700 may open and close the channel door locks 301, 302 by determining the registered user.

In addition, the authentication device 700 may selectively open and close the storage case 500. If the unregistered person can open the storage box 500 through the verification code, it automatically closes the storage box 500 after a predetermined time.

That is, in the case where the unregistered person has a verification code (e.g., a barcode, a QR code, etc.) for express service or product delivery, the authentication device 700 checks it and may open a door of the storage box 500 (which will be described later).

In the present embodiment, the cover member 340 is provided to cover both the authentication device 700 and the security panel 310. At least a portion of the cover member 340 is preferably formed of a material that can transmit light.

In particular, it is preferable that the cover member 340 provided in front of the authentication apparatus 700 is formed of a material capable of transmitting light. In the present embodiment, the cover member 340 may be tempered glass or laminated glass.

In the present embodiment, the security panel 310 includes a first security panel 320 disposed on the first space 101 side and a second security panel 330 disposed on the second space 102 side (fig. 14).

In the present embodiment, the first security panel 320 and the second security panel 330 are disposed in the front-rear direction with respect to each other. Unlike the present embodiment, the first security panel 320 and the second security panel 330 may be disposed in the left and right direction with each other according to a space in which the smart door is installed.

Between the first security panel 320 and the second security panel 330, the access door locks 301, 302 and the box door locks 303, 304 are provided, whereby the access door locks 301, 302 and the box door locks 303, 304 can be hidden from the first space 101.

The aisle door locks 301 and 302 and the box door locks 303 and 304 are concealed by a first security panel 320. Preferably, the first security panel 320 and the second security panel 330 are integrated together in an inseparable structure.

The first security panel 320 includes: a first mounting portion 321 that is recessed from the first space 101 side toward the second space 102 side, into which the authentication device 700 is inserted; and a second mounting portion 322 recessed from the second space 102 side toward the first space 101 side, in which the locking device is mounted.

The first mounting part 321 is disposed in front of the first safety panel 320, and the second mounting part 322 is disposed behind the first safety panel 320.

The second mounting portion 322 is disposed below the first mounting portion 321. At least a portion of the first and second mounting parts 321 and 322 may be disposed to overlap each other in the front-rear direction.

Since the first and second mounting parts 321 and 322 overlap, the thickness of the safety panel 310 in the front and rear direction may be minimized.

In the present embodiment, the first mounting portion 321 is open toward the first space 101 and is covered by the cover member 340 provided at the front.

The second mounting portion 322 is open toward the second space 102 and is covered by a second safety panel 330 disposed at the rear.

At least one of the left or right sides of the first mounting portion 321 may be opened, and the authentication device 700 may be replaced or repaired through the opened side.

At least one of the left or right sides of the second mounting portion 322 may be opened, and the doorway door lock 301, 302 or the box door lock 303, 304 may be replaced or repaired through the opened side.

The first mounting portion 321 is formed to be recessed from the front side to the rear side. The authentication apparatus 700 may be inserted into the first mounting part 321, and the authentication apparatus 700 may be supported by the first mounting part 321.

The first mounting part 321 is formed to be recessed from the front surface 320a of the first security panel 320 to the rear side.

In the present embodiment, the first security panel 320 is manufactured by bending a plate. Unlike the present embodiment, the first mounting portion 321 may be formed in a groove shape when manufactured by casting, injection molding, or press working.

The second mounting portion 322 may also be manufactured in the same manner as the first mounting portion 321.

The passage door locks 301 and 302 and the box door locks 303 and 304 are mounted in the second mounting portion 322.

The access door locks 301 and 302 and the box door locks 303 and 304 are provided on the rear surface of the first security panel 320. In the present embodiment, the aisle door locks 301 and 302 and the box door locks 303 and 304 are disposed between the first security panel 320 and the second security panel 330.

The access door locks 301 and 302 and the box door locks 303 and 304 are hidden from the first space 101 by the first security panel 320.

A plurality of support portions 311, 312, 313 and 314 for supporting the passage door locks 301 and 302 and the box door locks 303 and 304 are provided.

In the present embodiment, the supporting portions 311, 312, 313, and 314 are formed by cutting the first security panel 320 and then bending. A separate member may be attached, unlike the present embodiment.

The supporting portions 311, 312, 313 and 314 are disposed in the second mounting portion 322 and on the rear surface of the first security panel 320.

The support spacer includes: a side support spacer 315 bent backward from an edge of the first safety panel 320, and a rear support spacer 316 bent at the side support spacer 315 and disposed in a left-right direction and located at a rear side of the first safety panel 320.

Preferably, the thickness of the side support 315 and the rear support 316 in the front-rear direction is smaller than the depth of the second mounting portion 322. Preferably, the thicknesses of the side support 315 and the rear support 316 do not protrude from the rear surface 321b of the first mounting portion 321 in the front-rear direction.

Each of the support portions 311, 312, 313, and 314 is formed with a slit that can be supported after the passage door locks 301 and 302 and the box door locks 303 and 304 are inserted.

The slits include a first slit formed at one side (right side in the present embodiment) of the first security panel 310 and a second slit formed at the other side (left side in the present embodiment) of the first security panel 310.

Since the two passage door locks 301 and 302 are provided, two first slits are formed. Since two box door locks 303 and 304 are also provided, two second slits are formed.

The first slits include a first upper slit 325 and a first lower slit 326 disposed below the first upper slit 325. The first upper slit 325 and the first lower slit 326 are opened to one side.

The passage door locks 301 and 302 are inserted into the first upper slit 325 and the first lower slit 326 through the opened side surfaces.

The second slits include a second upper slit 327 and a second lower slit 328 disposed below the second upper slit 327.

The second upper slit 327 and the second lower slit 328 are opened to the other side. The box door locks 303 and 304 are inserted into the second upper slit 327 and the second lower slit 328 through the other opened side.

The support portion forming the first upper slit 325 is referred to as a first upper support portion 311, and the support portion forming the first lower slit 326 is referred to as a first lower support portion 312.

The first upper support part 311 is formed in the left-right direction and supports the lower end of the first passage door lock 301. The first lower support portion 312 is formed in the left-right direction and supports the lower end of the second passage door lock 302.

The support portion forming the second upper slit 327 is referred to as a second upper support portion 313, and the support portion forming the second lower slit 328 is referred to as a second lower support portion 314.

The second upper support portion 313 is formed in the left-right direction, and supports the lower end of the first box door lock 303. The second lower support portion 314 is formed in the left-right direction, and supports the lower end of the second box door lock 304.

The doorway door locks 301, 302 are secured to at least one of the first security panel 320 and the second security panel 330.

The second mounting portion 322 is formed to be recessed forward from the rear surface 320b of the first security panel 320.

The first support portion 311 and the second support portion 312 may be used to align the positions of the passage door locks 301 and 302 before the passage door locks 301 and 302 are fastened.

In the present embodiment, the first safety panel 320 is bent to form the first and second mounting parts 321 and 322. Therefore, a connecting plate 323 is provided between the first mounting portion 321 and the second mounting portion 322.

The authentication apparatus 700 is inserted into the first mounting part 321, and is supported by the connection plate 323 of the first mounting part 321.

The authentication device 700 is disposed on the front side of the first security panel 320, and the passage door locks 301, 302 and the box door locks 303, 304 are disposed on the rear side of the first security panel 320. Thus, cables 351, 352, 353, and 354 for controlling the passage door locks 301 and 302 and the box door locks 303 and 304 are arranged through the authentication device 700.

Since the cables 351, 352, 353 and 354 need to connect the first and second installation parts 321 and 322, they must pass through some of the first security panels 320.

In the present embodiment, the connection hole 324 is formed in the connection plate 323 formed at both the first and second mounting parts 321 and 322, and the cables 351, 352, 353, and 354 are mounted through the connection hole 324.

Since the cables 351, 352, 353 and 354 pass through the connection hole 324, the length of the cables 351, 352, 353 and 354 can be minimized.

Fig. 14 is a sectional view taken along a-a' of fig. 13. Fig. 15 is a sectional view taken along B-B' of fig. 9.

The security assembly 300 may be secured to a rearwardly disposed assembly structure 250. By securing the security assembly 300 to the assembly structure 250 and integrating it, external intrusion may be blocked.

For example, even if security component 300 is detached, security component 300 is blocked by component structure 250 so that guests cannot intrude.

In this embodiment, the assembly structure 250 is disposed on the back of the second security panel 330. The second security panel 330 and the assembly structure 250 may be integrated by welding or rivet bonding.

The second door frame 122 is disposed on one side of the assembly structure 250 and the second cabinet frame 222 is disposed on the other side. One side and the other side of the assembly structure 250 may be coupled to the second door frame 122 and the second box frame 222.

At least a portion of assembly structure 250 is disposed between second door frame 122 and second box frame 222.

The assembly structure 250 includes a first intermediate portion 254 disposed toward the first space 101, a second intermediate portion 255 disposed toward the second space 102, and a connecting intermediate portion 256 connecting the first intermediate portion 254 and the second intermediate portion 255.

The first middle portion 254 may be disposed to face the second safety panel 330, and may be coupled to the second safety panel 330.

In the present embodiment, the first intermediate portion 254 is provided between the second door frame 122 and the second box frame 222. The second intermediate portion 255 is disposed behind the second space 102 than the second door frame 122 and the second box frame 222.

First intermediate portion 254 is located behind security assembly 300 and is concealed by security panels 310 and 320.

The structure cover 260 includes a first cover part 261 covering one side of the assembly structure 250, a second cover part 262 covering the other side of the assembly structure, and a third cover part 263 connecting the first cover part 261 and the second cover part 262 and covering the rear surface of the assembly structure 250.

The structural cover 260 may be formed of a steel material to improve fire and crime prevention properties.

The structural cover 260 may be exposed to the second space 102. In the present embodiment, a part of the first cover portion 261 and the third cover portion 263 is exposed to the second space 102.

The first cover portion 261 and the second cover portion 262 are disposed to face each other. The front surface of the structural cover 260 is open, and the assembly structure 250 may be inserted through the open front surface.

The first cover 261 may be fixed to the second door frame 122, and the second cover 262 may be fixed to the second box frame 222.

The first cover portion 261 and the second door frame 122 may be fastened or welded to be fixed. The second cover 262 and the second box frame 222 may also be fastened or welded to be fixed.

The upper end 251 of the assembly structure 250 is buried in the third structure 23 and protrudes upward from the upper ends of the security panels 310 and 320. The lower end 252 of the assembly structure 250 is buried in the fourth structure 24 and protrudes downward from the lower ends of the security panels 310 and 320.

Fig. 16 is a perspective view illustrating an assembled state of the safety assembly shown in fig. 1. Fig. 17 is a perspective view seen from the other side of fig. 16. Fig. 18 is a partially exploded view of fig. 16. Fig. 19 is a perspective view seen from the other side of fig. 18.

Referring to fig. 6, 7, 16, and 17, in the present embodiment, one side (the right side in the present embodiment) of the safety panel 310 is coupled to the second door frame 122, and the other side (the left side in the present embodiment) is coupled to the second cabinet frame 222.

A maintenance opening 127 passing through the second door frame 122 in the left-right direction may be formed. A maintenance cover 128 shielding the maintenance opening 127 of the second door frame 122 may be further provided.

The service cover 128 covers the first upper slit 325 (fig. 10) and the first lower slit 326 (fig. 10). The service cover 128 is disposed at one side of the first upper slit 325 and the first lower slit 326. The service cover 128 has holes through which the fixing bolts of the passage door locks 301 and 302 pass.

In addition, the maintenance cover 128 covers at least a portion of the first mounting portion 321. The service cover 128 is disposed at one side of the first mounting portion 321. The service cover 128 is disposed between the authentication device 700 and the access door 140.

Service opening 127 faces a side surface of safety assembly 300. The maintenance opening 127 is formed to be elongated in the up-down direction along the length direction of the second door frame 122.

A service cover 128 covering the service opening 127 may be assembled to the second door frame 122. The maintenance cover 128 is assembled by fastening members and can be detached from the second door frame 122 when necessary.

Since the service opening 127 and the service cover 128 are located on the same plane as the access door 140 when the access door 140 is closed, they can be hidden when viewed from the first space 101.

That is, when the access door 140 is closed, the service opening 127 and the service cover 128 face the left side of the access door 140 and are hidden by the access door 140.

In addition, a service cover 228 may be further provided on the second case frame 222. The service covers 228 and 229 partially cover the through holes 225 and 226. The service covers 228 and 229 have holes through which fixing bolts pass.

When the service cover needs to be classified, the service cover 128 for covering the aisle door lock is referred to as a first service cover, and the service cover for covering the box door lock is referred to as a second service cover.

The service covers 228 and 229 cover at least a portion of the second mounting portion 322 (fig. 10). Service covers 228 and 229 are provided at the other side of the second mounting portion 322. Service covers 228 and 229 are disposed between the storage compartment 500 and the compartment door lock.

The service covers 228 and 229 partially cover the through holes 225 and 226 and hide the box door locks 303 and 304. When the service covers 228 and 229 are separated, the box door locks 303 and 304 are exposed, and the box door locks 303 and 304 can be replaced or serviced.

The service covers 228 and 229 are disposed on the second upper slit 327 (fig. 10) side, and hide the second upper slit 327 and the second lower slit 328.

Referring to fig. 18 to 19, the passage door locks 301 and 302 and the cabinet door locks 303 and 304 are disposed between the second door frame 122 and the second cabinet frame 222, and may be assembled or separated by the second door frame 122 or the second cabinet frame 222.

That is, the aisle door locks 301, 302 and the cabinet door locks 303, 304 are not accessible from the first space 101 without releasing the first security panel 320.

The authentication device 700 is disposed in front of the security panel 310. The authentication apparatus 700 is an apparatus for authenticating a user.

In order to prevent external intrusion, the authentication apparatus 700 closes the first inner door and the second inner door when either one of the first outer door or the second outer door is opened.

Therefore, even if the first outer box door or the second outer box door is opened. It is also possible to prevent visitors from invading the second space 102 through the first storage space or the second storage space.

In the present embodiment, the cover member 340 is formed to have a larger area than the safety panel 310. One side of the cover member 340 covers the front side of the second door frame 122, and the other side covers the front side of the second box frame 222.

The width of the cover member 340 is defined as M3. The width of safety assembly 300, which includes the front of second door frame 122 and the front of second box frame 222, is defined as M4.

The width M3 of the cover member 340 may cover the front surfaces of the second door frame 122 and the second box frame 222.

The width M3 of the cover member 340 may be equal to or greater than the width M4 of the safety assembly 300. In the present embodiment, the width M3 and the width M4 are formed to be equal.

The cover member 340 covers the front surfaces of the safety assembly 300, the second door frame 122, and the second casing 222, and may hide the safety assembly 300, the second door frame 122, and the second casing 222.

In addition, one edge of the cover member 340 may be disposed to face the left side of the access door 140, and the other edge may be disposed to face the right side of the first door 520.

Preferably, the cover member 340 is located on the same plane as the front surface of the access door 140 and the front surface of the first door 520.

Further, in the present embodiment, the security panel 310 includes a first security panel 320 provided on the first space 101 side and a second security panel 330 provided on the second space 102 side.

In the present embodiment, the first security panel 320 and the second security panel 330 are disposed in the front-rear direction. Unlike the present embodiment, the first and second security panels 320 and 330 may be disposed in the left and right direction according to a space in which the smart door is installed.

The second security panel 330 covers a rear surface of the first security panel 310 and is coupled to the first security panel 310. The second safety panel 330 closes rear surfaces of the first and second mounting parts 321 and 322.

The aisle door locks 301, 302 and the box door locks 303, 304 are disposed between the first security panel 320 and the second security panel 330. The channel door locks 301, 302 and the chest door locks 303, 304 are not accessible through the bottom or rear.

The first security panel 310 prevents forward access by the channel door locks 301 and 302 and the box door locks 303 and 304. The second security panel 320 prevents backward access by the channel door locks 301 and 302 and the box door locks 303 and 304.

The first security panel 320 is disposed between the second door frame 122 and the second box frame 222.

In the present embodiment, the width M2 of the authentication device 700 is longer than the width M1 of the first mounting portion 321. Accordingly, one side edge 701 and the other side edge 702 of the authentication device 700 protrude from the first mounting portion 321.

One side edge 701 of the authentication device 700 is inserted and supported in the second door frame 122. The other side edge 702 of the authentication device 700 is inserted and supported in the second case frame 222.

A recessed first mounting groove 122a is formed on an outer surface (left side in the present embodiment) of the second door frame 122. The first mounting groove 122a is formed to extend long in the up-down direction and is formed in a stepped shape with respect to the outer surface of the second door frame 122.

Accordingly, one side 701 of the authentication device 700 inserted into the first mounting groove 122a has upper and lower ends supported by the second door frame 122.

A recessed second mounting groove 222a is formed on an outer surface (right side in the present embodiment) of the second box frame 222. The second mounting groove 222a is formed to extend long in the vertical direction and is formed in a stepped shape with respect to the outer surface of the second box frame 222.

Therefore, the other side 702 of the authentication device 700 inserted into the second mounting groove 222a has upper and lower ends supported by the second case frame 222.

One side 701 of the authentication device 700 may be fastened and fixed with the service cover 128 provided on the second door frame 122. When the service cover 128 is detached, at least a portion of the authentication device 700 may be exposed, and a portion of the authentication device 700 may be serviced or replaced.

The first and second mounting grooves 122a and 222a are disposed to face each other. The first mounting groove 122a forms a groove toward one side structure (the first structure of the present embodiment). The second mounting groove 222a forms a groove toward the other side structure (the second structure in the present embodiment).

The first mounting groove 122a surrounds the right side of the authentication device 700 and supports the authentication device 700. The second mounting groove 222a surrounds the left side of the authentication device 700 and supports the authentication device 700.

The authentication device 700 is inserted into the first and second mounting grooves 122a and 222 a. The front surface of the authentication device 700 may form the same plane as the front surfaces of the second door frame 122 and the second cabinet frame 222. Preferably, the authentication device 700 does not protrude toward the first space 101 than the front surfaces of the second door frame 122 and the second case frame 222.

Fig. 20 is a schematic front view of the authentication device shown in fig. 18.

Referring to fig. 20, the authentication apparatus 700 includes a housing 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 housing 710 is mounted on the security panel 310 and is disposed on the first space 101 side of the security panel 310. In the present embodiment, the housing 710 is installed by being inserted into the security panel 310.

In the present embodiment, the housing 710 is formed in a rectangular parallelepiped shape. The shape of the housing 710 may be variously modified unlike the present embodiment.

The display 720 is installed in the housing 710 and disposed toward the first space 101. The information on the display 720 may be confirmed in the first space 101.

A plurality of cameras 730 may be provided. In the present embodiment, the camera 730 includes an external call image camera 732, a vein authentication camera 734 for vein authentication, and a face recognition camera 736 for face 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 means 740 may emit light to confirm the positions of the vein authentication camera 734 and the facial 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 when the illuminance is low, the recognition speed of the image camera 732, the vein authentication camera 734, the face recognition camera 736, and the illuminance sensor 750 can be improved by the light emitted from the light emitting member 740.

The controller may operate the light emitting member 740 according to the value sensed by the illuminance sensor 750.

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, and the speaker 780 may be operated according to the value detected by the proximity sensor 760.

In the present embodiment, the authentication apparatus 700 performs vein authentication after face authentication of a user. That is, the authentication apparatus 700 checks the user through the face recognition camera 736 and then checks the vein of the user through the vein authentication camera 734.

The smart door according to the present disclosure has one or more of the following effects.

First, in the present disclosure, a security panel on which an authentication device is mounted is disposed in an opening, and an assembly structure is disposed behind the security panel, and since the assembly structure is coupled to the structure, even if the security panel is detached from the outside, it is possible to prevent external intrusion due to the assembly structure.

Second, the present disclosure has an advantage of minimizing thermal deformation of the smart door even in the event of a fire because the security panel and the assembly structure are formed of steel materials.

Third, the present disclosure is advantageous in that the entire smart door is integrated due to the coupling of the assembly structure with the access door disposed on one side and the delivery door disposed on the other side.

Fourth, the present disclosure is advantageous in that, since the rear side is coupled to the assembly structure, the door frame is coupled to one side of the security panel, and the cabinet frame is coupled to the other side, to prevent access to the locking device from the outside.

Fifth, the present disclosure has an advantage of improved safety and fire prevention performance in that the module structure cannot be disassembled from the outside because the upper and lower ends of the module structure are embedded and installed in the structure.

The effects of the present disclosure are not limited to the above effects, and other effects not mentioned will be clearly understood from the description of the claims by those skilled in the art.

In the foregoing, preferred embodiments of the present disclosure have been illustrated and described, but the present disclosure is not limited to the above-described specific embodiments. Of course, various modifications may be made by one of ordinary skill in the art to which the disclosure pertains without departing from the spirit of the disclosure as claimed in the claims. The modified embodiments should not be separately understood from the technical spirit or prospect of the present disclosure.

Cross Reference to Related Applications

This application claims priority from korean patent application No. 10-2020-.

Claims (20)

1. An intelligent door, comprising:

a structure formed with an opening;

a security panel disposed across the opening in an up-down direction;

an access door disposed in the opening and on one side of the security panel;

a storage compartment disposed in the opening and on another side of the security panel; and

an assembly structure disposed behind the security panel and secured to a structure in which the opening is formed.

2. The smart door of claim 1, wherein the structure in which the opening is formed comprises:

a first structure disposed on one side of the opening;

a second structure disposed on the other side of the opening;

a third structure disposed over the opening and connecting the first structure and the second structure; and

a fourth structure disposed below the opening and connecting the first structure and the second structure,

a first opening is formed between the first structure and the security panel, and

a second opening is formed between the second structure and the security panel,

wherein the access door closes the first opening and the storage bin closes the second opening.

3. The smart door of claim 2, wherein an upper end of the assembly structure is secured to the third structure.

4. The smart door of claim 3, wherein an upper end of the assembly structure protrudes more upwardly than an upper end of the security panel.

5. The smart door of claim 2, wherein a lower end of the assembly structure is secured to the fourth structure.

6. The smart door of claim 5, wherein a lower end of the assembly structure protrudes more downwardly than a lower end of the security panel.

7. The smart door of claim 1, wherein the security panel is coupled to the assembly structure.

8. The intelligent door of claim 1, further comprising:

a door frame disposed between the access door and the security panel,

wherein the door frame and the assembly structure are coupled.

9. The smart door of claim 1, further comprising a box frame disposed between the storage box and the security panel,

wherein the case frame is coupled to the assembly structure.

10. The intelligent door of claim 1, further comprising:

a door frame disposed between the access door and the security panel; and

a box frame disposed between the storage box and the security panel,

wherein at least a portion of the assembly structure is disposed between the door frame and the box frame.

11. The intelligent door of claim 10,

characterized in that the assembly structure comprises:

a first intermediate portion disposed to face a rear surface of the security panel;

a second intermediate portion disposed spaced apart from the first intermediate portion and facing in a direction opposite to the first intermediate portion; and

an intermediate connecting portion connecting the first intermediate portion and the second intermediate portion.

12. The smart door of claim 11, wherein the first intermediate portion is coupled to the door frame.

13. The smart door of claim 11, wherein the first intermediate portion is coupled to the cabinet frame.

14. The smart door of claim 11, further comprising a structural cover exposed in one direction and surrounding the assembly structure.

15. The smart door of claim 14, wherein the structural cover comprises:

a first cover covering one side of the assembly structure;

a second cover covering the other side of the assembly structure; and

a third cover portion that connects the first cover portion and the second cover portion and covers a rear surface of the assembly structure.

16. The smart door of claim 15, wherein the third cover portion is exposed in one direction.

17. The smart door of claim 15, wherein the first cover portion is disposed between a side of the assembly structure and the door frame.

18. The smart door of claim 15, wherein the second cover portion is disposed between the other side of the assembly structure and the cabinet frame.

19. The smart door according to claim 1, wherein a structure in which the opening is formed is provided between the first space and the second space,

wherein, this intelligence door still includes:

a door provided at the storage box to be exposed to the first space and to open or close a storage space inside the storage box;

a passage door lock provided at the security panel and locking or unlocking the passage;

a box door lock provided at the security panel and locking or unlocking the box door; and

an authentication device provided at the security panel and locking or unlocking the passage door lock or the box door lock.

20. An intelligent door, comprising:

a structure having an opening and disposed between the first space and the second space;

a security panel disposed across the opening in an up-down direction;

an access door disposed at the opening and disposed at one side of the security panel;

a storage compartment disposed at the opening and at another side of the security panel;

a door frame disposed between the access door and the security panel;

a box frame disposed between the storage box and the security panel; and

an assembly structure disposed behind the security panel and secured to a structure having the opening and disposed between the first space and the second space,

wherein the assembly structure is disposed between the door frame and the box frame and is fixed to a structure having the opening and disposed between the first space and the second space.

Images