A gate device

By integrating the camera device with the gate assembly into the access control system, the problems of poor structural integrity and inadequate recognition effect of traditional access control devices are solved. This achieves a lower installation height and a wider recognition range, improving the system's aesthetics and security.

CN224341906UActive Publication Date: 2026-06-09SHENZHEN JIESHUN SCI & TECH IND

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN JIESHUN SCI & TECH IND
Filing Date
2025-05-30
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In traditional access control gate systems, the camera device and the gate structure are poorly integrated, resulting in poor recognition performance, especially for shorter people. In addition, the device occupies a lot of space and affects the aesthetics.

Method used

Design an access control device that places a camera above a gate assembly, with its outer wall adapted to the shape of the gate assembly's outer wall. The camera drives the gate to rotate, thus controlling access. This reduces the installation height of the camera and expands the recognition range.

Benefits of technology

The integrated design of the camera device and the access gate enhances the aesthetics and space utilization of the device, expands the recognition range, ensures effective identification of people of different heights, and improves the intelligence and security of the system.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a kind of access control device, it is related to access control technical field, including passageway gate body and camera device, the inner side wall of passageway gate body is provided with gate board assembly component, and the side of gate board assembly component away from passageway gate body is equipped with gate board body;Camera device is arranged above gate board assembly component, and the shape of the outer side wall of camera device is adapted to the shape of the outer side wall of gate board assembly component;When camera device is used to detect user with access right, control gate board assembly component drives gate board body to move, so that gate board body changes from interception state to open state, when user passes through passageway gate body, gate board assembly component drives gate board body to recover from open state to interception state.Camera device is arranged above gate board assembly component, improves the overall aesthetics and space utilization of device, at the same time, the installation height of camera is lower, and the identification range is wider, and it can also achieve effective identification for children and other short people.
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Description

Technical Field

[0001] This utility model relates to the field of access control technology, specifically to an access control device. Background Technology

[0002] Access control gates, also known as entry and exit management control systems, are a new type of access control equipment developed from traditional door access control systems. They utilize modern electronic technology and biometric technology to automate the management of entry and exit channels. For example, access control gates can be installed at entrances and exits, and they can verify the access rights of passersby at the exit using their identity information. Through a combination of physical and electronic means, they achieve precise control over personnel and ensure area security. The identity information of passersby may include identification information from their ID cards and / or their biometric information, such as biometric information obtained from captured images of the passersby.

[0003] Traditional access control gate systems consist of an access control identification display device and a gate itself. The access control identification display device is fixed to the gate via support columns. The access control identification display device and the gate body have significantly different shapes, which not only occupies more space but also makes the integration between the gate body and the access control identification display device poor. In addition, since the gate itself is quite tall, placing the access control identification display device on top of it further increases the installation height of the access control identification display device, resulting in poor recognition effect, small recognition range, and inability to effectively recognize shorter children. Utility Model Content

[0004] The purpose of this utility model is to address the shortcomings and deficiencies of the existing technology by providing an access control device that integrates the camera device and the access gate into a single structure, thereby improving the overall aesthetics of the device while reducing the installation height of the identification device.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] A door access control device is constructed, comprising: a gate body, a gate assembly assembly is provided on the inner side wall of the gate body, and the gate body is installed on the side of the gate assembly assembly away from the gate body;

[0007] A camera device is disposed above the gate assembly, and the shape of the outer side wall of the camera device is adapted to the shape of the outer side wall of the gate assembly.

[0008] When the camera device detects a user with access rights, it controls the gate assembly to drive the gate body to move, changing the gate body from an blocked state to an open state. After the user passes through the gate body, the gate assembly drives the gate body to return to the blocked state from the open state.

[0009] Optionally, the gate assembly includes a rotating component and a driving component disposed at at least one axial end of the rotating component. The gate body is mounted parallel to the rotating component on the side of the rotating component, and the driving component is used to drive the rotating component to rotate the gate body.

[0010] Optionally, a detachable connection assembly for connecting to the camera device is provided on the side wall of the gate body and / or on the drive component;

[0011] Alternatively, the camera device may be fixedly mounted on the side wall of the gate body and / or on the drive component.

[0012] Optionally, the detachable connection assembly includes a mounting vertical plate, which is detachably connected to the inner wall of the gate body. A mounting horizontal plate is provided on the side of the mounting vertical plate away from the gate body. A mounting through hole is provided in the middle of the mounting horizontal plate, penetrating its top and bottom. The driving member is provided on one side of the mounting horizontal plate, and the rotating member is provided on the other side. The drive shaft of the driving member passes through the mounting through hole and is connected to the rotating member.

[0013] Optionally, the mounting plate has at least two mounting protrusions on the side away from the gate body along the length of the mounting plate, and the camera device is detachably connected to the mounting protrusions.

[0014] Optionally, the access gate body includes a gate box, the top of which is provided with a receiving slot and a cover plate for covering the receiving slot; a display screen assembly is installed inside the receiving slot;

[0015] The cover plate has a mounting groove corresponding to the display screen assembly. A transparent observation plate is embedded in the mounting groove, facing the display screen assembly, and the content displayed on the display screen assembly can be viewed through the observation plate. The top of the gate box is detachably equipped with a cover plate for covering the receiving groove. The cover plate has a mounting groove in the middle, and a transparent observation plate is embedded in the mounting groove, facing the display screen assembly, and the content displayed on the display screen assembly can be viewed through the observation plate.

[0016] Optionally, the camera device includes a mounting base and a camera body disposed on top of the mounting base, the bottom of the mounting base is provided with an assembly groove, and the mounting base is sleeved on the outside of the driving component.

[0017] Optionally, the camera body has a camera surface, which is positioned facing the side where people gradually approach. The camera surface is tilted relative to the ground at an angle of 100° to 170° between the vertical and horizontal directions towards the direction of people's passage. The camera surface is also tilted at an angle of 100° to 170° in the horizontal direction towards the direction of people's passage.

[0018] Optionally, the camera surface is provided with at least one light inlet corresponding to the recognition camera and at least one light outlet corresponding to the supplementary light.

[0019] Optionally, a protective cover is provided on the outer side of the camera surface.

[0020] After adopting the above technical solution, the beneficial effects of this utility model are as follows:

[0021] This utility model provides an access control device that integrates the camera device with the gate assembly by placing the camera device above the gate assembly and adapting the shape of the camera device's outer wall to the outer wall of the gate assembly. This achieves a structurally integrated design of the camera device and the gate. Furthermore, placing the camera device above the gate assembly improves the overall aesthetics and space utilization of the device. The lower installation height of the camera also allows for a wider recognition range, effectively identifying shorter individuals such as children. In addition, the camera device identifies users with access rights and drives the gate to rotate, automatically switching the gate between blocked and open states. This enhances the device's intelligence and access efficiency, effectively achieving accurate identification and efficient control of personnel entering and exiting, thereby improving the overall system's security, reliability, and user experience. Attached Figure Description

[0022] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0023] Figure 1 This is an isometric schematic diagram of the overall structure of this utility model;

[0024] Figure 2 This is an exploded view of the overall structure of this utility model;

[0025] Figure 3 This is another exploded view of the overall structure of this utility model;

[0026] Figure 4This is a front view of the overall structure of this utility model;

[0027] Figure 5 This is a schematic diagram of the structure of this utility model after disassembling the camera device and installing the protrusion;

[0028] Figure 6 This utility model Figure 5 Enlarged schematic diagram of part A;

[0029] Figure 7 This is another structural diagram of the present invention after disassembling the camera device and installing the protrusion.

[0030] Figure 8 This is a schematic diagram of the angle of the camera body in this utility model;

[0031] Explanation of reference numerals in the attached figures:

[0032] 110. Gate box; 120. Top of box; 130. Bottom of box; 140. Connecting column; 150. Receiving slot; 160. Cover plate; 170. Mounting slot; 180. Observation plate; 190. Display screen assembly;

[0033] 210. Install vertical plate; 211. Install protrusion; 212. Cover plate; 220. Install horizontal plate; 240. First connecting through hole; 250. First connecting hole; 260. Connector; 270. Second connecting through hole; 280. Second connecting hole;

[0034] 300. Rotating component; 310. Driving component; 320. Gate body;

[0035] 410. Camera device; 420. Mounting base; 430. Assembly slot; 440. Camera body; 450. First assembly section; 460. Second assembly section. Detailed Implementation

[0036] The present invention will be further described in detail below with reference to the accompanying drawings.

[0037] This specific embodiment is merely an explanation of the present utility model and is not intended to limit the present utility model. After reading this specification, those skilled in the art can make modifications to this embodiment without contributing any inventive element, but as long as they are within the scope of the claims of the present utility model, they are protected by patent law.

[0038] This embodiment relates to an access control device, such as... Figures 1-8As shown, the device includes: a gate body and a camera device 410. A gate assembly is provided on the inner wall of the gate body, and a gate body 320 is installed on the side of the gate assembly away from the gate body. The camera device 410 is located above the gate assembly, and the shape of the outer wall of the camera device 410 is adapted to the shape of the outer wall of the gate assembly. When the camera device 410 detects a user with access rights, it controls the gate assembly to drive the gate body 320 to move, changing the gate body 320 from an blocked state to an open state. After the user passes through the gate body, the gate assembly drives the gate body 320 back from the open state to the blocked state. Furthermore, this utility model further improves the gate body by setting the camera device 410... The camera 410 is positioned above the gate assembly, with its outer wall matching the shape of the gate assembly's outer wall. This achieves an integrated design between the camera 410 and the gate. The camera's lower installation height and wider recognition range enhance the overall aesthetics and space utilization of the device. Furthermore, the camera 410 identifies users with access rights and drives the gate to rotate, automatically switching the gate body 320 between blocked and open states. This improves the device's intelligence and access efficiency, effectively achieving accurate identification and efficient control of personnel entering and exiting, thereby enhancing the overall system's security, reliability, and user experience. It is understandable that the camera's installation height is related to the gate assembly. In practical applications, to better adapt to the gate assembly, its actual installation height can be lower than, equal to, or higher than the gate body.

[0039] like Figures 1-7As shown, in this embodiment, the gate assembly includes a rotating member 300 and a driving member 310 disposed at at least one axial end of the rotating member 300. The gate body 320 is mounted parallel to the rotating member 300 on the side of the rotating member 300. The driving member 310 is used to drive the rotating member 300 to rotate the gate body 320. A detachable connection assembly for connecting to a camera device 410 is provided on the side wall of the gate body and / or on the driving member 310. Alternatively, the camera device 410 is fixedly disposed on the side wall of the gate body and / or on the driving member 310. Further, the detachable connection assembly includes a mounting vertical plate 210, which is detachably connected to the inner side wall of the gate body. A mounting horizontal plate 220 is provided on the side away from the gate body. A mounting vertical plate 210 is perpendicular to the mounting horizontal plate 220. A mounting through hole (not shown in the figure) is provided in the middle of the mounting horizontal plate 220, penetrating its top and bottom. A driving component 310 is provided on one side of the mounting horizontal plate 220, and a rotating component 300 is provided on the other side, so that the driving shaft can pass through the mounting through hole and connect with the rotating component 300, thereby improving the integration and space utilization efficiency of the equipment. Specifically, by cooperating with the driving component 310 on its top, the driving component 310 can drive the rotating component 300 through the driving shaft to realize the rotation of the gate body 320, thereby ensuring the stability and accuracy of the gate opening and closing action and improving the reliability of the whole machine operation.

[0040] It is understood that the driving component 310 can be located at the upper or lower end of the rotating component 300 along its axial direction, or one driving component 310 can be located at both the upper and lower ends of the rotating component 300 along its axial direction. The camera device 410 can be fixed to the side wall of the gate body or to the gate assembly. When the driving component 310 is located at the upper end of the rotating component 300 along its axial direction, the camera device 410 is fixed above the driving component 310; when the driving component 310 is located at the lower end of the rotating component 300 along its axial direction, the camera device 410 is fixed to the upper end of the rotating component 300 along its axial direction. Of course, the camera device 410 can also be simultaneously connected and fixed to both the side wall of the gate body and the gate assembly.

[0041] like Figure 2 , Figure 3 , Figure 6As shown, in this embodiment, the camera device 410 includes a mounting base 420 and a camera body 440 disposed on the top of the mounting base 420. The bottom of the mounting base 420 is provided with an assembly groove 430. The mounting base 420 is sleeved on the outside of the driving member 310. Specifically, by mounting the camera device 410 on the top of the mounting base 420, the camera has good structural support and stability. The mounting base 420 can be sleeved on the outside of the driving member 310 through the presence of the assembly groove, thus covering the driving member 310 while forming a compact integrated structure between the camera device 410 and the gate driving mechanism. In this embodiment, the driving member 310 can be a drive motor.

[0042] like Figures 5-8 As shown, in this embodiment, the mounting vertical plate 210 is provided with a plurality of first connecting through holes 240, and the inner wall of the gate body is provided with first connecting holes 250 corresponding to the first connecting through holes 240. The connecting piece 260 can pass through the first connecting through hole 240 and connect to the first connecting hole 250, thereby connecting the mounting vertical plate 210 to the inner wall of the gate body. Specifically, the first connecting hole 250 is a threaded hole, and the connecting piece 260 is a screw. The mounting vertical plate 210 is firmly installed on the inner wall of the gate body by using the screw as the connecting piece 260, which can achieve a stable and reliable connection effect.

[0043] like Figures 1-7 As shown, in this embodiment, at least two mounting protrusions 211 are provided along the length of the mounting vertical plate 210 on the side away from the gate body. The camera device 410 is detachably connected to the mounting protrusions 211. The rotating member 300 is cylindrical. The mounting base 420 includes a first assembly part 450 with its sidewall parallel to the mounting protrusions 211 and a second assembly part 460 with its outer sidewall having the same curvature as the rotating member 300. The camera body 440 is mounted on the top of the second assembly part 460. Furthermore, the second assembly part 460 is provided with a second connecting through hole 270, and the mounting protrusions 211 are provided with a second connecting hole 280. The second connecting hole 280 can be a threaded hole or a through hole. When it is a threaded hole, a screw can be passed through the connecting through hole and threaded into the threaded hole to achieve the purpose of connecting the camera device 410 with the mounting protrusion 211. When the second connecting hole 280 is a through hole, a screw can be passed through the connecting through hole and the through hole, and a nut can be used to thread the screw at the tail end. The diameter of the nut is larger than the diameter of the through hole to achieve the purpose of connecting the camera device 410 with the mounting protrusion 211. Multiple baffles 212 can also be detachably connected to the mounting protrusion 211. The baffles 212 are located below the camera device 410 and parallel to the first assembly part 450.

[0044] like Figures 2-3As shown, in this embodiment, the access gate body includes a gate box 110. The top of the gate box 110 is provided with a receiving groove 150 and a cover plate 160 for covering the receiving groove 150. A display screen assembly 190 is installed inside the receiving groove 150. A mounting groove 170 is formed at the position of the cover plate 160 corresponding to the display screen assembly. A transparent observation plate 180 is embedded in the mounting groove 170, facing the display screen assembly 190. The content displayed on the display screen assembly 190 can be viewed through the observation plate 180. Furthermore, by providing a receiving groove 150 and installing the display screen assembly 190 at the top of the gate box 110, the display screen assembly can be fixed to the top of the gate box, facilitating user access. Users can directly view passage information or system feedback while traveling, improving the timeliness of information transmission and ease of use. At the same time, by placing the display assembly 190 inside the receiving slot 150, the device avoids bumps or damage caused by the exposed display, enhancing its safety and durability. Furthermore, by setting a removable cover plate 160 on the top of the gate box 110, and opening an installation slot 170 in the middle of the cover plate 160 to embed a transparent observation plate 180, the display assembly 190 can display information through the observation plate 180. While ensuring that users can clearly view the displayed content, the device effectively isolates the display from direct contact with the external environment, improving the display's dustproof, waterproof, and scratch-resistant performance.

[0045] like Figures 1-8 As shown, in this embodiment, the gate box 110 includes a top box 120 and a bottom box 130. The top box 120 and the bottom box 130 are connected by at least one connecting post 140. The first assembly part 450 is disposed below the top box 120. Furthermore, by disposing the first assembly part 450 below the top box 120, it helps to achieve a compact layout and space optimization among the components.

[0046] like Figures 1-8As shown, in this embodiment, the camera body 440 has a camera surface, which is positioned facing the side where people gradually approach. The camera surface is inclined at an angle of 100° to 170° relative to the ground in the direction of people's passage, both vertically and horizontally. The camera surface is also inclined at an angle of 100° to 170° in the horizontal direction of people's passage. Preferably, the camera surface of the camera body 440 is inclined at an angle of 110° relative to the ground in the direction of people's passage, both vertically and horizontally. By tilting the camera body 440 at a 110° angle relative to the ground in both the vertical and horizontal directions, its field of view can better cover the passage area of ​​the access gate. This also effectively expands the field of view to accommodate the face area of ​​people of different heights, thereby improving the accuracy of facial recognition in complex crowd structures. At the same time, tilting the camera at a 110° angle relative to the side wall of the access gate in the horizontal direction gives the camera a wider shooting range, adapting to the usage needs of different passage widths and ensuring that people can be accurately identified in different path positions.

[0047] like Figures 1-8 As shown, in this embodiment, the camera surface is provided with at least one light inlet corresponding to the recognition camera and at least one light outlet corresponding to the supplementary light. In some embodiments, multiple cameras may be provided, including but not limited to full-color cameras and infrared cameras, and the corresponding supplementary lights include but not limited to white supplementary lights and infrared supplementary lights. Setting multiple cameras can improve the security of face recognition and prevent some people from bypassing recognition by illegal means such as photos, thus avoiding security risks.

[0048] like Figures 1-8 As shown, in this embodiment, a protective cover is placed on the outer side of the camera surface. In some embodiments, the protective cover is preferably made of transparent material, and is generally arc-shaped or circular, fitting snugly against the outer contour of the camera surface. This protective cover covers the light inlet and outlet areas, effectively preventing external contaminants such as dust, moisture, and debris from entering the device and avoiding contamination of the lens or light source channel, thereby ensuring the stability of image quality and the consistency of supplementary lighting effect. At the same time, the protective cover also prevents users from accidentally touching the camera module, helping to improve the structural safety and durability of the entire device. Of course, a protective cover made of a single-sided translucent material can also be selected, achieving the effect that the inside can see the outside, but the outside cannot see the inside, thus better concealing the camera device and improving the overall integrity and sense of unity.

[0049] The above is only used to illustrate the technical solution of this utility model and not to limit it. Any other modifications or equivalent substitutions made by those skilled in the art to the technical solution of this utility model, as long as they do not depart from the spirit and scope of the technical solution of this utility model, should be covered within the scope of the claims of this utility model.

Claims

1. An access control device, characterized in that, include: The gate body has a gate assembly on its inner side wall, and the gate body (320) is mounted on the side of the gate assembly away from the gate body. A camera device (410) is disposed above the gate assembly, and the shape of the outer side wall of the camera device (410) is adapted to the shape of the outer side wall of the gate assembly. When the camera device (410) detects a user with access rights, it controls the gate assembly to drive the gate body (320) to move so that the gate body (320) changes from the blocked state to the open state. After the user passes through the gate body, the gate assembly drives the gate body (320) to return from the open state to the blocked state.

2. The access control device as described in claim 1, characterized in that, The gate assembly includes a rotating component (300) and a drive component (310) disposed at at least one axial end of the rotating component (300). The gate body (320) is mounted parallel to the rotating component (300) on the side of the rotating component (300). The drive component (310) is used to drive the rotating component (300) to rotate the gate body (320).

3. The access control device as described in claim 2, characterized in that, A detachable connection assembly for connecting to the camera device (410) is provided on the side wall of the gate body and / or on the drive member (310); Alternatively, the camera device (410) may be fixedly mounted on the side wall of the gate body and / or on the drive unit (310).

4. The access control device as described in claim 3, characterized in that, The detachable connection assembly includes a mounting vertical plate (210), which is detachably connected to the inner wall of the gate body. A mounting horizontal plate (220) is provided on the side of the mounting vertical plate (210) away from the gate body. A mounting through hole is provided in the middle of the mounting horizontal plate (220) through its top and bottom. The driving member (310) is provided on one side of the mounting horizontal plate (220), and the rotating member (300) is provided on the other side. The driving shaft of the driving member (310) passes through the mounting through hole and is connected to the rotating member (300).

5. The access control device as described in claim 4, characterized in that, The mounting plate (210) has at least two mounting protrusions (211) on the side away from the gate body along the length of the mounting plate (210), and the camera device (410) is detachably connected to the mounting protrusions (211).

6. The access control device as described in claim 5, characterized in that, The gate body includes a gate box (110), and the top of the gate box (110) is provided with a receiving groove (150) and a cover plate (160) for covering the receiving groove (150). The receiving slot (150) is equipped with a display screen assembly (190); The cover plate (160) has a mounting groove (170) at the part corresponding to the display screen assembly. A transparent observation plate (180) is embedded in the mounting groove (170). The observation plate (180) faces the display screen assembly (190), and the content displayed on the display screen assembly (190) can be viewed through the observation plate (180).

7. An access control device as described in claim 6, characterized in that, The camera device (410) includes a mounting base (420) and a camera body (440) disposed on the top of the mounting base (420). The bottom of the mounting base (420) is provided with an assembly groove (430), and the mounting base (420) is sleeved on the outside of the drive member (310).

8. An access control device as described in any one of claims 1 to 7, characterized in that, The camera body (440) has a camera surface, which is positioned facing the side where people gradually approach. The camera surface is tilted relative to the ground at an angle of 100° to 170° between the vertical and horizontal directions towards the direction of people's passage. The camera surface is also tilted at an angle of 100° to 170° in the horizontal direction towards the direction of people's passage.

9. An access control device as described in claim 8, characterized in that, The camera surface is provided with at least one light inlet corresponding to the recognition camera and at least one light outlet corresponding to the supplementary light.

10. An access control device as described in claim 8, characterized in that, A protective cover is placed on the outside of the camera surface.