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CN-224228597-U - Full-height rotary gate

CN224228597UCN 224228597 UCN224228597 UCN 224228597UCN-224228597-U

Abstract

The application is suitable for the technical field of all-height turnstiles, and provides an all-height turnstile which comprises a supporting module, an all-height turnstile module, an energy storage module and a solar module, wherein the all-height turnstile module is arranged on the supporting module, a passage channel is arranged on the all-height turnstile module, the all-height turnstile module is provided with a locking state for blocking the passage channel and an unlocking state for allowing pedestrians to pass through the passage channel, the energy storage module is arranged on the supporting module and is electrically connected with the all-height turnstile module and is used for storing electric energy and supplying power to the all-height turnstile module, and the solar module is arranged on the supporting module and is electrically connected with the energy storage module and the all-height turnstile module and is used for conveying electric energy into the energy storage module or respectively conveying electric energy into the energy storage module and the all-height turnstile module. The full-height rotary gate provided by the application can keep stable operation in a commercial power-free environment, and has better environmental adaptability and universality.

Inventors

  • LONG HAITAO
  • WANG CHAOZHONG
  • ZHANG DA

Assignees

  • 熵基科技股份有限公司
  • 熵基科技(广东)有限公司

Dates

Publication Date
20260512
Application Date
20250409

Claims (10)

  1. 1. An all-height transfer gate, the all-height transfer gate comprising: a support module (10); The full-height gate-turning module (20), the full-height gate-turning module (20) is arranged on the supporting module (10), a passing channel is arranged on the full-height gate-turning module (20), and the full-height gate-turning module (20) has a locking state for blocking the passing channel and an unlocking state for allowing pedestrians to pass through the passing channel; The energy storage module (30) is arranged on the supporting module (10) and is electrically connected with the full-height switching-gate module (20) and used for storing electric energy and supplying power to the full-height switching-gate module (20); The solar module (40) is arranged on the supporting module (10) and is electrically connected with the energy storage module (30) and the full-height switching-gate module (20) and used for conveying electric energy into the energy storage module (30) or respectively conveying electric energy into the energy storage module (30) and the full-height switching-gate module (20).
  2. 2. The full-height rotary brake according to claim 1, wherein the support module (10) comprises a base (11) and a support frame (12) which are sequentially arranged along the vertical direction, the support frame (12) is installed on the base (11) and located above the base (11), the full-height rotary brake module (20) and the energy storage module (30) are installed on one side, close to the support frame (12), of the base (11), and the solar module (40) is installed on one side, far away from the base (11), of the support frame (12).
  3. 3. The full-height swing gate according to claim 1, wherein the full-height swing gate module (20) includes a door frame assembly (21), a rotation shaft assembly (22) and a locking assembly, the door frame assembly (21) is mounted to the support module (10) and is formed with the passage channel, the rotation shaft assembly (22) is rotatably mounted in the passage channel, and the locking assembly is connected to the door frame assembly (21) and the rotation shaft assembly (22) for engaging or disengaging the door frame assembly (21) and the rotation shaft assembly (22); When the full-height rotary gate module (20) is in the locking state, the rotary shaft assembly (22) is engaged with the door frame assembly (21) through the locking assembly, so that the rotary shaft assembly (22) cuts off the passing channel; When the full-height switch module (20) is in the unlocking state, the rotating shaft assembly (22) is separated from the door frame assembly (21) through the locking assembly, and the rotating shaft assembly (22) can rotate in the passing channel so as to allow pedestrians to pass through the passing channel.
  4. 4. The full-height transfer gate of claim 1, wherein the solar module (40) has a first electrical energy output, the full-height transfer gate module (20) has a first electrical power input, the energy storage module (30) comprises an energy storage battery assembly, a charging end of the energy storage battery assembly is electrically connected to the first electrical energy output, a discharging end of the energy storage battery assembly is electrically connected to the first electrical power input, and the energy storage battery assembly is configured to store electrical energy delivered by the solar module (40) and to power the full-height transfer gate module (20).
  5. 5. The full-height transfer gate according to claim 4, wherein the solar module (40) is configured to deliver electrical energy into the energy storage module (30) and the full-height transfer gate module (20), respectively, the full-height transfer gate having a first power supply state in which power is supplied to the full-height transfer gate module (20) only by the energy storage module (30), and a second power supply state in which power is supplied to the full-height transfer gate module (20) only directly by the solar module (40); The solar module (40) is further provided with a second electric energy output end, the full-height switching-gate module (20) is further provided with a second power input end, and the second electric energy output end is electrically connected with the second power input end, so that the solar module (40) can directly supply power to the full-height switching-gate module (20) when the full-height switching-gate is in the second power supply state.
  6. 6. A full height brake as claimed in claim 3, further comprising a control module electrically connected to the locking assembly for controlling the locking assembly to engage or disengage the door frame assembly (21) and the spindle assembly (22) to switch the full height brake module (20) between the locked and unlocked states.
  7. 7. The full-height brake system according to claim 6, further comprising a monitoring module, wherein the monitoring module comprises a position detection assembly, and the position detection assembly is disposed on the full-height brake module (20), is electrically connected to the control module, and is configured to monitor a locked state or an unlocked state of the full-height brake module (20) in real time, and feed back to the control module.
  8. 8. The full-height switch of claim 7, wherein the monitoring module further comprises an electric quantity detection assembly, and the electric quantity detection assembly is mounted on the energy storage module (30), electrically connected with the control module and the energy storage module (30), and used for monitoring the charging state of the energy storage module (30) in real time and feeding back to the control module.
  9. 9. The full-height brake as recited in claim 7, wherein the monitoring module further comprises an illumination intensity detection assembly mounted to the solar module (40) and electrically connected to the control module for real-time monitoring of illumination intensity at the solar module (40) and feedback to the control module.
  10. 10. The full-height transfer gate according to any one of claims 6 to 9, further comprising a wireless communication module electrically connected to the control module, the control module wirelessly communicating with an external device through the wireless communication module.

Description

Full-height rotary gate Technical Field The application belongs to the technical field of full-height turnstiles, and particularly relates to a full-height turnstile. Background The full-height rotary gate is used as important personnel channel control equipment and mainly comprises a rotary wing assembly, a central rotating shaft system, an electromagnetic locking mechanism and a control system. The existing manual pushing type full-height rotary gate adopts an electromagnetic unlocking mechanism, when an authorization signal is obtained, an electromagnetic lock is released, personnel is allowed to manually push the rotary wing to rotate for a preset angle to pass, and the electromagnetic lock is locked again after the manual pushing type full-height rotary gate is in place. However, the traditional full-height switching-over equipment is completely dependent on a mains supply system, so that the risk of functional failure exists when a power grid fails, and meanwhile, the equipment is difficult to deploy in the environment without mains supply such as outdoors, emergency places and the like due to the limitation of power supply conditions, so that the universality and the environment adaptability of the equipment are severely restricted. Disclosure of utility model The embodiment of the application aims to provide an all-height rotary gate, and aims to solve the technical problems of poor universality and poor environment adaptability of the all-height rotary gate in the prior art. In order to achieve the above object, according to one aspect of the present application, there is provided an all-high transfer gate including a support module, an all-high transfer gate module, an energy storage module and a solar module, wherein the all-high transfer gate module is mounted on the support module, a passage channel is provided on the all-high transfer gate module, the all-high transfer gate module has a locking state for blocking the passage channel and an unlocking state for allowing a pedestrian to pass through the passage channel, the energy storage module is mounted on the support module and electrically connected with the all-high transfer gate module for storing electric energy and supplying electric power to the all-high transfer gate module, and the solar module is mounted on the support module and electrically connected with the energy storage module and the all-high transfer gate module for supplying electric energy to the energy storage module or supplying electric energy to the energy storage module and the all-high transfer gate module, respectively. Optionally, the support module comprises a base and a support frame which are sequentially arranged along the vertical direction, the support frame is installed on the base and located above the base, the full-height switching-gate module and the energy storage module are installed on one side, close to the support frame, of the base, and the solar module is installed on one side, far away from the base, of the support frame. Optionally, the full-height gate-turning module comprises a door frame component, a rotating shaft component and a locking component, wherein the door frame component is installed on the supporting module and is provided with a passage channel, the rotating shaft component is rotatably installed in the passage channel, the locking component is connected with the door frame component and the rotating shaft component and is used for connecting or separating the door frame component and the rotating shaft component, when the full-height gate-turning module is in a locking state, the rotating shaft component is connected with the door frame component through the locking component so as to enable the rotating shaft component to block the passage channel, when the full-height gate-turning module is in an unlocking state, the rotating shaft component is separated from the door frame component through the locking component, and the rotating shaft component can rotate in the passage channel so as to allow pedestrians to pass through the passage channel. Optionally, the solar module has a first electric energy output end, the full-height switching-gate module has a first power input end, the energy storage module includes an energy storage battery assembly, a charging end of the energy storage battery assembly is electrically connected with the first electric energy output end, a discharging end of the energy storage battery assembly is electrically connected with the first power input end, and the energy storage battery assembly is used for storing electric energy conveyed by the solar module and supplying power to the full-height switching-gate module. Optionally, the solar module is used for respectively transmitting electric energy to the energy storage module and the full-height transfer gate module, the full-height transfer gate has a first power supply state for supplying power to the full-height transfer gate module only through th