CN220752768U - System for high-efficient reposition of redundant personnel two verification floodgate machines - Google Patents

Abstract

The utility model discloses a system for efficiently shunting a double-door verification gate, which comprises a gate and a manual counter arranged at one side of the gate; the gate machine is provided with two upright posts and a control module arranged in the upright posts, a terminal connected with the control module is arranged on the manual counter, a first channel is formed between the two upright posts, a first gate and a second gate are arranged in the first channel at intervals, a shunt gate is arranged between the first gate and the second gate, a first driver, a second driver and a third driver which are connected with the control module are arranged in the upright posts, the first driver is used for controlling the first gate to open and close, the second driver is used for controlling the second gate to open and close, and the third driver is used for controlling the shunt gate to open and close; a first verification module connected with the control module is arranged at the front end of one upright post of the gate; one of the upright posts of the gate is provided with a second verification module connected with the control module between the first gate and the second gate. The utility model can improve verification efficiency and experience.

Description

System for high-efficient reposition of redundant personnel two verification floodgate machines

Technical Field

The utility model relates to the technical field of gates, in particular to a system for efficiently shunting a double-gate verification gate.

Background

In the current double-door channel verification gate (A, B door) use process, when personnel pass through the A door and the B door verification authorization fails, the personnel are guided to guide the verification personnel to reversely exit the channel from the A door, and the personnel in the channel can be emptied to restart the verification. The scene is easy to cause that a rear person squeezes into the channel during the reverse opening of the A door, so that the channel cannot be emptied by a person and the verification process cannot be restarted, and a user can misuse to block the system and work, thereby bringing bad experience and requiring service personnel to empty the channel again. The mode of emptying the channel and reversely opening the A door also easily causes the disorder of the channel passing order and reduces the release efficiency.

The traditional manual verification platform is generally arranged at a place far away from the verification gate, when manual verification is needed for personnel with verification failure or abnormal verification, the personnel can not be directly shunted to the manual verification platform for verification, and passengers are often required to find nearby manual counters by themselves. Meanwhile, because the manual counter is far away from the gate, counter staff cannot effectively guide and monitor the use of the gate, and the problem of additionally increasing manpower to guide and verify the use of the gate exists. The verification gate and the manual counter business cannot be closely cooperated and are independent, so that verification use experience and management and control requirements cannot be well considered and met.

In view of the above, the present inventors have developed the present utility model by actively researching and modifying the conventional dual gate verification gate structure, which is not yet fully developed.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a system for efficiently shunting a double-door verification gate, which can improve verification efficiency and experience and meet the requirements of whole-course supervision and abnormal guide treatment of a using unit.

In order to solve the above object, the solution of the present utility model is:

a system for efficiently shunting a dual gate verification gate, comprising: the gate and the manual counter are arranged at one side of the gate; the gate machine is provided with two upright posts and a control module arranged in the upright posts, the manual counter is provided with a terminal connected with the control module, a first channel is formed between the two upright posts, a first gate and a second gate are arranged in the first channel at intervals, a shunt gate is arranged between the first gate and the second gate and close to the upright post of the manual counter, a first driver, a second driver and a third driver connected with the control module are arranged in the upright post of the gate machine, the first driver is used for controlling the opening and closing of the first gate, the second driver is used for controlling the opening and closing of the second gate, and the third driver is used for controlling the opening and closing of the shunt gate; a first verification module connected with the control module is arranged at the front end of one upright post of the gate; one of the upright posts of the gate is provided with a second verification module connected with a control module between the first gate and the second gate, and the control module is connected with the multi-mode sensing device.

Further, a support frame is arranged on one of the upright posts of the first channel, and the multimode sensing device is arranged above the support frame corresponding to the space between the first gate and the second gate.

Further, the multi-mode sensing devices are arranged on the upright posts at two sides of the first channel and/or on two sides of the lower edge of the flow dividing door.

Further, the floodgate machine has the stand that three interval set up, forms two between the three stand first passageway, artifical sales counter is provided with two, and two artifical sales counter are close to the stand setting of both sides, are equipped with respectively on the stand of both sides the shunt door.

Further, each first channel corresponds to a control module respectively, the left control module is connected with the left artificial counter terminal, and the right control module is correspondingly connected with the right artificial counter terminal.

Further, the manual counter is fixedly connected with the upright post at one side of the first channel.

Further, the manual counter is movably arranged beside the upright post at one side of the first channel.

Further, the terminal is a mobile terminal or is directly fixed on a manual counter.

After the scheme is adopted, the system for efficiently shunting the double-door verification gate has the following advantages compared with the prior art:

(1) According to the utility model, the multi-mode sensing device is introduced to realize intelligent judgment and synchronous control, when the shunt gate is opened, the first gate and the second gate are interlocked, and after the shunt gate is closed, the verification flow of the first gate and the second gate is recovered. The mode that the passageway can be emptied only by changing the reverse opening and pushing out of the traditional first gate can be emptied and more smoothly pass through the split gate, the follow-up verification is not influenced by blocking, and the problems that the efficiency of the channel is low, the experience is poor and the verification order is influenced in the traditional mode are avoided.

(2) According to the utility model, the shunt gate is arranged between the first gate and the second gate, whether the channel between the first gate and the second gate is emptied or not is judged, the real-time detection of the first channel can be realized by introducing the multi-mode sensing device, and the shielding and anti-clamping safety detection of the movement direction of the shunt gate can be ensured when the shunt gate is opened or closed.

(3) The manual counter and the double-door verification gate are integrally designed, and the manual counter is provided with a terminal for cooperation, so that functional business is closely cooperated and is in seamless butt joint, and the manual counter is not a traditional isolated business unit.

(4) The verification process and the channel layout are substantially optimized, including optimizing nearby treatment and personnel flow lines, space occupation of the deployment device is saved, verification experience and supervision use efficiency are improved, and the method is a breakthrough of a traditional layout scheme.

(5) The utility model can be applied to scenes with high security verification level and high personal care, such as airports, stations, meeting places and the like, and has wide application prospect.

Drawings

FIG. 1 is a schematic diagram of the system of the present utility model.

Fig. 2 is a state diagram of the use of the system of the present utility model.

FIG. 3 is a flow chart of the verification of the present utility model.

FIG. 4 is a flow chart of the operation of the control module of the present utility model.

Detailed Description

In order to further explain the technical scheme of the utility model, the utility model is explained in detail by specific examples.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientation or positional relationship based on that shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

As shown in fig. 1 and 2, the present utility model discloses a system for efficiently dividing a dual-gate verification gate, which comprises a gate 1 and a manual counter 2 arranged at one side of the gate 1.

The gate 1 has two columns 11 and a control module (not shown) provided in the columns 11, and the manual counter 2 is provided with a terminal 3 connected to the control module. A first channel 12 is formed between the two upright posts 11, a first gate 13 and a second gate 14 are arranged in the first channel 11 at intervals, a shunt gate 15 is arranged between the first gate 13 and the second gate 14 on the upright post 11 close to the manual counter 2, and the shunt gate 15 is a second channel. The upright post 11 of the gate 1 is internally provided with a first driver, a second driver and a third driver which are connected with a control module, the first driver is used for controlling the first gate 13 to open and close, the second driver is used for controlling the second gate 14 to open and close, and the third driver is used for controlling the shunt gate 15 to open and close.

A first verification module 16 connected with the control module is arranged at the front end of one upright post 11 of the gate 1 at the front end of the first gate 13; one of the columns 11 of the gate 1 is provided with a second verification module 17 connected to the control module between the first gate and the second gate.

Preferably, the gate 1 is further provided with a multi-mode sensing device 4, and the multi-mode sensing device 4 is connected with a control module, and adopts a multi-mode fusion technology, including multiple sensor devices such as binocular imaging, a depth sensor, a radar sensor and the like. The multi-mode device of the utility model obtains abundant and various perception information by using a plurality of sensors simultaneously or alternately, thereby improving the perception capability and performance of the system. The multi-angle, multi-scale and multi-dimensional sensing and analysis of the environment are realized by fusing the data of a plurality of sensors such as binocular imaging, a depth sensor, a radar sensor and the like, so that more accurate and comprehensive environmental information and data are provided. Therefore, the multi-mode device has higher sensing precision and reliability, and is suitable for detecting the behavior track of passers-by and objects.

The multi-mode sensor device 4 may be disposed above the first channel 12 or on the upright posts 11 on both sides of the first channel 12 or on both sides of the lower edge of the shunt gate 15, and the multi-mode sensor device 4 may be disposed in one or more. In this embodiment, a supporting frame 18 is disposed on one of the columns 11 of the first channel 12, and the multi-mode sensing device 4 is disposed above the supporting frame 18 corresponding to the space between the first gate 13 and the second gate 14.

In this embodiment, the gate 1 has three columns 11 that the interval set up, form two between three columns 11 first passageway 12, artifical sales counter 2 is provided with two, and two artifical sales counter 2 are close to the column 11 setting of both sides, are equipped with respectively on the column 11 of both sides the shunt door 15. The two first channels 12 correspond to a control module respectively, the left control module is connected with the left artificial counter 2 terminal 3, and the right control module is correspondingly connected with the right artificial counter terminal 3. The terminal 3 of the manual counter 2 can be fixed, or a mobile terminal can be adopted, and the manual counter 2 can be directly fixed with the upright post 11 of the gate 1 or is arranged beside the upright post 11 in a split mode.

As shown in fig. 3 and 4, the method for efficiently splitting the system of the dual gate verification gate according to the present utility model comprises the following steps:

step A: the verification personnel performs verification at the first verification module 16, and after the verification is successful, the control module controls the first driver to open the first gate 13;

and (B) step (B): the verification personnel enter the first channel through the first gate 13, and perform secondary verification at the second verification module 17, and after the verification is successful, the control module controls the second driver to open the second gate 14; if the verification fails, the step C is entered;

step C: the control module sends information of verification failure to the terminal of the manual counter 2, and after the terminal receives the information, the third driver is controlled to open the shunt door 15, and when the shunt door 15 is opened, door opening anti-pinch detection is carried out; if a shielding object is detected, door closing is stopped, and if no shielding object exists, the shunt door is safely opened; when the shunt door 15 is opened, the first driver and the second driver control the first gate 13 and the second gate 14 to lock;

step D: a verification failure person enters a second channel from the shunt door 15 to the manual counter for rechecking;

step E: the shunt door 15 is closed, and when the shunt door is closed, channel emptying detection and door closing anti-pinch detection are carried out, if a person or a shielding object exists in the channel, the channel is emptied or shielding is removed, after the shielding object is emptied and removed, the shunt door 15 is closed, and the first gate 13 and the second gate 14 are synchronously unlocked.

As shown in fig. 1 to fig. 4, the gate 1 includes two first channels 12 and two second channels, the two first channels 12 are connected with two control modules, so that the two first channels 12 are controlled independently, the two artificial counters 2 are correspondingly arranged, and the terminal 3 arranged on the left artificial counter 2 is connected with the control module of the left first channel 12, so as to monitor the first gate 13, the second gate 14 and the shunt gate 15 on the first channel 12 close to the left; the terminal 3 arranged on the right manual counter 2 is connected with the control module of the right first channel 12 and is used for supervising the first gate 13, the second gate 14 and the shunt gate 15 on the first channel 12 close to the right, so that the shunt on the left side and the right side is realized.

According to the utility model, the first gate 13 and the second gate 14 of the double-gate verification gate 1 are provided with the split gate 15, the manual counter 2 is arranged beside the gate 1 at one side of the split gate 15, and the manual counter 2 is provided with the terminal connected with the control module, so that a verification personnel can directly split from the split gate 15 to the manual counter 2 for rechecking when the verification by the second verification module 17 fails. The manual counter 2 is arranged close to the diversion gate 15, so that abnormal verification personnel in the first channel 12 of the double-gate verification gate 1 can be rapidly diverted and guided to be disposed, and meanwhile, the manual counter 2 takes conventional verification manual service into consideration; service personnel in the manual counter 2 can simultaneously visually observe or pass through the terminal 3 (desktop or hand-held mobile), so that the service personnel can better monitor and guide the use and abnormal handling of the double-door verification gate 1, the hanging capacity of a user unit is improved, and the safety guarantee is improved; the manual counter 2 and the double-door verification gate 1 are tightly cooperated with each other in function service, and are integrally designed, so that seamless rechecking verification is realized. The utility model can support the arrangement of the split manual counter 2 on the left side or the right side of the single channel of the double-door verification gate, or realize the layout of split on the left side and the right side of the double-channel double-door verification gate.

According to the utility model, the multi-mode sensing devices are embedded in the posts 11 on the two sides of the first channel 12 or customized on the double-door verification gate 1, and the detection of the behavior track of the personnel in the channel and the carry-over of the articles in the channel can be realized by combining the existing AI algorithm.

The above examples and drawings are not intended to limit the form or form of the present utility model, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present utility model.

Claims (8)

1. The system for efficiently shunting the double-door verification gate is characterized by comprising a gate and a manual counter arranged at one side of the gate; the gate machine is provided with two upright posts and a control module arranged in the upright posts, the manual counter is provided with a terminal connected with the control module, a first channel is formed between the two upright posts, a first gate and a second gate are arranged in the first channel at intervals, a shunt gate is arranged between the first gate and the second gate and close to the upright post of the manual counter, a first driver, a second driver and a third driver connected with the control module are arranged in the upright post of the gate machine, the first driver is used for controlling the opening and closing of the first gate, the second driver is used for controlling the opening and closing of the second gate, and the third driver is used for controlling the opening and closing of the shunt gate; a first verification module connected with the control module is arranged at the front end of one upright post of the gate; one of the upright posts of the gate is provided with a second verification module connected with a control module between the first gate and the second gate, and the control module is connected with the multi-mode sensing device.

2. The system of claim 1, wherein: and a support frame is arranged on one of the upright posts, and the multimode sensing device is arranged above the support frame corresponding to the space between the first gate and the second gate.

3. A system for efficient shunt dual gate verification gate as claimed in claim 1 or 2, wherein: the multi-mode sensing devices are arranged on two sides of the lower edge of the upright post and/or the split door on two sides of the first channel.

4. A system for efficient shunt dual gate verification gate as recited in claim 3, wherein: the floodgate machine has the stand that three interval set up, forms two between the three stand first passageway, artifical sales counter is provided with two, and two artifical sales counter are close to the stand setting of both sides, are equipped with respectively on the stand of both sides the shunt door.

5. A system for efficient shunt dual gate verification gate as recited in claim 3, wherein: each first channel corresponds to a control module respectively, the left control module is connected with the left artificial counter terminal, and the right control module is correspondingly connected with the right artificial counter terminal.

6. The system of claim 1, wherein: the manual counter is fixedly connected with the upright post at one side of the first channel.

7. The system of claim 1, wherein: the manual counter is movably arranged beside the upright post at one side of the first channel.

8. The system of claim 1, wherein: the terminal adopts a mobile terminal or is directly fixed on a manual counter.