CN113123267A - Gate machine - Google Patents

Abstract

The application provides a floodgate machine for improve the position flexibility of floodgate machine display screen. The gate comprises a gate body; a control mechanism; the driving mechanism drives the rotating mechanism to rotate under the control of the control mechanism; the gate display screen is embedded in the gate machine body; the rotating mechanism is arranged in the gate machine body and connected with the gate machine display screen to drive the gate machine display screen to rotate. The control mechanism controls the driving mechanism, the driving mechanism drives the rotating mechanism, and the rotating mechanism drives the gate display screen to rotate, so that the gate display screen can be flexibly adjusted.

Description

Gate machine

Technical Field

The application relates to the technical field of machinery, in particular to a gate.

Background

Along with the progress of science and technology, use the self-service passageway under some scenes, for example, the self-service passageway of station, airport and entry and exit port bank side inspection, except having the function of checking and putting by oneself, can also check by oneself and put and the manual work is checked and put and is switched over, for example, a large amount of passengers or passengers who do not gather biological information in the police department, the function of checking and putting by oneself of the self-service passageway of unable use, at this moment, the staff can check by oneself that self-service passageway is put the function and is switched into the manual work and check and put the function after, carry out work such as authentication to the passenger.

When the manual work is checked and put, the staff need watch the display screen on the floodgate machine of self-service passageway all the time to operate the display screen, however, the staff just can see the content that the floodgate machine display screen of self-service passageway shows only be in a certain fixed position, perhaps, because reasons such as reflection of light, the staff need adjust the position of oneself just can see the content that the floodgate machine display screen of self-service passageway shows, and, the position that can see the content that the floodgate machine display screen of self-service passageway shows to the staff of different heights also is different.

In addition, when testing the function of the floodgate machine of self-service passageway, the staff usually need stand and watch the display screen, and when carrying out artifical the inspection and putting, the staff usually need sit and watch the display screen, and is visible, and the floodgate machine display screen's of self-service passageway position is comparatively fixed at present, can't satisfy the in-service use demand.

Disclosure of Invention

The embodiment of the application provides a gate for the position that realizes the gate display screen is adjustable.

In a first aspect, a gate is provided, comprising:

a gate machine body;

a control mechanism;

the driving mechanism drives the rotating mechanism to rotate under the control of the control mechanism;

the gate display screen is embedded in the gate machine body;

the rotating mechanism is arranged in the gate machine body and connected with the gate machine display screen to drive the gate machine display screen to rotate.

In the embodiment of this application, it is rotatory to drive the floodgate machine display screen through rotary mechanism, the realization is to the regulation of floodgate machine display screen position, compare in the fixed mode that sets up at the floodgate machine organism of floodgate machine display screen among the prior art, in the embodiment of this application, the floodgate machine display screen can rotate, that is to say, the contained angle between floodgate machine display screen and the floodgate machine organism is adjustable, make the position of floodgate machine display screen adjustable, the staff of being convenient for is follow-up operates the floodgate machine, when artifical the verification, need not staff to make a round trip to switch over the angle etc., improve the clearance efficiency of floodgate machine.

Optionally, the rotating mechanism includes:

the driving mechanism is connected with the driving mechanism;

the linkage mechanism is connected with the gate display screen;

the driving mechanism drives the linkage mechanism to rotate under the driving of the driving mechanism.

In the embodiment of this application, rotary mechanism is including drive mechanism and company's tape drive mechanism, under the rotatory circumstances of drive mechanism, drive mechanism alright rotatory in order to drive interlock mechanism to it is rotatory that interlock mechanism drives floodgate machine display screen, and the structure of floodgate machine is comparatively simple, and the part that the floodgate machine includes is less, and in practical application, the parameter that the staff need set up to each part of floodgate machine is less, simplifies and debugs and maintenance process etc. to the floodgate machine.

Optionally, the driving mechanism includes an outer gear and a rotating shaft, and the linkage mechanism includes an arc inner rack, wherein:

the external gear is connected with the driving mechanism through the rotating shaft;

the outer gear with the meshing of arc internal rack sets up, rotatory pivot is in under actuating mechanism's the drive, drive the outer gear is rotatory, the outer gear drives the arc internal rack is rotatory, the arc internal rack drives the floodgate machine display screen is rotatory.

In the embodiment of this application, through the meshing of outer gear and arc internal rack, it is rotatory to realize that drive mechanism drives interlock mechanism, realizes driving the floodgate machine display screen rotation through simple structure, and the space that the rack took in the floodgate machine body in outer gear and the arc is less, is favorable to reducing the whole space that occupies of floodgate machine.

Optionally, the gate further includes:

a first sensor assembly comprising a first sensor and a first kidney-shaped hole mounting bracket, the first sensor being mounted within the gate housing through the first kidney-shaped hole mounting bracket;

when the gate display screen rotates towards a first direction, the first sensor detects a current angle between the gate display screen and the gate machine body, if the current angle reaches the first angle, a first signal is sent to the control mechanism, after the control mechanism receives the first signal, the control mechanism controls the gate display screen to stop rotating towards the first direction, and the first signal is used for indicating that the angle of the gate display screen rotating towards the first direction reaches the first angle.

In the embodiment of the application, detect the angle between the current and the floodgate machine organism of floodgate machine display screen through first sensor, when the rotation angle of floodgate machine display screen on the first direction reached first angle, first sensor can send a signal to control mechanism for control mechanism can control the floodgate machine display screen and continue to the operation of first direction, has restricted the rotatable maximum angle of floodgate machine display screen, avoids the user in the condition of the position of the excessive regulation floodgate machine display screen of in-process of adjusting the floodgate machine display screen. And the first sensor is fixed on the gate body through the waist-shaped hole mounting bracket, and the waist-shaped hole in the waist-shaped hole mounting bracket is relatively large, so that the machining precision and the assembling precision for mounting the first sensor are lower, and the gate is convenient to machine and mount.

Optionally, the gate further includes:

the second sensor assembly comprises a second sensor and a second kidney-shaped hole mounting bracket, and the second sensor is mounted in the gate machine body through the second kidney-shaped hole mounting bracket;

when the gate display screen rotates towards a second direction, the second sensor detects a current angle between the gate display screen and the gate machine body, if the current angle reaches a second angle, a second signal is sent to the control mechanism, after the control mechanism receives the second signal, the control mechanism controls the gate display screen to stop rotating towards the second direction, and the second signal is used for indicating that the angle of the gate display screen rotating towards the second direction reaches the second angle; wherein the first direction and the second direction are opposite directions.

In the embodiment of the application, detect the angle between the current and the floodgate machine organism of floodgate machine display screen through the second sensor, when the rotation angle of floodgate machine display screen on the second side reaches the second angle, the second sensor can send a signal to control mechanism for control mechanism can control the floodgate machine display screen and continue to operate to the second direction, has restricted the rotatable maximum angle of floodgate machine display screen, avoids the user in the condition of the position of the excessive regulation floodgate machine display screen of in-process of adjusting the floodgate machine display screen. And the second sensor is fixed on the gate body through the waist-shaped hole mounting bracket, and the waist-shaped hole in the waist-shaped hole mounting bracket is relatively large, so that the processing precision and the assembly precision for mounting the second sensor are lower, and the processing and the mounting of the gate are facilitated. And through two sensors, the rotation angles of the gate display screen in two different directions can be detected more accurately.

Optionally, the floodgate machine display screen includes the display screen baffle, the floodgate machine still includes:

the upper limiting baffle plate assembly comprises an upper limiting baffle plate and a third waist-shaped hole mounting bracket, and the upper limiting baffle plate is mounted in the gate machine body through the third waist-shaped hole mounting bracket;

when the gate display screen rotates towards a first direction, if the current angle between the gate display screen and the gate machine body reaches a first angle, the upper limiting blocking piece props against the display screen baffle, and the gate display screen stops rotating towards the first direction.

In this application embodiment, when the floodgate machine display screen when rotatory towards the first direction, when the angle between floodgate machine display screen and the floodgate machine organism reached first angle, can support the display screen baffle through last spacing separation blade to restricted the rotatable maximum angle of floodgate machine display screen, avoided the condition of user at the in-process excessive regulation of adjusting the floodgate machine display screen.

Optionally, the gate further includes:

the lower limiting baffle plate assembly comprises a lower limiting baffle plate and a fourth waist-shaped hole mounting bracket, and the lower limiting baffle plate is mounted in the gate machine body through the fourth waist-shaped hole mounting bracket;

when the gate display screen rotates towards a second direction, if the current angle between the gate display screen and the gate machine body reaches a second angle, the lower limiting blocking piece abuts against the display screen baffle, and the gate display screen stops rotating towards the second direction.

In this application embodiment, when the floodgate machine display screen is rotatory towards the second direction, when the angle between floodgate machine display screen and the floodgate machine body reaches the second angle, can support the display screen baffle through spacing separation blade down to restricted the rotatable minimum angle of floodgate machine display screen, reduced the condition of user at the in-process excessive regulation of adjusting the floodgate machine display screen.

Optionally, the first angle is 30 degrees, and the second angle is 0 degree.

In the embodiment of this application, can inject the adjustable angle scope of floodgate machine display screen, avoid adjusting the adjustable range of floodgate machine display screen too big, lead to the condition of the harm of floodgate machine display screen.

Optionally, the radian of the arc-shaped inner rack is 30.5 degrees.

In the embodiment of the application, through the radian of rack in the reasonable setting arc, but the angle of rotation scope to the floodgate machine display screen is adjusted, is convenient for control the angle of rotation scope of floodgate machine display screen in practical application.

Drawings

Fig. 1 is a schematic structural diagram of a gate according to an embodiment of the present disclosure;

fig. 2 is a schematic partial structural diagram of a gate according to an embodiment of the present disclosure;

fig. 3 is a schematic partial structural diagram of a gate according to an embodiment of the present application;

fig. 4 is a schematic partial structural diagram of a gate according to an embodiment of the present application;

fig. 5 is a schematic partial structural diagram of a gate according to an embodiment of the present application;

fig. 6 is a schematic partial structural diagram of a gate according to an embodiment of the present application;

fig. 7 is a schematic partial structural diagram six of a gate according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an operation panel on a gate according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a gate according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

In addition, in the embodiments of the present application, "at least one" means one or more, "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone, wherein A and B can be singular or plural. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. "at least one of the following" or similar expressions refer to any combination of these items, including any combination of the singular or plural items. For example, at least one (one) of a, b, or c, may represent: a, b, c, a-b, a-c, b-c, or a-b-c, wherein a, b, c may be single or multiple.

At present, the floodgate machine of current self-service passageway mainly includes floodgate machine body and floodgate machine display screen, and the application scene according to the floodgate machine is different, and the floodgate machine probably still includes other information acquisition device, specifically does not make the restriction, floodgate machine body and floodgate machine display screen of floodgate machine among the prior art. The gate display screen is embedded in the gate body, so that workers can manually check the gate or maintain and repair the gate through the gate display screen.

However, the gate display screen among the prior art is fixed to be embedded in the gate machine body, and in many cases, this kind of structure can bring certain difficulty for the staff to watch or operate this gate display screen, for example, when switching to the manual work and checking and putting the mode with self-service passageway, the staff need examine and check passenger's identity through watching the gate display screen, or, the staff need let the qualified passenger of examining and checking pass through self-service passageway through operating the gate display screen, or, when maintaining the gate, the maintenance personal need examine and repair the gate through operating the gate display screen, etc. A worker or the like may need to view the gate display screen at a different location or otherwise manipulate the gate display screen. Because the position of floodgate machine display screen is fixed, consequently the direction of display of floodgate machine display screen is single, and it is inconvenient when leading to the staff to watch or operate to the floodgate machine display screen.

In view of the above, an embodiment of the present invention provides a gate, please refer to fig. 1, which shows an overall structural diagram of a gate, the gate includes a gate body 101 and a gate display screen 102. The gate display screen 102 is embedded within the gate body 101.

To illustrate the structure of the gate more clearly, please refer to fig. 2, which is a schematic structural diagram of the gate in the embodiment of the present application, the gate includes a gate body 101, and a rotating mechanism 201, a driving mechanism 202 and a control mechanism 203 are further disposed in the gate body.

Specifically, before the gate display screen 102 is not rotated, or under normal conditions, the gate display screen 102 and the gate body 101 are located on the same plane, that is, an included angle between the gate display screen 102 and the gate body 101 is 0 degree. The control mechanism 203 may be electrically connected to the driving mechanism 202, and the driving mechanism 202 may be connected to the rotating mechanism 201 through a rotating shaft, or both may be directly connected, or connected through a wire, or the like. The rotation shaft may be provided on a driving mechanism, such as a driving rod, and the rotation shaft may also be provided on the rotation mechanism 201.

The rotating mechanism 201 and the gate display screen 102 may be connected by a waist-shaped hole mounting bracket, or may be attached to each other, the gate display screen 102 and the gate body 101 may be connected by a display screen rotating shaft, or the gate display screen 102 and the gate body 101 may be connected by a hinge, and the like, which is not particularly limited. The display screen rotation shaft may be a side of the gate display screen 102 or a rotation shaft that is independent from the gate display screen 102. The control mechanism 203 may be disposed at any position within the gate body 101, is not particularly limited, and thus is not identified in fig. 2.

The working principle of the gate referred to in fig. 2 is explained below.

After a user or other equipment issues a control instruction, the control mechanism 203 can control the driving mechanism 202 to move, the driving mechanism 202 drives the rotating mechanism 201 to rotate, the rotating mechanism 201 drives the gate display screen 102 to rotate, the gate display screen 102 rotates, and an included angle between the gate display screen 102 and the gate machine body 101 changes.

In the embodiment of the application, the gate display screen 102 can be controlled to rotate by the control mechanism 203, so that the position of the gate display screen 102 can be adjusted to different positions besides the position parallel to the gate body 101, the position of the gate display screen 102 can be adjusted, the display angle of the gate display screen 102 can be changed, a worker can watch or operate the gate display screen 102 at different positions, and the worker can watch or operate the gate display screen 102 more conveniently.

In one possible embodiment, the gate display screen 102 further includes a display screen rotating shaft, and the gate display screen 102 is connected to the gate body 101 through the display screen rotating shaft, and the gate display screen 102 can rotate around the display screen rotating shaft. The specific arrangement mode of the display screen rotating shaft can be various, and the application is not particularly limited. The display screen hinge is not illustrated in the figures.

Specifically, the driving mechanism 202 drives the rotating mechanism 201 to rotate under the control of the control mechanism 203, so that the rotating mechanism 201 drives the gate display screen 102 to rotate around the display screen rotating shaft.

In fig. 2, one side of the gate display screen 102 is connected to the gate body 101 through the display screen rotating shaft, which does not limit the connection manner between the gate display screen 102 and the gate body 101.

As an embodiment, the driving mechanism 202 may be a motor, and in order to make the rotation process of the gate display screen 102 more stable and safer, the driving mechanism 202 may be a motor with a reduction gearbox, which is not limited in particular.

In one possible embodiment, please refer to fig. 3, which is a schematic structural diagram of the rotating mechanism 201. The rotating mechanism 201 includes a driving mechanism 301 and a linking mechanism 302.

Specifically, the driving mechanism 301 and the driving mechanism 202 may be connected by a rotating shaft, or may be connected by other methods, and the specific connection method is not limited. The linkage mechanism 302 and the gate display screen 102 can be connected by welding, and the specific connection mode is not limited.

Further, the driving mechanism 301 is connected with the driving mechanism 202, and the linkage mechanism 302 is connected with the gate display screen 102. The driving mechanism 301 is driven by the driving mechanism 202 to rotate, the driving mechanism 301 drives the linking mechanism 302 to rotate, and the linking mechanism 302 drives the gate display screen 102 to rotate.

In one possible embodiment, the linkage 302 and the gate display 102 may be connected by a bracket with a waist-shaped hole, or the specific connection is not limited.

In a possible embodiment, the driving mechanism 301 may be an external gear, and particularly, without limitation, the driving mechanism 301 may be an external gear, and specifically, may be a standard external gear, where the standard external gear refers to a gear with a circular gear. The linkage mechanism 302 may be an arc-shaped rack, which may be an arc-shaped inner rack, or may be an arc-shaped outer rack, which is not limited in particular. In the embodiment of the present application, the linking mechanism 302 is exemplified as an arc-shaped inner rack. The standard external gear and the arc-shaped internal rack are meshed, so that the standard external gear can drive the arc-shaped internal rack to rotate.

The modulus of the standard external gear can be set to be 1, the pressure angle can be set to be 20 degrees, the number of teeth can be set to be 20, and therefore machining can be conducted conveniently. The standard external gear can be subjected to blackening treatment, so that the standard external gear is not easy to rust and the like, and the noise in the working process can be reduced. The arc-shaped inner rack can be made of Polyformaldehyde (POM) materials, so that the arc-shaped inner rack is more wear-resistant.

Specifically, the standard external gear may be connected to the driving mechanism 202 through a rotation shaft, or may be connected to the driving mechanism 202 through other manners, and the specific connection manner is not limited. The arc-shaped inner rack is connected with the gate display screen 102 in a manner that the arc-shaped inner rack is connected with the gate display screen 102 through a mounting bracket with a waist-shaped hole, or the arc-shaped inner rack is connected with the gate display screen 102 in a welding manner, which is not limited specifically.

Further, the standard external gear is driven by the driving mechanism 202 to rotate, when the standard external gear rotates, the standard external gear can drive the arc-shaped internal rack to rotate, and the arc-shaped internal rack drives the gate display screen 102 connected with the arc-shaped internal rack to rotate.

In the embodiment of the application, the rotation of the gate display screen 102 is realized by the way that the outer gear drives the arc-shaped inner rack, the driving mechanism 202 can drive the screen to rotate only by driving the outer gear to rotate, the rotating mechanism 201 only comprises the outer gear and the arc-shaped inner rack, the structure of the rotating mechanism 201 is simple, and in practical application, the screen is easy to realize, and in addition, because of the simple structure in the rotating mechanism 201, the parameters of the rotating mechanism 201 which needs to be arranged are less, and the debugging is convenient.

In a possible embodiment, please refer to fig. 4, which is a partial structural diagram of a gate. The gate also includes a first sensor assembly 400, the first sensor assembly 400 including a first sensor 401 and a first kidney-shaped hole mounting bracket 402, the first sensor 401 being mountable within the gate body 101 via the first kidney-shaped hole mounting bracket 402.

As an example, with continued reference to fig. 4, the gate body 101 may further include a cross bar 400 disposed inside the gate mechanism 101 for connecting to structures inside the gate body 101. The first sensor 401 may be mounted on the cross beam 400 inside the gate through the first kidney-shaped hole mounting bracket 402, the mounting position may be a position at which the first sensor 401 detects whether the current included angle between the gate display screen 102 and the gate body 101 reaches a first angle, and the specific mounting position is not limited.

Specifically, when the control mechanism 203 controls the gate display 102 to rotate in the first direction through the rotating mechanism 201, the first sensor 401 may detect a current angle between the gate display 102 and the gate body 101. The first sensor 401 determines whether the current angle between the gate display screen 102 and the gate body 101 reaches a first angle, the first sensor 401 generates a first signal when the first sensor 401 determines that the current angle between the gate display screen 102 and the gate body 101 reaches the first angle, the first sensor 401 sends the first signal to the control mechanism 203, and the control mechanism 203 stops controlling the gate display screen 102 to rotate in the first direction after the control mechanism 203 receives the first signal from the first sensor 401.

The first direction may be a direction in which the gate display screen 102 is relatively far away from the gate body 101, and is not limited. The first angle may be a preset angle at which the gate display screen 102 can rotate and the gate body 101 has the largest included angle, and when the angle between the gate display screen 102 and the gate body 101 reaches the first angle, the gate display screen 102 can no longer rotate in the first direction. The current angle between the gate display screen 102 and the gate body 101 reaching the first angle may be the current angle between the gate display screen 102 and the gate body 101 being equal to the first angle, or may be the current angle between the gate display screen 102 and the gate body 101 being within an angle range including the first angle, and is not limited in particular. The first signal may be used to indicate that the current angle between the gate display screen 102 and the gate body 101 has reached a first angle, i.e., may be used to instruct the control mechanism 203 to stop controlling the gate display screen 102.

In one possible embodiment, please refer to fig. 5, which is a partial structural diagram of a gate. The gate further includes a second sensor assembly 500, the second sensor assembly 500 including a second sensor 501 and a second kidney-shaped hole mounting bracket 502, the second sensor 501 being mountable within the gate body 101 via the second kidney-shaped hole mounting bracket 502.

As an example, referring to fig. 5, the second sensor 501 may be mounted on the gate inner cross bar 400 through the second waist-shaped hole mounting bracket 502, and the mounting position may be a position at which the second sensor 501 detects whether the current included angle between the gate display screen 102 and the gate body 101 reaches the second angle, and the specific mounting position is not limited.

Specifically, when the control mechanism 203 controls the gate display 102 to rotate in the second direction through the rotating mechanism 201, the second sensor 501 may detect a current angle between the gate display 102 and the gate body 101. The second sensor 501 determines whether the current angle between the gate display screen 102 and the gate body 101 reaches a second angle, when the second sensor 501 determines that the current angle between the gate display screen 102 and the gate body 101 reaches the second angle, the second sensor 501 generates a second signal, the second sensor 501 sends the second signal to the control mechanism 203, and after the control mechanism 203 receives the second signal from the second sensor 501, the control mechanism 203 stops controlling the gate display screen 102 to rotate in the second direction.

The second direction may be a direction in which the gate display screen 102 approaches the gate body 101, and is not limited. The second angle may be a preset angle at which the gate display screen 102 can rotate and the gate body 101 have the smallest included angle, and when the angle between the gate display screen 102 and the gate body 101 reaches the second angle, the gate display screen 102 can no longer rotate in the second direction. The current angle between the gate display screen 102 and the gate body 101 reaching the second angle may be the current angle between the gate display screen 102 and the gate body 101 being equal to the second angle, or may be the current angle between the gate display screen 102 and the gate body 101 being within an angle range including the second angle, and is not limited in particular. In the embodiment of the present application, the second angle is smaller than the first angle. The second signal may be used to indicate that the current angle between the gate display screen 102 and the gate body 101 has reached a second angle, i.e., may instruct the control mechanism 203 to stop controlling the gate display screen 102.

In one possible embodiment, the first angle may be 30 degrees, i.e., the angle between the gate display screen 102 and the gate body 101 is 30 degrees, and the second angle may be 0 degrees, i.e., the gate display screen 102 is parallel to the gate body 101. In practical applications, the angle value of the first angle or the second angle can be set arbitrarily, and is not limited specifically.

In one possible embodiment, the first angle and the second angle are determined based on the arc length and the arc curvature of the rack within the arc. When the first angle is 0 degree and the second angle is 30 degrees, under the condition that the arc radius is 204.75 millimeters, the radian of the arc-shaped inner rack is 30.5 degrees, and the arc length of the arc-shaped inner rack is 107.54 millimeters.

In a possible embodiment, please refer to fig. 6, which is a schematic structural diagram of an upper limiting stop assembly. The gate further comprises an upper limiting baffle assembly 600, the upper limiting baffle assembly 600 comprises an upper limiting baffle 601 and a third kidney-shaped hole mounting bracket 602, and the upper limiting baffle can be mounted in the gate body 101 through the third kidney-shaped hole mounting bracket 602. The gate display screen 102 also includes a first screen bezel 603 thereon.

Specifically, when the gate display screen 102 rotates in the first direction, if the current angle between the gate display screen 102 and the gate body 101 reaches the first angle, the upper limiting block 601 abuts against the first display screen baffle 603 of the gate display screen 102, and the gate display screen 102 is prevented from rotating in the first direction.

In a possible embodiment, please refer to fig. 7, which is a schematic structural diagram of a lower limiting stopper assembly in a gate machine. The gate further comprises a lower limiting baffle assembly 700, the lower limiting baffle assembly 700 comprises a lower limiting baffle 701 and a fourth kidney-shaped hole mounting bracket 702, and the lower limiting baffle 701 can be mounted in the gate body 101 through the fourth kidney-shaped hole mounting bracket 702. The gate display screen 102 also includes a second screen bezel 703.

Specifically, when the gate display screen 102 rotates in the second direction, if the current angle between the gate display screen 102 and the gate body 101 reaches the second angle, the lower limiting block piece 701 abuts against the second display screen baffle 703 of the gate display screen 102, so as to prevent the gate display screen 102 from continuing to rotate in the second direction.

In a possible embodiment, the upper limit stop and the first sensor 401 have the same function, and may be both provided in the gate machine body 101, or may be provided in only one of them, without particular limitation. The lower limit baffle and the second sensor 501 have the same function, and may be both disposed in the gate machine body 101, or may be only one of them, and are not limited.

In a possible embodiment, please refer to fig. 8, which is a schematic structural diagram of an operation panel on a gate. The gate further includes an operation panel 800, and a reset button 801 may be disposed in the operation panel 800 for restoring the gate display screen 102 to a position at a predetermined angle with respect to the gate body 101, which is described in the embodiment of the present application by taking the example of restoring the gate display screen 102 to a position parallel to the gate body 101.

Specifically, when the reset button 801 is pressed, the control mechanism 203 receives the reset command, controls the driving mechanism 202 to drive the driving mechanism 301, the driving mechanism 301 drives the linking mechanism under the driving of the driving mechanism 202, the linking mechanism drives the gate display screen 102 to rotate under the driving of the driving mechanism 301, and the gate display screen 102 starts to rotate in the first direction, or the gate display screen 102 starts to rotate in the second direction, which is not limited specifically. When the gate display screen 102 rotates in the first direction, if the gate display screen 102 rotates to the first angle, the first sensor 401 sends a first signal to the control mechanism 203, and the control mechanism 203 receives the first signal from the first sensor 401, the control mechanism 203 controls the driving mechanism 202 to rotate reversely, so that the gate display screen 102 rotates in the second direction until the gate display screen 102 reaches the second angle. When the gate display screen 102 rotates in the second direction, if the gate display screen 102 rotates to the second angle, the second sensor 501 sends a second signal to the control mechanism 203, and after the control mechanism 203 receives the second signal from the second sensor 501, the control of the gate display screen 102 is finished. Thereby, the gate display screen 102 is reset to a position parallel to the gate body 101 by the reset button 801.

The reset position of the gate display screen 102 may be a position parallel to the gate body 101, or may be a position forming any angle with the gate body 101, and is not limited in particular.

In the embodiment of the application, the gate display screen 102 can be adjusted to a preset position through the reset button 801, and after the gate is used, the gate display screen 102 can be adjusted to the preset position through the reset button 801, so that the gate display screens 102 on all gates in an airport or a station are at the same angle with the gate body 101, and the attractiveness of the airport or the station is ensured to a certain extent.

In a possible embodiment, the operation panel 800 may further include other buttons, which are not limited in particular, and the buttons generally refer to a manner of issuing control commands to the control mechanism 203, and may be physical buttons, or may be virtual buttons, or may be other forms of control manners, which are not limited in particular.

The structure of the gate is described in detail above, and the use of the gate is described below. The process of using the gate in the manual verification process is described as an example.

Specifically, after a passenger enters the gate passageway shown in fig. 1, the passenger places the authentication data in an authentication area on the gate, displays the authentication result of the passenger on the gate display screen 102, or compares the facial information of the passenger with the head portrait information on the identification card, and the like, and the staff checks the identity of the passenger through the gate display screen 102 and operates the gate display screen 102 to release the checked passenger.

Referring to fig. 8, if the worker wants to sit to check the passenger information, the worker may operate an operation button on the gate operation panel 800, for example, the worker presses the up button 802, the control mechanism 203 receives an up command from the user, controls the driving mechanism 202 to drive the driving mechanism 301, the driving mechanism 301 is driven by the driving mechanism 202 to drive the linking mechanism, the linking mechanism drives the gate display 102 to rotate under the driving of the driving mechanism 301, the gate display 102 starts to rotate in the first direction, when the gate display 102 rotates to a proper position, the worker releases the up button 802, and the gate display 102 stops rotating in the first direction, please refer to fig. 9, which is a schematic diagram of a structure after the gate display rotates, at which time, the worker may sit to check the passenger identity information.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (9)

1. A gate, comprising:

a gate machine body;

a control mechanism;

the driving mechanism drives the rotating mechanism to rotate under the control of the control mechanism;

the gate display screen is embedded in the gate machine body;

the rotating mechanism is arranged in the gate machine body and connected with the gate machine display screen to drive the gate machine display screen to rotate.

2. The gate of claim 1, wherein the rotation mechanism comprises:

the driving mechanism is connected with the driving mechanism;

the linkage mechanism is connected with the gate display screen;

the driving mechanism drives the linkage mechanism to rotate under the driving of the driving mechanism.

3. The gate machine according to claim 2, wherein said driving mechanism comprises an external gear and a rotating shaft, and said interlocking mechanism comprises an arc-shaped internal rack, wherein:

the external gear is connected with the driving mechanism through the rotating shaft;

the outer gear with the meshing of arc internal rack sets up, rotatory pivot is in under actuating mechanism's the drive, drive the outer gear is rotatory, the outer gear drives the arc internal rack is rotatory, the arc internal rack drives the floodgate machine display screen is rotatory.

4. The gate of claim 1, further comprising:

a first sensor assembly comprising a first sensor and a first kidney-shaped hole mounting bracket, the first sensor being mounted within the gate housing through the first kidney-shaped hole mounting bracket;

when the gate display screen rotates towards a first direction, the first sensor detects a current angle between the gate display screen and the gate machine body, if the current angle reaches the first angle, a first signal is sent to the control mechanism, after the control mechanism receives the first signal, the control mechanism controls the gate display screen to stop rotating towards the first direction, and the first signal is used for indicating that the angle of the gate display screen rotating towards the first direction reaches the first angle.

5. The gate of claim 4, further comprising:

the second sensor assembly comprises a second sensor and a second kidney-shaped hole mounting bracket, and the second sensor is mounted in the gate machine body through the second kidney-shaped hole mounting bracket;

when the gate display screen rotates towards a second direction, the second sensor detects a current angle between the gate display screen and the gate machine body, if the current angle reaches a second angle, a second signal is sent to the control mechanism, after the control mechanism receives the second signal, the control mechanism controls the gate display screen to stop rotating towards the second direction, and the second signal is used for indicating that the angle of the gate display screen rotating towards the second direction reaches the second angle; wherein the first direction and the second direction are opposite directions.

6. The gate of claim 1, wherein the gate display comprises a display screen bezel, the gate further comprising:

the upper limiting baffle plate assembly comprises an upper limiting baffle plate and a third waist-shaped hole mounting bracket, and the upper limiting baffle plate is mounted in the gate machine body through the third waist-shaped hole mounting bracket;

when the gate display screen rotates towards a first direction, if the current angle between the gate display screen and the gate machine body reaches a first angle, the upper limiting blocking piece props against the display screen baffle, and the gate display screen stops rotating towards the first direction.

7. The gate of claim 6, further comprising:

the lower limiting baffle plate assembly comprises a lower limiting baffle plate and a fourth waist-shaped hole mounting bracket, and the lower limiting baffle plate is mounted in the gate machine body through the fourth waist-shaped hole mounting bracket;

when the gate display screen rotates towards a second direction, if the current angle between the gate display screen and the gate machine body reaches a second angle, the lower limiting blocking piece abuts against the display screen baffle, and the gate display screen stops rotating towards the second direction.

8. The gate of any one of claims 4 to 7, wherein the first angle is 30 degrees and the second angle is 0 degrees.

9. The gate of claim 3, wherein the arc of said arcuate inner rack is 30.5 degrees.

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