CN108416848B - Wing gate passing system adopting six pairs of photoelectric tubes and control method - Google Patents

Abstract

The invention discloses a wing gate passing system adopting six pairs of photoelectric tubes, which comprises a wing gate type gate machine and six pairs of photoelectric tubes arranged on the wing gate type gate machine, wherein the wing gate type gate machine comprises two machine bodies which are symmetrically arranged, a gate channel is formed between the two machine bodies, a wing gate of the wing gate type gate machine is positioned in the gate channel, the top of the machine body on the right side of an entrance of the wing gate type gate machine is provided with a ticket checking port and a passing mark, the passing mark is arranged on the front end surface of the machine body on the right side of the entrance of the wing gate type gate machine, and each pair of photoelectric tubes in the six pairs of photoelectric tubes are respectively and symmetrically arranged on the inner side surfaces of the two machine bodies.

Description

Wing gate passing system adopting six pairs of photoelectric tubes and control method

Technical Field

The invention relates to a gate for ticket checking, in particular to a wing gate passing system adopting six pairs of photoelectric tubes and a control method, and belongs to the field of ticket checking gates and network technology industrial control.

Background

In the scenic spot electronic ticket management system, ticket checking is an important link, when ticket checking is carried out by adopting a wing gate type gate machine, a tourist holds a ticket to enter the wing gate type gate machine and needs to pass through the ticket checking and the safe wing gate, and meanwhile, the ticket checking system carries out ticket checking (the wing gate is opened when the ticket is effective, and the wing gate is closed otherwise), counting, anti-trail judgment (the non-ticket checker gives an alarm in the trail), anti-pinch judgment (safe passing) and door closing, so that the normal opening and closing of the wing gate are realized, accurate counting is realized, and the safe passing of the tourist is facilitated; in the judgment process when a passer passes through the wing gate, the detection is usually realized by selecting a grating or a photoelectric tube, wherein the photoelectric tube has low manufacturing cost and is generally widely adopted, but the logical relationship of how many photoelectric tubes are arranged on the wing gate and where the photoelectric tubes are arranged becomes the technical key and difficulty of ticket checking of the wing gate type gate.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides a wing gate passing system adopting six pairs of photoelectric tubes and a control method, wherein the six pairs of photoelectric tubes are reasonably arranged on two sides of a wing gate type gate machine, after the ticket checking of the entrance ticket is effective, when a visitor passes through a gate passage normally, the judgment and information feedback of the opening and trailing prevention detection, the anti-pinch detection, the door closing preparation detection and the counting detection are implemented, and the normal opening and closing and accurate counting of the wing gate type gate machine are realized through the logic processing of a background computer management system of the wing gate type gate machine, so that the visitor can pass through the gate safely, and the ticket checking processing of a scenic area entrance guard system is efficient, accurate and safe.

The technical scheme adopted by the invention is as follows:

the wing gate passing system comprises a wing gate type gate machine and six pairs of photoelectric tubes arranged on the wing gate type gate machine, wherein the wing gate type gate machine comprises two machine bodies which are symmetrically arranged, a gate channel is formed between the two machine bodies, a wing gate of the wing gate type gate machine is positioned in the gate channel, a ticket checking port and a passing mark are arranged at the top of the machine body on the right side of an inlet of the wing gate type gate machine, the passing mark is arranged on the front end face of the machine body on the right side of the inlet of the wing gate type gate machine, the machine body of the wing gate type gate machine is 1600mm long and 1000mm high, the ticket checking port is 200mm away from the machine head of the wing gate type gate machine, the wing gate is 900mm away from the machine head of the wing gate type gate machine and 700mm away from the machine tail of the wing gate type gate machine, each pair of the six pairs of photoelectric tubes are symmetrically arranged on the inner side faces of the two machine bodies respectively, and the six pairs of photoelectric tubes comprise a first pair of photoelectric tubes for opening and preventing tail following detection, A second pair of photoelectric tubes and a fifth pair of photoelectric tubes for anti-pinch detection, a third pair of photoelectric tubes and a fourth pair of photoelectric tubes for counting detection and a sixth pair of photoelectric tubes for door closing preparation detection, wherein the first pair of photoelectric tubes is arranged at the height position of 850mm of the machine body, the first pair of photoelectric tubes is 450mm away from the machine head of the wing door type gate machine, the second pair of photoelectric tubes and the fifth pair of photoelectric tubes are positioned at the height position of 200mm of the machine body, the second pair of photoelectric tubes and the fifth pair of photoelectric tubes are respectively positioned at two sides of the wing gate machine and are respectively horizontally 170mm away from the wing gate machine, the third pair of photoelectric tubes, the fourth pair of photoelectric tubes and the sixth pair of photoelectric tubes are all positioned on the machine body between the wing gate machine and the tail, the horizontal distances between the third pair of photoelectric tubes and the fourth pair of photoelectric tubes and the wing gate machine are both 150mm, the horizontal distance between the sixth pair of photoelectric tubes and the wing gate machine body is 300mm, wherein the third pair of photoelectric tubes and the sixth pair of photoelectric tubes are both positioned at the height position of 850mm of the machine body, the fourth pair of phototube is located the 550 mm's of fuselage high position, six pairs of photoelectric tube's detected signal send respectively for the backstage computer management system of wing gate-type floodgate machine, and the backstage computer management system of wing gate-type floodgate machine receives six pairs of photoelectric tube's detected signal and carries out logic processing, and the wing gate of control wing gate-type floodgate machine is opened and is closed.

A wing gate passing control method adopting six pairs of photoelectric tubes comprises the following steps:

when the ticket checking at the ticket checking port is an invalid ticket, the wing gate type gate machine sends an invalid ticket voice prompt, a background computer management system of the wing gate type gate machine controls the wing gate to keep a default closing state, and when the first pair of photoelectric tubes are shielded, the wing gate type gate machine sends an alarm prompt;

when the ticket is checked at the ticket checking port as an effective ticket, the wing gate type gate machine sends an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the wing gate to be opened and in an opening state, a passer passes through a gate channel of the wing gate type gate machine, firstly, the first pair of photoelectric tubes are shielded through the first pair of photoelectric tubes, then, the third pair of photoelectric tubes and the fourth pair of photoelectric tubes are simultaneously shielded through the third pair of photoelectric tubes and the fourth pair of photoelectric tubes, counting is effective once, and finally, the sixth pair of photoelectric tubes are shielded through the sixth pair of photoelectric tubes.

As a further optimization of the method, when the ticket checking at the ticket gate is an effective ticket, the wing gate type gate machine sends out an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the opening of a wing gate to be in an opening state, a passer passes through a gate channel of the wing gate type gate machine, and when a second passer enters the ticket checking at the ticket gate with the tail in the passing period of the passer, the wing gate type gate machine works repeatedly according to the effective ticket; when a second passer enters the ticket checking port at the tail to check the ticket as an invalid ticket, the wing gate type gate machine sends out an invalid ticket voice prompt, and when the second passer passes through the first pair of photoelectric tubes to shield the first pair of photoelectric tubes, a background computer management system of the wing gate type gate machine controls the wing gate to keep an open state, and the wing gate type gate machine sends out a tail alarm prompt.

As a further preferable mode of the method of the present invention, when the ticket is checked at the ticket gate, the passer finally passes through the sixth pair of photoelectric tubes to shield the sixth pair of photoelectric tubes, the preset delay time is 200ms, and after 200ms is finished, the background computer management system of the flap gate type gate machine controls the flap gate to return to the default closed state in a state where none of the six pairs of photoelectric tubes is shielded.

As a further preferred option of the method of the present invention, when the ticket is checked at the ticket gate, the wing gate type gate issues a voice prompt for valid ticket, the background computer management system of the wing gate type gate controls the opening of the wing gate to be in an open state, the first pair of phototubes are not shielded, and after the preset delay time is over, the background computer management system of the wing gate type gate controls the wing gate to be restored to a default closed state in a state that none of the six pairs of phototubes is shielded.

As a further preferred method of the present invention, the first pair of photocells is not shielded, the preset delay time is 60s, and after the 60s is finished, the background computer management system of the flap gate type gate machine controls the flap gate to return to the default closed state in the state that none of the six pairs of photocells is shielded.

As a further preferred method of the present invention, the back-end computer management system of the wing gate type gate controls the wing gate to be kept in the open state while any pair of the photoelectric tubes are shielded during the passage of the passer through the gate passage of the wing gate type gate.

The invention has the beneficial effects that: six pairs of photoelectric tubes are installed on the two sides of a wing gate of the wing gate type gate in a reasonable layout mode, after tickets are checked effectively, when travelers normally pass through a gate passage, judgment and information feedback of opening and trailing prevention detection, anti-pinch detection, door closing preparation detection and counting detection of the wing gate are implemented, logical processing is performed through a background computer management system of the wing gate type gate, normal opening and closing of the wing gate type gate are achieved, accurate counting is achieved, safe passing of the travelers is facilitated, and efficient, accurate and safe ticket checking processing of a scenic spot entrance guard system is achieved.

Description of the drawings:

FIG. 1 is a schematic view of the inside surface structure of the right side body of the entrance of the wing gate type gate machine according to the present invention;

the main reference numerals in the figures have the following meanings:

1-a first pair of photoelectric tubes, 2-a second pair of photoelectric tubes, 3-a third pair of photoelectric tubes, 4-a fourth pair of photoelectric tubes, 5-a fifth pair of photoelectric tubes, and 6-a sixth pair of photoelectric tubes.

The specific implementation mode is as follows:

the present invention will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1: the embodiment is a wing gate passing system adopting six pairs of photoelectric tubes, and the wing gate passing system comprises a wing gate type gate machine and six pairs of photoelectric tubes installed on the wing gate type gate machine, wherein the wing gate type gate machine comprises two machine bodies which are symmetrically arranged, a gate channel is formed between the two machine bodies, a wing gate of the wing gate type gate machine is positioned in the gate channel, a ticket checking port and a passing mark are arranged at the top of the right machine body of an inlet of the wing gate type gate machine, the passing mark is arranged on the front end surface of the right machine body of the inlet of the wing gate type gate machine, the machine body of the wing gate type gate machine is 1600mm long and 1000mm high, the ticket checking port is 200mm away from the machine head of the wing gate type gate machine, the wing gate is 900mm away from the machine head of the wing gate type gate machine and 700mm away from the machine tail of the wing gate type gate machine, each pair of the six pairs of photoelectric tubes are respectively and symmetrically arranged on the inner side surfaces of the two machine bodies, and the six pairs of photoelectric tubes comprise a first pair of photoelectric tubes 1 and a pair of photoelectric tubes for opening and preventing follow-up detection, A second pair of photoelectric tubes 2 and a fifth pair of photoelectric tubes 5 for anti-pinch detection, a third pair of photoelectric tubes 3 and a fourth pair of photoelectric tubes 4 for count detection, and a sixth pair of photoelectric tubes 6 for door closing preparation detection, wherein the first pair of photoelectric tubes 1 is arranged at a height position of 850mm from the machine body, the first pair of photoelectric tubes is 450mm from the machine head of the wing-door-type gate, the second pair of photoelectric tubes 2 and the fifth pair of photoelectric tubes 5 are all positioned at a height position of 200mm from the machine body, the second pair of photoelectric tubes 2 and the fifth pair of photoelectric tubes 5 are respectively positioned at two sides of the wing gate and are respectively horizontally 170mm from the wing gate, the third pair of photoelectric tubes 3, the fourth pair of photoelectric tubes 4 and the sixth pair of photoelectric tubes 6 are all positioned on the machine body between the wing gate and the machine tail, the horizontal distances from the third pair of photoelectric tubes 3 and the fourth pair of photoelectric tubes 4 to the wing gate are both 150mm, and the horizontal distance from the wing gate to the sixth pair of photoelectric tubes 6 is 300mm, the third pair of photoelectric tubes 3 and the sixth pair of photoelectric tubes 6 are located at the height position of 850mm of the body, the fourth pair of photoelectric tubes 4 is located at the height position of 550mm of the body, the detection signals of the six pairs of photoelectric tubes are respectively sent to the background computer management system of the wing gate type gate, and the background computer management system of the wing gate type gate receives the detection signals of the six pairs of photoelectric tubes and carries out logic processing to control the opening and closing of the wing gate type gate.

Based on the wing gate passing system, a wing gate passing control method adopting six pairs of photoelectric tubes comprises the following steps:

when the ticket checking at the ticket checking port is an invalid ticket, the wing gate type gate machine sends an invalid ticket voice prompt, a background computer management system of the wing gate type gate machine controls the wing gate to keep a default closing state, and when the first pair of photoelectric tubes 1 are shielded, the wing gate type gate machine sends an alarm prompt;

when the ticket is checked at the ticket checking port, the wing gate type gate machine sends a valid ticket voice prompt, a background computer management system of the wing gate type gate machine controls the opening of a wing gate to be in an opening state, a passer passes through a gate channel of the wing gate type gate machine, firstly, a first pair of photoelectric tubes 1 are shielded through the first pair of photoelectric tubes 1, then, a third pair of photoelectric tubes 3 and a fourth pair of photoelectric tubes 4 are simultaneously shielded through the third pair of photoelectric tubes 3 and the fourth pair of photoelectric tubes 4, counting is effective once, and finally, a sixth pair of photoelectric tubes 6 are shielded through the sixth pair of photoelectric tubes 6, after the preset delay time is over, the background computer management system of the wing gate type gate machine controls the wing gate to be recovered to a default closing state under the condition that all the six pairs of photoelectric tubes are not shielded; the preset delay time in the control method is 200ms, and after 200ms is finished, the background computer management system of the wing door type gate machine controls the wing gate to return to the default closing state under the condition that all six pairs of photoelectric tubes are not shielded.

When the ticket checking at the ticket checking port is an effective ticket, the wing gate type gate machine sends an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the opening of a wing gate to be in an opening state, a passer passes through a gate channel of the wing gate type gate machine, and when the passer passes through the gate channel, a second passer enters the ticket checking port with the tail and the ticket is an effective ticket, the wing gate type gate machine works repeatedly according to the effective ticket; when a second passer enters the ticket checking port at the tail to check the ticket as an invalid ticket, the wing gate type gate machine sends out an invalid ticket voice prompt, and when the second passer passes through the first pair of photoelectric tubes 1 to shield the first pair of photoelectric tubes 1, a background computer management system of the wing gate type gate machine controls the wing gate to keep an open state, and the wing gate type gate machine sends out a tail alarm prompt.

When the ticket at the ticket checking port is an effective ticket, the wing gate type gate machine sends an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the wing gate to be opened and in an opening state, the first pair of photoelectric tubes 1 are not shielded, and after the preset delay time is over, the background computer management system of the wing gate type gate machine controls the wing gate to be restored to a default closing state under the condition that all the six pairs of photoelectric tubes are not shielded; in the control method, the preset delay time is 60s, and after the 60s is finished, the background computer management system of the wing door type gate machine controls the wing gate to return to the default closing state under the condition that all six pairs of photoelectric tubes are not shielded.

In the control method, a backstage computer management system of the wing door type gate controls the wing gate to keep an open state when any pair of photoelectric tubes are shielded during the passage of a passer in a gate channel of the wing door type gate; effectively ensuring the safety of the passers.

With six pairs of photoelectric tubes of rational layout on scenic spot wing gate formula floodgate machine, every is installed in different positions as required to the photoelectric tube to obtain different logic definitions, the backstage computer management system's of the wing gate formula floodgate machine of being convenient for control management, wherein: opening and anti-following detection, anti-pinch detection, door closing preparation and counting detection, and feeding back signals generated by the six pairs of photoelectric tubes to a background computer management system of the wing door type gate for logic processing, namely judging a series of actions such as ticket checking, anti-pinch, counting, door closing preparation and the like according to a ticket checking flow, so that the ticket checking flow of the wing door type gate is correctly processed, the counting is accurate and the passage is safe; the logic processing of the background computer management system of the wing gate type gate machine is logic relation processing of a series of actions such as ticket checking (effective/invalid), passage detection (trailing alarm), anti-pinch detection (safe), counting (accurate), door closing preparation (safe), door closing preparation (normal operation) and the like according to a ticket checking process.

According to the invention, six pairs of photoelectric tubes are reasonably arranged on two sides of the wing gate type gate, after the ticket is checked effectively, when a visitor normally passes through a gate passage, judgment and information feedback of opening the wing gate, trailing prevention detection, anti-pinch detection, preliminary door closing detection and counting detection are implemented, and through logic processing of a background computer management system of the wing gate type gate, normal opening and closing of the wing gate type gate are realized, accurate counting is realized, and the visitor can conveniently and safely pass, so that the ticket checking processing of a scenic spot access control system is efficient, accurate and safe; at present, the invention is applied to the ticket checking link of a wing gate type gate under an electronic ticket management system in a plurality of scenic spots, and achieves the effect described by the invention.

The above description is only a preferred embodiment of the present patent, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the inventive concept, and these modifications and decorations should also be regarded as the protection scope of the present patent.

Claims (1)

1. A wing gate passing control method adopting six pairs of photoelectric tubes comprises a wing gate passing system adopting six pairs of photoelectric tubes, wherein the wing gate passing system comprises a wing gate type gate machine and six pairs of photoelectric tubes arranged on the wing gate type gate machine, the wing gate type gate machine comprises two machine bodies which are symmetrically arranged, a gate machine channel is formed between the two machine bodies, a wing gate of the wing gate type gate machine is positioned in the gate machine channel, the top of the machine body on the right side of an inlet of the wing gate type gate machine is provided with a ticket gate and a passing mark, the passing mark is arranged on the front end surface of the machine body on the right side of the inlet of the wing gate type gate machine, the length of the machine body of the wing gate type gate machine is 1600mm and the height of the machine body of the wing gate type gate machine is 1000mm, the ticket gate is 200mm away from the machine head of the wing gate machine, the distance of the wing gate is 900mm from the machine head of the wing gate machine, the passing mark is 700mm from the tail of the wing gate machine, and each pair of the photoelectric tubes in the six pairs of the photoelectric tubes are symmetrically arranged on the inner side surfaces of the two machine bodies respectively, the six pairs of photoelectric tubes comprise a first pair of photoelectric tubes for opening and anti-following detection, a second pair of photoelectric tubes and a fifth pair of photoelectric tubes for anti-pinch detection, a third pair of photoelectric tubes and a fourth pair of photoelectric tubes for counting detection and a sixth pair of photoelectric tubes for preparing door closing detection, the first pair of photoelectric tubes are arranged at the height position of 850mm of the machine body, the first pair of photoelectric tubes are 450mm away from the machine head of the wing door type gate, the second pair of photoelectric tubes and the fifth pair of photoelectric tubes are all positioned at the height position of 200mm of the machine body, the second pair of photoelectric tubes and the fifth pair of photoelectric tubes are respectively positioned at two sides of the wing gate and are respectively horizontally 170mm away from the wing gate, the third pair of photoelectric tubes, the fourth pair of photoelectric tubes and the sixth pair of photoelectric tubes are all positioned on the machine body between the wing gate and the tail, and the horizontal distances between the third pair of photoelectric tubes and the fourth pair of photoelectric tubes and the wing gate are all 150mm, the horizontal distance between a sixth pair of photoelectric tubes and the wing gate is 300mm, wherein the third pair of photoelectric tubes and the sixth pair of photoelectric tubes are positioned at the height position of 850mm of the body, the fourth pair of photoelectric tubes are positioned at the height position of 550mm of the body, detection signals of the six pairs of photoelectric tubes are respectively sent to a background computer management system of the wing gate type gate, and the background computer management system of the wing gate type gate receives the detection signals of the six pairs of photoelectric tubes and carries out logic processing to control the opening and closing of the wing gate type gate;

it is characterized by comprising:

when the ticket checking at the ticket checking port is an invalid ticket, the wing gate type gate machine sends an invalid ticket voice prompt, a background computer management system of the wing gate type gate machine controls the wing gate to keep a default closing state, and when the first pair of photoelectric tubes are shielded, the wing gate type gate machine sends an alarm prompt;

when the ticket is checked at the ticket checking port as an effective ticket, the wing gate type gate machine sends an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the opening of a wing gate to be in an opening state, a passer passes through a gate channel of the wing gate type gate machine, firstly, a first pair of photoelectric tubes are shielded by the first pair of photoelectric tubes, then, a third pair of photoelectric tubes and a fourth pair of photoelectric tubes are simultaneously shielded by the third pair of photoelectric tubes and the fourth pair of photoelectric tubes, counting is effective once, and finally, a sixth pair of photoelectric tubes are shielded by the sixth pair of photoelectric tubes;

when the ticket checking at the ticket checking port is an effective ticket, the wing gate type gate machine sends an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the opening of a wing gate to be in an opening state, a passer passes through a gate channel of the wing gate type gate machine, and when the passer passes through the gate channel, a second passer enters the ticket checking port with the tail and the ticket is an effective ticket, the wing gate type gate machine works repeatedly according to the effective ticket; when a second passer enters the ticket checking port at the tail to check the ticket as an invalid ticket, the wing gate type gate machine sends out an invalid ticket voice prompt, and when the second passer enables the first pair of photoelectric tubes to be shielded through the first pair of photoelectric tubes, a background computer management system of the wing gate type gate machine controls the wing gate to keep an open state, and the wing gate type gate machine sends out a tail alarm prompt;

when the ticket checking at the ticket checking port is an effective ticket, a passer finally passes through the sixth pair of photoelectric tubes to shield the sixth pair of photoelectric tubes, the preset delay time is 200ms, and after 200ms, the background computer management system of the wing gate type gate machine controls the wing gate to restore to a default closing state under the condition that the six pairs of photoelectric tubes are not shielded;

when the ticket checking at the ticket checking port is an effective ticket, the wing gate type gate machine sends an effective ticket voice prompt, a background computer management system of the wing gate type gate machine controls the wing gate to be opened and in an opening state, the first pair of photoelectric tubes are not shielded, and after the preset delay time is over, the background computer management system of the wing gate type gate machine controls the wing gate to be restored to a default closing state under the condition that all the six pairs of photoelectric tubes are not shielded;

the first pair of photoelectric tubes are not shielded, the preset delay time is 60s, and after the 60s is finished, the background computer management system of the wing door type gate machine controls the wing gate to recover to a default closing state under the condition that all the six pairs of photoelectric tubes are not shielded;

when a passer passes through the gate passage of the wing gate type gate, the background computer management system of the wing gate type gate controls the wing gate to keep an open state under the state that any pair of photoelectric tubes are shielded.

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