CN208271278U - Novel gate inhibition's all-in-one machine - Google Patents

Abstract

Novel gate inhibition's all-in-one machine, with control circuit, infrared emission component, infrared receiver control assembly, magnet, left support bar, right support bar, the lower end of left support bar is mounted on the left end ground of gate inhibition's all-in-one machine ontology, the right part of right support bar is mounted on the shell rear side end of gate inhibition's all-in-one machine ontology, the infrared-emitting diode of infrared emission component is mounted in a plastic conduit, the phototriode of infrared receiver control assembly is mounted in another plastic tube, control circuit, infrared emission component, infrared receiver control assembly is mounted in the shell of gate inhibition's all-in-one machine ontology, and with the intrinsic mainboard of gate inhibition's all-in-one machine, motor decelerating mechanism is connected by conducting wire.As long as the utility model one enters the rear end of gate inhibition's all-in-one machine ontology by personnel, the actuating strut of gate inhibition's all-in-one machine ontology motor decelerating mechanism just will drive baffle advance the puck, to which the personnel of gate inhibition's all-in-one machine ontology front end and gate inhibition all-in-one machine ontology rear end are isolated, it is therefore prevented that non-paid personnel enter the rear end of baffle.

Description

Novel gate inhibition's all-in-one machine

Technical field

The utility model relates to entrance guard facilities field, especially a kind of novel gate inhibition's all-in-one machine.

Background technique

The access control equipment that public place uses, such as the access control equipment that card hall, subway, exhibition use, due to realizing Automation control, can bring convenience, application is extremely extensive to manager.Especially there is charge-by-card or wechat barcode scanning to pay The access control equipment of function is charged due to not needing toll collector, can not only be brought convenience to manager, and needs to enter Personnel in gate inhibition pass through due to not needing booking, save the time, also can be to the personnel side of bringing needed through access control equipment Just.

The existing access control equipment with charging function, main process for using are that the personnel for needing to enter pass through sweep gate After prohibiting the two dimensional code of device body upper end or swiping the card, mainboard carries out confirmation charge to code scaning information or card using information in access control equipment Afterwards, the high level signal of control signal output output certain time enters the motor control panel in access control equipment, motor control Making sheet output positive and negative polarities power supply enters the motor decelerating mechanism of access control equipment, motor decelerating mechanism work once electrified for a period of time, Its actuating strut drives baffle to move backwards, so that the personnel of access control equipment front end can enter access control equipment rear end, one timing of interval Between after, motor control panel output negative and positive the two poles of the earth power supply enters the motor decelerating mechanism of access control equipment, and motor decelerating mechanism obtains electrician Make a period of time, actuating strut drives baffle advance the puck, thus by the personnel of access control equipment front end and access control equipment rear end every From.Due to motor control panel export negative and positive the two poles of the earth power supply or positive and negative polarities power supply time be it is fixed, in actual use, When people's barcode scanning or after swipe the card into access control equipment, when someone will steal a ride, two human world away from it is not far when, existing access control equipment is just It cannot identify, therefore within the fixed power supply output time, be unable to control the rear end that the personnel not paid enter access control equipment, Certain economic loss can be brought to manager.

Utility model content

In order to overcome existing access control equipment because structure limits the drawbacks of bringing, the utility model provides one kind and sets in gate inhibition Infrared emission and infrared receiver control assembly are installed on rear side of standby baffle left and right ends, when needing the personnel's barcode scanning passed through or swipe the card Payment, control circuit can export the motor decelerating mechanism that positive and negative polarities power supply enters gate inhibition's all-in-one machine ontology, motor decelerating mechanism For a period of time, actuating strut drives baffle to move backwards to work once electrified, as long as one enters gate inhibition's all-in-one machine ontology by personnel Rear end pass through between infrared emission and infrared receiver control assembly, infrared receiver control assembly can export negative and positive the two poles of the earth power supply into Enter the motor decelerating mechanism of gate inhibition's all-in-one machine ontology, for a period of time, actuating strut drives baffle to motor decelerating mechanism work once electrified Advance the puck is effectively prevent in this way so that the personnel of gate inhibition's all-in-one machine ontology front end and gate inhibition all-in-one machine ontology rear end are isolated Non-paid personnel enter novel gate inhibition's all-in-one machine of gate inhibition's all-in-one machine ontology baffle rear end.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

Novel gate inhibition's all-in-one machine, including gate inhibition's all-in-one machine ontology, the motor control panel and door of gate inhibition's all-in-one machine body interior The connecting wire prohibited between the motor decelerating mechanism of all-in-one machine ontology disconnects, it is characterised in that also has control circuit, infrared hair Component, infrared receiver control assembly, magnet, left support bar, right support bar are penetrated, the lower end of left support bar is installed by bolt and nut On the left end ground of gate inhibition's all-in-one machine ontology, the right part of right support bar is mounted on gate inhibition's all-in-one machine ontology by bolt and nut Shell rear side end, baffle upper end level of the upper end higher than gate inhibition's all-in-one machine ontology of left support bar, right support bar, infrared emission group The infrared-emitting diode of part is mounted in a plastic conduit, and the phototriode of infrared receiver control assembly is mounted on another modeling In expects pipe, two plastic conduits are separately mounted to the upper inner end of left support bar, right support bar, the hair of infrared-emitting diode Smooth surface front end and the receiving plane front end of phototriode are in the inside of left support bar, right support bar, infrared-emitting diode Light-emitting surface front end and the receiving plane front end of phototriode are in face-to-face horizontal straight line state, infrared-emitting diode hair The infrared light of injection acts on phototriode light-receiving surface, and infrared-emitting diode, phototriode are located at gate inhibition's all-in-one machine The rear side of ontology baffle, infrared emission component, the other component of infrared receiver control assembly and control circuit are mounted on circuit board On, circuit board is mounted in the shell of gate inhibition's all-in-one machine ontology, the intrinsic mainboard control signal output of gate inhibition's all-in-one machine and The signal input part of control circuit is connected by conducting wire, the 12V positive pole of the intrinsic Switching Power Supply output of gate inhibition's all-in-one machine It is connected with infrared emission component, infrared receiver control assembly cathode power supply input terminal by conducting wire, infrared receiver control assembly is just Pole power output end is connected with control circuit cathode power supply input terminal by conducting wire, and the two-way of control circuit controls power output end It is connected with the intrinsic motor decelerating mechanism positive and negative polarities power input of gate inhibition's all-in-one machine by conducting wire, infrared receiver control group The two-way control power output end and gate inhibition's all-in-one machine intrinsic motor decelerating mechanism negative and positive the two poles of the earth power input of part pass through Conducting wire connection, the 12V power cathode and control circuit of the intrinsic Switching Power Supply output of gate inhibition's all-in-one machine, infrared emission component, The negative power supply input terminal of infrared receiver control assembly is connected by conducting wire, and two magnet are bonded in gate inhibition's all-in-one machine ontology respectively Baffle right-hand end in the middle part of rear and front end.

The control circuit includes relay, silicon-controlled tongue tube and resistance, is connected therebetween by circuit board wiring, controllably Silicon anode is connected with the one of control power input of relay, and silicon-controlled cathode is connected with tongue tube one end, silicon-controlled control Pole processed is connected with resistance one end, and the tongue tube other end is connected with relay cathode power supply input terminal, the input of relay negative power supply End is connected with another control power input of relay, and tongue tube glue sticking is left on rear side of the shell of gate inhibition's all-in-one machine ontology End middle part is bonded in the gear of gate inhibition's all-in-one machine ontology when the baffle of gate inhibition's all-in-one machine ontology moves backward in the open state The magnet of rear end is just close to tongue tube in the middle part of plate right-hand end, and two contacts in tongue tube inside are in an off state, tongue tube Movable contact is vertically positioned on rear side of the shell of gate inhibition's all-in-one machine ontology in the middle part of left end, guarantees that the baffle of gate inhibition's all-in-one machine ontology is transported backward It moves in the open state, magnet active force moves the movable contact of tongue tube and the disconnection of tongue tube stationary contact.

The infrared emission component includes infrared-emitting diode, resistance and adjustable resistance, passes through circuit board wiring therebetween Connection, infrared-emitting diode cathode are connected with adjustable resistance one end, and the anode of infrared-emitting diode is connected with resistance one end.

The infrared receiver control assembly include phototriode, resistance, adjustable resistance, NPN triode, PNP triode, Electrolytic capacitor, relay, tongue tube, time circuit are connected by circuit board wiring, first resistance one end and the 8th therebetween Resistance one end, first relay cathode power supply input terminal and control power input, second power source for relay control input End, the connection of time circuit cathode power supply input terminal, first resistance other end and adjustable resistance one end, third resistance one end, 4th resistance one end, the connection of electrolytic capacitor anode, the adjustable resistance other end are connected with phototriode pipe collector, phototriode Pipe emitter and second resistance one end, first NPN transistor base connection, the third resistance other end and first NPN Transistor collector, the connection of PNP triode base stage, the 4th resistance other end are connected with PNP triode emitter, tri- pole PNP Pipe collector and the 5th resistance one end, second NPN transistor base connection, second NPN triode collector and the 8th The resistance other end, the 7th resistance one end connection, second NPN triode emitter and the 6th resistance one end connection, the Seven resistance other ends are connected with third NPN transistor base, and third NPN triode collector and first relay are negative The connection of pole power input, first relay normally open contact end and second relay cathode power supply input terminal, time circuit The connection of positive trigger signal input terminal, time circuit cathode power supply output end and tongue tube one end, third relay wherein one A control power input connection, the tongue tube other end are connected with third relay cathode power supply input terminal, second resistance The other end and first NPN triode emitter, the 5th resistance other end, the 6th resistance other end, second tri- pole NPN Pipe emitter, second relay negative power supply input terminal, third relay negative power supply input terminal and another control electricity Source input terminal, the connection of time circuit negative power supply input terminal.

The time circuit of the infrared receiver control assembly is the time controller module finished product of brand Rong Yu Washington, tool There is the charactron of three time showing, also there are two power input, two trigger signal input terminals, a settings to press for tool Key, an emergency stop key, a time add key, a time to subtract key, a normally opened power output end, time controller mould The cathode trigger signal input end grounding of block, after the positive and negative polarities power input of time controller module is powered, operator is pressed After lower setting button, show that the operating time adds key, time to subtract key respectively by the number of charactron, may be set in needs The period wanted, normally opened power output end exported certain time cathode power supply, and the time sets, each time controller module Positive trigger signal input terminal is triggered, time controller module will do it setting time timing (in the application, each time The positive trigger signal input terminal of controller module is triggered, and the normally opened power output end of time controller module can export 5 seconds Cathode power supply, time controller module has memory function, after the time of setting sets, as long as not resetting even if power-off Also the setting data before capable of retaining power-off).

The tongue tube glue sticking of the infrared receiver control assembly in the middle part of the shell left-hand end of gate inhibition's all-in-one machine ontology, When the baffle of gate inhibition's all-in-one machine ontology, which travels forward, to be in close state, it is bonded in the baffle right-hand end of gate inhibition's all-in-one machine ontology The magnet of middle part front end is just close to tongue tube, and two contacts in tongue tube inside are in an off state, and the movable contact of tongue tube hangs down In the middle part of the straight shell left-hand end positioned at gate inhibition's all-in-one machine ontology, guarantees that the baffle of gate inhibition's all-in-one machine ontology travels forward to be in and close When state, magnet active force moves the movable contact of tongue tube and the disconnection of tongue tube stationary contact.

The utility model beneficial effect is: the utility model is by barcode scanning or swipes the card on rear side of the baffle of gate inhibition's all-in-one machine ontology It is consistent with the process of existing gate inhibition's all-in-one machine.In use, the personnel for needing to enter pass through on scanning gate inhibition's all-in-one machine ontology fuselage The two dimensional code at end or after swiping the card, it is main after mainboard carries out confirmation charge to code scaning information or card using information in gate inhibition's all-in-one machine ontology The high level signal of plate control signal output end output certain time enters control circuit, then, control circuit output positive and negative two Pole power supply enters the motor decelerating mechanism of gate inhibition's all-in-one machine ontology, motor decelerating mechanism work once electrified for a period of time, actuating strut Baffle is driven to move backwards, so that the personnel of gate inhibition's all-in-one machine ontology front end can enter gate inhibition's all-in-one machine ontology rear end；When passing through Personnel enter through open baffle the rear end of gate inhibition's all-in-one machine ontology, people by infrared emission component infrared-emitting diode with And when between the phototriode of infrared receiver control assembly, after the infrared light of infrared-emitting diode transmitting is blocked, Under the action of infrared receiver control assembly, infrared receiver control assembly output negative and positive the two poles of the earth power supply enters motor decelerating mechanism, electricity For a period of time, actuating strut drives baffle advance the puck to machine deceleration mechanism work once electrified, thus by gate inhibition's all-in-one machine ontology front end Personnel and the isolation of gate inhibition all-in-one machine ontology rear end.As long as the utility model one enters the rear end of gate inhibition's all-in-one machine ontology by personnel, By between infrared emission and infrared receiver control assembly, infrared emission and infrared receiver control assembly will export negative and positive the two poles of the earth Power supply enters the motor decelerating mechanism of gate inhibition's all-in-one machine ontology, motor decelerating mechanism work once electrified for a period of time, actuating strut band Dynamic baffle advance the puck has in this way so that the personnel of gate inhibition's all-in-one machine ontology front end and gate inhibition all-in-one machine ontology rear end are isolated Imitate the rear end for preventing non-paid personnel to enter gate inhibition's all-in-one machine ontology baffle.Based on above-mentioned, so the utility model has Application prospect.

Detailed description of the invention

The utility model is described further below in conjunction with drawings and examples.

Fig. 1 is the utility model forward sight structural schematic diagram.

Fig. 2 is the utility model left view structural representation.

Fig. 3 is the utility model circuit diagram.

Specific embodiment

Fig. 1, shown in 2, novel gate inhibition's all-in-one machine, including gate inhibition's all-in-one machine ontology 1, inside gate inhibition's all-in-one machine ontology 1 Connecting wire between motor control panel and the motor decelerating mechanism of gate inhibition's all-in-one machine ontology disconnects, and also has control circuit 2, red Outer emitting module 3, infrared receiver control assembly 4, magnet 5-1 and 5-2, left support bar 6, right support bar 7, under left support bar 6 End is mounted on the left end ground of gate inhibition's all-in-one machine ontology 1 by bolt and nut, and the right part of right support bar 7 is pacified by bolt and nut Mounted in the shell rear side end of gate inhibition's all-in-one machine ontology 1, left support bar 6, right support bar 7 upper end be higher than gate inhibition's all-in-one machine ontology The infrared-emitting diode 3-1 of baffle 1-1 upper end level, infrared emission component is mounted in a plastic conduit, infrared receiver control The phototriode 4-1 of component processed is mounted in another plastic tube, and two plastic conduits are separately mounted to left support bar 6, right branch At the upper inner end of strut 7, the light-emitting surface front end of infrared-emitting diode 3-1 and the receiving plane front end of phototriode 4-1 In the inside of left support bar 6, right support bar 7, the light-emitting surface front end of infrared-emitting diode 3-1 and connecing for phototriode 4-1 In face-to-face horizontal straight line state, the infrared light that infrared-emitting diode 3-1 launches acts on light at end in face of receiving Electric triode 4-1 light-receiving surface, infrared-emitting diode 3-1, phototriode 4-1 are located at gate inhibition's all-in-one machine ontology baffle 1-1's Rear side, infrared emission component 3, the other component of infrared receiver control assembly 4 and control circuit 2 are installed on circuit boards, circuit Plate is mounted in the shell of gate inhibition's all-in-one machine ontology 1, and two magnet 5-1 and 5-2 are bonded in the gear of gate inhibition's all-in-one machine ontology respectively Rear and front end in the middle part of plate 1-1 right-hand end.The tongue tube 2-1 glue sticking of control circuit is after the shell of gate inhibition's all-in-one machine ontology 1 In the middle part of the left end of side, when the baffle 1-1 of gate inhibition's all-in-one machine ontology is moved in the open state backward, it is bonded in gate inhibition's all-in-one machine sheet For the magnet 5-2 of rear end just close to tongue tube 2-1, the inside two tongue tube 2-1 contacts are in disconnected in the middle part of the baffle right-hand end of body Open state, the movable contact of tongue tube 2-1 are vertically positioned on rear side of the shell of gate inhibition's all-in-one machine ontology in the middle part of left end, guarantee gate inhibition's one The baffle 1-1 of machine ontology is moved in the open state backward, magnet 5-2 active force make tongue tube 2-1 movable contact move and Tongue tube 2-1 stationary contact disconnects.Shell of the tongue tube 4-2 glue sticking of infrared receiver control assembly in gate inhibition's all-in-one machine ontology 1 In the middle part of body left-hand end, when the baffle 1-1 of gate inhibition's all-in-one machine ontology, which travels forward, to be in close state, it is bonded in gate inhibition's all-in-one machine Just close to tongue tube 4-2, two contacts in the inside tongue tube 4-2 are in the magnet 5-1 of front end in the middle part of the baffle right-hand end of ontology Off-state, the movable contact of tongue tube 4-2 are vertically positioned in the middle part of the shell left-hand end of gate inhibition's all-in-one machine ontology 1, guarantee gate inhibition one The baffle 1-1 of body machine ontology travels forward when being in close state, and magnet 5-1 active force moves the movable contact of tongue tube 4-2 It is disconnected with tongue tube stationary contact.

Shown in Fig. 3, control circuit includes relay J1, silicon-controlled VS, tongue tube GH1 and resistance R1, passes through electricity therebetween The wiring connection of road plate, silicon-controlled VS anode are connected with the one of control power input of relay J1, silicon-controlled VS control electrode It is connected with the one end resistance R1, silicon-controlled VS cathode is connected with the one end tongue tube GH1, and the tongue tube GH1 other end and relay J1 are just Another control power input of the connection of pole power input, relay J1 negative power supply input terminal and relay J1 connects, and does Reed pipe GH1 glue sticking on rear side of the shell of gate inhibition's all-in-one machine ontology in the middle part of left end, when gate inhibition's all-in-one machine ontology baffle backward In the open state, the magnet CT1 for being bonded in rear end in the middle part of the baffle right-hand end of gate inhibition's all-in-one machine ontology is just close for movement Two contacts are in an off state inside tongue tube GH1, tongue tube GH1.Infrared emission component include infrared-emitting diode VL, Resistance R8 and adjustable resistance RP1 is connected by circuit board wiring therebetween, infrared-emitting diode VL cathode and adjustable resistance RP1 The anode of one end connection, infrared-emitting diode VL is connected with the one end resistance R8.Infrared receiver control assembly includes phototriode Pipe Q1, resistance R9, R2, R3, R4, R5, R6, R7, R10, adjustable resistance RP2, NPN triode Q2, Q4, Q5, PNP triode Q3, Electrolytic capacitor C1, relay J2, J3, J4, tongue tube GH2, time circuit U4；It is connected therebetween by circuit board wiring, first The one end resistance R9 and the 8th one end resistance R7, first relay J2 cathode power supply input terminal and control power input, the Two relay J3 control power inputs, the connections of 1 foot of time circuit U4 cathode power supply input terminal, first resistance R9 other end It is connected with the one end adjustable resistance RP2, the one end third resistance R3, the 4th one end resistance R4, electrolytic capacitor C1 anode, adjustable electric The resistance RP2 other end is connected with phototriode Q1 collector, phototriode Q1 emitter and second one end resistance R2, first The connection of NPN triode Q2 base stage, the third resistance R3 other end and first NPN triode Q2 collector, PNP triode Q3 Base stage connection, the 4th resistance R4 other end connect with PNP triode Q3 emitter, PNP triode Q3 collector and the 5th The one end resistance R5, second NPN triode Q4 base stage connection, second NPN triode Q4 collector and the 8th resistance R7 are another One end, the 7th one end resistance R10 connection, second NPN triode Q4 emitter and the 6th one end resistance R6 connection, the 7th The resistance R10 other end is connected with third NPN triode Q5 base stage, third NPN triode Q5 collector and first after The connection of electric appliance J2 negative power supply input terminal, first relay J2 normally opened contact end and second relay J3 cathode power supply input End, time circuit anode trigger signal input terminal CF1 connection, the one end time circuit cathode power supply output end S1 and tongue tube GH2, The one of control power input connection of third relay J4, the tongue tube GH2 other end and third relay J4 anode Power input connection, second resistance R2 other end and first NPN triode Q2 emitter, the 5th resistance R5 are another End, the 6th resistance R6 other end, second NPN triode Q5 emitter, second relay J3 negative power supply input terminal, Three relay J4 negative power supply input terminals and another control power input, 2 foot of time circuit negative power supply input terminal connect It connects.Infrared receiver control assembly time circuit U4 is the time controller module finished product of brand Rong Yu Washington, has one three There are two power input 1 and 2 feet, two trigger signal input terminals CF1 and CF2, one for the charactron of position time showing, also tool Setting button SZ1, an emergency stop key JT1, a time add key SJ1, a time to subtract key SJ2, a normally opened power supply Output end S1, the cathode trigger signal input terminal CF2 ground connection of time controller module, the positive and negative polarities electricity of time controller module After source input terminal 1 and 2 feet are powered, after operator presses setting button SZ1, shown by the number of charactron, when operating respectively Between plus key SJ1, time subtract key SJ2, may be set in the period normally opened power output end S1 output certain time of needs Cathode power supply, time set, and the positive trigger signal input terminal CF1 of each time controller module is triggered, time control Time timing that device module is set (in the application, the positive trigger signal input terminal CF1 quilt of each time controller module Triggering, the normally opened power output end S1 of time controller module can export 5 seconds cathode power supplies, and time controller module has memory Function, after the time of setting sets, as long as not resetting the setting data before capable of retaining power-off power-off).It is infrared The tongue tube GH2 glue sticking of control assembly is received in the middle part of the shell left-hand end of gate inhibition's all-in-one machine ontology, when gate inhibition's all-in-one machine The baffle of ontology travels forward when being in close state, and is bonded in the magnetic of front end in the middle part of the baffle right-hand end of gate inhibition's all-in-one machine ontology Just close to tongue tube GH2, two contacts in the inside tongue tube GH2 are in an off state iron CT2,

Shown in Fig. 3, the signal of the intrinsic mainboard U2 control signal output X of gate inhibition's all-in-one machine and control circuit is inputted Hold the resistance R1 other end by conducting wire connect 3 foot of 12V positive pole of gate inhibition's all-in-one machine intrinsic Switching Power Supply U1 output with The infrared emission component cathode power supply input terminal adjustable resistance RP1 other end, infrared receiver control assembly cathode power supply input terminal can The resistance RP2 other end is adjusted to connect by conducting wire, infrared receiver control assembly cathode power supply output end relay J3 normally-closed contact end It is connected with the silicon-controlled VS anode of control circuit cathode power supply input terminal by conducting wire, the two-way of control circuit controls power output end The two normally opened contact ends relay J1 and the intrinsic motor decelerating mechanism M positive and negative polarities power input of gate inhibition's all-in-one machine pass through Conducting wire connection, two-way control two normally opened contact ends power output end relay J4 of infrared receiver control assembly and gate inhibition's one The intrinsic motor decelerating mechanism M negative and positive the two poles of the earth power input of machine is connected by conducting wire, the intrinsic switch of gate inhibition's all-in-one machine The 12V power cathode and control circuit negative power supply input terminal relay J1 negative power supply input terminal, infrared hair of power supply U1 output Penetrate the negative power supply input pickup resistance R6 other end of the component negative power supply input pickup resistance R8 other end, infrared receiver control assembly It is connected by conducting wire, two magnet CT1 and CT2 are bonded in front and back two in the middle part of the baffle right-hand end of gate inhibition's all-in-one machine ontology respectively End.U2 is the motor control panel inside gate inhibition's all-in-one machine ontology 1.

Shown in Fig. 3, the 12V power supply of the intrinsic Switching Power Supply U1 output of gate inhibition's all-in-one machine is entering infrared emission component just After pole power input, the input of infrared receiver control assembly cathode power supply, infrared emission component cathode power supply input terminal infrared is connect It receives control assembly and is in obtain electricity condition；Due to infrared receiver control assembly cathode power supply output end relay J3 normally-closed contact end It is connected with control circuit cathode power supply input terminal by conducting wire, so, 12V DC power supply can control power input through relay J3 End, normally-closed contact end enter the cathode power supply input terminal for controlling circuit, then, control circuit also electric be in standby.This It is novel by consistent with the process of existing gate inhibition's all-in-one machine ontology on rear side of barcode scanning or the baffle swiped the card into gate inhibition's all-in-one machine ontology. In use, need the personnel entered by the two dimensional code of scanning gate inhibition's all-in-one machine ontology fuselage upper end or after swiping the card, gate inhibition's one After mainboard carries out confirmation charge to code scaning information or card using information in machine ontology, mainboard U2 control signal output X output is certain The high level signal of time enters the intrinsic motor control panel U2 of gate inhibition's all-in-one machine, and (in practical application, motor control panel U2 is taken Do not have to down) and input high level signal enter the resistance R1 other end of control circuit, since this moment, control circuit is in work shape State, so, high level signal can be depressured through resistance R1 current limliting enters silicon-controlled VS control electrode, and then, silicon-controlled VS, which is triggered, to be led It is logical, since tongue tube GH1 inner contact is closed type structure, so this moment, relay J1 can obtain two control electricity of electric actuation Source input terminal is logical with two normally opened contact terminations respectively, since relay J1 cathode controls power input and Switching Power Supply U1 Cathode connection, relay J1 anode control power input now at electricity condition, the two normally opened contact ends relay J1 It is connected with the intrinsic motor decelerating mechanism M positive and negative polarities power input of gate inhibition's all-in-one machine by conducting wire, so this moment, control Circuit output positive and negative polarities power supply enters the motor decelerating mechanism M of gate inhibition's all-in-one machine ontology, motor decelerating mechanism M work once electrified, Its actuating strut drives baffle to move backwards, thus after the personnel of gate inhibition's all-in-one machine ontology front end can enter gate inhibition's all-in-one machine ontology End；Since the baffle of gate inhibition's all-in-one machine ontology moves the baffle for being bonded in gate inhibition's all-in-one machine ontology in the open state backward The magnet CT1 of rear end just (can be bonded a modeling outside tongue tube GH1 close to tongue tube GH1, tongue tube GH1 in the middle part of right-hand end Material shell body protects it) internal two contacts (movable contact and stationary contact) are in an off state (baffle and gate inhibition one this moment The left end of body machine ontology is longitudinally in a straight line)；Due to, relay J1 cathode power supply input terminal and silicon-controlled VS cathode it Between connected through tongue tube GH1, so, this moment, relay J1 can power loss stop working, two control power input respectively and Two normally opened contact ends disconnect, then, the motor decelerating mechanism M of gate inhibition's all-in-one machine ontology also will power loss stop working, prevent The motor decelerating mechanism M of gate inhibition's all-in-one machine ontology moves always the damage for causing equipment.

Shown in Fig. 3, when infrared emission component, infrared receiver control assembly be in electricity condition after, two pole of infrared emission Pipe VL, which can be obtained, electric to be launched infrared light (adjustable resistance RP1, resistance R8 mainly plays metering function, prevent Current Voltage excessively bright red Outer emitting diode VL damage)；The infrared light that infrared-emitting diode VL launches is radiated at phototriode Q1 light-receiving surface On, then, (adjustable resistance RP2, resistance R2 are respectively to enter phototriode Q1 emitter and collector to phototriode Q1 Power voltage step down current limliting, prevent Current Voltage excessive) under internal resistance will, its emitter output high level enter NPN triode Q2 base Pole (resistance R3 is the power voltage step down current limliting into NPN triode Q2 collector, prevents Current Voltage excessive), NPN triode Q2 Conducting collector output low level enters PNP triode Q3 base stage, and (resistance R5, R4 are into PNP triode Q3 collector, transmitting The power voltage step down current limliting of pole, prevents Current Voltage excessive), PNP triode Q3 conducting collector output high level enters tri- pole NPN (resistance R7, R6 are the power voltage step down current limliting into NPN triode Q4 collector, emitter to pipe Q4 base stage, prevent Current Voltage mistake Greatly), NPN triode Q4 conducting collector output low level enters NPN triode Q5 base stage, and NPN triode Q5 base stage is without suitable Bias is in off state.When entering the rear end of gate inhibition's all-in-one machine ontology, people by infrared hair through open baffle by personnel When penetrating between the infrared-emitting diode VL of component and the phototriode Q1 of infrared receiver control assembly, by infrared emission two After the infrared light of pole pipe VL transmitting blocks, then, phototriode Q2 rises its emitter because of the irradiation internal resistance of no infrared light No longer output level enters NPN triode Q2 base stage, NPN triode Q2 cut-off, PNP triode Q3 cut-off, NPN triode Q4 sections It only is input to NPN triode Q5 base stage without level, NPN triode Q5 base stage is obtained through resistance R10, R7 from 3 feet of Switching Power Supply U1 Suitable bias voltage be connected its collector output low level enter relay J2 negative power supply input terminal, then relay J2 obtains electric suction It closes it and controls power input and normally opened contact end closure, since relay J3 cathode power supply input terminal, time circuit U3 are just Pole trigger signal end CF1 is connected with relay J2 normally opened contact end by conducting wire, so this moment, relay J3 can obtain electric actuation It controls power input and normally-closed contact end disconnects, the positive trigger signal end CF1 of time circuit U4 can obtain electric, time circuit For U4 inside it under circuit function, the cathode power supply of cathode power supply output end S1 output is in closed state through inner contact this moment Tongue tube GH2 enter relay J4 cathode power supply input terminal, then, relay J4 can obtain it is electric be attracted two control power supply it is defeated It is logical with two normally opened contact terminations respectively to enter end；Due to relay J3 normally-closed contact end and control circuit cathode power supply input terminal It is connected by conducting wire, so this moment, control circuit meeting power loss stops working, since relay J4 cathode controls power input Be connected to 4 foot of cathode of Switching Power Supply U1, relay J4 anode control power input now at electricity condition, relay J4 Two normally opened contact ends and the intrinsic motor decelerating mechanism M negative and positive the two poles of the earth power input of gate inhibition's all-in-one machine are connected by conducting wire It connects, so this moment, two normally opened contact end road output negative and positive the two poles of the earth power supplys of relay J4 enter the motor of gate inhibition's all-in-one machine ontology Deceleration mechanism M, motor decelerating mechanism M work once electrified, actuating strut drives baffle advance the puck, thus before gate inhibition's all-in-one machine ontology End is closed, and personnel cannot enter back into gate inhibition's all-in-one machine ontology rear end；Since the baffle of gate inhibition's all-in-one machine ontology, which travels forward, to be in When closed state, the magnet CT2 of front end in the middle part of the baffle right-hand end of gate inhibition's all-in-one machine ontology is bonded in just close to tongue tube GH2, tongue tube GH2 (plastic casing can be bonded outside tongue tube GH2 to protect it) internal two contact (movable contacts And stationary contact) it is in an off state (left end of baffle and gate inhibition's all-in-one machine ontology is laterally in a straight line this moment)；Due to, Relay J4 cathode power supply input terminal is connected through tongue tube GH2 with the power output end of time circuit, so, this moment, relay J4 meeting power loss stops working, two control power input is disconnected with two normally opened contact ends respectively, then, gate inhibition's all-in-one machine The motor decelerating mechanism M of ontology also will power loss stop working, prevent the motor decelerating mechanism M of gate inhibition's all-in-one machine ontology from transporting always The dynamic damage for causing equipment；People is after between infrared-emitting diode VL and phototriode Q2, due to phototriode Q2 It is irradiated by infrared light, meeting power loss stops being attracted its control power input relay J3 again and normally-closed contact end connects again It is logical, thus, control circuit work once electrified again, by person, using being ready, (inside of tongue tube GH1 is dynamic this moment is touched to be the next Point is with stationary contact because flapper closure, which has pulled open to be in stationary contact apart from internal two movable contacts with magnet CT1, connects shape again State does not interfere the use of next user).The power supply of the utility model time circuit output only has 5 seconds, mainly to motor reducer The runing time that structure M closes baffle is limited, and under actual conditions, after flapper closure, also no longer output is electric for basic time circuit U 4 Source, and because movable contact and stationary contact are in an off state inside tongue tube GH2, when will not bring any to next bit user Between be delayed influence.

Shown in Fig. 3, in control circuit: relay J1 model is the happy SLA-12VDC-SL of pine, and there are two power inputs for tool End, two control power inputs, two normally-closed contact ends, two normally opened contact ends；Silicon-controlled VS is MCR100-1 model Plastic packaging one-way SCR；Tongue tube GH1 is the tongue tube of cloud brightness brand, model GC1625, has normally opened stationary contact, one A normally closed stationary contact, a movable contact, a normally opened stationary contact does not have in the present embodiment；Resistance R1 resistance value is 5K.Infrared emission In component: infrared-emitting diode VL model is HG410；Resistance R8 resistance value is 35 Ω；Adjustable resistance RP1 specification is 120 Ω.It is red In outer reception control assembly: phototriode Q1, resistance R9, R2, R3, R4, R5, R6, R7, R10 resistance value be respectively 470 Ω, 5.1K,1K,100Ω,1K,2.2K,1K,5.1K；Adjustable resistance RP2 specification is 68K；NPN triode Q2, Q4, Q5 model is 9014；PNP triode Q3 model is 9012；Electrolytic capacitor C1 specification is that (electrolytic capacitor C1 plays power filter work to 100 μ F/25V With)；Relay J4 model is the happy SLA-12VDC-SL of pine, and there are two power input, two control power inputs, two for tool Normally-closed contact end, two normally opened contact ends；Relay J2, J3 are the small-sized 12V relays of DC4123 type；Tongue tube GH2 is Yun Hui The tongue tube of brand and model GC1625 has a normally opened stationary contact, a normally closed stationary contact, a movable contact, this implementation A normally opened stationary contact does not have in example.

The advantages of basic principles and main features and the utility model of the utility model have been shown and described above, for For those skilled in the art, it is clear that the utility model is limited to the details of above-mentioned exemplary embodiment, and without departing substantially from this reality In the case where with novel spirit or essential attributes, the utility model can be realized in other specific forms.Therefore, no matter from From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the utility model is by appended Claim rather than above description limit, it is intended that the institute that will be fallen within the meaning and scope of the equivalent elements of the claims It changes and is embraced therein.Right involved in should not treating any reference in the claims as limiting is wanted It asks.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (6)

1. novel gate inhibition's all-in-one machine, including gate inhibition's all-in-one machine ontology, it is characterised in that also have control circuit, infrared emission group Part, infrared receiver control assembly, magnet, left support bar, right support bar, the lower end of left support bar are mounted on gate inhibition's all-in-one machine ontology Left end ground on, the right part of right support bar is mounted on the shell rear side end of gate inhibition's all-in-one machine ontology, left support bar, right support bar Upper end be higher than the baffle upper end level of gate inhibition's all-in-one machine ontology, the infrared-emitting diode of infrared emission component is mounted on a modeling In pipe material, the phototriode of infrared receiver control assembly is mounted in another plastic tube, and two plastic conduits are installed respectively At the upper inner end of left support bar, right support bar, the infrared light that infrared-emitting diode is launched acts on phototriode Pipe light-receiving surface, infrared-emitting diode, phototriode are located at the rear side of gate inhibition's all-in-one machine ontology baffle, infrared emission component, On circuit boards, circuit board is mounted on gate inhibition's all-in-one machine ontology for other component and the control circuit installation of infrared receiver control assembly Shell in, the signal input part of the intrinsic mainboard control signal output of gate inhibition's all-in-one machine and control circuit passes through conducting wire and connects It connects, the 12V positive pole and infrared emission component, infrared receiver control assembly of the intrinsic Switching Power Supply output of gate inhibition's all-in-one machine Cathode power supply input terminal is connected by conducting wire, and infrared receiver control assembly cathode power supply output end and control circuit cathode power supply are defeated Enter end to connect by conducting wire, the two-way control power output end and the intrinsic motor decelerating mechanism of gate inhibition's all-in-one machine of control circuit Positive and negative polarities power input is connected by conducting wire, the two-way control power output end and gate inhibition's one of infrared receiver control assembly Machine intrinsic motor decelerating mechanism negative and positive the two poles of the earth power input is connected by conducting wire, the intrinsic switch electricity of gate inhibition's all-in-one machine 12V power cathode and control circuit, infrared emission component, the negative power supply input terminal of infrared receiver control assembly of source output are logical Conducting wire connection is crossed, two magnet are bonded in rear and front end in the middle part of the baffle right-hand end of gate inhibition's all-in-one machine ontology respectively.

2. novel gate inhibition's all-in-one machine according to claim 1, it is characterised in that control circuit includes relay, silicon-controlled dry Reed pipe and resistance are connected by circuit board wiring therebetween, and silicon-controlled anode and the one of control power input of relay connect It connects, silicon-controlled cathode is connected with tongue tube one end, and SCR control pole is connected with resistance one end, the tongue tube other end and relay Another control power input of the connection of cathode power supply input terminal, relay negative power supply input terminal and relay connects, dry spring Pipe is mounted on rear side of the shell of gate inhibition's all-in-one machine ontology in the middle part of left end.

3. novel gate inhibition's all-in-one machine according to claim 1, it is characterised in that infrared emission component includes infrared emission two Pole pipe, resistance and adjustable resistance are connected by circuit board wiring therebetween, and infrared-emitting diode cathode and adjustable resistance one end connect It connects, the anode of infrared-emitting diode is connected with resistance one end.

4. novel gate inhibition's all-in-one machine according to claim 1, it is characterised in that infrared receiver control assembly includes photoelectricity three Pole pipe, resistance, adjustable resistance, NPN triode, PNP triode, electrolytic capacitor, relay, tongue tube, time circuit, lead to therebetween The wiring connection of oversampling circuit plate, first resistance one end and the 8th resistance one end, first relay cathode power supply input terminal and Control power input, second power source for relay control input terminal, the connection of time circuit cathode power supply input terminal, first electricity The resistance other end is connected with adjustable resistance one end, third resistance one end, the 4th resistance one end, electrolytic capacitor anode, adjustable electric The resistance other end is connected with phototriode pipe collector, phototriode emitter and second resistance one end, first tri- pole NPN The connection of pipe base stage, the third resistance other end and first NPN triode collector, the connection of PNP triode base stage, the 4th electricity The resistance other end is connected with PNP triode emitter, PNP triode collector and the 5th resistance one end, second NPN triode Base stage connection, second NPN triode collector and the 8th resistance other end, the 7th resistance one end connection, second NPN Transistor emitter and the 6th resistance one end connection, the 7th resistance other end are connected with third NPN transistor base, the Three NPN triode collectors and the connection of first relay negative power supply input terminal, first relay normally open contact end and Second relay cathode power supply input terminal, the connection of time circuit anode trigger signal input terminal, time circuit cathode power supply are defeated Outlet is connected with tongue tube one end, the one of control power input of third relay, and the tongue tube other end and third are only The connection of relay cathode power supply input terminal, second resistance other end and first NPN triode emitter, the 5th resistance are another One end, the 6th resistance other end, second NPN triode emitter, second relay negative power supply input terminal, third are only Relay negative power supply input terminal and another control power input, the connection of time circuit negative power supply input terminal.

5. novel gate inhibition's all-in-one machine according to claim 4, it is characterised in that the time circuit of infrared receiver control assembly It is time controller module.

6. novel gate inhibition's all-in-one machine according to claim 4, it is characterised in that the tongue tube of infrared receiver control assembly is pacified In the middle part of the shell left-hand end of gate inhibition's all-in-one machine ontology.