CN108539873A - A kind of gas of wireless power mode, liquid Transmission Connection control device - Google Patents

Abstract

A kind of gas of wireless power mode, liquid Transmission Connection control device, including primary side gas-liquid conveyance conduit, primary side solenoid valve, primary controller box, primary controller, start stop switch, sound-light reminding device, primary side to interface, transmitting end-coil, Magnetic Sensor, it is secondary while to interface, secondary controller, secondary controller box, it is secondary while solenoid valve, liquid level sensor, pressure sensor, receive end-coil, permanent magnet, LED light, secondary side gas-liquid conveyance conduit.Former secondary side of the invention passes through special mechanism and Electronic Design to interface, ensure both sides closed butt joint, and both sides coils is accurately positioned, ensure that fluid obtains intelligent measurement and control during transmission, it is ensured that be transmitted, to interface be detached from after, both sides valve has all been automatically closed, to, so that entire transmission process is avoided any unnecessary spilling, have the advantages that it is safe and environment-friendly, clean and tidy, avoid waste, have extraordinary application prospect.

Description

A kind of gas of wireless power mode, liquid Transmission Connection control device

Technical field

The present invention relates to wireless energy, carrier signal transmission and field of intelligent control technology, especially a kind of wireless power Gas, the liquid Transmission Connection control device of mode.

Background technology

Wireless charging technology has reached its maturity, small in mobile phone application field, the especially standard configuration of apple complete set mobile phone The brands high-end product such as rice, Huawei is also built-in with wireless charging, and user has taken the convenience of this new technology and safety It obtains and generally approves.Moreover, present wireless charging system framework can be by very while completing wireless energy transfer Low cost realizes in-band carrier communication.

The conveying of gas-liquid, other than short distance, the supply of fixed position and reception can be transmitted by fixed -piping；Greatly Partial service condition, or with relatively a small amount of, multiple receiving terminal of feed end Scene realizations, (for example Automobile Transportation fires Gas, fuel oil to multiple receiving terminals scene).Whether through what storage and means of transportation, from transmitting terminal, it is transferred to transport dress It sets, be then transferred to receiving terminal, at least need transmission process twice.Because many gas-liquids have corrosivity, pollution, volatilization Property, it after completing conveying every time, is centainly necessary to ensure that conveying quantity is not easy excessively, in order to avoid overflowing, and ensures to send and receive After container is closed, then detach to interface, in case gas-liquid escapes.

The conveying control of existing gas-liquid be essentially all feed status and control conveying speed are judged by people, it is difficult to Accomplish to accurately control, it is even more impossible to accurately control.Concrete reason is as follows：1, conveyance conduit is substantially opaque, and people can not lead to Cross the transmission state that naked eyes identify gas-liquid；2, because transmission time is generally longer, general supervisor is difficult to accomplish that overall process is special Note；3, many dangerous property or irritant of gas-liquid, overseer is not intended to stand close for a long time；4, mechanical valve It is difficult to accomplish to accurately control；Due to the above, or often can be appreciated that gas-liquid has been completed delivered, supervisor is also Conveying is turned off without knowing or gas-liquid conveying is not over, or completes delivery end and receiving terminal both sides after conveying Valve is fastened not yet, and gas-liquid is caused to overflow, and brings dangerous and waste.Moreover, if delivery end only needs conveying certain In the case of quantity gas-liquid to receiving terminal, existing pattern can only lean on supervisor's micro-judgment, just be more difficult to accomplish that accurate quantitative analysis turns It moves.Even some electronically controlled valves, because delivery end and receiving terminal both sides are to separate independent control, cannot accomplish to convey Primary side and the information exchange for receiving secondary side, it is difficult to accomplish synchronous control, it is even more impossible to carry out differentiation demand for control in real time.Moreover, This electronically controlled valve, because both sides are required for complete energy supply and complex control system, cost is more expensive, It is not easy to safeguard.

Based on above-mentioned, provide it is a kind of only needing energy in delivery end primary side, when needing gas-liquid to transmit, pass through nothing The mode of line power supply starts the work of receiving terminal pair side, also, can realize that delivery end primary side is precisely controlled conveying gas-liquid to secondary side The amount of receiving terminal, moreover it is possible to when conveying capacity reaches setting value, can effectively close primary side, secondary side electromagnetic valve, prevent gas-liquid from letting out The equipment of dew seems particularly necessary.

Invention content

In order to overcome drawback present in existing gas-liquid conveying, the present invention provides only in conveying end interface and reception After the completion of end interface docking completely, delivery end primary side just by way of wireless power, supplies energy to receiving terminal pair side, to Former and deputy side parameter and transmission can first be carried out automatically before specifically conveying action launching by starting the secondary controller work on secondary side The synchronization of demand setting, former secondary controller is all designed with NVM (nonvolatile storage), convey every time gas-liquid terminate or in It has no progeny, all real-time storage current status data, after conveying action launching every time, if it find that two number of edges of delivery end and receiving terminal According to different, recalculated with the detection parameters of the demand for control of primary side and secondary side, liquid is installed in secondary side conveyance conduit Position and pressure sensor, have the function of detecting conveying capacity and conveying speed in real time, and liquid level and pressure sensor will detect After signal inputs secondary controller, secondary controller passes through spy by being compared with the delivery requirements that own system pre-sets Determine algorithm, converts the action command of secondary side electromagnetic valve switch in order to control, meanwhile, the signal detected is passed through according to fixed rate The mode of in-band carrier is transferred to primary coil, and primary controller is by solving the signal in modulation coil, use and secondary controller Identical algorithm synchronizes control to primary side solenoid valve, to realize the consistency of former secondary side conveying control, thus reaches Ensure that gas-liquid conveying capacity can be precisely controlled, it is neither too much nor too little, and after completing conveying, detach delivery end and receiving terminal Before interface, the solenoid valve of pipeline is sent and received all in closed state, ensure that gas-liquid does not overflow after detaching one Gas, the liquid Transmission Connection control device of kind wireless power mode.

The technical solution adopted by the present invention to solve the technical problems is：

A kind of gas of wireless power mode, liquid Transmission Connection control device, it is characterised in that including primary side gas-liquid Conveyance conduit, primary side solenoid valve, primary controller, transmitting end-coil, Magnetic Sensor, primary side are to interface, secondary side to interface, reception End-coil, secondary controller, the secondary gas-liquid conveyance conduit in solenoid valve, liquid level sensor, pressure sensor, pair, primary side electricity One end of magnet valve is connected with primary side gas-liquid conveyance conduit, and the other end of primary side solenoid valve connects interface one end with primary side, former The open and close of side solenoid valve are controlled by primary controller, and primary controller is annulus template, and primary controller is sleeved on primary side gas-liquid The outside of conveyance conduit, and be fixed in primary controller box, primary controller box is fixed on primary side on interface, primary side is docked Transmitting end-coil is fixed with outside the outer ring of mouth, transmitting end-coil is connect with primary controller by conducting wire, and primary side is to the another of interface There are two the Magnetic Sensor of asymmetric installation, Magnetic Sensors to be connect by conducting wire with primary controller for one end inner ring, secondary side electromagnetism One end of valve is connected with secondary side gas-liquid conveyance conduit, is connected to interface one end when the secondary other end in solenoid valve is with pair, secondary side The switch of solenoid valve is controlled by secondary controller, and secondary controller is annulus template, and it is defeated that secondary controller is sleeved on secondary side gas-liquid The outside of pipeline is sent, and is fixed in secondary side control box, secondary controller box is fixed on secondary side on interface, secondary side is to interface Outer ring is fixed with reception end-coil, receives end-coil and is connect with secondary controller, secondary side is equipped with the inner ring of the interface other end Two permanent magnets, former pair side to interface by being tightened, former pair side to interface by being tightened after, two, secondary side permanent magnet It is corresponding with two magnetic sensor locations of primary side, liquid level sensor and pressure sensor, liquid level are installed in secondary side gas-liquid pipeline Sensor, pressure sensor are connected with secondary controller by conducting wire respectively.

After the primary controller is mounted in primary controller box, full waterproof requirement can be reached, primary controller is by outer Portion's power supply provides work capacity, and according to usage scenario difference, power supply can use battery, direct current and alternating current, primary side control Utensil processed has start-stop button, user that can control the transmission beginning and emergency braking of gas-liquid, primary side control by start-stop button Device processed also has buzzer and LED light, can provide acousto-optic hint, convenient for users to understanding current state, primary-side-control Device passes through the coil module mounted on primary side to interface inner ring, realization energy transmitting to secondary side, and the modulation /demodulation for passing through itself Circuit, is realized and the in-band carrier communication on secondary side, primary controller pass through two mounted on primary side to interface other end outer ring Magnetic Sensor, can determine that whether former secondary side has been connected and fixed to position, the Magnetic Sensor of two asymmetry installation to interface It can ensure that whether the former secondary side of detection has been connected and fixed to interface the accuracy of position.

The secondary controller is mounted in secondary controller box, the work capacity of secondary controller, by primary coil mould Group is wirelessly transmitted to secondary coil module and is passed through after secondary coil module receives coupling energy by electromagnetic coupling principle Itself rectification circuit converts the AC energy received to the DC power supply that secondary controller can use, secondary controller Through liquid level sensor, the pressure sensor in secondary side gas-liquid pipeline, can accurately perceive in secondary side gas-liquid pipeline Gas-liquid transmission progress parameter, secondary controller carries LED light, can intuitively prompt docking with primary side and secondary side The various transmission states of gas-liquid.

The former secondary side has locking mechanism in place to the screw thread of interface, it is ensured that and former pair side is rotated in place interface, Screw thread is individual pen locking mode, avoids excessive because screwing the number of turns, and Magnetic Sensor detects that former secondary side is right to interface It is connected to position, practical rotating cycle is not enough, to interface, also no docking in place, and does not cause former secondary side to interface poor sealing on former secondary side, The possibility that gas-liquid leaks in subsequent delivery.

Present invention has the advantages that：The present invention is in use, in primary side gas-liquid conveyance conduit, primary side solenoid valve, primary side control Device processed, transmitting end-coil, Magnetic Sensor, primary side to interface, it is secondary while to interface, receive end-coil, secondary controller, it is secondary while electromagnetism Valve, liquid level sensor, pressure sensor, secondary side gas-liquid conveyance conduit collective effect under, interface, secondary side are docked in primary side Mouthful completely docking after the completion of, primary side just by way of wireless power, supply energy to secondary side, to start it is secondary while it is secondary while control Device work processed can first carry out former and deputy side controller parameter and transmission automatically before specific primary side delivery end conveys action launching The synchronization of demand setting, is equipped with liquid level and pressure sensor in secondary side conveyance conduit, have detection gas-liquid conveying capacity in real time and The function of conveying speed, liquid level and pressure sensor by the signal detected input secondary controller after, secondary controller with from The delivery requirements that body systemic presupposition is set are compared, and by special algorithm, the action for converting secondary side electromagnetic valve switch in order to control refers to It enables, meanwhile, by the signal detected according to fixed rate by way of in-band carrier, it is transferred to primary controller, primary side control Device processed uses identical algorithms with secondary controller, and control is synchronized to primary side solenoid valve, to realize former secondary side conveying control The consistency of system (when the data of gas-liquid transmission Central Plains secondary controller setting reach consistent, represents the gas-liquid conveying of secondary side The gas-liquid scale of construction reaches the needs of setting in pipeline, and primary controller will simultaneously close off former and deputy side electromagnetism with secondary controller Valve), thus having reached ensures that gas-liquid conveying capacity can be precisely controlled, neither too much nor too little, and completes after conveying, and separation is defeated Before sending end and receiving terminal are to interface, the solenoid valve of pipeline is sent and received all in closed state, ensure that gas-liquid after separation It does not overflow.Based on above-mentioned, so the application prospect that the present invention has had.

Description of the drawings

The present invention is described further below in conjunction with drawings and examples

Fig. 1 is the structural schematic diagram of the present invention.

Fig. 2 is the schematic block diagram between the primary controller of the present invention and transmitting end-coil module, primary side solenoid valve.

Fig. 3 is the schematic block diagram between the secondary controller of the present invention and reception end-coil module, secondary side solenoid valve.

Fig. 4 is the primary side of the present invention to interface structure schematic diagram.

Fig. 5 is the secondary side of the present invention to interface structure schematic diagram.

Fig. 6 is that the secondary side of original of the present invention is tightened structural profile signal and the partial enlargement signal of fixed positioner Figure.

Fig. 7 is primary side conveyance conduit of the present invention, primary side solenoid valve, primary controller box, primary side to interface, secondary side docking The structural schematic diagram of mouth, secondary controller box, the secondary gas-liquid conveyance conduit in solenoid valve, pair.

Fig. 8 is Magnetic Sensor of the present invention, permanent magnet, primary side conveyance conduit, primary side solenoid valve, primary controller box, primary side To the cross-sectional view of interface, secondary solenoid valve, secondary side gas-liquid conveyance conduit while to interface, secondary controller box, pair.

In Fig. 1：101 it is primary side conveyance conduit, 102 be primary side solenoid valve, 103 be primary controller box, 104 is primary side control Device processed, 105 be start stop switch, 106 be sound-light reminding device, 107 be primary side be transmitting end-coil to interface, 108,109 be magnetic Sensor, 111 be it is secondary while to interface, 112 be secondary controller, 113 be secondary controller box, 114 be secondary while solenoid valve, 115 Be the secondary pressure sensor when liquid level sensor, 116 are secondary, 117 be receive end-coil, 118 be permanent magnet, 119 be LED indication Lamp, 120 are secondary side gas-liquid conveyance conduits.In Fig. 2：201 be primary controller main control chip, 202 be power supply input circuit, 203 be transmitting end-coil module, 204 be coil module driving circuit, 205 be modulation-demodulation circuit, 206 be primary side solenoid valve, 207 it is driving circuit for electromagnetic valve, 208 be parameter setting circuit, 209 be nonvolatile storage, 210 is start stop switch circuit, 211 It is magnetic sensor circuit, 212 be buzzer circuit, 213 is LED light circuit.In Fig. 3：301 be secondary controller chip, 302 be receive end-coil module, 303 be rectification circuit, 304 be linear voltage dropping circuit, 305 be modulation-demodulation circuit, 306 be secondary Side solenoid valve, 307 be driving circuit for electromagnetic valve, 308 be nonvolatile storage, 309 be LED light, 310 be liquid level sensor Circuit, 311 are pressure sensor circuits.In Fig. 4：401 it is primary side emitter coil module, 402 is primary side conveyance conduit, 403 It is coil module waterproof isolating device, 404 be primary side Magnetic Sensor, 405 is male thread winding device.In Fig. 5：501 be secondary side Receiver coil module, 502 be the secondary permanent magnet when conveyance conduit, 503 are coil module waterproof isolating device, 504 be secondary, 505 be box thread winding device.In Fig. 6：601 it is male thread, 602 be box thread, 603 is fixed positioner.In Fig. 7：101 It is primary side conveyance conduit, 102 be primary side solenoid valve, 103 be primary controller box, 107 be primary side is secondary side pair to interface, 111 Interface, 113 be secondary controller box, 114 be the secondary gas-liquid conveyance conduit when solenoid valve, 120 are secondary.In Fig. 8：109 be magnetic Sensor, 118 be permanent magnet, 101 be primary side conveyance conduit, 102 be primary side solenoid valve, 103 be primary controller box, 107 be Primary side to interface, 111 be it is secondary while to interface, 113 be secondary controller box, 114 be secondary while solenoid valve, 120 be secondary side gas-liquid Conveyance conduit.

Specific implementation mode

Shown in Fig. 1,7,8, a kind of gas of wireless power mode, liquid Transmission Connection control device, including primary side gas Liquid conducting pipes 101, primary side solenoid valve 102, primary controller box 103, primary controller 104, start stop switch 105, acousto-optic Alarm set 106, primary side are to interface 107, transmitting end-coil 108, Magnetic Sensor 109, secondary side to interface 111, secondary controller 112, secondary controller box 113, secondary side solenoid valve 114, liquid level sensor 115, pressure sensor 116, receive end-coil 117, Permanent magnet 118, LED light 119, secondary side gas-liquid conveyance conduit 120, one end of primary side solenoid valve 102 and primary side gas-liquid Conveyance conduit 101 connects, another end of primary side solenoid valve 102 connects 107 one end of interface with primary side, primary side solenoid valve 102 Open and close controlled by primary controller 104, primary controller 104 is annulus template, and primary controller 104 is sleeved on primary side gas-liquid The outside of body conveyance conduit 101, and be fixed in primary controller box 103, primary controller box 103 is fixed on primary side to interface On 107, primary side is fixed with transmitting end-coil 108 to the outer ring of interface 107, and transmitting end-coil 108 passes through with primary controller 104 Conducting wire connects, primary side to the installation of the other end inner ring of interface 107 there are two asymmetrical Magnetic Sensor 109, Magnetic Sensor 109 with Primary controller 104 is connected by conducting wire, and the secondary gas-liquid conveyance conduit 120 at one end of solenoid valve 114 and pair connects, secondary side The other end of solenoid valve 114 and secondary side connect interface 111, and the open and close of secondary side solenoid valve 114 are controlled by secondary controller 112, Secondary controller 112 is annulus template, and secondary controller 112 is sleeved on the outside of secondary side gas-liquid conveyance conduit 120, and is fixed on In secondary side control box 113, secondary controller box 113 is fixed on secondary side on interface 111, the outer ring of interface 111 is fixed on secondary side Have and receive end-coil 117, receives end-coil 117 and connect by conducting wire with secondary controller 113, secondary side is to 111 other end of interface Inner ring installation there are two permanent magnet 118, former pair side is to interface 107,111 by being tightened, and former pair side is to interface 107,111 After being tightened, two 109 positions of Magnetic Sensor of two, secondary side permanent magnet 118 and primary side correspond to, secondary side gas-liquid pipeline Liquid level sensor 115 and pressure sensor 116 are inside installed, liquid level sensor 115 and pressure sensor 116 are controlled with secondary side respectively Device 112 processed is connected by conducting wire.

Shown in Fig. 1,7,8, in gas-liquid output end primary side to 107 gentle Liquid acquisition end pair side of interface to interface 111 Completely after the completion of docking, primary side supplies energy to secondary side by way of wireless power, to start 112 work of secondary controller Make, before specifically conveying action launching, first carries out former secondary controller parameter and set synchronous, secondary side conveying with transmission demand Liquid level sensor 115 and pressure sensor 116 are installed, liquid level sensor 115 and pressure sensor 116 have real-time in pipeline It detects the function of gas-liquid conveying capacity and conveying speed in pipeline, liquid level and pressure sensor and the signal detected is inputted into secondary side After controller 112, secondary controller 112 is compared with the delivery requirements that own system pre-sets, and passes through internal circuit spy Fixed algorithm, the action commands of conversion secondary 114 open and close of side solenoid valve in order to control, meanwhile, secondary controller 112 will detect Signal by way of in-band carrier, is transferred to primary controller 104 according to fixed rate, and primary controller 104 is controlled with secondary side Device 112 processed uses identical algorithms, and open and close control is synchronized to primary side solenoid valve 102, defeated to realize former secondary side gas-liquid Send the consistency of control.

Shown in Fig. 1,2,7,8, primary controller 104 includes primary controller main control chip 201, power supply input circuit 202, coil module driving circuit 204, modulation-demodulation circuit 205, driving circuit for electromagnetic valve 207, parameter setting circuit 208, non- Volatile memory 209, start stop switch circuit 210, magnetic sensor circuit 211, buzzer circuit 212, LED light circuit 213. 203 it is transmitting end-coil module, 206 is primary side solenoid valve.Primary controller 104 is designed by full proof mechanism of water, is fixed on original In side controller box 103, primary controller chip 201 provides work capacity by external power supply input circuit 202, according to using field Scape is different, can make battery, direct current or alternating current, the action of primary side solenoid valve 206, by 207 band of driving circuit for electromagnetic valve Dynamic, primary controller carries start stop switch circuit 210, and user can be started and emergency cut-off primary side electromagnetic valve with controlling transmission 206, primary controller chip 201 is connected with buzzer 212 and LED light 213, can provide acousto-optic hint, easy to use Person understands current state, and primary controller chip 201 carries coil module driving circuit 204, and primary side pair is mounted on by driving The transmitting end-coil module 203 of interface inner ring realizes energy transmitting to secondary side, the connection modulation /demodulation of primary controller chip 201 Circuit 205, is realized and the in-band carrier communication on secondary side, primary controller chip 201 are mounted on through the connection of magnetic sensor circuit 211 Primary side can determine that whether former secondary side has been connected and fixed to position to interface to the Magnetic Sensor 109 of interface outer ring, in order to ensure Accuracy of detection, there are two Magnetic Sensors 109 for present apparatus design, and simultaneously asymmetry is installed, and each transmission acts specific Parameter is stored in nonvolatile storage 209, and parameter modification is realized by parameter setting circuit 208, by the system of certain permission Administrator is completed by specific device, and operator can not usually change, and primary controller chip 201 can only also read the number of the inside According to.

Shown in Fig. 1,3,7,8, secondary controller 112 includes secondary controller chip 301, rectification circuit 303, linear drop Volt circuit 304, modulation-demodulation circuit 305, driving circuit for electromagnetic valve 307, nonvolatile storage 308, LED light 309, liquid level Sensor circuit 310, pressure sensor circuit 311.302 be receive end-coil module, 306 be secondary side solenoid valve.Secondary side control Device 112 is designed by full proof mechanism of water, is fixed in secondary controller box 113, the work capacity of secondary controller 112, by original Module 108 is enclosed by electromagnetic coupling principle in sideline, is wirelessly transmitted to secondary coil module 302, secondary coil module 302 is mounted on Secondary side is to the inner ring of interface 111, after secondary coil module 302 receives coupling energy, by rectification circuit 303 by alternating current energy Amount is converted into DC energy, and a part for DC energy is converted into secondary controller chip by a linear voltage dropping circuit 304 301 DC energies that can be used, another part are directly connected to secondary side solenoid valve 306, coordinate driving circuit for electromagnetic valve 307, Realize that the switch of solenoid valve 306 executes, the liquid level sensor electricity in secondary controller chip 301 and secondary side gas-liquid pipeline 120 Road 310, pressure sensor circuit 311 connect, and can accurately perceive the transmission progress parameter of gas-liquid in secondary side gas-liquid pipeline, Secondary controller chip 301 is connect with LED light 309, can intuitively prompt the docking with primary side and secondary side gas-liquid Various transmission states, secondary controller chip 301 is also connected with nonvolatile storage 308, remembers the demand ginseng conveyed every time Number, it is ensured that the consistency transmitted every time can also be by non-volatile memory in the case of transmitting because cause specific interrupts Digital independent in device 308, the transmission action before judgement interruption and state, facilitate the reliability and continuity of transmission.

Shown in Fig. 1,4,7,8, it is interior convex shape to interface 107 that primary side has male thread 405, primary side to interface.401 It is primary side emitter coil module, 402 is primary side conveyance conduit, 403 is coil module waterproof isolating device, 404 is primary side magnetic Sensor, outer ring are equipped with coil module 401, and coil module 401 is placed on inside waterproof isolating device 403, anti-water segregation dress Set 403 and need be wide temperature range anticorrosive property material, it is ensured that the liquid in primary side conveyance conduit 402 will not be with coil 401 It is in direct contact, primary side is to 107 inner wrap strip Magnetic Sensor 404 of interface, and in order to ensure accuracy of detection, there are two magnetic for present apparatus design Sensor 404, and asymmetry is installed, primary side is to the male thread 405 of interface 107 just in primary side to 107 inner male part of interface On outer wall.

Shown in Fig. 1,5,7,8, it is inner concave shape structure to interface 111 that secondary side has box thread 505, secondary side to interface 111. 501 it is the secondary conveyance conduit when receiver coil module, 502 are secondary, 503 be coil module waterproof isolating device, 504 is secondary side Permanent magnet, 501 outer rings are equipped with coil module, and coil module 501 is placed on inside waterproof isolating device 503, anti-water segregation dress Set 503 and need be wide temperature range anticorrosive property material, it is ensured that the liquid in secondary side conveyance conduit 502 will not be with coil 501 It is in direct contact, primary side is to 111 inner wrap strip permanent magnet 504 of interface, and in order to ensure accuracy of detection, there are two permanent magnetism for present apparatus design Iron, and asymmetry is installed, with primary side to the Magnetic Sensor 404 in interface 107, in the state that former secondary side screws, position one As soon as it corresponds to, it is secondary while to the box thread 405 of interface 111 on inner wall while secondary to 111 female parts of interface.

Shown in Fig. 1,5,6,7,8,601 it is male thread, 602 is box thread, 603 is fixed positioner, male thread 601 In primary side to the outside of 107 convex of interface, box thread 602 on secondary side to the inside of 111 indent of interface, in the most end position of screw thread It sets and devises fixed positioner 603, buckle can not only increase stability maintenance while can allow use after user, which turns, to be at the end Feel that in place, to improve user experience, primary side is to the Magnetic Sensor 109 of interface with secondary side to the permanent magnet of interface in family 504 positions correspond to, it is ensured that good to interface contact when gas-liquid transmits, it is not easy to it falls off, hereafter, the electricity on former pair side Magnet valve can start breakdown action.

Shown in Fig. 1,2,3,4,5,6,7,8, the present invention is in use, complete to interface 111 to interface 107, secondary side in primary side After the completion of full docking, primary side just by way of emitting 108 wireless power of end-coil, supplies energy to secondary side, to start pair The secondary controller 112 on side works, and before specific primary side delivery end conveys action launching, can first carry out former and deputy side control automatically Device 104 processed, 112 parameters set synchronous with transmission demand, and liquid level and pressure sensor are equipped in secondary side conveyance conduit 120 115,116, have the function of detecting gas-liquid conveying capacity and conveying speed in real time, liquid level and pressure sensor 115,116 will detect After the signal input secondary controller 112 arrived, secondary controller 112 is compared with the delivery requirements that own system pre-sets, By special algorithm, the action command of 114 open and close of secondary side solenoid valve in order to control is converted, meanwhile, by the signal detected according to solid Constant speed rate is transferred to primary controller 104 by way of in-band carrier, and primary controller 104 is used with secondary controller 112 Identical algorithms synchronize control to primary side solenoid valve 102, and the consistency to realize former secondary side conveying control (works as gas-liquid When the data of body transmission Central Plains secondary controller setting reach consistent, represents the gas-liquid scale of construction in the gas-liquid conveyance conduit of secondary side and reach The needs of setting, primary controller 104 and secondary controller 112 will simultaneously close off former and deputy side solenoid valve 102,114), thus Having reached ensures that gas-liquid conveying capacity can be precisely controlled, neither too much nor too little, and completes after conveying, detach delivery end and connect Before receiving end is to interface, solenoid valve 102,114 is sent and received all in closed state, gas-liquid will not overflow after ensure that separation Go out.

The basic principles and main features and advantages of the present invention that the present invention has been shown and described above, for this field skill For art personnel, it is clear that the present invention is in the details of above-mentioned exemplary embodiment, and in spirit without departing substantially from the present invention or basic In the case of feature, the present invention can be realized in other specific forms.Therefore, in all respects, should all will implement Example regards exemplary as, and is non-limiting, and the scope of the present invention is by appended claims rather than above description limits It is fixed, it is intended that all changes that come within the meaning and range of equivalency of the claims are included within the present invention.No Any reference numeral in claim should be considered as and be limited the claims involved.

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 embodiment being appreciated that.

Claims (4)

1. a kind of gas of wireless power mode, liquid Transmission Connection control device, it is characterised in that defeated including primary side gas-liquid Send pipeline, primary side solenoid valve, primary controller, transmitting end-coil, Magnetic Sensor, primary side to interface, secondary side to interface, receiving terminal Coil, secondary controller, the secondary gas-liquid conveyance conduit in solenoid valve, liquid level sensor, pressure sensor, pair, primary side electromagnetism One end of valve is connected with primary side gas-liquid conveyance conduit, and the other end of primary side solenoid valve connects interface one end with primary side, primary side The open and close of solenoid valve are controlled by primary controller, and primary controller is annulus template, and it is defeated that primary controller is sleeved on primary side gas-liquid The outside of pipeline is sent, and is fixed in primary controller box, primary controller box is fixed on primary side on interface, primary side is to interface Outer ring outside be fixed with transmitting end-coil, transmitting end-coil is connect with primary controller by conducting wire, and primary side is to the another of interface Hold inner ring there are two the Magnetic Sensor of asymmetric installation, Magnetic Sensor is connect with primary controller by conducting wire, secondary side solenoid valve One end connect with secondary side gas-liquid conveyance conduit, the secondary other end in solenoid valve and it is secondary while interface one end is connected, secondary side is electric The switch of magnet valve is controlled by secondary controller, and secondary controller is annulus template, and secondary controller is sleeved on secondary side gas-liquid conveying The outside of pipeline, and be fixed in secondary side control box, secondary controller box is fixed on secondary side on interface, secondary side is to the outer of interface Circle is fixed with reception end-coil, receives end-coil and is connect with secondary controller, secondary side is equipped with two to the inner ring of the interface other end A permanent magnet, former pair side to interface by being tightened, former pair side to interface by being tightened after, two, secondary side permanent magnet and Two magnetic sensor locations of primary side correspond to, and liquid level sensor and pressure sensor are equipped in secondary side gas-liquid pipeline, and liquid level passes Sensor, pressure sensor are connected with secondary controller by conducting wire respectively.

2. a kind of gas of wireless power mode according to claim 1, liquid Transmission Connection control device, feature exist After primary controller is mounted in primary controller box, full waterproof requirement can be reached, primary controller is provided by external power supply Work capacity, according to usage scenario difference, power supply can use battery, direct current and alternating current, and primary controller, which has, to be opened Stop button, user can control the transmission beginning of gas-liquid and emergency braking, primary controller by start-stop button also to be had Buzzer and LED light can provide acousto-optic hint, and convenient for users to understanding current state, primary controller passes through installation In primary side to the coil module of interface inner ring, realize that energy transmitting arrives secondary side, and by the modulation-demodulation circuit of itself, realize with The in-band carrier on secondary side communicates, and primary controller passes through two Magnetic Sensors mounted on primary side to interface other end outer ring, energy Determine whether former secondary side has been connected and fixed to position to interface, the Magnetic Sensor of two asymmetry installation can ensure that detection is former Whether secondary side has been connected and fixed to interface the accuracy of position.

3. a kind of gas of wireless power mode according to claim 1, liquid Transmission Connection control device, feature exist It is mounted in secondary controller box in secondary controller, the work capacity of secondary controller passes through electromagnetism by primary coil module Coupling principle is wirelessly transmitted to secondary coil module and passes through itself rectified current after secondary coil module receives coupling energy Road converts the AC energy received to the DC power supply that secondary controller can use, and secondary controller, which passes through, is mounted on pair Liquid level sensor, pressure sensor in the gas-liquid pipeline of side can accurately perceive the gas-liquid transmission in secondary side gas-liquid pipeline Schedule parameter, secondary controller carry LED light, can intuitively prompt each of docking with primary side and secondary side gas-liquid Kind transmission state.

4. a kind of gas of wireless power mode according to claim 1, liquid Transmission Connection control device, feature exist There is locking mechanism in place to the screw thread of interface in former secondary side, it is ensured that former pair side is rotated in place interface, and screw thread is Individual pen locking mode, avoids excessive because screwing the number of turns, and Magnetic Sensor detects that interface has been docked in place on former secondary side, practical Rotating cycle is not enough, to interface, also no docking in place, and does not cause former secondary side to interface poor sealing on former secondary side, gas in subsequent delivery The possibility of liquid leakage.