TWI670637B - Mobile interaction system and its method - Google Patents

Abstract

An action interaction system and a method thereof, by installing a control device for a function machine, and allowing a user to use the mobile device to contact the control device, thereby providing action interaction processing for the service of the function machine through the external network, and enabling the function The machine performs the adapted service, whereby the application can provide the function machine with the function of action interaction to improve the user experience and reduce the management cost.

Description

Action interaction system and method

The present application relates to a functional machine interaction technology implemented through a mobile network, and more particularly, to an action interaction system and method thereof.

Self-service service machines can be found everywhere in the city, such as vending machines, coin-operated washing machines, self-service washing machines, children's game machines, shooting machines, doll machines, gaming machines, parking self-service charging machines, lockers, self-storage Services, vending machines, etc., because of the self-service mode provided by these functional machines, not only can save labor costs, but also provide 24 hours of functional services, so in the era when smart phones have not been popularized, they have greatly benefited consumers. welcome.

However, with the popularity of smart phones and the growing maturity of mobile communication networks, the mobile interaction model that has moved away from the offline interaction model has penetrated into every aspect of life and has become the preferred interactive method for consumers. However, in the current cities, the old self-service service machines that do not have networking functions still occupy a large proportion. Because these machines do not have networking functions, they can only support offline interactive usage modes (such as cash transactions). Mode), obviously can not meet the consumption habits of today's consumers, resulting in the poor user experience of the traditional offline self-service machine, seriously affecting its operating conditions, and caused a huge waste of resources.

In view of this, how to rebuild the traditional offline self-service machine, so that the offline self-service machine has the function of action interaction, which is the technical problem to be solved in this case.

In view of the above problems of the prior art, the main purpose of the present application is to provide a mobile interaction system and a method thereof, which can provide an action interaction function for an offline function machine to improve the user experience.

Another object of the present application is to provide a mobile interaction system and a method thereof, which provide communication between a mobile terminal device and a control terminal device by two different communication methods to avoid signal interference.

Another object of the present application is to provide a mobile interaction system and a method thereof, which can reduce the management cost of the functional machine, and have the advantages of low reconstruction cost and easy implementation.

To achieve the above and other objects, the present application provides an action interaction system for providing a mobile interaction for a service of a function machine through an external network, the action interaction system comprising: a mobile device and a console device, wherein The mobile device has a mobile cloud processing module; and a mobile touch screen, the control device has a control touch conductor module; a control terminal interaction module; and a control terminal optical signal receiving module And a control end machine actuation module; wherein, when the mobile touch screen contacts the control device, the control terminal interaction module causes the control terminal touch conductor module to be in the form of a touch signal The capacitance of the touch screen of the mobile terminal is changed, and then the first interactive information is output to the touch screen of the mobile terminal, and then the mobile processing module of the mobile terminal is based on the first interactive information by the external network. The service of the function machine provides a mobile interaction process, and generates a second interaction information after the action interaction process is completed, and causes the action touch screen to be in the shape of a light signal. Lose The second interactive information is sent to the control end optical signal receiving module, and then the control end machine actuating module activates the functional machine to perform the adapted service according to the second interactive information.

Preferably, in the above system, the control terminal touch conductor module has a first control end touch conductor and a second control end touch conductor; when the mobile touch screen contacts the first and the first When the first and second control end touch conductors are separated by a first conductor distance, the control end interaction module causes the first and second control end touch conductors to be touched. The signal form changes the capacitance of the touch screen of the mobile terminal; if there is a position where the capacitance of the touch screen of the mobile terminal changes, the distance between the two is a first screen distance, and the first screen distance is The first conductor is substantially the same distance, and the touch screen of the mobile terminal is in contact with the touch conductors of the first and second control terminals; if the position of the touch screen of the mobile terminal changes is greater or smaller than the two, Representing the touch screen of the mobile terminal contacting the first and second control end touch conductor abnormalities; and if the first conductor distance is substantially different from the first screen distance, indicating that the mobile touch screen contacts the first Second control End of the touch conductor abnormality.

Preferably, in the above system, the control terminal touch conductor module further has a third control terminal touch conductor, and when the mobile touch screen contacts the control device, the control terminal interaction module is configured to At least one of the first, second, and third control end touch conductors changes the capacitance of the mobile touch screen in the form of a touch signal, and then outputs the first interactive information to the mobile touch screen.

Preferably, in the above system, when the touch screen of the mobile terminal contacts the touch conductors of the first, second and third control terminals, and the touch conductors of the first and second control terminals are separated by the first When the conductor distance, the first and third control end touch conductors are separated by a second conductor distance, and the second and third control end touch conductors are separated by a third conductor distance, the control terminal interaction module is ordered The touch conductors of the first, second, and third control terminals change the capacitance of the touch screen of the mobile terminal in the form of a touch signal; There are three locations where the capacitance of the touch screen of the mobile terminal changes, and the distance between the three is the first screen distance, a second screen distance, and a third screen distance, respectively, the first, second, and The three-screen distance is substantially the same as one of the first, second, and third conductor distances, respectively, indicating that the touch screen of the mobile terminal contacts the first, second, and third control terminals, and the touch conductor is normal; If the position of the change of the capacitance of the touch screen is greater or less than the three, the touch screen of the mobile terminal is in contact with the first, second and third control terminals, and the touch conductor is abnormal; and if the first and second The third screen is not substantially identical to the first, second, and third conductor distances, and the touch screen of the mobile terminal is in contact with the first, second, and third control terminals.

Preferably, in the above system, the first, second, and third control end touch guiding systems are made of conductive rubber or metal conductor or copper wire or silver wire or indium tin oxide or nano silver wire. (silver nanowire) or carbon nanotube or graphene.

Preferably, in the above system, the control terminal interaction module has a control terminal touch signal control unit and a control terminal proximity sensing unit; the mobile terminal touch screen has a mobile terminal touch signal feedback unit. When the control terminal approaches the sensing unit to sense that the mobile device contacts the control device, the control terminal touch signal control unit outputs a touch signal test information, so that the control terminal touches the conductor module. The touch-sensitive signal is used to change the capacitance of the touch screen of the mobile terminal, and the touch signal test information is output to the touch screen of the mobile terminal, and the touch signal feedback unit of the mobile terminal obtains the touch signal again. After the test information is output, a touch signal feedback information is output, thereby completing information exchange between the action touch screen and the control terminal interaction module.

Preferably, in the above system, the first interaction information includes a machine identity information, and the machine identity information is used to identify the function machine.

Preferably, in the above system, the second interaction information includes an interaction confirmation information and an interaction content information, where the interaction confirmation information is used to provide the control end machine actuation module to confirm the mobile cloud processing module. The action interaction performed is successful, and the interactive content information is used to provide the console machine actuation module to confirm that the function machine performs the adaptation service.

Preferably, in the above system, the mobile touch screen has at least one mobile light source unit and a mobile optical signal modulation unit; the control optical signal receiving module has at least one control light perception a measuring unit and a control end optical signal demodulation unit; wherein the mobile optical signal modulation unit is configured to perform optical signal modulation processing on the interaction confirmation information and the interactive content information, thereby generating a corresponding one of the mobile terminals a visible light interaction signal, and driving the mobile terminal light source unit to emit the visible light interaction signal of the mobile terminal, and then causing the control terminal light sensing unit to receive the mobile terminal visible light interaction signal emitted by the mobile terminal light source unit to enable the control The optical signal demodulation unit performs optical signal demodulation processing to obtain the interaction confirmation information and the interactive content information.

Preferably, in the above system, the mobile touch screen has a mobile optical signal control unit; the control optical signal receiving module has a control optical signal feedback unit; wherein the mobile optical signal The control unit outputs an optical signal control information to perform optical signal modulation processing by the mobile optical signal modulation unit, thereby generating a corresponding mobile end visible light control signal, and driving the mobile terminal light source unit to transmit the a mobile terminal visible light control signal, and then the control terminal light sensing unit receives the mobile terminal visible light signal emitted by the mobile terminal light source unit, so that the control terminal optical demodulation unit performs optical signal demodulation processing to obtain The optical signal control information is further configured to: the control end optical signal feedback unit outputs an optical signal feedback information according to the obtained optical signal control information, thereby completing information of the mobile touch screen and the control end optical signal receiving module. exchange.

Preferably, in the above system, the control end optical signal receiving module further has a control end color sensing unit, and the control end optical signal receiving module senses the action end touch through the control end color sensing unit. The color of the output light of the screen is controlled to receive the second interactive information.

Preferably, in the above system, the control end device has a control end positioning structure, and the control end positioning structure is disposed on at least one side of the control end device body, and the mobile terminal touch screen is positioned to enable the The mobile touch screen is aligned with the control end touch conductor module and the control end optical signal receiving module.

In addition, the present application also provides a mobile interaction method for providing a mobile interaction for a service of a function machine through an external network, which is characterized by being applied to the mobile interaction system as described in any of the foregoing embodiments. Providing the action interaction for the service of the function machine, and causing the function machine to perform a service adapted to the action interaction.

In summary, the present application provides a control device for a conventional offline function machine, and when the touch screen of the mobile terminal contacts the control device, the touch control conductor module of the control terminal outputs the first interaction in the form of a touch signal. The information is applied to the mobile touch screen for the mobile cloud processing module to generate the second interactive information by providing an action interaction process for the service of the function machine through the external network, and the mobile touch screen is optically signaled. Formally outputting the second interactive information to the control end optical signal receiving module, so that the control end machine actuating module activates the functional machine to perform an adaptive service, thereby providing an action interaction function for the offline functional machine. In order to improve the user experience, and through the use of two different communication methods, the problem of communication failure between the mobile device and the console device due to signal interference can be effectively avoided. In addition, the application can reduce the management cost of the functional machine, and has the advantages of low reconstruction cost and easy operation.

100‧‧‧Action Interactive System

110‧‧‧Mobile devices

111‧‧‧Action Cloud Processing Module

112‧‧‧Mobile touch screen

1121‧‧‧Mobile touch signal feedback unit

1122‧‧‧Mobile light source unit

1123‧‧‧Mobile optical signal modulation unit

1124‧‧‧Operating optical signal control unit

120‧‧‧Control device

121‧‧‧Controlled touch conductor module

1211‧‧‧First control touch conductor

1212‧‧‧Second control touch conductor

1213‧‧‧ Third control terminal touch conductor

CD12‧‧‧first conductor distance

CD13‧‧‧Second conductor distance

CD23‧‧‧ third conductor distance

MD12‧‧‧ first screen distance

MD13‧‧‧Second screen distance

MD23‧‧‧ third screen distance

122‧‧‧Control Interface Interactive Module

1221‧‧‧Controlled touch signal control unit

1222‧‧‧Control terminal proximity sensing unit

123‧‧‧Control terminal optical signal receiving module

1231‧‧‧Controlled light sensing unit

1232‧‧‧Controlled optical signal demodulation unit

1233‧‧‧Control terminal optical signal feedback unit

1234‧‧‧Control color sensing unit

124‧‧‧Control end machine actuation module

125‧‧‧Control end positioning structure

2‧‧‧ functional machine

3‧‧‧External network

1 is a schematic diagram showing the basic structure of the action interaction system of the present application; FIG. 2A and FIG. 2B are diagrams showing an embodiment of the action interaction system shown in FIG. 1; FIG. 2C is a schematic diagram illustrating an embodiment of the console device of the present application. 2D is a schematic diagram illustrating an embodiment of the mobile device of the present application; FIG. 2E is a schematic diagram illustrating an embodiment of the mobile device contacting the control device of the present application; FIG. 3 and FIG. 4 are diagrams illustrating the mobile interactive system illustrated in FIG. FIG. 5 is a schematic diagram showing the communication connection between the mobile touch screen and the control device of the present application.

The other aspects of the present application will be readily understood by those skilled in the art from the disclosure of the present disclosure. The application can also be implemented or applied by other different embodiments. The details of the present specification can be variously modified and changed without departing from the spirit and scope of the application. In particular, the proportional relationship and relative positions of the various elements in the drawings are for illustrative purposes only and are not representative of actual implementation of the application.

FIG. 1 is a schematic diagram of the basic architecture of the mobile interaction system of the present application. The mobile interaction system 100 of the present application is used to provide action interaction support for the services of the function machine 2 through the external network 3. In this embodiment, the function machine 2 is, for example, a self-service washing machine, a children's game machine, a shooting machine, a doll machine, and a blog. Downtime, electronic game consoles, arcades, lockers, self-storage services, vending machines, self-service coffee machines, etc., are not limited to this, the mobile interactive system 100 of this case can also be extended to the parking lot self-service charging machine Automatic gates for customs clearance, automatic gate ticket inspection machines for customs clearance, access control management systems, automatic ticket gates for cinemas, automatic gates for MRT or subway or railway check-in customs clearance. The external network 3 can be, for example, a mobile communication network, a wireless communication network (WIFI), or the like.

As shown in FIG. 1, the mobile interaction system 100 mainly includes a mobile device 110 and a console device 120. The mobile device 110 is, for example, a portable electronic device such as a smart phone, a smart watch, a smart wristband, a smart eyeglass, a tablet computer, or a PDA, and mainly includes a mobile cloud processing module 111 and a mobile terminal touch. Screen 112. The control device 120 can be, for example, an external electronic control device mounted on the offline self-service kiosk 30, which mainly includes a control terminal touch conductor module 121, a control terminal interaction module 122, and a control terminal optical signal receiving device. The module 123 and the control end machine actuate the module 124. In this embodiment, the mobile touch screen 112 is, for example, a touch display screen of a smart phone. In addition, the control end touch conductor module 121 can be composed of, for example, a substrate, a plurality of conductors, a plurality of capacitors, and a control unit, wherein the plurality of conductors are disposed on the substrate, and one end of each capacitor is coupled to each conductor, and the other end Grounding, the control unit is coupled to each capacitor, and the capacitance value of at least one of the control capacitors is changed according to a control timing, thereby generating a multi-touch input operation in a predetermined distribution mode, and the control terminal is touched The control conductor module 121 outputs the control signal in the form of a touch signal.

In actual operation, the user can hold the mobile device 110 to make the mobile touch screen 112 contact with the control terminal touch conductor module 121 of the control device 120, and the control interaction module 122 is used to make the control terminal touch. The control conductor module 121 changes the capacitance of the mobile touch screen 112 in the form of a touch signal, thereby outputting the first interactive information to the mobile touch screen 112. In the present application, the first interactive information output may include a machine identity information, which can be used to identify the identity of the function machine 2, such as a Machine identification code. Then, the mobile cloud processing module 111 provides an action interaction process for the service of the function machine 2 by using the external network 3 and according to the received first interaction information, and generates a second after the action interaction process is completed. The interactive information and the mobile touch screen 112 output the second interactive information to the control end optical signal receiving module 123 in the form of an optical signal, and the control end device actuation module 124 is configured according to the control end optical signal receiving module 123. The received second interaction information activates the function machine 2 to perform an adapted service. In the present application, the second interaction information may include an interaction confirmation information and an interaction content information, wherein the interaction confirmation information is used to provide the console device activation module 124 to confirm that the mobile cloud processing module 111 has successfully executed. The action interaction process is used to provide the console machine actuation module 124 to confirm that the function machine 2 performs the adaptation service item, for example, providing the console machine actuation module 124 to confirm the mobile cloud processing. The function machine 2 service item purchased by the module 111 (including the service type and/or service time of the function machine) is controlled by the function machine 2 to start the operation corresponding to the service.

Referring to FIG. 2A , in one embodiment, the control end touch conductor module 121 can be formed by two control end touch conductors, that is, a first control end touch conductor 1211 and a second control end touch conductor. 1212, when the mobile touch screen 112 contacts the first and second control end touch conductors 1211, 1212, and the first and second control end touch conductors 1211, 1212 are separated by a first conductor distance, the control end The interaction module 122 controls the first and second control end touch conductors 1211 and 1212 to change the capacitance of the mobile touch screen 112 in the form of a touch signal to output an associated communication signal.

Preferably, the control end interaction module 122 further includes determining whether the mobile terminal touch screen 112 is in proper contact with the first and second control end touch conductors 1211, 1212 to ensure that the control terminal device 120 can correctly receive the mobile device 110. The signal that is output. Specifically, if there is a difference between the position where the capacitance of the touch screen 112 of the mobile terminal changes, the distance between the two is a first screen distance, and the distance between the first screen and the first conductor is substantially the same, then Representing the mobile touch screen 112 and the first and second controls The contact between the end touch conductors 1211, 1212 is normal. If the position (coordinate) of the change in the capacitance of the touch screen 112 of the mobile terminal is greater than two or less than two, it represents between the touch screen 112 of the mobile terminal and the touch conductors 1211 and 1212 of the first and second control terminals. The contact is abnormal, that is, the mobile touch screen 112 may only contact one of the first and second control touch conductors 1211, 1212, or the mobile touch screen 112 may have a false contact state (for example, The finger touches the action touch screen 112). In addition, if the distance between the first conductor and the first screen is substantially different, the contact between the touch screen 112 and the first and second control touch conductors 1211 and 1212 is abnormal.

Referring to FIG. 2B, FIG. 2C and FIG. 5, in another embodiment, the control end touch conductor module 121 is composed of three control end touch conductors, that is, includes a first control end touch conductor. 1211, a second control terminal touch conductor 1212, and a third control terminal touch conductor 1213, please refer to FIG. 2D and FIG. 2E. When the mobile touch screen 112 contacts the control device 120, the control terminal interacts with the mode. The group 122 is configured to cause at least one of the first, second, and third control end touch conductors 1211, 1212, and 1213 to change the capacitance of the mobile touch screen 112 in the form of a touch signal, thereby outputting the first interaction. The information is applied to the mobile touch screen 112. As shown in FIG. 2C, FIG. 2D and FIG. 2E, when the mobile touch screen 112 contacts the control touch conductor module 121, the first control end touch conductor 1211 can act. The capacitance of the P1 position of the touch screen 112 changes, the second control end touch conductor 1212 can change the capacitance of the P2 position of the touch screen 112 of the mobile terminal, and the touch control conductor 1213 of the third control end can make the action end. The capacitance of the P3 position of the touch screen 112 changes.

As shown in FIG. 2C, specifically, when the mobile touch screen 112 contacts the first, second, and third control end touch conductors 1211, 1212, and 1213, and the first and second control terminals touch the conductor 1211, 1212 is separated by a first conductor distance CD12, first and third control end touch conductors 1211, 1213 are separated by a second conductor distance CD13, and second and third control end touch conductors 1212, 1213 are separated When there is a third conductor distance CD23, it means that the contact between the action touch screen 112 and the first, second and third control end touch conductors 1211, 1212, 1213 is correct, then the control end interaction module 122 makes the first The second and third control end touch conductors 1211, 1212, and 1213 change the capacitance of the P1, P2, and P3 positions of the mobile touch screen 112 in the form of a touch signal.

In addition, in the embodiment, the control terminal interaction module 122 also has a mechanism for determining whether the mobile terminal touch screen 112 is in proper contact with the first, second, and third control terminal touch conductors 1211, 1212, and 1213, wherein If there is a change in the position of the capacitance of the touch screen 112 of the mobile terminal, the distance between the three is a first screen distance MD12, a second screen distance MD13, and a third screen distance MD23, when the first, the first The distance between the second and third screens is substantially the same as the distance between the first, second and third conductors respectively, that is, the distance of MD12 in FIG. 2D is equal to the distance of CD12 in FIG. 2C, and the distance of MD13 in FIG. 2D is the same as CD13 in FIG. 2C. The distances of MD23 in FIG. 2D are equal to the distance of CD23 in FIG. 2C, which means that the touch screen 112 of the mobile terminal contacts the touch conductors 1211, 1212, and 1213 of the first, second, and third control terminals. At this time, the angular relationship between the first, second, and third control end touch conductors 1211, 1212, and 1213 is the same as the angular relationship between the three changes of the capacitance of the mobile touch screen 112. There is no exception. If the position of the change of the capacitance of the touch screen 112 of the mobile terminal is greater or less than the three, the touch screen 112 of the mobile terminal contacts the touch conductors 1211, 1212, and 1213 of the first, second, and third control terminals, that is, The mobile touch screen 112 may only contact one or both of the first, second, and third control touch conductors 1211, 1212, and 1213, or the mobile touch screen 112 may have a false contact state. . If the first, second and third screen distances MD12, MD13, MD23 are not substantially identical in the first, second and third conductor distances CD12, CD13, CD23, ie the first, second and third When the screen distance MD12, MD13, MD23 is different from the first, second and third conductor distances CD12, CD13, CD23, it also represents that the mobile touch screen 112 is in contact with the first, The second and third control end touch conductors 1211, 1212, and 1213 are abnormal. In other words, at this time, the angular relationship between the first, second, and third control end touch conductors 1211, 1212, and 1213 is followed by The angular relationship between the three changes in the capacitance of the touch screen 112 of the mobile terminal is different and there is an abnormality.

In this embodiment, the first, second, and third control end touch conductors 1211, 1212, and 1213 may be, for example, made of conductive rubber or metal conductor or copper wire or silver wire or indium tin oxide or nano. Silver nanowire or carbon nanotube or graphene.

In addition, in the present application, the number of the control end touch conductors in the control terminal touch conductor module 121 is preferably three in the preferred embodiment. However, the actual number is not limited to the above two. Or three or more, and can be increased to four or more depending on actual needs.

In order to generate touch (touch) at different frequencies, we built

Referring to FIG. 3 , and referring to FIG. 2C and FIG. 5 , in the embodiment of the present application, the console device 120 can start the control device 120 when the touch screen 112 is touched by the touch screen 112. Start operation-related operations to achieve energy savings. Specifically, the control end interaction module 122 has a control end touch signal control unit 1221 and a control end proximity sensing unit 1222, and the mobile end touch screen 112 further has a mobile end touch signal feedback unit 1121. When the control terminal proximity sensing unit 1222 senses that the mobile device 110 contacts the control device 120, an active modulation circuit or a modulation circuit that simulates a high-frequency touch contact is used. (Modulation circuit that simulates high frequency touches), by controlling the opening and closing of a switching element (for example, a relay) to simulate the signal of the touch screen, so that the control end touch signal control unit 1221 outputs a touch signal test information for control The touch-control conductor module 121 changes the capacitance of the touch screen 112 of the mobile terminal in the form of a touch signal, and outputs the touch signal test information to the action end touch. The control screen 112 is configured to output a touch signal feedback information after receiving the touch signal test information, thereby completing test information between the mobile touch screen 112 and the control end interaction module 122. The exchange is performed to ensure that the action touch screen 112 can normally receive the control information output by the control device 120 in the form of a touch signal.

Referring to FIG. 4, FIG. 2C and FIG. 5, in another embodiment, the mobile device 110 outputs the control signal to the control device 120 in the form of an optical signal. Specifically, the mobile touch screen 112 further The control terminal optical signal receiving unit 123 further has at least one control terminal optical sensing unit 1231 and a control terminal optical signal demodulation variable. Unit 1232. The action end optical signal modulation unit 1123 is configured to perform optical signal modulation processing on the interaction confirmation information and the interactive content information, thereby generating a corresponding mobile end visible light interaction signal, and driving the mobile end light source unit 1122 to emit the mobile end visible light. The interactive signal is received, and then the control end light sensing unit 1231 receives the mobile end visible light interaction signal emitted by the mobile terminal light source unit 1122, so that the control end optical signal demodulation unit 1232 performs optical signal demodulation processing to obtain an interactive confirmation. Information and the interactive content information.

Preferably, the mobile touch screen 112 further has a mobile optical signal control unit 1124. Correspondingly, the control optical signal receiving module 123 has a control optical signal feedback unit 1133. The mobile optical signal control unit 1124 is configured to output an optical signal control information to perform optical signal modulation processing by the mobile optical signal modulation unit 1123, thereby generating a corresponding mobile terminal visible light control signal, and driving accordingly. The mobile terminal light source unit 1122 transmits the mobile terminal visible light control signal, and then the control terminal light sensing unit 1231 receives the mobile terminal visible light signal emitted by the mobile terminal light source unit 1122, so that the control terminal optical demodulation unit performs optical signal demodulation. The processing is changed to obtain the optical signal control information, and then the control end optical signal feedback unit 1133 outputs a light according to the obtained optical signal control information. The signal feedback information is used to complete the information exchange between the mobile terminal touch screen 112 and the control terminal optical signal receiving module 123 to ensure that the control terminal device 120 can normally receive the control information output by the mobile terminal touch screen 112 in the form of an optical signal.

Referring to FIG. 5, in another embodiment of the present application, the control end optical signal receiving module 123 further has a control end color sensing unit 1234, and the control end optical signal receiving module 123 can pass through the control end color sensing unit. 1234 receives the second interactive information by sensing the color of the output light of the mobile touch screen 112.

In another embodiment, referring to FIG. 2C, the control device 120 further has a control terminal positioning structure 125, and can be disposed on at least one side of the control device 120 body to ensure that the mobile terminal touch screen 112 is correct. The control device 120 is positioned so that the touch screen 112 of the mobile terminal can be aligned with the touch control module 121 of the control terminal and the optical signal receiving module 123 of the control terminal, thereby achieving information exchange between the two.

In addition, the present application further provides a mobile interaction method, which can apply any one of the mobile interaction systems 100 shown in FIG. 1, FIG. 2A to FIG. 2E, FIG. 3, FIG. 4 or FIG. The service of the station provides an action of action interaction, and the function machine performs a service adapted to the action interaction.

In summary, the mobile interaction system and method of the present application provides a control device for the function machine, so that the user can receive the interaction of the output of the control device by contacting the touch screen of the mobile device with the control device. Information, and the mobile device performs an action interaction process on the received interactive information through the external network, and transmits the successfully processed information to the control device, so that the control device can activate the function machine to perform the adaptation. Service. Therefore, the present application does not need to modify the original function machine, but only needs to install the control terminal device on the traditional offline function machine, which can be offline work. The machine can provide mobile interactive service functions to enhance the user experience, and has the advantages of low cost of reconstruction and wide application range.

Furthermore, the control device of the present application outputs the control message to the mobile device in the form of a touch signal, and the mobile device outputs the control message to the control device in the form of an optical signal, that is, the control device and the action. The two devices use two different communication methods to communicate with each other. This mechanism can effectively avoid the communication failure between the mobile device and the console device due to signal interference.

In addition, the control device of the present application further has a mechanism for automatically determining whether the mobile device correctly contacts the control device, so as to improve the execution success rate of the action interaction function of the function machine, and further improve the service quality of the function machine.

The above embodiments are merely illustrative of the principles and effects of the application, and are not intended to limit the application. Any person skilled in the art can modify and change the above embodiments without departing from the spirit and scope of the application. Therefore, the scope of protection of the present application should be as set forth in the scope of the patent application of the present application.

Claims (13)

An action interaction system provides an action interaction for a service of a function machine through an external network, the action interaction system comprising: a mobile device having: a mobile cloud processing module; and a mobile touch screen And a control terminal device having: a control end touch conductor module; a control end interaction module; a control end optical signal receiving module; and a control end machine actuation module; wherein, when the action When the touch screen is in contact with the control device, the control terminal interaction module causes the touch control conductor module to change the capacitance of the touch screen of the mobile terminal in the form of a touch signal, thereby outputting a first interaction. Information is sent to the mobile touch screen, and then the mobile cloud processing module provides an action interaction process for the service of the function machine by the external network according to the first interaction information, and interacts with the action After the completion, a second interactive information is generated, and the touch screen of the mobile terminal outputs the second interactive information to the control terminal optical signal receiving module in the form of an optical signal, and then the control terminal Taiwan actuation module according to the second interactive information system to actuate the function machine implementation of adaptation services. The action interaction system of claim 1, wherein the control end touch conductor module has a first control end touch conductor and a second control end touch conductor; When the touch screen of the mobile terminal contacts the first and second control end touch conductors, and the first and second control end touch conductors are separated by a first conductor distance, the control end interaction module is configured to The first and second control end touch conductors change the capacitance of the touch screen of the mobile terminal in the form of a touch signal; if there is a change in the position of the touch screen of the mobile touch screen, the distance between the two For a first screen distance, the first screen distance is substantially the same as the distance of the first conductor, which means that the touch screen of the mobile terminal contacts the first and second control ends, and the touch conductor is normal; if the action touch screen is touched If the position of the capacitance change is greater or smaller than the two, the touch screen of the mobile terminal is in contact with the touch conductor of the first and second control ends; and if the distance between the first conductor and the first screen is substantially different , the touch screen of the mobile terminal is in contact with the touch conductor of the first and second control terminals. The action interaction system of claim 2, wherein the control end touch conductor module further has a third control end touch conductor, and when the mobile touch screen contacts the control end device, the control The end interactive module causes at least one of the first, second, and third control end touch conductors to change the capacitance of the mobile touch screen in the form of a touch signal, thereby outputting the first interactive information to the Mobile touch screen. The action interaction system of claim 3, wherein the touch screen of the mobile terminal contacts the touch conductors of the first, second, and third control terminals, and the first and second control terminals are touched. When the conductor is separated by the first conductor distance, the first and third control end touch conductors are separated by a second conductor distance, and the second and third control end touch conductors are separated by a third conductor distance, The control terminal interaction module causes the first, second and third control end touch conductors to change the capacitance of the mobile touch screen in the form of a touch signal; If there is a change in the position of the capacitance of the touch screen of the mobile terminal, the distance between the three is the first screen distance, a second screen distance and a third screen distance, respectively, the first and second The third screen distance is substantially the same as the distance between the first, second and third conductors respectively, and the touch screen of the mobile terminal is in contact with the first, second and third control terminals, and the touch conductor is normal; If the position of the capacitance change of the touch screen of the mobile terminal is greater or less than the three, the touch screen of the mobile terminal contacts the first, second and third control terminals, and the touch conductor is abnormal; and if the first and second And the third screen distance is not substantially the same as the first, second, and third conductor distances, and the touch screen of the mobile terminal is in contact with the touch conductors of the first, second, and third control terminals. The action interaction system of claim 3, wherein the first, second, and third control end touch guiding systems are made of conductive rubber or metal conductor or copper wire or silver wire or indium tin (indium tin) Oxide) or silver nanowire or carbon nanotube or graphene. The action interaction system of claim 1, wherein the control end interactive module has a control end touch signal control unit and a control end proximity sensing unit; the mobile touch screen has a a touch-control signal feedback unit; wherein, when the control terminal approaches the sensing unit to sense that the mobile device contacts the control device, the control touch signal control unit outputs a touch signal test information to enable The touch-control conductor module of the control terminal changes the capacitance of the touch screen of the mobile terminal in the form of a touch signal, and then outputs the touch signal test information to the touch screen of the mobile terminal, so that the touch signal of the mobile terminal is feedback. The unit then gets the touch message After the test information is output, a touch signal feedback information is output, thereby completing information exchange between the touch screen of the mobile terminal and the interaction module of the control terminal. The action interaction system of claim 1, wherein the first interaction information comprises a machine identity information, and the machine identity information is used to identify the function machine. The action interaction system of claim 1, wherein the second interaction information comprises an interaction confirmation information and an interaction content information, wherein the interaction confirmation information is used to provide the control terminal machine actuation module confirmation. The action interaction processing performed by the mobile terminal cloud processing module is successful, and the interactive content information is used to provide the control station machine actuation module to confirm that the function machine performs an adaptation service item. The action interaction system of claim 8, wherein the mobile touch screen has at least one mobile light source unit and a mobile optical signal modulation unit; and the control optical signal receiving module Having at least one control end light sensing unit and a control end optical signal demodulation unit; wherein the mobile optical signal modulation unit is configured to perform optical signal modulation processing on the interaction confirmation information and the interactive content information, Thereby generating a visible light interaction signal corresponding to one of the mobile terminals, and driving the mobile terminal light source unit to emit the visible light interaction signal of the mobile terminal, and then causing the control terminal light sensing unit to receive the visible light of the mobile terminal emitted by the mobile terminal light source unit And interacting with the signal, so that the control end optical signal demodulation unit performs optical signal demodulation processing to obtain the interaction confirmation information and the interactive content information. The action interaction system of claim 9, wherein the mobile touch screen has a mobile optical signal control unit; the control optical signal receiving module has a control optical signal feedback unit; among them, The mobile optical signal control unit outputs an optical signal control information to perform optical signal modulation processing by the mobile optical signal modulation unit, thereby generating a corresponding mobile end visible light control signal, and driving the action accordingly. The end light source unit emits the visible light control signal of the mobile terminal, and then the control end light sensing unit receives the visible light signal of the mobile terminal emitted by the mobile terminal light source unit, so that the control end optical demodulation unit performs optical signal demodulation The processing is performed to obtain the optical signal control information, and the control terminal optical signal feedback unit outputs an optical signal feedback information according to the obtained optical signal control information, thereby completing the mobile touch screen and the control terminal optical signal. Receive information exchange of modules. The action interaction system of claim 1, wherein the control end optical signal receiving module has a control end color sensing unit, and the control end optical signal receiving module transmits color through the control end. The unit senses the color of the output light of the mobile touch screen and receives the second interactive information. The action interaction system of claim 1, wherein the control device has a control end positioning structure, and the control end positioning structure is disposed on at least one side of the control device body, and the action is located. The touch screen is configured to align the touch screen of the mobile end with the touch control conductor module of the control end and the optical signal receiving module of the control end. An action interaction method for providing an action interaction for a service of a function machine through an external network, which is characterized by being applied to an action interaction system as described in any one of claims 1 to 9 of the patent application. And providing the action interaction for the service of the function machine, and causing the function machine to perform a service adapted to the action interaction.