TWI564848B - Wireless sensor transmission device, system and method - Google Patents

Description

Wireless sensing transmission device, system and method

The present invention relates to a sensing transmission device, system and method, and more particularly to a wireless sensing transmission device, system and method.

Traditionally, new electronic systems need to be processed through circuit design, PCB layout, PCB fabrication, IC soldering, etc. This process is not only time-consuming, energy-intensive, but also prone to errors during the production process, often requiring multiple revisions and tests to make carry out.

In addition, each IC is soldered to the PCB. If an IC operation fails, it must be desoldered for repair and replacement, which is quite complicated.

Moreover, each of the electronic systems being manufactured has its functions fixed. If additional functions are required, it is necessary to make new electronic systems, which is not economical.

Therefore, from the diversity needs of the Internet of Things, it will take time and effort to produce electronic systems in the traditional way.

In view of the above, there is a need to provide a wireless sensing transmission device, system and method to solve the aforementioned problems.

The main object of the present invention is to provide a wireless sensing transmission device which has waterproof effect and can be applied to an outdoor environment, and each module has a wireless feeling without any electrical lines or connectors connected in series with each other. The transmission system is easy to repair, disassemble, replace and adjust, especially for different sensing modules.

In order to achieve the above object, the present invention provides wireless sensing transmission The device comprises: a slot seat, a control module, at least one sensing module and an output module.

The socket includes a plurality of slots.

The control module is inserted into one of the slots, and the control module comprises: a system control unit and a control terminal wireless communication unit. The system control unit is configured to generate a consistent energy signal, and determine whether to output a warning signal according to a sensing signal, the control terminal wireless communication unit is electrically connected to the system control unit, for receiving the sensing signal, and transmitting the warning Signal.

Each of the sensing modules is respectively inserted into each of the slots, and each of the sensing modules includes: a sensing unit and a sensing end wireless communication unit. The sensing unit is configured to generate a sensing information according to the enabling signal, and the sensing wireless communication unit is electrically connected to the sensing unit for transmitting the sensing signal corresponding to the sensing information to the control module. .

The output module is inserted into one of the slots, and the output module comprises: an output unit and an output wireless communication unit. The output unit is configured to output a warning message according to the warning signal, and the output wireless communication unit is electrically connected to the output unit for receiving the warning signal.

Further, each of the sensing module, the control module, and the output module further includes a housing, each of the housings includes a first housing and a second housing, so that each of the sensing modules, The control module and the output module are respectively sleeved by the first housing and the second housing and are in a sealed state.

Further, the control module, each of the sensing modules and the output module further comprise a wireless charging unit for respectively providing power for the control module, each of the sensing modules and the output module And the wireless charging unit has a battery for storing electromagnetic induction energy absorbed by the wireless charging unit.

Another object of the present invention is to provide a wireless sensing transmission system capable of sensing a physical quantity (such as position, pulse or obstacle information, etc.) and transmitting and receiving signals through a wireless communication technology to timely correspond Reason.

To achieve the above objective, the wireless sensing transmission system provided by the present invention comprises: a control module, at least one sensing module, and an output module.

The control module comprises: a system control unit and a control terminal wireless communication unit. The system control unit is configured to generate a consistent energy signal, and determine whether to output a warning signal according to a sensing signal, the control terminal wireless communication unit is electrically connected to the system control unit, for receiving the sensing signal, and transmitting the warning Signal.

Each of the sensing modules includes: a sensing unit and a sensing end wireless communication unit. The sensing unit is configured to generate a sensing information according to the enabling signal, and the sensing wireless communication unit is electrically connected to the sensing unit for transmitting the sensing signal corresponding to the sensing information to the control module. .

The output module comprises: an output unit and an output wireless communication unit. The output unit is configured to output a warning message according to the warning signal, and the output wireless communication unit is electrically connected to the output unit for receiving the warning signal.

A further object of the present invention is to provide a wireless sensing transmission method, which can send a warning message to a sense of a physical quantity (such as position, pulse or obstacle information, etc.) for timely processing, or self-test In the operational state, a fault message is sent to the outside world in the event of a fault condition, so that it can be maintained in a timely manner, and even self-determined the amount of stored electricity, and a message of insufficient power storage is sent to the outside world to timely charge using the wireless charging technology.

To achieve the above objective, the wireless sensing transmission method of the present invention includes: providing a control module for generating a consistent energy signal, determining whether a warning value is exceeded according to a sensing signal, and outputting a warning signal; The at least one sensing module is configured to generate a sensing information according to the enabling signal, and transmit the sensing signal corresponding to the sensing information to the control module; and provide an output mode The group is configured to receive the warning signal and output a warning message corresponding to the warning signal.

Further, the wireless sensing transmission method further includes: each of the sensing module and the output module respectively generating a feedback signal according to the enabling signal; and the control module determines each of the sensing modes according to each of the feedback signals The operation status of the group and the output module. When the operating state of each sensing module is a fault state, the control module generates a fault signal corresponding to the fault state to the output module, so that the output module outputs a fault message corresponding to the fault signal. .

Further, the wireless sensing transmission method further includes: generating a power storage information through the sensing module, and determining whether the power storage amount is sufficient according to the power storage information to generate a power storage shortage signal. When the control module receives the power storage shortage signal, the control module controls the output unit to output a power storage shortage message, so as to timely charge the sensing modules until the charging is completed.

The present invention is characterized in that the control module, the sensing module and the output module are assembled into a wireless sensing transmission device through the socket and the control module, the sensing module and the The output module forms a wireless sensing transmission system without any electrical lines or connectors connected to each other for sensing, wireless communication and wireless charging, so as to facilitate repair, disassembly, replacement and adjustment, and visual sense. Replace the different sensing modules with the test requirements.

In addition, the wireless sensing transmission device can be applied to any object according to the sensing requirement, and the control module, the sensing module and the output module can be respectively sealed through the casing, and have waterproof effect, and is suitable for Outdoor environment.

The above and other objects, features, and advantages of the present invention will become more apparent from the accompanying drawings.

11‧‧‧Control module

111‧‧‧System Control Unit

112‧‧‧Control terminal wireless communication unit

112a‧‧‧Antenna

113‧‧‧Wireless charging unit

113a‧‧‧Battery

114‧‧‧Shell

114a‧‧‧First housing

114b‧‧‧second housing

12‧‧‧Sensor module

121‧‧‧Sensor unit

122‧‧‧Processing unit

123‧‧‧Sensor wireless communication unit

123a‧‧‧Antenna

124‧‧‧Wireless charging unit

124a‧‧‧Battery

125‧‧‧shell

125a‧‧‧First housing

125b‧‧‧second housing

13‧‧‧Output module

131‧‧‧Output unit

132‧‧‧Processing unit

133‧‧‧Output wireless communication unit

133a‧‧‧Antenna

134‧‧‧Wireless charging unit

134a‧‧‧Battery

135‧‧‧shell

135a‧‧‧First housing

135b‧‧‧ second housing

21‧‧‧ slot seat

211a‧‧ slots

211b‧‧‧ slots

211c‧‧‧ slots

212‧‧‧ top

213‧‧‧ side

S101~S103‧‧‧Steps

1 is a schematic diagram of a wireless sensing transmission system according to an embodiment of the present invention; FIG. 2 is a schematic diagram of a wireless sensing transmission apparatus according to an embodiment of the present invention; FIG. 2b is a schematic diagram of a wireless sensing transmission apparatus according to an embodiment of the present invention; (2); and FIG. 3 is a schematic flowchart of a system of a wireless sensing transmission method according to an embodiment of the present invention.

FIG. 1 is a schematic diagram of a wireless sensing transmission system according to an embodiment of the present invention.

Referring to FIG. 1 , the wireless sensing transmission system of the present invention includes a control module 11 , at least one sensing module 12 , and an output module 13 . This embodiment takes a sensing module 12 as an example.

The control module 11 includes a system control unit 111 and a control terminal wireless communication unit 112. The control terminal wireless communication unit 112 is electrically connected to the system control unit 111, and the control terminal wireless communication unit 112 includes an antenna 112a.

The sensing module 12 includes a sensing unit 121, a processing unit 122, and a sensing terminal wireless communication unit 123. The sensing terminal wireless communication unit 123 is electrically connected to the sensing unit 121 and the processing unit 122, and The sensing terminal wireless communication unit 123 includes an antenna 123a.

The output module 13 includes an output unit 131, a processing unit 132, and an output wireless communication unit 133. The output wireless communication unit 133 is electrically connected to the output unit 131 and the processing unit 132, and the output wireless communication is performed. Unit 133 includes an antenna 133a.

In this embodiment, the system control unit 111 of the control module 11, the processing unit 122 of the sensing module 12, and the processing unit 132 of the output module 13 are configured to store an identification number. The identification numbers are transmitted through the control terminal wireless communication unit 112 of the control module 11 as a switching end (ie, the server end), and the identification numbers are transmitted through the control module 11, the sensing module 12, and the output. The wireless communication units of the module 13 are exchanged to identify each other and establish a connection. In detail, the control terminal wireless communication unit 112 of the control module 11 and the sensing terminal wireless communication unit 123 of the sensing module 12 exchange identification sequences with each other. And identifying and establishing a connection, and the control terminal wireless communication unit 112 of the control module 11 and the output wireless communication unit 133 of the output module 13 also exchange identification numbers with each other and identify and establish a connection. The sensing module 12 can communicate with the output module 13 through the control module 11 .

Referring to FIG. 1 , the control module 11 , the sensing module 12 and the output module 13 of the embodiment further comprise a wireless charging unit 113 , 124 , 134 for respectively providing the control module . 11. The power consumption of each of the sensing module 12 and the output module 13. The wireless charging units 113, 124, and 134 respectively have a battery 113a, 124a, 134a for storing electromagnetic induction energy absorbed by the wireless charging unit 113, 124, 134.

2a is a schematic diagram (1) of a wireless sensing transmission device according to an embodiment of the present invention, and FIG. 2b is a schematic diagram (2) of a wireless sensing transmission device according to an embodiment of the present invention. Please refer to FIG. 2a and FIG. 2b simultaneously, and referring to FIG. 1 , the wireless sensing transmission system of the present invention can be applied to a wireless sensing transmission device, and the wireless sensing transmission device can be coupled with a cane (not shown). Use, but not limited to this.

The components mentioned below which are similar to the above have similar component symbols, and are hereby described.

The wireless sensing transmission device of the embodiment includes a slot seat 21, at least one sensing module, the control module 11, and the output module 13. The sensing module 12 is exemplified by one.

The socket 21 includes a plurality of slots. The three slots 211a, 211b, and 211c are illustrated in FIG. 2a and FIG. 2b, but are not limited thereto. The slot seat 21 can be a single body structure (as shown in FIG. 2a, which is a square body shape) or a hollow ring structure (as shown in FIG. 2b, which can be an elastic plastic material, and is conveniently fixed to a column such as a cane. In the shape of the body, the deployment cost is reduced. Therefore, each of the slots 211a, 211b, and 211c can be disposed on a top portion 212 (shown in FIG. 2a) or a side portion 213 of the socket seat 21 according to requirements. Figure 2b).

The control module 11 , the sensing module 12 and the output module 13 They can be respectively disposed in the slots 211a, 211b, and 211c, and can quickly form a wireless sensing transmission system without any electrical lines or connectors in series with each other, and only use the wireless communication unit and the wireless charging unit for wireless communication and wireless. Charging for repair, disassembly, replacement and adjustment. The detailed description is as follows.

In this embodiment, the control module 11, the sensing module 12, and the output module 13 further include a housing 114, 125, 135, and the housing 114 includes a first housing 114a and a first The second housing 114b includes a first housing 125a and a second housing 125b. The housing 135 includes a first housing 135a and a second housing 135b. Thereby, the control module 11, the sensing module 12 and the output module 13 are respectively sleeved by the first housing and the second housing (the upper and lower sleeves in FIGS. 2a and 2b are taken as an example, But not limited to this), so that it is sealed, with waterproof effect.

FIG. 3 is a schematic flowchart of a system for wireless sensing transmission according to an embodiment of the present invention. Please refer to Figure 3 and refer to Figure 1. The wireless sensing transmission method of the present embodiment is based on the operation mode when the control module, the sensing module, and the output module in the wireless sensing transmission device are connected to each other, and is implemented in a cane. Especially the canes used by the elderly, patients or people with reduced mobility.

The wireless sensing transmission method of this embodiment includes the following steps:

Step S101: A control module is provided for generating a consistent energy signal, and determining whether a warning value is exceeded according to a sensing signal, and outputting a warning signal.

Step S102: Providing at least one sensing module, wherein each sensing module is configured to generate a sensing information according to the enabling signal, and transmit the sensing signal corresponding to the sensing information to the control module.

Step S103: providing an output module for receiving the warning signal and outputting a warning message corresponding to the warning signal.

In detail, the system control unit 111 of the control module 11 generates a consistent energy signal, and utilizes the control terminal wireless communication unit 112 and its day. The line 112a transmits the enable signal to the sensing end wireless communication unit 123 of the sensing module 12. After the sensing module 12 receives the enable signal, the processing unit 122 controls the sensing unit 121 to sense a physical quantity and obtain a sensing information according to the enabling signal.

For example, the sensing unit 121 may be one selected from the group consisting of a GPS sensor, an obstacle detector, and a pulse detector, but is not limited thereto. Therefore, when the sensing unit 121 is a GPS sensor, position information of the cane (ie, sensing information) can be obtained, and the position of the person holding the cane can be further known, or when the sensing unit 121 is an obstacle detector, Sensing information about whether there is an obstacle within a certain range of the cane (ie, sensing information), or when the sensing unit 121 is a pulse detector, the pulse detector may be disposed at a hand-held portion of the cane. It can directly detect the pulse of the person holding the cane (ie sensing information). The following sensing information and sensing signals are exemplified by pulse information.

Therefore, after the sensing unit 121 senses the sensing information, the processing unit 132 converts the sensing information into a sensing signal of the digital signal, and transmits the wireless communication unit 123 and the antenna 123a thereof through the sensing terminal. The sensing signal is transmitted to the control terminal wireless communication unit 112 of the control module 11, so that the system control unit 111 further determines whether an alarm value (for example, a normal range pulse value) is exceeded according to the sensing signal. When the determined pulse value exceeds the normal pulse value, the system control unit 111 outputs a warning signal and transmits the signal to the output module 13 through the control terminal wireless communication unit 112 and its antenna 112a.

After the output wireless communication unit 133 of the output module 13 receives the warning signal, the processing unit 132 interprets the warning signal and outputs an alert message corresponding to the warning signal by the output unit 131. For example, the output unit 131 may be one selected from the group consisting of an LED lamp, a buzzer, and a Bluetooth transmitter, but is not limited thereto. Therefore, when the output unit 131 is an LED light, it can be alerted by lighting or flashing light, or when the output unit 131 is a buzzer, by sounding a warning, or when the output unit 131 is a Bluetooth The transmitter can transmit the warning message (for example, the pulse is not normal, etc.) To other Bluetooth receivers, it is possible to inform the person holding the cane or others to understand the physiological appearance of the person holding the cane and to handle it in a timely manner.

In this embodiment, the wireless sensing transmission method further includes the following steps: each of the sensing module and the output module respectively generate a feedback signal according to the enabling signal, and the control module determines the feedback signal according to each of the feedback signals The operating states of the sensing modules and the output modules.

In detail, when the sensing module 12 receives the enable signal, the processing unit 121 of the sensing module 12 generates a feedback signal to the control module 11, and the feedback signal includes the sensing mode. The operational status of group 12 (eg normal or faulty). Therefore, when the system control unit 111 of the control module 11 interprets the feedback signal as a normal operation state, the normal operation state is maintained, and when the system control unit 111 interprets the feedback signal as a fault state, it represents the sense. The operating state of the test module 12 is a fault state. At this time, the system control unit 111 of the control module 11 generates a fault signal corresponding to the fault state to the output module 13, so that the output unit of the output module 13 131 outputs a fault message corresponding to the fault signal.

The manner in which the output unit 131 outputs the fault message is the same as the foregoing use of the LED lamp, the buzzer or the Bluetooth transmitter, and will not be further described herein. In order to distinguish the warning message, the LED light can be controlled to be differently illuminated (for example, to distinguish by the color of the light), and the buzzer can be controlled to output in different sounds (for example, in a continuous short sound), but not limit.

Similarly, when the output module 13 receives the enable signal, the processing unit 132 of the output module 13 also generates a feedback signal, and transmits the feedback signal through the output wireless communication unit 133 and its antenna 133a. The feedback signal is transmitted to the control module 11, and the feedback signal includes an operational status (such as normal or fault) of the output module 13. Therefore, when the system control unit 111 of the control module 11 interprets the feedback signal as a normal operation state, the normal operation state is maintained, and when the system control unit 111 interprets the feedback signal as a fault state, it represents the output. The operating state of the module 13 is a fault state (example) If the processing unit 132 loses the ability to interpret the warning message transmitted by the control module 11, the processing unit 132 of the output module 13 controls the output unit 131 to directly output a fault message, and outputs the fault message in the same manner. The foregoing uses an LED lamp, a buzzer or a Bluetooth transmitter, and will not be described here.

In addition, the wireless sensing transmission method of the present embodiment further includes the following steps: generating a power storage information through the sensing module, and determining whether the power storage amount is sufficient according to the power storage information to generate a power storage shortage signal.

In detail, the processing unit 122 of the sensing module 12 senses the power storage information of the wireless charging unit 124. Therefore, when the processing unit 122 senses that the storage capacity of the battery 124a of the wireless charging unit 124 is insufficient, a power storage shortage signal is generated and transmitted to the control module 11 through the sensing terminal wireless communication unit 123. The control module 11 After receiving the power storage shortage signal, the system control unit 111 sends a charging signal to the processing unit 132 of the output module 13 through the control terminal wireless communication unit 112, so that the processing unit 132 controls the output according to the charging signal. The unit 131 outputs a power storage shortage message.

The manner in which the output unit 131 outputs the power storage shortage message is the same as the foregoing use of the LED lamp, the buzzer or the Bluetooth transmitter, and will not be further described herein. In order to distinguish the fault message and the warning message, the LED light can be controlled to be differently illuminated (for example, by continuous lighting), and the buzzer can be controlled to output in different sounds (for example, in continuous long sound). But not limited to this.

The wireless charging unit 124 of the sensing module 12 is configured to use electromagnetic induction power and store the electrical energy in the battery 124a until the processing unit 122 senses that the storage battery 124a has sufficient storage capacity. A power storage signal is generated and transmitted to the control module 11 through the wireless communication unit 123. The system control unit 111 of the control module 11 receives the power storage sufficient signal and transmits the control. The wireless communication unit 112 sends a stop charging signal to the processing unit 132 of the output module 13, so that the processing unit 132 controls the output unit 131 to output a power storage sufficient message according to the stop charging signal to notify the outside world to stop providing. To charge the electromagnetic waves.

The manner in which the output unit 131 outputs the power storage sufficient message is the same as the foregoing use of the LED lamp, the buzzer or the Bluetooth transmitter, and will not be further described herein. In order to distinguish the fault message and the warning message, the LED light can be controlled to be differently illuminated (for example, by continuously lighting and changing the color of the light to distinguish) and the buzzer can be controlled to output in different sounds (for example) Output continuous short sounds of different audio, but not limited to this.

Therefore, the present invention can be assembled into a wireless sensing transmission device through the socket and the control module, the sensing module and the output module, so that the control module, the sensing module and the output module The group forms a wireless sensing transmission system without any electrical lines or connectors in series to perform sensing, wireless communication and wireless charging for maintenance, disassembly, replacement and adjustment, and visual sensing requirements. Replace different sensing modules.

In addition, the wireless sensing transmission device can be applied to any object according to the sensing requirement, and the control module, the sensing module and the output module can be respectively sealed through the casing, and have waterproof effect, and is suitable for Outdoor environment.

In the above, it is merely described that the present invention is an embodiment or an embodiment of the technical means for solving the problem, and is not intended to limit the scope of implementation of the present invention. That is, the equivalent changes and modifications made in accordance with the scope of the patent application of the present invention or the scope of the invention are covered by the scope of the invention.

11‧‧‧Control module

111‧‧‧System Control Unit

112‧‧‧Control terminal wireless communication unit

112a‧‧‧Antenna

113‧‧‧Wireless charging unit

113a‧‧‧Battery

12‧‧‧Sensor module

121‧‧‧Sensor unit

122‧‧‧Processing unit

123‧‧‧Sensor wireless communication unit

123a‧‧‧Antenna

124‧‧‧Wireless charging unit

124a‧‧‧Battery

13‧‧‧Output module

131‧‧‧Output unit

132‧‧‧Processing unit

133‧‧‧Output wireless communication unit

133a‧‧‧Antenna

134‧‧‧Wireless charging unit

134a‧‧‧Battery

Claims (16)

A wireless sensing transmission device includes: a slot seat including a plurality of slots; a control module for inserting into one of the slots, and the control module includes: a system control unit for Generating a consistent energy signal and determining whether to output a warning signal according to a sensing signal; and a control terminal wireless communication unit electrically connected to the system control unit for receiving the sensing signal and transmitting at least one of the warning signals Each of the sensing modules is respectively disposed in each of the slots, and each of the sensing modules includes: a sensing unit configured to generate a sensing information according to the enabling signal; and a a sensing terminal wireless communication unit electrically connected to the sensing unit for transmitting the sensing signal corresponding to the sensing information to the control module; and an output module for inserting into the one slot And the output module includes: an output unit for outputting a warning message according to the warning signal; and an output wireless communication unit electrically connected to the output unit for receiving the warning signal. The wireless sensing transmission device of claim 1, wherein the socket is a one-piece structure or a hollow annular structure, and each of the slots is disposed at a top or a side of the socket. The wireless sensing transmission device of claim 1, wherein each of the sensing module, the control module, and the output module further comprises a housing, each of the housings including a first housing and a first Two housings, each of the sensing modules, the control The module and the output module are respectively sleeved by the first housing and the second housing and are in a sealed state. The wireless sensing transmission device of claim 1, wherein the control terminal wireless communication unit, each of the sensing terminal wireless communication units, and the output wireless communication unit respectively comprise an antenna. The wireless sensing transmission device of claim 1, wherein the sensing unit of each of the sensing modules is selected from one of a GPS sensor, an obstacle detector, and a pulse detector. The wireless sensing transmission device of claim 1, wherein the output unit of the output module is selected from one of an LED lamp, a buzzer, and a Bluetooth transmitter. The wireless sensing transmission device of claim 1, wherein the control module, each of the sensing module and the output module further comprise a wireless charging unit for respectively providing the control module and each of the senses The test module and the output module are powered, and the wireless charging unit has a battery for storing electromagnetic induction energy absorbed by the wireless charging unit. The wireless sensing transmission device of claim 1, wherein the system control unit of the control module and each of the sensing module and the output module respectively comprise a processing unit for respectively storing an identification serial number, The identification numbers are exchanged through the control module, each of the sensing modules, and the wireless communication unit of the output module to identify and establish a connection with each other. The wireless sensing transmission device of claim 8, wherein the identification numbers are used as a switching terminal by the wireless communication unit of the control module. The wireless sensing transmission device of claim 8, wherein the processing unit of each sensing module generates a feedback signal according to the enabling signal and outputs the sensing signal according to the sensing information; and the output mode The processing unit of the group generates the feedback signal according to the enabling signal; The system control unit determines the operation states of the sensing modules and the output modules according to the feedback signals of the processing units of the sensing module and the output module. A wireless sensing transmission system includes: a control module, comprising: a system control unit for generating a consistent energy signal, and determining whether to output a warning signal according to a sensing signal; and a control terminal wireless communication unit, The system control unit is configured to receive the sensing signal and transmit the warning signal; the at least one sensing module comprises: a sensing unit configured to generate a sensing information according to the enabling signal; and a The sensing terminal wireless communication unit is connected to the sensing unit for transmitting the sensing signal corresponding to the sensing information to the control module; and an output module comprising: an output unit for using the warning signal according to the warning signal And outputting a warning message; and an output wireless communication unit for receiving the warning signal; and a socket for receiving the control module, the at least one sensing module and the output module. The wireless sensing transmission system of claim 11, wherein the control module, each of the sensing modules, and the output module further comprise a wireless charging unit for respectively providing the control module and each of the senses The test module and the output module are powered, and the wireless charging unit has a battery for storing electromagnetic induction energy absorbed by the wireless charging unit. The wireless sensing transmission system of claim 11, wherein the system control unit of the control module and each of the sensing module and the output module respectively comprise A processing unit is configured to separately store an identification number, and the identification numbers are exchanged through the control module, each of the sensing modules, and the wireless communication unit of the output module to identify and establish a connection with each other. A wireless sensing transmission method includes the following steps: providing a control module for generating a consistent energy signal, determining whether a warning value is exceeded according to a sensing signal, and outputting a warning signal; providing at least one sensing module The sensing module is configured to generate a sensing information according to the enabling signal, and transmit the sensing signal corresponding to the sensing information to the control module; and provide an output module for receiving the The warning signal is outputted and a warning message corresponding to the warning signal is output; wherein the control module, the at least one sensing module and the output module are disposed in a slot. The wireless sensing transmission method of claim 14, further comprising: each of the sensing module and the output module respectively generating a feedback signal according to the enabling signal; and the control module determines each of the feedback signals according to the feedback signal The operation state of the sensing module and the output module; wherein when the operating state of each sensing module is a fault state, the control module generates a fault signal corresponding to the fault state to the output module, The output module outputs a fault message corresponding to the fault signal. The wireless sensing transmission method of claim 14, further comprising: generating a power storage information through the sensing module, and determining whether the power storage amount is sufficient according to the power storage information to generate a power storage shortage signal; When the control module receives the power storage shortage signal, the control module controls the output unit to output a power storage shortage message to charge the sensing modules in time until the charging is completed.