CN109078306B - Multi-sense and multi-sense system training system based on self-power-generation remote control technology - Google Patents

Abstract

The invention discloses a multi-sense and multi-sense training system based on a self-generating remote control technology, which relates to the technical field of rehabilitation training equipment, and comprises a plurality of training components arranged in a training room, wherein each training component comprises a host and accessories matched with the host, a self-generating remote control module and a plurality of keys are arranged on the accessories, key information is transmitted to the corresponding host through wireless signals, the host is provided with a self-generating signal receiving and transmitting module for receiving wireless signals, the codes of the wireless signals transmitted by the self-generating remote control module on each accessory are different, when the host in the training room receives the wireless signals of the accessories which are not matched with the host, the self-generating signal receiving and transmitting module on the host plays a relaying role and transmits the wireless signals to the matched host, a wireless transmission mode is adopted, and the wireless signals are bridged through the self-generating signal receiving and transmitting module, the wireless signal sent by the accessory can be received by the matched host, and the normal operation of the training system is ensured.

Description

Multi-sense and multi-sense system training system based on self-power-generation remote control technology

Technical Field

The invention relates to the technical field of rehabilitation training equipment, in particular to a multi-sense and multi-sense system training system based on a self-generating remote control technology.

Background

"sensory integration" means that sensory information of various parts of human organs are input and combined together, and the sensory information is integrated by the brain to complete the reaction to the perception outside the body, only through the sensory integration, different parts of the nervous system can coordinate the whole action to enable an individual to smoothly contact with the environment, and the brain and the body can not develop coordinately without the sensory integration.

The number of children with disordered sense organs and sense systems in China is large, and the popular saying of disordered sense systems is as follows: the brain of the child is slightly obstructed in the development process and can be corrected only by matching drug therapy with rehabilitation training, so that the demand of multi-sense and multi-sense training equipment is extremely large, and most of multi-sense and multi-sense training equipment treats special children by matching one or more accessories or handles with a host.

The accessories of the traditional multi-sense and multi-sense system training equipment are basically connected with the host machine in the following two ways:

1. the power supply and the signal of the accessory are transmitted through a connecting line;

2. the accessory is powered by a battery, and signals are transmitted in wireless modes such as WIFI, Bluetooth, ZIGBEE and the like;

however, the following disadvantages exist in the connection of the accessory and the host of the traditional multi-sense and multi-sense system training device:

1. the accessory connected with the wire is influenced by the length of the connecting wire, the accessory can only operate within a certain range, the connecting wire is inconvenient to store, and the connecting wire has certain potential safety hazard for special children; when the number of accessories is large, the number of connecting wires is large, so that the training room is messy;

2. battery-powered accessories need to be charged frequently, and when the number of accessories is large, the workload of charging numerous accessories is increased for maintenance personnel of the equipment; when the signal transmission between the accessory and the host is performed in a wireless manner, when the accessory is far away from the host, the signal sent by the accessory cannot be smoothly received by the host, so that the host does not respond.

Disclosure of Invention

The invention aims to: the invention provides a multi-sense and multi-sense system training system based on a self-power-generation remote control technology, which aims to solve the problems that an accessory of the existing training equipment is powered by a battery, signal transmission between the accessory and a host is carried out in a wireless mode, and when the accessory is far away from the host, a wireless signal sent by the accessory cannot be received by the host.

The invention specifically adopts the following technical scheme for realizing the purpose:

the utility model provides a many sense organs, the training system of feeling all together based on from electricity generation remote control technique, is including setting up a plurality of training subassemblies in the training room, and every training subassembly includes the host computer respectively and a plurality of annexs supporting with the host computer, its characterized in that: all be provided with from the electricity generation remote control module and with a plurality of buttons that are connected from the electricity generation remote control module electricity on every annex, from the electricity generation remote control module can turn into the electric energy with the mechanical energy that the button was pressed, send button information to corresponding host computer through radio signal, all be provided with the signal transceiver module from electricity generation that is used for receiving radio signal on every host computer, the radio signal code that sends from the electricity generation remote control module on every annex is all different, and when other host computers in the training room received rather than the radio signal of supporting annex, the signal transceiver module from electricity generation on the host computer just played the relay effect, forwarded this radio signal to supporting host computer.

Further, when the host receives the wireless signal of the accessory, the host processes only the first received signal and does not process the received repeated wireless signal within a period of time.

Furthermore, the self-generating remote control module comprises a generating coil with a pole piece, a rectifying circuit, a voltage stabilizing circuit and a wireless transmitting circuit which are sequentially connected, wherein each key is movably connected with a connecting rod with a spring, the other end of each connecting rod is connected with the pole piece, each wireless transmitting circuit comprises a plurality of key interfaces and a GND interface, the key interfaces correspond to the keys respectively, when the keys are pressed down, the corresponding key interfaces are communicated with the GND interfaces, and the wireless transmitting circuit transmits wireless signal codes of the keys.

Furthermore, when the key is released, the spring resets the key, the pole piece pressed down by the connecting rod pops out of the power generation coil to generate a voltage signal which is similar to the voltage when the key is pressed down but has opposite polarity, and the voltage signal is used as a key resetting signal and is sent to the self-generating signal transceiver module of the host through the self-generating remote control module.

Furthermore, a linkage working mode is arranged between the host and the matched accessories, the linkage working mode comprises a learning coding mode and a normal use mode, when the host enters the learning coding mode, keys of the matched accessories are pressed down one by one, the self-generating remote control module electrically connected with the keys transmits wireless signal codes of the keys, the self-generating signal transceiver module of the host receives the wireless signal codes of the keys, records the codes and functions of the keys in the record table, and learns;

when the host enters a normal use mode, the key on the accessory is pressed, the self-generating remote control module electrically connected with the key transmits out the wireless signal code of the key, the self-generating signal transceiver module of the host decodes the wireless signal code of the key after receiving the wireless signal code, compares the wireless signal code with the code in the record table, searches the code function and then executes corresponding action.

When a key is pressed by a hand or a foot, a pole piece of the power generation coil is pressed into the power generation coil by the key through the connecting rod, the pole piece cuts a magnetic induction line of the power generation coil to generate a voltage of several milliseconds, the voltage is supplied to the wireless transmitting circuit after passing through the rectifying circuit and the voltage stabilizing circuit, a transmitting chip in the wireless transmitting circuit corresponding to the key has a unique ID number, each key has different codes, wireless signal codes transmitted by each key are different, a self-generating signal receiving and transmitting module of the host machine receives the wireless signal codes of the key, decodes the wireless signal codes, compares the wireless signal codes with the codes in the record table, searches the code function and then executes corresponding actions.

The invention has the following beneficial effects:

the signal of the invention adopts a wireless transmission mode, a signal wire is omitted, and the wireless signal is relayed and bridged through the self-generating signal transceiver module, so that the wireless signal sent by the accessory can be smoothly received by the matched host, and the normal operation of the training system is ensured; meanwhile, the electric quantity required by wireless transmission is very weak, and the wireless transmission speed is very high, so that the instantaneous voltage generated by the self-generating remote control module when the key is pressed and reset is enough to support the wireless transmitting circuit to transmit a wireless signal, a battery is not needed to supply power for a long time, the work burden of maintenance personnel is reduced, and the wireless remote control module is energy-saving and environment-friendly.

Drawings

Fig. 1 is a schematic diagram of wireless signal transmission with the host computer playing a relay role.

FIG. 2 is a diagram of the relationship between a host and a companion accessory according to the present invention.

Fig. 3 is a schematic structural diagram of the self-generating remote control module and the key of the invention.

Fig. 4 is a schematic structural diagram of a wireless interactive carpet set according to embodiment 2 of the present invention.

FIG. 5 is an exploded view of a carpet mat.

Fig. 6 is a schematic diagram of the explosion inside the controller.

FIG. 7 is a block diagram of an interactive host circuit.

Reference numerals: 1. an interactive host; 2. a carpet mat; 2-1, a cover plate; 2-2, a main body; 2-3, a controller; 2-3.1, top plate; 2-3.2, pressing plate; 2-3.3, spring element; 2-3.4, a self-generating module; 2-4, EVA surrounding edges; 2-5, a medium density fiberboard pedal; 2-6 parts of sponge.

Detailed Description

For a better understanding of the present invention by those skilled in the art, the present invention will be described in further detail below with reference to the accompanying drawings and the following examples.

Example 1

As shown in fig. 1 to 3, this embodiment provides a multi-sensory and multi-sensory system training system based on a self-generating remote control technology, which includes 3 sets of training components disposed in a training room, each training component includes a host and accessories matched with the host, only the host a and the accessories thereof, accessory parts not shown, and accessory parts not shown of the host B and the host C, each accessory is provided with a self-generating remote control module and a plurality of keys electrically connected with the self-generating remote control module, the self-generating remote control module can convert mechanical energy pressed by the keys into electric energy, and send key information to a corresponding host through wireless signals, each host is provided with a self-generating signal transceiver module for receiving the wireless signals, and the wireless signals sent by the self-generating remote control module on each accessory are different in code, when other host machines in the training room receive wireless signals of accessories which are not matched with the host machines, the self-generating signal transceiver module on the host machine plays a role of relaying and forwards the wireless signals to the matched host machine, and when the matched host machine receives the wireless signals of the matched accessories, the matched host machine only processes the signals received for the first time and does not process the received repeated wireless signals within a period of time;

as shown in fig. 1, the accessory a is far from the accessory a, the wireless signal of the accessory a cannot be directly transmitted to the accessory a, the host B and the host C are near to the accessory a and can receive the wireless signal, and the self-generating signal transceiver modules in the host B and the host C find that the wireless signal of the accessory a is not matched with the ID of the wireless signal of the accessory B after receiving the wireless signal of the accessory a, that is, the wireless signal is not transmitted by the accessory B, and the wireless signal is transmitted and no processing is performed on the repeatedly received wireless signal within a certain time; after the host B and the host C forward the wireless signal of the accessory A, the host A receives the wireless signal, but the host A only processes the wireless signal received for the first time, and does not process the received repeated wireless signal within a period of time.

As shown in fig. 3, the self-generating remote control module includes a power generation coil with a pole piece, a rectification circuit, a voltage stabilizing circuit and a wireless transmitting circuit which are connected in sequence, each key is movably connected with a connecting rod with a spring, the other end of the connecting rod is connected with the pole piece, the wireless transmitting circuit includes a plurality of key interfaces corresponding to the keys and a GND interface, when the key is pressed, the corresponding key interface is connected with the GND interface, the wireless transmitting circuit sends out the wireless signal codes of the key, in this embodiment, the number of the keys on the accessory is 4, namely, the key 1, the key 2, the key 3 and the key 4, and when the different key interfaces are connected with the GND interface, the wireless signal codes transmitted by the wireless transmitting circuit are different.

When the key is released, the spring resets the key, the pole piece pressed down by the connecting rod pops out of the power generation coil to generate a voltage signal which is similar to the voltage when the key is pressed down but has opposite polarity, and the voltage signal is used as a key resetting signal and is sent to the self-generating signal transceiver module of the host through the self-generating remote control module.

The linkage working mode is arranged between the host and the matched accessories, the linkage working mode comprises a learning coding mode and a normal use mode, when the host enters the learning coding mode, keys of the matched accessories are pressed one by one, a self-generating remote control module electrically connected with the keys transmits wireless signal codes of the keys, a self-generating signal transceiver module of the host receives the wireless signal codes of the keys, records the codes and functions of the keys in a record table, and learns;

when the host enters a normal use mode, the key on the accessory is pressed, the self-generating remote control module electrically connected with the key transmits out the wireless signal code of the key, the self-generating signal transceiver module of the host decodes the wireless signal code of the key after receiving the wireless signal code, compares the wireless signal code with the code in the record table, searches the code function and then executes corresponding action.

When a key is pressed by a hand or a foot, a pole piece of the power generation coil is pressed into the power generation coil by the key through the connecting rod, the pole piece cuts the magnetic induction line of the power generation coil to generate a voltage of several milliseconds, the voltage is supplied to the wireless transmitting circuit after passing through the rectifying circuit and the voltage stabilizing circuit, a transmitting chip in the wireless transmitting circuit corresponding to the key has a unique ID number, each key has different codes, wireless signal codes transmitted by each key are different, a self-generating signal receiving and transmitting module of the host machine receives the wireless signal codes of the key, decodes the wireless signal codes, compares the wireless signal codes with the codes in the record table, searches the code function, further executes corresponding actions, and achieves the purpose of training special sense organs and sense systems of children.

Example 2

As shown in fig. 4 to 7, the system of the present invention is applied to a wireless interactive carpet set, the wireless interactive carpet set includes an interactive host 1 and 9 carpet mats 2, wherein the colors of the 9 carpet mats 2 are different, a user treads on the carpet mats 2 with different colors, and a clover color display area on the host 1 displays the color corresponding to the carpet mat 2. As shown in fig. 5, which is an explosion schematic view of a carpet mat 2, the carpet mat 2 includes 10mm sponge 2-6, 12mm medium density fiberboard 2-5, 10mm EVA surrounding 2-4, a controller 2-3 disposed in the EVA surrounding 2-4, a main body 2-2, and a cover plate 2-1 for treading, as shown in fig. 6, which is an internal explosion schematic view of the controller 2-3, the controller 2-3 includes a top plate 2-3.1, a pressing plate 2-3.2 is disposed below the top plate 2-3.1, a self-generating module 2-3.4 and a spring member 2-3.3 are disposed below the pressing plate 2-3.2, the keys in this embodiment are disposed on the top plate 2-3.1, and each key is movably connected with the top plate 2-3.1, the self-generating module 2-3.4 is equivalent to a self-generating remote control module, when a user steps on the cover plate 2-1, the cover plate 2-1 is pressed down, so that the top plate 2-3.1 of the controller 2-3 is pressed down, the pressing plate 2-3.2 is pressed down when the top plate 2-3.1 is pressed down, the pole piece in the self-generating module 2-3.4 is driven to cut the magnetic induction line in the generating coil to generate electricity, so that a wireless signal is transmitted to the interactive host 1, when the user releases the cover plate 2-1, the spring part 2-3.3 pops up the top plate 2-3.1 to reset the pressing plate 2-3.2, as shown in a circuit block diagram of the interactive host 1 in figure 7, when a receiving and transmitting antenna of the interactive host receives the wireless signal, the wireless signal is transmitted to the self-generating signal receiving and transmitting module in the interactive host 1, after the wireless signal is decoded, the decoded information is transmitted to the display screen and the color display area through the control mainboard, the training purpose is achieved.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention, the scope of the present invention is defined by the appended claims, and all structural changes that can be made by using the contents of the description and the drawings of the present invention are intended to be embraced therein.

Claims (5)

1. The utility model provides a many sense organs, the training system of feeling all together based on from electricity generation remote control technique, is including setting up a plurality of training subassemblies in the training room, and every training subassembly includes the host computer respectively and a plurality of annexs supporting with the host computer, its characterized in that: every all be provided with from the electricity generation remote control module on the annex and with a plurality of buttons that are connected from the electricity generation remote control module electricity, from the electricity generation remote control module can turn into the electric energy with the mechanical energy that the button was pressed, send button information to corresponding host computer through radio signal, every all be provided with the signal transceiver module that generates electricity certainly that is used for receiving radio signal on the host computer, the radio signal code that sends from the electricity generation remote control module on every annex is all different, when other host computers in the training room received rather than the radio signal of supporting annex, the signal transceiver module that generates electricity on the host computer just plays the relay effect, forwards this radio signal to supporting host computer.

2. The multi-sense and multi-sense system training system based on the self-generating remote control technology according to claim 1, characterized in that: when the host receives the wireless signal of the accessory, the host only processes the signal received for the first time, and does not process the received repeated wireless signal within a period of time.

3. The multi-sense and multi-sense system training system based on the self-generating remote control technology according to claim 1, characterized in that: the self-generating remote control module comprises a generating coil, a rectifying circuit, a voltage stabilizing circuit and a wireless transmitting circuit which are sequentially connected and provided with pole pieces, each key is movably connected with a connecting rod with a spring, the other end of each connecting rod is connected with the pole pieces, each wireless transmitting circuit comprises a plurality of key interfaces and a GND interface, the key interfaces correspond to the keys respectively, when the keys are pressed down, the corresponding key interfaces are communicated with the GND interfaces, and the wireless transmitting circuit transmits wireless signal codes of the keys.

4. The multi-sense and multi-sense system training system based on the self-generating remote control technology according to claim 3, characterized in that: when the key is released, the spring resets the key, the pole piece pressed down by the connecting rod pops out of the power generation coil to generate a voltage signal which is similar to the voltage when the key is pressed down but has opposite polarity, and the voltage signal is used as a key resetting signal and is sent to the self-generating signal transceiver module of the host through the self-generating remote control module.

5. The multi-sensory and multi-sensory system training system based on the self-generating remote control technology according to any one of claims 1 to 4, wherein: the system comprises a host and accessories, wherein a linkage working mode is arranged between the host and the accessories, the linkage working mode comprises a learning coding mode and a normal use mode, when the host enters the learning coding mode, keys of the accessories are pressed one by one, a self-generating remote control module electrically connected with the keys transmits wireless signal codes of the keys, a self-generating signal transceiver module of the host receives the wireless signal codes of the keys, records the codes and functions of the keys in a record table, and learns;

when the host enters a normal use mode, the key on the accessory is pressed, the self-generating remote control module electrically connected with the key transmits out the wireless signal code of the key, the self-generating signal transceiver module of the host decodes the wireless signal code of the key after receiving the wireless signal code, compares the wireless signal code with the code in the record table, searches the code function and then executes corresponding action.

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