CN211586318U - Oscillation timing control system based on short-distance wireless communication - Google Patents

Abstract

The utility model discloses an oscillation timing control system based on short distance wireless communication, its technical scheme main points are including vibration case and controller, the vibration case includes the box and sets up the oscillator in the box, the oscillator is equipped with the timing sensor, the oscillator still is equipped with first short distance wireless communication mechanism, including first control circuit board, first short distance wireless communication module and first power, first control circuit is connected with the first power electricity, first short distance wireless communication module, timing sensor are connected with the first control circuit board electricity; the controller comprises a second short-distance wireless communication mechanism, a second control circuit board, a second short-distance wireless communication module and a second power supply, the second control circuit board is electrically connected with the second power supply, and the vibrator and the controller can be in two-way communication through the first short-distance wireless communication module and the second short-distance wireless communication module. The utility model discloses can not only the short distance control the oscillator, also can provide the behavior in the oscillator moreover.

Description

Oscillation timing control system based on short-distance wireless communication

Technical Field

The utility model relates to an oscillator equipment field, more specifically the utility model relates to a vibration timing control system based on short distance wireless communication that says so.

Background

Oscillators (oscillators) are electronic components that produce a repetitive electrical signal, usually a sine wave or a square wave. The circuit formed by the circuit is called an oscillating circuit. An electronic circuit or device capable of converting direct current into alternating current signals with certain frequency and outputting the alternating current signals. The device has a plurality of types, and can be divided into a self-excited oscillator and an independent-excited oscillator according to an oscillation excitation mode; the circuit can be divided into a resistance-capacitance oscillator, an inductance-capacitance oscillator, a crystal oscillator, a tuning fork oscillator and the like according to the circuit structure; the oscillator can be divided into sine wave, square wave, sawtooth wave and other oscillators according to the output waveform. The method is widely applied to the aspects of electronic industry, medical treatment, scientific research and the like.

In the prior art, the switching or regulation operation mode of the oscillator is manually operated on the oscillator, and the working condition of the oscillator needs to be paid attention to at any time so as to know the working state of the oscillator, so that inconvenience is brought to a manager. In addition, the related data of the prior oscillator after being turned off also disappears, and the data cannot be stored.

In view of this, how to design a novel oscillator to overcome the above-mentioned drawbacks in the prior art is a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an oscillation timing control system based on short distance wireless communication can not only the short distance control the oscillator, also can provide the behavior in the oscillator moreover.

In order to achieve the above purpose, the utility model provides a following technical scheme: the oscillation timing control system based on short-distance wireless communication comprises an oscillation box and a controller, wherein the oscillation box comprises a box body and an oscillator arranged in the box body, the oscillator is provided with a timing sensor, the oscillator is also provided with a first short-distance wireless communication mechanism which comprises a first control circuit board, a first short-distance wireless communication module and a first power supply, the first control circuit is electrically connected with the first power supply, and the first short-distance wireless communication module and the timing sensor are electrically connected with the first control circuit board; the controller comprises a shell, a display screen and a second short-distance wireless communication mechanism arranged in the shell, and the controller comprises a second control circuit board, a second short-distance wireless communication module and a second power supply, wherein the second control circuit board is electrically connected with the second power supply, and the second short-distance wireless communication module and the display screen are electrically connected with the second control circuit board; the oscillator and the controller can be in two-way communication through the first short-distance wireless communication module and the second short-distance wireless communication module.

By adopting the technical scheme, the box body is arranged outside the oscillator, so that the oscillator can be protected, noise can be isolated, and a quiet working environment is provided; a first power supply arranged in the oscillator provides current, and the first control circuit board receives the current provided by the first power supply, converts the current into current amount required by stability, and transmits the current amount to each module to achieve a stable state and ensure the safety; the second power supply arranged in the controller provides current, and the second control circuit board receives the current provided by the second power supply, converts the current into current amount required by stability, and transmits the current amount to each module, so that the working stability is achieved, and the safety is ensured; the preset data is input to the second control circuit board through the display screen, the second control circuit board can transmit the preset timing numerical value to the second short-distance wireless communication module, the second short-distance wireless communication module transmits the preset numerical value to the first short-distance wireless communication module, the first short-distance wireless communication module transmits the preset numerical value to the first control circuit board, the first control circuit board transmits the preset numerical value to the timing sensor, the timing sensor receives the preset numerical value transmitted by the first control circuit to count down the numerical value, and the changed numerical value is transmitted to the first control circuit board at any time, the first control circuit board transmits the countdown data to the second control circuit board through the short-distance wireless communication module, when the value is 0, the first control circuit board cuts off the first power supply, so that the effect of bidirectional communication is achieved.

The utility model discloses further set up to: the first and second short-distance wireless communication modules respectively comprise any one or more of Wi-Fi, Bluetooth, Home RF and infrared short-distance wireless communication.

By adopting the technical scheme, the Bluetooth wireless technology has the advantages of high speed, good safety performance and low power, can realize point-to-multipoint data transmission, and improves the transmission effectiveness of the whole system; the Wi-Fi is used according with the public requirements, has small radiation, improves the safety, has wide coverage range, high transmission speed and high mobility, improves the transmission reliability of the whole system and has better development prospect; the Home RF realizes wireless communication between the computer and other devices and supports streaming media transmission; the infrared is a technology for carrying out point-to-point line-of-sight transmission by utilizing infrared rays, has small volume and low power consumption, and reduces the cost of the whole system.

The utility model discloses further set up to: the first control circuit board and the second control circuit board are at least integrated with a power switching device starting and closing control circuit and a timing sensor control circuit, the display screen is in a key type or touch type, and the second control circuit board is manually controlled through keys or touches.

By adopting the technical scheme, the power conversion device opening and closing control circuit comprises a power supply connection part and a power supply cut-off part, a connection signal is transmitted to the power supply connection part through the display screen to open the power supply, or a cut-off signal is transmitted to the power supply cut-off part to close the power supply, so that the connection and the connection of the first power supply and the second power supply are respectively controlled, the power supply is prevented from being always in the connection state, the power supply is controlled to be opened and closed at any time through short-distance control, the change conditions of voltage, current and frequency are automatically monitored at any time in the operation process, the change of a load is judged from the change, the impedance matching of the load is automatically adjusted, the output power is the power required constantly, and the effects of saving electricity and saving energy are achieved.

The utility model discloses further set up to: the display screen is an LED or LCD display screen.

By adopting the technical scheme, the LED display screen adopts low-voltage direct-current power supply voltage, so that the LED display screen has safety and higher energy-saving performance in use; the LCD display screen has small volume, low energy consumption and low radiation, and can improve the body safety of users.

The utility model discloses further set up to: the first control circuit board and the second control circuit board are respectively integrated with at least one MCU, and the MCU controls the work of the electric connection component.

The utility model discloses further set up to: the MCU is 97C51 provided with a memory.

By adopting the technical scheme, the MCU is a singlechip provided with a memory, can be divided into a chip without an on-chip ROM type and an on-chip EPROM type according to the type of the memory (a typical chip is 87C 51), and can also be a chip with an on-chip One Time Programming (OTP) (a typical chip is 97C 51). The memory stores various data related to control, including the accumulated operating time count data Dc and the power on count data De. The Memory uses a writable and rewritable Memory such as PROM (programmable Read Only Memory) and EPROM (Erasable PROM). When the preset value is transmitted to the timing sensor to carry out timing oscillation, and the timing sensor is ended, the memory reads the result of the timing sensor and stores the result in the memory when the power supply is cut off. The EPROM (Erasable PROM) is a flash EEPROM that does not automatically erase stored information due to the power-off, and can be rewritten in units of 1 byte or can erase all bits together.

The utility model discloses further set up to: the second control circuit board is connected with a prompter, and the prompter is any one or more of an acoustic prompter, an optical prompter and a vibration prompter.

By adopting the technical scheme, when the numerical value transmitted by the timing sensor is 0, the first control circuit board transmits the signal for stopping oscillation to the second control circuit board, the second control circuit board starts the prompter, and the prompter transmits the signal for stopping oscillation to an operator in the modes of light, sound, vibration and the like.

The utility model discloses further set up to: the second control circuit board is electrically connected with an AI artificial intelligence industrial timing module, carries AI artificial intelligence recognition system software and is used for artificial intelligence monitoring of timing.

Through adopting above-mentioned technical scheme, can carry out the operation in the aspect of each timing to the controller through AI artificial intelligence industry timing module, for example can carry out automatic setting to the timing, time input that will open automatically gives AI artificial intelligence timing module, AI artificial intelligence timing module is stored the accumulator with the time in, just can open the system automatically when the time arrives, then the automatic timing sensor for the oscillator of carrying the preset numerical value that will input in advance, convenience and the validity of using have been improved like this.

The utility model discloses further set up to: the oscillator is also provided with other sensors electrically connected with the first control circuit board, and the other sensors comprise any one or more of a vibration sensor, a speed sensor, a temperature sensor and a pressure sensor.

By adopting the technical scheme, whether the oscillator vibrates can be detected through the vibration sensor; adjusting the speed of vibration through a speed sensor, so as to adjust the oscillation strength of the oscillator; the temperature sensor can monitor the temperature condition of the whole system in the working process, prevent fire caused by short circuit and improve safety; the pressure sensor can monitor the reaction condition of the oscillator in the oscillation process.

The utility model discloses further set up to: the oscillator is provided with at least one layer of sample frame, and any sample frame is sequentially overlapped and arranged in a detachable connection mode.

Through adopting above-mentioned technical scheme, add more than one deck detachable sample frame on oscillator sample platform, the selection of sample frame can be selected according to the specification of liquid-based cell preservation bottle and place, can vibrate the liquid-based cell preservation bottle of different specifications like this in the same time, and this sample frame is applicable to the liquid-based cell preservation bottle of different specifications, increases the experiment flux of oscillator, improves oscillation efficiency, practices thrift the cost.

The utility model has the advantages of that: the short-distance timing control of the oscillator can be realized, and the short-distance timing control of one controller on a plurality of sample holders can also be realized, so that the use convenience is improved; the power supply of the oscillator can be switched on and off through the controller, so that the oscillator is not always in a standby state, and the effect of low energy consumption is achieved; the distance of the transmission range can be adjusted according to different requirements of users, so that the technical cost is reduced; the arrangement of the prompter can provide information prompt for a user in time, so that the user does not need to pay attention to the condition and the oscillation time in the vibration box all the time, and can know the vibration stop state of the oscillator through the prompter only in a short-distance space; data such as timing, operating duration are stored through the memory on the second control circuit board, have prevented losing of data after the outage, can protect the privacy of data, have improved the security.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a block diagram of the working principle of the present invention.

Fig. 3 is a schematic structural diagram of the sample holder of the present invention.

Fig. 4 is a schematic structural diagram of the oscillator and the supporting frame of the present invention.

In the figure: 1. a box body; 2. an oscillator; 3. 4, a sample rack, a placing plate; 5. placing the holes.

Detailed Description

Referring to fig. 1 to 4, the oscillation timing control system based on short-distance wireless communication of the present embodiment includes an oscillation box and a controller, where the oscillation box includes a box 1 and an oscillator 2 disposed in the box 1, the oscillator 2 is provided with a timing sensor, the oscillator 2 is further provided with a first short-distance wireless communication mechanism including a first control circuit board, a first short-distance wireless communication module and a first power supply, the first control circuit is electrically connected to the first power supply, and the first short-distance wireless communication module and the timing sensor are electrically connected to the first control circuit board; the controller comprises a shell, a display screen and a second short-distance wireless communication mechanism arranged in the shell, and the controller comprises a second control circuit board, a second short-distance wireless communication module and a second power supply, wherein the second control circuit board is electrically connected with the second power supply, and the second short-distance wireless communication module and the display screen are electrically connected with the second control circuit board; the oscillator and the controller can be in two-way communication through the first short-distance wireless communication module and the second short-distance wireless communication module.

The first and second short-distance wireless communication modules respectively comprise any one or more of Wi-Fi, Bluetooth, Home RF and infrared short-distance wireless communication.

The first control circuit board and the second control circuit board are at least integrated with a power switching device starting and closing control circuit and a timing sensor control circuit, the display screen is in a key type or touch type, and the second control circuit board is manually controlled through keys or touches.

The display screen is an LED or LCD display screen.

The first control circuit board and the second control circuit board are respectively integrated with at least one MCU, and the MCU controls the work of the electric connection component.

The MCU is 97C51 provided with a memory.

The second control circuit board is connected with a prompter, and the prompter is any one or more of an acoustic prompter, an optical prompter and a vibration prompter.

The second control circuit board is electrically connected with an AI artificial intelligence industrial timing module, carries AI artificial intelligence recognition system software and is used for artificial intelligence monitoring of timing.

The oscillator is also provided with other sensors electrically connected with the first control circuit board, and the other sensors are any one or more of a vibration sensor, a speed sensor, a temperature sensor and a pressure sensor.

The oscillator 2 is provided with at least one layer of sample rack 3, and the sample racks 3 are sequentially stacked in a detachable connection mode.

Through the technical scheme, when the power supply is required to be used, the second power supply is connected with a voltage stabilizer, the voltage stabilizer controls the voltage to be between 4.5V and 25V, the second power supply is turned on, stable voltage is transmitted to the whole system, the LCD display screen is turned on, a preset value of oscillation time is input on the touch screen through a touch mode of the LCD display screen, the second control circuit board transmits the time value to the second short-distance wireless communication module after receiving the preset value and simultaneously stores the value in a storage unit of the second control circuit board, the first short-distance wireless communication module transmits the preset value to the second short-distance wireless communication module after receiving the preset value, the second short-distance wireless communication module transmits the preset value to the first control circuit board, the first control circuit board transmits the preset value to the timing sensor and simultaneously turns on a power supply connection part of the first power supply and the oscillator 2, the timing sensor receives and predetermines the numerical value, just begin to count down to predetermineeing the numerical value, when the numerical value count down of timing sensor arrives 0, information transfer to first control circuit board that stops the oscillation, first control panel receives behind the information of stopping the oscillation, the power cut-off portion of closed first power and oscillator 2, thereby stop the oscillation, and first control circuit board gives first short distance wireless communication module with the signal transmission that the oscillation stopped, second short distance wireless communication module is given with the model that the oscillation stopped to first short distance wireless communication module, second short distance wireless communication module is given the model that the oscillation stopped for second control circuit board, second control circuit board opens the prompting device after receiving, the prompting device can pass through light or sound suggestion, let the user know that the oscillation has been accomplished.

If want oscillator 2 at the oscillation in-process, when satisfying the demand of different fluxes, then can set up the support frame on oscillator 2, set up on the support frame and put board 4, set up into a plurality of layers of placing through putting 4 superpositions of board, put into or take out the layer of placing with sample frame 3 through the mode of push-and-pull, it has different specifications to place hole 5 on the sample frame 3, can select the sample frame 3 that needs according to the liquid-based cell of different specifications preserves the bottle, it is first, two short distance wireless communication modules all connect with Wi-Fi's mode, then can set up a general controller, oscillate oscillator 2 through general controller. If oscillator 2 sets up when a plurality ofly, every oscillator 2 all is equipped with the timer, as long as connect the first short distance wireless communication module of oscillator 2 in the second short distance wireless communication module of controller can through Wi-Fi, then can distinguish each oscillator 2 through AI artificial intelligence chip on the display screen of controller, and then carry out different oscillation timing settings to each oscillator 2 respectively, improved the flexibility of oscillation.

If need carry out the automatic control oscillation to oscillator 2, accessible AI artificial intelligence chip, the numerical value that will need the time numerical value of oscillation and how long afterwards the automatic oscillation is inputed to the second control circuit board together, the second control circuit board is through first, two short distance wireless communication module's two-way communication, convey two numerical values in the timing sensor together, the timing sensor stores the oscillation numerical value earlier, earlier begin the count down of oscillation numerical value after to how long, when the time reaches 0, the timing sensor begins the count down of oscillation time, and communicate first power and oscillator 2 through first control circuit board, carry out the oscillation work.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. Oscillation timing control system based on short distance wireless communication, including vibration case and controller, its characterized in that: the oscillator box comprises a box body and an oscillator arranged in the box body, the oscillator is provided with a timing sensor, the oscillator is also provided with a first short-distance wireless communication mechanism and comprises a first control circuit board, a first short-distance wireless communication module and a first power supply, the first control circuit is electrically connected with the first power supply, and the first short-distance wireless communication module and the timing sensor are electrically connected with the first control circuit board; the controller comprises a shell, a display screen and a second short-distance wireless communication mechanism arranged in the shell, and the controller comprises a second control circuit board, a second short-distance wireless communication module and a second power supply, wherein the second control circuit board is electrically connected with the second power supply, and the second short-distance wireless communication module and the display screen are electrically connected with the second control circuit board; the oscillator and the controller can be in two-way communication through the first short-distance wireless communication module and the second short-distance wireless communication module.

2. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the first and second short-distance wireless communication modules respectively comprise any one or more of Wi-Fi, Bluetooth, Home RF and infrared short-distance wireless communication.

3. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the first control circuit board and the second control circuit board are at least integrated with a power switching device starting and closing control circuit and a timing sensor control circuit, the display screen is in a key type or touch type, and the second control circuit board is manually controlled through keys or touches.

4. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the display screen is an LED or LCD display screen.

5. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the first control circuit board and the second control circuit board are respectively integrated with at least one MCU, and the MCU controls the work of the electric connection component.

6. The oscillation timing control system based on short range wireless communication according to claim 5, wherein: the MCU is 97C51 provided with a memory.

7. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the second control circuit board is connected with a prompter, and the prompter is any one or more of an acoustic prompter, an optical prompter and a vibration prompter.

8. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the second control circuit board is electrically connected with an AI artificial intelligence industrial timing module, carries AI artificial intelligence recognition system software and is used for artificial intelligence monitoring of timing.

9. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the oscillator is also provided with other sensors electrically connected with the first control circuit board, and the other sensors comprise any one or more of a vibration sensor, a speed sensor, a temperature sensor and a pressure sensor.

10. The oscillation timing control system based on short range wireless communication according to claim 1, wherein: the oscillator is provided with at least one layer of sample frame, and any sample frame is sequentially overlapped and arranged in a detachable connection mode.

Images