CN220833579U - Multifunctional sputum excretion machine and medical system - Google Patents

Abstract

The utility model is suitable for the technical field of sputum excretion machines, and provides a multifunctional sputum excretion machine and a medical system, wherein the sputum excretion machine comprises: the starting monitoring module is used for outputting a starting instruction corresponding to the user triggering operation when the user triggering operation is monitored; the main control module is connected with the starting monitoring module and is used for receiving the starting instruction and outputting a function driving signal corresponding to the starting instruction; the multifunctional execution module is connected with the main control module and provided with a plurality of functional modes and is used for starting the functional mode corresponding to the driving signal when the functional driving signal is received. The function execution module has a plurality of function modes, and can drive the function mode corresponding to the function driving signal when receiving the function driving signal. Through integrating multiple function modes into a whole, a user can select a desired function according to needs, and different devices or machines do not need to be frequently switched in the using process, so that the work flow is simplified, the efficiency is high, and the time consumption is short.

Description

Multifunctional sputum excretion machine and medical system

Technical Field

The utility model belongs to the technical field of sputum excretion machines, and particularly relates to a multifunctional sputum excretion machine and a medical system.

Background

The sputum excretion machine can replace the traditional body position drainage by artificial chest beating, trembling and directional extrusion, and can lead sputum to be excreted outside the body after long-term retention in the lung or deep effusion is subjected to multidirectional vibration, extrusion and directional drainage. Besides, the traditional Chinese medicine composition can also improve the pulmonary blood circulation, prevent venous stasis, relax respiratory muscles, improve the systemic muscular tension, strengthen the cough reflex caused by respiratory muscle force and be beneficial to organism rehabilitation.

However, the existing sputum excretion machines on the market have single functions, for example, the sputum excretion machines on the market generally have only a percussion function, and the sputum excretion machine with single functions can not meet the use requirements of medical staff under certain emergency conditions, so that the medical staff needs to switch to use different equipment or instruments back and forth, and the time is long.

Disclosure of utility model

The embodiment of the utility model provides a multifunctional sputum excretion machine, which aims to solve the problems that the existing sputum excretion machine cannot meet the use requirements of medical staff, and the medical staff needs to switch to use different equipment or instruments back and forth, so that the time is long.

The embodiment of the utility model is realized in such a way that a multifunctional sputum excretion machine comprises:

the starting monitoring module is used for outputting a starting instruction corresponding to the user triggering operation when the user triggering operation is monitored;

the main control module is connected with the starting monitoring module and is used for receiving the starting instruction and outputting a function driving signal corresponding to the starting instruction;

The multifunctional execution module is connected with the main control module and provided with a plurality of functional modes and is used for starting the functional mode corresponding to the driving signal when the functional driving signal is received.

Further, the function execution module comprises an atomization unit, and the function driving signal comprises an atomization driving signal;

The atomizing unit is connected with the main control module and is used for starting an atomizing function when receiving an atomizing driving signal output by the main control module.

Further, the function execution module includes a tapping unit, and the function driving signal includes a tapping driving signal;

The tapping unit is connected with the main control module and is used for starting the tapping function when receiving the tapping driving signal output by the main control module.

Further, the function execution module comprises a gas vibration unit, and the function driving signal comprises a gas vibration driving signal;

The air vibration unit is connected with the main control module and is used for starting the air vibration function when receiving the air vibration driving signal output by the main control module.

Further, the function execution module is further connected with a feedback input end of the main control module, and is used for outputting feedback data to the main control module through the feedback input end in the function starting process.

Further, the starting monitoring module comprises a man-machine interaction area arranged on the multifunctional sputum excretion machine;

the man-machine interaction area comprises function buttons and/or a touch interface.

In a second aspect, the present application also provides a medical system comprising a multifunctional sputum excretion machine as described above.

The application has the advantages that the starting monitoring module outputs the starting instruction to the main control module when detecting the triggering operation of the user, the starting instruction corresponds to the triggering operation of the user, the main control module further determines the function corresponding to the starting instruction and outputs the function driving signal corresponding to the starting instruction to the function executing module, and the function executing module has a plurality of function modes, so that the function executing module can drive the function mode corresponding to the function driving signal when receiving the function driving signal. Through integrating multiple function modes into a whole, a user can select a desired function according to needs, and different devices or machines do not need to be frequently switched in the using process, so that the work flow is simplified, the efficiency is high, and the time consumption is short.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of a multifunctional sputum excretion machine according to the present application;

FIG. 2 is a schematic flow chart of the implementation principle of one embodiment of the multifunctional sputum excretion machine provided by the application;

Fig. 3 is a schematic flow chart of an implementation principle of another embodiment of the multifunctional sputum excretion machine provided by the application.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

According to the application, when the start monitoring module detects the user triggering operation, the start monitoring module outputs a start instruction to the main control module, the start instruction corresponds to the user triggering operation, the main control module further determines the function corresponding to the start instruction, and outputs the function driving signal corresponding to the start instruction to the function executing module. Through integrating multiple function modes into a whole, a user can select a desired function according to needs, and different devices or machines do not need to be frequently switched in the using process, so that the work flow is simplified, the efficiency is high, and the time consumption is short.

Example 1

As shown in fig. 1 to 3, the present embodiment provides a multifunctional sputum excretion machine, including:

The start monitoring module 100 is configured to output a start instruction corresponding to a user trigger operation when the user trigger operation is monitored;

The main control module 200 is connected with the starting monitoring module 100, and is used for receiving a starting instruction and outputting a function driving signal corresponding to the starting instruction;

The multifunctional execution module 300 is connected with the main control module 200 and provided with a plurality of functional modes for starting the functional modes corresponding to the driving signals when the functional driving signals are received.

In practice, the multifunctional sputum excretion machine provided by the application is used for helping a user to excrete sputum. The multifunctional sputum excretion machine comprises a starting monitoring module 100, wherein the starting monitoring module 100 is used for monitoring triggering operation of a user.

Optionally, the user-triggered operation refers to an operation of the sputum excretion machine by a user, such as starting the sputum excretion machine, shutting down the sputum excretion machine, or starting a function of the sputum excretion machine, which is not limited herein.

Optionally, when the start-up monitoring module 100 monitors a user-triggered operation, for example, the start-up monitoring module 100 includes a man-machine interaction area disposed on the multifunctional sputum excretion machine, and the user may input instructions in the man-machine interaction area. Illustratively, the man-machine interaction area includes function buttons and/or a touch interface, and the user can select a corresponding function button and press the corresponding function button, or click a corresponding function option through the touch interface by the user, so that the monitoring module 100 is started to monitor the triggering operation of the user. At this time, the start-up monitoring module 100 outputs a start-up instruction corresponding to the user trigger operation to the main control module 200.

Optionally, the main control module 200 is a main control portion of the sputum excretion machine, and in some embodiments, the main control module 200 may be regarded as a main control chip, and when receiving a start instruction output by the start monitoring module 100, the main control chip outputs a corresponding function driving signal to the multi-function module 300.

Optionally, the multi-function execution module 300 includes a driving chip, which can execute a corresponding function mode under the control of the main control chip. In some embodiments, the driver chip and the master chip may employ chips of STM32 series, and the master chip may employ STM32H750, and the driver chip may employ STM32F446, which is not specifically limited herein.

Alternatively, the multi-function execution module 300 may be regarded as a driving part of the multi-function sputum excretion machine, the multi-function execution module 300 having a plurality of functional modes, for example, the multi-function execution module 300 including an a function, a B function, a C function, and the like. When the multifunctional execution module 300 receives the function driving signal outputted from the main control module 200, a function mode corresponding to the function driving signal is started.

Illustratively, the sputum excretion machine includes an A function, a B function, and a C function, as shown in FIG. 2. The sputum excretion machine is powered on and started to operate, and the starting monitoring module 100 monitors the triggering operation of a user in real time. When the start monitoring module 100 monitors that the user triggers an operation, for example, three buttons corresponding to the a function, the B function and the C function are provided on the sputum excretion machine, and when the user presses the button of the a function, the start monitoring module 100 outputs a start instruction of the a function, and the main control module 200 outputs a function driving signal to the multi-function execution module 300 after receiving the start instruction, so that the multi-function execution module 300 starts the a function.

Similarly, when the user presses the button of the B function, the start monitoring module 100 outputs a start instruction of the B function, and the main control module 200 outputs a function driving signal to the multi-function execution module 300 after receiving the start instruction, so that the multi-function execution module 300 starts the B function.

When the user presses the button of the C function, the start monitoring module 100 outputs a start instruction of the C function, and the main control module 200 outputs a function driving signal to the multi-function execution module 300 after receiving the start instruction, so that the multi-function execution module 300 starts the C function.

According to the application, when the start monitoring module 100 detects the user triggering operation, a start instruction is output to the main control module 200, the start instruction corresponds to the user triggering operation, and then the main control module 200 outputs a function driving signal corresponding to the start instruction to the function execution module 300, and the function execution module 300 has a plurality of function modes, so that the function execution module 300 can drive the function mode corresponding to the function driving signal when receiving the function driving signal. Through integrating multiple function modes into a whole, a user can select a desired function according to needs, and different devices or machines do not need to be frequently switched in the using process, so that the work flow is simplified, the efficiency is high, and the time consumption is short.

Example two

Further, the function execution module 300 includes an atomizing unit, and the function driving signal includes an atomizing driving signal;

the atomization unit is connected with the main control module 200 and is used for starting an atomization function when receiving an atomization driving signal output by the main control module 200.

Further, the function execution module 300 includes a tapping unit, and the function driving signal includes a tapping driving signal;

the tapping unit is connected with the main control module 200 and is used for starting a tapping function when receiving a tapping driving signal output by the main control module 200.

Further, the function execution module 300 includes a gas vibration unit, and the function driving signal includes a gas vibration driving signal;

The air vibration unit is connected with the main control module 200 and is used for starting the air vibration function when receiving the air vibration driving signal output by the main control module 200.

In some embodiments, as shown in fig. 3, the sputum excretion machine includes tapping, atomizing and air vibrating functions, when in use, a user selects a desired function according to the needs, when the start monitoring module 100 monitors the operation of the user, a start instruction of the tapping, atomizing or air vibrating function is output to the main control module 200, the main control module 200 sends a corresponding function driving signal to a corresponding unit, for example, outputs a tapping driving signal to the tapping unit, and the current mode only operates the tapping function; or outputting an atomization driving signal to an atomization unit, wherein the current mode only operates an atomization function; or outputting the air vibration driving signal to the air vibration unit, wherein the current mode only operates the air vibration function.

Example III

Further, the function execution module 300 is further connected to a feedback input end of the main control module 200, and is configured to output feedback data to the main control module 200 through the feedback input end during the function starting process.

In practice, the main control module 200 mainly controls the display of the function related parameters, and controls the related parameters and transmits them to the function execution module 300. The function execution module 300 mainly receives the function driving signal transmitted by the main control module 200 and responds correspondingly, and simultaneously transmits the current data back to the main control module 200 in real time, so that the main control module 200 can judge that the current data is normal operation or the data is abnormal and needs to perform corresponding measures. The core components of the two parts are controlled by chips of STM32 series and matched with sub-circuits to realize the multifunctional integrated machine.

Taking the chip of the main control module 200 as STM32H750 and the chip of the function execution module 300 as STM32F446 as an example, the implementation principle is as follows:

When the atomizing function is activated: the STM32H750 main control chip sends a function driving signal for quickly or slowly starting atomization to the STM32F446 driving chip, and controls the power supply of the other two functions (tapping and air vibration) to be disconnected while starting the atomization function. The STM32F446 driving chip makes corresponding actions according to the function driving signal, achieves the atomizing function, and feeds current data back to the STM32H750 main control chip in real time so that the STM32H750 main control chip makes the next action.

When the tapping function is activated: the STM32H750 main control chip sends out a function driving signal of the tapping vibration frequency and the vibration time to the STM32F446 driving chip, and when the tapping function is started, the power supply of the other two functions (atomization and air vibration) is controlled to be disconnected. The STM32F446 driving chip makes corresponding actions according to the function driving signal, realizes the tapping function, and feeds back current data to the STM32H750 main control chip in real time so that the STM32H750 main control chip makes the next action.

When the air vibration function is started: the STM32H750 main control chip sends out a function driving signal of air vibration frequency, vibration pressure and vibration duration to the STM32F446 driving core, and controls the power supply of the other two functions (tapping and atomizing) to be disconnected while the air vibration function is started. The STM32F446 driving chip makes corresponding actions according to the function driving signal, achieves the air vibration function, and feeds current data back to the STM32H750 main control chip in real time so that the STM32H750 main control chip makes the next action.

Example IV

In some alternative embodiments, the present application also provides a medical system comprising a multifunctional sputum ejection machine as described above.

It will be clear to those skilled in the art that, for convenience and brevity of description, the structure and implementation principles of the medical system described above may refer to the corresponding structures and implementation principles in the first to third embodiments, and are not described in detail herein.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. A multifunctional sputum excretion machine, comprising:

The starting monitoring module is used for outputting a starting instruction corresponding to the user triggering operation when the user triggering operation is monitored;

The main control module is connected with the starting monitoring module and is used for receiving the starting instruction and outputting a function driving signal corresponding to the starting instruction;

The multifunctional execution module is connected with the main control module and comprises a tapping unit, an atomizing unit and an air vibration unit which are respectively provided with a tapping function, an atomizing function and an air vibration function, and the multifunctional execution module is used for starting the functions of the tapping unit, the atomizing unit or the air vibration unit when receiving the function driving signals.

2. The multifunctional sputum excretion machine of claim 1 wherein the functional drive signal comprises an atomizing drive signal;

The atomization unit is connected with the main control module and is used for starting an atomization function when receiving the atomization driving signal output by the main control module.

3. The multifunctional sputum excretion machine of claim 1 wherein the functional drive signal comprises a tap drive signal;

The tapping unit is connected with the main control module and is used for starting a tapping function when receiving the tapping driving signal output by the main control module.

4. The multifunctional sputum excretion machine of claim 1 wherein the functional drive signal comprises a pneumatic vibration drive signal;

The air vibration unit is connected with the main control module and is used for starting an air vibration function when receiving the air vibration driving signal output by the main control module.

5. The multifunctional sputum excretion machine of claim 1 wherein the multifunctional execution module is further coupled to a feedback input of the main control module for outputting feedback data to the main control module via the feedback input during function initiation.

6. The multifunctional sputum excretion machine of claim 1 wherein the initiation monitoring module comprises a human-machine interaction zone disposed on the multifunctional sputum excretion machine;

The man-machine interaction area comprises a function button and/or a touch interface.

7. A medical system comprising a multifunctional sputum excretion machine according to any one of claims 1 to 6.