CN115137965A

CN115137965A - Air pressure testing equipment, method, device and medium for air wave pressure therapeutic instrument

Info

Publication number: CN115137965A
Application number: CN202210821578.8A
Authority: CN
Inventors: 何永正; 冯文谦; 董小静; 刘钢; 常亚斌
Original assignee: Henan Xiangyu Medical Equipment Co Ltd
Current assignee: Henan Xiangyu Medical Equipment Co Ltd
Priority date: 2022-07-13
Filing date: 2022-07-13
Publication date: 2022-10-04

Abstract

The application discloses air wave pressure therapeutic instrument atmospheric pressure test equipment, method, device and medium relates to the therapeutic instrument field, solves at the atmospheric pressure testing in-process, needs the manual work to insert the gas passage that needs aerify that air wave pressure therapeutic instrument and multicavity gasbag are connected with the detection head, and the test equipment that this application provided includes: the device comprises a controller, a communication module, an air pressure sensor, an electromagnetic valve and an air pipe; communication module acquires the current running state of air wave pressure therapeutic instrument during operation, and send to the controller, the controller can be according to current running state, switching on and closing of the solenoid valve that control corresponds, thereby whether the gas passage that control corresponds switches on, baroceptor is connected with the one end of solenoid valve, can detect the atmospheric pressure of the gas passage that switches on at present and send the atmospheric pressure value to the controller, realize the atmospheric pressure test of air wave pressure therapeutic instrument, do not need the staff in time according to the running state of air wave pressure therapeutic instrument, adjust the hookup location who detects the head.

Description

Air wave pressure therapeutic instrument air pressure testing device, method, device and medium

Technical Field

The application relates to the field of therapeutic instruments, in particular to air pressure testing equipment, method, device and medium for an air wave pressure therapeutic instrument.

Background

The air wave pressure therapeutic apparatus mainly forms the circulating pressure of limbs and tissues by sequentially and repeatedly inflating and deflating the multi-cavity air bags, evenly and orderly extrudes the limbs from the far end to the near end, promotes the flow of blood and lymph, improves the microcirculation effect, accelerates the backflow of the tissue fluid of the limbs, is beneficial to preventing the formation of thrombus and the edema of the limbs, and can directly or indirectly treat a plurality of diseases related to the blood lymph circulation. When the air wave pressure therapeutic apparatus is used, the multi-cavity air bag is inflated to generate certain pressure to perform treatment, and according to the national technical requirements, the pressure in the multi-cavity air bag and the set pressure error need to be controlled within a certain range, so that accurate air pressure testing equipment is required to perform pressure detection when the multi-cavity air bag is inflated during research and development tests, delivery tests and inspection tests of the air wave pressure therapeutic apparatus, and whether the technical requirements are met is judged. The existing air pressure detection device detects the air pressure condition of the air wave pressure therapeutic apparatus during working by connecting a detection head of the air pressure detection device with the air wave pressure therapeutic apparatus and a multi-cavity air bag.

In the working process of the air wave pressure therapeutic apparatus, the air wave pressure therapeutic apparatus is orderly inflated and deflated by inflating the multi-cavity inflatable multi-cavity air bag in a rhythmic manner so as to achieve the therapeutic effect; in the detection process, the detection head needs to be manually connected into a gas passage which is connected with the air wave pressure therapeutic apparatus and the multi-cavity air bag and needs to be inflated, and in the process, a worker needs to adjust the connection position of the detection head in time according to the running state of the air wave pressure therapeutic apparatus, so that the human resources are consumed.

Therefore, it is an urgent technical problem to be solved by those skilled in the art to provide an air pressure testing device for an air wave pressure therapeutic apparatus capable of automatically detecting pressure.

Disclosure of Invention

The utility model aims at providing a can carry out air wave pressure therapeutic instrument atmospheric pressure test equipment who detects pressure automatically.

In order to solve the above technical problem, the application provides an air wave pressure therapeutic instrument atmospheric pressure test equipment, includes:

the device comprises a controller 11, a communication module 12, an air pressure sensor 13, an electromagnetic valve 14 and an air pipe 17;

the communication module 12 is connected with the airwave pressure therapeutic apparatus 15 and the controller 11, and the communication module 12 is configured to acquire a current operating state of the airwave pressure therapeutic apparatus 15 during operation and send the operating state to the controller 11;

the number of the electromagnetic valves 14 and the number of the air pipes 17 are multiple, the electromagnetic valves 14 are respectively connected with the air pipes 17 in a one-to-one correspondence manner, an air inlet of the air pipe 17 is connected with an air outlet of the air wave pressure therapeutic apparatus 15, and an air outlet of the air pipe 17 is connected with a multi-cavity air bag 16;

the controller 11 is connected to the electromagnetic valves 14, and the controller 11 is configured to control the corresponding electromagnetic valves 14 to open or close according to the operating state so as to control the corresponding air pipes 17 to open or close;

the air pressure sensor 13 is connected with the multi-way electromagnetic valve 14 and the controller 11, and the air pressure sensor 13 is used for detecting an air pressure value and sending the air pressure value to the controller 11.

Preferably, the air wave pressure therapeutic apparatus air pressure testing device further comprises: an indication module;

the indicating module is connected with the controller 11 and is used for indicating the controller 11 to analyze the air pressure value to obtain an analysis result.

Preferably, the air wave pressure therapeutic apparatus air pressure testing device further comprises: a display module;

the display module is connected with the controller 11; for displaying the current operating data sent by the controller 11.

Preferably, the air wave pressure therapeutic apparatus air pressure testing device further comprises: a storage module;

the storage module is connected with the controller 11 and is used for receiving and storing the operation data sent by the controller 11.

Preferably, in the air pressure testing device for the airwave pressure therapy apparatus, the communication module 12 is connected with the airwave pressure therapy apparatus 15 through an RS232/RS485 interface.

Preferably, the air wave pressure therapeutic apparatus air pressure testing device further comprises: an alarm module;

the alarm module is connected with the controller 11 and used for giving an alarm when the air pressure value exceeds a preset value.

In order to solve the above technical problem, the present application further provides a method for testing air pressure of an airwave pressure therapeutic apparatus, which is applied to an air pressure testing device of the airwave pressure therapeutic apparatus, and includes: the device comprises a controller 11, a communication module 12, an air pressure sensor 13, an electromagnetic valve 14 and an air pipe 17;

the communication module 12 is connected with an air wave pressure therapeutic apparatus 15 and the controller 11, the number of the electromagnetic valves 14 and the number of the air pipes 17 are multiple, the electromagnetic valves 14 are respectively connected with the air pipes 17 in a one-to-one correspondence manner, the air inlets of the air pipes 17 are connected with the air outlets of the air wave pressure therapeutic apparatus 15, and the air outlets of the air pipes 17 are connected with a multi-cavity air bag 16; the electromagnetic valves 14 are used for controlling the corresponding air pipes 17 to open or close, the controller 11 is connected with the electromagnetic valves 14, and the air pressure sensor 13 is connected with the multi-way electromagnetic valves 14 and the controller 11;

the method is applied to the controller 11 and comprises the following steps:

receiving the current operating state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when the air wave pressure therapeutic apparatus is in operation;

controlling the corresponding electromagnetic valve 14 to be opened or closed according to the running state;

receives the air pressure value detected by the air pressure sensor 13.

For solving above-mentioned technical problem, this application still provides an air wave pressure therapeutic instrument atmospheric pressure testing arrangement, is applied to air wave pressure therapeutic instrument atmospheric pressure test equipment, includes: the device comprises a controller 11, a communication module 12, an air pressure sensor 13, an electromagnetic valve 14 and an air pipe 17;

the device comprises:

a running state receiving module, configured to receive the current running state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when the air wave pressure therapeutic apparatus works;

the control electromagnetic valve 14 module is used for controlling the corresponding electromagnetic valve 14 to be opened or closed according to the running state;

and the air pressure value receiving module is used for receiving the air pressure value detected by the air pressure sensor 13.

In order to solve the above technical problem, the present application further provides an air wave pressure therapeutic instrument air pressure testing device, including:

a memory for storing a computer program;

and the processor is used for realizing the steps of the air wave pressure therapeutic instrument air pressure testing method when the computer program is executed.

In order to solve the above technical problem, the present application further provides a computer readable storage medium, where a computer program is stored, and the computer program, when executed by a processor, implements the steps of the method for testing air pressure of an air wave pressure therapeutic apparatus.

The application provides an air wave pressure therapeutic instrument atmospheric pressure test equipment includes: the device comprises a controller, a communication module, an air pressure sensor, an electromagnetic valve and an air pipe; the communication module is connected with the air wave pressure therapeutic apparatus and the controller and is used for acquiring the current running state of the air wave pressure therapeutic apparatus during working and sending the running state to the controller; the number of the electromagnetic valves and the number of the air pipes are multiple, the electromagnetic valves are respectively connected with the air pipes in a one-to-one correspondence manner, the air inlets of the air pipes are connected with the air outlets of the air wave pressure therapeutic apparatus, and the air outlets of the air pipes are connected with the multi-cavity air bag; the controller is connected with the electromagnetic valves and is used for controlling the corresponding electromagnetic valves to be opened or closed according to the running state so as to control the corresponding air pipes to be opened or closed; the air pressure sensor is connected with the multi-way electromagnetic valve and the controller and used for detecting an air pressure value and sending the air pressure value to the controller. The application provides an air wave pressure therapeutic instrument atmospheric pressure test equipment, communication module acquires the current running state of air wave pressure therapeutic instrument during operation, and send running state to the controller, the controller can be according to current air wave pressure therapeutic instrument's running state, switching on and closing of control solenoid valve, thereby whether the gas passage that the control corresponds switches on, baroceptor is connected with the one end of solenoid valve, can detect the gas pressure of the gas passage that switches on at present and send the atmospheric pressure value that detects to the controller, realize the atmospheric pressure test of air wave pressure therapeutic instrument, need not staff's running state according to air wave pressure therapeutic instrument in time, adjust the hookup location who detects the head.

In addition, the application also provides a method, a device and a medium for testing the air pressure of the air wave pressure therapeutic apparatus, which correspond to the air pressure testing equipment of the air wave pressure therapeutic apparatus and have the same effects.

Drawings

In order to more clearly illustrate the embodiments of the present application, the drawings needed for the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a schematic structural diagram of an air pressure testing apparatus of an air wave pressure therapeutic apparatus according to an embodiment of the present application;

FIG. 2 is a flowchart of a method for measuring air pressure of an air wave pressure therapeutic apparatus according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of an air pressure testing apparatus for an air wave pressure therapeutic apparatus according to an embodiment of the present application;

fig. 4 is a structural diagram of another air wave pressure therapeutic apparatus air pressure testing device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the present application.

The core of this application is that a air wave pressure therapeutic instrument atmospheric pressure test equipment is provided.

In order that those skilled in the art will better understand the disclosure, the following detailed description is given with reference to the accompanying drawings.

The air wave pressure therapeutic apparatus 15, also called as a circulation pressure therapeutic apparatus, a gradient pressure therapeutic apparatus, a limb circulation apparatus or a pressure antithrombotic pump, mainly forms the circulation pressure to limbs and tissues by sequentially and repeatedly inflating and deflating the multi-cavity air bag 16, and achieves the effects of promoting the flow of blood and lymph and improving microcirculation; can directly or indirectly treat various diseases related to blood lymph circulation. By passive and uniform massage, the blood circulation is accelerated. Can accelerate the absorption of metabolic waste, inflammatory factors and pain-causing factors in blood. Can prevent muscular atrophy, prevent muscle fibrosis, enhance oxygen content of limbs, and is helpful for treating diseases (such as femoral head necrosis) caused by blood circulation disorder.

In order to ensure safety and effectiveness of a user when using the air wave pressure therapeutic apparatus 15, it is necessary to ensure that errors of the pressure intensity and the set pressure intensity in the multi-cavity airbag 16 when the air wave pressure therapeutic apparatus 15 works need to be controlled within a certain range, which cannot be higher than an upper limit value and cannot be lower than a lower limit value, so that accurate air pressure test equipment is required to perform pressure intensity detection when the multi-cavity airbag 16 is inflated during research and development tests, factory tests and inspection tests of the air wave pressure therapeutic apparatus 15, so as to judge whether technical requirements are met.

Generally, when the air wave pressure therapeutic apparatus 15 is used for sequentially and repeatedly inflating and deflating the multi-cavity airbag 16, the pressure detection of the inflating gas passage is required, the detection head needs to be manually connected to the inflating gas passage where the air wave pressure therapeutic apparatus 15 is connected with the multi-cavity airbag 16, and in the process, the connection position of the detection head needs to be adjusted by a worker in time according to the running state of the air wave pressure therapeutic apparatus 15, so that the labor resource is consumed. Therefore, the embodiment of the present application provides an air wave pressure therapeutic apparatus air pressure test device, fig. 1 is a schematic structural diagram of the air wave pressure therapeutic apparatus air pressure test device provided by the embodiment of the present application, as shown in fig. 1, including:

the device comprises a controller 11, a communication module 12, an air pressure sensor 13, an electromagnetic valve 14, an air inlet and an air outlet;

the communication module 12 is connected with the airwave pressure therapeutic apparatus 15 and the controller 11, and the communication module 12 is used for acquiring the current running state of the airwave pressure therapeutic apparatus 15 during working and sending the running state to the controller 11;

the number of the electromagnetic valves 14 and the number of the air inlets are multiple, the electromagnetic valves 14 are respectively connected with the air inlets and the air outlets in a one-to-one correspondence manner, the air inlets are connected with the air wave pressure therapeutic apparatus 15, and the air outlets are connected with the multi-cavity air bag 16;

the controller 11 is connected with the electromagnetic valves 14, and the controller 11 is used for controlling the corresponding electromagnetic valves 14 to be opened or closed according to the running state so as to control the corresponding air inlets and air outlets to be opened or closed;

In the embodiment, the air outlets of the air wave pressure therapeutic apparatus 15 are connected with the air inlets of the air tubes 17 in a one-to-one correspondence manner, the air outlets of the air tubes 17 are connected with the multi-cavity air bags 16 in a one-to-one correspondence manner, as shown in fig. 1, the air tubes 17 are connected through main air path three-way joints respectively, and the right-angle ends of the main air path three-way joints are connected to the air inlets of the corresponding electromagnetic valves 14; the air outlet of the electromagnetic valve 14 is connected to the straight joint or the four-way joint through an air pipe 17 and is connected to the air pressure sensor 13; fig. 1 only shows a schematic connection relationship of three electromagnetic valves 14, in an actual test, the number of the air tubes 17 and the number of the electromagnetic valves 14 are not limited, and the number of the air tubes 17 and the number of the air outlets of the air wave pressure treatment instrument 15 are set according to the number of the multi-cavity air bags 16 and the number of the air outlets of the air wave pressure treatment instrument 15, that is, the number of the air tubes 17 and the electromagnetic valves 14 of the test equipment is not less than the number of the multi-cavity air bags 16 and the number of the air outlets of the air wave pressure treatment instrument 15, so that the air tubes 17 of the test equipment can be correspondingly connected with the air outlets 16 of the multi-cavity air bags 16 and the air wave pressure treatment instrument 15 one by one.

The air outlet of the air wave pressure therapeutic apparatus 15 is connected to the air inlet of the testing equipment, the multi-cavity air bag 16 is connected to the air outlet of the testing equipment, therefore, when the air wave pressure therapeutic apparatus 15 runs, air enters the air inlet of the air pipe 17 of the testing equipment after coming out of the air outlet of the air wave pressure therapeutic apparatus 15, and then enters the multi-cavity air bag 16 from the air outlet of the air pipe 17 of the testing equipment, and the testing equipment can test the air pressure of each path by switching different air path electromagnetic valves 14, namely, the air pressure of each multi-cavity air bag 16 is corresponding.

Preferably, the solenoid valve 14 mentioned in this embodiment is a two-position two-way solenoid valve 14.

It should be noted that the communication module 12 mentioned in this embodiment is compatible with standard RS232 and RS485 communication interfaces, and performs data interaction with the air wave pressure therapeutic apparatus 15. The communication module 12 obtains an operation state of the air wave pressure therapeutic apparatus 15, where the operation state refers to which channel of the current air wave pressure therapeutic apparatus 15 is inflating to the multi-cavity airbag 16, the communication module 12 sends the obtained operation state to the controller 11, and the controller 11 controls the corresponding electromagnetic valve 14 to be opened according to the operation state, so that the air wave pressure therapeutic apparatus 15 inflates to the corresponding multi-cavity airbag 16, at this time, the gas enters the multi-cavity airbag 16 through the gas pipe 17 of the test equipment, and correspondingly, the pressure intensity of the current corresponding gas channel can be obtained by obtaining the pressure data obtained by the pressure sensor 13. The pressure value can be analyzed to determine whether it exceeds the upper limit or is lower than the lower limit. The detection of the air pressure of the air wave pressure therapeutic apparatus 15 is realized.

In addition, the controller 11 may analyze the current operation state of the air wave pressure therapeutic apparatus 15 through the air pressure value sent by the air pressure sensor 13. However, in this embodiment, the setting manner of the controller 11 determining whether it exceeds the upper limit or is lower than the upper limit or the lower limit of the lower limit is not limited, for example, the upper limit and the lower limit of the general pressure may be preset, or the upper limit and the lower limit of the pressure input by the user may be received.

Preferably, the controller 11 mentioned in this embodiment is a single chip microcomputer. Necessarily, the controller 11 and the communication module 12 mentioned in this embodiment need to be powered by a power module, and preferably, the power module is divided into two parts: one part directly supplies power to the controller 11 and the communication module 12 through an external adapter; the other part is powered by a battery; when the adapter is connected externally, the adapter is used for supplying power, the battery is charged simultaneously, and the adapter is automatically switched to supply power to the battery when not connected.

In addition, data interaction is carried out between the air wave pressure therapeutic apparatus 15 and the communication module 12 to obtain the running state of the air wave pressure therapeutic apparatus 15, preferably, if 12 air pipe 17 channels exist currently, two bytes of data bits are used for representing the air pipe 17 interface, each byte bit has 8 bit, each bit corresponds to one air pipe 17 interface, 12 bit is used, namely 8 bit of the first data and the low four bit of the second data are used for representing, from low to high, the 1 st path to the eighth path, and the low four bit of the second data sequentially represents the 9 th path to the 12 th path; when the air wave pressure therapeutic apparatus 15 controls the corresponding air pipe 17 to inflate, the corresponding bit is sent to be 1, and the other bits which are not opened are 0. The air pressure detection equipment receives the data, analyzes the two data bits, and controls the corresponding test air pipe 17 to open the electromagnetic valve 14 when detecting that the bit in the two data bits is 1, so as to perform corresponding air path pressure detection. Of course, the air tube 17 channel mentioned in this embodiment may be any number, and bytes representing the air tube 17 channel may be correspondingly added.

According to the air wave pressure therapeutic apparatus air pressure testing device, the communication module 12 is connected with the air wave pressure therapeutic apparatus 15 and the controller 11, and the communication module 12 is used for obtaining the current running state of the air wave pressure therapeutic apparatus 15 during working and sending the running state to the controller 11; the number of the electromagnetic valves 14 and the number of the air pipes 17 are multiple, the electromagnetic valves 14 are respectively connected with the air pipes 17 in a one-to-one correspondence manner, the air inlets of the air pipes 17 are connected with the air outlets of the air wave pressure therapeutic apparatuses 15, and the air outlets of the air pipes 17 are connected with the multi-cavity air bags 16; the controller 11 is connected with the electromagnetic valves 14, and the controller 11 is used for controlling the corresponding electromagnetic valves 14 to be opened or closed according to the running state so as to control the corresponding air pipes 17 to be opened or closed; the air pressure sensor 13 is connected with the multi-way electromagnetic valve 14 and the controller 11, and the air pressure sensor 13 is used for detecting an air pressure value and sending the air pressure value to the controller 11. The application provides an air wave pressure therapeutic instrument atmospheric pressure test equipment, communication module 12 acquires the current running state of air wave pressure therapeutic instrument 15 during operation, and send running state to controller 11, controller 11 can be according to current air wave pressure therapeutic instrument 15's running state, control switching on and closing of solenoid valve 14, thereby whether the trachea 17 passageway that the control corresponds switches on, baroceptor 13 is connected with solenoid valve 14's one end, can detect the atmospheric pressure of the gas passageway that switches on at present and send the atmospheric pressure value that detects to controller 11, realize air wave pressure therapeutic instrument 15's atmospheric pressure test, need not staff in time according to air wave pressure therapeutic instrument 15's running state, adjust the hookup location who detects the head.

In order to better understand the current testing status, this embodiment provides a preferred solution, and the air wave pressure therapeutic apparatus air pressure testing apparatus further includes: an indication module;

the indication module is connected with the controller 11 and is used for indicating the controller 11 to analyze the air pressure value to obtain an analysis result.

After the controller 11 receives the air pressure value detected by the air pressure sensor 13, whether the analyzed air pressure value exceeds a preset maximum value or is lower than a preset minimum value or not is analyzed, and correspondingly, the control indication module indicates the analysis result, so that a worker can better know the test state.

Preferably, the indication module is a three-color lamp; the number of the three-color lamps is the same as that of the 14 electromagnetic valves, and the three-color lamps correspond to the electromagnetic valves one by one.

For example, the three-color lamp is red, yellow and green, and each test air tube 17 channel corresponds to one indicator lamp to indicate the test state. When the test data of the round exceeds the limit, the controller 11 controls the corresponding three-color lamp to display red color to indicate that the current air pressure of the air path exceeds the limit; when the historical test data exceeds the limit, the controller 11 controls the corresponding three-color lamp to display yellow to indicate that the current air pressure of the air path is not exceeded, but the limit is exceeded in the previous test process, because the multi-cavity air bag 16 is repeatedly inflated and deflated in the working process of the air wave pressure therapeutic apparatus 15, the current test state is possibly normal, but the historical test is abnormal, and the worker can know the test state in time later by indicating that the historical data is abnormal; when the current data and the historical data are both in the normal range, the controller 11 controls the corresponding three-color light to indicate the green light.

The staff can directly know the test condition of the corresponding air circuit through the color of the three-color lamp of the indicating module.

According to the above embodiment, in order to enable the user to better analyze the testing process, the present embodiment provides a preferable solution, the air wave pressure therapeutic apparatus air pressure testing device, further comprising: a display module;

The display module is used for receiving and displaying the current operation data sent by the controller 11, including but not limited to the air pressure value of each air pipe 17 channel, the upper limit value, the lower limit value, the number of overrun times, the corresponding analysis chart and the like of the air pressure.

Preferably, the display module is further configured to receive a control command and send the control command to the controller 11.

For example, the user may input a control instruction for selecting the test mode through the display module, such as an automatic detection instruction or a manual detection instruction, and if the user selects the manual detection instruction, the method may further include receiving a detection threshold, that is, an upper pressure limit value and a lower pressure limit value corresponding to the channels of the air tube 17. And carrying out channel pressure test according to the pressure upper limit value and the pressure lower limit value set by the user, realizing user-defined detection and meeting different test requirements.

According to the above embodiment, in order to enable the user to refer to the test process after the test is finished, the present embodiment provides a preferable solution, the air wave pressure therapeutic apparatus air pressure test device, further comprising: a storage module;

the storage module is connected to the controller 11 and is configured to receive and store the operation data sent by the controller 11.

The storage module receives, in real time, the air pressure data of each air pipe 17 channel sent by the current air pressure sensor 13 and sent by the controller 11, and analyzes the air pressure value to obtain an analysis result, a test mode, data acquisition time, a test cycle number, a channel number, and the like. Preferably, the storage module is a Secure Digital Card (SD). The SD memory card is a new generation of memory devices based on semiconductor flash memory, and has the excellent characteristics of small size, high data transmission speed, hot-pluggable capability, large capacity, high performance, safety, etc.

According to the above embodiments, this embodiment provides a preferable scheme, and the communication module 12 is connected to the air wave pressure therapeutic apparatus 15 through an RS232/RS485 interface.

The RS232 has limited transmission distance, the maximum transmission distance standard value is 15 meters, only point-to-point communication can be realized, and the maximum transmission speed is 20kB/s at most. The maximum wireless transmission distance of the RS485 is 1200 meters. The maximum transmission rate is 10Mbps, the maximum communication distance can be reached only at the transmission rate of 100Kb/S, and the multi-station communication capability is realized. Through RS232/RS485 interface connection, the communication connection under different conditions can be adapted, and data interaction is realized.

Preferably, the air wave pressure therapeutic apparatus air pressure test device further comprises: an alarm module;

The alarm module is connected with the controller 11, and when the air pressure value exceeds a preset value, the controller 11 controls the alarm device to alarm. The embodiment does not limit the form of the alarm device, and can be designed according to actual needs, such as a warning lamp, a buzzer and the like.

In order to solve the above technical problem, the present application further provides an air wave pressure therapeutic apparatus air pressure testing method, applied to air wave pressure therapeutic apparatus air pressure testing equipment, including: the device comprises a controller 11, a communication module 12, an air pressure sensor 13, an electromagnetic valve 14, an air inlet and an air outlet;

the communication module 12 is connected with the air wave pressure therapeutic apparatus 15 and the controller 11, the number of the electromagnetic valves 14 and the number of the air inlets are multiple, the electromagnetic valves 14 are respectively connected with the air inlets and the air outlets in a one-to-one correspondence manner, the electromagnetic valves 14 are used for controlling whether the corresponding air inlets and the corresponding air outlets are communicated or not, the controller 11 is connected with the electromagnetic valves 14, and the air pressure sensor 13 is connected with the multi-way electromagnetic valves 14 and the controller 11;

the method is applied to the controller 11, and fig. 2 is a flowchart of an air pressure testing method of an air wave pressure therapeutic apparatus according to an embodiment of the present application, as shown in fig. 2, including:

s21: receiving the current running state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when the apparatus works;

s22: controlling the corresponding solenoid valve 14 to be opened or closed according to the operating state;

s23: receives the air pressure value detected by the air pressure sensor 13.

The communication module 12 obtains an operation state of the air wave pressure therapeutic apparatus 15, where the operation state refers to which channel of the current air wave pressure therapeutic apparatus 15 is inflating to the multi-cavity airbag 16, the communication module 12 sends the obtained operation state to the controller 11, and the controller 11 controls the corresponding electromagnetic valve 14 to be opened according to the operation state, so that the air wave pressure therapeutic apparatus 15 inflates to the corresponding multi-cavity airbag 16, at this time, the gas enters the multi-cavity airbag 16 through the gas pipe 17 of the test equipment, and correspondingly, the pressure intensity of the current corresponding gas channel can be obtained by obtaining the pressure data obtained by the pressure sensor 13.

The application provides an air wave pressure therapeutic instrument atmospheric pressure test method, controller 11 receives communication module 12 and obtains the current operation form of air wave pressure therapeutic instrument 15 during operation, controller 11 controls opening or closing of the corresponding solenoid valve 14 according to the running state, thereby control whether the trachea 17 passageway that corresponds switches on, baroceptor 13 is connected with the one end of solenoid valve 14, can detect the atmospheric pressure of the trachea 17 passageway that switches on at present and send the atmospheric pressure value that detects to controller 11, realize the atmospheric pressure test of air wave pressure therapeutic instrument 15, need not the staff in time according to the running state of air wave pressure therapeutic instrument 15, adjust the hookup location of measuring the head.

According to the above embodiment, the controller 11 may perform data analysis on the air pressure value after receiving the air pressure value, and this embodiment provides a preferable scheme, before receiving the current operating state of the airwave pressure therapeutic apparatus 15 during operation, acquired by the communication module 12, the method further includes:

receiving a mode instruction;

if the mode command represents the automatic test command;

starting the air wave pressure therapeutic apparatus 15, entering the step of receiving the current running state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when the air wave pressure therapeutic apparatus 15 works,

after receiving the air pressure value detected by the air pressure sensor 13, the method includes: performing data analysis according to a preset pressure threshold value;

if the mode instruction represents a manual test instruction;

receiving operation setting data;

starting the air wave pressure therapeutic apparatus 15, and entering a step of receiving the current running state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when the air wave pressure therapeutic apparatus 15 works;

after receiving the air pressure value detected by the air pressure sensor 13, the method includes: and performing data analysis according to the operation setting data.

The controller 11 receives a mode instruction, which may be input by a user, and the present embodiment does not limit the mode of user input, for example, the mode instruction is input by voice, input by a set physical button, input by a touch display module, and the touch display module sends the received instruction to the controller 11, and the mode instruction is designed according to actual needs.

If the controller 11 receives the automatic detection instruction, the air wave pressure therapeutic apparatus 15 is started, the air wave pressure therapeutic apparatus 15 sends start data, data for opening an air pipe 17 interface and data for testing an upper limit value and a lower limit value of the air pipe 17 interface to the communication module 12, the test equipment receives the data to analyze, and the electromagnetic valve 14 of the corresponding air pipe 17 is opened to perform air pressure detection. Preferably, the air wave pressure therapeutic apparatus air pressure testing device further comprises: a display module; the upper limit value and the lower limit value data of the corresponding air pipe 17 interface are updated on the test equipment controller 11 and the display module; the air wave pressure therapeutic apparatus 15 sends the upper limit value and the lower limit value data of the air pipe 17 test and opens the air pipe 17 data each time the cavity is cut, the air pressure test equipment receives the data to analyze, opens the corresponding air pipe 17 test electromagnetic valve 14 to detect the air pressure, and meanwhile, the test equipment controller 11 and the display screen update the upper limit value and the lower limit value data of the corresponding air pipe 17 interface; in the operation process, the air pressure sensor 13 detects the pressure intensity of the corresponding inflation inlet in real time, and displays the pressure intensity on the display module in real time for a tester to monitor and observe in real time.

Preferably, the air wave pressure therapeutic apparatus air pressure test device further comprises: an indication module; the indicating module is a three-color lamp; the number of the three-color lamps is the same as that of the 14 electromagnetic valves, and the three-color lamps correspond to the electromagnetic valves one by one.

The three-color lamp is powered on and is initially green, and the air pressure testing equipment has a period from the receiving of the starting data to the ending of the data. In the testing process, the pressure sensor 13 detects the pressure value in real time, the system compares and judges the pressure upper limit value and the pressure lower limit value of the preset pressure threshold value of the air pressure with the collected pressure value data, if the data in the current period exceed the upper limit value or are lower than the lower limit value, the data are judged to be abnormal, and the corresponding status indicator lamp is controlled to turn red; if data in the history period exceeds the upper limit value or is lower than the lower limit value, judging that the history data is abnormal, and controlling the corresponding status indicator lamp to turn yellow; if all data are higher than the lower limit value and lower than the upper limit value in the operation process, judging that no data are abnormal, and keeping the corresponding status indicator lamp in green.

Preferably, the air wave pressure therapeutic apparatus air pressure testing device further comprises: and an alarm module.

No matter which air pipe 17 channel is tested, when data is out of limit, the controller 11 controls the alarm module to alarm.

Preferably, air wave pressure therapeutic instrument atmospheric pressure test equipment still includes: and a storage module.

In the testing process, the controller 11 stores the testing data into the storage module, and in order to ensure the precision and facilitate the data analysis, the system stores the data into the storage module at intervals of preset time; the stored data comprises a test mode, data acquisition time, test cycle number, channel number, test data and the like.

Preferably, the controller 11 determines whether the data is overrun according to the air pressure value sent by the air pressure sensor 13, and if the data is overrun, the overrun data, the overrun period and the overrun channel are made into a graph and displayed on the display module. For easy viewing by the user.

Preferably, a single channel data clearing button is arranged on the display module, and can be used for selecting to clear data in a single period and clear all data; when the corresponding air pipe 17 channel has no overrun data after the historical data is cleared, the corresponding indicator light is turned to green.

If the controller 11 receives the manual detection instruction, it receives the operation setting data, that is, the upper limit value and the lower limit value of the normal range of each channel set by the user, and meanwhile, the controller 11 updates the reception in real time, so as to analyze the data. And starting the air wave pressure therapeutic apparatus 15, controlling the corresponding electromagnetic valve 14 to be powered on and opened by the controller 11, opening the corresponding channel of the test air pipe 17, and enabling the air to flow into the air pressure sensor 13 through the electromagnetic valve 14 to perform air pressure detection of the corresponding channel.

In the above embodiments, the air wave pressure therapeutic apparatus air pressure testing method is described in detail, and the application also provides embodiments corresponding to the air wave pressure therapeutic apparatus air pressure testing device. It should be noted that the present application describes the embodiments of the apparatus portion from two perspectives, one from the perspective of the function module and the other from the perspective of the hardware.

Fig. 3 is a schematic view of an air wave pressure therapeutic apparatus air pressure testing device provided in an embodiment of the present application, and is applied to an air wave pressure therapeutic apparatus air pressure testing apparatus, including: the device comprises a controller 11, a communication module 12, an air pressure sensor 13, an electromagnetic valve 14, an air inlet and an air outlet;

as shown in fig. 3, the apparatus includes:

a receiving operation state module 31, configured to receive the current operation state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when operating;

a control solenoid valve module 32 for controlling the opening or closing of the corresponding solenoid valve 14 according to the operation state;

and the air pressure value receiving module 33 is configured to receive the air pressure value detected by the air pressure sensor 13.

Specifically, the operation state receiving module 31 receives the current operation state of the air wave pressure therapeutic apparatus 15 obtained by the communication module 12 when operating; the control solenoid valve module 32 controls the opening or closing of the corresponding solenoid valve 14 according to the operation state; the receive air pressure value module 33 receives the air pressure value detected by the air pressure sensor 13. The air pressure test of the air wave pressure therapeutic apparatus 15 is realized, and the connecting position of the detection head is not required to be adjusted by a worker in time according to the running state of the air wave pressure therapeutic apparatus 15.

Since the embodiments of the apparatus portion and the method portion correspond to each other, please refer to the description of the embodiments of the method portion for the embodiments of the apparatus portion, which is not repeated here.

Fig. 4 is a structural diagram of another air wave pressure therapeutic apparatus air pressure testing device provided in the embodiment of the present application, and as shown in fig. 4, the air wave pressure therapeutic apparatus air pressure testing device includes: a memory 40 for storing a computer program;

and a processor 41, configured to implement the steps of the above-mentioned embodiment of the air wave pressure therapeutic apparatus air pressure testing method when executing the computer program.

The air pressure testing device of the air wave pressure therapeutic apparatus provided by the embodiment can include, but is not limited to, a smart phone, a tablet computer, a notebook computer or a desktop computer.

Processor 41 may include one or more processing cores, such as a 4-core processor, an 8-core processor, and so forth. The Processor 41 may be implemented in hardware using at least one of a Digital Signal Processor (DSP), a Field-Programmable Gate Array (FPGA), and a Programmable Logic Array (PLA). The processor 41 may also include a main processor and a coprocessor, where the main processor is a processor for Processing data in a wake state, and is also called a Central Processing Unit (CPU); a coprocessor is a low power processor for processing data in a standby state. In some embodiments, the processor 41 may be integrated with a Graphics Processing Unit (GPU) which is responsible for rendering and drawing the content required to be displayed on the display screen. In some embodiments, processor 41 may also include an Artificial Intelligence (AI) processor for processing computational operations related to machine learning.

Memory 40 may include one or more computer-readable storage media, which may be non-transitory. Memory 40 may also include high speed random access memory, as well as non-volatile memory, such as one or more magnetic disk storage devices, flash memory storage devices. In this embodiment, the memory 40 is at least used for storing a computer program 401, wherein the computer program can realize the relevant steps of the air wave pressure therapeutic apparatus air pressure testing method disclosed in any one of the foregoing embodiments after being loaded and executed by the processor 41. In addition, the resources stored in the memory 40 may also include an operating system 402, data 403, and the like, and the storage manner may be a transient storage or a permanent storage. Operating system 402 may include, among other things, windows, unix, linux, and the like. Data 403 may include, but is not limited to, data relating to the implementation of the airwave barometer barometry method, and the like.

In some embodiments, the device for testing the pressure of the air wave pressure therapeutic apparatus may further include a display 42, an input/output interface 43, a communication interface 44, a power supply 45, and a communication bus 46.

It will be appreciated by those skilled in the art that the configuration shown in figure 4 does not constitute a limitation of the air wave pressure gauge apparatus and may include more or fewer components than those shown.

The air wave pressure therapeutic instrument air pressure testing device provided by the embodiment of the application comprises a memory and a processor, wherein when the processor executes a program stored in the memory, the following method can be realized: an air pressure testing method for an air wave pressure therapeutic apparatus. The controller 11 receives the current operation state of the communication module 12 when acquiring the operation of the air wave pressure therapeutic apparatus 15, the controller 11 controls the corresponding electromagnetic valve 14 to be opened or closed according to the operation state, thereby controlling whether the corresponding air pipe 17 passage is conducted, the air pressure sensor 13 is connected with one end of the electromagnetic valve 14, the air pressure of the currently conducted air pipe 17 passage can be detected, the detected air pressure value is sent to the controller 11, the air pressure test of the air wave pressure therapeutic apparatus 15 is realized, and a worker is not required to adjust the connection position of the detection head in time according to the operation state of the air wave pressure therapeutic apparatus 15.

Finally, the application also provides a corresponding embodiment of the computer readable storage medium. The computer readable storage medium stores a computer program, and when executed by the processor, the computer program implements the steps described in the above embodiments of the method for testing the air pressure of an air wave pressure therapeutic apparatus.

It is to be understood that if the method in the above embodiments is implemented in the form of software functional units and sold or used as a stand-alone product, it can be stored in a computer readable storage medium. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium and executes all or part of the steps of the methods described in the embodiments of the present application, or all or part of the technical solutions. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The present embodiment provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method of: according to the air pressure testing method of the air wave pressure therapeutic apparatus, a controller 11 receives a current operation state of a communication module 12 when the air wave pressure therapeutic apparatus 15 works, the controller 11 controls the corresponding electromagnetic valve 14 to be opened or closed according to the operation state, so that whether the corresponding air pipe 17 passage is conducted or not is controlled, an air pressure sensor 13 is connected with one end of the electromagnetic valve 14, the air pressure of the currently conducted air pipe 17 passage can be detected, the detected air pressure value is sent to the controller 11, the air pressure testing of the air wave pressure therapeutic apparatus 15 is achieved, and a worker does not need to adjust the connection position of a detection head in time according to the operation state of the air wave pressure therapeutic apparatus 15.

The air wave pressure therapeutic apparatus air pressure testing device, method, device and medium provided by the present application are described in detail above. The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description. It should be noted that, for those skilled in the art, without departing from the principle of the present application, the present application can also make several improvements and modifications, and those improvements and modifications also fall into the protection scope of the claims of the present application.

It is further noted that, in the present specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

Claims

1. An air wave pressure therapeutic apparatus air pressure test device, comprising:

the device comprises a controller (11), a communication module (12), an air pressure sensor (13), an electromagnetic valve (14) and an air pipe (17);

the communication module (12) is connected with the air wave pressure therapeutic apparatus (15) and the controller (11), and the communication module (12) is used for acquiring the current running state of the air wave pressure therapeutic apparatus (15) during working and sending the running state to the controller (11);

the number of the electromagnetic valves (14) and the number of the air pipes (17) are multiple, the electromagnetic valves (14) are respectively connected with the air pipes (17) in a one-to-one correspondence manner, an air inlet of the air pipe (17) is connected with an air outlet of the air wave pressure therapeutic apparatus (15), and an air outlet of the air pipe (17) is connected with a multi-cavity air bag (16);

the controller (11) is connected with the electromagnetic valves (14), and the controller (11) is used for controlling the corresponding electromagnetic valves (14) to be opened or closed according to the running state so as to control the corresponding air pipes (17) to be opened or closed;

the air pressure sensor (13) is connected with the multi-way electromagnetic valve (14) and the controller (11), and the air pressure sensor (13) is used for detecting an air pressure value and sending the air pressure value to the controller (11).

2. The airwave pressure therapeutic apparatus pressure test device of claim 1, further comprising: an indication module;

the indicating module is connected with the controller (11) and used for indicating the controller (11) to analyze the air pressure value to obtain an analysis result.

3. The airwave pressure therapy apparatus air pressure test device of claim 1, further comprising: a display module;

the display module is connected with the controller (11); for displaying the current operating data sent by the controller (11).

4. The airwave pressure therapy apparatus air pressure test device of claim 1, further comprising: a storage module;

the storage module is connected with the controller (11) and used for receiving and storing the operation data sent by the controller (11).

5. The airwave pressure treatment apparatus pressure test device according to claim 1, wherein the communication module (12) is connected to the airwave pressure treatment apparatus (15) through an RS232/RS485 interface.

6. The airwave pressure therapy apparatus air pressure test device of claim 1, further comprising: an alarm module;

the alarm module is connected with the controller (11) and used for giving an alarm when the air pressure value exceeds a preset value.

7. A method for testing the air pressure of an air wave pressure therapeutic apparatus is characterized in that the method is applied to air pressure testing equipment of the air wave pressure therapeutic apparatus and comprises the following steps: the device comprises a controller (11), a communication module (12), an air pressure sensor (13), an electromagnetic valve (14) and an air pipe (17);

the communication module (12) is connected with the air wave pressure therapeutic apparatus (15) and the controller (11), the number of the electromagnetic valves (14) and the number of the air pipes (17) are multiple, the electromagnetic valves (14) are respectively connected with the air pipes (17) in a one-to-one correspondence manner, the air inlets of the air pipes (17) are connected with the air outlets of the air wave pressure therapeutic apparatus (15), and the air outlets of the air pipes (17) are connected with the multi-cavity air bag (16); the electromagnetic valve (14) is used for controlling the corresponding air pipe (17) to be opened or closed, the controller (11) is connected with the electromagnetic valve (14), and the air pressure sensor (13) is connected with the multi-way electromagnetic valve (14) and the controller (11);

the method is applied to the controller (11) and comprises the following steps:

receiving the current running state of the air wave pressure therapeutic apparatus (15) obtained by the communication module (12) when the air wave pressure therapeutic apparatus works;

controlling the corresponding electromagnetic valve (14) to be opened or closed according to the running state;

receiving the air pressure value detected by the air pressure sensor (13).

8. The utility model provides an air wave pressure therapeutic instrument atmospheric pressure testing arrangement which characterized in that is applied to air wave pressure therapeutic instrument atmospheric pressure test equipment, includes: the device comprises a controller (11), a communication module (12), an air pressure sensor (13), an electromagnetic valve (14), an air inlet and an air outlet;

the device comprises:

the operation state receiving module is used for receiving the current operation state of the air wave pressure therapeutic apparatus (15) obtained by the communication module (12) when the air wave pressure therapeutic apparatus works;

the control electromagnetic valve (14) module is used for controlling the corresponding electromagnetic valve (14) to be opened or closed according to the running state;

and the air pressure receiving module is used for receiving the air pressure value detected by the air pressure sensor (13).

9. The utility model provides an air wave pressure therapeutic instrument atmospheric pressure testing arrangement which characterized in that includes:

a memory for storing a computer program;

a processor for implementing the steps of the method of claim 7 when executing said computer program.

10. A computer-readable storage medium, characterized in that a computer program is stored on the computer-readable storage medium, which computer program, when being executed by a processor, carries out the steps of the method for air wave pressure therapy apparatus air pressure test according to claim 7.