Disclosure of Invention
The purpose of the invention is as follows: to solve the problems in the background art, the embodiment of the invention provides an aerosol therapy device capable of intelligently adjusting output drugs.
The technical scheme is as follows: an atomization treatment device capable of intelligently adjusting and outputting medicine, which comprises a control device, an atomization chamber and an atomization mask, wherein the control device comprises a processor, a driving device, a timing device and a display, the processor is connected with the driving device, the timing device and the display, the timing device is used for setting the time of medicine output and sending the time to the processor, the atomization chamber comprises an atomization generator, a medicine chamber and an atomization output pipe, the atomization generator is connected with the driving device and is used for extracting and atomizing the medicine in the medicine chamber and finally outputting the medicine in an atomized state, the medicine chamber comprises a plurality of storage chambers and a conduit, the storage chambers can be independently changed in medicine, the conduit is used for connecting the storage chambers with the atomization device, and the conduit comprises an electric control valve, the automatically controlled valve with the storeroom establishes one-to-one correspondence, with drive arrangement connects for the kind of control medicine output, cleaning device includes reservoir chamber and water jet equipment, the reservoir chamber with water jet equipment intercommunication, water jet equipment with atomizing output tube intercommunication, by the drive arrangement drive, atomizing output tube is used for connecting atomizing device with the face guard that atomizes.
In a preferred embodiment of the present invention, the control device further comprises an input device connected to the processor for inputting the name of the medicine corresponding to the storage room and a method for using the same.
In a preferred embodiment of the present invention, the control device further comprises a storage device, connected to the processor, for storing the prescription and the drug delivery time.
In a preferred embodiment of the present invention, the control device further comprises an alarm device connected to the driving device for giving an alarm when the medicine in the storage chamber is not used for one time after use.
In a preferred embodiment of the present invention, a pressure sensor is provided at the bottom of the storage chamber, and the pressure sensor is connected to the processor and transmits a measurement value to the processor.
The method comprises the following working steps:
a) the processor makes the storage chambers and the electric control valves suggest one-to-one correspondence;
b) presetting the drug atomization treatment time in each storage room in the timing device and sending the drug atomization treatment time to the processor, wherein the time comprises the drug atomization treatment starting time and the treatment duration time in each storage room;
c) the processor outputs an atomization signal to the driving device according to the medicament atomization treatment time in each storage room, and the driving device drives the atomization generator to start;
d) the processor outputs an output signal to the driving device, and the driving device drives the corresponding electric control valve to open;
e) the atomization generator extracts the medicine in the corresponding storage chamber, atomizes the medicine and finally outputs the medicine in an atomized state.
As a preferred mode of the present invention, before step a, the method further comprises:
the user puts the medicines into the storage chamber in sequence, and inputs the medicine name corresponding to the storage chamber and the using method thereof through the input device.
In a preferred embodiment of the present invention, the processor may store the name of the drug and the usage method by introducing the name of the drug into the storage device, and if the same name of the drug and usage method already exist in the storage device, the processor may directly output an atomization signal to the driving device, and the driving device may drive the atomization generator to start.
As a preferred mode of the present invention, after step e, the method further comprises:
after the atomization device is used once, the processor calculates the consumption of the medicines for atomization treatment once and the residual quantity of the medicines in the storage according to the change of the measuring value sent by the pressure sensor, if the consumption is larger than the residual quantity, an alarm signal is output to the driving device, and the driving device drives the alarm device to give an alarm and display the alarm on the display.
In a preferred embodiment of the present invention, the atomization generator further comprises, after being used once:
the processor outputs a cleaning signal to the driving device, and the driving device drives the water spraying device to start.
The invention realizes the following beneficial effects:
the invention simplifies the complicated steps of the patient when using the atomization therapeutic apparatus and improves the efficiency of the atomization therapeutic apparatus. The invention provides a plurality of liquid medicine storerooms, firstly, a one-to-one corresponding relation is established between liquid medicine which is put in firstly and the storerooms, secondly, a one-to-one corresponding relation is established between an electric control valve and the storerooms, so that the relation between the liquid medicine and the electric control valve is obtained, and a processor controls the opening and closing conditions of the electric control valve to control the output of the liquid medicine; the used medicine has a memory function and is convenient to use again; and the liquid medicine in the storeroom is insufficient, a reminding function is provided, in order to avoid the influence of the mixing of a plurality of liquid medicines on the treatment effect, a cleaning device is specially provided, and after one liquid medicine is output, the cleaning device can clean the atomization output pipe.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Example one
As shown in fig. 1, an atomization treatment device for intelligently adjusting output of a drug comprises a control device 1, an atomization chamber 2, a cleaning device 3 and an atomization mask 4, wherein the control device 1 comprises a processor 5, a driving device 6, a timing device 7 and a display 8, the processor 5 is connected with the driving device 6, the timing device 7 and the display 8, the timing device 7 is used for setting the time of drug output and sending the time to the processor 5, the atomization chamber 2 comprises an atomization generator 9, a drug chamber 10 and an atomization output tube 11, the atomization generator 9 is connected with the driving device 6 and is used for extracting and atomizing the drug in the drug chamber 10 and finally outputting the drug in an atomized state, the drug chamber 10 comprises a plurality of storage chambers 12 and a conduit 13, the storage chambers 12 can be independently changed, the pipe 13 is used for connecting the storeroom 12 with the atomizing device, the pipe 13 includes the electric control valve 14, the electric control valve 14 with the storeroom 12 establishes a one-to-one correspondence, with the drive arrangement 6 is connected for controlling the kind of medicine output, the cleaning device 3 includes the reservoir 15 and the water jet equipment 16, the reservoir 15 with the water jet equipment 16 intercommunication, the water jet equipment 16 with the output tube 11 intercommunication atomizes, the output tube 11 that atomizes is used for connecting the atomizing device with the face guard 4 atomizes.
The control device 1 further comprises an input device 17, the input device 17 being connected to the processor 5 for inputting a name of a medication corresponding to the storage compartment 12 and a method of use thereof.
The control device 1 further comprises a storage device 18, the storage device 18 being connected to the processor 5 for storing the prescription and the time of delivery of the medication.
Specifically, the invention provides an aerosol therapy device comprising a control device 1, an aerosol chamber 2 and an aerosol mask 4, wherein the control device 1 is located inside the aerosol chamber 2 and at the bottom of the aerosol chamber 2, the control device 1 comprises a processor 5, a driving device 6, a timing device 7, a display 8, an input device 17 and a storage device 18, the display 8 and the input device 17 are located outside the aerosol chamber 2, the input device 17 is located below the display 8, a user inputs a drug name corresponding to the storage chamber 12 and a using method thereof through the input device, the processor 5 acquires the drug name and the using method thereof and presents the drug name and the using method to the user on the display 8, the timing device 7 is used for setting the drug output time and the output interval time, for example, four medicaments comprising A, B, C and D are sequentially put into the first storage chamber 12, the second storage chamber 12, the third storage chamber 12 and the fourth storage chamber 12 of a certain patient to be treated, the opening time of the first storage chamber 12, the second storage chamber 12, the third storage chamber 12 and the fourth storage chamber 12 is set in the timing device 7 according to the sequence of the use of the medicaments and the time of the atomization treatment, if the use interval exists between the two medicaments, the output interval time is also set, for example, the use sequence of the four medicaments is A, B, C and D, wherein A needs the atomization treatment for 30 minutes, B needs the atomization for 30 minutes, and the opening time of the second storage chamber 12 is set in the timing device 7 to be one hour after A is opened. The medicine chamber 10 is located above the control device 1, the medicine chamber 10 includes a plurality of storage chambers 12 therein, the number of the storage chambers 12 can be designed according to the kind of medicine to be used, the storage chambers 12 are all equipped with corresponding conduits 13 to communicate therewith, the bottom of the storage chamber 12 is further provided with a pressure sensor 20, the pressure sensor 20 is used for detecting the residual capacity of the medicine in the storage chamber 12 and sending the residual capacity to the processor 5, the conduits 13 are internally provided with electrically controlled valves 14, the electrically controlled valves 14 and the storage chambers establish a one-to-one correspondence relationship, the processor 5 controls the opening and closing conditions of the electrically controlled valves 14 to control the output of the medicine liquid, the electrically controlled valves 14 are initially in a closed state, and only one of the electrically controlled valves 14 is in an open state. For example, the processor 5 outputs a first output signal to the driving device 6, the driving device 6 drives the first electrically controlled valve 14 to open, when the B medicine needs to be used, the processor 5 outputs a first closing signal to the driving device 6, the driving device 6 drives the first electrically controlled valve 14 to close, the processor 5 outputs a second output signal to the driving device 6, and the driving device 6 drives the second electrically controlled valve 14 to open.
With the pipe 13 other end of storeroom 12 intercommunication with atomization generator 9 connects, atomization generator 9 rethread atomization output tube 11 is connected with atomizer face guard 4, atomization generator 9 can extract medicine in the storeroom 12 and atomize it, through atomization output tube 11 is with the medicine output of atomizing state, atomization output tube 11 with atomization generator 9 and atomizer face guard 4's junction has all used sealed pad to handle, prevents to cause the loss of atomizing medicament, atomization output tube 11 is medical silica gel hose, atomizer face guard 4 both sides are equipped with circular aperture, circular aperture is used for taking a breath.
Example two
As shown in fig. 2, an adjusting method of an aerosol therapy device for intelligently adjusting output of a drug includes the following working steps:
a) the processor 5 proposes a one-to-one relationship between the storage chambers 12 and the electrically controlled valves 14;
b) presetting the medicament atomization treatment time in each storage room 12 in the timing device 7 and sending the medicament atomization treatment time to the processor 5, wherein the time comprises the medicament atomization treatment starting time and the treatment duration time in each storage room 12;
c) the processor 5 outputs an atomization signal to the driving device 6 according to the medicament atomization treatment time in each storage chamber 12, and the driving device 6 drives the atomization generator 9 to start;
d) the processor 5 outputs an output signal to the driving device 6, and the driving device 6 drives the corresponding electric control valve 14 to open;
e) the atomization generator 9 extracts and atomizes the medicine in the corresponding storage chamber 12, and finally outputs the medicine in an atomized state.
Before step a, the method further comprises the following steps:
the user sequentially puts medicines into the storage chamber 12 and inputs the name of the medicine corresponding to the storage chamber 12 and the method of using the same through the input device 17.
The processor 5 imports and stores the name of the medicine and the using method in the storage device 18, and if the same name of the medicine and the same using method already exist in the storage device 18, the processor 5 directly outputs an atomization signal to the driving device 6, and the driving device 6 drives the atomization generator 9 to start.
Specifically, the user inputs the names of the medicines corresponding to the storage chambers 12 and the using method thereof through the input device, the medicines and the storage chambers 12 establish a one-to-one correspondence, the input sequence is the first storage chamber 12, the second storage chamber 12, the third storage chamber 12 and the fourth storage chamber 12, the using method is the starting time of the medicine atomization treatment and the treatment duration in each storage chamber 12, and the processor 5 stores the data into the storage device 18. When the user outputs the medicine name and the using method next time, the processor 5 imports the data input by the user into the storage device 18, if the storage device 18 does not contain the same data, the data are stored, if the same medicine name and the using method exist in the storage device 18, the processor 5 directly outputs the atomization signal to the driving device 6, and the driving device 6 drives the atomization generator 9 to start, so that the adjusting step is simplified.
EXAMPLE III
As shown in fig. 3, the control device 1 further comprises an alarm device 19, wherein the alarm device 19 is connected to the driving device 6 for giving an alarm when the medicine in the storage chamber 12 is not used for one time after use.
The bottom of the storage chamber 12 is provided with a pressure sensor 20, and the pressure sensor 20 is connected with the processor 5 and transmits the measured value to the processor 5.
After the atomization device is used once, the processor 5 calculates the consumption of the medicine for atomization treatment once and the residual quantity of the medicine in the storage according to the change of the measuring value sent by the pressure sensor 20, if the consumption is larger than the residual quantity, an alarm signal is output to the driving device 6, and the driving device 6 drives the alarm device 19 to give an alarm and display the alarm on the display 8.
After the atomization generator 9 is used once, the method further comprises the following steps:
the processor 5 outputs a cleaning signal to the driving device 6, and the driving device 6 drives the water spraying device 6 to start.
Specifically, when the device is started, the processor 5 controls the pressure sensor 20 to be turned on, the pressure sensor 20 detects the residual capacity of the medicament in the storage chamber 12 and sends the residual capacity of the medicament to the processor 5, and the pressure sensor 20 and the alarm device 19 work together to remind a user of timely replenishing the medicament. The reminding method comprises the following steps that before the first electric control valve 14 is opened, the first pressure sensor 20 measures that the volume of liquid medicine in the first storage chamber 12 is X, after the first electric control valve 14 is closed, the first pressure sensor 20 measures that the volume of liquid medicine in the first storage chamber 12 is Y, then the once consumption of the liquid medicine in the first storage chamber 12 is (X-Y), and the processor 5 judges the size relation between Y and (X-Y); if Y is greater than or equal to (X-Y), it indicates that the remaining capacity of the liquid medicine is sufficient for the next use, and if Y is less than (X-Y), it indicates that the remaining capacity of the liquid medicine is insufficient for the next use, the processor 5 outputs an alarm signal to the driving device 6, the driving device 6 drives the alarm device 19 to give an alarm sound, and at the same time, the processor 5 displays a reminding content on the display 8, where the reminding content is "the remaining capacity of the liquid medicine a in the first storage room is Y, and is insufficient for the next use, please supplement in time. "
Because need adjust the usefulness of exporting different types, and different types of medicine all need follow an atomizing output tube 11 output, when a medicine liquefaction output, will remain the liquid medicine and attach to atomizing output tube 11 is last, when next liquid medicine atomizing output, can with the mixed output of remaining medicine on atomizing output tube 11, different types of medicine mixed back may exert an influence to the treatment, is more aggravated the patient's state of an illness, consequently after every kind of medicine output finishes, promptly after atomizer 9 works once, processor 5 to drive arrangement 6 outputs the clearance signal, drive arrangement 6 drive water jet equipment 16 starts, water jet equipment 16 follows extract moisture in reservoir 15 pours into in the atomizing output tube 11, the warp atomizing 4 discharges.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.