CN112451384A

CN112451384A - Patient on-time medicine taking prompting device

Info

Publication number: CN112451384A
Application number: CN202011399963.5A
Authority: CN
Inventors: 朱宏
Original assignee: Smart Medical Technology Shanghai Co ltd
Current assignee: Smart Medical Technology Shanghai Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-09

Abstract

The prompt device for the patient to take medicine on time comprises a voltage-stabilized power supply, a medicine box, a time control circuit, a wireless transmitting circuit and a receiving circuit; the upper end of the medicine box is provided with a point-action type power switch, and the voltage-stabilized power supply, the time control circuit, the control circuit and the wireless transmitting circuit are arranged in the medicine box and are electrically connected with the power switch; the receiving circuit comprises a power socket, a storage battery, a wireless receiving sub-circuit, a vibration motor and a power switch which are electrically connected and arranged in the element box. The invention has simple structure and low cost, does not need the participation of doctors and family members in the application, is convenient to use, can monitor the medicine taking condition of the patient in a plurality of medicine taking time periods required every day under the combined action of related circuits and mechanisms, can give vibration and luminous prompts to the patient at the first time when the patient does not take the medicine on time, and stops prompting until the patient opens the medicine box to take the medicine, thereby effectively ensuring that the patient can take the medicine on time. Based on the above, the invention has good prospect.

Description

Patient on-time medicine taking prompting device

Technical Field

The invention relates to the technical field of medical equipment application, in particular to a prompt device for prompting a patient to take medicine on time.

Background

In clinical medical treatment, timely taking medicine is the basis for guaranteeing disease rehabilitation, and in actual conditions, patients have the probability of not taking medicine on time due to reasons such as work or busy learning or poor memory, so that the disease rehabilitation is unfavorable. In the prior art, although a device for prompting a patient to take medicine on time is also provided, the prior art has a large application defect.

For example, the patent number 2019109702924 and the patent name in China are patent technologies of a medical intelligent medicine box system, the structure of which comprises a lithium storage battery, a key power switch, a charging socket, a medicine box, a medicine bottle, a weight detection circuit, a signal sending control circuit, a signal sending circuit, a timing circuit, a counting prompt circuit, an information receiving unit, an information comparison unit, an information pushing unit and the like, and the medical intelligent medicine box system has the defects of complex structure and high cost (inconvenient maintenance). Most importantly, when the intelligent medicine taking system works, a related mechanism monitors the condition that a patient takes medicine on time every day, medicine taking data of the patient every day are transmitted to interconnected equipment for mainly doctors, families and the like within a certain time, after the doctors, the families and the like receive the related data, a plurality of medicine bottle weight signals are displayed on a screen of the Internet equipment in a specific numerical value or waveform under the action of an information receiving unit in the Internet equipment, the condition that the patient takes medicine the same day is obtained by comparing the weight data of a plurality of medicine bottles in the historical period of the patient through an information comparing unit, and then the patient can be reminded in time when the patient does not take medicine, and the treatment effect of the medicine taken by the patient is guaranteed. It can be seen that the medical intelligent medicine box system can only realize the technical effect of the invention through the internet technology and the complex structure and the participation of families and doctors in many ways, under the actual condition, the doctor is busy in work, the number of patients is large, the medicine taking condition of each patient cannot be supervised every day (the work load of the doctor is increased by pushing a short message when the medicine is not taken on time), the family or the patient receives the short message pushed by the doctor and observes the oscillogram data in a passive mode, if the data and the information are not observed in time, the prompt of the patient to take the medicine on time can not be clearly played (the medical intelligent medicine box system detects the reduction of tablets through the force sensitive resistor, under the actual condition, the weight of a plurality of medicines is very light, even the hypertension medicines and the like can be taken once a day, and the weight change detected by the force sensitive resistor is extremely small, the waveform diagram change of the corresponding display is very weak, and the doctor, family members and the like cannot be guaranteed to distinguish whether the medicine is taken or not, so that the method has great defects). Finally, not all patients and family members (for example, related functions of a mobile phone or a computer cannot be normally used due to age or knowledge level factor influence) can normally use the application APP (some patients even have limited culture and cannot normally receive and view short message content) of the mobile phone or the computer end to compare the medicine taking condition, so that the effect of prompting to take medicine on time every day cannot be ensured. Based on the above, the device which does not depend on the internet technology, has a simple structure, is convenient to use and low in cost, and can achieve the daily prompt of taking medicine on time is particularly necessary.

Disclosure of Invention

In order to overcome the defects of the prior medicine taking prompting equipment for patients, which is limited by the structure and is described in the background technology, the invention provides the medicine taking prompting device which has the advantages of simple structure and low cost, does not need the participation of doctors and family members in the application, is convenient to use, can monitor the medicine taking condition of the patients in a plurality of medicine taking time periods required every day under the combined action of related circuits and mechanisms, can give the vibration and luminous prompt to the patients at the first time when the patients do not take medicines on time, and can stop the prompt until the patients open the medicine box to take the medicines, thereby effectively ensuring that the patients can take the medicines on time.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the prompt device for the patient to take medicine on time comprises a voltage-stabilized power supply and a medicine box, and is characterized by also comprising a time control circuit, a wireless transmitting circuit and a receiving circuit; a point-operated power switch is arranged at the upper end of the medicine box, a button of the power switch faces upwards, and after an upper cover is covered at the upper end of the medicine box, a normally open contact inside the power switch is closed; the stabilized voltage power supply, the time control circuit, the control circuit and the wireless transmitting circuit are arranged in the medicine box; the power output end of the voltage-stabilized power supply is electrically connected with the two power input ends of the time control circuit and the control circuit respectively; the signal output end of the time control circuit is connected with the signal input end of the control circuit; the power supply output end of the control circuit is electrically connected with the power supply input end of the wireless transmitting circuit; the receiving circuit is arranged in the element box and comprises a power socket, a storage battery, a wireless receiving sub-circuit, a vibrating motor and a power switch, the two poles of the storage battery are electrically connected with the two power input ends of the wireless receiving sub-circuit respectively, and the two power output ends of the wireless receiving sub-circuit are electrically connected with the two power input ends of the vibrating motor respectively.

Further, the stabilized voltage supply is an alternating current to direct current switching power supply module.

Furthermore, the time control circuit is a microcomputer time control switch.

Furthermore, the control circuit comprises a resistor, a silicon controlled rectifier, a light emitting diode, a relay, an electrolytic capacitor and an adjustable resistor, wherein the resistor, the silicon controlled rectifier, the light emitting diode, the relay, the electrolytic capacitor and the adjustable resistor are electrically connected, the anode of the silicon controlled rectifier is connected with the input end of a control power supply of the relay, the cathode of the silicon controlled rectifier is connected with the input end of a positive power supply of the relay, one end of the adjustable resistor is connected with one end of the resistor and the anode of the electrolytic capacitor, the other end of the resistor is connected with.

Furthermore, the wireless transmitting circuit is a wireless transmitting circuit module, and two contacts under one of the keys of the wireless transmitting circuit module are electrically connected together.

Furthermore, the wireless receiving sub-circuit of the receiving circuit comprises a wireless receiving circuit module, a resistor and an NPN triode which are electrically connected, the output end of the wireless receiving circuit module is connected with one end of the resistor, the other end of the resistor is connected with the base electrode of the NPN triode, the negative power input end of the wireless receiving circuit module is connected with the emitting electrode of the NPN triode, and two wiring terminals of the power switch are connected in series between one end of the resistor and one end of the adjustable resistor through wires.

The invention has the beneficial effects that: when the medicine box is used, the medicine is put into the upper end of the medicine box, and then the upper cover is closed, and the internal contact of the power switch is closed. The time switch can be at a certain time quantum output power to control circuit every day, control circuit gets electric work back, if in a certain time, the user does not open the upper cover and takes medicine and can make emitting diode give off light always, and the vibrating motor of user's side is got electric production vibration always, and like this, the user just can observe emitting diode and give off light to under the vibrating motor vibration suggestion, in time take medicine on time, open the upper cover after, emitting diode and vibrating motor all lose electric no longer work. The invention has simple structure and low cost, does not need the participation of doctors and family members in the application, is convenient to use, can monitor the medicine taking condition of the patient in a plurality of medicine taking time periods required every day under the combined action of related circuits and mechanisms, can give vibration and luminous prompts to the patient at the first time when the patient does not take the medicine on time, and stops prompting until the patient opens the medicine box to take the medicine, thereby effectively ensuring that the patient can take the medicine on time. Based on the above, the invention has good application prospect.

Drawings

The working principle of the present invention will be further explained with reference to the drawings and the embodiments.

FIG. 1 is a schematic view of the structure and a partial enlargement of the present invention.

Fig. 2 and 3 are circuit diagrams of the present invention.

Detailed Description

As shown in figure 1, the prompt device for the patient to take medicine on time comprises a voltage-stabilized power supply 1, a cylindrical medicine box 2, a time control circuit 3, a control circuit 4, a wireless transmitting circuit 5 and a receiving circuit; the medicine box 2 is divided into an upper layer and a lower layer of independent spaces, the upper end of the medicine box 2 is of an open structure and is provided with an upper cover 21 with the inner diameter slightly larger than the outer diameter of the upper end of the medicine box, the right side of the upper end of the medicine box 2 is provided with an inward concave groove 22, a point-operated power switch 23 is installed in the groove 22, a button of the power switch 23 faces upwards, after the upper cover 21 covers the upper end of the medicine box 2, a normally open contact inside the power switch 23 is closed, and the medicine 7 to be taken is placed in the upper end of the medicine box; the stabilized voltage supply 1, the time control circuit 3, the control circuit 4 and the wireless transmitting circuit 5 are arranged on a circuit board, and the circuit board is arranged at the inner lower end of the medicine box 1; the receiving circuit 6 is arranged in a small plastic box 8, and comprises a power socket 61 arranged on a circuit board, a storage battery 62, a wireless receiving sub-circuit 63, a vibrating motor 64 and a power switch 65 (an operating handle is positioned outside an opening at the front end of the plastic box 8).

As shown in FIGS. 1, 2 and 3, regulated power supply A1 is a finished product of a 220V/12/50W AC-DC switching power supply module. The time control circuit is microcomputer time control switch finished product A2 of model KG316T, which has two

power input ends

1 and 2 pins, two

power output ends

3 and 4 pins, and also has a liquid crystal display screen, and cancel/restore, time correction, week correction, automatic/manual, timing, clock operation keys, and a plurality of keys are respectively operated through the numbers displayed by the liquid crystal display screen, the time of the power output ends 3 and 4 pins for outputting power can be set, the inside of the microcomputer time control switch finished product is provided with a lithium storage battery, as long as the secondary regulation is not carried out, the power of an external power supply is cut off, the time program set inside can not be changed, and the display screen and the keys of the microcomputer time control switch finished product U are respectively positioned outside the front opening at the lower end of the medicine. The control circuit comprises a resistor R, a silicon controlled rectifier VS, a light emitting diode VL, a relay K1, an electrolytic capacitor C1 and an adjustable resistor RP, wherein the resistor R, the silicon controlled rectifier VS, a positive electrode of the light emitting diode VL, a control power supply input end of the relay K1, a negative electrode of the silicon controlled rectifier VS and a positive power supply input end of the relay K1 are connected through circuit board wiring, one end of the adjustable resistor RP is connected with one end of the resistor R and a positive electrode of the electrolytic capacitor C1, the other end of the resistor R is connected with a control electrode of the silicon controlled rectifier VS, a negative electrode of the electrolytic capacitor C1 is connected with a negative power supply input end of the relay K1; two terminals of the power switch ST are connected in series between one end of the resistor R and one end of the adjustable resistor RP through a lead. The wireless transmitting circuit A3 is a wireless transmitting circuit module finished product (wireless signal transmitting distance 1500 m) of model SF1500, and has four wireless transmitting keys which can transmit four different wireless control signals when being pressed respectively, and a coding circuit is arranged in the wireless transmitting circuit module, and the wireless transmitting circuit module transmitting wireless signals of the same model can be prevented from interfering with each other by coding through the coding circuit, and two contacts under a first key S of the wireless transmitting circuit module A3 are connected together through a lead. The wireless receiving sub-circuit of the receiving circuit comprises a wireless receiving circuit module finished product A4 of SF1500 model, a resistor R1 and an NPN triode Q which are connected through circuit board wiring, a coding circuit is arranged in the wireless receiving circuit module finished product A4, the same model of wireless receiving circuit module can be prevented from receiving wireless signals and interfering with each other through coding of the coding circuit, 4 pins (

other pins

2, 5, 6 and 7 are suspended) of the output end of the wireless receiving circuit module A4 are connected with one end of the resistor R1, the other end of the resistor R1 is connected with the base electrode of the NPN triode Q, and the 3 pin of the negative power supply input end of the wireless receiving circuit module A4 is connected with the emitter of the NPN triode. A power switch SK1 is connected in series between the anode of the controlled silicon VS1 and the 3 feet of the regulated power supply A1, and the operating handle is positioned outside the opening at the front lower end of the medicine box 2.

As shown in fig. 1, 2 and 3,

pins

1 and 2 of the power input end of regulated power supply a1 and two poles of an alternating current 220V power supply are respectively connected through leads (plugged into a mains socket through a power plug).

Pins

3 and 4 of a power output end of the voltage-stabilized power supply A1, silicon controlled rectifier VS anodes at two power input ends of the control circuit, a power input end of a light-emitting diode VL cathode and

pins

1 and 2 at two power input ends of the time control circuit are respectively connected through leads. And a pin 3 of a signal output end of the time control circuit A2 is connected with the other end of the adjustable resistor RP of the signal input end of the control circuit. The signal output end relay K1 normally open contact end of the control circuit and the power input end of the light emitting diode VL cathode are respectively connected with the

power input ends

1 and 2 pins of the wireless transmitting circuit A3 through leads. The receiving circuit is installed in a small plastic box and comprises a power socket CZ, a storage battery G (model 5V/3Ah), a wireless receiving sub-circuit, a vibrating motor M and a power switch SK, and the two ends of the charging socket CZ and the two poles of the storage battery G are respectively connected through leads (when the storage battery G is out of power, an external power supply charger plug can be inserted into the charging socket CZ to charge the storage battery G, or a USB power supply plug is inserted into a mobile phone charging socket to charge the storage battery G). The positive pole of the storage battery G is connected with one end of the power switch SK through a lead, and the other end of the power switch SK, the negative pole of the storage battery G and the

pins

1 and 2 of the wireless receiving circuit module A4 at the two power input ends of the wireless receiving sub-circuit are respectively connected through leads. The collector of the NPN triode Q at the two ends of the power output of the wireless receiving sub-circuit, the positive power input end of the wireless receiving circuit module A4 and the two ends of the power input of the vibrating motor M are respectively connected through leads. The receiving circuit 6 of the invention is carried by the user at ordinary times, and a buckle 81 can be arranged at the rear end of the plastic box 8 to hang the receiving circuit 6 on the waistband.

As shown in fig. 1, 2 and 3, after the 220V ac power supply enters

pins

1 and 2 of regulated power supply a1, regulated power supply a1 is in a power-on operating state, regulated power supply a1 outputs a stable 12V power supply under the action of its internal circuit, and enters the power input terminal of time control switch a2 and the power input terminal of the control circuit, so that time control switch a2 and the control circuit are in a power-on operating state. After the user turns on the portable receiving circuit power switch SK, the wireless receiving circuit module a4 is in a power-on working state. In the present invention, when no medicine is taken, the upper cover 21 is covered on the upper end of the medicine box 2, and the normally open contact inside the power switch 23(ST) is closed. After the time control switch a2 is powered on, under the action of its internal circuit and the user-set time of the 3 and 4-pin output power supplies (time adjustable), the power supply will enter the other end of the adjustable resistor RP of the control circuit every day at a certain time period (for example, the power supply is output from 8 am to 8 am 30, from 11 am to 12 pm, and from 5 pm to 40 pm to 6 pm and 10 minutes). Thus, after the time control switch A2 respectively outputs power to the other end of the adjustable resistor RP from 8 am to 8 am 30, or from 11 am 30 to 12 pm, and from 5 pm 40 to 6 pm 10, the positive electrode of the power output by the pin 3 of the time control switch A2 is subjected to voltage reduction and current limitation by the resistor RP to charge the electrolytic capacitor C1; within the first 29 minutes and 50 seconds, when the electrolytic capacitor C1 is not fully charged, the 5V power supply positive electrode is subjected to voltage reduction and current limitation by the resistor R and the adjustable resistor RP and then enters the controlled silicon VS to control the voltage lower than the conducting voltage (the charging time can be changed by adjusting the resistance value of the adjustable resistor RP, the resistor is large, the charging time is slow, the charging time is long, and the reverse is short), so that the controlled silicon VS is in a cut-off state, the subsequent relay K1 cannot be electrified and attracted, and the wireless transmitting circuit module A3 cannot transmit a wireless signal. After charging for 29 minutes and 50 seconds, when the electrolytic capacitor C1 is fully charged, the 5V power supply anode is subjected to voltage reduction and current limitation by the resistor R and the adjustable resistor RP and then enters the silicon controlled rectifier VS to control the voltage higher than the breakover voltage (the breakover voltage is more than 0.8V), so that the silicon controlled rectifier VS is triggered to be conducted, and then the relay K1 is electrified to pull in the control power supply input end and the normally open contact end to be closed. Because the positive pole of the light-emitting diode VL is connected with the normally open contact end of the relay K1, the light-emitting diode VL can be powered to emit light at the moment to prompt a user to take medicine on time. After the relay K1 gets electricity, because the anodal power input end of wireless transmitting circuit module A3 and relay K1 normally open contact end are connected, and two contacts under the first button S of wireless transmitting circuit module A3 are connected through the wire in advance, so, wireless transmitting circuit module A3 can launch the wireless closed signal of first way this moment. Through the above, in the last 10 seconds of the time period (for example, 8 am to 8 am 30, 11 am 30 to 12 pm, 5 pm 40 to 6 pm 10 minutes) in which medicine needs to be taken, if the user opens the upper cover 21 to take medicine, since the power switch ST is connected in series between the 3 feet of the time control switch a2, the other end of the adjustable resistor RP and the resistor R, the relay K1 cannot be powered to attract, the wireless transmitting circuit module A3 does not transmit a wireless signal, and the vibration motor M of the receiving circuit cannot be powered to emit false vibration because the electrolytic capacitor C1 cannot continue charging (charging interruption). After the time that the power supply is output for 30 minutes last by the time switch a2 (for example, from 8 o 'clock to 8 o' clock 30 or from 11 o 'clock to 12 o' clock, from 5 o 'clock to 6 o' clock 10 pm), and the power supply is stopped by the

pins

3 and 4 of the time switch a2, only in the next time period that medicine needs to be taken, the

pins

3 and 4 of the time switch a2 (grounded) will output the power supply again to the other end of the adjustable resistor RP to detect whether the patient takes medicine on time next time (at this time, the voltage charged on the electrolytic capacitor C1 is released early, and will not affect the next prompt to take medicine, for example, from 8 o 'clock to 8 o' clock 30 or from 11 o 'clock to 12 o' clock, and from 5 o 'clock to 6 o' clock 10 pm. As with the above process, the related circuits and mechanisms will effectively monitor the next time period for taking medicine, when the medicine is not taken on time, the light emitting diode VL emits light, and the wireless transmitting circuit module A3 emits a wireless closing signal. It should be noted that, if the patient does not take the medicine on time, the light emitting diode VL is powered to emit light, and the subsequent vibration motor M is powered, since the thyristor VS has the conduction self-locking property, after taking the medicine, the user needs to turn off the power switch SK1 at the front lower end of the medicine box first, and then turn on the power switch SK1, so as to ensure that the user can be normally prompted to take the medicine next time (after turning off the power switch SK1, the anode of the thyristor VS1 is open-circuited, and since the thyristor VS control pole has no power input, the thyristor VS cannot be triggered to be conducted, and is ready for the next use).

As shown in fig. 1, 2 and 3, when a patient does not take medicine in a time period in which the patient needs to take medicine, the wireless transmitting circuit module A3 transmits a first wireless close signal, and within a range of 1500 meters, after the wireless receiving circuit module a4 on the patient receives the first wireless close signal, 4 feet of the wireless transmitting circuit module output a high level, the high level is subjected to voltage reduction and current limitation through the resistor R1, the high level enters the base of the NPN triode Q, the NPN triode Q turns on the collector and outputs a low level to enter the negative power input end of the vibrating motor M, so that the vibrating motor M is powered on, and thus, the user can know that the medicine needs to be taken in time through vibration prompt and light emitting prompt of the light emitting diode VL, and then take the medicine as soon as possible (in this embodiment, the embodiment adopts wireless transmit and receive signals, which can meet the actual needs, because the patient needs, compared with the short message prompt of the mobile phone, the method has the advantages of no cost and more convenient application). The user opens upper cover 21 because electrolytic capacitor C1 no longer charges, and relay K1 loses power (switch SK1 closes and opens again), and then wireless transmitting circuit module A3 also no longer sends wireless signal, and its 4 feet of wireless receiving circuit module A4 (work in the inching mode) can stop outputting high level owing to can not receive wireless signal, and then vibrating motor M also can be automatic no longer work (also can the user temporarily close switch SK).

As shown in figures 1 and 2, when the invention is used, the medicine 7 is put into the upper end of the medicine box 2, and then the upper cover 21 is closed, and the internal contact of the power switch ST is closed. Time switch A2 can be at a certain time quantum output power to control circuit every day, control circuit gets electric work back, if in a certain period, the user does not open upper cover 21 and takes medicine the meeting, make emitting diode VL luminous always, the vibrating motor M of user's side has always got electric and produces the vibration, like this, the user just can observe that emitting diode VL is luminous, and under vibrating motor M vibration suggestion, in time take medicine on time, open upper cover 21 back, emitting diode VL and vibrating motor M all lose the electricity and no longer work. The invention has simple structure and low cost, does not need the participation of doctors and family members in the application, is convenient to use, can monitor the medicine taking condition of the patient in a plurality of medicine taking time periods required every day under the combined action of related circuits and mechanisms, and can give a vibration and luminous prompt to the patient at the first time when the patient does not take the medicine on time, and the prompt is stopped until the patient opens the medicine box to take the medicine, thereby effectively ensuring that the patient can take the medicine on time. The resistance values of the resistors R1 and R are 1K and 470K respectively, and the model of the adjustable resistor RP is 4.7M (adjusted to 3.48M); relay K1 is a DC4100 model 12V miniature relay; the vibration motor is a micro vibration motor (the power output shaft is provided with an eccentric wheel, and the structure of the vibration motor is consistent with that of the vibration motor of the mobile phone); the model of the NPN triode Q is 9013; the model of the controlled silicon VS is MCR 100-8; the light emitting diode VL is a red light emitting diode; the electrolytic capacitor C1 is 470 mu F/25V; the power switch ST is a button normally open contact type micro power switch.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The prompt device for the patient to take medicine on time comprises a voltage-stabilized power supply and a medicine box, and is characterized by also comprising a time control circuit, a wireless transmitting circuit and a receiving circuit; a point-operated power switch is arranged at the upper end of the medicine box, a button of the power switch faces upwards, and after an upper cover is covered at the upper end of the medicine box, a normally open contact inside the power switch is closed; the stabilized voltage power supply, the time control circuit, the control circuit and the wireless transmitting circuit are arranged in the medicine box; the power output end of the voltage-stabilized power supply is electrically connected with the two power input ends of the time control circuit and the control circuit respectively; the signal output end of the time control circuit is connected with the signal input end of the control circuit; the power supply output end of the control circuit is electrically connected with the power supply input end of the wireless transmitting circuit; the receiving circuit is arranged in the element box and comprises a power socket, a storage battery, a wireless receiving sub-circuit, a vibrating motor and a power switch, the two poles of the storage battery are electrically connected with the two power input ends of the wireless receiving sub-circuit respectively, and the two power output ends of the wireless receiving sub-circuit are electrically connected with the two power input ends of the vibrating motor respectively.

2. The prompt device for prompt medication on time for a patient according to claim 1, wherein the regulated power supply is an ac-to-dc switching power supply module.

3. The prompt device for prompt medication on time for a patient according to claim 1, wherein the time control circuit is a microcomputer time control switch.

4. The prompt device for prompting a patient to take medicine on time according to claim 1, wherein the control circuit comprises a resistor, a thyristor, a light emitting diode, a relay, an electrolytic capacitor and an adjustable resistor, wherein the resistor, the thyristor, the light emitting diode, the relay, the electrolytic capacitor and the adjustable resistor are electrically connected, the anode of the thyristor is connected with the control power input end of the relay, the cathode of the thyristor is connected with the positive power input end of the relay, one end of the adjustable resistor is connected with one end of the resistor and the positive electrode of the electrolytic capacitor, the other end of the resistor is connected with the control electrode of the thyristor, and.

5. The prompt device for prompt medication on time for a patient according to claim 1, wherein the wireless transmitting circuit is a wireless transmitting circuit module, and two contacts of one of the keys of the wireless transmitting circuit module are electrically connected together.

6. The prompt device for prompt medication taking for patient according to claim 1, wherein the wireless receiving sub-circuit of the receiving circuit comprises a wireless receiving circuit module, a resistor and an NPN transistor, which are electrically connected with each other, the output end of the wireless receiving circuit module is connected with one end of the resistor, the other end of the resistor is connected with the base of the NPN transistor, the negative power input end of the wireless receiving circuit module is connected with the emitter of the NPN transistor, and two terminals of the power switch are connected in series between one end of the resistor and one end of the adjustable resistor through conducting wires.