CN114668662B - Temperature control device and fascia moxibustion instrument - Google Patents

Abstract

The application provides a temperature control device and fascia moxibustion therapeutic instrument are used for controlling the temperature of moxa medicine, and temperature control device is used for carrying out following step: acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa; controlling the heating element to heat to the first temperature, and keeping the temperature of the heating element at the first temperature in the first platform period so as to heat the moxa; after the first platform period arrives, the temperature of the heating element is reduced to the second temperature, and the temperature of the heating element is kept to be the second temperature in the second platform period.

Description

Temperature control device and fascia moxibustion instrument

Technical Field

The application relates to the technical field of moxibustion temperature control, in particular to a temperature control device and fascia moxibustion instrument.

Background

Moxibustion is achieved by heating moxa to a certain temperature to exert the medicinal components of the moxa to act on the surface of human body. The heating temperature required for the medicinal components of the moxa medicine to be brought into play needs to reach the ignition point and carbonization temperature of the moxa medicine. The ignition point and carbonization temperature of moxa are as high as 183 ℃, and the temperature of the shell contacted with the surface of the human body is high, so that a plurality of users cannot tolerate the temperature. Therefore, in order for the user to endure the temperature, the temperature of the moxa is at 183 degrees celsius or less, so that the user can receive the temperature of the case, at which time the pharmaceutical composition of the moxa is difficult to exert.

Disclosure of Invention

The application provides a temperature control method, a temperature control device, a fascia moxibustion instrument, a storage medium and a program product, and aims to solve the technical problem that moxa is difficult to exert drug effect.

The application provides a temperature control method, which is used for controlling the temperature of a heating element in a fascia moxibustion therapeutic apparatus, wherein the fascia moxibustion therapeutic apparatus is provided with the heating element, a containing cavity and a heat conduction cover covered on the containing cavity, the containing cavity is used for containing moxa medicine, the heating element is in thermal connection with the moxa medicine, and the heat conduction cover is used for being applied on the surface of a human body;

the method comprises the following steps:

acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa;

heating the moxa by controlling a heating element to the first temperature and keeping the temperature of the heating element at the first temperature in the first platform period so as to heat the moxa;

and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period.

Optionally, the step of controlling the heating element to heat to the first temperature and maintaining the temperature of the heating element at the first temperature during the first platform period specifically includes: acquiring a heating instruction; based on the heating instruction, controlling the heating piece to heat so as to heat the moxa; acquiring a first measured temperature value of the heating element, and if the first measured temperature value reaches the first temperature, then: acquiring a first moment when the first measured temperature value reaches the first temperature, acquiring a second moment based on the first moment and the first platform period, and keeping the temperature of the heating element to be the first temperature from the first moment to the second moment.

Optionally, the step of reducing the temperature of the heating element to the second temperature after the first stage period arrives, and maintaining the temperature of the heating element at the second temperature during the second stage period specifically includes: when the second moment is reached, reducing the temperature of the heating element; acquiring a second actually measured temperature value of the heating element, if the second actually measured temperature value reaches the second temperature, acquiring a third moment when the second actually measured temperature value reaches the second temperature, acquiring a fourth moment based on the third moment and the second platform period, and keeping the temperature of the heating element to be the second temperature in the third moment to the fourth moment.

Optionally, before the step of controlling the heating element to heat to the first temperature and maintaining the temperature of the heating element for the first plateau period, the temperature control method further includes: acquiring a gear; the step of obtaining the first temperature, the second temperature, the first platform period and the second platform period specifically includes: based on the gear, acquiring a duty ratio, a first temperature, a second temperature, a first platform period and a second platform period corresponding to the gear; the duty ratio is the ratio of the first platform period to the temperature cycle period in one temperature cycle period; the temperature cycle period comprises a heating cycle period and a cooling cycle period; and obtaining the temperature cycle period based on the duty cycle and the first platform period, wherein the heating cycle period is as follows: the heating element is heated to the first temperature, and the temperature of the heating element is kept to be the first temperature for a period of time; the cooling cycle period is as follows: the temperature of the heating element is reduced from the first temperature to the second temperature, and the temperature of the heating element is maintained for a period of time at the second temperature.

Optionally, the step of acquiring the first temperature, the second temperature, the first platform period and the second platform period specifically includes: acquiring a first temperature, a second temperature, a first platform period, a second platform period and working time length; the working time length comprises a plurality of first platform periods and a plurality of second platform periods; after the step of reducing the temperature of the heating element to the second temperature after the first stage period is reached, and maintaining the temperature of the heating element to the second temperature during the second stage period, the temperature control method further includes the steps of: after the second platform period is reached, the heating element is controlled to heat to the first temperature, and the temperature of the heating element is kept to be the first temperature in the next first platform period so as to heat the moxa; after the next first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the next second platform period; and circularly executing the steps until the working time is long, and/or until a heating stopping command is received.

Optionally, the first plateau period is 10 seconds to 20 seconds; optionally, the first temperature is between 185 ℃ and 195 ℃.

Optionally, the application further provides a temperature control device, which is used for a fascia moxibustion instrument, wherein the fascia moxibustion instrument is provided with a heating element, a containing cavity and a heat conduction cover, the heat conduction cover covers the containing cavity, the containing cavity is used for containing the moxa, the heating element is in thermal connection with the moxa, and the heat conduction cover is used for being applied to the surface of a human body; the temperature control device includes: the acquisition module is used for: the method comprises the steps of acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa; the second temperature is less than the carbonization temperature of the moxa; and a temperature control module: the heating part is used for controlling the heating part to heat to the first temperature, and the temperature of the heating part is kept to be the first temperature in the first platform period so as to heat the moxa; and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period.

Optionally, the application further provides a fascia moxibustion instrument, which comprises a processor and a memory, wherein the memory stores instructions; the processor loads instructions from the memory to perform the steps in the temperature control method as described above. The fascia moxibustion instrument further comprises an adhesion component, wherein the adhesion component is applied to the surface of the human body and comprises an electrode plate; the processor is further configured to: controlling the electrode plates to emit heat and output electric stimulus waves simultaneously or sequentially before executing the steps of the temperature control method; or controlling the electrode plate to generate heat or output electric stimulus waves.

Optionally, the present application also proposes a computer readable storage medium storing instructions adapted to be loaded by a processor to perform the steps in the temperature control method as described before.

Optionally, the present application also proposes a computer program product comprising a computer program or instructions which, when executed by a processor, implement the steps in the temperature control method as described above.

In the temperature control method provided by the application, a first temperature, a second temperature, a first platform period and a second platform period are acquired; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa; heating to the first temperature by controlling a heating element, and keeping the temperature of the heating element at the first temperature in the first platform period; in the first platform period, the moxa is heated by a heating element at a first temperature, so that the active ingredients of the moxa can be exerted;

And after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period. In the second platform period, the heating element is at the second temperature, the heat conducted to the fascia moxibustion instrument and the periphery of the fascia moxibustion instrument becomes low, the heat accumulated by the fascia moxibustion instrument in the first platform period is gradually dissipated, the temperature felt by the surface of a human body is reduced, and the technical problem that the moxa is difficult to exert the drug effect is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of an embodiment of a temperature control method according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a preferred flow of step S300 in an embodiment of the present application;

FIG. 3 is a schematic diagram of a preferred flow of step S400 in an embodiment of the present application;

FIG. 4 is a schematic flow diagram of a preferred embodiment of the temperature control method provided in the embodiments of the present application;

FIG. 5 is a schematic diagram of a temperature control device provided in an embodiment of the present application;

FIG. 6 is a schematic diagram of temperature of a heating element over time in an embodiment of the present application;

fig. 7 is a schematic view of a scene of a fascia moxibustion apparatus according to an embodiment of the present application;

fig. 8 is a schematic block diagram of a fascia moxibustion apparatus provided in an embodiment of the present application.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to fall within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In this application, the term "exemplary" is used to mean "serving as an example, instance, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments. The following description is presented to enable any person skilled in the art to make and use the invention. In the following description, details are set forth for purposes of explanation. It will be apparent to one of ordinary skill in the art that the present invention may be practiced without these specific details. In other instances, well-known structures and processes have not been described in detail so as not to obscure the description of the invention with unnecessary detail. Thus, the present invention is not intended to be limited to the embodiments shown, but is to be accorded the widest scope consistent with the principles and features disclosed herein.

Techniques that may be used in embodiments of the present application are briefly described below.

Natural language processing (Nature Language processing, NLP) is an important direction in the fields of computer science and artificial intelligence. It is studying various theories and methods that enable effective communication between a person and a computer in natural language. Natural language processing is a science that integrates linguistics, computer science, and mathematics. Thus, the research in this field will involve natural language, i.e. language that people use daily, so it has a close relationship with the research in linguistics. Natural language processing techniques typically include text processing, semantic understanding, machine translation, robotic questions and answers, knowledge graph techniques, and the like.

Embodiments of the present application provide a temperature control method, apparatus, fascia moxibustion apparatus, storage medium, and computer program product.

The temperature control device can be integrated in a fascia moxibustion instrument, and the fascia moxibustion instrument can be communicated with a terminal, a server and/or other equipment. The terminal can be a mobile phone, a tablet computer, an intelligent Bluetooth device, a notebook computer, a personal computer (Personal Computer, PC) or the like; the server may be a single server or a server cluster composed of a plurality of servers.

It will be appreciated that the temperature control method of this embodiment may be performed on the fascia moxibustion apparatus, on the server, or both the terminal and the server. The above examples should not be construed as limiting the present application.

Referring to fig. 7, an example of performing the temperature control method by the fascia moxibustion apparatus is shown.

As shown in fig. 7, the fascia moxibustion instrument and the terminal may be directly or indirectly connected through wired or wireless communication, which is not limited herein. The fascia moxibustion instrument can be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, and a cloud server for providing cloud services, cloud databases, cloud computing, cloud functions, cloud storage, network services, cloud communication, middleware services, domain name services, security services, CDNs, basic cloud computing services such as big data and artificial intelligent platforms. The server is used for providing background service for the application program operated by the terminal.

The terminal may be, but is not limited to, a smart phone, a tablet computer, a notebook computer, a desktop computer, a smart speaker, a smart watch, etc. The terminal may be installed and run with an application supporting data upload. Illustratively, the terminal is a terminal used by a user, and a user account is logged in an application running in the terminal.

The terminal may refer broadly to one of a plurality of terminals, the present embodiment being illustrated by way of example only. Those skilled in the art will recognize that the number of terminals may be greater or lesser. For example, the number of the terminals may be only one, or the number of the terminals may be tens or hundreds, or more, and the implementation environment of the image classification method may further include other terminals. The number of terminals and the device type are not limited in the embodiment of the present application.

Alternatively, the wireless network or wired network described above uses standard communication techniques and/or protocols. The network is typically the Internet, but may be any network including, but not limited to, a local area network (Local Area Network, LAN), metropolitan area network (Metropolitan Area Network, MAN), wide area network (Wide Area Network, WAN), mobile, wired or wireless network, private network, or any combination of virtual private networks. In some embodiments, data exchanged over a network is represented using techniques and/or formats including HyperText Mark-up Language (HTML), extensible markup Language (Extensible MarkupLanguage, XML), and the like. All or some of the links may also be encrypted using conventional encryption techniques such as secure sockets layer (Secure Socket Layer, SSL), transport layer security (Transport Layer Security, TLS), virtual private network (Virtual Private Network, VPN), internet protocol security (Internet ProtocolSecurity, IPsec), etc. In other embodiments, custom and/or dedicated data communication techniques may also be used in place of or in addition to the data communication techniques described above.

Wherein, fascia moxibustion instrument can be used for: acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa; controlling the heating element to heat to the first temperature, and keeping the temperature of the heating element at the first temperature in the first platform period so as to heat the moxa; and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period.

In the prior art, when the tolerance of a user is high Wen Jiaocha, the temperature of the moxa is regulated to be lower than 180 ℃, and at the moment, the effective components of the moxa cannot volatilize because the moxa cannot reach the carbonization temperature.

Therefore, in order to enable the active ingredients of the moxa to be exerted and the user to easily receive high temperature; the embodiment of the application provides a temperature control method for controlling the temperature of a heating element of a fascia moxibustion instrument, so that the temperature perceived by the surface of a human body is not too high, and the medicinal components of moxa can be fully exerted. The fascia moxibustion instrument is provided with a heating part, a containing cavity and a heat conduction cover, wherein the heat conduction cover is covered on the containing cavity, the containing cavity is used for containing moxa, the heating part is thermally connected with the moxa, and the heat conduction cover is used for being applied to the surface of a human body. As shown in fig. 1, the temperature control method includes the steps of:

S200, acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa;

s300, controlling the heating element to heat to the first temperature, and keeping the temperature of the heating element at the first temperature in the first platform period so as to heat the moxa;

and S400, after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element to be the second temperature in the second platform period.

In the temperature control method provided by the embodiment of the application, a first temperature, a second temperature, a first platform period and a second platform period are obtained; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa; heating to the first temperature by controlling a heating element, and keeping the temperature of the heating element at the first temperature in the first platform period; in the first platform period, the heating element is above the carbonization temperature of the moxa, so that the moxa can exert the effective components of the moxa;

And after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period. In the second platform period, the temperature of the heating element is the second temperature, the temperature is reduced, the heat conducted to the heat conduction cover of the fascia moxibustion instrument and the surrounding heat is reduced, the fascia moxibustion instrument dissipates heat accumulated in the first platform period, the temperature sensed by the surface of a human body is reduced, and the technical problem that a user can not adjust the temperature of moxa medicine to be higher than the carbonization temperature due to high temperature difference resistance and further cannot play a role in the pharmaceutical composition of the moxa medicine is solved.

It should be noted that the first temperature, the second temperature, the first platform period, and the second platform period may be stored in advance in the storage medium; after the fascia moxibustion instrument is powered on, the processor obtains a first temperature, a second temperature, a first plateau period, and a second plateau period from the storage medium. And/or the fascia moxibustion instrument acquires a first temperature, a second temperature, a first platform period and a second platform period from the terminal; for example, when a user uses the fascia moxibustion apparatus, the fascia moxibustion apparatus acquires the first temperature, the second temperature, the first plateau period, and the second plateau period by setting parameters of the first temperature, the second temperature, the first plateau period, and the second plateau period in the terminal and then transmitting the parameters to the fascia moxibustion apparatus.

It will be readily appreciated that the second temperature is lower than the first temperature. In the embodiment of the application, in order to effectively exert the medicinal components of the moxa, the first temperature is greater than or equal to 183 ℃, so that the moxa can be above the ignition temperature and the carbonization temperature. In order to effectively exert the medicinal components of the moxa, the moxa is in a charred state but not in a burning state; thus in embodiments of the present application, the first temperature is between 185 degrees celsius and 195 degrees celsius. In order to reduce the temperature sensed by the surface of the human body, the second temperature may be generally about 100 ℃, and the value of the second temperature may be set by the surface of the human body, so in the embodiment of the present application, no specific setting is made, for example, may be 95 ℃, 98 ℃, 102 ℃ or more. The value of the second temperature can be set according to the length of the period of the first platform, and if the period of the first platform is longer, the second temperature can be set lower; if the period of the first platform is shorter, the second temperature can be set higher, so that the temperature around the fascia moxibustion apparatus can meet the high temperature resistance of the user.

It should be further noted that, the first stage period is a working period of the heating element for maintaining the first temperature, and may not be set too large, which generally depends on the high temperature resistance of the surface of the human body. If the user has strong high temperature resistance, the first platform period can take a larger value; if the user has weak high temperature resistance, the first plateau period may take a smaller value. It should be noted that, in the embodiment of the present application, the moxa is heated by the heating element. The moxa is placed in the accommodating cavity of the therapeutic apparatus, and a heating element is arranged in the accommodating cavity. The heating element is typically selected as a heat patch. The temperature of the heating part is controlled by the processor, so that the temperature of the moxa is controlled. When the heating piece heats, moxa medicine close to the heating piece can be heated fast, and moxa medicine far away from the heating piece is heated slower for the moxa medicine has certain temperature gradient, in order to reduce the influence of temperature gradient to the medicine composition, the first platform period takes the value between 10 seconds and 20 seconds, makes the temperature that the moxa medicine can be as even as possible, in order to exert medicine composition in the short time. When the first platform period takes a value in the range, the medicinal components of the moxa medicine can be exerted in a short time, the heat accumulated by the fascia moxibustion instrument is not too large, a user does not need to face the long-term high-temperature condition, and the probability of scalding the surface of the human body is obviously reduced.

It should be further noted that the second stage period is the working period of the heating element for maintaining the second temperature, and is not limited in any way, and generally depends on the high temperature resistance of the user and the extent to which the desired pharmaceutical composition is exerted.

In some alternative embodiments, steps S300 and S400 are cycled. Namely: the processor cycles through the cycle of increasing the temperature to a first temperature, maintaining the first temperature for a first plateau period, decreasing to a second temperature, and maintaining the second temperature … … for a second plateau period, as shown with reference to fig. 6, for a period of time. Fig. 6 is merely an example, and is not intended as a specific limitation on the trend of temperature change. In fig. 6, the rise and fall of the temperature are uniformly linear. In other alternative embodiments, the rise and fall in temperature may also be non-linear. In the specific implementation process, the method is used for selecting a mode of temperature change along with time. Namely:

in the process of the embodiment of the present application, the step of obtaining the first temperature, the second temperature, the first platform period, and the second platform period specifically includes:

acquiring a first temperature, a second temperature, a first platform period, a second platform period and working time length; the working time length comprises a plurality of first platform periods and a plurality of second platform periods;

After the step of reducing the temperature of the heating element to the second temperature after the first stage period is reached, and maintaining the temperature of the heating element to the second temperature during the second stage period, the temperature control method further includes the steps of:

after the second platform period is reached, the heating element is controlled to heat to the first temperature, and the temperature of the heating element is kept to be the first temperature in the next first platform period so as to heat the moxa;

after the next first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the next second platform period;

and circularly executing the steps until the working time is long, and/or until a heating stopping command is received.

The working time length can be a plurality of T _Circulation . For example T _Circulation For 1 minute, 15 cycles (15 first plateau periods and 15 second plateau periods) give a 15 minute operating period. The working time is preset. Or during the cycle, a stop heating command is received.

Further, when the use of the fascia moxibustion apparatus is stopped, a stop instruction is received, and the temperature control of the heating element is ended. Further, when the fascia moxibustion instrument is used, the electrode plates of the fascia moxibustion instrument can be controlled firstly, and the electrode plates are controlled to heat and output electric stimulation waves simultaneously and/or sequentially so as to preheat and electrically stimulate the skin around the to-be-moxibustion part on the surface of the human body and loosen the skin and tissues around the to-be-moxibustion part. Or when the fascia moxibustion instrument is used, the electrode plate of the fascia moxibustion instrument can be controlled to heat or output electric stimulation waves so as to preheat or electrically stimulate the skin around the to-be-moxibustion part on the surface of the human body. After the preheating and/or the electrical stimulation are completed, the moxa is heated again. In general, a fascia moxibustion apparatus has an adhesive assembly having an electrode sheet and a gel layer; the electrode plate is provided with a heating resistor and an electric stimulation body. The electric stimulation body is used for outputting high-frequency harmonic waves with the frequency of 80 kHz-10 MHz, and can loosen skin and tissues around the moxibustion treatment part. The electrode plate is adhered with a gel layer for adhering the fascia moxibustion instrument to the skin around the to-be-moxibustion part.

As an alternative implementation of the foregoing embodiment, as shown in fig. 2, the step of heating the moxa to the first temperature by a heating element and maintaining the temperature of the heating element at the first temperature during the first platform period includes:

s310, acquiring a heating instruction; in general, a heating command may be issued from a terminal to the fascia moxibustion apparatus, namely: the surface of the human body sends out a heating instruction through an APP or a small program of the terminal, and the fascia moxibustion instrument acquires the heating instruction; and/or, the fascia moxibustion apparatus automatically reads the heating instruction from the storage medium after being started; and/or, the fascia moxibustion instrument is triggered to acquire a heating instruction on the surface of the human body by controlling the fascia moxibustion instrument, for example, the fascia moxibustion instrument can be touched, controlled by sound and the like;

s320, based on the heating instruction, heating by controlling the heating element to heat the moxa; after the processor of the fascia moxibustion instrument acquires a heating instruction, the heating piece is controlled to start heating so as to heat the moxa. The heating element is generally in close contact with the moxa, or in thermal contact (e.g., radiation).

S330, acquiring a first measured temperature value of the heating element, and if the first measured temperature value reaches the first temperature, executing step S340;

The first measured temperature value is a real-time temperature value of the heating element in the heating process, and can be measured by a temperature sensor arranged in the accommodating cavity and can be obtained based on the heating power and the heating duration of the heating element. If the first measured temperature value reaches the first temperature, executing step S340; if the first measured temperature value does not reach the first temperature, continuing heating until the first measured temperature value reaches the first temperature;

s340, obtaining a first time t when the first measured temperature value reaches the first temperature ₁ And based on the first time t ₁ And the first platform period T ₁ Obtaining a second time t ₂ And from said first moment t ₁ To the second time t ₂ The temperature of the heating element is kept at the first temperature.

When the first measured temperature value reaches the first temperature, the fascia moxibustion instrument records the first time t ₁ And based on the first time t ₁ And the first platform period obtains a second time t ₂ Maintaining the temperature of the heating element from the first time t ₁ To the second time t ₂ Is the first temperature. t is t ₂ ＝t ₁ +T ₁ . For example, the first time is 00.00.00, the first stage period is 15 seconds, the second time t ₂ 00.00.15. At a second time t ₂ After that, the heating member starts to stop heating, and the heating member is controlled to start cooling.

As an alternative implementation manner of the foregoing embodiment, as shown in fig. 3, the step of reducing the temperature of the heating element to the second temperature after the first stage period arrives, and maintaining the temperature of the heating element to the second temperature during the second stage period specifically includes:

s410, when the second moment arrives, reducing the temperature of the heating element; at the time when the heating element is operated at the first temperature to the second time t ₂ At the same time, the medicinal components of the moxa medicine are in a first platform period T ₁ The inner part is fully utilized, at the moment, the heating power of the heating element can be reduced or the temperature of the heating element can be reduced by stopping the temperature reduction of the heating element, therebyReducing the temperature around the fascia moxibustion apparatus;

s420, acquiring a second actually measured temperature value of the heating element, and if the second actually measured temperature value reaches the second temperature, acquiring a third time t when the second actually measured temperature value reaches the second temperature ₃ The method comprises the steps of carrying out a first treatment on the surface of the If the second measured temperature value does not reach the second temperature, the heating element continuously cools until the second measured temperature value reaches the second temperature; the second actually measured temperature value is a temperature value of the heating element in the cooling process, and can be measured by a temperature sensor arranged in the accommodating cavity and can be obtained based on the heating power and the cooling time of the heating element;

S430, and based on the third time t ₃ And the second platform period T ₂ Obtaining the fourth time t ₄ And at the third time t ₃ To the fourth time t ₄ And maintaining the temperature of the heating element at the second temperature.

When the second measured temperature value reaches the second temperature, the fascia moxibustion instrument records the third time t ₃ And based on the third time t ₃ And the second platform period T ₂ Obtaining the fourth time t ₄ Maintaining the heating element at the second temperature from the third time t ₃ Operate to the fourth time t ₄ 。t ₄ ＝t ₃ +T ₂ . For example, when the third time is 00.00.40 and the second platform period is 20 seconds, the second time t ₂ 00.01.00. At a fourth time t ₄ After that, the heating element starts to increase the heating power, and the temperature of the moxa starts to increase. At a fourth time t ₄ After coming, control heating member continues to heat moxa, namely: the moxa medicine performs the next temperature cycle.

As an alternative implementation of the above embodiment, as shown in fig. 4, before the step of heating to the first temperature by controlling the heating element and maintaining the temperature of the heating element at the first temperature for the first stage period, the temperature control method further includes:

S100, acquiring a gear; in the embodiment of the application, the fascia moxibustion instrument is provided with a plurality of different gears so as to be used for the surface of a human body according to the actual high temperature resistance;

the step of obtaining the first temperature, the second temperature, the first platform period and the second platform period specifically includes:

s210, acquiring a duty ratio, a first temperature, a second temperature, a first platform period and a second platform period corresponding to the gear based on the gear;

each gear corresponds to different first temperature, second temperature and first platform period T ₁ And a second platform period T ₂ The method comprises the steps of carrying out a first treatment on the surface of the And each gear corresponds to a different temperature cycle period T _Circulation The method comprises the steps of carrying out a first treatment on the surface of the For example, the fascia moxibustion apparatus has two gears, a first gear may be used for a user with strong high temperature resistance, and a second gear may be used for a user with poor high temperature resistance. The first platform period corresponding to the first gear is longer than the first platform period corresponding to the second gear, or the duty cycle of the first gear is larger than the duty cycle of the second gear. The larger the duty cycle, the longer the user uses the fascia moxibustion apparatus in a high temperature environment. First temperature, second temperature and first platform period T corresponding to each gear _1、 Second stage period T ₂ And the duty cycle may be reset according to user habits. For example, the first temperature, the second temperature, the first platform period T can be controlled by the application or the small program _1、 Second stage period T ₂ The duty cycle is reset.

When heat, the fascia moxibustion instrument can be provided with a plurality of different gears so as to meet the use requirements of users.

It should be noted that, as shown in fig. 6, one temperature cycle period T _Circulation The heating element is subjected to a cycle of temperature rise, first temperature maintenance, temperature drop and second temperature maintenance. Cycle time T of temperature _Circulation Including a heating cycle period T ₅ And a cooling cycle period T ₆ The method comprises the steps of carrying out a first treatment on the surface of the Cycle of heating T ₅ Comprising a temperature rise period T ₃ And a first platform period T ₁ The method comprises the steps of carrying out a first treatment on the surface of the Cycle period T of temperature decrease ₆ Including a temperature drop period T ₄ And a second platform period T ₂ The method comprises the steps of carrying out a first treatment on the surface of the The duty ratio is the first platform period T ₁ And cycle time T of temperature _Circulation Is a ratio of (2). Wherein, the heating cycle period is: the heating element is heated to the first temperature, and the temperature of the heating element is kept to be the first temperature for a period of time; the cooling cycle period is as follows: the temperature of the heating element is reduced from the first temperature to the second temperature, and the temperature of the heating element is maintained for a period of time at the second temperature.

For example, the first gear: the first stage period is 15 seconds, the duty ratio is 20%, and the temperature cycle period T _Circulation 75 seconds; cycle of heating T ₅ 45 seconds, the cooling cycle period T ₆ 30 seconds; period of temperature rise T ₃ 30 seconds; second stage period T ₂ 20 seconds, the temperature drop period T ₄ For 10 seconds.

For example, the second gear: the first stage period is 10 seconds, the duty ratio is 10%, and the temperature cycle period T _Circulation 100 seconds; cycle of heating T ₅ 30 seconds, the cooling cycle period T ₆ 60 seconds; period of temperature rise T ₃ 20 seconds; second stage period T ₂ 30 seconds, the temperature drop period T ₄ 30 seconds.

S220, based on the duty cycle and the first platform period T ₁ And obtaining the temperature cycle period.

Generally, the temperature rise period and the temperature fall period are related to the heating power of the heating element. Thus, the temperature rise period and the temperature fall period may be set according to the heating power. Therefore, in the embodiment of the application, the duty ratio is set to obtain the temperature cycle period so as to be according to the high temperature resistance of different users. In general, the larger the duty cycle, the longer the user uses the fascia moxibustion apparatus in a high temperature environment.

In order to better implement the above method, the embodiment of the application also provides a temperature control device, which can be specifically integrated in a fascia moxibustion instrument, and the fascia moxibustion instrument can be in communication connection with a terminal, a server and other devices. In general, the fascia moxibustion apparatus can be used at home or clinically, so that the fascia moxibustion apparatus and the terminal adopt Bluetooth communication. The terminal can be a mobile phone, a tablet personal computer, an intelligent Bluetooth device, a notebook computer, a personal computer and other devices; the server may be a single server or a server cluster composed of a plurality of servers.

For example, in the present embodiment, as shown in fig. 5, a method according to the embodiment of the present application will be described in detail by taking a specific integration of a temperature control device into a fascia moxibustion apparatus as an example.

The temperature control device includes:

the acquisition module 10: the method comprises the steps of acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa; the second temperature is less than the carbonization temperature of the moxa;

temperature control module 20: the heating part is used for controlling the heating part to heat to the first temperature, and the temperature of the heating part is kept to be the first temperature in the first platform period so as to heat the moxa; and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period.

The embodiment of the application also provides a fascia moxibustion instrument. In some embodiments, the temperature control device may also be integrated into a fascia moxibustion apparatus to implement the temperature control method of the present application. The fascia moxibustion instrument comprises a shell, a heat conduction machine cover, moxa, a heating piece and a pasting component. The heat conduction machine cover is covered on the shell, the moxa is arranged in a containing cavity formed by the shell and the heat conduction machine cover, and the heating piece is clung to the moxa so as to heat the moxa. In order to enable the actual temperature of the heat conduction machine cover to be sensed on the surface of a human body in real time, the heat conduction machine cover is arranged to protrude out of the adhesion component, so that the heat conduction machine cover is clung to the skin of the surface of the human body when the adhesion component is worn on the surface of the human body.

The fascia moxibustion instrument further comprises an adhesion component, wherein the adhesion component is applied to the surface of the human body and comprises an electrode plate; as shown in connection with fig. 8, the processor is further configured to: before the steps are carried out, the electrode plates are controlled to heat and output electric stimulation waves simultaneously and/or sequentially so as to preheat and electrically stimulate the skin around the to-be-moxibustion part on the surface of the human body and loosen the skin and tissues around the to-be-moxibustion part. Or the electrode plate is controlled to heat or output electric stimulation waves so as to preheat or electrically stimulate the skin around the to-be-moxibustion part on the surface of the human body. And controlling the electrode plate to generate heat and/or output electric stimulus waves. When the fascia moxibustion instrument is used, the electrode plates can be controlled firstly, and the electrode plates are controlled to heat and/or output electric stimulation waves simultaneously or sequentially so as to preheat and/or electrically stimulate the skin around the moxibustion part on the surface of the human body and loosen the skin and tissues around the moxibustion part. For example, the electrode plate firstly generates heat and then outputs electric stimulus waves; for another example, the electrode plate outputs the electric stimulus wave first and then heats; or the electrode plate heats and outputs the electric stimulus wave at the same time. Alternatively, the electrode plates are individually preheated or individually output the electric stimulus waves. After the preheating and/or the electrical stimulation are completed, the moxa is heated again. In general, a fascia moxibustion apparatus has an adhesive assembly having an electrode sheet and a gel layer; the electrode plate is provided with a heating resistor and an electric stimulation body. The electric stimulation body is used for outputting high-frequency harmonic waves with the frequency of 80 kHz-10 MHz, and can loosen skin and tissues around the moxibustion treatment part. The electrode plate is adhered with a gel layer for adhering the fascia moxibustion instrument to the skin around the to-be-moxibustion part.

In the present embodiment, a fascia moxibustion apparatus of the present embodiment will be described in detail as an example, for example, as shown in fig. 8, which shows a schematic block structure of the fascia moxibustion apparatus according to the present embodiment, specifically:

the fascia moxibustion apparatus may include one or more processors 401 of a processing core, one or more memories 402 of a computer readable storage medium, a power supply 403, an input module 404, and a communication module 405. It will be appreciated by those skilled in the art that the fascia moxibustion apparatus structure shown in fig. 8 is not limiting of the fascia moxibustion apparatus, and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components. Wherein:

the processor 401 is a control center of the fascia moxibustion apparatus, connects various parts of the entire fascia moxibustion apparatus using various interfaces and lines, and performs various functions and processes data of the fascia moxibustion apparatus by running or executing software programs and/or modules stored in the memory 402 and calling data stored in the memory 402, thereby performing overall monitoring of the fascia moxibustion apparatus. In some embodiments, processor 401 may include one or more processing cores; in some embodiments, processor 401 may integrate an application processor that primarily processes an operating system, a human surface interface, and application programs, etc., with a modem processor that primarily processes wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 401. The processor 401 controls the temperature of the heating element to control the temperature of the moxa.

The memory 402 may be used to store software programs and modules, and the processor 401 executes various functional applications and data processing by executing the software programs and modules stored in the memory 402. The memory 402 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required for at least one function, and the like; the storage data area may store data created according to the use of the fascia moxibustion apparatus, etc. In addition, memory 402 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device. Accordingly, the memory 402 may also include a memory controller to provide the processor 401 with access to the memory 402.

The fascia moxibustion apparatus further includes a power supply 403 for supplying power to the respective components, and in some embodiments, the power supply 403 may be logically connected to the processor 401 through a power management system, so that functions of managing charging, discharging, and power consumption are achieved through the power management system. The power supply 403 may also include one or more of any of a direct current or alternating current power supply, a recharging system, a power failure detection circuit, a power converter or inverter, a power status indicator, and the like.

The fascia moxibustion apparatus may also include an input module 404, which input module 404 may be used to receive entered numeric or character information and to generate keyboard, mouse, joystick, optical or trackball signal inputs related to user settings and function control.

The fascia moxibustion apparatus may further include a communication module 405, and in some embodiments the communication module 405 may include a wireless module, and the fascia moxibustion apparatus may perform short-range wireless transmission through the wireless module of the communication module 405, thereby providing wireless broadband internet access for the user. For example, the communication module 405 is used to communicate with an external terminal to interact with the external terminal. For example, the user may control the fascia moxibustion apparatus through an APP or applet embedded in the external terminal.

Although not shown, the fascia moxibustion apparatus may further include a display unit, a voice prompt unit, etc., and will not be described again herein. In particular, in this embodiment, the processor 401 in the fascia moxibustion apparatus loads executable files corresponding to the processes of one or more application programs into the memory 402 according to the following instructions, and the processor 401 executes the application programs stored in the memory 402, so as to implement various functions as follows:

Acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa;

controlling the heating element to heat to the first temperature, and keeping the temperature of the heating element at the first temperature in the first platform period so as to heat the moxa;

and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period. In some embodiments, a computer program product is also presented, comprising a computer program or instructions which, when executed by a processor, implement the steps of any of the temperature control methods described above.

The specific implementation of each operation above may be referred to the previous embodiments, and will not be described herein.

Those of ordinary skill in the art will appreciate that all or a portion of the steps of the various methods of the above embodiments may be performed by instructions, or by instructions controlling associated hardware, which may be stored in a computer-readable storage medium and loaded and executed by a processor.

To this end, embodiments of the present application provide a computer readable storage medium having stored therein a plurality of instructions capable of being loaded by a processor to perform steps in any one of the temperature control methods provided by embodiments of the present application. For example, the instructions may perform the steps of:

acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is greater than or equal to the carbonization temperature of the moxa, and the second temperature is less than the carbonization temperature of the moxa;

controlling the heating element to heat to the first temperature, and keeping the temperature of the heating element at the first temperature in the first platform period so as to heat the moxa;

and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period. Wherein the storage medium may include: read Only Memory (ROM), random access Memory (RAM, random Access Memory), magnetic or optical disk, and the like.

According to one aspect of the present application, there is provided a computer program product or computer program comprising computer instructions stored in a computer readable storage medium. The computer instructions are read from the computer-readable storage medium by a processor of a computer device, which executes the computer instructions, causing the computer device to perform the methods provided in the various alternative implementations of the temperature control aspects provided in the above embodiments.

The instructions stored in the storage medium may perform steps in any one of the temperature control methods provided in the embodiments of the present application, so that the beneficial effects that any one of the temperature control methods provided in the embodiments of the present application can be achieved are detailed in the previous embodiments, and are not repeated herein.

The foregoing has outlined a detailed description of a temperature control method according to the embodiments of the present application, wherein specific examples are provided herein to illustrate the principles and embodiments of the present invention, and the above examples are provided to assist in understanding the method and core ideas of the present invention; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in light of the ideas of the present invention, the present description should not be construed as limiting the present invention.

Claims (7)

1. The temperature control device is characterized by being used for a fascia moxibustion instrument, wherein the fascia moxibustion instrument is provided with a heating element, a containing cavity and a heat conduction cover, the heat conduction cover is covered on the containing cavity, the containing cavity is used for containing moxa, the heating element is in thermal connection with the moxa, and the heat conduction cover is used for being attached to the surface of a human body;

The temperature control device includes:

the acquisition module is used for: the method comprises the steps of acquiring a first temperature, a second temperature, a first platform period and a second platform period; the first temperature is between 185 ℃ and 195 ℃; the second temperature is less than the carbonization temperature of the moxa;

and a temperature control module: the heating part is used for controlling the heating part to heat to the first temperature, and keeping the temperature of the heating part at the first temperature in the first platform period so as to heat the moxa to a carbonized state to exert the medicinal components of the moxa; and after the first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the second platform period.

2. The temperature control device of claim 1, wherein the temperature control module is further configured to perform, when performing the step of controlling the heating element to heat to the first temperature and maintaining the temperature of the heating element at the first temperature for the first platen cycle:

acquiring a heating instruction;

based on the heating instruction, controlling the heating piece to heat so as to heat the moxa;

Acquiring a first measured temperature value of the heating element, and if the first measured temperature value reaches the first temperature, then: acquiring a first moment when the first measured temperature value reaches the first temperature, acquiring a second moment based on the first moment and the first platform period, and keeping the temperature of the heating element to be the first temperature from the first moment to the second moment.

3. The temperature control device of claim 2, wherein the temperature control module is further configured to, after performing the step of lowering the temperature of the heating element to the second temperature after the first plateau period is reached, and maintaining the temperature of the heating element at the second temperature during the second plateau period:

when the second moment is reached, reducing the temperature of the heating element;

acquiring a second actually measured temperature value of the heating element, and if the second actually measured temperature value reaches the second temperature, then: and acquiring a third moment when the second measured temperature value reaches the second temperature, obtaining a fourth moment based on the third moment and the second platform period, and keeping the temperature of the heating element to be the second temperature in the third moment to the fourth moment.

4. The temperature control device of claim 1, wherein the acquisition module is further configured to: acquiring a gear before the step of controlling the heating element to heat to the first temperature and maintaining the temperature of the heating element for the first platform period;

the acquisition module performs, when performing the steps of acquiring the first temperature, the second temperature, the first plateau period, and the second plateau period:

based on the gear, acquiring a duty ratio, a first temperature, a second temperature, a first platform period and a second platform period corresponding to the gear; wherein the duty cycle is the ratio of the first plateau period to the temperature cycle period within one temperature cycle period; the temperature cycle period comprises a heating cycle period and a cooling cycle period;

obtaining the temperature cycle period based on the duty cycle and the first plateau period;

wherein, the heating cycle period is: the heating element is heated to the first temperature, and the temperature of the heating element is kept to be the first temperature for a period of time;

the cooling cycle period is as follows: the temperature of the heating element is reduced from the first temperature to the second temperature, and the temperature of the heating element is maintained for a period of time at the second temperature.

5. The temperature control device of claim 1, wherein the acquisition module, when executing the acquiring the first temperature, the second temperature, the first plateau period, and the second plateau period, executes:

acquiring a first temperature, a second temperature, a first platform period, a second platform period and working time length; the working time length comprises a plurality of first platform periods and a plurality of second platform periods;

the temperature control module is further configured to, after performing the step of maintaining the temperature of the heating element at the second temperature during the second stage period, perform:

after the second platform period is reached, the heating element is controlled to heat to the first temperature, and the temperature of the heating element is kept to be the first temperature in the next first platform period so as to heat the moxa;

after the next first platform period is reached, reducing the temperature of the heating element to the second temperature, and keeping the temperature of the heating element at the second temperature in the next second platform period;

and circularly executing the steps until the working time is long, and/or until a heating stopping command is received.

6. The temperature control device of claim 1, wherein the first plateau period is 10 seconds to 20 seconds.

7. A fascia moxibustion apparatus comprising the temperature control device according to any one of claims 1 to 6; the fascia moxibustion instrument also comprises an adhesion component, wherein the adhesion component is applied to the surface of a human body and comprises an electrode plate; the temperature control device is further configured to prior to heating the moxa,

controlling the electrode plates to emit heat and output electric stimulus waves simultaneously or sequentially; or alternatively

And controlling the electrode plate to heat or output electric stimulus waves.