CN111973888A - Laser music therapeutic instrument - Google Patents
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- CN111973888A CN111973888A CN202010999756.7A CN202010999756A CN111973888A CN 111973888 A CN111973888 A CN 111973888A CN 202010999756 A CN202010999756 A CN 202010999756A CN 111973888 A CN111973888 A CN 111973888A
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- A61M21/02—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis for inducing sleep or relaxation, e.g. by direct nerve stimulation, hypnosis, analgesia
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- A61M2021/0005—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis by the use of a particular sense, or stimulus
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Abstract
The invention relates to a laser music therapeutic instrument. The laser music therapeutic apparatus has a network connection function, can perform signal interaction with a smart phone mainly through two Bluetooth control modules, can control the therapeutic apparatus to generate corresponding laser, music, infrared thermal moxibustion and the like through the smart phone, has a therapeutic effect, and is particularly suitable for treating pain and cardiovascular and cerebrovascular diseases. The device realizes the functions of controlling device parameters, selecting music, running the device, treating diseases, counting curative effect big data and the like through the network of the smart phone, Bluetooth signals and application software.
Description
Technical Field
The invention relates to the field of medical electronic instruments, in particular to a laser music therapeutic instrument with a network connection function.
Background
Meridian therapy is a treasure in traditional Chinese medicine, especially the twelve main meridians of the human body, acupoints, and the circulation of qi and blood in the human body. For example, the moxibustion treatment department (the single Guimin article-Jilin science and technology publishing agency) and the moxibustion treatment department (the Linlin war elegan Lihongzhu article-scientific and technical literature publishing agency) have detailed discussion, and as to why the moxibustion treatment department can treat various diseases, the acupuncture disease spectrum research group led by doctor Yuan Ming who is the first subsidiary hospital of Tianjin Chinese medicine university applies the Chinese biomedical optical disc database and searches for the literature about acupuncture and gives related answers. Through statistical analysis of research documents of observation of clinical acupuncture curative effects, 461 diseases and symptoms of acupuncture treatment are obtained, wherein 338 western medicine symptoms, 73 western medicine symptoms and 50 traditional Chinese medicine symptoms are obtained, and the data fully illustrate the correctness of the theory of traditional Chinese medicine acupuncture and moxibustion.
The laser music therapeutic apparatus has network connection function, and has physical functions of photoacoustic effect, infrared moxibustion and music therapy, etc. to irradiate relevant acupoints and blood vessels of human body for treating diseases. The modern scientific theory and the traditional Chinese medicine meridian theory are combined.
The weak laser irradiates blood, and plays a role of blood purification treatment. Under the irradiation of weak laser, cellular immunity (T cell number, TH/TS increase, and lymph rate increase) and humoral immunity in blood are normalized, and phagocyte activity and phagocyte index are increased.
The immune function of T cells is discussed in detail in the papers on understanding the advantages and disadvantages of antibodies and clearing viruses by means of T cells and what the immunity of human bodies for defending viruses is, published by the institute of basic medicine of Chinese medical academy of sciences, and the aim of clearing new coronavirus and treating the new coronavirus pneumonia is fulfilled mainly by the number and the activity of the T cells, the B cells and the phagocytes of the human bodies. The first military medical university's board was in the article "Weak laser intravascular irradiation blood comprehensive treatment of malignant tumor" that 30 cases of 9 cancers (liver, lung, kidney, bladder, cardia, gastric sinus cancer, nasopharyngeal carcinoma, chronic granuloma, multiple myeloma) were treated 400 times to purify blood, normalize cellular immunity (T cell number, TH/TS increase, increase in stranguria rate) and humoral immunity, and increase phagocyte activity and phagocytic index. The effective rate of the medicine in eliminating symptoms (pain, fever, digestive tract and mental symptoms) reaches 92.3 percent.
The effect of music on human body is mainly shown as follows: the music directly affects the high-level nerve structure, particularly the cerebral cortex, promotes the cerebral cortex to generate a new excitation range, promotes the activity of the digestive tract, leads the blood vessels to be smooth, accelerates the excretion of wastes in the body and is beneficial to the recovery of diseases; the music can arouse various factors such as memory, association, imagination and the like in the thinking process of people, arouse the sense of unity and cause the resonance of people. The music can be effectively appreciated for a long time, the adverse psychological reaction can be relieved, the temperament can be mastered, and the character and the interest can be changed; the music has different tones, melodies, speeds and the like, so that people can have the functions of sedation, stabilization, relaxation, pleasure, activation, excitation and the like of different degrees, thereby achieving different treatment effects.
Infrared moxibustion has the functions of dredging channels and collaterals, improving local circulation, relieving swelling, pain and adhesion, and relieving mental stress of human body, and generally the higher the temperature is, the better the moxibustion effect is.
The invention is an innovation based on the invention patent of 'laser music therapeutic apparatus' (patent application number is 201410380832.0).
Disclosure of Invention
The invention aims to provide a laser music therapeutic instrument with a network connection function, which can be manually operated by a user to realize a basic therapeutic function, can be operated by a smart phone, is multifunctional and convenient, and can improve the therapeutic effect of equipment.
In order to achieve the purpose, the invention provides the following scheme:
a laser music therapeutic apparatus comprising: the device comprises a power module, a laser power control module, a temperature heating circuit, a temperature detection circuit, a BLE Bluetooth control module, a nasal cavity laser circuit, an MP3 Bluetooth control module and a photoacoustic effect module;
the power module is respectively connected with the laser power control module, the temperature heating circuit, the BLE Bluetooth control module and the MP3 Bluetooth control module;
a first signal output end of the MP3 Bluetooth control module is connected with a signal control end of the power supply module; the second signal output end of the MP3 Bluetooth control module is connected with the first signal input end of the photoacoustic effect module; the signal transceiving end of the MP3 Bluetooth control module is connected with the signal transceiving end of the BLE Bluetooth control module;
a first signal input end of the BLE Bluetooth control module is connected with a signal output end of the temperature detection circuit; a first signal output end of the BLE Bluetooth control module is connected with a signal input end of the laser power supply control module; a second signal output end of the BLE Bluetooth control module is connected with a signal input end of the temperature heating circuit; the signal input end of the temperature detection circuit is connected with the signal output end of the temperature heating circuit; the signal output end of the laser power supply control module is connected with the second signal input end of the photoacoustic effect module; a third signal output end of the BLE Bluetooth control module is connected with a signal input end of the nasal cavity laser circuit;
the BLE Bluetooth control module and the MP3 Bluetooth control module are in signal interaction with the smart phone through Bluetooth signals.
Preferably, the power supply module includes: a first power supply, a second power supply, a third power supply, and a fourth power supply;
the first power supply output end of the first power supply is connected with the power supply end of the temperature heating circuit; the second power supply output end of the first power supply is connected with the power supply input end of the second power supply; the first power supply output end of the second power supply is connected with the power supply end of the laser power supply control module; the second power supply output end of the second power supply is connected with the power supply input end of the third power supply; the power supply output end of the third power supply is connected with the power supply end of the MP3 Bluetooth control module; a third power supply output end of the second power supply is connected with a power supply input end of the fourth power supply; and the power output end of the fourth power supply is connected with the power supply end of the BLE Bluetooth control module.
Preferably, the laser music therapeutic apparatus further comprises: infrared remote control and key switches;
the infrared remote control is used for controlling the laser music therapeutic apparatus through an infrared signal;
the signal output end of the key switch is connected with the second signal input end of the BLE Bluetooth control module; the key switch is used for controlling the nasal cavity laser circuit to be switched on and switched off.
Preferably, the laser music therapeutic apparatus further comprises: the device comprises an indicator light, a USB interface, a TF memory unit and an earphone;
the indicator light is connected with a third signal output end of the MP3 Bluetooth control module; the earphone is connected with a fourth signal output end of the MP3 Bluetooth control module; the TF memory unit and the USB interface are both connected with a data interaction port of the MP3 Bluetooth control module.
Preferably, the laser music therapeutic apparatus further comprises: a buzzer control unit;
and the signal input end of the buzzer control unit is connected with the third signal output end of the BLE Bluetooth control module.
Preferably, the temperature heating circuit is composed of a temperature protection circuit, a power 1 circuit and a power 2 circuit.
Preferably, the photoacoustic effect module comprises a sound channel module, an audio adjusting module and a music laser radiation module;
the signal input end of the sound channel module is connected with the second signal output end of the MP3 Bluetooth control module; the signal output end of the sound channel module is connected with the signal input end of the audio adjusting module; the signal output end of the audio adjusting module is connected with the first signal input end of the music laser radiation module; and a second signal input end of the music laser radiation module is connected with a second signal input end of the photoacoustic effect module.
Preferably, the channel module includes a left channel and a right channel; the audio adjusting module comprises a first audio adjusting unit and a second audio adjusting unit; the music laser radiation module comprises a first music laser radiation unit and a second music laser radiation unit;
the left sound channel, the first audio adjusting unit and the first music laser radiation unit form a first laser radiation module;
the right sound channel, the second audio adjusting unit and the second music laser radiation unit form a second laser radiation module.
Preferably, the first audio conditioning unit and the second audio conditioning unit each include a plurality of audio modulators; the first music laser radiation unit and the second music laser radiation unit comprise a plurality of music laser radiators; the audio modulators are connected with the music laser radiators in a one-to-one correspondence manner;
each audio modulator and the music laser radiator which is correspondingly connected with the audio modulator form a laser radiation unit.
Preferably, the laser music treatment apparatus comprises a housing;
the shell is used for wrapping all parts in the laser music therapeutic apparatus.
According to the specific embodiment provided by the invention, the invention discloses the following technical effects:
the laser music therapeutic apparatus provided by the invention can perform signal interaction with the smart phone through the two Bluetooth control modules, so that the smart phone can control the therapeutic apparatus to generate corresponding laser, music, infrared thermal moxibustion and the like to play a therapeutic role, and is particularly suitable for treating pain and cardiovascular and cerebrovascular diseases. The device realizes the functions of controlling device parameters, selecting music, running the device, performing disease treatment and big data statistics of curative effect and the like through the network of the smart phone, Bluetooth signals and application software.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
FIG. 1 is a block diagram of a laser music therapeutic apparatus according to the present invention;
FIG. 2 is a schematic circuit diagram of the laser music therapeutic apparatus according to the present invention;
fig. 3 is a schematic diagram of the appearance of the laser music therapeutic apparatus provided by the invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The invention aims to provide a laser music therapeutic instrument with a network connection function, which can be manually operated by a user to realize a basic therapeutic function, can be operated by a smart phone, is multifunctional and convenient, and can improve the therapeutic effect of equipment.
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.
Fig. 1 is a block diagram of a laser music therapeutic apparatus provided by the present invention, and as shown in fig. 1, the laser music therapeutic apparatus includes: the device comprises a power module, a laser power control module, a temperature heating circuit, a temperature detection circuit, a BLE Bluetooth control module, a nasal cavity laser circuit, an MP3 Bluetooth control module and a photoacoustic effect module.
The power module is respectively connected with the laser power control module, the temperature heating circuit, the BLE Bluetooth control module and the MP3 Bluetooth control module.
A first signal output end of the MP3 Bluetooth control module is connected with a signal control end of the power supply module; the second signal output end of the MP3 Bluetooth control module is connected with the first signal input end of the photoacoustic effect module; and the signal transceiving end of the MP3 Bluetooth control module is connected with the signal transceiving end of the BLE Bluetooth control module.
A first signal input end of the BLE Bluetooth control module is connected with a signal output end of the temperature detection circuit; a first signal output end of the BLE Bluetooth control module is connected with a signal input end of the laser power supply control module; a second signal output end of the BLE Bluetooth control module is connected with a signal input end of the temperature heating circuit; the signal input end of the temperature detection circuit is connected with the signal output end of the temperature heating circuit; the signal output end of the laser power supply control module is connected with the second signal input end of the photoacoustic effect module; and a third signal output end of the BLE Bluetooth control module is connected with a signal input end of the nasal cavity laser circuit.
The BLE Bluetooth control module and the MP3 Bluetooth control module are in signal interaction with the smart phone through Bluetooth signals.
Preferably, the power supply module includes: a first power supply, a second power supply, a third power supply, and a fourth power supply;
the first power supply output end of the first power supply is connected with the power supply end of the temperature heating circuit; the second power supply output end of the first power supply is connected with the power supply input end of the second power supply; the first power supply output end of the second power supply is connected with the power supply end of the laser power supply control module; the second power supply output end of the second power supply is connected with the power supply input end of the third power supply; the power supply output end of the third power supply is connected with the power supply end of the MP3 Bluetooth control module; a third power supply output end of the second power supply is connected with a power supply input end of the fourth power supply; and the power output end of the fourth power supply is connected with the power supply end of the BLE Bluetooth control module.
Preferably, the laser music therapeutic apparatus further comprises: infrared remote control and key switches.
The infrared remote control is used for controlling the laser music therapeutic apparatus through an infrared signal;
the signal output end of the key switch is connected with the second signal input end of the BLE Bluetooth control module; the key switch is used for controlling the nasal cavity laser circuit to be switched on and switched off.
Preferably, the laser music therapeutic apparatus further comprises: the device comprises an indicator light, a USB interface, a TF memory unit and an earphone.
The indicator light is connected with a third signal output end of the MP3 Bluetooth control module; the earphone is connected with a fourth signal output end of the MP3 Bluetooth control module; the TF memory unit and the USB interface are both connected with a data interaction port of the MP3 Bluetooth control module.
Preferably, the laser music therapeutic apparatus further comprises: a buzzer control unit;
and the signal input end of the buzzer control unit is connected with the third signal output end of the BLE Bluetooth control module.
Preferably, the temperature heating circuit is composed of a temperature protection circuit, a power 1 circuit and a power 2 circuit.
Preferably, the photoacoustic effect module comprises a sound channel module, an audio adjusting module and a music laser radiation module;
the signal input end of the sound channel module is connected with the second signal output end of the MP3 Bluetooth control module; the signal output end of the sound channel module is connected with the signal input end of the audio adjusting module; the signal output end of the audio adjusting module is connected with the first signal input end of the music laser radiation module; and a second signal input end of the music laser radiation module is connected with a second signal input end of the photoacoustic effect module.
Preferably, the channel module includes a left channel and a right channel; the audio adjusting module comprises a first audio adjusting unit and a second audio adjusting unit; the music laser radiation module comprises a first music laser radiation unit and a second music laser radiation unit;
the left sound channel, the first audio adjusting unit and the first music laser radiation unit form a first laser radiation module;
the right sound channel, the second audio adjusting unit and the second music laser radiation unit form a second laser radiation module.
Preferably, the first audio conditioning unit and the second audio conditioning unit each include a plurality of audio modulators; the first music laser radiation unit and the second music laser radiation unit comprise a plurality of music laser radiators; the audio modulators are connected with the music laser radiators in a one-to-one correspondence manner;
each audio modulator and the music laser radiator which is correspondingly connected with the audio modulator form a laser radiation unit.
Preferably, the laser music treatment apparatus comprises a housing;
the shell is used for wrapping all parts in the laser music therapeutic apparatus.
The following provides a specific embodiment to further illustrate the scheme of the present invention, which is illustrated by a schematic circuit diagram shown in fig. 2, and the scheme is also applicable to other circuit components having the same function as the present invention in specific design application.
As shown in fig. 1 to 3, the laser music therapeutic apparatus provided by the present invention comprises: the system comprises a power supply [1], a power supply [2], a power supply [3], a power supply [4], a temperature heating circuit [5], a temperature detection circuit [6], an infrared remote controller [7], an indicator lamp [8], a BLE Bluetooth control module [9], an MP3 Bluetooth module [10], a laser power supply control [11], a nasal cavity laser circuit [12], a buzzer circuit [13], a key switch circuit [14], an earphone [15], a memory TF memory card [16], a USB socket [17], an effect circuit [18], an instrument shell [19] and a smart phone [20 ].
The power supply [1] is connected with the temperature heating circuit [5] and the power supply [2], the temperature heating circuit [5] is connected, the temperature detection circuit [6] is also connected with a BLE Bluetooth control module [9], the BLE Bluetooth control module [9] is connected with the temperature heating circuit [5] in a feedback way, in addition, the power supply [2] is connected with the power supply [3] and the power supply [4], the power supply [3] is connected with an MP3 Bluetooth module [10], the MP3 Bluetooth module [10] is connected with an infrared remote controller [7], an indicator lamp [8], an earphone [15], a memory TF memory card [16] and a USB socket [17], the power supply [4] is connected with the BLE Bluetooth control module [9], the BLE Bluetooth control module [9] is also connected with a nasal cavity laser circuit [12], a buzzer circuit [13], a key switch circuit [14], the BLE Bluetooth control module [9] and the MP3 Bluetooth module [10] are, the MP3 Bluetooth module [10] is connected with an L channel and an R channel in the photoacoustic effect [18], the L channel is connected with a 2 nd audio modulator [ Q2], a 3 rd audio modulator [ Q3], a 4 th audio modulator [ Q4], a 5 th audio modulator [ Q5], a 6 th audio modulator [ Q6], a 7 th audio modulator [ Q7], an 8 th audio modulator [ Q8], a 9 th audio modulator [ Q9] and a 2 nd audio modulator [ Q2] are connected with a semiconductor laser module D3 and a semiconductor laser module D4, the 3 rd audio modulator [ Q3] is connected with a semiconductor laser module D5 and a semiconductor laser module D6, the 4 th audio modulator [ Q4] is connected with a semiconductor laser module D7 and a semiconductor laser module D8, the 5 th audio modulator [ Q5] is connected with a semiconductor laser module D9 and a semiconductor laser module D10, and the R channel Q56 th audio modulator [ Q56 ] is connected with a semiconductor laser module D8286 11 and a semiconductor laser module D86 11, The 7 th audio modulator [ Q7] is connected with the semiconductor laser module D13 and the semiconductor laser module D14, the 8 th audio modulator [ Q8] is connected with the semiconductor laser module D15 and the semiconductor laser module D16, and the 9 th audio modulator [ Q9] is connected with the semiconductor laser module D17 and the semiconductor laser module D18. Output ports of semiconductor laser modules [ D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, D16, D17 and D18] are respectively provided with corresponding permanent magnet rings with holes [ ZT1, ZT2, ZT3, ZT4, ZT5, ZT6, ZT7, ZT8, ZT9, ZT10, ZT11, ZT12, ZT13, ZT14, ZT15, ZT16, ZT17 and ZT18], a metal cap with holes, an organic glass sheet and a permanent magnet ring with holes are fixed at the front ends of the laser modules, and laser modulated by audio frequency passes through holes of the magnetic rings, the organic glass sheet and the metal cover. All semiconductor laser music radiators are arranged in space to form an array, and the laser music therapeutic apparatus and the laser module emit laser waves modulated by music to generate a photoacoustic effect and a photomagnetic effect.
The smart phone [20] is connected with the BLE Bluetooth control module [9] and the MP3 Bluetooth module [10] through Bluetooth signals, and the smart phone [20] can control and adjust the operation condition, the working time, the infrared heating temperature, the checking and selection of songs played by equipment or a mobile phone, the statistics of curative effects of treating diseases, the search of data of treating diseases and the like.
The MP3 Bluetooth control module [10] is connected with the BLE Bluetooth control module [9] and the smart phone [20] through a communication protocol.
Wherein, the power supply [1] is a 15V power adapter for reducing 220V alternating current into direct current, and the power supply [1] supplies power to the equipment temperature heating circuit [5] and the power supply [2 ].
The power supply [2] is a circuit for reducing the 15V voltage to 5V voltage through voltage reduction, and the circuit consists of elements of chips U1, C1, C2, R1, D23, L1, R2 and C3; the laser acoustic effect [18] and the power supply [3] and the power supply [4] of the device are supplied with power through two diodes D24 and D25.
The power supply [3] is a processing circuit for reducing the voltage of 5V provided by the power supply [2] to 3.6V, and the circuit is a circuit formed by a chip U3 and the like; and the power supply [3] supplies power to the MP3 Bluetooth control module [10 ].
The power supply [4] is a processing circuit for reducing the voltage of 5V provided by the power supply [2] to 3.3V, and the circuit is a circuit formed by a chip U6 and the like and supplies power for the BLE Bluetooth control module [9 ]; whether the power supply is controlled by the restriction of a communication protocol between the MP3 Bluetooth module [10] and the BLE Bluetooth control module [9] or not, if the MP3 Bluetooth control module [10] cannot read the data of the BLE Bluetooth control module [9], the MP3 Bluetooth control module [10] sends an instruction to power off the power supply [4] for 2 seconds and then turns on the power supply, so that the BLE Bluetooth control module [9] is reset.
The power supply [1], the power supply [2], the power supply [3] and the power supply [4] are the first power supply, the second power supply, the third power supply and the fourth power supply.
The temperature heating circuit [5] is a device group for providing heating for equipment, and consists of three parts, namely a temperature protection circuit (Q14, R44, R45 and U8) and a power 1 circuit (R51, Q15, R47, R46, U9 and R48) as well as a power 2 circuit (R52, Q16, R53, R54, U10 and R55); achieving the function of heating the equipment.
The temperature detection circuit [6] reads the temperature data of the equipment, feeds the temperature data back to the BLE Bluetooth control module [9], and enables the BLE Bluetooth control module [9] to identify the current temperature condition, so that the temperature heating circuit [5] is controlled to achieve the purpose of constant temperature. The detection module consists of R58, C60, U11, R59, C61 and U12.
The infrared remote controller [7] is an external component, is matched with equipment for use, and aims to control the equipment in an infrared mode.
The indicator lamp [8] is used for displaying the working state of the current equipment, and the components of the indicator lamp are composed of R38, D22, R39, D21 and D20.
The BLE Bluetooth control module [9] consists of components such as a chip U7 and the like, and is in Bluetooth connection with the smart phone [20] to enable the BLE Bluetooth control module to be controlled by the smart phone [20] to change the working state of equipment by sending instructions through APP (smart phone application software); the nasal cavity laser [12], the buzzer control [13] and the key switch [14] can be directly controlled; and the Bluetooth module is connected with the MP3 Bluetooth control module [10] through hardware, and can indirectly control the song content playing and the working state of the indicator light [8] in the TF memory card.
The control of the nasal cavity laser is realized by directly controlling a BLE Bluetooth control module (9) through a physical key switch (14) to directly output the BLE Bluetooth control module to the nasal cavity laser (12) for power supply, the wavelength of the nasal cavity laser is 650nm as the wavelength of a main output laser, and the power is less than or equal to 5 mW/beam.
In the background art, the aim of eliminating new coronavirus and treating [ new coronavirus pneumonia ] is achieved by a human body mainly depending on the number and activity of T cells, B cells and phagocytes of the human body, so that the number and activity of the T cells, the B cells and the phagocytes of the human body can be greatly increased by adopting laser emitted by the laser music therapeutic instrument provided by the invention in a laser treatment mode, and the aim of eliminating the new coronavirus and treating [ new coronavirus pneumonia ] is achieved.
The MP3 Bluetooth control module [10] consists of components such as a chip U4 and the like, and can control the playing, pausing and the like of songs in the mobile phone of the smart mobile phone [20] by carrying out Bluetooth connection with the smart mobile phone [20 ]; through being connected with BLE bluetooth control module hardware, can upload the song content of smart mobile phone [20] TF memory card [16] indirectly. The device outputs audio through an earphone [15], and loads audio signals through a photoacoustic effect [18 ]; and the data communication with the computer is carried out through the USB socket [17], and the content of the TF memory card [16] is modified.
The laser power supply control [11] consists of R5, Q1, R4, R3, C4 and U2 elements, the power supply [2] supplies power to the laser power supply control [11], and the laser power supply control [11] is controlled by the BLE Bluetooth control module [9] to supply power to the photoacoustic effect [18 ].
The nasal cavity laser circuit [12] consists of an external nasal cavity laser device and an internal driving circuit, wherein the internal driving circuit consists of R23, R24, Q10, Q11, R25, R26 and Q12, and is controlled by a BLE Bluetooth control module [9 ].
The buzzer circuit [13] is composed of elements J5, Q13 and R57, and gives an alarm sound for the working state of the device. Controlled by a BLE Bluetooth control module [9 ].
The key switch circuit [14] has the functions of setting time for equipment and starting a laser function, and indirectly controls the smart phone [20] to carry out APP time synchronous display. Consisting of elements K1, K2, T16 and T15.
The headset [15] is an external stand-alone accessory whose function is to provide sound reproduction. Controlled by an MP3 Bluetooth control module [10 ].
The memory TF memory card [16] external device is combined and applied to a function of storing and reading information and is directly controlled with the MP3 Bluetooth control module [10 ].
The USB socket [17] can be connected with a computer for data exchange through the function, and directly controls the MP3 Bluetooth control module [10] to indirectly control the TF memory card [16 ].
The photoacoustic effect circuit [18] is one of the main functions of the equipment, audio output by the MP3 Bluetooth control module [10] is loaded on laser, and power is supplied by the laser power supply control [11 ].
The instrument case [19] is a specific heat conductor and has fixing and heat conducting functions.
The smart phone [20] is an external corollary device, and a series of functions of the device can be controlled after Bluetooth connection is carried out by implanting a designated APP. The partial functions realized are as follows:
1. sending laser turn-on and turn-off commands to a BLE Bluetooth control module [9 ]; sending a device work timing command; sending a set equipment temperature control command; and sending a device binding and unlocking command.
Head command data checksum
FE010102// Start laser command
FE020103// close laser command
FE03XXYY03+ XX + YY// set work countdown XX hours YY minutes
FE04XX04+ XX// set temperature XX temperature value
FE050106// get MAC
FE060107// unlock (tentative)
FE060208// temporary unlocking for lease (tentative)
FE060308// locked (tentative).
2. The BLE Bluetooth control module [9] sends a song acquisition command, a playing pause command and a control indicator lamp [8] working state command to the MP3 Bluetooth control module [10 ].
BLE->MP3
Head command data checksum
FE810182// obtaining song names
Head command data checksum
FE810283// acquire Play State
Head command data checksum
FE810384// play
Head command data checksum
FE810485// pause
Head command data checksum
FE810586//MP3
Head command data checksum
FE810687//BLUE
Head command song number checksum
Fe82000183// Play specified Song number
Head command LED checksum
FE830183// control LED lamp 1 bright green lamp 2 bright blue lamp 0 go out lamp
FE050106// get MAC
FE060107// unlock (tentative)
FE060308// locked (tentative).
3. The MP3 Bluetooth control module [10] transmits the song number to the BLE Bluetooth control module [9] and transmits the playing state.
MP3- > APP Command
Head length command luminance checksum
FA0A01DD0A (checksum) upload energy value
Header length command BLEMAC (6 bytes) Bluetooth MAC (6 bytes) checksum
FA100211223344556611223344556671 (checksum) uploads MAC
Head length command song number total song name
Fax 300xx0001yy
Header length command BLEMAC (6 byte) checksum
FA0a0211223344556671 (checksum) uploads MAC.
4. The device may be set to a device purchase status or a device rental status in the APP. Under the condition of equipment purchase, the equipment can be matched with the intelligent mobile phone [20] for use, or the equipment can be independently used by manual operation without using the mobile phone. Under the condition of equipment leasing, the equipment is matched with the smart phone [20] for use, when the Bluetooth communication is disconnected for a set time, the equipment closes all functions of the semiconductor laser music therapeutic apparatus, and only when the Bluetooth communication between the smart phone [20] and the equipment is recovered, the equipment can be continuously used.
5. The music playing function is carried out through the intelligent mobile phone [20] APP, songs in a memory card [16] of TF of the playing equipment can be selected, and songs in the intelligent mobile phone [20] can also be selected to be played.
6. Through the smart phone [20] APP, songs of the memory card [16] of the equipment memory TF can be checked and selected, and the number of the songs, the total number of the songs and the names of the songs can be displayed.
7. Related data in the APP of the smart phone [20] can be uploaded to a designated server in an internet mode, and an equipment operator can check the equipment use condition of the semiconductor laser music therapeutic apparatus, whether the equipment use condition is a purchase condition, a lease condition or an idle condition, and can check parameters of the equipment use condition, such as the equipment set temperature, the equipment set working time and the like; the remaining balance of the user's account under rental conditions can be checked.
8. Under the condition of the rental equipment, the intelligent management system has the functions of recharging and timing the rental equipment and has the function of accumulated timing after power is cut off and power is supplied again.
9. The device has the functions of evaluating the curative effect of the device after treatment and counting big data after treatment of diseases, and a device operator can obtain related data and curves by a background computer.
10. Has the function of medical consultation, and can search and look up the causes and symptoms of various diseases and the treatment acupuncture point diagram.
The APP is developed and designed by the company, is specially developed for laser music therapeutic equipment and is named as 'medical and American', and the specific structure of the device is mainly protected in the invention per se, so that the APP is not described in detail.
The specific models and parameter specifications of the elements of the invention are as follows:
the music laser radiation modules are D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, D16, D17 and D18, and all of the laser modules adopt QSI Korean die laser modules of Dongguan electronic company, Guangdong province.
D8 is a blue-green double-color LED time control display lamp. The models of the triodes Q2, Q3, Q4, Q5, Q6, Q7, Q8 and Q9 are 8050. The neodymium iron boron magnet ring is ZT1, ZT2, ZT3, ZT4, ZT5, ZT6, ZT7, ZT8, ZT9, ZT10, ZT11, ZT12, ZT13, ZT14, ZT15, ZT16, ZT17 and ZT 18. The resistors R7, R9, R11, R13, R15, R17, R19, and R21 are all 15K ohms. The resistors R8, R10, R12, R14, R16, R18, R20 and R22 are all 82K ohms; tantalum capacitors C7, C9, C11, C13, C17, C19, C21 and C23 are all 100 microfarads; the tantalum capacitors C6, C8, C10, C12, C16, C18, C20 and C22 are all 22 microfarads; the tantalum capacitors C5 and C15 are both 22 microfarads; the model of a BLE Bluetooth control module [9] is ATB1103, and the model of an MP3 Bluetooth module [10] is ATD 2819. The smart phone [20] can be selected from an android system mobile phone or an apple system mobile phone. The capacity of the memory card [16] is universal from 1G to 64G, the USB [17] interface can download songs and play MP3 or WMA format songs, the infrared remote controller [17] can control the playing of the music, and the infrared remote controller [17] is an independent component powered by a battery. The buzzer controls the voltage of [13] to be 5V and the diameter to be 9.6 mm.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.
Claims (10)
1. A laser music therapeutic apparatus, comprising: the device comprises a power module, a laser power control module, a temperature heating circuit, a temperature detection circuit, a BLE Bluetooth control module, a nasal cavity laser circuit, an MP3 Bluetooth control module and a photoacoustic effect module;
the power module is respectively connected with the laser power control module, the temperature heating circuit, the BLE Bluetooth control module and the MP3 Bluetooth control module;
a first signal output end of the MP3 Bluetooth control module is connected with a signal control end of the power supply module; the second signal output end of the MP3 Bluetooth control module is connected with the first signal input end of the photoacoustic effect module; the signal transceiving end of the MP3 Bluetooth control module is connected with the signal transceiving end of the BLE Bluetooth control module;
a first signal input end of the BLE Bluetooth control module is connected with a signal output end of the temperature detection circuit; a first signal output end of the BLE Bluetooth control module is connected with a signal input end of the laser power supply control module; a second signal output end of the BLE Bluetooth control module is connected with a signal input end of the temperature heating circuit; the signal input end of the temperature detection circuit is connected with the signal output end of the temperature heating circuit; the signal output end of the laser power supply control module is connected with the second signal input end of the photoacoustic effect module; a third signal output end of the BLE Bluetooth control module is connected with a signal input end of the nasal cavity laser circuit;
the BLE Bluetooth control module and the MP3 Bluetooth control module are in signal interaction with the smart phone through Bluetooth signals.
2. The laser music treatment instrument of claim 1, wherein the power module comprises: a first power supply, a second power supply, a third power supply, and a fourth power supply;
the first power supply output end of the first power supply is connected with the power supply end of the temperature heating circuit; the second power supply output end of the first power supply is connected with the power supply input end of the second power supply; the first power supply output end of the second power supply is connected with the power supply end of the laser power supply control module; the second power supply output end of the second power supply is connected with the power supply input end of the third power supply; the power supply output end of the third power supply is connected with the power supply end of the MP3 Bluetooth control module; a third power supply output end of the second power supply is connected with a power supply input end of the fourth power supply; and the power output end of the fourth power supply is connected with the power supply end of the BLE Bluetooth control module.
3. The laser music treatment instrument of claim 1, further comprising: infrared remote control and key switches;
the infrared remote control is used for controlling the laser music therapeutic apparatus through an infrared signal;
the signal output end of the key switch is connected with the second signal input end of the BLE Bluetooth control module; the key switch is used for controlling the nasal cavity laser circuit to be switched on and switched off.
4. The laser music treatment instrument of claim 1, further comprising: the device comprises an indicator light, a USB interface, a TF memory unit and an earphone;
the indicator light is connected with a third signal output end of the MP3 Bluetooth control module; the earphone is connected with a fourth signal output end of the MP3 Bluetooth control module; the TF memory unit and the USB interface are both connected with a data interaction port of the MP3 Bluetooth control module.
5. The laser music treatment instrument of claim 1, further comprising: a buzzer control unit;
and the signal input end of the buzzer control unit is connected with the third signal output end of the BLE Bluetooth control module.
6. The laser music treatment instrument according to claim 1, wherein the temperature heating circuit is composed of a temperature protection circuit, a power 1 circuit and a power 2 circuit.
7. The laser music treatment apparatus according to claim 1, wherein the photoacoustic effect module comprises a sound channel module, an audio conditioning module, and a music laser radiation module;
the signal input end of the sound channel module is connected with the second signal output end of the MP3 Bluetooth control module; the signal output end of the sound channel module is connected with the signal input end of the audio adjusting module; the signal output end of the audio adjusting module is connected with the first signal input end of the music laser radiation module; and a second signal input end of the music laser radiation module is connected with a second signal input end of the photoacoustic effect module.
8. The laser music treatment instrument of claim 7, wherein the sound channel module comprises a left sound channel and a right sound channel; the audio adjusting module comprises a first audio adjusting unit and a second audio adjusting unit; the music laser radiation module comprises a first music laser radiation unit and a second music laser radiation unit;
the left sound channel, the first audio adjusting unit and the first music laser radiation unit form a first laser radiation module;
the right sound channel, the second audio adjusting unit and the second music laser radiation unit form a second laser radiation module.
9. The laser music treatment instrument of claim 8, wherein the first audio conditioning unit and the second audio conditioning unit each comprise a plurality of audio modulators; the first music laser radiation unit and the second music laser radiation unit comprise a plurality of music laser radiators; the audio modulators are connected with the music laser radiators in a one-to-one correspondence manner;
each audio modulator and the music laser radiator which is correspondingly connected with the audio modulator form a laser radiation unit.
10. The laser music treatment apparatus of claim 1, wherein the laser music treatment apparatus comprises a housing;
the shell is used for wrapping all parts in the laser music therapeutic apparatus.
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