TWM487051U - Bone cell proliferation stimulation equipment featuring modulatable low-frequency oscillating waves - Google Patents

Description

Adjustable low frequency vibrating bone cell proliferation stimulator

This creation department is about a kind of stimulator that can regulate low-frequency vibration wave bone cell proliferation, especially a kind of adjustable low-frequency vibration wave which can adjust the frequency, amplitude, waveform and time with the bone healing condition to effectively promote bone cell proliferation. Oste cell proliferation stimulator.

Press, the human body is the hardest tissue in the body. Its main function is to protect other organs of the body and support the body, so that the body can move and move freely. However, with the changes in modern people's life and diet, such as smoking, alcoholism, excessive caffeine, lack of exercise, nutritional imbalance, inadequate intake of vitamin D, and low calcium and high salt diet, etc., it is common in modern people. In the case of Osteoporosis, when the human skeleton becomes loose and fragile, symptoms such as height atrophy, kyphosis and fractures are produced.

When the fracture occurs, depending on the current treatment of the fracture, mainly after the surgical treatment, plastering is applied to help the fracture to heal. Therefore, during the healing of the bone, the life and work of the patient will be affected, and the bone healing is generally performed. The time required will take about three to five months. During this period, the patient's living and lying activities and various activities are extremely inconvenient. Even more serious people can only lie in bed and stay unable to work, resulting in inability to work. Increase the burden on the family, etc. Therefore, if the bone healing efficiency at the fracture site can be improved and the treatment time is shortened, the negative effects caused by the fracture can be effectively reduced.

At present, the treatment methods for accelerating bone healing include chemotherapy, hormone therapy and ultrasonic therapy, etc. Among them, the ultrasonic therapy system is an in vitro physical therapy, which is non-invasive and convenient to implement, and can avoid chemical treatment, hormone therapy, etc. Possible side effects, therefore, are widely accepted and adopted by fracture patients. However, the existing ultrasonic devices that promote fracture healing can only emit high-frequency ultrasonic frequencies to stimulate cells. In the process of bone healing, the cellular tissues involved in different stages will be different. If high-frequency ultrasonic stimulation is used all the time. The way to help the bone healing effect is quite limited, and the existing high-frequency ultrasonic equipment that promotes fracture healing can not adjust the ultrasonic waveform and amplitude, and can not set the parameters such as treatment time, especially in the high-frequency super used to provide fracture healing. Sonic equipment is extremely expensive, and the cost of this equipment is passed on to the patient's treatment costs, resulting in a considerable economic burden on the patient.

The reason is that the creators have adjusted the vibration frequency, waveform, amplitude and time parameters in view of the existing ultrasonic wave equipment for promoting fracture healing, which results in limited bone healing and expensive equipment. The high cost of treatment and the considerable economic burden on patients are supported by years of manufacturing and design experience and knowledge in related fields, and through many ingenuity, for existing ultrasonic equipment that promotes fracture healing. Research and development improvements, and research and development of this creation.

This creation department has a stimulator for low-frequency vibrating bone cell proliferation. Its main purpose is to provide a parameter that can be used in conjunction with bone healing to adjust the frequency, amplitude, waveform and time to effectively promote bone cell proliferation. Regulate the low-frequency vibrating bone cell proliferation stimulator.

In order to achieve the above-mentioned implementation objectives, the present author has developed the following tunable stimulator for low-frequency vibrating bone cell proliferation, which is mainly provided with an instrument body, and is provided with a microprocessor in the main body of the instrument, and is also provided on the main body of the instrument. a frequency adjuster, an amplitude adjuster and a waveform adjuster, and the frequency adjuster, the amplitude adjuster and the waveform adjuster are coupled to the microprocessor, and an exciter is disposed outside the main body of the instrument, and The vibration exciter and the microprocessor are coupled by a conductive line, and the power supply unit is disposed on the main body of the instrument, and the power supply unit is coupled to the microprocessor.

The modulating low-frequency vibration wave osteogenesis stimulator as described above, wherein the modulating low-frequency vibration wave osteogenesis stimulator is further provided with a time adjuster on the main body of the instrument, and the time adjuster and the micro-processing The devices are coupled.

The modulating low-frequency vibration wave osteogenesis stimulator as described above, wherein the vibration exciter comprises a motor exciter and a piezoelectric exciter, so that the motor exciter uses the conductive line and the micro-processing The piezoelectric oscillator is coupled to the amplifier module further disposed in the main body of the instrument by the conductive line, and the amplifier module is coupled to the microprocessor.

The modulating low-frequency vibrating bone cell proliferation stimulator as described above, wherein the main body of the apparatus is further provided with a display, and the display is coupled to the microprocessor.

The modulating low-frequency vibrating bone cell proliferation stimulator as described above, wherein the instrument body is further provided with an opening and closing switch, and the opening and closing switch is coupled to the microprocessor.

The modulating low-frequency vibrating bone cell proliferation stimulator as described above, wherein the main body of the apparatus is further provided with a accommodating portion for housing the exciter.

Therefore, during the implementation, the exciter is attached to the fracture of the patient, and then according to the bone healing condition of the patient's fracture, the frequency adjuster, the amplitude adjuster, the time adjuster and the waveform adjuster are used. Adjustment of parameters such as frequency, amplitude, waveform and time to provide the frequency, amplitude, waveform and time stimulation of bone cell adaptation, so that it can effectively proliferate, according to which, it can accelerate the healing of bones and effectively reduce the recovery time and other benefits. .

In order to make the technical means of this creation and the effect it can achieve, it can be more completely and clearly disclosed. For details, please refer to the following diagrams and drawings:

First of all, please refer to the first and second figures. The tunable low-frequency vibrating bone cell proliferation stimulator for this creation is mainly equipped with the main body of the instrument (1), and micro-processing is provided in the main body (1) of the instrument. The device (2) is further provided with a frequency adjuster (3), an amplitude adjuster (4), a time adjuster (5) and a waveform adjuster (6) on the main body (1), and the frequency adjuster is (3) The amplitude adjuster (4), the time adjuster (5) and the waveform adjuster (6) are coupled to the microprocessor (2), and the exciter is disposed outside the instrument body (1) (7) The vibration exciter (7) includes a motor exciter (71) and a piezoelectric exciter (72), such that the motor exciter (71) and the microprocessor (2) The conductive (73) is coupled to the conductive line (73), and the piezoelectric exciter (72) is coupled to the amplifier module (8) disposed in the main body (1) of the instrument by a conductive line (73). And coupling the amplifier module (8) to the microprocessor (2), and A storage portion (11) is formed on the main body (1) for housing the motor exciter (71), the piezoelectric exciter (72) and the conductive wire (73), and the main body of the instrument (1) a display (9) and an opening and closing switch (22) are arranged thereon, and the display (9) and the opening and closing switch (22) are coupled to the microprocessor (2), and are integrated in the main body of the instrument (1) A power supply unit (21) is provided, and the power supply unit (21) is coupled to the microprocessor (2).

Accordingly, when the bone of the fracture is to be healed, the medical staff takes out the motor exciter (71) and the piezoelectric exciter (72) housed in the accommodating portion (11) of the instrument body (1). In order to adhere to the patient's fracture, the opening and closing switch (22) provided on the main body of the instrument (1) initiates the creation of the controllable low-frequency vibrating bone cell proliferation stimulator, and the medical personnel are based on the disease. The bone healing condition of the fracture site is adjusted by frequency adjuster (3), amplitude adjuster (4), time adjuster (5) and waveform adjuster (6) for frequency, amplitude, time and waveform. The frequency adjustment of the creation is mainly based on the low frequency of 20 Hz to 200 Hz, and the adjustment values of the frequency, amplitude, time and waveform are displayed on the display (9). The frequency, amplitude, time and waveform adjustment values of the frequency adjuster (3), amplitude adjuster (4), time adjuster (5) and waveform adjuster (6) are in the micro The microprocessor (2) is temporarily stored in the processor (2), and the microprocessor (2) of the present invention includes a temporary memory and a timer.

Here, the microprocessor (2) controls the output of the radio signal according to the parameter values such as frequency, amplitude and waveform set by the medical personnel, so that the motor exciter (71) coupled thereto is issued. The vibration of the frequency, amplitude and waveform, and the piezoelectric exciter (72) is driven by the microprocessor (2) via the amplifier module (8), and the piezoelectric exciter (72) is also driven. The vibration of the set frequency, amplitude and waveform, so that the bones at the fracture can participate in the bone cells at different healing stages, providing the required stimulation, so that the bone cells in the healing stage are adapted to the frequency and amplitude. The waveform is excited and proliferated to accelerate the healing of the bone at this stage, thereby achieving the benefit of effectively reducing the recovery time. When the set time parameter is reached, the microprocessor (2) stops the signal output, so that the motor is excited. The vibrator (71) and the piezoelectric exciter (72) automatically stop, and according to the accurate control of the time, the skeletal stimulation time of the affected part can be avoided or Too long to cause undue influence, to further improve the efficiency of bone healing.

The foregoing embodiments or drawings are not intended to limit the implementation of the tunable low-frequency vibrating bone cell proliferation stimulator of the present invention, and any change or modification made by those having ordinary knowledge in the technical field should be regarded as not departing from the creation. It can control the patent range of low frequency vibrating bone cell proliferation stimulator.

According to the above structure and implementation, the author has the following advantages:

1. The tunable low-frequency vibrating bone cell hyperplasia stimulator of this creation is based on the bone healing condition of the fractured part of the patient, and adjusts the parameters such as frequency, amplitude, waveform and time to provide the bone cells involved in the different healing stages of the bone. The adaptation frequency, amplitude, waveform and time are stimulated to proliferate, thereby achieving the effect of accelerating bone healing and effectively reducing recovery time.

2. The low-frequency vibrating bone cell hyperplasia stimulator of this creation mainly outputs low-frequency vibration. The output low-frequency vibration instrument is cheaper than the existing output high-frequency ultrasonic equipment, and the equipment cost is greatly reduced. Reduce the cost of treatment for patients transferred to reduce the economic burden of patients.

In summary, the embodiment of the present creation can achieve the expected effect, and the specific structure disclosed therein has not been seen in the same kind of products, nor has it been disclosed before the application, and has fully complied with the provisions of the Patent Law. It is required that if an application for a new type of patent is filed in accordance with the law, and the application for a patent is granted, the patent will be granted.

(1) ‧‧‧ instrument body

(11) ‧‧ ‧ Storage Department

(2) ‧‧‧Microprocessor

(21)‧‧‧Power supply unit

(22)‧‧‧Open and close switches

(3) ‧‧‧frequency adjuster

(4) ‧‧‧Amplitude adjuster

(5) ‧ ‧ time adjuster

(6)‧‧‧ Waveform adjuster

(7)‧‧‧Exciter

(71)‧‧‧Motor exciter

(72)‧‧‧Piezo vibration exciter

(73)‧‧‧Flexible wires

(8)‧‧‧Amplifier Module

(9)‧‧‧ display

The first picture: a perspective view of the creation

The second picture: the architecture diagram of this creation

(1) ‧‧‧ instrument body

(11) ‧‧ ‧ Storage Department

(22)‧‧‧Open and close switches

(3) ‧‧‧frequency adjuster

(4) ‧‧‧Amplitude adjuster

(5) ‧ ‧ time adjuster

(6)‧‧‧ Waveform adjuster

(7)‧‧‧Exciter

(71)‧‧‧Motor exciter

(72)‧‧‧Piezo vibration exciter

(73)‧‧‧Flexible wires

(9)‧‧‧ display

Claims (10)

A stimulator capable of regulating low-frequency vibration wave bone cell proliferation, mainly comprising an instrument body, and having a microprocessor in the main body of the instrument, and a frequency adjuster, an amplitude adjuster and a waveform adjuster on the main body of the instrument And the frequency adjuster, the amplitude adjuster and the waveform adjuster are coupled to the microprocessor, and the exciter is disposed outside the main body of the instrument, and the exciter and the microprocessor are electrically conductive The line phase is coupled to the main body of the instrument and is provided with a power supply unit, and the power supply unit is coupled to the microprocessor. The modulating low-frequency vibration wave osteogenesis stimulator according to the first aspect of the patent application, wherein the modulating low-frequency vibration wave osteogenesis stimulator further comprises a time adjuster on the main body of the apparatus, and the time is adjusted. The adjuster is coupled to the microprocessor. The modulating low-frequency vibration wave osteogenesis stimulator according to the second aspect of the invention, wherein the vibration exciter comprises a motor vibration exciter and a piezoelectric vibration exciter, so that the motor exciter is electrically conductive The line is coupled to the microprocessor, and the piezoelectric exciter is coupled to the amplifier module further disposed in the main body of the instrument by the conductive line, and the amplifier module and the microprocessor are further Coupled. The modulating low-frequency vibrating bone cell proliferation stimulator according to claim 3, wherein the main body of the apparatus is further provided with a display, and the display is coupled to the microprocessor. The modulating low-frequency vibration wave osteogenesis stimulator according to the fourth aspect of the invention, wherein the instrument body is further provided with an opening and closing switch, and the opening and closing switch is coupled to the microprocessor. The modulating low-frequency vibration wave osteogenesis stimulator according to the fifth aspect of the invention, wherein the main body of the apparatus further comprises a accommodating portion for receiving the vibration exciter. The modulating low-frequency vibration wave osteogenesis stimulator according to the first aspect of the invention, wherein the vibration exciter comprises a motor vibration exciter and a piezoelectric vibration exciter, so that the motor exciter is electrically conductive The line is coupled to the microprocessor, and the piezoelectric exciter is coupled to the amplifier module further disposed in the main body of the instrument by the conductive line, and the amplifier module and the microprocessor are further Coupled. The modulating low-frequency vibrating bone cell proliferation stimulator according to claim 1, wherein the main body of the apparatus is further provided with a display, and the display is coupled to the microprocessor. The low-frequency vibration wave osteogenesis stimulator according to the first aspect of the patent application, wherein the instrument body is further provided with an opening and closing switch, and the opening and closing switch is coupled to the microprocessor. The low-frequency vibrating bone cell proliferation stimulator according to the first aspect of the invention, wherein the main body of the apparatus further comprises a receiving portion for the vibration exciter to be accommodated therein.