CN211097076U - Cervical spondylosis phototherapy equipment - Google Patents

Abstract

The utility model belongs to the technical field of medical instrument, specifically be cervical spondylopathy phototherapy equipment. The device comprises an illumination module, a light path adjusting module, a power supply module and a dimming module; the illumination module consists of a flexible circuit substrate and a light source and is used for illuminating target cells; the light path adjusting module diffuses the light emitted by the light source and uniformly distributes the light in the illumination area; the dimming module is used for setting pulse light wavelength, pulse light power and illumination action time. Compared with the prior therapeutic apparatus, the utility model realizes the illumination with higher intensity and has higher depth of penetrating tissue. The equipment enhances the activity of macrophages through a proper illumination mode, accelerates the removal of necrotic fragments of tissues and cells at the injured part of an organism, enhances the activity of microglia at the same time, and promotes the repair of a central nervous system. In addition, the device generates pulse light with extremely strong transient power through pulse width modulation, and avoids the problems of small illumination area of the infrared ray type therapeutic apparatus and reduced depth of laser penetrating tissues.

Description

Cervical spondylosis phototherapy equipment

technical field

The utility model belongs to the technical field of medical devices, in particular to a phototherapy device.

Background technique

With the continuous improvement of the level of science and technology, people use electronic products such as computers and mobile phones for more and more time, resulting in more and more cases of cervical spondylosis not only among middle-aged and elderly people, but also among white-collar office workers and students. Nowadays, cervical spondylosis has become one of the most common diseases in the world. Due to the long-term strain of the cervical spine, intervertebral disc prolapse and other reasons, the cervical spinal cord, nerve roots, vertebral arteries, and cruciate nerves are compressed, resulting in various types of cervical spondylosis.

At present, the common phototherapy equipment for the treatment of cervical spondylosis includes infrared type and low-intensity weak laser type. Among them, infrared devices mainly use radiant heat to make local skin capillaries dilate and hyperemia, speed up blood flow, enhance cell metabolism and reduce the sensitivity of nerve endings. Low tissue depth results in poor treatment effect; low-intensity low-intensity laser type equipment restores internal and external balance of the vertebral body by dilating arteries and improving the blood circulation of tissues such as shoulders, and relieves the compression of neck muscle spasm on the spinal cord. As the temperature increases, the penetration depth of the laser decreases, and the biostimulation effect is greatly transformed into a thermothermal effect, which greatly shortens the effective time of the treatment. At the same time, the light area of the device is small, and it is difficult to completely cover the treatment area, and the effect still needs to be improved.

Therefore, the field of cervical spondylosis treatment requires phototherapy equipment with a certain intensity and sufficient penetration depth. LEDs have the characteristics of fast response in the visible light spectrum range. Through pulse width modulation and other methods, their transient power can be even higher than that of weak lasers. At the same time, the strength does not produce significant thermal effect, so it has the possibility to meet the requirement of penetration depth and sufficient strength.

SUMMARY OF THE INVENTION

The purpose of the utility model is to provide a phototherapy device for cervical spondylosis with high energy utilization rate and good therapeutic effect.

The phototherapy equipment for cervical spondylosis provided by the utility model comprises an illumination module, an optical path adjustment module, a power supply module and a dimming module; wherein, the illumination module is composed of a flexible circuit substrate and a light source, and is used to illuminate the target cells, and the illumination module is designed to be similar to a fan shape The light path adjustment module is a light-transmitting flat plate with a microstructure, which diffuses the light emitted by the light source and distributes it evenly in the illumination area; Set the pulse light power and illumination time.

In the present invention, in the illumination module, the light sources are distributed on the flexible circuit substrate in a figure-eight shape.

In the present invention, the light source may specifically be a plurality of monochromatic LED light sources of the same model, and the peak wavelength is in the range of 400-700 nm.

In the present invention, the target cells are specifically macrophages and microglia.

In the present utility model, the light-transmitting flat plate with microstructures means that 20-100 microstructures similar to peanuts are distributed on the side of the light-transmitting flat plate facing the light source, and the normal of each microstructure is the same as that of the light source. The normal directions are coincident; the surface away from the light module is a plane.

In the present invention, the dimming module is used to perform PWM dimming on the light source, wherein the amplitude range is 5~20V, the frequency setting range is 20Hz~20kHz, and the duty cycle setting range is 1~50%; The preferred duty cycle is 20%.

In the utility model, the power supply module has a power output voltage range of 5~20V, which provides a stable power supply for the entire equipment.

The beneficial effects of the present utility model are:

1. The utility model adopts LED to realize high-intensity illumination, and compared with infrared type equipment, the depth of penetrating tissue is higher;

2. The utility model is aimed at macrophages and microglia, and through a suitable illumination mode, the activity of the target cells is enhanced to achieve the purpose of treating cervical spondylosis. Specifically, in order to enhance the activity of macrophages and accelerate the process of removing necrotic debris of tissues and cells at the site of injury; enhance the activity of microglia, promote the repair of the nervous system, and prevent the further deterioration of cervical spondylosis to a certain extent;

3. The present utility model generates pulsed light with extremely strong transient power through the method of pulse width modulation, so that the intensity reaches the intensity equivalent to that of the weak laser therapeutic apparatus, so as to ensure that the target cells receive enough radiation energy and avoid most of the light energy being absorbed by the laser. The surface skin absorbs and the energy utilization rate is low.

Description of drawings

FIG. 1 is a schematic diagram of the system of the present invention.

FIG. 2 is a schematic structural diagram of a lighting module according to an embodiment of the present invention.

3 is a schematic structural diagram of an optical path adjustment module according to an embodiment of the present invention.

4 is a schematic structural diagram of a dimming module and a power module according to an embodiment of the present invention.

FIG. 5 is a comparison of the instantaneous power output of the infrared phototherapy device and the cervical spondylosis phototherapy device of the present invention.

Labels in the figure: 1 is a lighting module, 2 is an optical path adjustment module, 3 is a power module, 4 is a dimming module, 5 is an LED array, 6 is a flexible circuit board, 7 is an optical microstructure, 8 is a PWM dimming unit, 9 is a control panel, and 10 is a circuit board.

Detailed ways

The technical solutions of the present utility model will be further described below with reference to the embodiments and the accompanying drawings. Obviously, the described examples are only a part of the embodiments of the present utility model, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

At present, there are mainly two types of phototherapy instruments for cervical spondylosis on the market: infrared type and low-intensity weak laser type. Among them, infrared phototherapy instruments have low output power, and most of the energy emitted by the instrument will be absorbed by epidermal cells. At the same time, after a long working time, there will be a relatively obvious neck heat sensation, which will obviously affect the user experience; Weak laser type phototherapy instrument, this instrument improves the blood circulation of tissues such as neck and shoulder by dilating arteries, thereby restoring the internal and external balance of the vertebral body, relieving neck muscle spasm and compression on the spinal cord, etc. However, as the tissue temperature increases , the penetration depth of the laser decreases, and the biological stimulation effect is greatly transformed into a thermal effect, resulting in a significant reduction in the effective time of the treatment, and the effect still needs to be improved.

LEDs have the advantages of short response time, small size, high luminous efficiency, high brightness, low heat, low power consumption, and long life. Therefore, in recent years, more and more wearable phototherapy devices use LEDs as light sources. The utility model irradiates the light used in the treatment to the cervical intervertebral disc and its adjacent tissue parts, and requires strong instantaneous power. Strong instantaneous power can be achieved through the dimming module; at the same time, considering that the phototherapy equipment is showing a trend of thinner and thinner, the heat emitted by the equipment should not be too high, so as not to damage the epidermal cells.

An embodiment of the present invention provides a phototherapy device for cervical spondylosis, the device includes an illumination module 1, an optical path adjustment module 2, a power supply module 3 and a dimming module 4, FIG. 2 depicts the structure of the illumination module 1, and FIG. 3 depicts the optical path As for the structure of the adjustment module 2 , FIG. 4 depicts the structures of the power supply module 3 and the dimming module 4 . The light module is used to illuminate the target cells in the intervertebral disc; the light path adjustment module is used to optimize the light path output by the LED array to produce the best treatment effect; the power module provides stable power for the entire device; the dimming module is used to Set the pulsed light wavelength, pulsed light power, and illumination time.

The lighting module 1 is composed of an LED array 5 and a flexible circuit board 6. The flexible circuit board 6 is used to provide a conduction path for the LED array. One side of the flexible circuit board 6 containing the LED array is used for illuminating the cervical vertebra of the human body, and the other side is used for illuminating the cervical spine of the human body. For the heat dissipation of the LED array 5 , the surface of the LED array 5 is affixed with thermally conductive silica gel and a heat sink, and a wire is connected to the PWM lighting unit module 8 on this side at the same time. The LED array 5 is a monochromatic LED light source or a variety of monochromatic LED light sources with different peak wavelengths (LED peak wavelength types N>=2). The LED array 5 receives the working signal from the dimming module 4 through the flexible circuit board 6, and emits a pulse beam. Pulse light is monochromatic light with certain working time, peak wavelength, duty cycle and frequency.

The optical path adjustment module 2 is attached to the side of the flexible circuit board 6 containing the LED array 5 , and optical microstructures 7 corresponding to the positions of the LED arrays are distributed on the optical path adjustment module 2 . The optical microstructures 7 are peanut-like structures, and the normal direction of each structure coincides with the normals of each LED of the LED array 5, so that the light emitted by the LED array 5 can be evenly diffused to reach the intervertebral disc of the human body to avoid local overheating. After the light emitted by the LED array 5 enters the light path adjustment module 2, the light path adjustment module 2 adjusts the light and focuses the light on the target phototherapy area to produce the best effect. The optical microstructure 7 materials used on the optical path adjustment module 2 are common glass and polycarbonate (PC).

The power module 3 provides power for the whole device, and its output voltage range is 5~20V. Specifically, the power supply can provide current drive for the LED array 5 through the dimming module 4 ; at the same time, the power supply provides power for the PWM dimming unit module 8 and the control panel 9 .

The dimming module 4 is composed of a PWM dimming unit 8 , a control panel 9 and a circuit substrate 10 . The PWM dimming unit 8 and the control panel 9 are fixed on the circuit substrate 10 . The circuit substrate 10 is soldered with electrical paths, which are not only used to provide working current for the LED array light source 5 on the lighting module 1 and the PWM dimming unit 8 and the control panel 9 on the dimming module 4, but also for signal transmission, including PWM Signal transmission between the module 8 and the control panel 9 and signal transmission between the lighting module 1 and the dimming module 4 .

The dimming module 4 controls the lighting module 1 , specifically, performs independent constant current driving on each LED array 5 in the lighting module 1 , and simultaneously transmits a PWM signal to each LED array 5 . The amplitude range of the PWM signal that can be output by the dimming module 4 is 5~20V, the PWM frequency range is 20Hz~20kHz, and the duty cycle range is 1~50%. The control panel 9 is used to set phototherapy parameters for the user, including parameters such as peak wavelength, duty cycle, frequency and working time. The set parameters are all transmitted to the PWM dimming unit 8 through the circuit substrate 10 . After the PWM dimming unit 8 processes the parameter information, the signal sent out is again transmitted to the LED array 5 on the lighting module 1 through the electrical path of the circuit substrate 10, so that the LED array 5 emits a specific working time, a specific peak wavelength, and a specific duty cycle. ratio and pulsed light of a specific frequency.

For the cervical tissue area that needs to be treated, such as the lesion at the intervertebral disc, due to the degeneration of the ligament-intervertebral disc, the accompanying microvascular tear and bleeding will lead to the formation of a ligament-intervertebral disc space hematoma, and then fibroblasts start to be active in the hematoma and Granulation tissue is formed, organization, ossification, and calcium deposits at the hematoma lead to the formation of bone spurs that injure surrounding body parts, resulting in patient distress. The corresponding target cells are the cells participating in the inflammatory response and the cells in the process of nerve repair. The typical inflammatory cells are macrophages. As the main phagocytic cells in the inflammatory stage, they are responsible for removing necrotic debris and pathogens from damaged tissues and cells in the body. etc., the purpose of this utility model is to select suitable energy pulsed light, suitable action time and suitable wavelength pulsed light to promote the activity of macrophages and enhance their scavenging ability, thereby preventing further deterioration of cervical spondylosis; The cells are microglia, and microglia can synthesize substances that promote the repair of the nervous system to improve the pain caused by cervical spondylosis.

Figure 5 is a comparison of phototherapy equipment for cervical spondylosis and ordinary infrared equipment. As mentioned above, an obvious disadvantage of infrared phototherapy equipment is that the penetration ability is low, and most of the energy will be absorbed by the epidermal tissue. The following example illustrates how the use of the PWM method can effectively improve the transient power of the present invention. Assuming that the effective phototherapy band is light with a peak wavelength of 660nm and a wavelength of 40nm, the luminous efficiency of the LED light source is 50%, and the energy threshold W1 required for phototherapy is 30J, so the total energy W of the LED light source required is 60J. Assuming that the power P1 of the common phototherapy device is 10mW, the average power P2 of the pulsed light phototherapy device of the present invention is also 10mW. In order to achieve the W1 value, the working time T1 and T2 of both are 100 minutes, and the heat generation is the same. The difference is that the pulsed light LED phototherapy device of the present invention has the characteristics of variable instantaneous power, the peak voltage can be set to 5V, the current is constant to 10mA, and the duty cycle is 20%. At this time, the average power is still 10mW, but the instantaneous power reaches 50mW. On the one hand, the instantaneous energy received by macrophages and microglia of the present invention is 5 times that of infrared phototherapy equipment, which avoids the problem that most of the light energy is absorbed by epidermal tissue and cannot be treated completely; on the other hand, The instantaneous power of the utility model is equivalent to that of the laser-type phototherapy equipment, and the tissue heating is not obvious at the same time. Therefore, the cervical spondylosis phototherapy device of the present invention has higher activation ability to target cells than infrared phototherapy devices, lower tissue heating than weak laser phototherapy devices, better expected therapeutic effect, and significant advantages.

To sum up, the phototherapy equipment for cervical spondylosis of the present invention can obtain an LED pulsed light source with a certain frequency and duty cycle through the PWM dimming method, and its instantaneous energy can be set to a high state. The cells in the pathological process of cervical spondylosis are analyzed, and the internal mechanism of cervical spondylosis is deeply analyzed, so as to prevent the further deterioration of cervical spondylosis and promote the functional recovery of injured tissues. In a word, the pulsed light phototherapy device of the present invention has two advantages of high penetration depth and lower tissue temperature rise, which is more advantageous than the infrared type and low-intensity weak laser type phototherapy devices commonly found on the market.

Claims (8)

1. A phototherapy device for cervical spondylosis is characterized by comprising an illumination module, a light path adjusting module, a power supply module and a dimming module; the illumination module consists of a flexible circuit substrate and a light source and is used for illuminating target cells, and the illumination module is designed into a fan-shaped shape; the light path adjusting module is a light-transmitting flat plate with a microstructure, and diffuses light rays emitted by the light source and enables the light rays to be uniformly distributed in an illumination area; the dimming module is composed of a circuit substrate and a dimming chip and is used for setting pulse light wavelength, pulse light power and illumination acting time.

2. The phototherapy device for cervical spondylosis as claimed in claim 1, wherein the light sources in the lighting module are distributed on the flexible circuit board in a splayed shape, the light sources are a plurality of monochromatic L ED light sources with the same type, and the peak wavelength is 400-700 nm.

3. The phototherapy device for cervical spondylosis as claimed in claim 2, wherein the light-transmitting plate with micro-structures is formed by distributing 20-100 micro-structures similar to peanuts on the side of the light-transmitting plate facing the light source, and the normal line of each micro-structure is coincident with the normal line direction of the light source; the surface far away from the illumination module is a plane.

4. The phototherapy device for cervical spondylosis as claimed in claim 3, wherein the dimming module is used to perform PWM dimming on the light source, wherein the amplitude is 5-20V, the frequency is 20 Hz-20 kHz, and the duty ratio is 1-50%.

5. The phototherapy device for cervical spondylosis as claimed in claim 4, wherein the power module has an output voltage ranging from 10V to 20V to provide a stable power for the whole device.

6. Cervical spondylosis phototherapy device according to claims 1-5, characterized in that the target cells are macrophages or microglia.

7. The phototherapy device for cervical spondylosis as claimed in claim 4, wherein the light modulation module comprises a PWM light modulation unit, a control panel and a circuit substrate, the PWM light modulation unit and the control panel are fixed on the circuit substrate, and an electrical path is welded on the circuit substrate for providing operating current for the L ED array light source on the illumination module and the PWM light modulation unit and the control panel on the light modulation module, and for transmitting signals, including signal transmission between the PWM light modulation unit and the control panel and signal transmission between the illumination module and the light modulation module.

8. The phototherapy device for cervical spondylosis as claimed in claim 7, wherein the light modulation module controls the light modulation module, specifically, L ED arrays in the light modulation module are independently driven by constant current, PWM signals are transmitted to L ED arrays simultaneously, the amplitude range of the PWM signals output by the light modulation module is 5-20V, the PWM frequency range is 20 Hz-20 kHz, and the duty ratio range is 1-50%, the control panel is used for setting phototherapy parameters for a user, the phototherapy parameters include peak wavelength, duty ratio, frequency and working time, the set parameters are transmitted to the PWM light modulation unit through the circuit substrate, and after the PWM light modulation unit processes the parameter information, the emitted signals are transmitted to the L ED arrays on the light modulation module through the electric path of the circuit substrate again, so that the L ED arrays emit pulsed light corresponding to the working time, peak wavelength, duty ratio and frequency set by the user.

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