CN217567158U - Dual-wavelength LED osteoporosis therapeutic instrument with self-defined light-emitting area - Google Patents

Abstract

The utility model discloses a dual-wavelength LED osteoporosis therapeutic instrument capable of defining the light-emitting area by user, which comprises a wearing device, a phototherapy component, a controller, an alarm and a power supply part, wherein the phototherapy component comprises a phototherapy body, a real-time monitor and a light-emitting setting device; the real-time monitor comprises a first temperature sensor for monitoring the temperature of equipment, a second temperature sensor for monitoring the temperature of an irradiated area and a erythema dose measuring device for monitoring the erythema degree of the irradiated area; the light-emitting setter comprises an LED area array light-emitting module; the phototherapy body is respectively in data connection with the controller, the real-time monitor and the light-emitting setter; the phototherapy body is detachably connected with the wearing device; the controller comprises a control module, a data processing module and a data transmission module, the controller is in data connection with the intelligent terminal through the data transmission module, the control module controls the phototherapy body, and the data processing module receives and processes data of the intelligent terminal; the controller is in data connection with the alarm, and the controller controls the alarm.

Description

Dual-wavelength LED osteoporosis therapeutic instrument with self-defined light-emitting area

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to can self-define luminous area's dual wavelength LED osteoporosis therapeutic instrument and application method thereof.

Background

Osteoporosis is a common systemic metabolic bone disease characterized by a decrease in bone mass per unit volume and a change in bone microarchitecture, which is common in postmenopausal women and elderly men. A serious consequence of osteoporosis is the occurrence of osteoporotic fractures (brittle fractures), i.e. fractures that can occur when lightly traumatized or during daily activities, with the spine, hip and forearm being the site of good hair. The occurrence of fractures leads to a significant increase in disability rate and mortality in patients with osteoporosis. Osteoporosis is more preventive in the early stages, which is more realistic and important than treatment. Osteoporosis is a group of bone diseases caused by various reasons, bone tissues have normal calcification, calcium salts and matrixes are in a normal proportion, and metabolic bone lesions are characterized by reduction of the amount of the bone tissues in unit volume. In most osteoporosis, the reduction of bone tissue is primarily due to increased bone resorption. Is characterized by pain in the skeleton and susceptibility to fracture.

Effective drug therapy can prevent and treat osteoporosis, including estrogen replacement therapy, calcitonin, selective estrogen receptor modulators, and bisphosphonates, which can prevent bone resorption but have a particularly low effect on bone formation. Drugs used to treat and prevent the development of osteoporosis fall into two broad categories, the first being bone resorption inhibiting drugs including calcium agents, vitamin D and active vitamin D, calcitonin, bisphosphonates, estrogens and isoflavones; the second category is osteogenic agents, including fluoride, synthetic steroids, parathyroid hormone, and isoflavones. Although the drug therapy has a certain curative effect, the drug therapy needs to be taken for a long time and has certain side effects, which undoubtedly increases the economic burden of families. Weak light therapy is a physical therapy method that uses low-intensity laser or LED light to act on tissues to achieve the purpose of treating diseases through biological reactions without damage and thermal mechanisms. The method has the advantages of good safety, low adverse reaction, low treatment cost, and long-term reuse.

The research wavelength for treating osteoporosis is mainly divided into two wave bands of red light/near infrared light and purple light. The production of previtamin D3 on the skin occurs upon exposure to UV-B light. Vitamin D is one of the key molecules participating in bone metabolism, sufficient vitamin D can increase intestinal calcium absorption, and calcium supplement and vitamin D can reduce the risk of osteoporotic fracture. In addition, when the red light or the near infrared light is used for irradiating the bone, the proliferation and the differentiation of osteoblasts can be promoted, and the generation of osteoclasts can be inhibited, so that the effect of relieving osteoporosis is achieved. It can be seen that low intensity phototherapy has potential application in the study of osteoporosis.

LED equipment on the market generally adopts the mode that many LED lamp pearls pass through array or other mode arrangements, and its pattern is fixed, can't carry out the adjustment of treatment area light source output face according to the physique characteristics of different users or use season. Because phototherapy equipment generally adopts the mode of shining the skin, LED equipment produces heat energy easily, and long-time ultraviolet LED light can produce certain damage to skin, consequently, lacks timely feedback mechanism and produces the potential safety hazard easily when the treatment. In addition, the medical equipment for treating by using LED low-light irradiation in the market generally adopts centralized array power supply, when part of LED equipment has problems, the treatment effect is easily influenced, the service life and the period of the equipment are reduced, and the power supply and the use stability are still to be improved.

The utility model provides a to the above-mentioned problem, but self-defining light-emitting area's dual wavelength LED osteoporosis therapeutic instrument and application method thereof.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that proposes in the background art, the utility model discloses a following technical scheme:

a dual-wavelength LED osteoporosis therapeutic instrument capable of customizing a light-emitting area comprises a wearing device, a phototherapy component, a controller, an alarm and a power supply part, wherein the phototherapy component comprises a phototherapy body, a real-time monitor and a light-emitting setter; the real-time monitor comprises a first temperature sensor for monitoring the temperature of equipment, a second temperature sensor for monitoring the temperature of an irradiated area and a erythema dose measurer for monitoring the erythema degree of the irradiated area; the light-emitting setter comprises an LED area array light-emitting module; the phototherapy body is respectively in data connection with the controller, the real-time monitor and the light-emitting setter; the phototherapy body is detachably connected with the wearing device; the controller comprises a control module, a data processing module and a data transmission module, the controller is in data connection with the intelligent terminal through the data transmission module, the control module controls the phototherapy body, and the data processing module receives data of the intelligent terminal and performs data processing; the controller is in data connection with the alarm, and controls the alarm; the power supply portion is detachably connected with the wearable device, and the power supply portion is connected with the phototherapy body, the real-time monitor and the controller through wires respectively.

Further, the phototherapy body comprises LED light sources which are arranged in an array of regular patterns; the phototherapy body is regularly installed on wearing the device. In this kind of setting, each phototherapy body is independent unit, installs the suitable phototherapy body of quantity according to the demand during the use, and a plurality of phototherapy bodies have constituteed the treatment area light source.

Further, the LED light source comprises an infrared light-emitting LED lamp bead and/or an ultraviolet light-emitting LED lamp bead.

Further, the LED lamp beads comprise LED lamp beads with the wavelength of 297nm and/or LED lamp beads with the wavelength of 810 nm; wherein, LED lamp pearl alternate arrangement of different wavelengths. The LED light sources with different wavelengths have different treatment effects, and the LED light sources are alternately arranged to achieve better treatment effects.

Further, at least one phototherapy body is arranged on the wearable device; the control module controls each LED lamp bead, a light source emitted by the LED lamp beads forms a light source surface, and the control module controls the output shape of the light source surface by controlling the on-off of the LED lamp beads. The arrangement realizes the function of adjusting the light source surface according to the requirement, and different light source surfaces and irradiation modes can be selected for different treatment parts.

Further, the intelligent terminal can be a smart phone, a smart tablet computer or a computer terminal; the intelligent terminal sends out an instruction, and the controller receives the instruction through the data transmission module. During the use, the user is connected intelligent terminal and phototherapy subassembly, sends the instruction through intelligent terminal, carries out individualized setting according to the demand.

Further, the erythema measurer comprises a CCD image sensor and a compensation light source, wherein the compensation light source is arranged around the CCD image collector; the erythema quantity measuring device is in data connection with the data processing module, and the data processing module calculates the erythema quantity; the threshold value of the erythema level is preset through the control module, and when the erythema level exceeds the threshold value, the alarm sends out an early warning signal. The device protects the skin of a patient while treating and improves the safety of the device.

Further, the wearing device includes chest belly mounting, shoulder mounting and waist mounting, chest belly mounting, shoulder mounting and waist mounting integrated into one piece, the phototherapy body is installed on chest belly mounting.

Furthermore, the chest and abdomen fixing part conforms to the shape of the shoulders and the back of a human body, the shoulder fixing part is a shoulder belt, the waist fixing part is a belt-shaped waistband, and two free ends of the belt-shaped waistband are connected through a first locking part. When the waist belt is used, the shoulder fixing piece is worn on the shoulders of a user, the belt-shaped waistband is fixed on the waist of the user, and the tightness of the belt-shaped waistband can be adjusted through the first locking piece.

Furthermore, the first locking part is a magic tape or an adjusting buckle.

Furthermore, the phototherapy body includes the connecting piece, and phototherapy spare can be dismantled with the connecting piece and be connected, and the phototherapy body passes through the connecting piece and can dismantle with chest abdomen mounting and be connected.

Furthermore, the connecting piece includes fixed frame, eye-splice and slot, and the eye-splice is pegged graft with the slot, eye-splice and fixed frame fixed connection, slot and chest abdomen fixing piece fixed connection. During the use, with phototherapy spare and connecting piece built-up connection, with fixed frame's eye-splice and the slot built-up connection of chest abdomen mounting, realized the phototherapy body and the dismantlement of chest abdomen mounting and be connected through this kind of setting.

Furthermore, the phototherapy bodies comprise assembling components, and the adjacent phototherapy bodies are connected through the assembling components.

Further, assemble the subassembly including setting up the plugboard on the phototherapy body and setting up the inserting groove on the fixed frame, plugboard and phototherapy body coupling, plugboard and inserting groove peg graft.

Or, the wearing device is banded fixed band, the phototherapy body is installed on the fixed band.

Furthermore, the fixing belt comprises a second locking part, and the second locking part is arranged at the free end of the fixing belt; the locking piece II is a bandage or a magic tape II.

Further, the phototherapy body includes the connecting piece, and phototherapy piece can be dismantled with the connecting piece and be connected, and phototherapy body can be dismantled through the connecting piece fixed band and be connected.

A use method of a dual-wavelength LED osteoporosis therapeutic apparatus with a self-defined light-emitting area comprises the following steps:

s1, installing a proper number of phototherapy bodies on a wearing device;

s2, wearing the wearing device at a proper position;

s3, the intelligent terminal acquires an operation instruction, the intelligent terminal sends an instruction for adjusting the illumination mode and the illumination intensity, and the controller receives the instruction and sends the instruction to the LED area array light-emitting module;

s4, the power supply part receives the signal sent by the controller and adjusts the current so as to realize irradiation of different modes of the phototherapy body;

s5, monitoring the erythema amount of the irradiated area by the erythema amount measuring device, and sending erythema amount data to the controller; the temperature sensor I monitors the temperature of the equipment and sends identification temperature data to the control; the temperature sensor II monitors the temperature of the irradiated area and sends temperature data of the irradiated area to the controller; the controller receives and processes the data, and when the erythema amount exceeds a threshold value, the alarm sends out an early warning signal.

The utility model has the advantages that:

(1) The portable wearable health care device is portable and wearable, can be worn on the body, and can keep continuous treatment;

(2) The mode of self-defining the light-emitting area is adopted, so that different numbers of phototherapy bodies can be installed according to different requirements of the user on physique, environment and the like, or the output surface type of the treatment surface light source with a self-defined shape can be irradiated according to the areas of different body parts of the user;

(3) The phototherapy bodies are used as units to form the treatment surface light source, when the phototherapy body is used, independent power supply can be carried out on each phototherapy body, the phototherapy bodies are not affected mutually, the phototherapy bodies can be replaced, treatment efficiency is improved, stability in use is improved, and the service life is prolonged to a certain extent;

(4) The combination of two different wavelengths of light is used for treatment, so that the osteoporosis symptom can be relieved from two different treatment principles; the LED light source can be switched to different irradiation modes, different light source proportions and pulse light continuous illumination switching can be adopted, different modes can be adopted for different parts of different users, and the applicability is wide;

(5) Because LED light bead can produce heat when sending out light, and long-time ultraviolet irradiation also has certain damage to skin, this application has adopted the sensor of multiple temperature sensing and detection wherein, in order to carry out real-time supervision when the treatment to set up safety protection measure, also guaranteed user's safety when guaranteeing the user treatment.

Drawings

FIG. 1 is a schematic view of a usage body of the present invention;

fig. 2 is a schematic view of the overall structure of the phototherapy unit of the present invention;

fig. 3 is a schematic structural view of the phototherapy body of the present invention;

FIG. 4 is a schematic diagram of the distribution of LED lamp beads of the present invention;

fig. 5 is a schematic structural view of the phototherapy unit of the present invention mounted on the fixing band;

FIG. 6 is a control schematic block diagram of the present invention;

fig. 7 is a schematic view of an illumination mode setting interface according to the present invention;

FIG. 8 is a schematic view of another interface for setting illumination modes according to the present invention;

in the figure, 1, a phototherapeutic body; 11. a rubber pad; 12. a plugboard; 13. an LED lamp bead; 14. a light homogenizing layer; 2. a fixed frame; 21. inserting and buckling; 22. a slot; 23. inserting grooves; 31. chest and abdomen fixing parts; 32. a shoulder fixing member; 33. a waist fixing member; 4. fixing the belt; 51. a controller; 52. a power supply unit; 53. and (4) an intelligent terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and those skilled in the art can easily understand other advantages and effects of the present invention from the disclosure in the specification. The utility model discloses can also implement or use through other different concrete implementation manners, under the condition of conflict-free, the characteristics in following embodiment and the embodiment can make up each other, based on the embodiment in the utility model, all other embodiments that the ordinary skilled in the art obtained under the prerequisite of not making creative work all belong to the scope of protection of the utility model.

Example 1

The dual-wavelength LED osteoporosis therapeutic apparatus capable of customizing the light emitting area and the using method thereof comprise a wearing device, a phototherapy assembly, a controller 51 and a power supply part 52, wherein the phototherapy assembly comprises a phototherapy body 1, a real-time monitor and a light emitting setter; the real-time monitor comprises a first temperature sensor for monitoring the temperature of equipment, a second temperature sensor for monitoring the temperature of an irradiated area and a erythema dose measurer for monitoring the erythema degree of the irradiated area; the light-emitting setter comprises an LED area array light-emitting module; the phototherapy body 1 is respectively connected with the controller 51, the real-time monitor and the light-emitting setter in a data mode; the phototherapy body 1 is detachably connected with the wearing device; the controller 51 comprises a control module, a data processing module and a data transmission module, the controller 51 is in data connection with the intelligent terminal 53 through the data transmission module, the control module controls the phototherapy body 1, and the data processing module receives data of the intelligent terminal 53 and performs data processing; the power supply part 52 is detachably connected with the wearing device, and the power supply part 52 is respectively connected with the phototherapy body 1, the real-time monitor and the controller 51 through leads.

At least one phototherapy body 1 is arranged on the wearing device; the control module controls each LED lamp bead 13, a light source emitted by the LED lamp beads 13 forms a light source surface, and the control module controls the output shape of the light source surface by controlling the on-off of the LED lamp beads 13. The arrangement realizes the function of adjusting the light source surface according to the requirement, and different light source surfaces and irradiation modes can be selected for different treatment parts. When in use, a user can install the phototherapy bodies 1 with proper quantity on the wearing device according to the body type and the approximate position to be treated.

The arrangement is suitable for wearing devices in winter and summer respectively.

The power supply part 52 is a household 220V alternating current power supply module for directly supplying power and a movable portable lithium battery power supply module, and meanwhile, when the portable rechargeable lithium battery is equipped, an alternating current power supply is connected, and the lithium battery can also be charged while supplying power.

Example 2

The phototherapy body 1 comprises LED light sources which are in an array of regular patterns; the phototherapy body 1 is regularly installed on the wearing device. In this kind of setting, each phototherapy body 1 is independent unit, installs the suitable phototherapy body 1 of quantity according to the demand during the use, and a plurality of phototherapy bodies 1 have constituteed the treatment area light source. The phototherapy body 1 includes an insulating base to prevent a user from getting an electric shock. Phototherapy body 1 still includes rubber pad 11, and rubber pad 11 sets up the one side at phototherapy body 1 and patient's contact, and rubber pad 11 is used for increasing light source and human skin surface distance.

The phototherapy body 1 is made of soft insulating materials such as rubber or organic materials, and the LED area array light emitting module and the real-time monitor are embedded in the phototherapy body.

The LED light source comprises an infrared light-emitting LED lamp bead 13 and/or an ultraviolet light-emitting LED lamp bead 13.

The phototherapy body 1 comprises a light homogenizing layer which covers the LED lamp beads 13. The arrangement can ensure uniform illumination of the infrared light-emitting LED lamp beads 13 and/or the ultraviolet light-emitting LED lamp beads 13.

The LED lamp beads 13 comprise LED lamp beads 13 with the wavelength of 297nm and/or LED lamp beads 13 with the wavelength of 810 nm; wherein, LED lamp pearl 13 alternate arrangement of different wavelength. The LED light sources with different wavelengths have different treatment effects, and the LED light sources are alternately arranged to achieve better treatment effects. Setting on the intelligent equipment, sending an instruction to a control module, and setting the irradiation proportion of ultraviolet light with the wavelength of 297nm and infrared light with the wavelength of 810nm to be 4:1, treatment was performed at 85% illumination intensity and the illumination mode was selected as continuous light. The control module can control single LED lamp pearl 13 in every phototherapy body 1, according to the area and the opening and closing of single LED lamp pearl 13 of shape control that the user set for treatment area source output surface type is the rhombus. Alternatively, the irradiation ratio of ultraviolet light having a wavelength of 297nm to infrared light having a wavelength of 810nm is set to 0:1, treatment was performed using only 810nm infrared light, with 90% illumination intensity and the illumination mode selected as pulsed light. The control module can control a single LED lamp bead 13 in each phototherapy body 1, the single LED lamp bead 13 is controlled to be turned on and off according to the area and the shape set by a user, the current intensity and the signal of the portable lithium battery module are controlled, so that the output surface type of the treatment surface light source is rectangular, the illumination mode is pulsed light, and the pulsed light is irradiated or irradiated at 1-15 mW/cm ² The illumination is continued within the illumination intensity range.

The intelligent terminal 53 may be a smart phone, a smart tablet computer or a computer terminal; the intelligent terminal 53 sends out an instruction, and the controller 51 receives the instruction through the data transmission module. During the use, the user is connected intelligent terminal 53 and phototherapy subassembly, sends the instruction through intelligent terminal 53, carries out individualized setting according to the demand.

The erythema measurer comprises a CCD image sensor and a compensation light source, wherein the compensation light source is arranged around the CCD image collector; the erythema quantity measurer is in data connection with the data processing module, and the data processing module calculates the erythema quantity; the threshold value of the erythema level is preset through the control module, and when the erythema level exceeds the threshold value, the alarm sends out an early warning signal. The device protects the skin of a patient while treating and improves the safety of the device.

The control module sends treatment information through the data transmission module, and the intelligent equipment receives the treatment information; the smart device emits the adjusted illumination pattern.

The control module can control the power supply part 52 according to the data of the temperature sensor II and the CCD image sensor of the erythema dose measurer, and adjust the current and the signal of the power supply to realize the adjustment of the irradiation of different modes of the phototherapy body 1.

Example 3

The wearing device comprises a thoracoabdominal fixing piece 31, a shoulder fixing piece 32 and a waist fixing piece 33, wherein the thoracoabdominal fixing piece 31, the shoulder fixing piece 32 and the waist fixing piece 33 are integrally formed, and the phototherapy body 1 is installed on the thoracoabdominal fixing piece 31.

The chest and abdomen fixing part 31 is in accordance with the shape of the shoulder and back of the human body, the shoulder fixing part 32 is a shoulder belt, the waist fixing part 33 is a belt-shaped waist belt, and the two free ends of the belt-shaped waist belt are connected through a locking part I. The shoulder strap and the belt-shaped waistband are made of elastic materials, have comfort, can be firmly worn on a user body, and can effectively dissipate partial heat generated by the treatment surface light source main body. When in use, the shoulder fixing part 32 is worn on the shoulders of a user, the belt-shaped waistband is fixed on the waist of the user, and the tightness of the belt-shaped waistband can be adjusted through the first locking part.

The first locking part is a magic tape or an adjusting buckle.

Phototherapy body 1 includes the connecting piece, and phototherapy piece can be dismantled with the connecting piece and be connected, and phototherapy body 1 can be dismantled with chest abdomen fixing part 31 through the connecting piece and be connected.

The connecting piece comprises a fixed frame 2, a plug buckle 21 and a slot 22, the plug buckle 21 is plugged in the slot 22, the plug buckle 21 is fixedly connected with the fixed frame 2, and the slot 22 is fixedly connected with the chest and abdomen fixing piece 31. During the use, with phototherapy spare and connecting piece built-up connection, with the eye-splice 21 of fixed frame 2 and the slot 22 built-up connection of chest abdomen mounting 31, realized phototherapy body 1 and the dismantlement of chest abdomen mounting 31 and be connected through this kind of setting.

Phototherapy body 1 is including assembling the subassembly, and adjacent phototherapy body 1 links to each other through assembling the subassembly.

The splicing assembly comprises a splicing plate 12 arranged on the phototherapy body 1 and a splicing groove 23 arranged on the fixed frame 2, the splicing plate 12 is integrally connected with the phototherapy body 1, and the splicing plate 12 is spliced with the splicing groove 23.

Example 4

The wearing device is a band-shaped fixing band 4, and the phototherapy body 1 is arranged on the fixing band 4.

The fixing belt 4 comprises a second locking part, and the second locking part is arranged at the free end of the fixing belt 4; the locking piece II is a bandage or a magic tape II.

Phototherapy body 1 includes the connecting piece, and phototherapy piece can be dismantled with the connecting piece and be connected, and phototherapy body 1 can be dismantled through connecting piece fixed band 4 and be connected. When in use, the fixing belt 4 can be fixed on the limbs or the trunk of a patient.

The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall within the protection scope of the claims of the present invention.

Claims (10)

1. A dual-wavelength LED osteoporosis therapeutic instrument capable of customizing a light-emitting area comprises a wearing device, a phototherapy component, a controller, an alarm and a power supply part, and is characterized in that the phototherapy component comprises a phototherapy body, a real-time monitor and a light-emitting setter; the real-time monitor comprises a first temperature sensor for monitoring the temperature of equipment, a second temperature sensor for monitoring the temperature of an irradiated area and a erythema dose measuring device for monitoring the erythema degree of the irradiated area; the light-emitting setter comprises an LED area array light-emitting module; the phototherapy body is respectively in data connection with the controller, the real-time monitor and the light-emitting setter; the phototherapy body is detachably connected with the wearing device; the controller comprises a control module, a data processing module and a data transmission module, the controller is in data connection with the intelligent terminal through the data transmission module, the control module controls the phototherapy body, and the data processing module receives data of the intelligent terminal and performs data processing; the controller is in data connection with the alarm, and controls the alarm; the power supply portion is detachably connected with the wearable device, and the power supply portion is connected with the phototherapy body, the real-time monitor and the controller through wires respectively.

2. The dual wavelength LED osteoporosis therapy apparatus with customizable light emitting area of claim 1, wherein the phototherapy body comprises LED light sources in an array of regular patterns; the phototherapy body is regularly installed on wearing the device.

3. The dual wavelength LED osteoporosis therapy apparatus of claim 2, wherein the LED light source comprises infrared LED light beads and/or ultraviolet LED light beads.

4. The dual wavelength LED osteoporosis therapy apparatus of claim 3, wherein the LED light beads comprise LED light beads with wavelength of 297nm and/or LED light beads with wavelength of 810 nm; wherein, LED lamp pearl alternate arrangement of different wavelengths.

5. The dual wavelength LED osteoporosis therapy apparatus with customizable light emitting area of claim 4, wherein at least one phototherapy body is installed on the wearable device; the control module controls each LED lamp bead, a light source emitted by the LED lamp beads forms a light source surface, and the control module controls the output shape of the light source surface by controlling the on-off of the LED lamp beads.

6. The dual wavelength LED osteoporosis therapy apparatus of any one of claims 1-5, wherein the wearing device comprises a thoracoabdominal fixing member, a shoulder fixing member and a lumbar fixing member, the thoracoabdominal fixing member, the shoulder fixing member and the lumbar fixing member are integrally formed, and the phototherapy body is installed on the thoracoabdominal fixing member.

7. The dual-wavelength LED osteoporosis therapy apparatus with a customizable light emitting area as claimed in claim 6, wherein the chest and abdomen fixing member conforms to the shape of the shoulder and back of the human body, the shoulder fixing member is a shoulder strap, the waist fixing member is a belt-shaped waist belt, and two free ends of the belt-shaped waist belt are connected through a first locking member; when the waist belt is used, the shoulder fixing piece is worn on the shoulders of a user, the belt-shaped waistband is fixed on the waist of the user, and the tightness of the belt-shaped waistband can be adjusted through the first locking piece.

8. The dual wavelength LED osteoporosis therapy apparatus of claim 7, wherein the phototherapy body comprises a connecting member, the phototherapy member is detachably connected to the connecting member, and the phototherapy body is detachably connected to the chest and abdomen fixing member through the connecting member.

9. The dual wavelength LED osteoporosis therapy apparatus with customized light emitting area as claimed in claim 8, wherein the connecting member comprises a fixing frame, a plug-in buckle and a slot, the plug-in buckle is inserted into the slot, the plug-in buckle is fixedly connected with the fixing frame, and the slot is fixedly connected with the chest and abdomen fixing member.

10. The dual wavelength LED osteoporosis therapy apparatus with customizable light emitting area according to any of claims 1-5, wherein the wearing device is a belt-shaped fixing belt, and the phototherapy body is installed on the fixing belt.

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