CN109432605A - A kind of wearable flexible optical power therapentic equipment - Google Patents

Abstract

This disclosure relates to a kind of wearable flexible optical power therapentic equipment, the device includes: light source assembly, temperature detector, control assembly, substrate layer and encapsulated layer, the temperature detector and the control assembly are arranged between the substrate layer and the encapsulated layer, the substrate layer and encapsulated layer have flexibility, the light source assembly is used to emit the light wave of first wave length, the temperature detector is used to detect the temperature of portion faces to be treated, the temperature feedback that will test is to the control assembly, the control assembly is used to control the light source assembly according to the temperature, it realizes a kind of portable, it is wearable, flexible optical power therapentic equipment that is easy to operate and can accurately controlling irradiation light dosage.

Description

A kind of wearable flexible optical power therapentic equipment

Technical field

This disclosure relates to medical instruments field, more particularly to a kind of wearable flexible optical power therapentic equipment.

Background technique

Optical dynamic therapy is a kind of to generate photodynamic reaction using photosensitizer and light radiation and carry out the diagnosis of disease and control The new technology for the treatment of.Optical dynamic therapy usually requires to carry out the irradiation of the course for the treatment of, and irradiates certain light dosage every time.Existing light Power irradiation apparatus volume is necessarily large and bulky, and patient per's treatment is both needed to hospital carry out, moreover, in order to control irradiation light dosage, At a distance from patient part and light source should be kept fixed, therapeutic process patient is immovable, is inconvenient, while setting using hospital Standby and medical staff service is so that medical treatment cost is high.Small-sized hand-held radiation source is developed, but needs the medical care of profession Personnel operate, poor operability, and irradiation light dosage is not easy accurately to control.

Summary of the invention

In view of this, patient body can be worn on the present disclosure proposes a kind of wearable flexible optical power therapentic equipment, And exposure dose is accurately controlled, accurate treatment anywhere or anytime is carried out.

According to the one side of the disclosure, a kind of wearable flexible optical power therapentic equipment is provided, which includes: light source Component, temperature detector, control assembly, substrate layer, encapsulated layer；Wherein, the light source assembly, for emitting the light of first wave length Wave；The temperature detector, for detecting the temperature of portion faces to be treated, the temperature feedback that will test to the control group Part；The control assembly, for controlling the light source assembly according to the temperature；The light source assembly, the temperature detector And the control assembly is arranged between the substrate layer and the encapsulated layer, the substrate layer and encapsulated layer have flexibility.

In one possible implementation, the wearable flexible optical power therapentic equipment, further includes: extending connection Line, for connecting the light source assembly and the control assembly, the temperature detector and the control assembly, extending connection Line is also used to for the temperature that the temperature detector detects to be transferred to the control assembly, and the control assembly is issued Control information is transferred to the light source assembly, and the control information is for controlling opening or closing, irradiating for the light source assembly Time, irradiation power.

In one possible implementation, the light source assembly includes multiple luminescence units.

In one possible implementation, the light source assembly is light emitting diode matrix, the light emitting diode battle array Column can emit the uniform light of intensity of illumination.

In one possible implementation, the temperature detector includes one or more temperature sensors, the temperature Degree sensor is evenly distributed between the substrate layer and encapsulated layer.

In one possible implementation, the temperature sensor is metal fever resistance temperature sensor.

In one possible implementation, when the temperature that the temperature detector detects is higher than temperature threshold, institute It states control assembly and controls the light source assembly closing.

In one possible implementation, the wearable flexible optical power therapentic equipment further include: adhesion layer, setting On the surface of the encapsulated layer, for the wearable flexible optical power therapentic equipment to be fixed on position to be treated.

In one possible implementation, the substrate layer and the encapsulated layer are extendable bio-compatibility material Material.

In one possible implementation, through-hole is equipped in the substrate layer and the encapsulated layer.

By the way that wearable flexible optical power therapentic equipment to be worn on the body of patient, and wearable flexible light power is controlled The irradiation light dosage for treating device is accurately controlled, and it is convenient that the wearable flexible optical power therapentic equipment of the disclosure can be realized patient The accurate photoradiation treatment of carry out.

According to below with reference to the accompanying drawings to detailed description of illustrative embodiments, the other feature and aspect of the disclosure will become It is clear.

Detailed description of the invention

Comprising in the description and constituting the attached drawing of part of specification and specification together illustrates the disclosure Exemplary embodiment, feature and aspect, and for explaining the principles of this disclosure.

Fig. 1 is the side view of the wearable flexible optical power therapentic equipment of one kind shown according to an exemplary embodiment.

Fig. 2 is the schematic diagram of the wearable flexible optical power therapentic equipment of one kind shown according to an exemplary embodiment.

Reference signs list

11 substrate layers

12 encapsulated layers

13 light source assemblies

14 temperature detectors

15 control assemblies

16 extending connecting lines

17 through-holes

Specific embodiment

Various exemplary embodiments, feature and the aspect of the disclosure are described in detail below with reference to attached drawing.It is identical in attached drawing Appended drawing reference indicate element functionally identical or similar.Although the various aspects of embodiment are shown in the attached drawings, remove It non-specifically points out, it is not necessary to attached drawing drawn to scale.

Dedicated word " exemplary " means " being used as example, embodiment or illustrative " herein.Here as " exemplary " Illustrated any embodiment should not necessarily be construed as preferred or advantageous over other embodiments.

In addition, giving numerous details in specific embodiment below to better illustrate the disclosure. It will be appreciated by those skilled in the art that without certain details, the disclosure equally be can be implemented.In some instances, for Method, means, element and circuit well known to those skilled in the art are not described in detail, in order to highlight the purport of the disclosure.

Fig. 1 is the sectional view of the wearable flexible optical power therapentic equipment of one kind shown according to an exemplary embodiment.Fig. 2 It is the schematic diagram of the wearable flexible optical power therapentic equipment of one kind shown according to an exemplary embodiment.

It as depicted in figs. 1 and 2, may include: lining according to the wearable flexible optical power therapentic equipment of the embodiment of the present disclosure Bottom 11, encapsulated layer 12, light source assembly 13, temperature detector 14 and control assembly 15, wherein

Light source assembly 13, for emitting the light wave of first wave length；

Temperature detector 14, for detecting the temperature of portion faces to be treated, the temperature feedback that will test to the control Component 15 processed；

Control assembly 15, for controlling the light source assembly 13 according to the temperature；

The light source assembly 13, the temperature detector 14 and the control assembly 15 are arranged in 11 and of substrate layer Between the encapsulated layer 12, the substrate layer 11 and encapsulated layer 12 have flexibility.

The temperature of portion faces to be treated is detected by the way that temperature detector is arranged, and light source assembly is controlled according to temperature, from And the accurate control of irradiation light dosage is realized, operability is preferable；By light source assembly, the temperature detector and the control Component processed is arranged in between the substrate layer flexible and the encapsulated layer, so that the flexible optical dynamic therapy of the disclosure fills Setting can be worn on a patients body.Even the wearable flexibility of the disclosure does not can be used yet in professional medical staff operation Optical power therapentic equipment carries out accurate treatment anywhere or anytime.

In one possible implementation, substrate layer 11 and encapsulated layer 12 have flexibility, that is to say, that 11 He of substrate layer Encapsulated layer 12 is extendable, such as can make the substrate layer 11, envelope using flexible extendable biocompatible material Fill layer 12.In this way, substrate layer and encapsulated layer 12 can be deformed with the deformation of skin, so that flexible optical power therapentic equipment can It is worn on the body surface of patient, is treated anywhere or anytime to realize.Wherein, flexible extendable biocompatible material can be Medical dressing or dimethyl silicone polymer (PDMS, polydimethylsiloxane) etc..

In one possible implementation, as shown in Fig. 2, through-hole can be equipped in the substrate layer and the encapsulated layer 17, for example, can not have on substrate layer 11 and encapsulated layer 12 function element place setting it is equally distributed it is perforative, be used for The through-hole of heat dissipation, with no restrictions to the shape, size, quantity of through-hole, so that patient be avoided to use the wearable flexible light Sense of discomfort is generated because temperature is excessively high when power therapentic equipment.

In one possible implementation, wearable flexible optical power therapentic equipment can also include:

Extending connecting line 16, for connecting the light source assembly and the control assembly, the temperature detector and institute State control assembly；Extending connecting line 16 is also used to the temperature that the temperature detector detects being transferred to the control assembly, And the control information that the control assembly issues is transferred to the light source assembly, the control information is for controlling the light The the opening or closing of source component, irradiation time, irradiation power.

Light source assembly and control assembly and/or the temperature detector and the control group are connected by extending connecting line Part can isolate strain, keep device overall flexibility extending.

In one possible implementation, the first wave length for the light wave that light source assembly 13 emits can be controlled according to actual Treatment demand selection, for example, in one example, light source assembly can emit the feux rouges that first wave length is 630nm.

In one possible implementation, the light source assembly 13 may include Light-emitting diode LED light source and/or swash Radiant.

In one possible implementation, it as shown in Fig. 2, light source assembly 13 may include multiple luminescence units, shines Unit can be above-mentioned LED light source and/or laser light source.

In one possible implementation, extending connecting line can be also used for each luminous in connection light source assembly Unit.For example, extending connecting line is also used to connect the LED light source in the LED array when light source assembly is LED array. Each luminescence unit in light source assembly is connected by extending connecting line, strain is can isolate, prolong device overall flexibility can Exhibition.

By taking LED light source is luminescence unit as an example, the light source assembly can be LED array, and the LED array can emit The uniform light of intensity of illumination.

In one possible implementation, light source assembly 13 may include multiple LED particles, and multiple LED particles can be with Equally distributed array is formed, to emit the uniform light of intensity of illumination.Equally distributed array can refer to: multiple LED Grain composition rectangular array, and the distance between every two LED particle is identical, as shown in Figure 2；Alternatively, multiple LED particle group cyclization Shape array, etc..Wherein, the LED luminescence unit number that the LED array includes is unlimited, and the setting of cell spacing is can fill Surface is set to generate subject to uniform illumination intensity face.

In one example, multiple LED particles can be the red LED particle for emitting the feux rouges that first wave length is 630nm.

It should be noted that the array format of the above LED array or the color of LED particle are only some examples, no The disclosure is limited in any way.

By taking laser light source is luminescence unit as an example, the light source assembly may include multiple laser light sources, the laser light Source can be for Solid State Laser light source, liquid laser light source, gas laser light source or semiconductor laser light resource etc., can be according to reality Treatment needs to arrange that multiple laser light sources form equally distributed array, to emit the uniform light of intensity of illumination.In one kind In possible implementation, equally distributed array can refer to: multiple laser light sources form rectangular array, and every two laser The distance between light source is identical；Alternatively, multiple laser light source composition annular arrays, etc..In one example, multiple laser lights Source can be the red laser light source for emitting the feux rouges that first wave length is 630nm.

In one possible implementation, the temperature detector 14 may include one or more temperature sensors, If multiple temperature sensors are evenly distributed between the substrate layer and encapsulated layer including multiple temperature sensors, so as to The temperature for accurately detecting entire therapentic part prevents local temperature excessively high and causes the sense of discomfort of patient.It should be noted that There is no limit should be uniformly distributed in apparatus surface, reflect the actual temperature of patient part strictly according to the facts the number of temperature sensor.

In a kind of possible implementation, temperature detector can sense for metal fever resistance temperature, be grown using film Method obtain gold or Copper thin film, realized by photoetching process graphical, and then obtain sensitive temperature sensor.

In a kind of possible implementation, temperature sensor is also possible to mature commercial temperature sensing micro unit device. The size that can reduce wearable flexible optical power therapentic equipment using the temperature sensing micro unit device, improves wearing comfort Degree.

In a kind of possible implementation, the control assembly 15 is controlled for handling temperature detection signal The the opening or closing of light source assembly, irradiation time, irradiation power.In one possible implementation, when temperature detector is examined When the temperature measured is higher than temperature threshold, the control assembly controls the light source assembly and closes.When temperature detector detects Temperature when being lower than temperature threshold, the control assembly controls the light source assembly and opens.The temperature threshold can be according to institute State that wearable flexible optical power therapentic equipment is suitable for the different parts of human body and adaptability set.For multiple temperature Multiple and different temperature thresholds can also be arranged in sensor.The closing of light source assembly is controlled by setting temperature threshold, is realized The opening and closing of the automatic control light source assembly realize the accurate control of irradiation light dosage, prevent from treating patient It causes to burn in position.

For the example of multiple temperature sensors, the position of temperature sensor can be corresponding with luminescence unit, if it exists certain The temperature of a test point is more than temperature threshold, then can stop the corresponding luminescence unit of the test point immediately, or stop light source The illumination of component.

In one example, irradiation power can be increased in order to which treatment is rapidly completed, for example, the brightness of irradiation is improved, this Sample can reduce irradiation time；If feeling there is apparent cusalgia sense, irradiation power can be reduced, for example, the brightness of irradiation is reduced, into The prolonged low dose exposure treatment of row, alternatively, control assembly can detect actual temperature, stop in time when temperature is more than threshold value It only works, is cooled down, to prevent from causing thermal damage to skin or bring sense of discomfort to patient.

Control assembly 15 can realize by special hardware circuit, can also pass through general procedure hardware (such as CPU, list Piece machine, field programmable logic device FPGA etc.) combine executable logical order to realize, to execute the worked of control assembly 15 Journey, wherein executable logical order can be realized based on prior art means.Specific implementation side of the disclosure to control assembly 15 Formula is without limitation.

In one possible implementation, wearable flexible optical power therapentic equipment can also include:

The surface of the encapsulated layer is arranged in adhesion layer, for fixing the wearable flexible optical power therapentic equipment In skin surface, for example, being fixed on position to be treated.It may be implemented to fit closely with sufferer skin by the adhesion layer, The distance of fixed-illumination prevents the wearable flexible optical power therapentic equipment from falling off or moving in use.

In accordance with an embodiment of the present disclosure, light illuminating unit can be integrated in flexible extending packaging body, can be directly attached In skin surface, there is fixed irradiation distance, it can be achieved that accurate exposure dose control, completes light power in daily activities Irradiation treatment, it is easy to operate effective.

It should be noted that although describing wearable flexible optical power therapentic equipment using flexible encapsulant material as example As above, it is understood by one of ordinary skill in the art that the disclosure answer it is without being limited thereto.In fact, user completely can be according to personal preference And/or practical application scene flexibly sets the contour structures and/or material of the wearable flexible optical power therapentic equipment, as long as Realize that light dosage accurately controls and portable wearing.

The presently disclosed embodiments is described above, above description is exemplary, and non-exclusive, and It is not limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for this skill Many modifications and changes are obvious for the those of ordinary skill in art field.The selection of term used herein, purport In the principle, practical application or technological improvement to the technology in market for best explaining each embodiment, or lead this technology Other those of ordinary skill in domain can understand each embodiment disclosed herein.

Claims (10)

1. a kind of wearable flexible optical power therapentic equipment, which is characterized in that described device includes:

Light source assembly, temperature detector, control assembly, substrate layer, encapsulated layer；Wherein,

The light source assembly, for emitting the light wave of first wave length；

The temperature detector, for detecting the temperature of portion faces to be treated, the temperature feedback that will test to the control Component；

The control assembly, for controlling the light source assembly according to the temperature；

The light source assembly, the temperature detector and the control assembly be arranged in the substrate layer and the encapsulated layer it Between, the substrate layer and encapsulated layer have flexibility.

2. wearable flexible optical power therapentic equipment according to claim 1, which is characterized in that further include:

Extending connecting line, for connecting the light source assembly and the control assembly, the temperature detector and the control Component,

Extending connecting line is also used to for the temperature that the temperature detector detects being transferred to the control assembly, and will be described The control information that control assembly issues is transferred to the light source assembly, and the control information is for controlling opening for the light source assembly It opens or closes, irradiation time, irradiation power.

3. wearable flexible optical power therapentic equipment according to claim 2, which is characterized in that the light source assembly includes Multiple luminescence units.

4. wearable flexible optical power therapentic equipment according to claim 3, which is characterized in that the light source assembly is hair Light diode array, the light emitting diode matrix can emit the uniform light of intensity of illumination.

5. wearable flexible optical power therapentic equipment according to claim 1, which is characterized in that the temperature detector packet One or more temperature sensors are included, the temperature sensor is evenly distributed between the substrate layer and encapsulated layer.

6. wearable flexible optical power therapentic equipment according to claim 5, which is characterized in that the temperature sensor is Metal fever resistance temperature sensor.

7. wearable flexible optical power therapentic equipment according to claim 1, which is characterized in that further include:

The surface of the encapsulated layer is arranged in adhesion layer, for by the wearable flexible optical power therapentic equipment be fixed on to Therapentic part.

8. wearable flexible optical power therapentic equipment according to claim 1, which is characterized in that when the temperature detector When the temperature detected is higher than temperature threshold, the control assembly controls the light source assembly and closes.

9. wearable flexible optical power therapentic equipment according to claim 1, which is characterized in that the substrate layer and described Encapsulated layer is extendable biocompatible material.

10. wearable flexible optical power therapentic equipment according to claim 1, which is characterized in that in the substrate layer and The encapsulated layer is equipped with through-hole.