CN117839076A - Vision regulating therapeutic health-care instrument - Google Patents

Abstract

The invention relates to the technical field of medical equipment, in particular to a vision adjusting treatment health care instrument which comprises a plurality of treatment heads, a connecting module, a liquid supply module, a data transmission module, a blood circulation detection module and a treatment control module; the treatment control module compares the facial image of the user with the standard image, determines the using position of each treatment head according to the comparison result, and determines the treatment mode of the health care instrument according to whether the liquid supply module is filled with nutrient liquid. The vision regulating treatment health care instrument provided by the invention stimulates the acupoints around the eyes through the pulse signals output by the treatment heads, accelerates the blood circulation around the eyes and the discharge of eye metabolites, enhances the permeability of ocular capillaries and capillary veins, so that the ocular capillaries are expanded, the ocular capillaries and the like are fully supplied with blood, and the vision is quickly recovered.

Description

Vision regulating therapeutic health-care instrument

Technical Field

The invention relates to the technical field of medical equipment, in particular to a vision adjusting, treating and health-care instrument.

Background

At present, eyes are excessively used by children when the children watch mobile phones, televisions and the like, so that the eye adjusting function is reduced, the blood circulation of eyes is slowed down, and the eye fatigue is aggravated, so that the myopia speed is increased dramatically. Today, parents are quite concerned about the myopia and amblyopia of children, so that a good treatment means is needed to improve the myopia phenomenon of children.

Chinese patent publication No. CN109157383B discloses a myopia therapeutic apparatus, which comprises a housing, eyepiece and objective, the shell is for being equipped with open-ended empty shell structure, the opening part of shell is equipped with the panel, the eyepiece set up in on the panel, the shell inside with the same altitude department of eyepiece is equipped with the lens cone, be equipped with the objective in the lens cone, be located on the inner wall of shell the same altitude department of eyepiece is equipped with the display screen, eyepiece, objective and display screen form virtual focus structure, the surface of lens cone is the helicitic texture, be close to on the inner wall of shell the lens cone is equipped with first motor, connect the screw thread post in the pivot of first motor, the screw thread post with the surface screw thread fit of lens cone, first motor connection control circuit, control circuit is used for automatic switching alternately the direction of rotation of first motor. By arranging the first motor, the distance of the simulated focus can be automatically controlled, the focus can be randomly moved between the far and near positions frequently, and the training of eyes is enhanced. Thus, the invention does not consider the problem of improving vision by stimulating the acupoints around the eyes to promote blood circulation.

Disclosure of Invention

Therefore, the invention provides a vision adjusting treatment health care instrument, which is used for solving the problems that the prior art does not stimulate eye acupoints through pulse signals, improves the contraction function of ciliary muscles and improves the blood circulation of eyes so as to recover vision.

To achieve the above object, the present invention provides a vision adjusting therapeutic health care apparatus comprising:

the treatment heads are arranged on one side close to the face and used for outputting pulse signals to stimulate acupuncture points around eyes;

the connecting module is connected with the treatment head and used for adjusting the position of the treatment head;

the liquid supply module is connected with the treatment heads and used for driving nutrient liquid to flow out of each treatment head and then penetrate into eye acupoints through subcutaneous layers;

the data transmission module is used for receiving the facial image of the user;

the blood circulation detection module is connected with the connection module and is used for detecting the temperature of the skin around the eyes and the microcirculation intensity around the eyes of a user;

the treatment control module is respectively connected with the connecting module, the liquid supply module, the data transmission module and the blood circulation detection module and is used for comparing facial images of a user with standard images, determining the using position of each treatment head according to the comparison result and determining the treatment mode of the health care instrument according to whether the liquid supply module is filled with nutrient solution or not.

Further, the treatment head is provided with a pulse output strategy comprising:

outputting a rectified double 15V direct current power supply and a rectified 9V direct current power supply;

generating a spike pulse signal with the repetition frequency of 8 Hz-30 Hz through a computer chip;

modulating an intermediate frequency carrier frequency of 2 kHz-3 kHz by adopting the spike signal;

amplifying the modulated intermediate frequency carrier frequency to generate spike of the upper half cycle and several heavy energy amplified signals;

the amplified signal is output in two paths through an output transformer;

the output transformer comprises a plurality of output ends, and the ports of the output ends carry different signals or power levels.

Further, the connection module is provided with a position adjustment structure to enable each treatment head to be telescopically and movably adjusted to adapt to different eye contours.

Further, the treatment control module determines the initial position of each treatment head according to the standard image,

wherein, the initial position of each treatment head corresponds to the eye acupuncture points on the standard image one by one.

Further, the treatment control module compares the facial image of the user with the standard image, determines eye acupuncture points on the facial photo of the user according to the comparison result, and determines the using position of the treatment head and the adjustment strategy of the connection module according to the eye acupuncture point positions of the facial image of the user and the eye acupuncture point positions of the standard image.

Further, the treatment control module determines the massage range of each treatment head according to the comparison result of each eye acupoint in the facial image of the user and each eye acupoint in the standard image:

when the actual deviation value of the facial image of the user and the standard image is larger than the preset deviation, the massage range of the corresponding treatment head is adjusted according to the actual deviation value.

Further, the treatment control module determines a treatment mode of the health care instrument according to whether the liquid supply module is filled with the nutrient liquid or not:

if the liquid supply module is filled with nutrient liquid, the treatment control module adjusts the treatment mode from a conventional mode to a liquid mode;

wherein the treatment modes include a regular mode and a fluid mode.

Further, the normal mode includes:

the first stage, each treatment head massages for a preset time period at a determined position according to the corresponding massage range;

the second stage, after the partial treatment heads move to the using positions of other treatment heads through the connecting module, retracting the moving partial treatment heads and moving to the using positions corresponding to the partial treatment heads;

third, each treatment head massages the second time length at the determined position according to the corresponding massage range;

the second time length is determined according to the preset time length and the periocular blood circulation growth ratio after the first stage is finished.

Further, the treatment control module determines the periocular blood circulation intensity according to the periocular skin temperature and the periocular microcirculation intensity detected by the blood circulation detection module, and the periocular blood circulation intensity Q is determined by the following formula:

,

wherein T is the temperature of the skin around the eyes, R is the microcirculation intensity around the eyes, omega 1 is the temperature weight parameter, and omega 2 is the microcirculation weight parameter.

Further, the treatment control module determines the second duration based on a ratio of the periocular blood circulation growth ratio after the end of the first phase to a preset growth ratio:

if the ratio of the periocular blood circulation increase ratio to the preset increase ratio is more than or equal to 1, judging that the second duration is equal to the preset duration;

if the ratio of the periocular blood circulation increase ratio to the preset increase ratio is smaller than 1, determining that the second time period is determined according to the preset time period and the periocular blood circulation increase ratio q1, wherein the second time period t2 is determined by the following formula:

，

，

wherein T0 is a preset time period, Q0 is a preset growth ratio, Q1 is the periocular blood circulation intensity after the first stage is finished, Q0 is the periocular blood circulation intensity before the start of treatment, T1 is the periocular skin temperature after the first stage is finished, T0 is the periocular skin temperature before the start of treatment, R1 is the periocular microcirculation intensity after the first stage is finished, and R0 is the periocular microcirculation intensity before the start of treatment.

Compared with the prior art, the invention has the beneficial effects that the pulse signal used by the invention promotes blood circulation to circulate channels and collaterals, has small skin irritation and quick response, and is not easy to cause pain, and the current has deep action; the medium-frequency current can stimulate various peripheral nerves in skin tissues, particularly, after the ocular nerve receptors are stimulated, the blood circulation is quickened, the permeability of ocular capillaries and capillary veins is also quickened, the metabolic process is quickened, ciliary muscles in eyes are quickly improved to increase the blood supply of the eyes and the discharge of ocular metabolites such as lactic acid, the ocular blood vessels are expanded, ocular fundus capillaries and the like are fully supplied, and the vision is quickly restored.

Further, after the medium frequency signal is subjected to spike pulse modulation, the stimulation energy is enhanced, the stimulation depth is increased, and further the blood circulation and lymphatic return are enhanced, so that the occlusion of the ocular capillary vessel is opened.

Further, myopia amblyopia is caused by insufficient blood supply around eyes, ciliary muscle contraction function is weakened, myopia and/or amblyopia are caused, 20 silicone rubber treatment heads are arranged on the health care treatment eye cover, the output spike-modulated intermediate frequency carrier stimulates acupuncture points around eyes such as the eye, the bamboo, the sun and the like to improve blood circulation of the eyes, and the spike-stimulated acupuncture points can play roles of thrombolysis, promoting blood circulation and removing blood stasis to remove free radicals around the eyes to smooth blood supply of the eyes, the blood supply of the eyes is sufficient, visual fatigue can be eliminated, and vision is improved.

Furthermore, the health care instrument provided by the invention also supports that related nutrient solution for treating myopia and amblyopia is penetrated into the eye acupoints through the skin so as to improve the contraction function of ciliary muscles, thereby improving eyesight and recovering the eye functions of children.

Drawings

FIG. 1 is a connection diagram of a vision conditioning therapeutic apparatus according to an embodiment of the present invention;

FIG. 2 is a flow chart of a vision conditioning therapy and health care apparatus according to an embodiment of the present invention;

FIG. 3 is a flow chart of a pulse output strategy according to an embodiment of the present invention;

FIG. 4 illustrates a user's facial image coordinate system and the position of use of the treatment head around the right eye in accordance with an embodiment of the present invention;

in the figure: 1, jingming acupoint; 2, the Zanzhu acupoint; 3, fish waist acupoints; 4, a silk bamboo hole; 5, four white acupoints; 6, temple; 7, chengqi acupoint; 8, tongziliao acupoint; 9, ball rear hole; 10, nasal cavity.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

The left and right eyes mentioned in this embodiment are opposite to the left and right eyes of the user themselves.

Referring to fig. 1, a connection diagram of a vision adjusting therapeutic apparatus according to an embodiment of the invention is shown. The embodiment of the invention provides a vision adjusting, treating and health-care instrument, which comprises:

the treatment heads are arranged on one side close to the face and used for outputting pulse signals to stimulate acupuncture points around eyes;

the connecting module is connected with the treatment head and used for adjusting the position of the treatment head;

the liquid supply module is connected with the treatment heads and used for driving nutrient liquid to flow out of each treatment head and then penetrate into eye acupoints through subcutaneous layers;

the data transmission module is used for receiving the facial image of the user;

the blood circulation detection module is connected with the connection module and is used for detecting the temperature of the skin around the eyes and the microcirculation intensity around the eyes of a user;

the treatment control module is respectively connected with the connecting module, the liquid supply module, the data transmission module and the blood circulation detection module and is used for comparing facial images of a user with standard images, determining the using position of each treatment head according to the comparison result and determining the treatment mode of the health care instrument according to whether the liquid supply module is filled with nutrient solution or not.

In practice, the connection module and the liquid supply module share a base.

As shown in fig. 2, a flow chart of the vision adjusting therapeutic apparatus according to the embodiment of the present invention is shown. The working flow of the health care instrument provided by the invention is as follows:

facial image acquisition, wherein a data transmission module receives facial images of a user;

blood circulation detection, wherein a blood circulation detection module monitors the temperature of skin around eyes and the micro-circulation intensity around eyes and evaluates the blood circulation condition of eyes;

the treatment head is positioned, the treatment control module compares the facial image of the user with the standard image, and the optimal position of the treatment head and the massage range of the treatment head are determined so as to ensure that the acupuncture points around the eyes are stimulated correctly;

the user selects to inject or not inject the eye nutrient solution, and the treatment control module determines the treatment mode of the health care instrument. If the eye nutrient solution is injected, the liquid mode is adjusted, the nutrient solution is delivered to the treatment head to supply the eye acupuncture points, and the treatment is started after the nutrient solution is supplied to the eye acupuncture points and is adjusted to the conventional mode;

performing eye treatment, wherein the first stage and the second stage of conventional treatment output pulse signals to stimulate acupuncture points around the eyes;

and feedback and adjustment, wherein the third stage of the conventional mode is adjusted according to the feedback of the blood circulation detection module so as to improve the treatment effect to the greatest extent.

After the treatment is finished, the health care instrument moves each treatment head to the original position after each treatment is finished and before the health care instrument is closed.

Fig. 3 is a flowchart of a pulse output strategy according to an embodiment of the present invention. In the embodiment of the invention, the treatment head is provided with a pulse output strategy, which comprises the following steps:

outputting a rectified double 15V direct current power supply and a rectified 9V direct current power supply;

generating a spike pulse signal with the repetition frequency of 8 Hz-30 Hz through a computer chip;

modulating an intermediate frequency carrier frequency of 2 kHz-3 kHz by adopting the spike signal;

amplifying the modulated intermediate frequency carrier frequency to generate spike of the upper half cycle and several heavy energy amplified signals;

the amplified signal is output in two paths through an output transformer;

the output transformer comprises a plurality of output ends, and the ports of the output ends carry different signals or power levels.

In particular, the connection module is provided with a position adjustment structure to allow for telescopic and movable adjustment of each of the treatment heads to accommodate different eye contours.

It can be understood that the treatment head and the connecting mechanism are connected through the telescopic rod, and after the use position of the treatment head is determined, the treatment head moves to the corresponding use position; after the user wears the health care device, the treatment head automatically stretches to contact the skin around the eyes of the user.

In particular, the treatment control module determines the initial position of each treatment head position according to the standard image,

wherein, the initial position of each treatment head corresponds to the eye acupuncture points on the standard image one by one.

FIG. 4 illustrates the facial image coordinate system and the position of the treatment head around the right eye of a user according to an embodiment of the present invention; the health care instrument provided by the invention comprises two groups of 20 treatment heads, which respectively correspond to Jingming acupoint 1, zanzhu acupoint 2, yuyao acupoint 3, yuzhu acupoint 4, sibai acupoint 5, taiyang acupoint 6, chengqi acupoint 7, mydriasis acupoint 8, qili acupoint 9 and Bitong acupoint 10 around the left eye and the right eye; the present embodiment takes the acupoints around the right eye of the user's face image as an example.

And establishing a standard image coordinate system by taking the eyebrow position of the standard image as a coordinate origin, taking a straight line which passes through the origin and is parallel to a straight line where the two eyes are positioned as an x-axis, and taking a straight line which passes through the origin and is perpendicular to the straight line where the two eyes are positioned as a y-axis, and determining the coordinates of the twenty acupoints, namely the initial position coordinates of the treatment head.

Specifically, the treatment control module compares the facial image of the user with the standard image, determines eye acupuncture points on the facial photo of the user according to the comparison result, and determines the using position of the treatment head and the adjustment strategy of the connection module according to the eye acupuncture point positions of the facial image of the user and the eye acupuncture point positions of the standard image.

In implementation, scaling the facial image of the user to the same scale as the standard image, taking the eyebrow position of the facial image of the user as the origin of coordinates, taking the straight line which passes through the origin and is parallel to the straight line where the two eyes are positioned as the x-axis, taking the straight line which passes through the origin and is perpendicular to the straight line where the two eyes are positioned as the y-axis, establishing a facial image coordinate system of the user, and determining the coordinates of twenty eye acupoints of the user, namely the coordinates of the use position of the treatment head.

In practice, both the user's face image and the standard image are identical to the actual face 1:1 corresponds to.

And determining the movement strategy of the treatment head through the initial position coordinates corresponding to each treatment head and the position coordinates. For example, the initial coordinates of the left-eye Cuanzhu acupoint 2 are (-0.5, 0), and the coordinates are (-0.6,0), the treatment head for massaging the left-eye Cuanzhu acupoint 2 is moved to the left by 0.1cm.

It is understood that the treatment control module includes a memory unit for recording the usage position of the treatment head, the massage range of the treatment head and the adjustment strategy of the connection module corresponding to the user.

Specifically, the treatment control module determines the massage range of each treatment head according to the comparison result of each eye acupoint in the facial image of the user and each eye acupoint in the standard image:

when the actual deviation value of the facial image of the user and the standard image is larger than the preset deviation, the massage range of the corresponding treatment head is adjusted according to the actual deviation value.

It will be appreciated that each treatment head is otherwise limited to its use position.

In implementation, the line segment distance between the use position and the initial position of each treatment head is the actual deviation value of each treatment head, and when any actual deviation value is greater than or equal to the preset deviation (the preset deviation is 0.1 cm), the massage range of the treatment head needs to be adjusted, and the massage range of the treatment head is a circle taking the use position as the center of a circle and taking half of the actual deviation value as the radius. For example, when the initial coordinates of the left-eye cuanzhu acupoint 2 are (-0.5, 0) and the coordinates are (-0.6,0), the treatment head for massaging the left-eye cuanzhu acupoint 2 moves to the left by 0.1cm, i.e., the actual deviation value of the treatment head=0.1 cm, and the massage range of the treatment head needs to be adjusted, and the massage range of the treatment head is a circular area with (-0.6,0) as the center and radius=0.05 cm.

Specifically, the treatment control module determines a treatment mode of the health care instrument according to whether the liquid supply module is filled with the nutrient liquid or not:

if the liquid supply module is filled with nutrient liquid, the treatment control module adjusts the treatment mode from a conventional mode to a liquid mode;

wherein the treatment modes include a regular mode and a fluid mode.

Specifically, the normal mode includes:

the first stage, each treatment head massages for a preset time period at a determined position according to the corresponding massage range;

the second stage, after the partial treatment heads move to the using positions of other treatment heads through the connecting module, retracting the moving partial treatment heads and moving to the using positions corresponding to the partial treatment heads;

third, each treatment head massages the second time length at the determined position according to the corresponding massage range;

the second time length is determined according to the preset time length and the periocular blood circulation growth ratio after the first stage is finished.

It is understood that the liquid mode is to deliver the ocular nutrient solution to the treatment head to supply the ocular acupoints, and the conventional mode is performed after the nutrient solution is completely delivered to the ocular acupoints.

In implementation, the preset time period includes preset time periods (10 min, 15min, 20 min), and the user can also define the preset time period.

In the implementation, after the first stage is finished, the treatment head corresponding to the right-side Cuanzhu acupoint 2 moves to the treatment head using position corresponding to the right-side fish waist acupoint 3 along the eyebrow direction; (2) The treatment head corresponding to the right fish waist acupoint 3 moves to the treatment head using position corresponding to the right silk bamboo acupoint 4 along the eyebrow direction; the telescopic rod of the treatment head corresponding to the right scraping bamboo acupoint 2 is shortened and then moves from the use position of the right fish waist acupoint 3 to the use position of the right scraping bamboo acupoint 2; (3) The treatment head corresponding to the right-side Cuanzhu acupoint 2 moves to the treatment head using position corresponding to the right-side fish waist acupoint 3 along the eyebrow direction; the telescopic rod of the treatment head corresponding to the right fish waist hole 3 is shortened and then moves from the use position of the right silk bamboo hole to the use position of the right fish waist hole 3; (4) repeating (2) and (3) 8 times and then carrying out (2) again; (5) After the telescopic rod of the treatment head corresponding to the right fish waist hole 3 is shortened, the telescopic rod moves from the use position of the right silk bamboo hole to the use position of the right fish waist hole 3, and then the second stage is finished. The left 8 treatment heads on the right are massaged at the corresponding using positions in the second stage, but the massaging range of the second stage is limited to the using positions.

The third stage differs from the first stage only in the massage duration.

The first stage, the second stage and the third stage are as shown in fig. 4, and the right group of treatment heads of the facial image of the user is taken as an example, and the operation of the left group of 10 treatment heads is the same as the massage mode of the right group of 10 treatment heads.

Specifically, the treatment control module determines the periocular blood circulation intensity according to the periocular skin temperature and the periocular microcirculation intensity detected by the blood circulation detection module, and the periocular blood circulation intensity Q is determined by the following formula:

,

wherein T is the temperature of the skin around the eyes, R is the microcirculation intensity around the eyes, omega 1 is the temperature weight parameter, and omega 2 is the microcirculation weight parameter.

It will be appreciated that the temperature sensor is used to determine the temperature of the skin around the eyes and the skin resistance measurement method is used to assess the intensity of the microcirculation around the eyes; ω1 e (1, 5), ω2 e (2, 10).

In practice ω1=1.5 ω2=3.

Specifically, the treatment control module determines the second duration from a ratio of the periocular blood circulation growth ratio to a preset growth ratio after the end of the first phase:

if the ratio of the periocular blood circulation growth ratio to the preset growth ratio is more than or equal to 1, the second duration is equal to the preset duration;

if the ratio of the periocular blood circulation increase ratio to the preset increase ratio is smaller than 1, determining a second time period according to the preset time period and the periocular blood circulation increase ratio q1, wherein the second time period t2 is determined by the following formula:

，

，

wherein T0 is a preset time period, Q0 is a preset growth ratio, Q1 is the periocular blood circulation intensity after the first stage is finished, Q0 is the periocular blood circulation intensity before the start of treatment, T1 is the periocular skin temperature after the first stage is finished, T0 is the periocular skin temperature before the start of treatment, R1 is the periocular microcirculation intensity after the first stage is finished, and R0 is the periocular microcirculation intensity before the start of treatment.

The treatment mode of the vision adjusting treatment health care instrument is used for 100 users for 30 days, the use is carried out 1 time a day, and the eye detection conditions of the users before use and after use for 15 days in the early morning are recorded respectively, wherein the table is shown below.

User eye improvement alignment table before and after use

The table shows that the treatment mode of the vision adjusting treatment and health care instrument can improve the eye detection data after the treatment of adults and children, has particularly obvious improvement effect on children, and can provide sufficient blood supply for ocular vasodilation, fundus capillaries and the like and has relevant effects on vision recovery.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A vision conditioning therapeutic health care instrument, comprising:

the treatment heads are arranged on one side close to the face and used for outputting pulse signals to stimulate acupuncture points around eyes;

the connecting module is connected with the treatment head and used for adjusting the position of the treatment head;

the liquid supply module is connected with the treatment heads and used for driving nutrient liquid to flow out of each treatment head and then penetrate into eye acupoints through subcutaneous layers;

the data transmission module is used for receiving the facial image of the user;

the blood circulation detection module is connected with the connection module and is used for detecting the temperature of the skin around the eyes and the microcirculation intensity around the eyes of a user;

the treatment control module is respectively connected with the connecting module, the liquid supply module, the data transmission module and the blood circulation detection module and is used for comparing facial images of a user with standard images, determining the using position of each treatment head according to the comparison result and determining the treatment mode of the health care instrument according to whether the liquid supply module is filled with nutrient solution or not.

2. The vision conditioning therapy health care instrument of claim 1 wherein the therapy head is provided with a pulse output strategy comprising:

outputting a rectified double 15V direct current power supply and a rectified 9V direct current power supply;

generating a spike pulse signal with the repetition frequency of 8 Hz-30 Hz through a computer chip;

modulating an intermediate frequency carrier frequency of 2 kHz-3 kHz by adopting the spike signal;

amplifying the modulated intermediate frequency carrier frequency to generate spike of the upper half cycle and several heavy energy amplified signals;

the amplified signal is output in two paths through an output transformer;

the output transformer comprises a plurality of output ends, and the ports of the output ends carry different signals or power levels.

3. The vision conditioning therapy health care instrument of claim 1 wherein the connection module is provided with a position adjustment structure to allow each of the therapy heads to be telescopically and movably adjusted to accommodate different eye contours.

4. The vision adjusting therapeutic apparatus as defined in claim 1, wherein said treatment control module determines an initial position of each of said treatment heads based on said standard image,

wherein, the initial position of each treatment head corresponds to the eye acupuncture points on the standard image one by one.

5. The vision adjusting, treating and health-care device according to claim 4, wherein the treating and controlling module compares the facial image of the user with the standard image, determines the eye acupoints on the facial photograph of the user according to the comparison result, and determines the using position of the treating head and the adjusting strategy of the connecting module according to the eye acupoints positions of the facial image of the user and the eye acupoints positions of the standard image.

6. The vision adjusting, treating and health care device according to claim 5, wherein the treating and controlling module determines the massaging range of each treating head according to the comparison result of each eye acupoint in the face image of the user and each eye acupoint in the standard image:

when the actual deviation value of the facial image of the user and the standard image is larger than the preset deviation, the massage range of the corresponding treatment head is adjusted according to the actual deviation value.

7. The vision conditioning therapeutic care device of claim 1 wherein the therapy control module determines the therapy mode of the care device based on whether the fluid supply module is filled with a nutritional fluid:

if the liquid supply module is filled with nutrient liquid, the treatment control module adjusts the treatment mode from a conventional mode to a liquid mode;

wherein the treatment modes include a regular mode and a fluid mode.

8. The vision conditioning therapy care instrument of claim 7, wherein the normal mode comprises:

the first stage, each treatment head massages for a preset time period at a determined position according to the corresponding massage range;

the second stage, after the partial treatment heads move to the using positions of other treatment heads through the connecting module, retracting the moving partial treatment heads and moving to the using positions corresponding to the partial treatment heads;

third, each treatment head massages the second time length at the determined position according to the corresponding massage range;

the second time length is determined according to the preset time length and the periocular blood circulation growth ratio after the first stage is finished.

9. The vision conditioning therapy health care instrument of claim 8, wherein the therapy control module determines the periocular blood circulation intensity from the periocular skin temperature and periocular microcirculation intensity detected by the blood circulation detection module, the periocular blood circulation intensity Q being determined by the following formula:

,

wherein T is the temperature of the skin around the eyes, R is the microcirculation intensity around the eyes, omega 1 is the temperature weight parameter, and omega 2 is the microcirculation weight parameter.

10. The vision conditioning therapy health care device of claim 9 wherein the therapy control module determines the second duration from a ratio of periocular blood circulation growth ratio after the end of the first phase to a preset growth ratio:

if the ratio of the periocular blood circulation increase ratio to the preset increase ratio is greater than or equal to 1, judging that the second duration is equal to the preset duration;

if the ratio of the periocular blood circulation increase ratio to the preset increase ratio is smaller than 1, determining that the second time period is determined according to the preset time period and the periocular blood circulation increase ratio q1, wherein the second time period t2 is determined by the following formula:

，

，

wherein T0 is a preset time period, Q0 is a preset growth ratio, Q1 is the periocular blood circulation intensity after the first stage is finished, Q0 is the periocular blood circulation intensity before the start of treatment, T1 is the periocular skin temperature after the first stage is finished, T0 is the periocular skin temperature before the start of treatment, R1 is the periocular microcirculation intensity after the first stage is finished, and R0 is the periocular microcirculation intensity before the start of treatment.