CN116672617A - Brain optical treatment device and optical treatment equipment - Google Patents

Abstract

The application provides a brain optical treatment device and optical treatment equipment. The inside of the head-mounted body is provided with a first cooling cavity channel which is respectively communicated with the first cooling medium inlet and the first cooling medium outlet, and the first cooling cavity channel is paved on the inner side surface of the head-mounted body, which is attached to the head. The first light-emitting component is arranged on the outer side face of the head-mounted body. The hair poking body is used for being inserted between the hairs when the head-wearing body rotates to wear so as to poke the hairs. Above-mentioned first cooling chamber way adopts the mode of laying, can increase the area of contact of cooling surface and head to reach the better radiating effect for the head, on the lateral surface of head-mounted body was directly located to first luminous subassembly, can make first luminous subassembly comparatively be close to the head, make the near infrared light that first luminous subassembly sent can shine more to the head, in order to reach the purpose that improves light treatment effect.

Description

Brain optical treatment device and optical treatment equipment

Technical Field

The application relates to the technical field of light therapy, in particular to a brain optical therapy device and light therapy equipment.

Background

Research shows that red light or near infrared light with a certain wavelength can penetrate human skull and produce beneficial effects on cells by stimulating the cells, thereby achieving the purpose of treating brain diseases, such as neurodegenerative diseases, mental diseases, traumatic diseases and the like. When the existing light treatment equipment treats a patient, the light-emitting component can release a large amount of heat, so that discomfort of the patient is easily caused, and the head of the patient is cooled by adopting a fan or a cold air input mode at present, but when the cooling mode is adopted, a certain space is reserved between the inner shell of the head cap arranged in the light treatment mode and the head of the patient so as to realize air circulation to ensure the cooling effect, the light-emitting component arranged on the head cap is far away from the scalp of the patient, in addition, in order to ensure large-area and uniform cooling of the head of the patient, an air accommodating cavity is required to be arranged between the mounting layer of the light-emitting component and the head of the patient, so that the cold air can be blown to the head of the patient through the air accommodating cavity and the vent holes on the air accommodating cavity, the whole volume of the head cap in the light treatment equipment is larger, and the arrangement of the air accommodating cavity is further increased, so that the distance between the light-emitting component and the scalp of the patient is further increased, and more near infrared light is absorbed and scattered by media in the air before reaching the scalp, so that the light treatment effect is reduced.

Disclosure of Invention

The application provides a brain optical treatment device and light treatment equipment, which can solve the technical problems that the head cap is large in size and the light-emitting component is far away from the scalp of a patient.

In a first aspect, an embodiment of the present application provides a brain optical treatment device, including a head-mounted body, a first light emitting component, and a hair pulling body. The head-mounted body is used for rotating and wearing the head, the head-mounted body is provided with a first cooling medium inlet and a first cooling medium outlet, a first cooling cavity channel which is respectively communicated with the first cooling medium inlet and the first cooling medium outlet is formed in the head-mounted body, and the first cooling cavity channel is paved on the inner side surface of the head-mounted body, which is attached to the head, so that the temperature of the head is reduced. The first light-emitting component is arranged on the outer side face of the head-mounted body and used for emitting near infrared light to the head. The hair poking body is arranged on the preset surface of the head-mounted body and is used for being inserted between the hairs to poke the hairs when the head-mounted body rotates to wear, and the inner side surface of the head-mounted body can be attached to the head.

In a second aspect, an embodiment of the present application provides a light therapeutic apparatus, including the brain optical therapeutic device described above.

Compared with the prior art, the embodiment of the application has the beneficial effects that: according to the application, the first cooling cavity channel is paved on the inner side surface of the head-mounted body and attached to the scalp as much as possible, the contact area between the cooling surface and the head can be increased through the paved first cooling cavity channel, so that the better head radiating effect is achieved, the first cooling cavity channel is paved, the first light-emitting component is directly arranged on the outer side surface of the head-mounted body, the first light-emitting component is relatively close to the head, near infrared light emitted by the first light-emitting component can irradiate the head more, the purpose of improving the light treatment effect is achieved, the hair poking body is further arranged on the head-mounted body, the hair poking body is inserted between the hairs when the head-mounted body rotates and wears, the inner side surface of the head-mounted body can be attached to the head, the first cooling cavity channel is further attached to the scalp, more near infrared light can enter the head of a patient, the cooling and light treatment effect is improved, the head-mounted optical treatment device is free from the air cavity, the cooling and the head-mounted optical treatment device is small in volume and uniform in size.

Drawings

In the drawings, which are not necessarily drawn to scale, like numerals may describe similar components in different views. The accompanying drawings illustrate various embodiments by way of example in general and not by way of limitation, and together with the description and claims serve to explain the disclosed embodiments. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts. Such embodiments are illustrative and not intended to be exhaustive or exclusive of the present apparatus or method.

Fig. 1 is a schematic structural diagram of a brain optical therapeutic apparatus according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of a brain optical treatment device according to an embodiment of the present application.

Fig. 3 is a schematic view of a first structure of a head-mounted body of a brain optical treatment device according to an embodiment of the application.

Fig. 4 is a schematic diagram of a second structure of a head-mounted body of the brain optical treatment device according to an embodiment of the application.

Fig. 5 is a schematic structural view of a brain optical treatment device according to an embodiment of the present application, in which a structure for supplying a cooling medium to a first cooling channel is shown.

Fig. 6 is a schematic structural view of a two-brain optical treatment device according to an embodiment of the present application, which shows a structure for supplying a cooling medium to a first cooling channel.

Fig. 7 is a schematic structural diagram of a trinephalum optical treatment device according to an embodiment of the application.

Fig. 8 is a cross-sectional view of a three brain optical treatment device according to an embodiment of the present application.

Fig. 9 is a cross-sectional view of a trinocular optical treatment device in accordance with an embodiment of the application.

Fig. 10 is a schematic structural diagram of a four-brain optical therapeutic apparatus according to an embodiment of the present application.

Fig. 11 is a schematic structural diagram of a light therapy apparatus according to an embodiment of the application.

Fig. 12 is a schematic structural diagram of a light therapy apparatus according to the second embodiment of the present application.

Fig. 13 is a schematic structural diagram of a three-light therapy apparatus according to an embodiment of the present application.

Fig. 14 is a schematic structural diagram of a fourth light therapy apparatus according to an embodiment of the present application.

The reference numerals in the drawings denote components:

1-a head-mounted body; 101-a first cooling medium inlet; 102-a first cooling medium outlet; 103-a first cooling gallery; 104-a bridge; 105-arc wearing part; 106-drainage plates; 107-hair pressing part; 2-a first light emitting component; 3-poking body; 4-a first cooling assembly; 401-a second cooling gallery; 5-a hair holding cavity; 6-a first elastic bladder; 7-a housing; 8-forehead She Guang treatment assemblies; 801-a second cooling assembly; 802-a second light emitting component; 803-a third cooling gallery; 9-a second elastic bladder; 10-a cap body; 11-an elastic cap; 12-an elastic belt; 13-flexible bladder structure; 14-a water pump; 15-a water tank; 16-heat sink.

Detailed Description

The present application will be described in detail below with reference to the drawings and detailed description to enable those skilled in the art to better understand the technical scheme of the present application. Embodiments of the present application will be described in further detail below with reference to the drawings and specific examples, but not by way of limitation.

The terms "first," "second," and the like, as used herein do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises" and the like means that elements preceding the word encompass the elements recited after the word, and not exclude the possibility of also encompassing other elements. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

In the present application, when it is described that a specific device is located between a first device and a second device, an intervening device may or may not be present between the specific device and the first device or the second device. When it is described that a particular device is connected to other devices, the particular device may be directly connected to the other devices without intervening devices, or may be directly connected to the other devices without intervening devices.

All terms (including technical or scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs, unless specifically defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

The embodiment of the application provides a brain optical treatment device. As shown in fig. 1 to 6, the brain optical treatment device includes a head-mounted body 1, a first light emitting assembly 2, and a hair-pulling body 3. The head-mounted body 1 is used for rotating and wearing to the head, the head-mounted body 1 is provided with a first cooling medium inlet 101 and a first cooling medium outlet 102, a first cooling cavity 103 which is respectively communicated with the first cooling medium inlet 101 and the first cooling medium outlet 102 is formed in the head-mounted body 1, and the first cooling cavity 103 is paved on the inner side surface of the head-mounted body 1, which is attached to the head, so that the temperature of the head is reduced. The first light emitting component 2 is disposed on an outer side surface of the head-mounted body 1 and is used for emitting near infrared light to the head. The hair poking body 3 is arranged on a preset surface of the head-mounted body 1 and is used for being inserted between the hairs to poke the hairs when the head-mounted body 1 rotates to wear, and the inner side surface of the head-mounted body 1 can be attached to the head.

In particular, the brain optical treatment device described above may be used to treat any brain region including, but not limited to, the parietal, temporal, frontal and occipital lobes, and the like.

As shown in fig. 1 to 5, the brain optical treatment device shown in the drawings may be used to treat a part of the frontal lobe region, a part of the parietal lobe region, and the temporal lobe, that is, the above-described first light emitting element 2 is disposed corresponding to the part of the frontal lobe region, the part of the parietal lobe region, and the temporal lobe.

Illustratively, as shown in fig. 6, the brain optical treatment device shown in the figure may be used to treat at least part of the frontal brain region, the parietal brain region, the temporal lobe and the occipital lobe, i.e. the above-mentioned first light emitting component 2 is disposed corresponding to at least part of the frontal brain region, parietal brain region, temporal lobe and occipital lobe.

Specifically, the shape of the head-mounted body 1 may be a semi-ring shape around the left and right sides of the head (as shown in fig. 1 to 5), or a cap shape capable of covering the upper side of the head (as shown in fig. 6), and the shape of the head-mounted body 1 is not particularly limited, and the head-mounted body may be stably mounted on the head.

Specifically, the inner side surface of the head-mounted body 1 may be made of a material having good thermal conductivity, so that the cooling capacity of the cooling medium in the first cooling channel 103 can be directed to the head as much as possible. The outer side surface of the head-mounted body 1 may be made of a material with good heat insulation, so as to isolate the heat emitted by the first light-emitting component 2 and prevent the heat from being directed to the head.

Specifically, the above-described swivel wearing can be understood as that the head-mounted body 1 is swiveled backward from the position corresponding to the forehead to the position corresponding to the top of the head or the back side of the head, thereby completing the swivel wearing action.

Specifically, the first cooling medium inlet 101 and the first cooling medium outlet 102 may be one or more, and are not limited herein.

Specifically, the cooling medium may be a cooling liquid or a cooling gas, and is not particularly limited herein.

Specifically, as shown in fig. 1, the inner side of the head-mounted body 1 is understood to be the side that fits on the head and faces the head. The side surface of the head-mounted body 1 that is fitted to the head is understood to be the side surface that contacts the head when the head-mounted body is worn on the head. The first cooling gallery 103 is laid on the inner side surface in such a way as to increase the contact area of the first cooling gallery 103 with the head as much as possible, thereby achieving a maximized effect of cooling the head.

Specifically, the brain optical treatment device may include a control board and a temperature sensor disposed near one side of the scalp, where the temperature sensor is used to collect scalp temperature, the control board can obtain information of the scalp temperature, regulate and control the operation of the first light emitting component 2 and/or adjust the cooling capacity of the cooling medium flowing to the first cooling cavity 103 based on the information, so as to dynamically adjust the operation state of the first light emitting component 2 and/or the cooling capacity of the cooling medium in the first cooling cavity 103 according to the scalp temperature.

Specifically, the hair pulling body 3 and the head-wearing body 1 may be detachably connected or integrally connected. In addition, the hair pulling body 3 can be matched with the head-wearing body 1. When dialling the cooperation of hair body 3 and wear-type body 1 and using, dialling the hair body 3 and can rotate with wear-type body 1 in step and move, above-mentioned dialling the hair body 3 after dialling the hair for the medial surface of wear-type body 1 can laminate the head, thereby make lay the first cooling chamber 103 that wear-type body 1 laminating was gone up to the medial surface of head more can laminate the scalp, improve the cooling effect, in addition, still make the light that the first luminous component 2 that is located on the lateral surface of wear-type body 1 sent shine to the scalp as far as possible, reduced the optical loss, improved light transmission efficiency effectively, improved the treatment.

Specifically, the number of the hair-pulling bodies 3 may be plural, and the plurality of hair-pulling bodies 3 cooperate to form a comb shape, so as to achieve a better hair-pulling effect. The hair poking body 3 starts poking from the frontal lobe and moves to the position corresponding to the parietal lobe, temporal lobe or occipital lobe, thereby realizing rotating poking and achieving the purpose of preventing hair from scattering.

Specifically, as shown in fig. 1, the outer side of the head-mounted body 1 may be understood as the side of the head-mounted body 1 facing outward. The preset surface may include at least one or more of an end surface and an inner surface in the wearing direction of the head-mounted body 1. Illustratively, as shown in fig. 1, the hair pulling body 3 shown in fig. 1 is located on an end face of the head-mounted body 1.

Specifically, the brain optical treatment device may further include a connection strap for tightening the head-mounted body 1 on the head, where the connection strap may be tightened on the head or tightened on the lower jaw, and the application is not limited thereto, and the head-mounted body 1 may be stably placed on the head after being rotatably worn.

In some embodiments, the outer side and the inner side of the head-mounted body 1 and a part of the end face may be configured to be light-transmitting, so that near infrared light emitted by the first light emitting component 2 located on the outer side can be irradiated to the head through the head-mounted body 1, so as to achieve a light therapeutic effect. In addition, the brain optical treatment device may further include an opaque housing disposed outside the first light emitting component 2, so as to prevent the near infrared light emitted by the first light emitting component 2 from diverging away from the head, resulting in leakage of the near infrared light, which leads to a safety problem.

According to the application, the first cooling cavity 103 paved on the inner side surface of the head-mounted body 1 is attached to the head, so that the first cooling cavity 103 can be attached to the head as much as possible, the contact area between the cooling surface and the head can be increased through the paved first cooling cavity 103, so that the better head heat dissipation effect is achieved, the first cooling cavity 103 is paved, the first light emitting component 2 is directly arranged on the outer side surface of the head-mounted body 1, the first light emitting component 2 is relatively close to the head, near infrared light emitted by the first light emitting component 2 can irradiate the head more, the purpose of improving the light treatment effect is achieved, the hair pulling body 3 is further arranged on the head-mounted body 1, and the hair pulling body 3 is inserted between the hair pulling bodies when the head-mounted body 1 rotates to be worn, so that the inner side surface of the head-mounted body 1 can be attached to the head, the first cooling cavity 103 can be further attached to the head of a patient, more near infrared light can enter the head of the patient, the cooling and the optical treatment space is not required to be reserved, and the head cooling space is not required to be uniform.

In some embodiments, as shown in fig. 7 and 8, the brain optical treatment device further includes a first cooling component 4, where the first cooling component 4 is disposed on a side of the first light emitting component 2 facing away from the head-mounted body 1, and the first cooling component 4 has a second cooling cavity 401, and the second cooling cavity 401 is disposed on the first light emitting component 2 and is used for cooling the first light emitting component 2.

Therefore, the first cooling component 4 can effectively cool the first light-emitting component 2, the purpose of prolonging the service life of the first light-emitting component 2 is achieved, and the influence of heat emitted by the first light-emitting component 2 during operation on the head can be reduced as much as possible.

Specifically, the shape of the first cooling component 4 may correspond to that of the first light emitting component 2, that is, the first cooling component 4 is correspondingly laid above the first light emitting component 2, and the cooling is achieved by contacting with the first light emitting component 2.

Specifically, as shown in fig. 7, the shape and structure of the first cooling component 4 may be the same as the shape and structure of the head-mounted body 1, so as to facilitate the production and processing, and of course, the shape and structure of the first cooling component 4 may also be different from the shape and structure of the head-mounted body 1, and may be set according to the actual structural design, for example, the first cooling component 4 covers the outer side surface of the first light emitting component 2, so as to avoid the leakage of the near infrared light emitted by the first light emitting component 2, which leads to the occurrence of a safety problem.

Specifically, the second cooling cavity 401 is laid on the outer side surface of the first light emitting component 2, so as to increase the contact area between the second cooling cavity 401 and the first light emitting component 2 as much as possible, thereby achieving the maximum effect of cooling the first light emitting component 2.

Specifically, the first cooling cavity 103 and the second cooling cavity 401 may be independently disposed, that is, the cooling mediums in the first cooling cavity 103 and the second cooling cavity 401 cannot circulate, so as to achieve cooling for the head and the first light emitting component 2 respectively according to specific cooling requirements, thereby achieving better cooling effects for the head and the first light emitting component respectively.

Specifically, the first cooling member 4 may be made of a light blocking material to prevent the first light emitting member 2 from being dispersed.

Specifically, the second cooling channel 401 may have a single layer or a multi-layer structure, which is not particularly limited in the present application.

In some embodiments, as shown in fig. 1 to 5, the number of the hair pulling bodies 3 and the number of the first light emitting components 2 are plural, the preset surface is an end surface of the head-mounted body 1 in the wearing direction, that is, the hair pulling bodies 3 may be formed by extending the end surface of the head-mounted body 1 outwards in the direction of wearing the head-mounted body 1, the plurality of hair pulling bodies 3 are arranged in an arc shape around the head on the preset surface, the plurality of first light emitting components 2 are respectively arranged in a plurality of rows, and the hair pulling bodies 3 are arranged corresponding to at least one row of the first light emitting components 2.

In this way, the hair pulling body 3 can pull the hair on the light path of the row of the first light emitting components 2 corresponding to the hair pulling body, so that near infrared light emitted by the first light emitting components 2 can irradiate the head as much as possible, and a better treatment effect is achieved.

The setting of above-mentioned dialling hair body 3 can avoid influencing the laminating degree of wear-type body 1 and head on the terminal surface of wear-type body 1 on the direction to the head, even the medial surface of wear-type body 1 can laminate to the head better to reach the cooling effect of preferred.

Specifically, as shown in fig. 1, the first light emitting assemblies 2 may be arranged in parallel in a plurality of rows, and the first light emitting assemblies 2 under each row may be sequentially arranged along the direction of wearing the head-mounted body 1. The hair-pulling bodies 3 may be disposed in a one-to-one correspondence with the rows of the first light-emitting components 2, that is, one hair-pulling body 3 corresponds to one row of the first light-emitting components 2.

Specifically, the hair pulling body 3 has a tip in the wearing direction of the head-mounted body 1 so as to pull out hair when the head-mounted body 1 is worn. Wherein, the tip can be made of a material with a certain hardness so that the hair poking body 3 can apply enough force for poking hair to the head to achieve better hair poking effect. In one embodiment, the portion of the hair pulling body 3 away from the tip thereof may be divided into an upper portion and a lower portion, the upper portion may be made of a rigid material to prevent hair from being scattered after being pulled out, the lower portion is a portion contacting the scalp, the lower portion may be made of a flexible material to improve wearing comfort and enable the inner side of the head-mounted body 1 to be fitted to the head as much as possible.

In some embodiments, as shown in fig. 9, the number of the hair pulling body 3 and the number of the first light emitting components 2 are plural, the preset surface is the inner side surface of the head-mounted body 1, the hair pulling body 3 is convexly arranged on the inner side surface of the head-mounted body 1, and the interior of the hair pulling body 3 is hollow, so that a part of the first cooling cavity 103 is formed in the interior of the hair pulling body 3.

Specifically, the head-mounted body 1 may be a one-piece sheet structure, or may be other structures, which are not particularly limited herein.

Specifically, the hair pulling body 3 may be a cylinder inside the head-mounted body 1, and the inside of the cylinder may be hollow, so that after the hair pulling body 3 pulls the head, hair is placed between the hair pulling bodies 3, the hair pulling bodies 3 and the scalp can be in direct contact, the cooling medium flowing to the inside of the hair pulling body 3 can cool the scalp, the cooling effect for the head is improved, and the comfort level of the user is improved.

Specifically, the first light emitting component 2 may be disposed corresponding to the hair pulling body 3, that is, the first light emitting component 2 may be disposed on an outer side of the head-mounted body 1 corresponding to the disposition position of the hair pulling body 3. In addition, the first light emitting component 2 may be further disposed at a position where the scalp can be leaked after the hair is pulled out by the hair pulling body 3, so that the near infrared light emitted by the first light emitting component 2 irradiates the head as much as possible.

In some embodiments, as shown in fig. 1 to 5, the head-mounted body 1 further has a bridge portion 104 and at least two arc-shaped wearing portions 105 disposed at intervals, the plurality of arc-shaped wearing portions 105 are used for tightening the head in a matching manner, the bridge portion 104 is used for connecting the arc-shaped wearing portions 105, the bridge portions 104 are disposed at intervals, and a hair accommodating cavity 5 for accommodating hair pulled by the hair pulling body 3 is formed between adjacent bridge portions 104.

The weight of the head-mounted body 1 can be lightened through the structure, smaller pressure can be applied to the head after the head-mounted body 1 is worn, the structural design is simpler, the structural stability is strong, the whole size is smaller, the first light-emitting component 2 can be closer to the head, the light loss is reduced, and the treatment effect is improved. The hair holding cavity 5 is used for holding the hair pulled by the pulling-out body 3 so as to limit the pulled-out hair.

Specifically, as shown in fig. 1, there may be two arc-shaped wearing portions 105, two ends of the bridge portion 104 are respectively connected to the two arc-shaped wearing portions 105, and the plurality of bridge portions 104 are disposed in parallel. In addition, the number of the arc-shaped wearing parts 105 may be greater than two, and the plurality of arc-shaped wearing parts 105 are connected with the plurality of bridging parts 104, so as to realize the head-mounted body 1 with a more stable structure. For example, the plurality of bridging portions 104 may be disposed uniformly in parallel, and the plurality of arc-shaped wearing portions 105 may be connected uniformly with the plurality of bridging portions 104 at an angle, for example, may be perpendicular to each other.

Specifically, the arcuate wearing portion 105 described above may be configured in a hair band shape.

Specifically, the hair holding chamber 5 may be provided therein with a hair pressing portion 107 for pressing hair pulled by the hair pulling body 3. Illustratively, one end of the hair pressing portion 107 is fixedly connected to the bridge portion 104 forming the hair holding cavity 5, and the other end may be configured as a free end, so that the pressure applied to the hair by the hair pressing portion 107 can have a certain space, not only to press the hair, but also not to cause excessive pressure to the head. For example, both ends of the hair pressing portion 107 may be fixedly connected to the bridge portion 104 forming the hair holding cavity 5, for example, the hair pressing portion 107 may be formed by a portion of the arc-shaped wearing portion 105 corresponding to the hair holding cavity 5, so as to compress the pulled hair as much as possible, and ensure the stability of the overall structure of the head-mounted body 1. In some embodiments, the hair pressing portion 107 may be plural to be suitable for the short hair crowd.

In some embodiments, as shown in fig. 1-5, the bridge 104 and the arc-shaped wear portion 105 include hollow channels, and the hollow channels of the bridge 104 and the arc-shaped wear portion 105 communicate to cooperate to form part or all of the first cooling channel 103, at least the inner side of the bridge 104 for conforming to the head for head cooling.

Therefore, the inner side surface of the bridge portion 104 can be attached to the head to realize head cooling, and the head-mounted body 1 has a simple overall structure and can achieve the purpose of effectively cooling the head.

Specifically, the bridge portion 104 may be configured in a thin plate shape, and an inner side surface thereof is attached to the head portion, and an outer side surface thereof is used for mounting the first light emitting element 2. The thin plate-shaped bridging portion 104 can increase the contact area between the bridging portion and the head, so as to achieve a better head cooling effect.

Specifically, the bridge 104 may have a narrow top and wide bottom configuration to increase the contact area with the scalp, thereby increasing the cooling area.

In some embodiments, as shown in fig. 1 and 2, the first light emitting assembly 2 is disposed on the bridge portion 104 and/or the outer side surface of the arc-shaped wearing portion 105 facing away from the head, the hair pulling bodies 3 are disposed on the end surfaces of the bridge portion 104 in the wearing direction, and at least one hair pulling body 3 is disposed on the end surface of each bridge portion 104 in the wearing direction. The above structural design is reasonable, and the first light emitting component 2 is directly arranged on the bridging portion 104 and/or the arc wearing portion 105, so that the structure is more compact, the whole volume of the brain optical treatment device is reduced, and the weight of the brain optical treatment device can be reduced.

Specifically, the first light emitting assembly 2 may be detachably disposed on the bridge portion 104 and/or the arc-shaped wearing portion 105, so as to facilitate the installation and the removal of the first light emitting assembly 2.

In some embodiments, as shown in fig. 4, the plurality of first cooling medium inlets 101 may be provided on one arc-shaped wearing portion 105 at one end of the bridge portion 104, the first cooling medium outlets 102 may be provided on the other arc-shaped wearing portion 105 at the other end of the bridge portion 104, or each first cooling medium inlet 101 may be provided at one end of each bridge portion 104, and the first cooling medium outlets 102 may be provided on the arc-shaped wearing portion 105 at the other end of the bridge portion 104.

Specifically, the arc-shaped wearing part 105 at one end of the bridging part 104 is communicated with the bridging part 104, and the plurality of first cooling medium inlets 101 are arranged at the position, which is communicated with the bridging part 104, on the arc-shaped wearing part 105, or the first cooling medium inlets 101 are directly arranged at one end of each bridging part 104 respectively, so that cooling medium can uniformly and quickly enter each bridging part 104, after the other end of the cooling medium bridging part 104, the cooling medium can flow out from the first cooling medium outlets 102 arranged at two sides on the arc-shaped wearing part 105 at the other end, and as the first cooling medium outlets 102 are arranged at two sides of the arc-shaped wearing part 105, the two sides of the arc-shaped wearing part 105 are lower relative to the middle position, so that the rapid circulation of the cooling medium can be realized by utilizing the action of gravity.

In this way, by providing a plurality of first cooling medium inlets 101, the flow rate of the cooling medium can be increased so that more cooling medium rapidly enters the first cooling gallery 103. The cooling medium flows from one arc-shaped wearing part 105 or one end of the bridging part 104 to the other arc-shaped wearing part 105 through the bridging part 104.

Specifically, the plurality of first cooling medium inlets 101 may be spaced apart so that the cooling medium can uniformly flow into the first cooling gallery 103.

In some embodiments, as shown in fig. 3, a flow guiding plate 106 is provided in the first cooling channel 103, and the flow guiding plate 106 is used to make the cooling medium of the first cooling channel 103 detour therein and make the cooling medium flow at least through part of the bridge 104. Specifically, the drainage plate 106 may be disposed in the arc wearing portion 105 having a hollow structure, so that the arc wearing portion 105, the bridging portion 104 and the drainage plate 106 form a first cooling cavity, since in this embodiment, after the wearing of the head-mounted body 1 is completed, the arc wearing portion 105 is not attached to the scalp to cool the scalp, and by adding the drainage plate 106 to form the first cooling cavity, the flow of the cooling medium through an unnecessary area can be reduced, so that the cooling medium flows into the bridging portion 104 capable of contacting the scalp as soon as possible, so as to achieve the effect of cooling the head as soon as possible. In addition, in this embodiment, the first cooling medium inlet 101 and the first cooling medium outlet 102 may be disposed on the same arc-shaped wearing portion 105 connected to one end side of the bridging portion 104, as shown in fig. 3, and the first cooling medium inlet 101 and the first cooling medium outlet 102 are disposed at two ends of the arc-shaped wearing portion 105, respectively, so that the cooling medium flows through all bridging portions 104, and thus, the cooling medium flows through as many bridging portions 104 that can be attached to the scalp as possible, so as to achieve a large area of cooling and improve the cooling effect.

Specifically, as shown in fig. 3, the first cooling channel 103 may be specifically configured as a serpentine channel.

In some embodiments, multiple brain optical treatment devices may also be used for optical treatment, depending on the treatment requirements. The embodiment shown in fig. 6 includes two brain optical treatment devices, which can be used for performing optical treatment on each brain region such as frontal lobe, occipital lobe, temporal lobe and parietal lobe of a patient, wherein the hair pulling body 3 is disposed on the right side (i.e. wearing direction) of the two brain optical treatment devices in the drawing, the first cooling medium inlets 101 are disposed at positions above the two brain optical treatment devices, the first cooling medium outlets 102 are disposed at positions below the two brain optical treatment devices, and the first cooling medium inlets 101 and the first cooling medium outlets 102 are as close to two sides of the head-mounted body 1 of the two brain optical treatment devices as possible, so that the cooling medium can flow through more regions of the head-mounted body 1 to achieve a larger area of cooling, so as to improve the head cooling effect.

In some embodiments, as shown in fig. 10, the brain optical treatment device further includes a first elastic bag 6 wrapped outside the first cooling module 4, and the first elastic bag 6 is used to apply a force to the first cooling module 4 and the head-mounted body 1 to approach the head.

In this way, the first elastic bag 6 can better press the head-mounted body 1 towards the head, so that the aim of better fitting the head is achieved.

Specifically, the first elastic bag 6 may have a contracted state and an expanded state, and the contracted state may be converted into the expanded state after the first elastic bag 6 is filled with a gas or a liquid. The first elastic bladder 6 in the inflated state may cover the outer side surface of the first light emitting assembly 2, enabling the first elastic bladder 6 to uniformly apply pressure to the head-mounted body 1 from various angles. The gas or liquid filled in the contracted first elastic bag 6 may be a cooling medium to dissipate heat of the first light emitting component 2. In addition, a rigid housing may be provided on the outside of the first elastic bladder 6 to expand the first elastic bladder 6 as far as possible toward the head-mounted body 1 side to better apply pressure thereto, thereby enabling the head-mounted body 1 to more closely fit the scalp.

In particular, the first elastic bladder 6 may be made of a thermoplastic elastomer material, so as to have good elastic recovery, deformability and wear resistance.

Specifically, the first elastic bag 6 may include a bag body capable of covering the outer side surface of the first light emitting assembly 2 in an inflated state, and may further include a belt body for tightening the bag body to the head.

The embodiment of the application also provides a light treatment device, which comprises the brain optical treatment device. The light therapy equipment adopting the brain optical therapy device is paved on the first cooling cavity 103 on the inner side surface of the head part, so that the first cooling cavity 103 can be paved on the head part as far as possible, the contact area between the cooling surface and the head part can be increased through the paved first cooling cavity 103, the better head radiating effect is achieved, the first cooling cavity 103 is paved, the first light-emitting component 2 is directly arranged on the outer side surface of the head-mounted body 1, the first light-emitting component 2 is enabled to be relatively close to the head part, near infrared light emitted by the first light-emitting component 2 can be irradiated on the head part to achieve the aim of improving the light therapy effect, the hair poking body 3 is further arranged on the head-mounted body 1 to poke hair when the head-mounted body 1 rotates and wears, the inner side surface of the head-mounted body 1 can be adhered to the head part, the first cooling cavity 103 is further adhered to the scalp, more near infrared light can enter the head part, the head part is enabled to enter the head part, the head part is not required to have uniform cooling effect, and the head part is not required to be cooled, and the head part is not required to be uniformly cooled.

Specifically, as shown in fig. 5 and 6, the above-described light treatment apparatus may further include a water pump 14, a water tank 15, and a heat sink 16. The water pump 14 is in communication with the first cooling medium inlet 101 for pumping cooling medium in the water tank 15 into the first cooling gallery 103 via the first cooling medium inlet 101. The water tank 15 is communicated with the first cooling medium outlet 102, and is used for accommodating the cooling medium discharged from the first cooling cavity 103, and cooling the cooling medium through the radiator 16 in the water tank 15, so as to realize the recycling of the cooling medium.

In some embodiments, as shown in fig. 11 to 14, the light treatment apparatus further includes a housing 7 covering the brain optical treatment device, and a forehead She Guang treatment assembly 8 disposed inside the housing 7, the forehead She Guang treatment assembly 8 includes at least a second cooling assembly 801 and a second light emitting assembly 802, the second light emitting assembly 802 is configured to emit near infrared light toward the forehead lobe of the head, and the second cooling assembly 801 is disposed between the second light emitting assembly 802 and the housing 7 to cover the second light emitting assembly 802 to cool the forehead. The arrow directions shown in fig. 11 and 12 are the flow directions of the cooling medium.

Thus, the forehead She Guang treatment component 8 can realize the light treatment on forehead leaves, and the second cooling component 801 can realize the cooling of the second light-emitting component 802, so that the service life of the second light-emitting component 802 can be prolonged while the treatment effect is ensured.

Specifically, as shown in fig. 11 to 14, the above-described second cooling assembly 801 may have a third cooling gallery 803, and an outlet of the third cooling gallery 803 may be communicable with an outlet of the first cooling gallery 103, so that the cooling medium in the third cooling gallery 803 and the first cooling gallery 103 can be discharged simultaneously.

Specifically, the housing 7 is covered on the housing 7 of the brain optical treatment device, which can shield the near infrared light emitted by the first light emitting component 2, so as to prevent the near infrared light from leaking to hurt the user.

In particular, the brain optical treatment device shown in fig. 11 may be used for optical treatment of a part of the frontal lobe, a part of the parietal lobe, and a bilateral temporal lobe of a patient, and the brain optical treatment device shown in fig. 12, 13 may be used for optical treatment of the frontal lobe and the bilateral temporal lobe of a patient. In some embodiments, as shown in fig. 14, the light therapy apparatus further includes a second elastic bag 9 disposed on the outer side of the housing 7, and a cap body 10 is disposed on the outer side of the second elastic bag 9, the housing 7 is made of an elastic material, the cap body 10 is made of a rigid material, and the rigid cap body 10 functions to facilitate the structure of the second elastic bag 9 to apply a force for leaning the second elastic bag 9 against the head to the housing 7.

In this way, the second elastic bag 9 can act on the forehead She Guang treatment assembly 8 and the head-mounted body 1 through the shell 7, so that the forehead She Guang treatment assembly and the head-mounted body can be better pressed towards the head, and the aim of better fitting the head is achieved.

Specifically, the second elastic bag 9 may have a contracted state and an expanded state, and the contracted state may be converted into the expanded state after the second elastic bag 9 is filled with a gas or a liquid. The second elastic bladder 9 in the inflated state may cover the outer side of the housing 7, enabling the second elastic bladder 9 to apply pressure uniformly to the housing 7 from various angles.

In particular, the second elastic bladder 9 may be made of a thermoplastic elastic material, so as to have good elastic recovery, deformability and wear resistance.

In particular, the second elastic bladder 9 described above may be a single elastic bladder or a plurality of elastic bladders capable of covering the entire casing 7. The second elastic bag 9 may be placed between the case 7 and the cap 10 after being filled with a gas or a liquid, or the second elastic bag 9 may be placed between the case 7 and the cap 10 before being filled with a medium, which is not particularly limited herein.

In some embodiments, as shown in fig. 12 and 13, the light treatment apparatus further includes a forehead She Guang treatment assembly 8 and an elastic cap 11, the brain optical treatment device is connected with the forehead She Guang treatment assembly 8 through an elastic band 12, the elastic cap 11 is covered outside the brain optical treatment device and the forehead She Guang treatment assembly 8, the forehead She Guang treatment assembly 8 includes at least a second cooling assembly 801 and a second light-emitting assembly 802, the second light-emitting assembly 802 is used for emitting near infrared light to the forehead lobe of the head, and the second cooling assembly 801 is arranged between the second light-emitting assembly 802 and the elastic cap 11 and is used for covering the second light-emitting assembly 802 to cool the forehead.

In this way, the brain optical treatment device and forehead She Guang treatment assembly 8 can be stably worn on the head through the elastic cap 11 and the elastic belt 12, and the suitability of the optical treatment device can be increased, so that the optical treatment device can be matched with heads of different sizes, and the fit degree of the brain optical treatment device and forehead She Guang treatment assembly 8 is improved.

Specifically, as shown in fig. 12 to 14, the coverage of the housing 7 made of the elastic material and the elastic cap 11 at least includes the forehead She Guang treatment assembly 8 and the brain optical treatment device according to the corresponding embodiments, which is not particularly limited in the present application.

In some embodiments, as shown in fig. 11-14, forehead She Guang treatment assembly 8 further includes a flexible bladder structure 13 disposed on the inside of second light emitting assembly 802, and in use, a cooling medium is discharged into flexible bladder structure 13, causing flexible bladder structure 13 to transition from a contracted state to an expanded state conforming to the forehead of the head to cool the head.

In this way, the flexible bladder structure 13 can cool the forehead of the head, effectively improving the wearing comfort of the user.

Specifically, the inlets of the cooling medium are respectively communicated with the flexible bladder structure 13 and the third cooling cavity 803 of the second cooling assembly 801, and the outlets of the cooling medium in the flexible bladder structure 13 and the third cooling cavity 803 of the second cooling assembly 801 are respectively communicated, so that the cooling medium can flow to the flexible bladder structure 13 respectively through the same inlet and can be discharged together, and other cooling medium providing devices are not required to be arranged for the flexible bladder structure 13. Specifically, the position of the inner side of the flexible bag structure 13 and/or the head-wearing body 1 contacting the scalp may be provided with an intelligent close-fitting sensing module, and when the flexible bag structure 13 or the head-wearing body 1 is poorly fitted with the scalp, the flexible bag structure 13 and/or the head-wearing body 1 may be further fitted with the head by filling the cooling medium into the flexible bag structure 13, filling the liquid or the gas into the second elastic bag 9, filling the liquid or the gas into the first elastic bag 6, adjusting the elastic cap 11 and the elastic belt 12, and the like, so as to satisfy the effect of cooling the head.

Specifically, the flexible bag structure 13 may be made of a light-transmitting material to avoid shielding the near infrared light emitted by the second light emitting component 802.

Furthermore, although exemplary embodiments have been described herein, the scope thereof includes any and all embodiments having equivalent elements, modifications, omissions, combinations (e.g., of the various embodiments across), adaptations or alterations as pertains to the present application. The elements in the claims are to be construed broadly based on the language employed in the claims and are not limited to examples described in the present specification or during the practice of the application, which examples are to be construed as non-exclusive.

The above description is intended to be illustrative and not restrictive. For example, the above-described examples (or one or more aspects thereof) may be used in combination with each other. For example, other embodiments may be used by those of ordinary skill in the art upon reading the above description. In addition, in the above detailed description, various features may be grouped together to streamline the application. This is not to be interpreted as an intention that the disclosed features not being claimed are essential to any claim. Rather, inventive subject matter may lie in less than all features of a particular disclosed embodiment. Thus, the following claims are hereby incorporated into the detailed description as examples or embodiments, with each claim standing on its own as a separate embodiment, and it is contemplated that these embodiments may be combined with one another in various combinations or permutations. The scope of the application should be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled.

The above embodiments are only exemplary embodiments of the present application and are not intended to limit the present application, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this application will occur to those skilled in the art, and are intended to be within the spirit and scope of the application.

Claims (15)

1. A brain optical treatment device, comprising:

the head-mounted type cooling device comprises a head-mounted type body, a cooling device and a cooling device, wherein the head-mounted type body is used for being worn on a head in a rotating mode and is provided with a first cooling medium inlet and a first cooling medium outlet, a first cooling cavity channel which is respectively communicated with the first cooling medium inlet and the first cooling medium outlet is formed in the head-mounted type body, and the first cooling cavity channel is paved on the inner side face of the head-mounted type body, which is attached to the head, so that the temperature of the head is reduced;

the first light-emitting component is arranged on the outer side surface of the head-mounted body and is used for emitting near infrared light to the head;

the hair poking body is arranged on a preset surface of the head-mounted body and used for being inserted between hairs to poke the hairs when the head-mounted body rotates to wear, and the inner side surface of the head-mounted body can be attached to the head.

2. The brain optical treatment device according to claim 1, further comprising a first cooling assembly disposed on a side of the first light emitting assembly facing away from the head-mounted body, the first cooling assembly having a second cooling channel disposed on the first light emitting assembly for cooling the first light emitting assembly.

3. The brain optical treatment device according to claim 2, wherein the number of the hair-pulling bodies and the number of the first light-emitting assemblies are plural, the preset surface is an end surface in the wearing direction of the head-mounted body, the plurality of the hair-pulling bodies are arranged in an arc shape around the head on the preset surface, the plurality of the first light-emitting assemblies are respectively arranged in a plurality of rows, and the hair-pulling bodies are arranged corresponding to at least one row of the first light-emitting assemblies.

4. The brain optical treatment device according to claim 1, wherein the number of the hair-pulling body and the number of the first light-emitting components are plural, the preset surface is an inner side surface of the head-mounted body, the hair-pulling body is convexly arranged on the inner side surface of the head-mounted body, and the interior of the hair-pulling body is hollow, so that a part of the first cooling cavity is formed in the interior of the hair-pulling body.

5. The brain optical treatment device according to claim 3, wherein the head-mounted body further comprises a bridge portion and at least two arc-shaped wearing portions arranged at intervals, a plurality of the arc-shaped wearing portions are used for being matched with and tightening the head, the bridge portion is used for connecting each arc-shaped wearing portion, the bridge portions are arranged at intervals, and a hair accommodating cavity for accommodating hair pulled by the hair pulling body is formed between adjacent bridge portions.

6. The brain optical treatment device according to claim 5, wherein the bridge portion and the arc-shaped wearing portion include hollow channels, and the hollow channels of the bridge portion and the arc-shaped wearing portion are communicated to cooperate to form part or all of the first cooling channels, at least an inner side surface of the bridge portion being adapted to be fitted to the head for head cooling.

7. The brain optical treatment device according to claim 5, wherein the first light emitting component is provided on an outer side surface of the bridge portion and/or the arc-shaped wearing portion facing away from the head portion, and the hair pulling body is provided on an end surface of the bridge portion in a wearing direction.

8. The brain optical treatment device according to claim 5, wherein the plurality of first cooling medium inlets are provided, each of the plurality of first cooling medium inlets is provided on one arc-shaped wearing portion of one end portion of the bridge portion, the first cooling medium outlet is provided on the other arc-shaped wearing portion of the other end portion of the bridge portion, or each of the first cooling medium inlets is provided at one end of each of the bridge portions, and the first cooling medium outlet is provided on the arc-shaped wearing portion of the other end portion of the bridge portion.

9. The brain optical treatment device according to claim 6, wherein a flow guiding plate is provided in the first cooling channel, the flow guiding plate being adapted to detour a cooling medium of the first cooling channel therein and to flow the cooling medium at least partially through the bridge portion.

10. The brain optical treatment device according to claim 2, further comprising a first elastic bladder wrapped outside the first cooling assembly, the first elastic bladder being configured to apply a force to the first cooling assembly and the headset body to bring the first cooling assembly and the headset body closer to the head.

11. A light therapy device comprising the brain optical therapy apparatus according to any one of claims 1 to 10.

12. The light therapy apparatus of claim 11, further comprising a housing covering the brain optical therapy device, and a forehead She Guang therapy assembly disposed inside the housing, the forehead She Guang therapy assembly comprising at least a second cooling assembly for emitting near infrared light to the forehead lobe of the head and a second light emitting assembly disposed between the second light emitting assembly and the housing for covering the second light emitting assembly to cool the forehead.

13. The light therapy apparatus of claim 12, further comprising a second elastic bladder disposed outside of said housing, and wherein a cap is disposed outside of said second elastic bladder, said housing being made of an elastic material, said cap being made of a rigid material, said second elastic bladder being configured to apply a force to said housing that urges it toward the head.

14. The light therapy apparatus of claim 11, further comprising a forehead She Guang therapy component and an elastic cap, wherein the brain optical therapy device is connected to the forehead She Guang therapy component by an elastic band, the elastic cap is covered outside the brain optical therapy device and the forehead She Guang therapy component, the forehead She Guang therapy component comprises at least a second cooling component and a second light-emitting component, the second light-emitting component is configured to emit near infrared light to the forehead lobe of the head, and the second cooling component is disposed between the second light-emitting component and the elastic cap and is configured to cover the second light-emitting component to cool the forehead.

15. A light therapy device according to claim 12 or claim 14, wherein the forehead She Guang treatment assembly further comprises a flexible bladder structure provided on the inner side of the second light emitting assembly, into which a cooling medium is discharged in use to transform the flexible bladder structure from a contracted state to an expanded state conforming to the forehead of the head to cool the head.