CN115845273B - Light treatment equipment and light treatment system for brain function related diseases - Google Patents

Abstract

The application provides a light therapy equipment and light therapy system for brain function related diseases, light therapy equipment includes casing subassembly, luminous component, first group send out subassembly and second group send out the subassembly. The housing assembly is worn on the head in a manner that it is rotated from a tilted-forward state to a seated state. The first hair pulling assembly at least comprises a first hair pulling part and a second hair pulling part, the second hair pulling part is configured to move from a position pressed against the scalp to a position far away from the scalp during wearing so as to draw hair after pressing the hair head, and the first hair pulling part is configured to move from a position corresponding to the forehead and far away from the scalp to a position pressed against the scalp during wearing so as to press the hair close to the forehead in a seated state; the second hair pulling component is arranged on one side, far away from the outer shell, of the inner shell and corresponds to temporal lobes of the head and is used for pulling hair at a corresponding position when the hair pulling component is worn. The light treatment equipment can be used for poking the hair corresponding to the forehead and the temporal lobes during light treatment so as to achieve a better light treatment effect.

Description

Light treatment equipment and light treatment system for brain function related diseases

Technical Field

The present application relates to the field of phototherapy technologies, and in particular, to a phototherapy apparatus and a phototherapy system for brain function related diseases.

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 function related diseases, such as neurodegenerative diseases, mental diseases, traumatic diseases and the like. The traditional light therapy equipment for treating brain function related diseases is provided with a poking device and a light-emitting component correspondingly, the structure is complex, the poking effect is poor, the treatment effect of the light therapy equipment is affected, other light therapy equipment can comprise the poking device which is not matched with the light-emitting component, an operator is required to manually wear the poking device on the head of a patient when the poking device is used, the operation is complex, the poking device generally needs to be enabled not to fall in the light therapy process by means of the force of the head, the poking device directly abuts against the head to cause the discomfort of the head, and in addition, for the poking device, enough space is reserved for accommodating the poking device when the light therapy equipment is worn on the head, so that the light therapy equipment is relatively large in size and inconvenient to carry and store.

Disclosure of Invention

Aiming at the technical problems in the prior art, the application provides a light treatment device and a light treatment system for brain function related diseases, which can conveniently pull out the hair corresponding to the forehead and the temporal in the wearing process during light treatment so as to achieve a better light treatment effect.

In a first aspect, embodiments of the present application provide a light therapy apparatus for brain function related disorders, the light therapy apparatus including a housing assembly, a light emitting assembly, a first dial assembly, and a second dial assembly. The shell assembly is worn on the head in a manner of rotating from a forward tilting state to a seating state, and comprises an inner shell, an outer shell covering the inner shell, and a containing cavity formed by the inner shell and the outer shell in a surrounding manner. The light emitting assembly is disposed within the receiving cavity and configured to emit transcranial light to act on at least the forehead and temporal lobes of the head. The first hair pulling component is arranged on one side, far away from the outer shell, of the inner shell and is close to the top of the inner shell, the first hair pulling component at least comprises a first hair pulling part and a second hair pulling part, the first hair pulling part and the second hair pulling part are arranged around part of the head, the second hair pulling part is close to the top of the head relative to the first hair pulling part, the second hair pulling part is configured to move from a position pressed against the scalp to a position far away from the scalp in the wearing process so as to pull up the hair after the hair is pushed against the head, and the first hair pulling part is configured to move from a position corresponding to the forehead and far away from the scalp to a position pressed against the scalp in the wearing process so that the first hair pulling part is pushed against the hair close to the forehead in the in-place state; the second hair pulling component is arranged on one side, far away from the outer shell, of the inner shell and corresponds to temporal lobes of the head and is used for pulling hair at a corresponding position when the hair pulling component is worn.

In a second aspect, embodiments of the present application provide a light therapy system for brain function related diseases, where the light therapy system includes the light therapy apparatus for brain function related diseases described above, and further includes a cooling device for providing cool air to the interior of the housing assembly to cool the head of a user.

Compared with the prior art, the beneficial effects of the embodiment of the application are that: according to the hair setting device, the first hair setting component arranged at the top of the inner shell and the second hair setting component arranged at the temporal lobe of the corresponding head can be conveniently set out through the rotary wearing process during light treatment, so that the head hair corresponding to the forehead lobe and the temporal lobe can be conveniently set out, and the cranium light emitted by the light emitting component can be irradiated on the scalp of a patient more and penetrate through the skull to carry out light treatment on brain function diseases related to the forehead lobe and the temporal lobe, the problem of low light propagation rate caused by the shielding of the head hair is effectively solved, and the treatment effect of light treatment equipment for brain function related diseases is improved. Moreover, the light therapy equipment is simple in structure, the first poking part and the second poking part are arranged on the inner side surface of the inner shell, poking can be achieved in the process of wearing the light therapy equipment, a user does not need to carry out additional manual operation, and the poking effect is good. Compared with a hair poking device which needs to poke by means of force of the head, the hair poking device has the advantages that poking is achieved through the first poking part and the second poking part which are not directly propped against the head, but are propped against the hair, so that comfort of a user is effectively improved, and discomfort of the head is avoided.

Drawings

In the drawings, which are not necessarily drawn to scale, like numerals may describe similar components in different views. The same reference numerals with letter suffixes or different letter suffixes may represent different instances of similar components. 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 view of an internal structure of a light therapy apparatus according to an embodiment of the present application.

Fig. 2 is a schematic perspective view of a first view angle of a light therapeutic apparatus according to an embodiment of the present application.

Fig. 3 is a schematic perspective view of a second view angle of the light therapeutic apparatus according to the embodiment of the present application.

Fig. 4 is a schematic view of a user wearing the light treatment apparatus.

Fig. 5 is a schematic view of another view of a user wearing the light treatment apparatus.

Fig. 6 is a schematic perspective view of a first hair pulling assembly of the light therapeutic apparatus according to the embodiment of the present application.

Fig. 7 is a front view of a first dial assembly of a light treatment apparatus according to an embodiment of the present application.

Fig. 8 is a first schematic structural view of a second hair-setting assembly of the light therapy apparatus according to the embodiment of the present application.

Fig. 9 is a second schematic structural view of a second hair-setting assembly of the light therapy apparatus according to the embodiment of the present application.

Fig. 10 is a schematic perspective view of a second hair-setting assembly of the light therapeutic apparatus according to the embodiment of the present application.

The reference numerals in the drawings denote components:

1-a housing assembly; 11-an inner shell; 12-a housing; 2-air outlet holes; 3-a first dialing component; 31-a first dialing part; 32-a second dialing part; 33-a connector; 34-a third dialing part; 35-mounting; 4-a second dialing component; 41-toggle the body; 42-action column; 43-ventilation holes; 44-bent portion.

Detailed Description

In order to better understand the technical solutions of the present application, the following detailed description of the present application is provided with reference to the accompanying drawings and the specific embodiments. Embodiments of the present application will now be described in further detail with reference to the accompanying drawings and specific examples, but are not intended to be limiting of the present application.

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 this application, when a particular device is described as being located between a first device and a second device, there may or may not be an intervening device between the particular device and either 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 present embodiment provides a light therapy apparatus for brain function related diseases, as shown in fig. 1 to 3, the light therapy apparatus includes a housing assembly 1, a light emitting assembly (not shown), a first dialing assembly 3, and a second dialing assembly 4. The housing assembly 1 is worn on the head in a manner of being turned from a tilted state to a seated state, and the housing assembly 1 includes an inner housing 11, an outer housing 12 covering the same, and a receiving chamber defined by the inner housing 11 and the outer housing 12. The light emitting assembly is disposed within the receiving cavity and configured to emit transcranial light to act on at least the frontal and temporal lobes of the head. The first hair-pulling component 3 is arranged on one side, far away from the outer shell 12, of the inner shell 11 and is close to the top of the inner shell 11, the first hair-pulling component 3 at least comprises a first hair-pulling part 31 and a second hair-pulling part 32, the first hair-pulling part 31 and the second hair-pulling part 32 are arranged around part of the head, the second hair-pulling part 32 is close to the top of the head relative to the first hair-pulling part 31, the second hair-pulling part 32 is configured to move from a position pressed against the scalp to a position far away from the scalp during wearing so as to collect hair after pressing against the scalp, and the first hair-pulling part 31 is configured to move from a position corresponding to the forehead and far away from the scalp to a position pressed against the scalp during wearing so that the first hair-pulling part 31 is pressed against the hair close to the forehead in a put-on state. The second hair pulling component 4 is arranged on one side, far away from the outer shell 12, of the inner shell 11 and corresponds to temporal lobes of the head, and is used for pulling hair at a corresponding position when the hair pulling component is worn.

Specifically, the above-described forward tilting state can be understood as a state in which the housing assembly 1 is worn on the head, and the housing assembly 1 is tilted forward (in the facial direction) with respect to the head, in which the hair corresponding to the forehead and temporal lobes is in a state to be plucked. The above-described seated state is understood to mean that the housing assembly 1 is seated and worn on the head, and in this seated state, the light emitting assembly can be brought into an openable state for light treatment. The housing assembly 1 may not be tilted forward in the in-situ state, i.e. the housing assembly 1 is in the normal position, or may have a certain tilt angle, and the tilt angle of the housing assembly 1 in the in-situ state may be smaller than the tilt angle of the housing assembly 1 in the tilted forward state, and of course, the housing assembly 1 in the in-situ state may also be tilted backward, which is not limited herein.

In particular, fig. 4 and 5 may be combined, fig. 4 and 5 are schematic views of a user wearing a light therapy apparatus employing the first and second hair- setting assemblies 3 and 4 described above, and the housing assembly 1 shown in fig. 4 and 5 is in a seated state. The poking body 41 shown in fig. 4 may be understood to be made of a transparent material, the poking body 41 shown in fig. 5 may be understood to be made of a non-transparent material, and whether the material adopted by the poking body is transparent or not is not specifically limited in the application, and the poking body 41 can guide transcranial light emitted by the light emitting component to the head.

The housing assembly 1 may be rotated to a seated state by an external force in a forward tilting state, which may be manually performed by a user or an operator, or may be assisted by other devices, which is not particularly limited in this application.

In particular, the process of wearing the housing assembly 1 can be understood as a process in which the housing assembly 1 is rotated from the above-described forward tilting state to the seated state.

In particular, the above temporal lobe may be understood as one of the left temporal lobe and the right temporal lobe, and may also be understood as the left temporal lobe and the right temporal lobe.

Specifically, the opposite ends of the first and second hair-setting portions 31 and 32 may be disposed corresponding to the left and right sides of the head to better press against the hair and to hold the hair in the top position.

In some alternative embodiments, the first hair-pulling portion 31 and the second hair-pulling portion 32 may have a connection relationship or may not have a connection relationship, and the two may be respectively applied to the hair to achieve the purpose of hair pulling.

For example, the first hair-shifting portion 31 and the second hair-shifting portion 32 may be connected by other members, or the first hair-shifting portion 31 and the second hair-shifting portion 32 may be directly connected, so as to achieve the purpose of maintaining a relatively stable relative positional relationship between the first hair-shifting portion 31 and the second hair-shifting portion 32.

For example, the first and second hair-shifting portions 31 and 32 may not have a connection relationship therebetween, for example, they may be connected to the inner case 11, respectively, such that the first and second hair-shifting portions 31 and 32 do not affect each other, but each independently realize hair shifting.

Specifically, the second hair pulling portion 32 moves from a position pressed against the scalp to a position away from the scalp in response to the movement of the housing assembly 1 when worn, to pull up the hair after the hair is pressed against the head. In order to achieve the effect of gathering hair, the second hair pulling portion 32 may be formed with a first gathering space, and when the housing assembly 1 is in the in-position state, the first gathering space is located above the top of the head, so that the hair is gathered by the second hair pulling portion 32 above the top of the head. The first hair pulling part 31 is located at a position corresponding to the forehead and far from the scalp in the forward tilting state, that is, the first hair pulling part 31 is not touched with the hair in the forward tilting state, and is located at a position corresponding to the forehead. With the movement of the housing assembly 1, the first hair pulling portion 31 moves from a position corresponding to the forehead and away from the scalp to a position pressed against the scalp, so that hair near the forehead can be pressed against.

In this way, as the housing assembly 1 is worn on the head in a manner of being turned from the forward tilting state to the in-place state, the second hair pulling portion 32 is switched from the state of pressing the hair to the state of being lifted away from the hair, and at the same time, the first hair pulling portion 31 is switched from the state of not touching the hair to the state of pressing the hair close to the forehead, so that the pressing of the first hair pulling portion 31 and the second hair pulling portion 32 to the hair is continuous, and when the second hair pulling portion 32 pulls the hair on the top of the head, the first hair pulling portion 31 can press the hair at the corresponding position towards the scalp in cooperation with the second hair pulling portion 32, so that the second hair pulling portion 32 can better pull the hair on the top of the head, and the purpose of pulling the hair by cooperation of the first hair pulling portion 31 and the second hair pulling portion 32 is achieved.

Specifically, the hair near the forehead pressed by the first hair pulling portion 31 may be understood as the hair pressed against the edge of the hairline of the user or pressed against the edge of the hairline by a predetermined distance. The preset distance is in the range of 0.5cm to 3cm.

In some embodiments, the second hair pulling component 4 may pull out the hair at the corresponding position when worn by the comb structure, and the density of the comb structure may be set according to the thickness of the hair of the user. The hair at the corresponding position of the second hair pulling member 4 is understood to be the hair on the scalp corresponding to the temporal lobe. The second hair pulling member 4 may have other hair pulling structures, as long as it can pull hair on the scalp corresponding to the temporal lobe, and the present application is not limited thereto.

The light treatment apparatus is used for treating brain function diseases related to forehead and temporal lobes, including but not limited to depression, cognitive disorder, autism, alzheimer's disease, etc., and specifically, the irradiation region, irradiation parameters, etc. of the light emitting assembly, for example, the wavelength, frequency, irradiation pattern, etc. of transcranial light may be adjusted for each disease.

According to the hair setting device, the hair corresponding to the forehead and the temporal lobe can be conveniently set aside through the rotating wearing process when in light treatment through the first hair setting component 3 which is close to the top of the inner shell 11 and the second hair setting component 4 which is corresponding to the temporal lobe of the head, so that the transcranial light emitted by the light emitting component can irradiate on the scalp of a patient more and penetrate through the skull to carry out light treatment on brain function diseases related to the forehead and the temporal lobe, the problem of low light transmission rate caused by the shielding of the hair is effectively solved, and the treatment effect of light treatment equipment for brain function related diseases is improved. Moreover, the light therapy device has a simple structure, the first and second hair pulling parts 31 and 32 are arranged on the inner side surface of the inner shell 11, and can achieve hair pulling in the process of wearing the light therapy device, a user does not need to perform additional manual operation, and the hair pulling effect is good. Compared with a hair poking device which needs to realize hair poking by means of the force of the head, the hair poking device has the advantages that hair poking is realized by the first poking part 31 and the second poking part 32 which are not directly propped against the head, so that the comfort of a user is effectively improved, and the problem of discomfort of the head is avoided. The hair corresponding to the forehead leaf is understood to be the hair on the scalp corresponding to the forehead leaf on the head, and the hair corresponding to the temporal leaf is understood to be the hair on the scalp corresponding to the left temporal leaf and/or the right temporal leaf on the head.

In some embodiments, as shown in fig. 1, 6 and 7, the first hair-setting assembly 3 further includes a connector 33, where the first hair-setting portion 31 and the second hair-setting portion 32 are connected by at least one connector 33, and the connector 33 is configured to cooperate with the first hair-setting portion 31 and the second hair-setting portion 32 to press hair.

Specifically, the connector 33 may have a rod shape, and both ends thereof are connected to the first and second hair-pulling portions 31 and 32, respectively.

Specifically, the connection member 33 may be made of an elastic material so as to provide a deformable space for the distance between the first and second hair-setting portions 31 and 32 to fit the head shape of the user when the housing assembly 1 is worn on the head in a manner of being turned from the forward-tilted state to the seated state.

In some alternative embodiments, the connecting piece 33 may be detachably connected to the first dialing portion 31 and/or the second dialing portion 32, so as to adjust the number of the connecting pieces 33, which is convenient for the user to flexibly adjust. Specifically, the first dialing portion 31 and/or the second dialing portion 32 may be provided with a plurality of first clamping portions at intervals, and the connecting piece 33 may be provided with a second clamping portion capable of being clamped with the first clamping portion, so that the connecting piece 33 may be detachably connected to the first dialing portion 31 and/or the second dialing portion 32.

In some embodiments, as shown in fig. 1, 6 and 7, the number of the connection members 33 is plural, and the plural connection members 33 are disposed in parallel between the first and second hair-shifting portions 31 and 32.

Specifically, the lengths of the plurality of connectors 33 may be the same or different, and the lengths of the connectors 33 at different positions may be adjusted according to the shapes and pitches of the first and second hair pulling portions 31 and 32.

In some embodiments, as shown in fig. 1, the first hair-pulling portion 31 has a first length direction, and both ends of the first hair-pulling portion 31 along the first length direction are tilted toward the direction of the inner side surface of the inner case 11.

So, can avoid first dialling send out portion 31 and wear the in-process scratch head of casing subassembly 1, first dialling send out portion 31 can not the direct contact head promptly, and can avoid pressing from both sides tight head through above-mentioned perk setting, in addition, the first dialling of perk setting send out portion 31 can realize the furling of bigger scope and support more hairs of pressing in wearing the in-process, and can not produce great power under casing subassembly 1 in the state of taking one's place and support the pressure head and send out, can improve the comfort level that the user was worn.

Specifically, the first longitudinal direction may be understood as a lateral direction in fig. 7, and two ends in the first longitudinal direction are left and right ends.

In some alternative embodiments, the connection part between the connecting piece 33 and the two ends of the first poking part 31 along the first length direction may be tilted towards the direction of the inner side of the inner shell 11 to adapt to the radian of the inner side of the inner shell 11, so that the first poking assembly 3 may be better assembled to the inner shell 11, and a certain deformation space may be provided between the inner shell 11 and the first poking assembly 3, so that in the process of wearing the shell assembly 1, the first poking assembly 3 may have a suitable deformation space to adapt to the head shape of the user, and the tilting arrangement may further avoid scratching the head, and improve the wearing comfort of the user.

In some embodiments, as shown in fig. 4 and 5, the first hair-shifting portion 31 and the second hair-shifting portion 32 are disposed in a vertically offset manner, and the first hair-shifting portion 31 is disposed near the face with respect to the second hair-shifting portion 32 in the in-place state of the housing assembly 1.

Specifically, the above-mentioned first hair-pulling portion 31 and the second hair-pulling portion 32 are arranged vertically in a staggered manner, which means that the first hair-pulling portion 31 is arranged below the second hair-pulling portion 32 and not arranged right below the second hair-pulling portion 32, so that the second hair-pulling portion 32 can better press the hair with pressure when in the forward-leaning state, and the first hair-pulling portion 31 can keep a certain interval with the face of the user, and when the housing assembly 1 is turned from the forward-leaning state to the in-position state, the first hair-pulling portion 31 can press the hair at the corresponding position towards the scalp in cooperation with the second hair-pulling portion 32, so that the hair can be prevented from scattering and shielding the forehead, and a certain distance can be kept between the first hair-pulling portion 31 and the scalp, so that the first hair-pulling portion 31 can not press towards the scalp with a larger pressure, and discomfort of the user can be avoided.

In some embodiments, as shown in fig. 4 to 7, the first hair-setting assembly 3 further includes a third hair-setting portion 34, the third hair-setting portion 34 is close to the top of the head relative to the second hair-setting portion 32, and the third hair-setting portion 34 is configured to gradually move away from the top of the head when worn to collect hair collected by the first hair-setting assembly 3 in a second collecting space formed by the first hair-setting assembly 3, the head, and the inner housing 11. The third hair pulling part 34 is used for pulling in hair pulled up by the first hair pulling assembly 3.

Specifically, in both the forwardly tilted state and the seated state of the housing assembly 1, the second drawing space is located above the head so that the hair is drawn above the head by the third plucking section 34.

In some embodiments, as shown in fig. 4 to 7, the connection member 33 extends in a direction in which the third hair-pulling portion 34 is located, so that the second hair-pulling portion 32 is connected to the third hair-pulling portion 34 through the connection member 33. The structure of the design is simple, other parts are not required to be additionally arranged, and the connection is stable.

Specifically, as shown in fig. 4 to 6, the third hair-pulling portion 34 and the second hair-pulling portion 32 are disposed in a vertically offset manner, and the second hair-pulling portion 32 is disposed closer to the face than the third hair-pulling portion 34 when the housing assembly 1 is in the seated state.

In order to enable the third hair-pulling portion 34 and the second hair-pulling portion 32 to be arranged in a vertically staggered manner and the first hair-pulling portion 31 and the second hair-pulling portion 32 to be arranged in a vertically staggered manner, the connecting piece 33 may be partially formed with an arc-shaped portion.

In some embodiments, as shown in fig. 4 to 7, the first hair-pulling portion 31, the second hair-pulling portion 32 and the third hair-pulling portion 34 are all arc-shaped, and are arranged at intervals, the connecting piece 33 is a plurality of pieces and is configured in a long strip shape, and the plurality of connecting pieces 33 are arranged in parallel and are respectively connected to the first hair-pulling portion 31, the second hair-pulling portion 32 and the third hair-pulling portion 34, so that the first hair-pulling portion 31, the second hair-pulling portion 32, the third hair-pulling portion 34 and the connecting piece 33 form a grid-shaped body of the first hair-pulling assembly 3. The latticed body can better gather hair in the space formed by the latticed body, so that the hair is prevented from being scattered out of the intervals among the first hair-pulling part 31, the second hair-pulling part 32, the third hair-pulling part 34 and the connecting piece 33 as much as possible. The shape of the grid-shaped body enables the structure to be more stable, namely, the connection relationship among the first hair pulling part 31, the second hair pulling part 32, the third hair pulling part 34 and the connecting piece 33 can be more stable.

Specifically, the density of each mesh arrangement of the mesh-like body may be determined according to the hair volume of the user's hair. For example, for users with low volume, the individual grids of the grid-like body may be sparsely arranged; for the user with more hair volume, each grid of the grid-shaped body can be densely arranged to achieve better hair poking effect, and the first hair poking assembly 3 can be adapted to users with different hair volumes.

Specifically, the spacing between the plurality of connection members 33 may be the same or different, which is not particularly limited in this application.

In some alternative embodiments, the first hair-shifting portion 31 may be in a first plane, the second hair-shifting portion 32 may be in a second plane, and the third hair-shifting portion 34 may be in a third plane, the first plane, the second plane, and the third plane being parallel.

In some embodiments, the distance between the first hair-pulling portion 31 and the second hair-pulling portion 32 is smaller than the distance between the second hair-pulling portion 32 and the third hair-pulling portion 34, so that during wearing, the hair gathered by the second hair-pulling portion 32 can be sequentially gathered by the first hair-pulling portion 31 and pressed against the scalp, so that the hair gathered by the second hair-pulling portion 32 is prevented from being scattered gradually along with the advancing process of the second hair-pulling portion 32, the distance between the second hair-pulling portion 32 and the third hair-pulling portion 34 is larger, and enough space can be formed to gather the gathered hair, so that the first hair-pulling portion 31, the second hair-pulling portion 32 and the third hair-pulling portion 34 cooperate to play a role of better pressing hair.

Specifically, the interval between the first hair pulling part 31 and the second hair pulling part 32 can be adjusted according to the length of the hair of the user. For example, if the hair of the user is long, the interval between the first hair-pulling portion 31 and the second hair-pulling portion 32 may be increased; if the hair of the user is shorter, the distance between the first hair-pulling part 31 and the second hair-pulling part 32 can be reduced, so that the short hair which is gathered up is prevented from being well pressed to the scalp by the first hair-pulling part 31 to be dispersed gradually in the advancing process of the second hair-pulling part 32, transcranial light is shielded, and the light treatment effect is influenced.

In some embodiments, the first hair-shifting portion 31, the second hair-shifting portion 32, the third hair-shifting portion 34, and the connection 33 are integrally formed. So can increase the structural stability between first dialling portion 31, second dialling portion 32, third dialling portion 34 and the connecting piece 33, and low in manufacturing cost is convenient for processing production.

In some embodiments, the first hair-shifting portion 31, the second hair-shifting portion 32, the third hair-shifting portion 34 and the connecting member 23 may be made of a light-transmitting material to avoid affecting the light treatment effect.

In some embodiments, as shown in fig. 6 and 7, the first hair pulling assembly 3 further includes a sheet-like mounting member 35, and the mounting member 35 is used to mount the first hair pulling portion 31, the second hair pulling portion 32, the third hair pulling portion 34, and the connecting member 33 on the inner side surface of the inner housing 11.

Specifically, the mounting member 35 may be directly connected with the connecting member 33, and the connection surface between the mounting member 35 and the connecting member 33 may be arc-shaped, and the connection area of the mounting member 35 and the connecting member 33 is smaller than the predetermined threshold, so that the first hair pulling assembly 3 can have a certain deformation space when being mounted on the inner shell 11, and the first hair pulling assembly 3 cannot be deformed due to excessively hard connection between the mounting member 35 and the connecting member 33, so that the purpose that the first hair pulling assembly 3 can adapt to head shapes of more different users is achieved.

In some embodiments, as shown in fig. 6 and 7, the mounting member 35 is connected to the third dialing part 34 and/or the connecting member 33, and the mounting member 35 can be detachably connected to the inner side surface of the inner case 11.

Specifically, the side of the mounting member 35 facing the inner housing 11 may be protruded to form a connection post, and the mounting member 35 may be detachably connected to the inner housing 11 through the connection.

In some embodiments, the first hair-pulling part 31 and the second hair-pulling part 32 are made of elastic materials, so that the first hair-pulling part 31 and the second hair-pulling part 32 are deformed when being pressed by the head, and the head shape of a user can be better adapted.

Specifically, the elastic material may be rubber, polyurethane PU, or the like.

In some alternative embodiments, a deformable space is provided between the first hair-setting component 3 and the inner shell 11, where the deformable space deforms when the first hair-setting portion 31 and the second hair-setting portion 32 are pressed by the head, so that after the first hair-setting portion 31 and the second hair-setting portion 32 are pressed and deformed by the self material, the setting of the deformable space can be more beneficial to the deformation of the first hair-setting portion 31 and the second hair-setting portion 32, so as to better adapt to the head shapes of different users.

In some embodiments, the irradiation area of the light emitting component at least covers a portion of the first dialing portion 31, so that the transcranial light emitted by the light emitting component can be irradiated to the forehead lobe as much as possible, thereby achieving a better therapeutic effect.

In some embodiments, as shown in fig. 4, 5 and 8, the second hair pulling assembly 4 includes a pulling body 41, and a plurality of action posts 42 are provided on the pulling body 41, and the action posts 42 are used for inserting and pulling hair at corresponding left and right temporal lobes when worn, and guiding transcranial light emitted by the light emitting assembly to the head.

In particular, the toggle body 41 and the action post 42 may be made of a light-transmitting soft material, so that the transcranial light emitted by the light-emitting component can be irradiated to the head as much as possible, and discomfort of the user is not caused. In some embodiments, the light-transmitting soft material may be transparent silica gel.

Specifically, the poking body 41 may be sheet-shaped, and the thickness range thereof may be 1mm to 3mm, so that the poking body 41 has a certain thickness to ensure the poking effect.

Specifically, the end of the action post 42 facing away from the toggle body 41 may be configured as an arched end to improve the comfort of the user when the action post 42 is pressed against the scalp.

Specifically, the action column 42 may have a cylindrical shape, a conical shape, or the like, which is not particularly limited in this application.

In some embodiments, the light therapeutic apparatus further comprises a light-transmitting shell disposed in the accommodating cavity, the light-transmitting shell is used for dividing the accommodating cavity into a first cavity disposed on the outer layer and a second cavity disposed on the inner layer, the light-emitting component is disposed in the first cavity, the inner shell 11 is provided with a plurality of air outlet holes 2, the second cavity is used for accommodating the cold air provided by the refrigerating device, and the cold air is blown to the scalp through the air outlet holes 2.

Therefore, after the user wears the shell assembly 1, the temperature of the scalp can be reduced through the cold air, and discomfort of the user caused by overhigh scalp temperature in the light treatment process is avoided.

In some embodiments, the light emitting assembly may be detachably connected to the light-transmitting shell.

In some embodiments, as shown in fig. 4 and 9, the toggle body 41 is further provided with ventilation holes 43 between the plurality of action posts 42, and the ventilation holes 43 are communicated with a portion of the air outlet holes 2 on the inner case 11, so that the cool air discharged from the portion of the air outlet holes 2 can be blown toward the scalp through the ventilation holes 43.

In this way, after the user wears the housing assembly 1, cool air can be sequentially discharged toward the scalp of the corresponding temporal lobe through the air outlet holes 2 and the air holes 43 to effectively reduce the temperature of the scalp of the corresponding location.

Specifically, the inner side of the inner case 11 has a covering area covered by the toggle body 41, and the air outlet holes 2 located in the covering area are the above-mentioned partial air outlet holes 2 communicating with the air holes 43, so that the cool air discharged from the air outlet holes 2 located in the covering area can be blown toward the scalp through the air holes 43.

In some embodiments, as shown in fig. 4, 5 and 10, the outer edge of the toggle body 41 is bent inwards to form a bent portion 44, and the bent portion 44 is connected to the inner side of the inner shell 11 and forms a separation space between the toggle body 41 and the inner side of the inner shell 11. The above-mentioned spacing chamber can be formed by inwards bending the outer edge of the poking body 41 to form the above-mentioned bending part, so that the second poking assembly 4 does not need to add other structural members, and the rationality of structural design is increased.

Moreover, when the poking body 41 is extruded, the bending part 44 plays a certain supporting role, so that the second poking assembly 4 cannot be greatly deformed as a whole when the shell assembly 1 is worn, and the second poking assembly 4 is beneficial to poking hair. In addition, through setting up the portion of bending 44 can make stir the body 41 and set up the one side of action post 42 and protruding towards the head direction, the cooperation is stirred the setting of bleeder vent 43 on the body 41 for stir the body 41 when wearing the casing subassembly 1 and receive the extrusion, stir the body 41 this face and can have great deformation space, can promote the comfort level when improving the effect of dialling, can not make action post 42 and scalp hard contact, avoid producing the condition emergence of the sense of pressure pain.

Further, through setting up the compartment between stirring the medial surface of body 41 and inner shell 11, can be after stirring body 41 receives the head extrusion, for stirring body 41 and provide sufficient deformation space to stirring body 41 on the action post 42 can be along with stirring body 41's deformation, to the direction motion of compartment place, avoided stirring body 41 on action post 42 with great power apply on the scalp, arouse user's discomfort. Meanwhile, after the poking body 41 made of elastic materials is extruded, acting force for stably inserting the poking body into the hairs can be applied to the acting column 42, so that the effect of inserting the acting column 42 into the hairs and poking the hairs is ensured. In addition, the above-mentioned setting of compartment can also guarantee that the user still can keep certain distance with the medial surface of inner shell 11 after wearing shell assembly 1 extrusion temporal lobe to stir body 41 for the adjacent head of user of the cold air that refrigeration device produced can diffuse, in order to realize for the head cooling of user.

Specifically, the outer edge of the toggle body 41 may be partially or entirely bent inward to form the bent portion 44, and the outer edge of the toggle body 41 shown in fig. 10 is entirely bent inward to form the bent portion 44, which is not particularly limited in this application.

Specifically, the above-described bent portion 44 is formed with a plurality of connection blocks on a side facing the inner case 11, and the bent portion 44 is detachably connected to an inner side surface of the inner case 11 through the plurality of connection blocks.

In some embodiments, the striking body 41 is made of an elastic material, and a space is formed between the striking body 41 and the inner shell 11, and the striking body 41 is pressed against the inner shell 11 by the head when worn. After the poking body 41 made of elastic materials is extruded, acting force for stably inserting the poking body 41 between hairs can be applied to the acting column 42, the effect of inserting the acting column 42 into the hairs and poking the hairs is guaranteed, the transcranial light emitted by the light-emitting component can irradiate onto scalp of a patient more and penetrate through skull to treat temporal lobes, the problem of low light transmission rate caused by shielding of the hairs is effectively solved, and therefore the treatment effect of the light treatment equipment for brain function related diseases is improved.

Specifically, the size range of the interval between the poking body 41 and the inner shell 11 can be 15mm to 20mm, so that after the user wears the shell assembly 1 to squeeze the temporal lobe, the poking body 41 can still keep a certain distance with the inner shell 11, so that cold air can be diffused near the head of the user, the head of the user is cooled, the poking body 41 cannot be squeezed by the inner shell 11, and the action column 42 on the poking body 41 is prevented from acting on the scalp with a larger force, so that discomfort of the user is caused.

In some embodiments, the light emitting assemblies are at least partially disposed corresponding to the left temporal lobe and the right temporal lobe, and the number of the second poking assemblies 4 is two, and the poking bodies 41 of the two second poking assemblies 4 cover the light emitting assemblies corresponding to the left temporal lobe and the right temporal lobe, respectively.

In some alternative embodiments, the two second hair-setting assemblies 4 may have a connection relationship, for example, the two second hair-setting assemblies 4 are connected by an arc-shaped connecting rod, a connecting rope, or the like, so as to facilitate maintaining the relative positional relationship therebetween. In some other embodiments, the two second hair pulling assemblies 4 may be disposed independently of each other so as not to interfere with each other.

In some embodiments, as shown in fig. 3, 4 and 8, portions of the plurality of reaction posts 42 are arranged in a plurality of juxtaposed arcs that, in the in-situ condition, project in the direction of the overhead. Through a plurality of action posts 42 of arc arrangement that set up side by side, can reach the effect of preferred stirring hair, do benefit to and dial out the hair, improve light propagation efficiency.

Illustratively, as shown in fig. 4 and 8, the number of arcs described above may be plural, with portions of the columns 42 in the plural being arranged along three arcs.

In some embodiments, the plurality of posts 42 are formed with a plurality of communicating hair passages in a direction intersecting the arc to cooperatively receive hair through the plurality of hair passages. Thus, the hair can be better accommodated through the plurality of communicated hair running passages, the hair can be combed, the hair can not be excessively piled up at the same position, and meanwhile, the phenomenon that the action columns 42 positioned on different arcs are staggered to cause the hair to be blocked by the action columns 42 after being stirred is avoided, so that the effect of stirring the hair is affected.

In some embodiments, the plurality of side-by-side arcs are each circular arcs, and the plurality of circular arcs are arranged concentrically. The structure is reasonable in design, and the better hair stirring effect can be achieved.

In some embodiments, as shown in fig. 3 to 5, the edge of the toggle body 41 near the forehead side of the head is configured in an arc shape. Through the arc-shaped design, the hair on two sides of the head can be contacted with the poking body 41 in a larger area in the process of wearing the shell assembly 1, so that the hair on two sides of the head can be completely covered by the poking body 41 in the process of wearing the shell assembly 1 in a rotating mode, more hairs can be combed, and a better combing effect is achieved.

In some embodiments, the toggle body 41 and the action post 42 are integrally formed, so as to ensure the relative positional relationship and the connection strength between the toggle body 41 and the action post 42, and facilitate the processing and production.

In some embodiments, the space between the end of the first hair-setting assembly 3 adjacent to the second hair-setting assembly 4 and the inner housing 11 accommodates a portion of the second hair-setting assembly 4 to dial hair in a covered manner via the cooperation of the first hair-setting assembly 3 and the second hair-setting assembly 4. In this way, the hair at the hairline can be stirred by matching the first hair stirring component 3 and the second hair stirring component 4, so that the situation that the hair at the hairline cannot be stirred effectively is avoided.

Specifically, the end of the first hair-setting assembly 3 near the second hair-setting assembly 4 may be understood as the intersection of the first hair-setting portion 31 and the connecting member 33.

In some embodiments, the elasticity of the material used by the second hair-setting element 4 is greater than the elasticity of the material used by the first hair-setting element 3, and when the second hair-setting element 4 is turned from the tilted state to the in-position state, the second hair-setting element 4 is closer to the scalp than the first hair-setting element 3, and the action post 42 on the second hair-setting element 4 may abut against the scalp, so that setting the elasticity of the material used by the second hair-setting element 4 to be greater than the elasticity of the material used by the first hair-setting element 3 can ensure the comfort of the user, while the first hair-setting element 3 needs to use a material with a slightly greater elasticity to press the hair to the scalp, thereby preventing the hair from spreading.

In some embodiments, the plurality of light emitting assemblies simultaneously emit transcranial light to the forehead and left and right temporal lobes of the head at an average power density of at least greater than 60mW/cm2.

In some other embodiments, the plurality of light emitting components may emit transcranial light having an average power density of at least greater than 60mW/cm2 to the forehead lobe and/or left and right temporal lobes, respectively, of the head.

In some embodiments, the brain function related disorder includes at least one of depression, cognitive dysfunction, autism, and alzheimer's disease.

In a specific embodiment, when the light treatment apparatus is used for treating depression or cognitive disorders, the light emitting assembly is configured to simultaneously emit transcranial light to the forehead and the left and right temporal lobes, which may be in a pulsed mode.

The embodiment of the application also provides a light therapy system for brain function related diseases, the light therapy system comprises the light therapy equipment for brain function related diseases, and the light therapy system further comprises a refrigeration device for providing cold air for the inside of the shell assembly so as to cool the head of a user. The light treatment system adopting the light treatment equipment can be used for poking the hair corresponding to the forehead and the temporal lobes during light treatment through the first poking component 3 arranged close to the top of the inner shell 11 and the second poking component 4 arranged corresponding to the temporal lobes of the head, so that the light irradiation to the scalp of a patient through cranium is facilitated, the problem of low light transmission rate caused by the shielding of the hair is effectively solved, and the treatment effect of the light treatment equipment for brain function related diseases is improved.

The light treatment system adopting the light treatment equipment can conveniently dial the hair corresponding to the forehead and the temporal lobes through the rotary wearing process during light treatment by the first dialing component 3 arranged close to the top of the inner shell 11 and the second dialing component 4 arranged corresponding to the temporal lobes of the head, so that the transcranial light emitted by the light-emitting component can irradiate the scalp of a patient more and penetrate the skull to carry out light treatment on brain function diseases related to the forehead and the temporal lobes, the problem of low light transmission rate caused by the shielding of the hair is effectively solved, and the treatment effect of the light treatment equipment for brain function related diseases is improved. Moreover, the light therapy device has a simple structure, the first and second hair pulling parts 31 and 32 are arranged on the inner side surface of the inner shell 11, and can achieve hair pulling in the process of wearing the light therapy device, a user does not need to perform additional manual operation, and the hair pulling effect is good. Compared with a hair poking device which needs to realize hair poking by means of the force of the head, the hair poking device has the advantages that hair poking is realized by the first poking part 31 and the second poking part 32 which are not directly propped against the head, so that the comfort of a user is effectively improved, and the problem of discomfort of the head is avoided. The hair corresponding to the forehead leaf is understood to be the hair on the scalp corresponding to the forehead leaf on the head, and the hair corresponding to the temporal leaf is understood to be the hair on the scalp corresponding to the left temporal leaf and/or the right temporal leaf on the head.

In some alternative embodiments, the cooling device may specifically provide cool air for the second chamber, and the cool air is discharged through the air outlet hole 2 on the inner shell 11 to cool the scalp.

In some embodiments, the temperature of the cool air blown out by the cooling device is configured such that the temperature near the scalp of the user is not higher than 43 degrees celsius in the case that the wind speed near the scalp ranges from 0m/s to 5m/s, so as to ensure the comfort and safety of the head of the user.

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. 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 present application, which examples are to be construed as non-exclusive. It is intended, therefore, that the specification and examples be considered as exemplary only, with a true scope and spirit being indicated by the following claims and their full scope of equivalents.

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, the subject matter of the present application is capable of less than all of the 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 may be made to the present application by those skilled in the art, which modifications and equivalents are also considered to be within the scope of the present application.

Claims (17)

1. A light therapy apparatus for brain function-related diseases, comprising:

a housing assembly to be worn on the head in a manner to be turned from a tilted state to a seated state, the housing assembly including an inner housing, an outer housing covering the outer housing, and a receiving chamber defined by the inner housing and the outer housing;

a light emitting assembly disposed within the receiving cavity and configured to emit transcranial light to act on at least the forehead and temporal lobes of the head;

the first hair poking assembly is arranged on one side, far away from the outer shell, of the inner shell and is close to the top of the inner shell, the first hair poking assembly at least comprises a first hair poking part and a second hair poking part, the first hair poking part and the second hair poking part are arranged around part of the head, the second hair poking part is close to the top of the head relative to the first hair poking part, the second hair poking part is configured to move from a position pressed against the scalp to a position far away from the scalp during wearing so as to pick up the hair after the hair poking, and the first hair poking part is configured to move from a position corresponding to the forehead and far away from the scalp to a position pressed against the scalp during wearing so that the first hair poking part is pressed against the hair close to the forehead in a put-in-place state;

The hair setting device comprises a shell, a first hair setting component, a second hair setting component and a light emitting component, wherein the shell is arranged on the shell, the first hair setting component is arranged on the shell, is far away from one side of the shell and corresponds to the temporal lobe setting of the head and is used for setting hair at a corresponding position when being worn, the first hair setting component comprises a setting body, a plurality of action columns are arranged on the setting body, the setting body and the action columns are made of light-transmitting materials, the action columns are used for setting hair at the temporal lobe position corresponding to left and right sides when being worn, and transcranial light emitted by the light emitting component is guided to the head.

2. The light therapy apparatus for brain function related diseases according to claim 1, wherein the first hair-pulling assembly further comprises a connector, the first hair-pulling portion and the second hair-pulling portion being connected by at least one of the connectors, the connector being adapted to press hair in cooperation with the first hair-pulling portion and the second hair-pulling portion.

3. The light therapy apparatus for brain function-related diseases according to claim 2, wherein the plurality of connection members are provided in parallel between the first and second hair-shifting portions.

4. The light therapy apparatus for brain function related diseases according to claim 2, wherein the first hair-pulling assembly further comprises a third hair-pulling portion, the third hair-pulling portion being closer to the crown than the second hair-pulling portion, the third hair-pulling portion being configured to be worn progressively farther from the crown to retract hair pulled through the first hair-pulling assembly.

5. The light therapy apparatus for brain function related diseases according to claim 4, wherein the connection member extends in a direction in which the third hair-pulling portion is located, so that the second hair-pulling portion is connected to the third hair-pulling portion through the connection member.

6. The light therapy apparatus for brain function related diseases according to claim 1, wherein the first and second hair-shifting portions are each made of an elastic material, and a deformable space is provided between the first hair-shifting assembly and the inner case to deform the first and second hair-shifting portions when the first and second hair-shifting portions are pressed by the head.

7. The light therapy apparatus for brain function-related diseases according to claim 1, further comprising a light-transmitting case provided in the accommodation chamber for dividing the accommodation chamber into a first chamber at an outer layer and a second chamber at an inner layer, the light-emitting assembly being provided in the first chamber, the inner case being provided with a plurality of air outlet holes, the second chamber for accommodating cold air supplied via a cooling device, the cold air being blown toward the scalp via the air outlet holes.

8. The light therapy apparatus for brain function related diseases according to claim 7, wherein the toggle body is further provided with ventilation holes between the plurality of action posts, the ventilation holes being in communication with a portion of the air outlet holes of the inner case so that cold air discharged from the portion of the air outlet holes can be blown toward the scalp through the ventilation holes.

9. The light therapy apparatus for brain function related diseases according to claim 1, wherein the toggle body is made of an elastic material, and a space is formed between the toggle body and the inner housing, and the toggle body is pressed against the inner housing by a head when being worn.

10. The light therapy apparatus for brain function related diseases according to claim 1, wherein the number of the second dial-out assemblies is two, and the dial-out bodies of the two second dial-out assemblies cover the light-emitting assemblies corresponding to the left temporal lobe and the right temporal lobe, respectively.

11. The light therapy apparatus for brain function-related diseases according to claim 1, wherein the portions of the plurality of action posts are arranged in a plurality of juxtaposed arcs which are convex in the direction of the vertex in the seated state.

12. The light therapy apparatus for brain function related diseases according to claim 1, wherein a space between an end of the first hair-setting member adjacent to the second hair-setting member and the inner case accommodates a portion of the second hair-setting member to dial hair in a covered manner via cooperation of the first hair-setting member and the second hair-setting member.

13. The light therapy apparatus for brain function related diseases according to claim 1, wherein the elasticity of the material used for the second hair-shifting element is greater than the elasticity of the material used for the first hair-shifting element.

14. A light therapy device for brain function related diseases according to claim 1, wherein the average power density of transcranial light emitted by a plurality of said light emitting assemblies simultaneously to the forehead and left and right temporal lobes of the head is at least greater than 60mW/cm2.

15. The light therapy apparatus for brain function related diseases according to claim 1, wherein said brain function related diseases include at least one of depression, cognitive disorder, autism, alzheimer's disease.

16. A light therapy system for brain function related diseases, comprising a light therapy device according to any one of claims 1-15, further comprising a cooling means for providing cool air to the interior of the housing assembly for cooling the head of a user.

17. The light therapy system for brain function related diseases according to claim 16, wherein the temperature of the cold air blown out by the cooling device is configured such that the temperature near the scalp of the user is not higher than 43 degrees celsius in a case where the wind speed near the scalp ranges from 0m/s to 5 m/s.

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