CN219071848U - Experimental platform for treating Alzheimer's disease - Google Patents

Abstract

The application provides an experimental platform for treating Alzheimer's disease, which comprises a helmet, an irradiation assembly and a control module; the helmet is used for being worn on the head of a human body, the inner side of the helmet is matched with the outline of the head of the human body, and when the head of the human body is worn on the head of the human body, the inner side of the helmet is surrounded outside the head of the human body; the irradiation assembly comprises a plurality of first irradiation pieces which are arranged at intervals on the inner side of the helmet, and the plurality of first irradiation pieces are arranged in parallel and used for respectively irradiating different positions of the head; the first irradiation parts are arranged at different positions on the inner side of the helmet. The first irradiation parts are provided with at least two irradiation probes which are arranged at intervals, at least two irradiation probes on each first irradiation part are arranged in parallel and are different in type, and the first irradiation parts irradiate the head of a human body through the irradiation probes on the first irradiation parts; the irradiation probe is arranged towards the inner side of the helmet, when the helmet is worn on the head of a human body, the irradiation probe faces towards the head of the human body, the first irradiation piece can irradiate the head of the human body through the irradiation probe, and the control module is used for controlling the working state of the irradiation probe.

Description

Experimental platform for treating Alzheimer's disease

Technical Field

The application belongs to the technical field of medical equipment, and particularly relates to an experimental platform for treating Alzheimer's disease.

Background

At present, alzheimer disease is generally treated by adopting medicines, but the medicine treatment has larger side effect and limited treatment effect. Thus, physical therapy methods capable of producing beneficial effects for the treatment of Alzheimer's disease have emerged in recent years.

The physical therapy mainly irradiates the brain through an irradiation source so as to change certain parameters in the brain, thereby inhibiting the decline of the cognitive ability of the human body. In the process of research, researchers are usually required to continuously adjust the irradiation position, irradiation source parameters, irradiation source types and the like of an irradiation source, so that the irradiation source position needs to be continuously adjusted, irradiation source equipment needs to be replaced, parameters and results are recorded, time and effort are wasted, and errors are easy to occur.

Disclosure of Invention

An aim of the embodiment of the application is to provide an experimental platform for treating Alzheimer's disease, so as to solve the technical problems that the time and the labor are wasted and errors are easy to occur when the irradiation source is adjusted in the prior art.

In order to achieve the above purpose, the technical scheme adopted in the application is as follows: an experimental platform for treating alzheimer's disease is provided, which is characterized by comprising:

a helmet for wearing on the head;

the irradiation assembly comprises a plurality of first irradiation pieces which are arranged at intervals on the inner side of the helmet, and the first irradiation pieces are arranged in parallel and used for respectively irradiating different positions of the head; the first irradiation piece is provided with at least two irradiation probes which are of different types and are connected in parallel, and the first irradiation piece irradiates the head through the irradiation probes;

and the control module is used for controlling the working state of the irradiation probe.

Optionally, the first irradiation piece has three different types of the irradiation probes, and the three irradiation probes are an LED probe, an ultrasonic probe and an electromagnetic coil probe respectively.

Optionally, the helmet comprises an outer shell and an inner shell arranged on the inner side of the outer shell, the first irradiation piece further comprises a main body part, and the irradiation probe is arranged on the main body part; the main body part is arranged on the inner shell, and at least part of the irradiation probe is exposed to one side of the inner shell, which is opposite to the outer shell.

Optionally, the housing is provided with at least two wire passing holes distributed at intervals, and the number of the wire passing holes is the same as that of the irradiation probes on each first irradiation piece and is correspondingly set; the wire passing holes are used for allowing cables to pass through, and the cables passing through the wire passing holes are used for connecting the corresponding irradiation probes with the corresponding external irradiation sources;

or, the shell is provided with at least two sockets which are distributed at intervals, and the number of the sockets is the same as that of the irradiation probes on each first irradiation piece and is correspondingly arranged; the cables on the sockets are connected with the corresponding irradiation probes, and the sockets are used for being connected with corresponding external irradiation sources.

Optionally, the first irradiation part further includes at least two connectors disposed on the main body at intervals, the number of the connectors is the same as that of the irradiation probes and the connectors are disposed correspondingly, and each connector is used for connecting a corresponding cable.

Optionally, the connector includes a first plug portion and a second plug portion, the first plug portion is disposed on the main body portion, the first plug portion and the second plug portion are in plug-in fit to form a connection, and the second plug portion is used for connecting the cable.

Optionally, the main body portion is detachably connected to the inner housing.

Optionally, the shell is provided with a plurality of heat dissipation holes distributed at intervals.

Optionally, a plurality of heat dissipation fans are arranged on the shell at intervals.

Optionally, the helmet further comprises an eye shield arranged on the helmet, the irradiation assembly further comprises a second irradiation piece electrically connected to the control module, and the second irradiation piece is arranged on one side of the eye shield, which is used for contacting with eyes.

The experimental platform for treating Alzheimer's disease has the beneficial effects that: compared with the prior art, the experimental platform for treating the Alzheimer's disease is characterized in that the inner side of the helmet is provided with the plurality of first irradiation parts which are arranged in parallel, and the control module is used for controlling the working state of the irradiation probes on the first irradiation parts, so that the first irradiation parts at different positions can be independently controlled to be opened or closed by the control module so as to irradiate the different positions of the head of a human body, thereby realizing the accurate irradiation of the specific positions of the head of the human body according to actual conditions without additionally adjusting the positions of irradiation source equipment; in addition, the first irradiation part is provided with at least two irradiation probes which are of different types and are arranged in parallel, so that the control module can select different types of irradiation probes to irradiate so as to realize irradiation work of different irradiation sources, different irradiation source equipment is not required to be replaced, time is saved, and the possibility of error occurrence is reduced; besides, parameters of the irradiation probe can be adjusted through the control module, and the irradiation probe is convenient to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a perspective view of an experimental platform for treating alzheimer's disease according to an embodiment of the present application;

fig. 2 is a bottom view of an experimental platform for treating alzheimer's disease according to an embodiment of the present application;

FIG. 3 is an enlarged view of FIG. 2 at A;

fig. 4 is a perspective view of an irradiation assembly of an experimental platform for treating alzheimer's disease according to an embodiment of the present application;

fig. 5 is a cross-sectional view of an irradiation assembly of an experimental platform for treating alzheimer's disease according to an embodiment of the present application;

fig. 6 is an enlarged view at B in fig. 5.

Wherein, each reference sign in the figure:

1. a helmet; 11. a housing; 111. a wire through hole; 112. a heat radiation hole; 113. a heat radiation fan; 12. an inner case; 13. an eye shield;

2. an illumination assembly; 21. a first irradiation member; 211. irradiating the probe; 211a, an LED probe; 211b, an ultrasonic probe; 211c, electromagnetic coil probes; 212. a main body portion; 213. a connecting piece; 2131. a first plug-in connection; 21311. a rod; 21312. a first conductive contact; 2132. a second plug-in connection; 21321. a plug-in groove; 21322. and a second conductive contact.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved by the present application more clear, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and simplify description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Based on this, the embodiment of the utility model provides an experimental platform for treating Alzheimer's disease, which can integrate different types of radiation source probes into a whole, and when the radiation source position, radiation source parameters, radiation source types and the like need to be adjusted, different types of devices do not need to be replaced.

Example 1

As shown in fig. 1 to 2, an experimental platform for treating alzheimer's disease provided in an embodiment of the present application includes a helmet 1, an illumination assembly 2, and a control module (not shown in the figures); the helmet 1 is used for being worn on the head of a human body, and the inner side of the helmet 1 is matched with the outline of the head of the human body, when the helmet 1 is worn on the head of the human body, the inner side of the helmet 1 is surrounded outside the head of the human body; the irradiation assembly 2 comprises a plurality of first irradiation pieces 21 which are arranged at intervals on the inner side of the helmet 1, wherein the plurality of first irradiation pieces 21 are arranged in parallel and are used for respectively irradiating different positions of the head; it will be appreciated that the plurality of first illuminating members 21 are disposed at different positions inside the helmet 1. The first irradiation pieces 21 are provided with at least two irradiation probes 211 which are arranged at intervals, at least two irradiation probes 211 on each first irradiation piece 21 are arranged in parallel and are different in type, and the first irradiation pieces 21 irradiate the head of a human body through the irradiation probes 211 on the first irradiation pieces; here, the irradiation probe 211 is disposed toward the inner side of the helmet 1, when the helmet 1 is worn on the head of the human body, the irradiation probe 211 faces the head of the human body, the first irradiation member 21 can irradiate the head of the human body through the irradiation probe 211 thereon, and the control module is used for controlling the operation state of the irradiation probe 211.

It should be noted that, at least two irradiation probes 211 on each first irradiation element 21 are arranged in parallel and are different in type, based on this, the control module can individually control each irradiation probe 211 on each first irradiation element 21 to be turned on or off, so that each first irradiation element 21 can perform irradiation work by adopting different types of irradiation probes 211 under the control of the control module; it should be noted that the plurality of first irradiation members 21 are arranged in parallel, and based on this, the control module can individually control each first irradiation member 21 so that the first irradiation members 21 at different positions can perform irradiation work.

Specifically, when the helmet type therapeutic apparatus is used, at least two different types of external irradiation sources are arranged, the number of the external irradiation sources is the same as the number of the irradiation probes 211 on each first irradiation piece 21 and corresponds to one another, the external irradiation sources are connected to each first irradiation piece 21, the helmet 1 is worn on the head of a human body, so that the irradiation probes 211 of all the first irradiation pieces 21 face the head of the human body, and then all the first irradiation pieces 21 can irradiate different positions of the head of the human body through the irradiation probes 211 on the helmet type therapeutic apparatus; when any external irradiation source is operated, the first irradiation element 21 irradiates the head of the human body through the irradiation probe 211 corresponding to the external irradiation source, wherein each external irradiation source corresponds to each irradiation probe 211 on each first irradiation element 21 one by one.

Here, the type of the irradiation probe 211 may be an LED probe 211a, an ultrasonic probe 211b, an electromagnetic coil probe 211c, or other types, and when the irradiation probe 211 is an LED probe 211a, an external irradiation source corresponding to the irradiation probe 211 is an LED emission source; when the irradiation probe 211 is an ultrasonic probe 211b, an external irradiation source corresponding to the irradiation probe 211 corresponds to an ultrasonic emission source; when the irradiation probe 211 is the electromagnetic coil probe 211c, an external irradiation source corresponding to the irradiation probe 211 corresponds to an electromagnetic emission source.

It should be noted that, when the irradiation probe 211 is the LED probe 211a, the first irradiation piece 21 irradiates the head of the human body through the LED probe 211a, and at this time, the brain wave of gamma oscillation can be excited to help the brain inhibit the generation of the amyloid β by using the LED light with specific frequency, and meanwhile, the activity of cells capable of expelling the plaque can be excited, so that the amyloid β in the visual cortex can be greatly reduced; when the irradiation probe 211 is the ultrasonic probe 211b, the first irradiation member 21 irradiates the head of the human body by ultrasonic waves, at this time, accumulated amyloid β can be reduced by ultrasonic waves, and the decline of cognitive ability can be suppressed, and in addition, the ultrasonic treatment can stimulate micro blood vessels in the whole brain; when the irradiation probe 211 is the electromagnetic coil probe 211c, the first irradiation element 21 irradiates the head of the human body through the electromagnetic coil probe 211c, and at this time, the generation of amyloid β can be suppressed by the electromagnetic radiation emitted from the electromagnetic coil probe 211c.

Compared with the prior art, the experimental platform for treating Alzheimer's disease provided by the application has the advantages that the inner side of the helmet 1 is provided with the plurality of first irradiation parts 21 which are arranged in parallel, and the control module is used for controlling the working state of the irradiation probes 211 on the first irradiation parts 21, so that the first irradiation parts 21 at different positions can be independently controlled to be opened or closed by the control module so as to irradiate different positions of the head of a human body, thereby realizing the accurate irradiation of the specific position of the head of the human body according to actual conditions without additionally adjusting the position of irradiation source equipment; in addition, the first irradiation piece 21 is provided with at least two irradiation probes 211 which are of different types and are arranged in parallel, so that irradiation can be performed by selecting different types of irradiation probes 211 through the control module, irradiation work of different irradiation sources is realized, different irradiation source equipment is not required to be replaced, time is saved, and the possibility of error occurrence is reduced; in addition, the parameters of the illumination probe 211 can be adjusted by the control module, so that the illumination device is convenient to use.

The control module is electrically connected to an external console, terminal equipment, or remote controller, etc., and is operated to control the control module, thereby realizing that the working state of the irradiation probe 211 is controlled from the external console, terminal equipment, or remote controller.

Optionally, the control module is provided with a communication module, and the communication module is used for being in communication connection with the terminal equipment.

So set up, the user can control the control module through terminal equipment or corresponding app to carry out remote control and shine the operating condition of probe 211, convenient to use.

Optionally, an audio module electrically connected to the control module is also provided within the helmet 1.

So set up, through audio module output pronunciation, when shining through the control module select different kind shine probe 211, control be in the different positions on shine probe 211 open or close and go on the parameter adjustment of shining probe 211 in-process, can carry out the voice broadcast.

Optionally, the helmet 1 is further provided with a code-scanning payment device electrically connected to the control module.

When code scanning payment is not performed, at least N-1 first irradiation pieces 21 are in a power-off state, the rest first irradiation pieces 21 are in a power-on state, and the first irradiation pieces 21 in the power-on state can irradiate the head of a human body through the irradiation probe 211 so as to be experienced by a user; after the code scanning payment, the code scanning payment device transmits a payment signal to the control module, and the control module controls all the first irradiation parts 21 to be switched into the power-on state, so that the device can be used normally.

In another embodiment of the present application, referring to fig. 3, the first irradiator 21 has three different types of irradiation probes 211, and the three irradiation probes 211 are an LED probe 211a, an ultrasonic probe 211b, and an electromagnetic coil probe 211c, respectively.

Specifically, the three irradiation probes 211 are respectively connected to different kinds of external irradiation sources, wherein the LED probe 211a is connected to an LED emission source, the ultrasonic probe 211b is connected to an ultrasonic emission source, and the electromagnetic coil probe 211c is connected to an electromagnetic emission source.

So set up, can be in the same irradiation position department of human head, change the irradiation probe 211 of different kinds and shine, need not to change equipment, convenient to use.

In another embodiment of the present application, referring to fig. 1, 2 and 3, the helmet 1 includes an outer shell 11 and an inner shell 12 disposed inside the outer shell 11, the first irradiation part 21 further includes a main body 212, and the irradiation probe 211 is disposed on the main body 212; the main body 212 is disposed on the inner housing 12, and at least a portion of the irradiation probe 211 is exposed to a side of the inner housing 12 facing away from the outer housing 11.

Here, the plurality of body portions 212 are arranged in parallel; the control module is electrically connected to the main body 212, so that the working state of the irradiation probe 211 thereon is controlled by the main body 212; a clearance hole is formed in one side of the inner shell 12, which is away from the outer shell 11, so that an irradiation probe 211 partially exposed to one side of the inner shell 12, which is away from the outer shell 11, is accommodated in the clearance hole; in addition, the inner case 12 and the outer case 11 may enclose a receiving space in which the main body portion 212 and the partial irradiation probe 211 can be received.

In this way, the irradiation probe 211 can be connected to the external irradiation source through the main body 212, and the irradiation probe 211 can be ensured to irradiate the head of the human body, and in addition, the inner shell 12 and the first irradiation element 21 can be prevented from being damaged by collision through the outer shell 11, thereby improving the protection effect.

Alternatively, the outer shell 11 is detachably connected with the inner shell 12.

Specifically, the outer shell 11 and the inner shell 12 may be connected by means of a snap fit, a bolt, or the like.

So arranged, when the irradiation assembly 2 arranged on the inner shell 12 and the control module arranged in the helmet 1 need to be maintained and replaced, the maintenance is facilitated by detachable connection; in addition, when the helmet 1 is damaged, the components can be recycled.

In another embodiment of the present application, referring to fig. 1, a housing 11 is provided with at least two via holes 111 distributed at intervals, and the number of the via holes 111 is the same as the number of the irradiation probes 211 on each first irradiation element 21 and is correspondingly set; the via holes 111 are used for passing cables, and the cables passing through each via hole 111 are used for connecting the corresponding irradiation probe 211 with the corresponding external irradiation source.

Specifically, the irradiation probe 211 is connected to an external irradiation source through a cable.

So set up, can place the wire that links to each other with main part 212 in the wire hole 111, prevent that the too much intertwine of wire from causing the damage to the wire, and handsome in appearance.

Optionally, the irradiation probe 211 can also be in communication with an external irradiation source through the body portion 212.

In another embodiment of the present application, referring to fig. 3 and fig. 4 together, the first irradiation part 21 further includes at least two connecting parts 213 disposed on the main body 212 at intervals, the number of the connecting parts 213 is the same as that of the irradiation probes 211 and the connecting parts 213 are correspondingly disposed, and each connecting part 213 is used for connecting a corresponding cable.

Specifically, the three irradiation probes 211 are LED probe 211a, ultrasonic probe 211b and electromagnetic coil probe 211c, respectively, so the corresponding cables on the connector 213 are LED probe 211a cable, ultrasonic probe 211b cable and electromagnetic coil cable which are connected with the LED probe 211a, respectively, and the connector 213 is disposed in the accommodation space between the outer case 11 and the inner case 12.

So arranged, the first illuminating member 21 is capable of communicating with an external emission source through the connecting member 213.

In another embodiment of the present application, referring to fig. 5 and 6, the connecting piece 213 includes a first plugging portion 2131 and a second plugging portion 2132, the first plugging portion 2131 is disposed on the main body 212, and the first plugging portion 2131 is plugged with the second plugging portion 2132 to form a connection, and the second plugging portion 2132 is used for connecting a cable.

Specifically, the first plugging portion 2131 is provided with a plugging rod 21311, the second plugging portion 2132 is provided with a plugging groove 21321, the plugging rod 21311 is in plug-in fit with the plugging groove 21321, the plugging rod 21311 is provided with a first conductive contact 21312, the plugging groove 21321 is provided with a second conductive contact 21322 contacting the first conductive contact 21312, and the first conductive contact 21312 and the second conductive contact 21322 contact to form a conductive circuit.

By the arrangement, each irradiation probe 211 can be communicated with an external emission source through the cooperation between the first plug-in part 2131 and the second plug-in part 2132, and can irradiate the head of a human body by using different irradiation sources, so that the use is convenient; in addition, during maintenance, the outer housing 11 can be detached from the inner housing 12, and then the first plug portion 2131 and the second plug portion 2132 are separated, so that the cable connected to the second plug portion 2132 is prevented from being pulled out during the process of separating the first plug portion 2131 and the second plug portion 2132, thereby facilitating maintenance, and during installation, the first plug portion 2131 and the second plug portion 2132 are conveniently installed in alignment by the cooperation between the plug rod 21311 and the plug groove 21321.

Alternatively, the first plug 2131 is provided on a side of the outer shell 11 facing the inner shell 12.

In another embodiment of the present application, the body portion 212 is removably coupled to the inner housing 12.

Specifically, the main body 212 is connected to the inner case 12 by a snap fit or the like.

So set up, when local one or more first irradiation piece 21 damages, through dismantling the connection, can take off the first irradiation piece 21 that damages from inner shell 12 and change, need not to change all first irradiation piece 21, reduce maintenance cost, be convenient for maintain and installation.

In another embodiment of the present application, referring to fig. 1, a plurality of heat dissipation holes 112 are formed in the housing 11 at intervals.

So set up, set up a plurality of louvre 112 in the position department of corresponding human head hindbrain on shell 11, can dispel the heat through louvre 112's effect illuminating component 2 and control module, can prevent illuminating component 2 and control system overheat damage, and then extension illuminating component 2 and control module's life.

In another embodiment of the present application, referring to fig. 1, a plurality of heat dissipation fans 113 are disposed on the housing 11 at intervals.

So set up, through the effect of louvre 112 and radiator fan 113, can be in the irradiation process for the air circulation speed between shell 11 and the inner shell 12, and then can take away the heat that irradiates subassembly 2 and control module produced in the course of the work, cool off illuminating subassembly 2 and control system, can prevent to shine subassembly 2 and control module overheat damage, and then prolonged the life who shines subassembly 2 and control module.

In another embodiment of the present application, referring to fig. 1, the helmet 1 further includes an eye shield 13 disposed on the helmet 1, and the illumination assembly 2 further includes a second illumination member (not shown) electrically connected to the control module, wherein the second illumination member is disposed on a side of the eye shield 13 for contacting the eyes.

Specifically, the second irradiation element has the same specific structure as the first irradiation element 21, please refer to the specific structure of the first irradiation element 21 for setting; in addition, the control module can also control the working state of the second irradiation piece.

By arranging the irradiation assembly 2 on the eyeshade 13, the eye part of the human body can be irradiated, the use is convenient, and in addition, the treatment effect can be improved.

Example two

This embodiment is substantially the same as embodiment one, except that: at least two sockets (not shown) which are distributed at intervals are arranged on the shell 11, and the number of the sockets is the same as that of the irradiation probes 211 on each first irradiation piece 21 and is correspondingly arranged; the cables on each receptacle are connected to a corresponding illumination probe 211 and each receptacle is for connection to a corresponding external illumination source.

Specifically, in this embodiment, the sockets are described by taking three sockets as an example, so that the number of the sockets is three for connecting the sockets with an external irradiation source and for matching with the sockets, and the three sockets are correspondingly connected with the three different types of irradiation probes 211 one by one; the three irradiation probes 211 are respectively connected with external irradiation sources of different types, wherein the irradiation probes 211 can be arranged as an LED probe 211a, an ultrasonic probe 211b and an electromagnetic coil probe 211c, so that one of the three sockets is arranged as an LED irradiation source wire loop female seat, the other socket is arranged as an ultrasonic irradiation source wire loop female seat, one of the three connection seats is arranged as an LED irradiation source wire loop male seat, the other socket is arranged as an ultrasonic irradiation source wire loop male seat, the other socket is arranged as an electromagnetic coil irradiation source wire loop male seat, the LED probe 211a is communicated with the LED irradiation source wire loop male seat through the LED irradiation source wire loop female seat, the LED irradiation source wire loop male seat is communicated with an external LED emission source, the ultrasonic probe 211b is communicated with the ultrasonic irradiation source wire loop male seat through the ultrasonic irradiation source wire loop female seat, the electromagnetic coil probe 211c is communicated with the electromagnetic coil irradiation source wire loop male seat through the electromagnetic coil wire loop female seat, and the electromagnetic coil irradiation source wire loop male seat is communicated with the external ultrasonic emission source.

So set up, through setting up the socket on shell 11, can all be connected with the socket with the one end that is used for connecting keeping away from irradiation probe 211 on the wire of same kind irradiation probe 211, can prevent that the wire from directly exposing in the outside, improve the protective effect to the wire, can helmet 1 can be connected with outside irradiation source through the mode of pegging graft simultaneously, when not needing to use, be convenient for separate helmet 1 and outside irradiation source, be convenient for accomodate.

The foregoing description of the preferred embodiments of the present application is not intended to be limiting, but is intended to cover any and all modifications, equivalents, and alternatives falling within the spirit and principles of the present application.

Claims (10)

1. An experimental platform for treating alzheimer's disease, comprising:

a helmet for wearing on the head;

the irradiation assembly comprises a plurality of first irradiation pieces which are arranged at intervals on the inner side of the helmet, and the first irradiation pieces are arranged in parallel and used for respectively irradiating different positions of the head; the first irradiation piece is provided with at least two irradiation probes which are of different types and are connected in parallel, and the first irradiation piece irradiates the head through the irradiation probes;

and the control module is used for controlling the working state of the irradiation probe.

2. The experimental platform for treating alzheimer's disease according to claim 1, wherein said first radiation member has three different types of said radiation probes, said three radiation probes being LED probes, ultrasonic probes and electromagnetic coil probes, respectively.

3. The experimental platform for treating alzheimer's disease according to claim 1, wherein said helmet comprises an outer shell and an inner shell disposed inside said outer shell, said first irradiation member further comprising a main body portion, said irradiation probe being disposed on said main body portion; the main body part is arranged on the inner shell, and at least part of the irradiation probe is exposed to one side of the inner shell, which is opposite to the outer shell.

4. The experimental platform for treating alzheimer's disease according to claim 3, wherein said housing is provided with at least two spaced wire holes, the number of said wire holes being the same as and corresponding to the number of said irradiation probes on each of said first irradiation members; the wire passing holes are used for allowing cables to pass through, and the cables passing through the wire passing holes are used for connecting the corresponding irradiation probes with the corresponding external irradiation sources;

or, the shell is provided with at least two sockets which are distributed at intervals, and the number of the sockets is the same as that of the irradiation probes on each first irradiation piece and is correspondingly arranged; the cables on the sockets are connected with the corresponding irradiation probes, and the sockets are used for being connected with corresponding external irradiation sources.

5. The experimental platform for treating alzheimer's disease according to claim 4, wherein said first radiation member further comprises at least two connectors disposed on said main body at intervals, said connectors and said radiation probes being of the same number and disposed in a corresponding arrangement, each of said connectors being adapted to connect a corresponding one of said cables.

6. The experimental platform for treating alzheimer's disease according to claim 5, wherein said connector comprises a first mating portion and a second mating portion, said first mating portion being disposed on said main body portion, said first mating portion mating with said second mating portion to form a conductive path, said second mating portion being adapted to connect said cable.

7. The experimental platform for the treatment of alzheimer's disease according to claim 3, wherein said main body portion is removably attached to said inner shell.

8. The experimental platform for treating alzheimer's disease of claim 3, wherein said housing defines a plurality of spaced apart heat dissipating apertures.

9. The experimental platform for treating alzheimer's disease according to claim 8, wherein said housing is provided with a plurality of spaced apart cooling fans.

10. The experimental platform for the treatment of alzheimer's disease according to any of the claims 1-9, characterized in that said helmet further comprises an eye shield arranged on said helmet, said illumination assembly further comprising a second illumination member electrically connected to said control module, said second illumination member being arranged at a side of said eye shield for contacting the eyes.

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