CN215653453U

CN215653453U - Physical therapy instrument

Info

Publication number: CN215653453U
Application number: CN202120349550.XU
Authority: CN
Inventors: 刘杰; 张雨微
Original assignee: SKG Health Technologies Co Ltd.
Current assignee: SKG Health Technologies Co Ltd.
Priority date: 2021-02-07
Filing date: 2021-02-07
Publication date: 2022-01-28
Anticipated expiration: 2031-02-07

Abstract

The application provides a physiotherapy equipment, including casing, first physiotherapy portion, second physiotherapy portion, first spliced pole and second spliced pole. The shell is provided with a first outer surface with a cambered surface or a plane shape; the first physical therapy part and the second physical therapy part are arranged on the outer side of the shell side by side; the first connecting column and the second connecting column are respectively connected between the first physical therapy part and the shell and between the second physical therapy part and the shell; the first physical therapy part comprises a first attaching end and a second attaching end, the second physical therapy part also comprises a third attaching end and a fourth attaching end, and the first attaching end and the third attaching end are close to each other. The first fitting end is closer to the first outer surface than the second fitting end, and the third fitting end is closer to the first outer surface than the fourth fitting end. This application physiotherapy equipment sets up through the relative slope of first physiotherapy portion and second physiotherapy portion, and the arc structure of cooperation casing, can be better laminating in human body surface to reduce the radian of casing simultaneously, reduce physiotherapy equipment's whole volume.

Description

Physical therapy instrument

Technical Field

The application relates to the technical field of medical care, in particular to a physiotherapy instrument.

Background

The physiotherapy instrument is usually attached to the surface of a human body, such as the neck, the waist, the head, the eyes and the like, and forms physiotherapy effect on the human body through physical heating, electrodes, extrusion or illumination with specific wavelength and the like. In order to improve the effect of the physiotherapy instrument, the physiotherapy instrument needs to be attached to the surface of the human body as much as possible. For this reason, the shell surface of the physiotherapy instrument is usually set to be arc-shaped so as to ensure the fitting effect of the physiotherapy surface of the physiotherapy instrument and the surface of the human body.

However, the arc-shaped shell affects the internal space of the physiotherapy instrument, which is not beneficial to the arrangement of large-size components and easily causes space waste.

SUMMERY OF THE UTILITY MODEL

The application provides a less physiotherapy equipment of inner space radian on the basis of guaranteeing physiotherapy equipment's physiotherapy face and the good laminating in human surface, can also promote shell inner space utilization for physiotherapy equipment is more frivolous. The application specifically comprises the following scheme:

the application provides a physiotherapy instrument, which comprises a shell, a first physiotherapy part, a second physiotherapy part, a first connecting column and a second connecting column; the shell is provided with a first outer surface, the first outer surface is a plane or an arc surface, and when the first outer surface is the arc surface, the arc top of the first outer surface is inwards sunken towards the shell; the first physiotherapy portion and the second physiotherapy portion are arranged side by side and are arranged on the outer side of the shell at intervals relative to the first outer surface respectively, the first connecting column is connected between the first physiotherapy portion and the shell, and the second connecting column is connected between the second physiotherapy portion and the shell; the first physical therapy part also comprises a first attaching end close to the second physical therapy part and a second attaching end far away from the second physical therapy part, and the first attaching end is closer to the first outer surface than the second attaching end; the second physical therapy portion also comprises a third attaching end close to the first physical therapy portion and a fourth attaching end far away from the first physical therapy portion, and the third attaching end is closer to the first outer surface than the fourth attaching end.

Wherein, the first surface is the cambered surface, and the cambered surface radian of first surface is less than or equal to 5.

The first connecting column comprises a first connecting surface attached to the first physical therapy part, the first connecting surface comprises a first connecting end close to the first attaching end and a second connecting end close to the second attaching end, and the first connecting end is closer to the first outer surface than the second connecting end;

the second spliced pole includes that the second that laminates with second physiotherapy portion is connected the face, and the second is connected the face including the third link that is close to third laminating end to and be close to the fourth link of fourth laminating end, the third link is compared in the fourth link and is more close to first surface.

The first connecting column comprises a first fixing surface fixedly connected with the shell, and the area of the first fixing surface is larger than that of the first connecting surface;

the second connecting column comprises a second fixing surface fixedly connected with the shell, and the area of the second fixing surface is larger than that of the second connecting surface.

Wherein, first spliced pole and second spliced pole all have elasticity to make first physiotherapy portion and second physiotherapy portion can incline for first surface respectively, and be close to first surface.

Wherein, first physiotherapy portion is a plurality of, and a plurality of first physiotherapy portions set up side by side, and the direction that a plurality of first physiotherapy portions side by side direction perpendicular to first physiotherapy portion set up side by side with second physiotherapy portion.

Wherein, the casing is equipped with the inner chamber, and physiotherapy equipment still includes the circuit board, and the circuit board is acceptd in the inner chamber, and the circuit board is respectively with first physiotherapy portion and second physiotherapy portion electric connection.

The circuit board is in a flat plate shape, and the number of the circuit boards is one.

Wherein, the projections of the first physical therapy part and the second physical therapy part on the circuit board are both positioned in the area range of the circuit board.

The first connecting column comprises a first fixing part, and the first fixing part extends into the inner cavity and is fixedly connected with the circuit board;

the second connecting column comprises a second fixing part, and the second fixing part also extends into the inner cavity and is fixedly connected with the circuit board.

Wherein the housing includes a second outer surface facing away from the first outer surface, the geometric center of the circuit board being closer to the first outer surface than to the second outer surface.

The shell comprises a first shell and a second shell which are fixedly connected with each other, wherein the first outer surface is positioned on the first shell, and the second outer surface is positioned on the second shell.

Wherein, the second surface also is the cambered surface, and the arc top of second surface cambered surface deviates from the casing and outwards extrudes, and the cambered surface radian of second surface is greater than the cambered surface radian of first surface.

The second outer surface is also provided with a first plane, and the first plane is parallel to the circuit board and is positioned at the geometric center of the second outer surface.

The circuit board is provided with at least one light-emitting piece, the light-emitting piece is positioned on one side of the circuit board facing to the first outer surface, a light-transmitting area is arranged on the first outer surface, and the position of the light-transmitting area corresponds to the position of each light-emitting piece.

The shell comprises a lampshade, and the lampshade is embedded in the shell to form a light transmitting area.

The circuit board is provided with at least one functional device, and the functional device is electrically connected with the first physical therapy part and the second physical therapy part so as to control the first physical therapy part and the second physical therapy part to work; and/or the presence of a gas in the gas,

the functional device is electrically connected with the light-emitting component to control the light-emitting component to emit light.

Wherein the functional device is arranged on the side of the circuit board departing from the first outer surface, and/or

The functional device is arranged on one side of the circuit board, which faces the first outer surface, and is positioned between the first connecting column and the second connecting column.

The physiotherapy instrument further comprises a battery, wherein the battery is contained in the inner cavity and is positioned on one side, away from the first outer surface, of the circuit board.

Wherein, the physiotherapy equipment still is equipped with the buffer layer, and the buffer layer presss from both sides and locates between battery and the circuit board.

Wherein, circuit board deviates from first surface one side and is equipped with blank area, and the battery is located in the blank area, and the function device is located blank area periphery.

This application physiotherapy equipment is fixed in first physiotherapy portion and second physiotherapy portion interval respectively on the casing through first spliced pole and second spliced pole. The first outer surface is arranged to be plane or arc, so that the shell is flat or has a certain radian. Then, the first attaching end of the first physical therapy part, which is close to the second physical therapy part, is arranged to be closer to the first outer surface relative to the second attaching end, so that the first physical therapy part is further inclined relative to the shell, and the first physical therapy part is further ensured to be reliably attached to the surface of a human body; through setting up the third laminating end that second physiotherapy portion is close to first physiotherapy portion and more being close to first surface for fourth laminating end for second physiotherapy portion also further inclines for the casing, and the incline direction of second physiotherapy portion is opposite with the incline direction of first physiotherapy portion, and then guarantees that second physiotherapy portion also reliably laminates with human surface. From this, this application physiotherapy equipment is through the setting of first spliced pole and second spliced pole for first physiotherapy portion and the second physiotherapy portion that set up side by side have corresponding radian, have reduced the radian requirement on casing surface, are favorable to configuring the casing into the form of straight relatively, reduce the radian of casing inner space, can promote space utilization, and then reduce physiotherapy equipment's whole volume.

The application also provides a physiotherapy instrument, which comprises a shell, a first physiotherapy part, a second physiotherapy part, a first connecting column and a second connecting column; the shell comprises an inner cavity, a circuit board is arranged in the inner cavity, and the circuit board comprises a first surface; the first physiotherapy portion and the second physiotherapy portion are arranged side by side and are arranged on the outer side of the shell at intervals relative to the first surface respectively; the first connecting column is connected between the first physiotherapy part and the circuit board, and the second connecting column is connected between the second physiotherapy part and the circuit board; the first physical therapy part also comprises a first attaching end close to the second physical therapy part and a second attaching end far away from the second physical therapy part, and the first attaching end is closer to the first surface than the second attaching end; the second physical therapy portion also comprises a third attaching end close to the first physical therapy portion and a fourth attaching end far away from the first physical therapy portion, and the third attaching end is closer to the first surface than the fourth attaching end.

In the physiotherapy equipment that this embodiment provided, first physiotherapy portion and second physiotherapy portion correspond the circuit board slope respectively and set up, can make first physiotherapy portion and second physiotherapy portion possess certain radian equally from this, have reduced the radian requirement to casing surface, are favorable to configuring the form of relative configuration with the casing equally to promote the utilization ratio of casing inner space, reduce physiotherapy equipment's whole volume.

Drawings

Figure 1 is a schematic exterior view of the physiotherapy apparatus of the present application;

figure 2 is a schematic view of the physiotherapy apparatus of the present application in another viewing direction;

figure 3 is a schematic view of a top view of the physiotherapy apparatus of the present application;

figure 4 is an exploded view of the internal components of the physiotherapy apparatus of the present application;

figure 5 is a schematic view of a first connecting post of the physiotherapy apparatus of the present application;

figure 6 is a schematic structural view of a second connecting column in the physiotherapy apparatus of the present application;

figure 7 is a schematic view of the first connecting post of the present application in another viewing orientation;

figure 8 is a schematic partial cross-sectional view of the physiotherapy apparatus of the present application;

figure 9 is a schematic view of the circuit board of the physiotherapy apparatus of the present application in the direction of the second side;

figure 10 is a schematic view of the circuit board of the physiotherapy apparatus of the present application in the direction of the first side;

figure 11 is a schematic view of another embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Please refer to fig. 1, which illustrates a physiotherapy apparatus 100 according to the present application. The physiotherapy instrument 100 comprises a housing 10 and a fixing band 20. Wherein the housing 10 includes a first end 11 and a second end 12 opposite along the first direction 001, and a second outer surface 102 connected between the first end 11 and the second end 12. It is understood that the second outer surface 102 extends in the first direction 001 and is formed as an outer side surface of the housing 10. In the illustration of fig. 1, the second outer surface 102 is also in the shape of an arc, and the arc top of the second outer surface 102 protrudes in a direction away from the housing 10, so that the outer side surface of the housing 10 is in a streamline structure. When the physiotherapy instrument 100 is worn on a human body, the outer side surface of the shell 10 is attached to the surface of the human body and is bent, so that the phenomenon of collision between the shell 10 and a foreign object can be reduced.

The fixing bands 20 are fixedly connected to the first end 11 and the second end 12, respectively, to fix the housing 10 relative to the human body. The fixing strap 20 may further include a buckle assembly 21 and an adjusting assembly 22, wherein the buckle assembly 21 is a detachable structure, and is connected in series to the fixing strap 20 for fixing and detaching the physiotherapy instrument 100. The adjusting component 22 is disposed at one side of the fastening component 21 and is also connected in series to the fixing band 20 for adjusting the length of the fixing band 20 to fit different parts of the human body or fit different users.

Please refer to the inner structure of the physiotherapy instrument 100 shown in fig. 2. The housing 10 further comprises a first outer surface 101, i.e. an inner side surface configured as housing 10. The first outer surface 101 also extends in the first direction 001 and is connected between the first end 11 and the second end 12. The first outer surface 101 and the second outer surface 102 are opposed. Similarly, the first outer surface 101 may also be an arc surface, and when the first outer surface 101 is an arc surface, an arc top of the first outer surface 101 is recessed toward the inside of the housing 10. The arc shape of the first outer surface 101 is also curved to fit the surface of the human body, which is beneficial to fit the physiotherapy instrument 100 to the surface of the human body. In other embodiments, the first outer surface may also be a planar structure.

Outside the case 10, the physiotherapy instrument 100 further includes a first physiotherapy portion 30 and a second physiotherapy portion 40. The first physiotherapy portion 30 and the second physiotherapy portion 40 are arranged side by side along the first direction 001, and the first physiotherapy portion 30 and the second physiotherapy portion 40 are spaced from each other. In some embodiments, the housing 10 may have a central symmetrical structure, and the symmetrical plane is located at the arc top of the first outer surface 101 and perpendicular to the first direction 001. At this time, the first physiotherapy portion 30 and the second physiotherapy portion 40 may also be symmetrically disposed with respect to the symmetry plane, and when the physiotherapy instrument 100 fixes the center of the case 10 corresponding to the center of the surface of the human body, the first physiotherapy portion 30 and the second physiotherapy portion 40 may be better attached to the surface of the human body.

The first physiotherapy portion 30 and the second physiotherapy portion 40 are further spaced apart from the first outer surface 101, respectively, and the physiotherapy instrument 100 further includes a first connection column 50 and a second connection column 60. Wherein the first coupling post 50 is coupled between the first treatment portion 30 and the case 10, and the second coupling post 60 is coupled between the second treatment portion 40 and the case 10. It will be appreciated that the first and second connection posts 50 and 60 may also be symmetrically disposed with respect to the plane of symmetry of the housing 10.

Please refer to fig. 3, which shows a schematic view of the physical therapy instrument 100 according to the present application. When the first outer surface 101 is an arc surface, the arc degree of the first outer surface 101 is small, and the first outer surface 101 can be in a nearly straight shape. In some embodiments, the arc of the first outer surface 101 may be less than or equal to 5 °. And the first treatment portion 30 and the second treatment portion 40 are arranged side by side and spaced outside the first outer surface 101 along the first direction 001. The first treatment portion 30 includes a first fitting end 31 and a second fitting end 32 opposite in a first direction 001. The first fitting end 31 is located at a side close to the second treatment portion 40, and the second fitting end 32 is located at a side far from the second treatment portion 40.

In a second direction 002 perpendicular to the first direction 001, a first distance h1 is formed between the first fitting end 31 and the first outer surface 101, and a second distance h2 is formed between the second fitting end 32 and the first outer surface 101. And the first distance h1 is less than the second distance h 2. That is, the first treatment portion 30 is obliquely fixed with respect to the case 10, and a side of the first treatment portion 30 close to the geometric center of the case 10 (i.e., the first fitting end 31) is lower than a side thereof far from the geometric center of the case 10 (i.e., the second fitting end 32).

Correspondingly, the second treatment portion 40 also includes a third fitting end 41 and a fourth fitting end 42 along the first direction 001. Wherein the third fitting end 41 is located at a side close to the first treatment portion 30, and the fourth fitting end 42 is located at a side far from the first treatment portion 30. And in the second direction 002, the third engaging end 41 is formed with a third distance h3 from the first outer surface 101, and the fourth engaging end 42 is formed with a fourth distance h3 from the first outer surface 101. And the third distance h3 is less than the fourth distance h 4. That is, the second treatment portion 40 is obliquely fixed with respect to the case 10, and a side of the second treatment portion 40 close to the geometric center of the case (i.e., the third fitting end 41) is lower than a side thereof far from the geometric center of the case 10 (i.e., the fourth fitting end 42).

Therefore, as shown in fig. 3, on the basis that the inner side surface (i.e., the first outer surface 101) of the physiotherapy apparatus 100 of the present application is an arc surface, the first physiotherapy portion 30 and the second physiotherapy portion 40 are further obliquely disposed, and one ends (the first attaching end 31 and the third attaching end 41) of the first physiotherapy portion 30 and the second physiotherapy portion 40, which are close to each other, are lower, and a curve S1 fitted by the second attaching end 32, the first attaching end 31, the third attaching end 41, and the fourth attaching end 42 in fig. 3 has a larger arc degree than the arc surface of the first outer surface 101. Such arrangement enables the first treatment portion 30 and the second treatment portion 40 to form a larger inclination angle, and ensures that the first treatment portion 30 and the second treatment portion 40 are better fitted on the curved surface of the human body.

Whereas, for the housing 10, the shape of the housing 10 is closer to a straight shape because the arc of the first outer surface 101 is relatively small. On the premise that the thickness of the cross section of the shell 10 is kept consistent, the shell 10 with a smaller radian has a thinner total thickness, and is beneficial to placement.

Referring to fig. 4, the housing 10 further has an inner cavity therein, in which a plurality of functional components of the physiotherapy instrument 100 are accommodated. In some embodiments, a circuit board 70 is housed within the housing 10. As can be seen in fig. 4, because the arc of the first outer surface 101 is relatively small, its lumen is also closer to a straight shape. Thus, the area of the functional components such as the circuit board 70 in the physiotherapy instrument 100 is larger and the shape is more regular. The components such as the circuit board 70 can carry more devices, which is beneficial to reducing the total number of functional devices in the physiotherapy instrument 100 and reducing the assembly cost. Due to the shape rule, the manufacturing cost of the functional devices such as the circuit board 70 is reduced, and the functional devices are convenient to install and maintain. Illustratively, in the illustration of fig. 4, the number of circuit boards 70 is one, and one circuit board 70 is a flat plate-like shape. The one circuit board 70 has a relatively large area, and can cover most of the area in the inner cavity of the housing 10, thereby facilitating the arrangement of other components on the circuit board 70 and reducing the number of components in the physiotherapy instrument 100 of the present application.

That is, the physiotherapy instrument 100 of the present application also achieves the effect that the arc radian of the arc surface of the housing 10 is relatively small on the basis of ensuring that the first physiotherapy portion 30 and the second physiotherapy portion 40 are reliably attached to the surface of the human body. The relatively flat configuration of the housing 10 allows for the accommodation of large-sized, large-area functional components, while reducing the overall thickness of the physiotherapy apparatus 100 and reducing the assembly and maintenance costs of the physiotherapy apparatus 100.

It can be understood that, when the first outer surface 101 is a plane, the physiotherapy instrument 100 of the present application can form a large arc radian by only setting the first physiotherapy portion 30 and the second physiotherapy portion 40 to be relatively inclined, and also can make the curve S1 fit by the second fitting end 32, the first fitting end 31, the third fitting end 41 and the fourth fitting end 42 to form a large inclination angle with the first physiotherapy portion 30 and the second physiotherapy portion 40, thereby ensuring that the first physiotherapy portion 30 and the second physiotherapy portion 40 are better fitted on the surface of the human body.

Please continue to refer to fig. 4, as well as fig. 5. The first coupling post 50 is coupled between the first therapy portion 30 and the case 10, and the first coupling post 50 includes a first coupling surface 51 and a first fixing surface 52. Wherein the first connecting surface 51 is attached and fixed to the first physiotherapy portion 30, and the first fixing surface 52 is fixed to the housing 10. The first connection face 51 also includes a first connection end 511 and a second connection end 512. The first connection end 511 and the second connection end 512 are disposed opposite to each other along the first direction 001, the first connection end 511 is located at a side close to the first bonding end 31 of the first physiotherapy portion 30, and the second connection end 512 is located at a side close to the second bonding end 32. And the first connection end 511 is also closer to the first outer surface 101 than the second connection end 512. That is, the first connecting surface 51 is inclined with respect to the housing 10, and when the first physiotherapy portion 30 is attached and fixed to the first connecting surface 51, the inclined first connecting surface 51 may cause the first physiotherapy portion 30 to be formed in an inclined and fixed state with respect to the housing 10 as shown in fig. 3.

Thus, the first treatment portion 30 may be provided in a plate shape having a relatively uniform thickness. In the physiotherapy instrument 100 of the present application, the first physiotherapy portion 30 may be one or more physiotherapy portions of physiotherapy methods such as physical heating, electrode or illumination with a specific wavelength. Various forms of physiotherapy devices such as a heating pad, an electrode sheet and a lighting lamp can be arranged in the corresponding first physiotherapy portion 30. And structures such as heating pad, electrode slice, light (set up LED lamp pearl on PCB more) are plate or slice usually, when first physiotherapy portion 30 sets up to the relatively even platelike of thickness, are favorable to accommodating of its inside physiotherapy device of first physiotherapy portion 30 to the whole volume of first physiotherapy portion 30 of control. The application physiotherapy equipment 100 can be used as waist physiotherapy equipment, abdomen physiotherapy equipment, neck physiotherapy equipment, eye physiotherapy equipment and physiotherapy equipment of arms or legs, and utilize the functions of the first physiotherapy part 30 and the second physiotherapy part 40 to realize one or more physiotherapy effects in the above physiotherapy modes on the surface of the human body.

Referring to fig. 6, the second connecting column 60 also includes a second connecting surface 61 and a second fixing surface 62. The second connecting surface 61 is fixedly attached to the second treatment portion 40, and the second fixing surface 62 is fixedly connected to the housing 10. The second connection surface 61 is also provided with a third connection end 611 and a fourth connection end 612 oppositely along the first direction 001. The third connecting end 611 is close to the third attaching end 41, and the fourth connecting end 612 is close to the fourth attaching end 42. Correspondingly, the third connecting end 611 is also closer to the first outer surface 101 than the fourth connecting end 612.

Accordingly, the second connection surface 61 is also inclined with respect to the housing 10, and the second treatment portion 40 is attached to and fixed to the second connection surface 61 such that the second treatment portion is inclined with respect to the housing 10 as shown in fig. 3 by the inclined second connection surface 61. Meanwhile, the second physiotherapy portion 40 can also be arranged in a plate shape with relatively uniform thickness, which is beneficial to the second physiotherapy portion 40 to accommodate the physiotherapy devices therein and control the whole volume of the second physiotherapy portion 40.

In some embodiments, the first connection post 50 may further include at least two first sub-connection posts (not shown), which are arranged in the first direction 001 and are respectively connected between the first treatment part 30 and the housing 10. It can be understood that the length dimensions between the respective first sub-connection columns are also differently set so that the first treatment portion 30 can take an inclined posture with respect to the case 10; correspondingly, the second connecting column 60 may also include at least two second sub-connecting columns (not shown), and a plurality of second sub-connecting columns are also arranged along the first direction 001 and are respectively connected between the second treatment part 40 and the housing 10. The length dimension between the second sub-connection poles may also be differently set so that the second treatment part 40 also takes an inclined posture with respect to the case 10.

Referring to the illustration of fig. 7, the first connecting column 50 includes a first fixing portion 53, and the first fixing portion 53 is fixedly connected to the housing 10. It is understood that the first fixing surface 52 is located on the first fixing portion 53. The first connecting surface 51 and the first fixing surface 52 are opposed to each other in the second direction 002. And the first connecting column 50 has a cross-sectional structure along the second direction 002, the area of the first fixing surface 52 is larger than that of the first connecting surface 51. Because the volume of casing 10 is great, the area of first surface 101 is also great, and the volume of first physiotherapy portion 30 is less relatively, sets up first spliced pole 50 for the variable cross section, and its one end area that is close to casing 10 is bigger, and the one end area that is close to first physiotherapy portion 30 is littleer, is favorable to arranging of first physiotherapy portion 30 to provide better support effect to first physiotherapy portion 30.

In the illustration of fig. 2, two first treatment portions 30 are also provided. The two first treatment portions 30 are also disposed side by side, and a direction in which the two first treatment portions 30 are disposed side by side is perpendicular to a direction (i.e., a second direction) in which the first treatment portion 30 and the second treatment portion 40 are disposed side by side. Similarly, two second treatment portions 40 are also illustrated in fig. 2, and the two second treatment portions 40 are also arranged side by side. In the physiotherapy instrument 100 of the present application, the number of the first physiotherapy portion 30 and the second physiotherapy portion 40 may be plural, and the plural first physiotherapy portions 30 and the plural second physiotherapy portions 40 are respectively arranged side by side. Correspondingly, the two first physiotherapy portions 30 can be respectively connected and fixed with the shell 10 through the two first connecting posts 50 with variable cross sections, so that the connection is more stable, and the supporting effect is better.

On the other hand, on first direction 001, this application can also include third physiotherapy portion (not shown in the figure) and fourth physiotherapy portion (not shown in the figure) etc. wherein third physiotherapy portion and fourth physiotherapy portion set up side by side with first physiotherapy portion 30, second physiotherapy portion 40 along first direction 001 equally. At this time, the third physiotherapy portion and the fourth physiotherapy portion are also obliquely arranged, and the two attaching ends of the third physiotherapy portion, and the two attaching ends of the fourth physiotherapy portion, the second attaching end 32, the first attaching end 31, the third attaching end 41 and the fourth attaching end 42 jointly fit a curve S1. As long as the radian of the curve S1 obtained by fitting meets the preset condition, each physical therapy part can form a better fitting effect with the surface of the human body, and the purpose of reducing the radian of the cambered surface of the first outer surface 101 is achieved.

Correspondingly, the second connecting column 60 also includes a second fixing portion 63, the second fixing portion 63 is fixedly connected with the housing 10, and the second fixing surface 62 is located on the second fixing portion 63. The second connecting column 60 also has a cross-sectional shape varying along the second direction 002, i.e., the area of the second fixing surface 62 is larger than that of the second connecting surface 61. The second connecting column 60 can also form a better connection and fixation of the second treatment portion 40. In the illustration of fig. 2, the number of the second therapy portion 40 is also two.

In one implementation, both the first connecting post 50 and the second connecting post 60 are resilient. The first and

second connection columns

50 and 60 may be made of a material having elasticity such as rubber. Thereby, the first and second coupling posts 50 and 60 may also be elastically deformed such that the first and

second treatment portions

30 and 40 may be inclined with respect to the first outer surface 101, respectively. It can be understood that, when the physiotherapy apparatus 100 of the present application corresponds to different body types of users, or performs physiotherapy on different body parts of the corresponding users, if the first physiotherapy portion 30 and the second physiotherapy portion 40 are at a fixed inclination angle, the fit degree between the first physiotherapy portion and the surface of the human body will be different. Therefore, the first physiotherapy portion 30 and the second physiotherapy portion 40 should also swing relative to the case 10, so that the first physiotherapy portion 30 and the second physiotherapy portion 40 can respectively form a better fitting effect on the surface of the human body, and adapt to different human body parts or different users.

The first connection column 50 and the second connection column 60 are provided with elasticity, so that the first physiotherapy portion 30 and the second physiotherapy portion 40 can swing relative to the shell 10 along with the fastening action of the shell 10 and the fixing band 20 after being attached to the surface of the human body. It can be understood that, when the included angle between the first physiotherapy portion 30 and the second physiotherapy portion 40 is smaller than the curved surface of the human body surface (for example, the physiotherapy portion is the back or the abdomen), the second connection end 32 of the first physiotherapy portion 30 can move towards the first outer surface 101 and the fourth connection end 42 of the second physiotherapy portion 40 can also move towards the first outer surface 101 through the deformation of the first connection column 50 and the second connection column 60, and the included angle between the first physiotherapy portion 30 and the second physiotherapy portion 40 is opened, so that the adaptive fitting is formed on the human body surface; when the curved surface of the human body surface is small (for example, the physiotherapy portion is a neck or four limbs), the first connection end 31 of the first physiotherapy portion 30 and the third connection end 41 of the second physiotherapy portion 40 can also be displaced toward the first outer surface 101 by the deformation of the first connection column 50 and the second connection column 60, and the included angle between the first physiotherapy portion 30 and the second physiotherapy portion 40 is narrowed, so that the effect of forming adaptive fit with the human body surface is achieved.

The first connecting column 50 and the second connecting column 60 can be made of rubber or soft rubber materials respectively. When the first physiotherapy portion 30 and the second physiotherapy portion 40 are attached to the surface of the human body, a certain pre-pressure can be formed on the surface of the human body, and the deformation of the first connection column 50 and the second connection column 60 is guided. Meanwhile, the first and

second treatment portions

30 and 40 are also approached toward the first outer surface 101 by the deformation of the first and second coupling posts 50 and 60, respectively, and are floated with respect to the first outer surface 101 by the elastic force.

Referring back to fig. 4, the housing 10 includes a first housing 13 and a second housing 14, and the first housing 13 and the second housing 14 are fixedly connected to each other and enclose an inner cavity of the housing 10. The first shell 13 is located between the second shell 14 and the first and

second treatment portions

30 and 40 along the second direction 002, that is, the first and

second treatment portions

30 and 40 are located at one side of the first shell 13, and the second shell 14 is located at the other side of the first shell 13. Whereby a first outer surface 101 is formed on the first housing 13 and a corresponding second outer surface 102 is formed on the second housing 14. At this time, the first outer shell 13 may be understood as an inner shell of the physiotherapy apparatus 100 of the present application, and the second outer shell 14 may be understood as an outer shell of the physiotherapy apparatus 100 of the present application.

In the foregoing, the second outer surface 102 is also an arc surface, and in the illustration of fig. 4, the arc surface radian of the second outer surface 102 is greater than the arc surface radian of the first outer surface 101, so that the outer curve of the physiotherapy instrument 100 of the present application is more streamlined, and collision is avoided. In some embodiments, the circuit board 70 received in the inner cavity may be located near a side of the first housing 13, i.e., near the first outer surface 101. Since the arc of the first outer surface 101 is relatively small, the geometric center of the circuit board 70 can be closer to the first housing 13 than the second housing 14, and a larger area can be obtained.

In one embodiment, the second outer surface 102 further has a first flat surface 1021. The first plane 1021 is parallel to the circuit board 70, and the first plane 1021 is located at the geometric center of the second outer surface 102, and the arc top of the second outer surface 102 can be cut down, thereby reducing the overall thickness of the housing 10 in the physiotherapy apparatus 100 of the present application.

The first flat surface 1021 may also be used as a resting surface for the physiotherapy instrument 100 of the present application. It can be understood that when the second outer surface 102 is a curved surface, when the physiotherapy apparatus 100 of the present application is placed on a table top or other planes, the curved second outer surface 102 can only form a point contact with the table top or other planes, which cannot form a stable placement state. After the first plane 1021 is set, it can form a relatively stable surface contact with the tabletop or other planes, which is beneficial to the smooth placement of the physiotherapy apparatus 100 of the present application. In other embodiments, the first plane 1021 may also form an angle with the circuit board 70, that is, the first plane 1021 is disposed on one side of the second outer surface 102 and is disposed obliquely with respect to the circuit board 70. The first plane 1021 also provides for a smooth placement of the physiotherapy instrument 100, and also reduces the overall thickness of the housing 10 when the first plane 1021 overlies the apex of the second outer surface 102.

Please refer to fig. 8, which is a schematic partial cross-sectional view of the physiotherapy apparatus 100 of the present application. In some embodiments, a concave region 1022 may be disposed inside the first plane 1021, that is, a curved surface may be formed inside the first plane 1021, and an arc top of the curved surface of the concave region 1022 extends toward the inside of the casing 10, so that the curved surface of the concave region 1022 is concave with respect to the first plane 1021. The recessed region 1022 may also be used to receive functional components such as a remote control for securing the physiotherapy instrument 100. Further, the recessed region 1022 may also be used to hold the battery 80 to position the battery 80.

In one embodiment, the physiotherapy instrument 100 further comprises a battery 80. A battery 80 is also received in the interior chamber, the battery 80 being configured to provide electrical power to the physiotherapy instrument 100 for operation. Because the housing 10 of the physiotherapy apparatus 100 of the present application is relatively flat, the volume of the battery 80 that can be accommodated in the inner cavity of the housing is relatively large, and the cruising ability of the physiotherapy apparatus 100 of the present application can be extended.

In the illustration of fig. 4, the battery 80 is also located on a side of the circuit board 70 facing away from the first outer surface 101. Because the battery 80 has a larger area, when the circuit board 70 is disposed on the side close to the second outer surface 102, the electrical connection between the circuit board 70 and the first and

second therapy parts

30 and 40 is not blocked. Further, this application physiotherapy equipment 100 still is equipped with buffer layer 81, and buffer layer 81 presss from both sides and locates between battery 80 and circuit board 70 for form the buffering protection to battery 80 and circuit board 70 respectively.

When the circuit board 70 is accommodated in the cavity, the circuit board 70 is further electrically connected to the first therapy portion 30 and the second therapy portion 40 (not shown in fig. 8), respectively. Specifically, at least one functional device 71 is disposed on the circuit board 70, and the functional device 71 is electrically connected to the first physiotherapy portion 30 and the second physiotherapy portion 40 through a wire 72, and is used for controlling physiotherapy functions of the first physiotherapy portion 30 and the second physiotherapy portion 40.

In one embodiment, the circuit board 70 includes a first side 701 facing the first housing 13, and a second side 702 facing away from the first housing 13. And a plurality of functional devices 71 on the circuit board 70 may be disposed on the second side 702. Referring to fig. 9, the circuit board 70 is further provided with a through hole 73, and the first connecting post 50 is also provided with a first connecting hole 54. After the wire 72 is connected to a functional device 71 on the second surface 702 side, it passes through the through hole 73 and the first connection hole 54, and then is connected to the first treatment portion 30. Correspondingly, the lead 72 connected to the second therapy part 40 can also pass through the second connecting hole 64 of the second connecting post 60 and the through hole 73 of the circuit board 70, and then be connected to the functional device 71 on the second surface 702.

Because the first physiotherapy portion 30 and the second physiotherapy portion 40 may tilt and vibrate during operation, and the functional device 71 is disposed on the second surface 702, the first physiotherapy portion 30 and the second physiotherapy portion 40 can be prevented from being pressed against the functional device 71 or the wire 72 during operation, and the stability of the electrical connection of the wire 72 can be ensured.

In some embodiments, the functional device 71 may also be disposed on the first face 701 between the first connection post 50 and the second connection post 60.

In the illustration of fig. 9, a blank area 7021 is further disposed on the second surface 702 of the circuit board 70, and the functional device 71 is surrounded on the periphery of the blank area 7021. The blank 7021 may be used to attach to the battery 80 or the buffer layer 81 to secure the battery 80 to the circuit board 70. Because the area of this application circuit board 70 is great, can provide sufficient arrangement space for functional device 71 on the basis of laminating battery 80, still reached the effect that reduces physiotherapy equipment 100 whole thickness.

Please refer back to fig. 8. The first fixing portion 53 of the first connecting post 50 extends into the inner cavity of the housing 10, and the first fixing surface 52 is attached to the first surface 701 of the circuit board 70. Further, the first housing 13 covers the first fixing portion 53, and clamps the first fixing portion 53, so as to fixedly connect the housing 10 and the first connecting post 50. Also described, after the first fixing portion of the first connection post 50 extends into the inner cavity, the first fixing portion is clamped by the housing 10 and the circuit board 70, so as to realize the fixed connection between the first connection post 50 and the housing 10. Since the first connecting post 50 may have elasticity, the first connecting post 50 and the housing 10 are preferably fixed by bonding or clipping. By sandwiching the first fixing portion 53 between the first housing 13 and the circuit board 70 from two opposite directions, reliable connection of the first connection post 50 to the housing 10 can be achieved. And the clamping fixing mode is convenient to disassemble, so that the maintainability of the physiotherapy instrument 100 is also improved.

Correspondingly, the second fixing portion 63 of the second connecting post 60 can also extend into the inner cavity and be clamped between the first casing 13 and the circuit board 70, so as to fixedly connect the second connecting post 60 and the casing 10, and achieve the similar beneficial effects as the first connecting post 50.

Please refer back to fig. 8 with reference to fig. 10. On the first side 701 of the circuit board 70, a light emitting member 90 is further provided. The number of the light emitting members 90 may be one or more. The first housing 13 is correspondingly provided with a light-transmitting area 131, and the light-transmitting area 131 is arranged corresponding to the position of each light-emitting member 90, so that the light emitted by the light-emitting member 90 can pass through the first housing 13 and be emitted outwards. Wherein luminous member 90 can be the luminous body of specific wavelength to make luminous member 90 possess certain physiotherapy effect, cooperate first physiotherapy portion 30 and second physiotherapy portion 40 to act on user's body surface jointly, reach the effect of cooperation physiotherapy.

In the illustration of fig. 10, the light emitting member 90 is implemented in the form of an LED lamp bead, and a part of the light emitting member 90 is further disposed between the first connecting post 50 and the second connecting post 60 along the first direction 001. That is, the light emitting member 90 is disposed at the geometric center region of the circuit board 70. The light emitting member 90 may pass between the first treatment portion 30 and the second treatment portion 40 and project light onto the surface of the human body. Other luminous members 90 may be further disposed on one side of the first physiotherapy portion 30 far away from the second physiotherapy portion 40, and one side of the second physiotherapy portion 40 far away from the first physiotherapy portion 30, and surround the peripheries of the first connection post 50 and the second connection post 60 to enlarge the projection area of the luminous member 90. Because the area of the circuit board 70 is large, the projection area of the light emitting member 90 is correspondingly enlarged, and the light emitting member can irradiate the surface of a human body with a larger area to realize a physiotherapy function.

Referring back to fig. 4, the light-transmitting region 131 disposed in the first housing 13 may be configured as a structure of a lamp cover. The first shell 13 is provided with a notch corresponding to the shape of the lampshade, and the lampshade is embedded in the notch so as to achieve the purpose of light transmission. Meanwhile, in the structure illustrated in fig. 8, the holding of the first fixing portion 53 by the housing 13 is also achieved by the adhesion of the light transmitting region 131 configured as a lamp cover to the first fixing portion 53. It is understood that in other embodiments, the lampshade can be integrated with the first housing 13, or the first housing 13 can be integrally formed as a light-permeable structure, which can ensure that the light emitted from the light-emitting member 90 passes through the first housing 13 and is projected onto the human body.

In one embodiment, the projections of the first treatment portion 30 and the second treatment portion 40 on the circuit board 70 are located within the area of the circuit board 70. Because the area of the circuit board 70 is large, when the projection of the first treatment portion 30 and the second treatment portion 40 is located inside the circuit board 70, the circuit board 70 may further set the light emitting member 90 at the periphery of the projection area of the first treatment portion 30 and the second treatment portion 40, and increase the irradiation area of the light emitting member 90 on the surface of the human body. Meanwhile, the battery 80 is disposed on one side of the second surface 702, so that the battery 80 is prevented from shielding the light of the light emitting member 90.

Referring to fig. 11, another physiotherapy apparatus 100a provided in the present application also includes a housing 10a, a first physiotherapy portion 30a, a second physiotherapy portion 40a, a first connection pole 50a and a second connection pole 60 a. The housing 10a includes an interior cavity therein, and a circuit board 70a is also secured within the interior cavity. The first treatment portion 30a and the second treatment portion 40a are also arranged side by side and are respectively located at the outer side of the housing 10 a. The first coupling post 50a is coupled between the first therapy part 30a and the case 10a, and the second coupling post 60a is coupled between the second therapy part 40a and the case 10 a.

Further, the first treatment portion 30a also includes a first fitting end 31a and a second fitting end 32a opposite to each other, and the second treatment portion 40a also includes a third fitting end 41a and a fourth fitting end 42 a. In the physiotherapy instrument 100a of this implementation, the first attaching end 31a is also closer to the circuit board 70a than the second attaching end 32a, that is, the first attaching end 31a has a first depth h1a relative to the first surface 701a of the circuit board 70a, the second attaching end 32a has a second depth h2a relative to the first surface 701a, and the first depth h1a < the second depth h2 a; correspondingly, the third bonding end 41a is disposed closer to the circuit board 70a than the fourth bonding end 42a, that is, the third bonding end 31a has a third depth h3a relative to the first surface 701a, the fourth bonding end 32a has a fourth depth h4a relative to the first surface 701a, and the third depth h3a < the fourth depth h4 a.

It can be understood that, in the physiotherapy instrument 100a provided in this embodiment, the first physiotherapy portion 30a and the second physiotherapy portion 40a are directly disposed in an inclined manner corresponding to the circuit board 70a, so that a curve S1a formed by fitting the second fitting end 32a, the first fitting end 31a, the third fitting end 41a, and the fourth fitting end 42a forms a larger arc radian, and the first physiotherapy portion 30a and the second physiotherapy portion 40a also form a larger inclination angle, thereby ensuring that the first physiotherapy portion 30a and the second physiotherapy portion 40a are better fitted on the curved surface of the human body.

In this embodiment, the shape of the first outer surface 101a of the shell 10a is not limited, that is, the first outer surface 101a may be set to be a plane, an inward concave arc surface, or the like, as described above, or the first outer surface 101a may also be set to be an outward convex arc surface, or the like, so that the shell 10a of the physiotherapy instrument 100a of the present application forms different appearance effects or forms different physiotherapy effects, and the purpose of reducing the overall thickness of the shell 10a can also be achieved.

It should be noted that other implementation manners of the physiotherapy instrument 100a provided in the present application may be developed with reference to the embodiments of the physiotherapy instrument 100 provided above, and the description of the present specification is not repeated herein.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims

1. A physiotherapy instrument is characterized by comprising a shell, a first physiotherapy part, a second physiotherapy part, a first connecting column and a second connecting column;

the shell is provided with a first outer surface, the first outer surface is a plane or an arc surface, and when the first outer surface is the arc surface, the arc top of the first outer surface is inwards sunken towards the shell;

the first physiotherapy portion and the second physiotherapy portion are arranged side by side and are arranged on the outer side of the shell at intervals relative to the first outer surface respectively; the first connecting column is connected between the first physiotherapy part and the shell, and the second connecting column is connected between the second physiotherapy part and the shell;

the first physical therapy part further comprises a first attaching end close to the second physical therapy part and a second attaching end far away from the second physical therapy part, and the first attaching end is closer to the first outer surface than the second attaching end;

the second physical therapy portion also comprises a third attaching end close to the first physical therapy portion and a fourth attaching end far away from the first physical therapy portion, and the third attaching end is closer to the first outer surface than the fourth attaching end.

2. The physiotherapy instrument of claim 1, wherein the first outer surface is a curved surface and the arc of the curved surface of the first outer surface is less than or equal to 5 °.

3. The physiotherapy instrument of claim 1, wherein the first connection post comprises a first connection surface that engages the first physiotherapy portion, the first connection surface comprising a first connection end adjacent the first engagement end and a second connection end adjacent the second engagement end, the first connection end being closer to the first outer surface than the second connection end;

the second spliced pole include with the second connection face of the laminating of second physiotherapy portion, the second is connected the face including being close to the third link of third laminating end, and be close to the fourth link of fourth laminating end, the third link compare in the fourth link is more close to first surface.

4. The physiotherapy instrument of claim 3, wherein the first connection post comprises a first fixing surface fixedly connected to the housing, the first fixing surface having an area larger than an area of the first connection surface;

5. The physiotherapy instrument of claim 1, wherein the first and second attachment posts are each resilient such that the first and second treatment portions are each tiltable relative to the first outer surface and proximate to the first outer surface.

6. The physiotherapy apparatus of claim 1, wherein the first physiotherapy portion is a plurality of physiotherapy portions, the plurality of physiotherapy portions are arranged side by side, and the direction in which the plurality of physiotherapy portions are arranged side by side is perpendicular to the direction in which the first physiotherapy portion and the second physiotherapy portion are arranged side by side.

7. The physiotherapy apparatus of any one of claims 1 to 6, wherein the housing defines an interior chamber, the physiotherapy apparatus further comprising a circuit board received in the interior chamber, the circuit board being electrically connected to the first and second physiotherapy portions, respectively.

8. The physiotherapy instrument of claim 7, wherein the projections of the first physiotherapy portion and the second physiotherapy portion on the circuit board are both within the area of the circuit board.

9. The physiotherapy apparatus of claim 7, wherein the first connecting post comprises a first securing portion extending into the inner chamber and fixedly connected to the circuit board;

10. The physiotherapy instrument of claim 7, wherein the housing comprises first and second shells fixedly attached to one another, the first outer surface being located on the first shell, the circuit board having a geometric center that is closer to the first shell than the circuit board geometric center is to the second shell.

11. The physiotherapy instrument of claim 10, wherein the second housing includes a second outer surface thereon facing away from the first housing, the second outer surface also being an arcuate surface, an arc apex of the arcuate second outer surface projecting outwardly away from the housing, and an arc curvature of the second outer surface being greater than an arc curvature of the first outer surface.

12. The physiotherapy instrument of claim 11, wherein the second outer surface is also an arcuate surface, an apex of the arcuate second outer surface projecting outwardly away from the housing, the second outer surface further having a first plane disposed parallel to the circuit board and at a geometric center of the second outer surface.

13. The physiotherapy apparatus of claim 7, wherein the circuit board further comprises at least one light emitting member disposed on a side of the circuit board facing the first outer surface, the housing comprises a lampshade, and the lampshade is embedded in the housing and disposed corresponding to the position of each light emitting member.

14. The physical therapy apparatus according to claim 13, wherein the circuit board is provided with at least one functional device, the functional device is electrically connected to the first physical therapy portion and the second physical therapy portion to control the first physical therapy portion and the second physical therapy portion to work; and/or the presence of a gas in the gas,

the functional device is electrically connected with the light-emitting piece to control the light-emitting piece to emit light.

15. The physiotherapy instrument of claim 14, wherein the functional device is arranged on a side of the circuit board facing away from the first outer surface and/or

16. The physiotherapy instrument of claim 15, further comprising a battery contained within the interior chamber and located on a side of the circuit board facing away from the first outer surface.

17. The physiotherapy instrument of claim 16, wherein a blank area is provided on a side of the circuit board facing away from the first outer surface, the battery is provided in the blank area, and the functional device is provided on the periphery of the blank area.

18. A physiotherapy instrument is characterized by comprising a shell, a first physiotherapy part, a second physiotherapy part, a first connecting column and a second connecting column;

the shell comprises an inner cavity, a circuit board is arranged in the inner cavity, and the circuit board comprises a first surface;

the first physiotherapy portion and the second physiotherapy portion are arranged side by side and are arranged on the outer side of the shell at intervals relative to the first surface respectively; the first connecting column is connected between the first physiotherapy part and the circuit board, and the second connecting column is connected between the second physiotherapy part and the circuit board;

the first physical therapy part further comprises a first attaching end close to the second physical therapy part and a second attaching end far away from the second physical therapy part, and the first attaching end is closer to the first surface than the second attaching end;

the second physical therapy portion also comprises a third attaching end close to the first physical therapy portion and a fourth attaching end far away from the first physical therapy portion, and the third attaching end is closer to the first surface than the fourth attaching end.