阅读说明：本技术 一种带挤压构件的按摩装置与其制造方法 (Massage device with extrusion component and manufacturing method thereof ) 是由 谢尔盖·叶夫根尼耶维奇·托波莱夫 于 2017-07-27 设计创作，主要内容包括：一种带挤压构件的按摩装置与其制造方法。本合案申请的发明属于医疗器械领域,尤其是涉及一种供个人使用的按摩装置。一种用于按摩的装置,包括：细长压构件,其具有第一端和第二端；和按摩构件,其与压构件的第二端相连,并且压构件呈弧形弯曲并且包含第一表面区域,其适于与第一身体区域一起作用,而按摩构件包含第二表面区域,其适于与第二身体区域一起作用。第一表面区域呈细长形,且具有弧形弯曲,其适于沿第一身体区域平移运动,并且压构件适于在所述平移运动的过程中弹性伸直,从而使第一表面区域具有大体上贴附第一身体区域的形状,并且当所述平移运动进行时,压构件适于将第二表面区域弹性按压到第二身体区域。制造方法在于制造所申请保护的按摩装置。(A massage device with a pressing member and a method of manufacturing the same. The invention of the present application belongs to the field of medical appliances, and particularly relates to a massage device for personal use. An apparatus for massaging, comprising: an elongated compression member having a first end and a second end; and a massage member connected to the second end of the pressing member, and the pressing member is arcuately curved and includes a first surface area adapted to interact with a first body area, and the massage member includes a second surface area adapted to interact with a second body area. The first surface area is elongated and has an arcuate curvature adapted for translational movement along the first body area, and the pressing member is adapted to be elastically straightened during said translational movement so that the first surface area has a shape substantially adhering to the first body area, and the pressing member is adapted to elastically press the second surface area to the second body area when said translational movement is performed. The manufacturing method consists in manufacturing the massage device claimed.)

1. An apparatus for massaging, comprising: a pressing member having an elongated shape, a curved curvature, and comprising a first surface area adapted to interact with a first body area; and a massage member connected to the pressing member and comprising a second surface area adapted to interact with a second body area; characterized in that the first surface area is adapted for translational movement along a first body area, for which purpose the pressure member is adapted to be elastically straightened during the translational movement, so that the second surface area is elastically pressed against a second body area during the translational movement.

2. The device of claim 1, wherein the first surface area is elongated having an arcuate curvature and the pressing member is elongated having a first end and a second end, the second end being connected to the massaging member and having an arcuate curvature, such as a C-shaped curvature, the pressing member being adapted to resiliently straighten out during the translational movement so that the first surface area has a shape substantially adhering to the first body area, such as a linear shape, and the pressing member being adapted to resiliently press and rotate the second surface area of the massaging member along the second body area as the translational movement progresses, and wherein the massaging member is pushed by the second body area so that the pressing member straightens out as the translational movement progresses, the pressing member moving the massaging member from a first position to a second position as the pressing member straightens out, the first position is where the massage member is close to the first end of the pressure member, the second position is where the massage member is remote from the first end of the pressure member, and during bending to the initial state the pressure member is adapted to move the massage member from the second position to the first position, thereby pressing and rotating the massage member along the second body region during a counter translational movement of the first surface region along the first body region.

3. An apparatus according to either of claims 1 or 2, wherein said first member is coupled to said additional member for ensuring that said first surface area performs said translational movement along said first body area.

4. An apparatus according to any of claims 1 or 2, characterized in that the apparatus is made of an elastically deformable material, such as silicone rubber, that the pressure member is curved in an arc, and that the apparatus comprises an electromechanical device for generating mechanical vibrations, which electromechanical device is adapted to transmit a rotational movement to a shock generating mass, for which purpose, for example, the electromechanical device comprises a motor with an eccentric mass mounted on an output shaft of the motor, or is adapted to transmit a reciprocating movement to a shock generating mass, for which purpose, for example, a coil member with a movable ferromagnetic core is included, and that the apparatus is provided with power supply means, including power supply means adapted for repeated use, and with electronic control means, including remote control means, with an elastic push button and an optical indicator, and means for receiving the electric current, with the necessary electrical connections between said means.

5. An apparatus for massaging, comprising: an elongated compression member having a first end and a second end; an additional elongated member having a first end and a second end; a massage member; with the first end of the elongated pressing member being connected to the first end of the additional elongated member, the connection of the elongated pressing member and the first end of the additional elongated member being adapted to cause a translational movement of the two connected ends along a first body area, and the massaging member being adapted to interact with a second body area, characterized in that the elongated pressing member is curved and during said translational movement is elastically straightened along the additional elongated member, while the second end of the elongated pressing member is connected to the massaging member and the connection is adapted to press the massaging member against the second body area during said translational movement.

6. The device of claim 5, wherein the massage member is adapted to be pushed by a second body region during the translational movement, thereby straightening the elongated pressing member, the additional elongated member being adapted to move the massaging member from a first position to a second position during said straightening, the first position being where the massage member is proximate to a first end of the elongated pressing member, the second position being where the massage member is proximate to a second end of the additional elongated member, and the elongated pressing member is adapted to move the massaging member from the second position to the first position during bending to the initial position, thereby causing the massage member to press against the second body region during a counter translational movement of the first end connection ends of the elongated pressure member and the additional elongated member along the first body region.

7. A device according to any one of claims 5 or 6, characterized in that it is made of an elastically deformable material, such as silicone rubber, said elongated pressure member being curved in an arc, having a substantially semicircular cross section, said additional member having the same cross section, while said massaging member is movably connected to the second end of said elongated pressure member and comprises a massaging device, such as a vacuum massaging device, the second end of said additional elongated member being connected to a handle adapted to hold said device and having a rigid inner casing extending from the junction of said elongated pressure member and the first end of said additional elongated member up to said handle, said junction of said first end having mounted therein electromechanical means adapted to generate mechanical vibrations, said handle having mounted therein power supply means adapted to be reused, control equipment, including remote control equipment, and equipment connected to an external power source, with the necessary electrical connections between the electrical components.

8. An apparatus for massaging, comprising: an elongated compression member having a first end and a second end; an additional elongated member having a first end and a second end; a massage member; with the first end of the elongated compression member connected to the first end of the additional elongated member, the connection of the elongated compression member and the first end of the additional elongated member being adapted for translational movement along a first body region, the massage member being adapted to interact with a second body region, wherein the elongate pressing member is curved and resiliently straightens along the additional elongate member during the translational movement, at the same time, the massage member comprises a surface massage area, the surface massage area is in an arc shape and is a convex part on the curved bending plane of the slender pressing member, the second end of the elongated pressing member is connected to the massaging member and during the translational movement, the connection is adapted to press the massage member against the second body region and to cause rotational movement of the surface massage region along the second body region.

9. The apparatus according to claim 8, wherein during the translational movement the massaging member is adapted to be pushed by a second body region, thereby straightening the elongated pressing member, and wherein the elongated pressing member is adapted to move the massaging member from a first position, in which the massaging member is close to the first end of the additional elongated member, to a second position, in which the massaging member is close to the second end of the additional elongated member, when said straightening takes place, and wherein during the bending to the initial position the elongated pressing member is adapted to move the massaging member from the second position to the first position, thereby pressing the massaging member against the second body region during a counter translational movement of the connecting ends of the additional elongated member and the elongated pressing member along the first body region, at the same time, the surface area is adapted to rotate away from the attachment member during movement from the first position to the second position and to rotate towards the attachment member during movement from the second position to the first position.

10. A device according to any one of claims 8 or 9, characterized in that it is made of an elastically deformable material, such as silicone rubber, said elongated pressure member being curved in an arc, having a substantially semicircular cross section, said additional member having the same cross section, while said massaging member is smoothly and elastically connected to the second end of said elongated pressure member and comprises a first electromechanical device adapted to generate mechanical vibrations, the second end of said additional elongated member being connected to a handle adapted to hold said device and having an inner rigid housing extending from the junction of said elongated pressure member and the first end of said additional elongated member up to said handle, said junction of said first end having mounted therein a second electromechanical device adapted to generate mechanical vibrations, said handle having mounted therein a power supply device adapted to be reused, control equipment, including remote control equipment, and equipment connected to an external power source, with the necessary electrical connections between the electrical components.

11. A method for manufacturing a device for massaging, characterized in that the device of claim 1 is obtained by means of a process operation.

Technical Field

The invention belongs to the field of medical instruments, and relates to a device for massaging, which is suitable for massaging certain parts of a body by kneading, pressing and vibrating. The massage device is used for personal massage and is suitable for use in domestic conditions and in professional institutions.

Background

Disclosure of Invention

The invention is premised on the observation that two adjacent body areas require a 6-12 cm rubbing massage effect on at least one body area. The distance between these two areas of the human body, i.e. the sensitive areas, is thus realized to be approximately equal to a distance of 6-12 cm.

Thus, the most effective massage effect is that the elongated massage member reciprocates over the first body region and the raised massage members reciprocate synchronously along the second body region. Thus, a stroke of up to 10-12 cm may be considered as an effective displacement distance of the elongated massage member over the first body area, and it is this displacement distance that should be the stroke of the elongated massage member during simultaneous and continuous massage action on the second body area, which may be achieved by means of the resilient arcuate members pressing the raised massage members against the second body area. The arcuate member is resiliently connected to the elongated massage member. This means that in order to effectively massage the second body region, the length of the massage surface of the raised massage members must be comparable to the length of the elongated massage members or the effective movement distance (stroke) of the elongated massage members in the first body region. The use of linear members to massage the second body region requires a free position to facilitate its movement. Unlike the first body area to be massaged, where full contact between the first body area and the elongated massage members needs to be maintained, the second body area is limited in size or, alternatively, the contact points or surfaces with the raised massage members are of smaller size. This means that the active surface can be designed to be curved, for example curved, in order to reduce the physical dimensions. Therefore, when the circular convex massage member with the diameter of 2-3 cm is used, the member is rotated 290-190 degrees to achieve the required length of 10 cm on the massage surface. At the same time, the increased diameter may reduce the required rotation angle of the raised massage members. In this case, the curved surface (in fact a circular surface) has a similar massaging effect to the rectilinear surface, and the curved surface is compact in size, allowing the elongated massaging members to be placed in the vicinity of the raised massaging members so that they do not interfere with each other during movement. At the same time, the reciprocating motion of the elongated massage member and the reciprocating rotational motion of the raised massage members must be combined so that the user can experience a synchronized massage pleasure and also be predictably controlled. The reciprocating rotary motion of the raised massage members gives the person a feeling of massage and has the following advantages: since the parts of the contact surface of the raised massaging member are more prominent than the surrounding parts, the action of the prominent surface on the massage of the second body area is stronger than the massage of the surrounding tissue. In addition, the lubricant is always located in the contact area during the reciprocating rotational motion, and gradually gets out of contact with the contact area during the unidirectional rotational motion.

The object and advantage of the present invention is to simplify the operation and to expand the technical functions of a massage device by simplifying the design, which massage device can be brought into action with a first body area and a second body area by means of two elastically connected members, wherein the first member is adapted to move translationally along the first body area and the second member is adapted to press against the second body area during said translational movement, said translational movement being over a distance substantially equal to 6-12 cm. Another object is that the second member is adapted for rotational movement along the second body region when the first member of the massage device performs said translational movement along the first body region, thereby increasing the efficiency with which the second member acts with the second body region.

This advantage can be achieved by manufacturing a massaging apparatus having the following basic features: a device for massaging comprising a pressing member and a massaging member; the pressing member is elongated and has a first end and a second end; the second end of the pressing component is connected with the massage component; the pressing member is curved in an arc shape; the pressing member comprises a first surface area adapted to interact with a first body area; the massage member comprises a second surface area adapted to interact with a second body area; the first surface region is elongated having an arcuate curvature; the first surface area is adapted for translational movement along the first body area; the pressing member is adapted to elastically straighten during the translational movement, thereby giving the pressing surface region a shape substantially adhering to the first body region; the pressing member is adapted to elastically press the second surface area to a second body area when the translational movement is performed.

These basic features can be realized in a device for massaging (hereinafter simply referred to as "massager"), the pressing member of which is elongated with a shape adapted to massage a first body area. The elasticity of the pressing component is ensured by manufacturing materials, such as silicone rubber with Shore hardness of 20-80A, preferably Shore hardness of 40A, or an elastic component, such as a core rod made of metal or plastic. The pressing member is curved, preferably curved, and connected to the massaging member. The massage member has a movable joint with the pressing member, including an elastic joint, the pressing member being adapted to press the massage member against the second body area when the pressing member is moved over the first body area. This device is a versatile tool suitable for massaging. The massage member is placed at the body contact point and the first end of the pressing member is mounted at the beginning of the elongated body region, the pressing member is caused to rotate, by which rotating movement the first end thereof is propelled along the elongated body region, the pressing member straightens, at which time the massage member is caused to rotate.

Also, these basic features can be realized in a massage device having an additional member connected to the pressing member. The attachment member is 12 cm to 25 cm, preferably 18 cm long, straight or has a slight curvature, for example, bending along an arc of a circle having a radius of 20 cm to 60 cm, preferably 40 cm, with rigid or elastic characteristics sufficient to move along the first body region. The pressing member of the massager is curved in an arc, curved away from the additional member, e.g. curved along an arc with a radius of 2.5 cm to 6 cm, preferably 4.3 cm, at a bending angle of 90 degrees to 270 degrees, preferably 125 degrees, with sufficient elastic properties required for elastic bending along the additional member and restoring its original shape, and with sufficient force to press the massaging member to the second body area. The cross-section of the pressing member and the additional member is actually a portion of a circle, having an arc of 150 degrees to 270 degrees, preferably 180 degrees, with rounded corners, having a height of 0.5 cm to 4.5 cm, preferably 1.5 cm, and a width of 1 cm to 9 cm, preferably 3 cm. Furthermore, it is preferred to make its cross-section substantially form a full circle, since several parts of a circle form the outer surface of the member and are thus adapted to simulate the shape of a cylinder. In addition, the thickness of the pressing member can be increased by using a material having a low hardness of about 40 shore a, and an elastic core rod is not added inside, which is desirable when the massage portion of the device is integrally formed. Also, the thickness of the pressing member is about half of the total thickness of the pressing member and the additional member, which allows to obtain an optimal ratio between the longitudinal displacement of the massaging member and its lateral displacement. The first end of the pressing member is connected to the first end of the additional member by an end face. However, the longitudinal axis of the additional member is located almost in the bending plane of the pressing member. The joint forms a convex circular shape, in fact the distal end (front end, head) of the massaging device. The joint may be a body of revolution, for example, elliptical, having a first diameter of 2 cm to 6 cm, preferably 3.5 cm, and a second diameter of 3 cm to 9 cm, preferably 6 cm, and containing at least one electromechanical device for generating mechanical vibrations (hereinafter collectively referred to as "vibrator"), and the massager containing a power source and control device. Alternatively, the tab may be a projection. The massaging member functions as a contact point massager having a convex surface, in fact a rounded surface. The connection of the massage member and the second end of the pressure member may be a movable joint adapted to perform an angular movement or an axial movement, including a resilient movement, to ensure that the massage member is pressed against the second body area on the first body area during the translational movement of the connection of the first end of the elongated pressure member and the distal end of the first end of the additional elongated member. In some constructions, the massage member may be a continuation of the pressing member, in which case the massage member begins to perform its function at a point of origin adapted to be in contact with the second body region. Furthermore, the starting point of the surface adapted to massage the second body area is located near the junction of the first end of the elongated pressure member and the first end of the additional elongated member with a slight longitudinal displacement, so that said starting point contacts the second body area when the massage of the first body area is started. If a perpendicular is made from said point to the longitudinal axis of attachment of the elongated member, which axis is almost coincident with the direction of translational movement, the distance from the distal apex of the massager to the point of intersection with the perpendicular will be 0 cm to 9 cm, preferably 3.5 cm, and the distance from this point to the point of intersection of the perpendicular with the surface of attachment of the elongated member will be 2 cm to 5 cm, preferably 3.5 cm. Starting from said starting point, a circular arc-shaped massage surface with a radius of 1.5 cm to 4.5 cm, preferably 2.5 cm, 90 degrees to 330 degrees, preferably 240 degrees is formed on the curved plane of the pressing member. At this time, the center of the circular arc is directed toward a direction close to the vertical line, actually toward the first end of the pressing member, or is deviated from the vertical line by not more than 45 degrees in the longitudinal plane. The massage member may be smoothly connected with the second end of the pressing member to be integrally formed therewith, so that the second end of the pressing member functions as the massage member. The radius of the arc of the massaging members is smaller than the radius of the arc of the pressing members, and the members may be formed in the shape of a spiral, for example, interconnected by means of another arc having the arithmetic mean radius of the arc of the pressing members and the arc of the massaging members. In addition, the overall shape of these members may be any spiral, or an archimedean spiral, or a fermat spiral, or a combination thereof. The massage member may be shaped as a body of revolution, e.g. a sphere, and the pressing member surrounds the massage member, the angle of the surrounding including the reflex angle. Since the additional member is rigid and the pressing member is elastic, its performance can be ensured by making the elongated member in one piece from an elastically deformable material, for example silicone rubber with a shore hardness of 5A to 80A, preferably 40A, while the additional member may have a rigid core rod or inner housing and the pressing member may have an elastic material core or no elastic material core. This design allows the massage member to move a distance of less than 20 cm, preferably 15 cm, while allowing the massage device to reciprocate almost the same distance in the first body area. This may be achieved by an arcuate bending of the pressing member, which bends elastically along the additional member. In fact, the linearity of the additional member is obtained by the fact that the arcs of the pressing members are spread along the additional member, so that the shape of the two members is adapted to mimic the shape of a cylinder. In this case, the massage member rotates in the plane of the curvature of the pressure member, while the axis of rotation of the massage member remains at about the same distance from the direction of translational movement, whereby the massage member stays within the contact range with the second body area during the entire reciprocating movement of the massage device. This is achieved by sliding the distal end of the massage device by moving the joints of the two elongate members and pushing the joints of the members along the first body area by holding the second end of the attachment member, which may have a comfortable grip, such as a ball grip. At the start of the translational movement, the surface starting point of the massaging member is pressed against the second body area and the pressure member is pushed through the joint with the pressure member, which bends under the pushing force along the additional member. The arc length of the pressing member becomes small, and the pressing member pulls the massage member, rotating the massage member relative to the arc axis of the surface, commensurate with the arc length, and urging it toward itself. In fact, the firm point of the massage member moves in the direction of the translatory movement, so that the distance between the contact point of the massage surface with the second body area and the direction of the translatory movement is substantially the same during the entire movement of the massage member. This provides an advantage over a fixed joint which can only be moved proximally, which means that the pressing member needs to be lengthened, the radius of the arc increased and moved away from the direction of translational movement during deformation. When the distance of the translational movement desired by the user is reached, a reverse linear movement is transmitted to the additional member and, under the action of the spring force, the pressing member returns to its initial position and presses the massaging member to the second body area. The massage member does not lose contact with the second body area. Then, the reciprocating motion cycle of the massager is repeated, thereby transmitting the reciprocating motion to the massage member. Additionally, the massager and/or the first and second body regions may be lubricated to ensure that the massage surface of the device glides over the body region of the person.

In addition, the massager may contain all the components that are inherent in modern massage devices known in the art and having similar uses. In order to enhance the massaging effect, the massaging device may comprise at least one vibrator adapted to transmit a rotational movement to the vibration generating mass, for this purpose, for example, comprising a motor having an eccentric mass mounted on an output shaft of the motor, or adapted to transmit a reciprocating movement to the vibration generating mass, for this purpose, for example, comprising a coil member having a movable ferromagnetic core. The vibrator may be installed in the massage member, the connection region of the pressing member and the additional member, the pressing member, the additional member, the handle of the massage apparatus, individually or in batch, and may be built-in or detachable. In addition, the massager can have a surface heating function, a camera and a microphone, a light or sound control indicator, can be controlled through radio (Bluetooth), has the functions of communicating with a smart phone and the internet and transmitting data, has the functions of debugging and memorizing working modes, and has the functions of electric massage and vacuum massage. The massager or its components may be made of a material suitable for contact with the skin and mucous membranes, either monolithic or modular, or waterproof, simple in shape, composed of simple geometric figures, anatomically simulated body parts, or a combination thereof. The surface of the massager may be smooth or have a developed relief structure containing protrusions and/or depressions, matte, glossy or a combination thereof, and may be closed. To ensure power supply, the massager is equipped with a removable (replaceable) or built-in rechargeable power supply (hereinafter "battery"), such as a lithium ion power supply, which is electrically connected to the control device, the vibrator and other components of the apparatus. The storage battery can be connected to an external power supply through a USB cable through a built-in plug of the massager, can be charged through an external electric contact or a surface conductive part, can also be charged in a non-contact mode through induction, and has a support with a charger function.

The object and advantage of the manufacturing method is to obtain a massage device of simple design and thus simple operation, and to expand the technical functions, which is adapted to perform a reciprocating rotational movement, the angle of rotation comprising a reflex angle, while the circular member bears against the contact point, the elongated member transmitting the reciprocating rotational movement to the circular member when the elongated member performs the reciprocating movement on the elongated body area at the same time, such that the distance of movement of the elongated member is approximately equal to 8-12 cm, and the length of the arc formed by the massage surfaces of the circular member is also approximately equal to this distance. In this case, the massage device should be simple in construction, and the use and maintenance of the massage device can be simplified by using an elastic connection between the two members without using a mechanically movable joint.

This advantage can be achieved by making a massage device having the following basic features: a method for manufacturing a massage device is characterized in that: manufacturing a massage device comprising: an elongate compression member having a first end and a second end, an additional elongate member having a first end and a second end; the first end of the elongated pressing member is adapted to be connected to the first end of the additional elongated member; the connection of the elongated compression member and the additional elongated member is adapted to massage a first body region; the elongate compression member is adapted to resiliently flex along the additional elongate member and allow the first and second elongate members to massage a first body area together; said elongated pressing member comprises a massaging member adapted to massage a second body region; the massage member is adapted to move resiliently along the additional elongate member; the massage member has a convex curved massage face in the plane of the elongated pressing member. Another method of manufacturing a massage device, comprising the steps of: several components of the massage device are integrally made of silicone rubber with a shore hardness of 5A to 80A, preferably 40A, in a mould by means of heat vulcanization, then the additional elongated component is provided with a rigid mandrel, the mechanical vibration generating device is mounted at the connection area of the elongated pressure component and the additional elongated component, the mechanical vibration generating device is mounted on the massage component, the power supply control component is mounted at the second end of the additional elongated component, or these components are placed in the mould in advance, and then the silicone rubber is refilled and vulcanized using high temperature and high pressure.

Drawings

Figure 1 is a side view of a first variant of a massaging apparatus in the beginning;

figure 2 is a side view of the massaging apparatus at the end of a first variant of the massaging apparatus;

figure 3 is a side view of the massaging apparatus at the beginning of a second variant of the massaging apparatus;

figure 4 is a side view of the massaging apparatus at the end of a second variant of the massaging apparatus;

figure 5 is a side view of the massaging apparatus at the beginning of a third variant of the massaging apparatus;

figure 6 is a side view of the massage device at the end of a third variant;

figure 7 is a side view of the massaging apparatus at the beginning of a fourth variant of the massaging apparatus;

figure 8 is a side view of the massage device at the end of a fourth variant of the massage device;

fig. 9 is a side view of the massage apparatus at the beginning of a fifth modification;

fig. 10 is a side view of the massage device at the end of a fifth variant thereof;

fig. 11 is a side view of the massage apparatus at the beginning of a sixth variation thereof;

fig. 12 is a side view of the massage device at the end of a sixth variant.

Detailed Description

The first variant of the massage device is taken as an example to illustrate a specific embodiment of the invention. Fig. 1 shows a massage device 200 having an additional elongated member 202 in the form of a straight line, and a first end 204 and a second end 206 thereof. The elongate compression member 208 is curvilinearly curved along an arc having a first end 210 and a second end 212 that transitions into a massaging member 214 that includes a vibrator 216. The junction of the additional member and the pressing member forms a rounded projecting distal end 218 of the massage device, in which a vibrator 220 is provided. The second end 206 of the attachment member transitions into a handle 222 having a power control block 224 therein and switch/speed and mode control buttons 226 thereon. At the rear of the massage device is a plug 228 for connection to a charger. To begin translational movement, the massager 200 is positioned at the beginning 304 of the first body area region 302, towards the end point 306. At this point, the massage member 214 is located in the second body region 308. Fig. 2 shows the same massage device 200 of the base, with the member joint 218 pushed by the additional member 202 in the direction 301 of the translational movement along the first body area 302 when the user holds the handle 222 of the massage device 200 by hand. Under the action of the external force, the massaging members 214 bear against the second body area 308 while elastically pushing the pressure members 208, which stretch elastically along the additional member 202 and close to the additional member, forming therewith the shape of a cylinder. The arc formed by the pressing member deforms as the friction device moves, at which point the massaging member 214 performs a resilient angular movement relative to the pressing member 208, which resiliently presses the massaging member against the second body region 308, thereby ensuring continuous contact. The user determines the desired travel distance of the massage device 200 while affecting the amplitude of the reciprocating motion. When the end fitting 218 reaches the end point 306, the user controls the massage device to move backward, and the pressing member 208 returns to the original position, and the elasticity thereof ensures the pressing force required for the massage member 214 to press against the second body area 308. In addition, the user may experience not only the first body region but also the vibration function of the second body region, and by pressing the button 226 the speed, mode and combination may be selected.

A second variant of the massage device is taken as an example to illustrate a specific embodiment of the invention. Fig. 3 shows a massage device 400 having an additional elongated member 402 in the form of a linear member with a first end 404 and a second end 406. The elongated pressing member 408 is curved along an arc and has a first end 410 and a second end 412, the second end transitioning into a massaging member 414 comprising a vibrator 416 and a through hole 417 that fits over a joint 418 of the additional member and the pressing member, the joint forming the rounded convex distal end of the massaging device, inside which is disposed a vibrator 420. The second end 406 of the attachment member transitions into a handle 422 having a power control block 424 therein and switch/speed and mode control buttons 426 thereon. At the rear of the massage device is a plug 428 for connecting a charger. To begin the translational motion, the massager 400 is positioned at the beginning 504 of the first body area 500, towards the end 506. At this point, the massage member 414 is positioned in the second body region 508. Fig. 4 shows the same massaging device 400 with a translationally moving base, wherein the member joint 418 is pushed along the first body area 502 in the direction of translational movement 501 by the pushing action of the additional member 402 when the user holds the handle 422 of the massaging device 400 by hand. Under the action of the external force, the massaging members 414 bear against the second body area 508 while elastically pushing the pressure members 408, which stretch elastically along the additional member 402 and close to the additional member, forming therewith the shape of a cylinder. The arc formed by the pressing member deforms as the friction device moves, with the massage member 414 undergoing resilient angular movement relative to the pressing member 408, which resiliently presses the massage member against the second body region 508, thereby ensuring continued contact. The user determines the desired travel distance for the massage device 400 while affecting the amplitude of the reciprocating motion. When the end fitting 418 reaches the end point 506, the user controls the massage device to move backward, at which time the pressing member 408 returns to the initial position, the elasticity of which ensures that the massage member 414 presses against the second body area 508. Additionally, the user may experience not only the first body region but also the vibration function of the second body region, and by pressing button 426 the speed, mode and combination may be selected.

A third variant of the massage device is taken as an example to illustrate a specific embodiment of the invention. Fig. 5 shows a massage device 600 having an additional elongated member 602 in the form of a linear member with a first end 604 and a second end 606. The elongated pressing member 608 is curved in a helical curve and has a first end 610 and a second end 612, the second end being movably connected to a massage member 614 comprising a vibrator 616 and a control button 618, for which purpose the second end of the pressing member comprises a shaft 620, over which the massage member 614 is fitted by means of an aperture 622. The joint 624 of the additional member and the pressing member forms a circular protruding distal end of the massage device, in which a vibrator 626 is arranged. The second end 606 of the attachment member transitions into a handle 628 having a power control block 630 therein and switch/speed and mode control buttons 632 thereon. At the rear of the massage device is a plug 634 for connecting a charger. To begin translational movement, massager 600 is positioned at a beginning 704 of first body region 702, toward an end 706, in the direction of translational movement 701. At this point, the massage member 614 is located in the second body region 708. The direction of displacement of the attachment member 701 and the axis of displacement of the massage member 714 are purposely drawn, as well as the initial distance 716 between the origin of the massage surface and the most distant point of the joint 624. Fig. 6 shows the same massaging device 600 with a translationally moving base, wherein the member coupling 624 is urged in the direction of displacement 701 into the first body region 702 under the urging of the attachment member 602 when the user holds the handle 628 of the massaging device 600 by hand. Under the action of the external force, the massaging member 614 bears against and contacts the second body area 708, while elastically pushing the pressure member 608, which is elastically straightened along the additional member 602 and close to the additional member, forming therewith the shape of a cylinder. The helix formed by the pressing member 608 deforms as the friction device moves, as the massage member 614 rotates along the axis 620 relative to the pressing member 608, which elastically presses the massage member to the second body area 708, thereby ensuring continuous contact. As the length of the helix decreases and its axis rotates, the axis of rotation of the massage member 614 moves in the direction of displacement 714, nearly parallel to and in synchronism with the direction of displacement 701, by the same distance as the distance of displacement. During full displacement of the end fitting 624, the massaging member 614 moves linearly in the displacement direction 714 and is slightly offset with respect to the displacement direction 701. In this case, the effective displacement distance to ensure simultaneous massage rubbing of the first body region and vibro-impaction of the second body region is the difference between the initial distance 716 (fig. 5) and the final distance 718. The user determines the desired displacement distance of the massage device 600 and when the end fitting 624 reaches the end point 706, the user controls the massage device to move backward, at which time the pressing member 608 returns to the initial position, the resiliency of which ensures that the massage member 614 presses against the second body area 708. Additionally, the user may experience not only the first body area, but also the vibration function of the second body area, and by pressing buttons 618 and 632 the speed, mode of operation and combination may be selected.

A fourth variant of the massaging apparatus is taken as an example to illustrate a specific embodiment of the invention. Fig. 7 shows a massage device 800 having an additional elongated member 802 in the form of a linear member with a first end 804 and a second end 806. The elongated pressing member 808 is curved in a helical curve having a first end 810 and a second end 812 that smoothly transitions into a massaging member 814 integrally formed therewith. The junction of the additional member and the pressing member forms a rounded protruding front 816 of the massage device, in which a vibrator 818 is arranged. The second end 806 of the attachment member transitions into a handle 820 having a power control block 822 therein and switch/speed and mode control buttons 824 thereon. The back end of the massage device is provided with a plug 826 for connecting a charger. To begin the translational motion, the massager 800 positions the first body region 902 at the beginning 904, toward the end 906. At this point, the massage member 814 is located in the second body region 908. Fig. 8 shows the same massage device for displacing the root, with the member joint 816 pushed by the additional member 802 to advance along the first body region 902 in the displacement direction 901 when the user holds the handle 820 of the massage device 800 by hand. At this time, the massage member 814 bears against the second body region 908 while resiliently pushing the pressure member 808, which is resiliently straightened out along the additional member 802. The spiral line formed by the pressing members and the massaging members is spread out with the movement of the massaging device, and the convex massaging surface of the massaging member 814 turned towards the second body region 908 is turned around the second body region 908, thereby achieving continuous contact. The user determines the desired displacement distance of the massage apparatus 800 while varying the amplitude of reciprocation of the massage member 814. When the end fitting 816 reaches the end point 906, the user controls the massaging device to move backwards, at which point the resilience of the pressing member 808 causes the massaging member 814 to rotate in the opposite direction and return to its original position, while ensuring the pressing force required for the massaging member 814 to press against the second body region 908. Additionally, the user may experience a vibration function of the first body region, and by pressing button 824, speed and mode of operation may be selected.

A fifth modification of the massage apparatus is taken as an example to illustrate a specific embodiment of the invention. Fig. 9 shows a massage device 1000 having an additional elongated member 1002 in the form of a linear member and having a first end 1004 and a second end 1006. The elongated pressing member 1008 is curved along an arc having a first end 1010 and a second end 1012 smoothly transitioning into a massage member 1014 shaped as a rotating body with a laterally mounted foldable vibrator 1016 with an on/off button 1018. The junction of the additional member and the pressing member forms a rounded protruding front end 1020 of the massage device, in which a vibrator 1022 is arranged. The second end 1006 of the attachment member transitions into a handle 1024 having a power control block 1026 therein and switch/speed and mode control buttons 1028 thereon. The back end of the massage device is provided with a plug 1030 for connecting a charger. To begin translational movement, massager 1000 positions first body region 1102 against start point 1104 and toward end point 1106. At this point, the massage member 1014 is positioned in the second body region 1108. Fig. 10 shows the same massaging device with a translationally moving base, the member joint 1020 being pushed in the displacement direction 1101 over the first body area 1102 by the pushing action of the additional member 1002 when the user holds the handle 1024 of the massaging device 1000 by hand. At this time, the massage member 1014 abuts against the second body area 1108 while elastically pushing the pressing member 1008, which is elastically straightened along the additional member 1002 and approaches the additional member, forming a cylindrical shape therewith. The arc of the pressing member 1008 expands as the massage device moves, and the convex massage surface of the massage member 1014 that turns toward the second body region 1108 rotates about the second body region 1108 to achieve continuous contact. The user determines the desired displacement distance of the massage apparatus 1000 while varying the amplitude of the reciprocating motion of the massage member 1014. When the end fitting 1020 reaches the terminus 1106, the user controls the massage device to move backward, at which time the resiliency of the pressing member 1008 causes the massage member 1014 to rotate in the opposite direction and return to its original position, while ensuring the pressing force required by the massage member 1014 to press against the second body area 1108. Additionally, the user may experience not only the first body area, but also the vibration function of the second body area, and may select speed, mode of operation, and combination by pressing buttons 1028 and 1018.

A sixth modification of the massage apparatus is taken as an example to illustrate a specific embodiment of the invention. Fig. 11 shows a massage device 1200 having an additional elongated member 1202 in the form of a linear member with a first end 1204 and a second end 1206. The elongated pressing member 1208, which is almost the same thickness and cross section as the additional member, is curved along an arc, has a first end 1210 and a second end 1212, which smoothly transitions into a massage member 1214 in the shape of a rotator with a transversely mounted non-collapsible high power vibrator 1216 having an output shaft with an enlarged eccentric 1218. The junction of the additional member and the pressing member forms a rounded protruding front end 1220 of the massage device, in which a vibrator 1222 is provided. The second end 1206 of the attachment member transitions into a circular handle 1224 having a power control block 1226 therein and switch/speed and mode control buttons 1228 thereon. The back end of the massage device is provided with a plug 1230 for connecting a charger. Upon initiating translational movement, the massager 1200 is advanced along the massager displacement direction 1301 and along the second body region 1302 against the starting point 1304 toward the ending point 1306. At this point, the massage member 1214 is positioned in the second body region 1308. The additional member displacement direction 1301 and the massage member displacement direction 1314 are purposely drawn, as well as the initial distance 1316 between the beginning of the massage surface and the farthest point of the member joint 1220. The neutral position 1232 of the massage member 1214 and the direction 1232 of friction during translational movement of the member joint 1220 are purposely drawn. Fig. 12 shows the same massage device with a translational motion base, with the member joint 1220 pushed in the direction 1301 of the first body area 1302 under the pushing action of the additional member 1202 when the user holds the handle 1224 of the massage device 1200 by hand. At this point, the massage member 1214 bears against the second body region 1308 while resiliently urging the pressure member 1208, which resiliently straightens along the additional member 1202 and approaches the additional member, forming a cylindrical shape therewith. The arc of the pressing member 1208 expands as the massage device moves, and the convex massaging surface of the massage member 1214 that turns toward the second body region 1308 rotates about the second body region 1312 to achieve a continuous contact and friction massage. During the full translational movement of the end fitting 1220, the massage member 1214 swivels, with a swivel angle approximately commensurate with the deployment angle relative to the direction of movement of the massage member 1314, and with a slight offset relative to the attachment member displacement direction 1301. In this case, the effective displacement distance to ensure that the first body region and the second body region are simultaneously frictionally massaged is the difference between initial distance 1316 (fig. 11) and final distance 1318. The user determines the desired translational movement distance of the massage apparatus 1200 and the amplitude of its movement while varying the amplitude and duration of the reciprocating motion of the massage member 1214. When the end tab 1220 reaches the terminus 1306, the user controls the massage device to move backward, at which time the resiliency of the pressing member 1208 causes the massage member 1214 to rotate in the opposite direction and return to its original position, while ensuring the pressing force required to press the massage member 1214 against the second body region 1308. In addition, the user may experience not only the first body region but also the vibration function of the second body region, and may select speed, mode and combination by pressing the button 1228.

Embodiments of the present invention are not limited to the foregoing, but are contemplated based on an understanding of the state of the art, including indications of all necessary electromechanical components of the apparatus, printed circuit boards, microprocessors, communication devices, software, and functional connections between components of the apparatus. These embodiments of the invention are preferred and do not limit the implementation thereof, any combination of technical solutions, features, components and devices listed in the description and claims can be implemented in one device depending on their combination, their combination description in one device is suggestive, not limiting their implementation in another device having the same purpose, any modifications and improvements should be considered within the scope of protection of the present invention.

The claims (modification according to treaty clause 19)

1. An apparatus for massaging, comprising: a pressing member having an elongated shape, a curved curvature, and comprising a first surface area adapted to interact with a first body area; and a massage member connected to the pressing member and comprising a second surface area adapted to interact with a second body area; characterized in that the first surface area is adapted for translational movement along a first body area, for which purpose the pressure member is adapted to be elastically straightened during the translational movement, so that the second surface area is elastically pressed against a second body area during the translational movement.

2. The device of claim 1, wherein the first surface area is elongated having an arcuate curvature and the pressing member is elongated having a first end and a second end, the second end being connected to the massaging member and having an arcuate curvature, such as a C-shaped curvature, the pressing member being adapted to resiliently straighten out during the translational movement so that the first surface area has a shape substantially adhering to the first body area, such as a linear shape, and the pressing member being adapted to resiliently press and rotate the second surface area of the massaging member along the second body area as the translational movement progresses, and wherein the massaging member is pushed by the second body area so that the pressing member straightens out as the translational movement progresses, the pressing member moving the massaging member from a first position to a second position as the pressing member straightens out, the first position is where the massage member is close to the first end of the pressure member, the second position is where the massage member is remote from the first end of the pressure member, and during bending to the initial state the pressure member is adapted to move the massage member from the second position to the first position, thereby pressing and rotating the massage member along the second body region during a counter translational movement of the first surface region along the first body region.

3. An apparatus according to either of claims 1 or 2, wherein said first member is coupled to said additional member for ensuring that said first surface area performs said translational movement along said first body area.

4. An apparatus according to any of claims 1 or 2, characterized in that the apparatus is made of an elastically deformable material, such as silicone rubber, that the pressure member is curved in an arc, and that the apparatus comprises an electromechanical device for generating mechanical vibrations, which electromechanical device is adapted to transmit a rotational movement to a shock generating mass, for which purpose, for example, the electromechanical device comprises a motor with an eccentric mass mounted on an output shaft of the motor, or is adapted to transmit a reciprocating movement to a shock generating mass, for which purpose, for example, a coil member with a movable ferromagnetic core is included, and that the apparatus is provided with power supply means, including power supply means adapted for repeated use, and with electronic control means, including remote control means, with an elastic push button and an optical indicator, and means for receiving the electric current, with the necessary electrical connections between said means.

5. An apparatus for massaging, comprising: an elongated compression member having a first end and a second end; an additional elongated member having a first end and a second end; a massage member; with the first end of the elongated pressing member being connected to the first end of the additional elongated member, the connection of the elongated pressing member and the first end of the additional elongated member being adapted to cause a translational movement of the two connected ends along a first body area, and the massaging member being adapted to interact with a second body area, characterized in that the elongated pressing member is curved and during said translational movement is elastically straightened along the additional elongated member, while the second end of the elongated pressing member is connected to the massaging member and the connection is adapted to press the massaging member against the second body area during said translational movement.

6. The device of claim 5, wherein the massage member is adapted to be pushed by a second body region during the translational movement, thereby straightening the elongated pressing member, the additional elongated member being adapted to move the massaging member from a first position to a second position during said straightening, the first position being where the massage member is proximate to a first end of the elongated pressing member, the second position being where the massage member is proximate to a second end of the additional elongated member, and the elongated pressing member is adapted to move the massaging member from the second position to the first position during bending to the initial position, thereby causing the massage member to press against the second body region during a counter translational movement of the first end connection ends of the elongated pressure member and the additional elongated member along the first body region.

7. A device according to any one of claims 5 or 6, characterized in that it is made of an elastically deformable material, such as silicone rubber, said elongated pressure member being curved in an arc, having a substantially semicircular cross section, said additional member having the same cross section, while said massaging member is movably connected to the second end of said elongated pressure member and comprises a massaging device, such as a vacuum massaging device, the second end of said additional elongated member being connected to a handle adapted to hold said device and having a rigid inner casing extending from the junction of said elongated pressure member and the first end of said additional elongated member up to said handle, said junction of said first end having mounted therein electromechanical means adapted to generate mechanical vibrations, said handle having mounted therein power supply means adapted to be reused, control equipment, including remote control equipment, and equipment connected to an external power source, with the necessary electrical connections between the electrical components.

8. An apparatus for massaging, comprising: an elongated compression member having a first end and a second end; an additional elongated member having a first end and a second end; a massage member; with the first end of the elongated compression member connected to the first end of the additional elongated member, the connection of the elongated compression member and the first end of the additional elongated member being adapted for translational movement along a first body region, the massage member being adapted to interact with a second body region, wherein the elongate pressing member is curved and resiliently straightens along the additional elongate member during the translational movement, at the same time, the massage member comprises a surface massage area, the surface massage area is in an arc shape and is a convex part on the curved bending plane of the slender pressing member, the second end of the elongated pressing member is connected to the massaging member and during the translational movement, the connection is adapted to press the massage member against the second body region and to cause rotational movement of the surface massage region along the second body region.

9. The apparatus according to claim 8, wherein during the translational movement the massaging member is adapted to be pushed by a second body region, thereby straightening the elongated pressing member, and wherein the elongated pressing member is adapted to move the massaging member from a first position, in which the massaging member is close to the first end of the additional elongated member, to a second position, in which the massaging member is close to the second end of the additional elongated member, when said straightening takes place, and wherein during the bending to the initial position the elongated pressing member is adapted to move the massaging member from the second position to the first position, thereby pressing the massaging member against the second body region during a counter translational movement of the connecting ends of the additional elongated member and the elongated pressing member along the first body region, at the same time, the surface area is adapted to rotate away from the attachment member during movement from the first position to the second position and to rotate towards the attachment member during movement from the second position to the first position.

10. A device according to any one of claims 8 or 9, characterized in that it is made of an elastically deformable material, such as silicone rubber, said elongated pressure member being curved in an arc, having a substantially semicircular cross section, said additional member having the same cross section, while said massaging member is smoothly and elastically connected to the second end of said elongated pressure member and comprises a first electromechanical device adapted to generate mechanical vibrations, the second end of said additional elongated member being connected to a handle adapted to hold said device and having an inner rigid housing extending from the junction of said elongated pressure member and the first end of said additional elongated member up to said handle, said junction of said first end having mounted therein a second electromechanical device adapted to generate mechanical vibrations, said handle having mounted therein a power supply device adapted to be reused, control equipment, including remote control equipment, and equipment connected to an external power source, with the necessary electrical connections between the electrical components.

11. A method for manufacturing a device for massaging, characterized in that the device of claim 1 is obtained by means of a process operation.