Penis massager

A penis massager includes a housing, a massager member and a driving apparatus. The massager member includes a first massaging portion and a second massaging portion which are separately arranged. A space for inserting of the penis is defined between the first massaging portion and the second massaging portion. The driving apparatus is in transmission connection with the first massaging portion and the second massaging portion respectively for driving the first massaging portion and the second massaging portion to reciprocate in an axial direction of the housing. A movement direction of the first massaging portion is opposite to that of the second massaging portion.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to Chinese Patent Application No. 202320429670.X filed on Mar. 8, 2023, the entire contents of which are hereby incorporated by reference.

TECHNICAL FIELD

The present invention relates to the technical field of massage devices, more particularly relates to a penis massager.

BACKGROUND

Penis massagers are configured for simulating a vaginal environment and providing a massaging stimulation to the male genitalia. Generally, the penis massager includes a housing and a soft sleeve being movably mounted in a housing. During sexual intercourse, the sleeve generates a movement, such as an axial reciprocation relative to the penis to simulate a thrusting motion. However, the penis massagers in the related art are simple in structures and the stimulations to the penises are not sufficient, so that the user experience is poor.

SUMMARY

An object of an embodiment of the present invention is to provide a penis massager with good user experience.

In order to achieve the above-mentioned object, the present invention provides a penis massager, including:

a housing;

a massager member including a first massaging portion and a second massaging portion which are separately arranged, and a space for inserting of the penis being defined between the first massaging portion and the second massaging portion; and

a driving apparatus arranged in the housing, the driving apparatus being in transmission connection with the first massaging portion and the second massaging portion respectively for driving the first massaging portion and the second massaging portion to reciprocate in an axial direction of the housing, a movement direction of the first massaging portion being opposite to that of the second massaging portion.

Compared with the prior art, the penis massager of the present invention has the following beneficial effects: enhancing the stimulation to the male genital and improving the user experience, which is realized in such a way that the massager member and the driving apparatus are arranged in the housing, and the driving apparatus drive the first massaging portion and the second massaging portion of the massager member to reciprocate in the axial direction to complete the rubbing action on the penis of the penis massager.

DESCRIPTION OF THE EMBODIMENTS

In order to make technical problems, technical solutions and beneficial effects to be solved in the present invention clearer, the present invention will be further described below in detail in conjunction with accompanying drawings and embodiments. It should be understood that specific embodiments described herein are only used to explain the present invention and not to limit the present invention.

It should be noted that when an element is referred to as “fixed to” or “arranged on” another element, it may be directly or indirectly on another element. When an element is referred to as “connected to” another element, it may be directly or indirectly connected to another element.

It should be understood that the orientational or positional relationship indicated by terms “length”, “width”, “up”, “down”, “front”, “back”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inside”, “outside”, and the like is based on the orientational or positional relationship shown in the accompanying drawings, and is only for the sake of describing the present invention and simplifying the description instead of indicating or implying that the apparatus or element referred to must have a specific orientation, and must be constructed and operated in a specific orientation, so it cannot be understood as a limitation of the present invention.

Also, terms “first” and “second” are only used for describing purposes, and cannot be understood as indicating or implying relative importance or implying the number of technical features indicated. Therefore, features defined with “first” and “second” can explicitly or implicitly include one or more of these features. In the description of the present invention, “a plurality of” means two or more, unless otherwise specified.

Referring toFIG.1toFIG.3, a penis massager according to an embodiment of the present invention is shown. The penis massager includes a housing10, a massager member20and a driving apparatus30. The housing10is generally cylindrical-shaped. A front end of the housing10defines an accommodating space therein. An end cover13is detachably connected to the front end of the housing10to seal the accommodating space. A pad111is arranged in the accommodating space at the front end of the housing10, and an inlet112for inserting of the penis is provided in the middle of the pad111. Preferably, the pad111is made of soft materials, such as soft rubber.

The massager member20and the driving apparatus30are both arranged in the housing10. The massager member20includes a first massaging portion201and a second massaging portion202which are separately arranged. A space for inserting of the penis is defined between the first massaging portion201and the second massaging portion202. That is, the penis extends through the inlet112at the front end of the housing10into the space between the first massaging portion201and the second massaging portion202. At this time, the penis is clung to inner walls of the first massaging portion201and the second massaging portion202.

The driving apparatus30is in transmission connection with the first massaging portion201and the second massaging portion202. The driving apparatus30is configured to drive the first massaging portion201and the second massaging portion202to reciprocate in an axial direction of the housing10, and a movement direction of the first massaging portion201is opposite to that of the second massaging portion202. In this way, when the penis is inserted into the housing10, the first massaging portion201and the second massaging portion202of the massager member20can repeatedly rub the penis, which enhances the stimulation intensity of the penis, and in turn improves the user experience.

Compared with the prior art, the penis massager of the present invention has the following beneficial effects: enhancing the stimulation to the male genital and improving the user experience, which is realized in such a way that the massager member20and the driving apparatus30both are arranged in the housing10, and the driving apparatus30drive the first massaging portion201and the second massaging portion202of the massager member20to reciprocate in the axial direction of the housing10to complete the rubbing action of the penis massager20to the penis.

With reference toFIG.2toFIG.4, the driving apparatus30includes a power source310. The power source310includes a first output shaft311and a second output shaft312which extend from two different sides. The first output shaft311is in transmission connection with the first massaging portion201through a first transmission mechanism320. Alternately, the first transmission mechanism320and the first massaging portion201may be connected to each other directly or indirectly through other connecting components. The second output shaft312is in transmission connection with the second massaging portion202through a second transmission mechanism330. Alternately, the second transmission mechanism330and the second massaging portion202may be connected to each other directly or indirectly through other connecting components. In particular, the power source310may be a structure with one or two motors313.

With reference toFIG.2,FIG.5andFIG.6, in this embodiment, the driving apparatus30is a structure with a single motor. Particularly, the power source310includes a motor313, a worm rod314, a worm wheel315and a transmission shaft316. The worm wheel315is fixedly mounted around the transmission shaft316. One end of the worm rod314is connected to an output shaft of the motor313. Teeth of the worm rod314are meshed with teeth of the worm wheel315. One end of the transmission shaft316acts as the first output shaft311, and the other end of the transmission shaft316acts as the second output shaft312. An axial direction of the transmission shaft316is parallel to a width direction of the housing10, and an axial direction of the output shaft of the motor313is perpendicular to the axial direction of the transmission shaft316.

When the motor313is started, the output shaft of the motor313drives the worm rod314to rotate, in turn the worm rod314drives the worm wheel315to rotate, and finally drives the transmission shaft316to rotate. One end of the transmission shaft316drives the first massaging portion201to reciprocate in the axial direction within the housing10through the first transmission mechanism320, and the other end of the transmission shaft316drives the second massaging portion202to reciprocate in the axial direction within the housing10through the second transmission mechanism330. In this embodiment, the first massaging portion201and the second massaging portion202are driven by one motor313, and thus, simple structure and low cost are achieved.

It may be understood that the driving apparatus30with a single motor can be provided without the worm rod314, the worm wheel315and the transmission shaft316, for example, a motor with double output shafts is employed, wherein the double output shafts extending from its two different sides, respectively act as the first output shaft311and the second output shaft312respectively, which can drive the first massaging portion201and the second massaging portion202as well.

Particularly, a fixed housing340is arranged in the housing10, and the motor313is fixed in the fixed housing340with a tail end of the output shaft being arranged obliquely upwards. The worm wheel315is connected to and mounted around the middle of the transmission shaft316. Sleeves317are rotatably connected to and mounted around two ends of the transmission shaft316, respectively. The two ends of the transmission shaft316are rotationally connected to the fixed housing340through the sleeves317. Vias configured for mounting the sleeves317are provided in the left side and the right side of the fixed housing340, respectively. One of the sleeves317is fixed in the via at the left side of the fixed housing340and the other sleeve317is fixed in the via at the right side of the fixed housing340. The ends of the transmission shaft316are rotationally connected to the transmission mechanisms on the corresponding sides after extending out from the sleeves317.

With reference toFIG.2,FIG.5andFIG.7, a partitioning plate15is arranged in the housing10and separates an inner cavity of the housing10into a first chamber101and a second chamber102. The massager member20is accommodated in the first chamber101, and the power source310is accommodated in the second chamber102. The motor313, the worm rod314, the worm wheel315, the transmission shaft316and the fixed housing340are accommodated in the second chamber102.

With reference toFIG.3toFIG.5, in this embodiment, the first transmission mechanism320and the second transmission mechanism330are the same in structure. Each of the first transmission mechanism320and the second transmission mechanism330includes a connecting rod assembly321and a connecting shaft322. One end of the connecting rod assembly321is rotationally connected to the first output shaft311or the second output shaft312of the power source310, and the other end of the connecting rod assembly321is hinged with one end of the connecting shaft322. The other end of the connecting shaft322is connected to the first massaging portion201or the second massaging portion202after sliding through the partitioning plate15. The connecting shaft322is arranged to be parallel to the axial direction of the housing10. The motor313drives the connecting shaft322to linearly move through the worm wheel315, the worm rod314, the transmission shaft316and the connecting rod assembly321, and in turn drives the first massaging portion201and the second massaging portion202to reciprocate in the axial direction. It may be understood that the first transmission mechanism320and the second transmission mechanism330may be different in structures.

The connecting rod assembly321may be a structure in the form of two sections. Particularly, the connecting rod assembly321includes a first connecting rod3211and a second connecting rod3212. One end of the first connecting rod3211is rotationally connected to the first output shaft311or the second output shaft312, one end of the second connecting rod3212is hinged with the other end of the first connecting rod3211, and the other end of the second connecting rod3212is hinged with one end of the connecting shaft322. In this way, a rotary motion of the transmission shaft316is converted into a linear motion through the connecting rod assembly321. That is, the connecting rod assembly321drives the connecting shaft322to move linearly, and in turn drives the first massaging portion201and the second massaging portion202to reciprocate in an axial direction.

The massager member20may be an integrated structure or a split structure.

In this embodiment, the massager member20is an integrated structure. Particularly, the massager member20is cylindrical-shaped. The first massaging portion201and the second massaging portion202of the massager member20are two seperate portions on an inner wall of the massager member20, and the first massaging portion201and the second massaging portion202are axially retractable relative to the massager member20. That is, the massager member20is an integrated structure. An outer wall of the massager member20is made of a hard material and is fixedly connected to the housing10. The first massaging portion201and the second massaging portion202on the inner wall of the massager member20are elastic and retractable axially relative to the outer wall of the massager member20. When the driving apparatus30is started, the outer wall of the massager member20does not move while the first massaging portion201and the second massaging portion202which are separately arranged inside the massager member20are retractable axially to repeatedly perform the rubbing action on the penis inserted into the massager member20.

With reference toFIG.2toFIG.4andFIG.7, in this embodiment, the massager member20is a split structure. Particularly, the massager member20includes two pads21arranged in the housing10and spaced from each other in a width direction of the housing10. The two pads21each have a C-shaped cross section. The two pads21are slidably arranged in the housing10. One pad21acts as the first massaging portion201and the other pad21acts as the second massaging portion202. The driving apparatus30is in transmission with the two pads21, so as to drive the two pads21to reciprocate in an axial direction within the first chamber101of the housing10.

Preferably, a plurality of massaging bulges211are provided on inner wall surfaces of the two pads21respectively, which can improve the massaging effect on the penis.

Particularly, a mounting frame14is arranged in the housing10, and the two pads21are slidably connected to two different sides of the mounting frame14, respectively. As shown inFIG.2, the mounting frame14has a generally U-shaped longitudinal cross section, and the two pads21are arranged on the left side and the right side of the mounting frame14at intervals.

With reference toFIG.2toFIG.4, preferably, sliding blocks23are respectively slidably connected to two different sides of the mounting frame14, and the two pads21are respectively detachably connected onto the sliding blocks23on two sides. The driving apparatus30is in transmission connection with the sliding blocks23, such that when the driving apparatus30drives the sliding blocks23to slide back and forth on the mounting frame14, the two pads21are driven to reciprocate in the axial direction to complete the rubbing action on the penis.

Mounting blocks235are convexly arranged on outer side walls of the sliding blocks23. The front ends of the connecting shafts322are fixedly connected to the mounting blocks235by screws. In this way, the connecting shafts322are fixedly connected to the sliding blocks23. The partitioning plate15is provided with through holes for sliding of the connecting shafts322therethrough, and a rear side of the partitioning plate15is provided with extending sections150in the through holes, and the connecting shafts322are matched with the extending sections150in a sliding manner. The extending sections150may be integrally formed with the partitioning plate15, or the extending sections150may be fixed onto the partitioning plate15by screws. The guidance of the connecting shafts322may be improved by the extending sections150on the partitioning plate15, such that the connecting shafts322can stably move back and forth in a direction parallel to the axis direction of the housing10.

With reference toFIG.2,FIG.4andFIG.8, sliding rods141are respectively arranged on two different outer sides of the mounting frame14. One end of each sliding rod141is fixed to a rear side of a front end of the mounting frame14, and the other end of each sliding rod141is fixed to a front side of the partitioning plate15. Strip-shaped holes142are provided in positions of the mounting frame14corresponding to the sliding rods141. Connecting portions230are disposed on outer side walls of the sliding blocks23, and the connecting portions are slidably connected to the sliding rods141after passing through the strip-shaped holes142. In this embodiment, two sliding rods141are disposed on the left side and the right side of the mounting frame14respectively, one sliding rod141is close to a bottom of the mounting frame14, and the other sliding rod141is close to a top of the mounting frame14. The sliding blocks23are slidably mounted on the mounting frame14through the upper sliding rod and the lower sliding rod141. In this way, when the driving apparatus30drives the sliding blocks23to slide back and forth on the mounting frame14, the massager member20is driven to reciprocate in the axial direction of the housing10.

With reference toFIG.1toFIG.3andFIG.7, the housing10includes a front housing11and a rear housing12connected to the front housing11. The front housing11is located at a front side of the rear housing12, and the partitioning plate15is located at a rear end of the front housing11. The front housing11forms the first chamber101in a surrounding manner, and the second chamber102is formed between the rear housing12and the partitioning plate15in a surrounding manner. The front end of the front housing11has an accommodating space, and an end cover13covers the accommodating space at the front end of the front housing11. A surface cover110is detachably mounted on a top surface of the front housing11. After the surface cover110is removed, the massager member20may be removed from the front housing11.

The rear housing12is internally provided with a circuit board120and a rechargeable battery. The rechargeable battery and the motor313are both electrically connected to the circuit board120. A charging interface121is disposed at a rear end surface of the rear housing12, and a flexible sealing cover122is arranged at the charging interface121. The sealing cover122may be rotationally opened or closed. When the sealing cover122is opened, the rechargeable battery may be charged through the charging interface121. The rear housing12is provided with a control panel123, a plurality of function keys124extending from a top surface of the rear housing12are arranged on the control panel123, such as an on/off key, a power add/subtract key, and the like.

With reference toFIG.8toFIG.10, a fixed frame22is embedded in inner walls of the pads21. The fixed frame22has clamping blocks220extending out from outer wall surfaces of the pads21. The clamping blocks220are detachably connected to the sliding blocks23, and the clamping blocks220and the sliding blocks23may be connected by snapping-fit, or by a connecting member or other connecting components. In this embodiment, the fixed frame22and the pads21are integral by injection molding. The fixed frame22is provided with a plurality of spaced strip-shaped holes which make the fixed frame22be a hollow structure. In this way, the fixed frame22may be stably engaged with the pads21after injection molding.

Particularly, the fixed frame22has a plurality of clamping blocks220arranged at intervals. In this embodiment, the fixed frame22is provided with two clamping blocks220at intervals, such that the pads21may be stably mounted on the sliding blocks23, and the difficulty of mounting the pads21may be reduced.

Particularly, inserting blocks24are snapped on the sliding blocks23. The sliding blocks23are provided with a plurality of through holes231, and the through holes231are in one-to-one correspondence with the clamping blocks220. The clamping blocks220are inserted into the through holes231in the corresponding positions. One end of each of the inserting blocks24abuts against the clamping block220, and the inserting blocks24are configured to fix the clamping blocks220at the corresponding through holes231of the sliding blocks23.

During assembly, the clamping blocks220of the fixed frame22are aligned with the corresponding through holes231of the sliding blocks23, and the inserting blocks24are snapped on the sliding blocks23after the clamping blocks220are inserted into the corresponding through holes231. At this time, the inserting blocks24are located between the sliding blocks23and the pads21, and the clamping blocks220abut against the through holes231of the sliding blocks23by means of the inserting blocks24, such that fixed assembly between the fixed frame22and the sliding blocks23is achieved, and further, fixed assembly between the pads21and the sliding blocks23is achieved. In this embodiment, two clamping blocks220are arranged on the fixed frame22at intervals, bottom ends of the inserting blocks24abut against the two clamping blocks220, and further, the clamping blocks220abut against the through holes231of the sliding blocks23.

Preferably, the sliding blocks23are provided with engaging portions232at the through holes231, and annular grooves224are provided in outer peripheral walls of the clamping blocks220, the annular grooves224have a width matching with the engaging portions232. The engaging portions232are inserted into the annular grooves224, and the engaging portions232are in clearance fit with the annular grooves224. By means of the clearance fit of the engaging portions232and the annular grooves224, the fixed frame22is more stable after being mounted on the sliding blocks23, and the pads21will not shake leftwards and rightwards during movement.

With reference toFIG.10toFIG.13. In this embodiment, the clamping blocks220are column-shaped as a whole. Each of the clamping blocks220includes a large-diameter end221, a connecting section222and a small-diameter end223which are connected in turn, all of them are column-shaped and are arranged coaxially. A diameter of the large-diameter end221is greater than that of the small-diameter end223, and the diameter of the small-diameter end223is greater than that of the connecting section222. One end of the large-diameter end221is connected to the fixed frame22. An annular groove224is formed between the large-diameter end221and the small-diameter end223around the connecting section222. The small-diameter end223is inserted into the through hole231of the sliding block23. The large-diameter end221is located inside the sliding block23and is not inserted into the through hole231. The through hole231of the sliding block23is generally in a shape of a runway. A length of the through hole231in an up-down direction is greater than a width in a left-right direction.

Two sides of each of the engaging portions232are opened. A bottom of each of the engaging portions232forms a profile suitable for the small-diameter end223of the clamping block220to pass through. Two arc-shaped clamping accommodating spaces241are spaced at bottoms of the inserting blocks24, and the clamping accommodating spaces241of the inserting blocks24abut against the outer peripheral walls of the large-diameter ends221of the inserting blocks220. During assembly, the small-diameter ends223of the clamping blocks220are inserted from the tops of the through holes231, and then, the clamping blocks220moves downwards to make the annular grooves224of the clamping blocks220be clamped on the engaging portions232, and then, the inserting blocks24are inserted to a position between the sliding blocks23and the pads21, so that the inserting blocks24are snapped on the sliding blocks23. In this way, a mounting operation between the pads21and the sliding blocks23is completed.

With reference toFIG.9,FIG.10andFIG.14, clamping grooves233are provided in inner wall surfaces of the sliding blocks23, inverted buckles240connected to the clamping grooves233in a snap-fit manner are disposed on positions of outer side walls near tops of the inserting blocks24, and hooking portions of the inverted buckles240are located on upper sides thereof. The inserting blocks24are detachably connected to the sliding blocks23in a snap-fit manner. When the pads21are required to be removed, firstly, the inserting blocks24are removed from the sliding blocks23, and then, the clamping blocks220of the fixed frame22are removed from the sliding blocks23.

In this way, the pads21are removed from the sliding blocks23. It may be understood that the sliding blocks23may be detachably connected to the clamping blocks220of the fixed frame22in other manners. For example, a locking mechanism is arranged on each of the sliding blocks23. Each of the locking mechanisms has a locking state and an unlocking state. When the locking mechanism is in the locking state, the locking mechanism will clamp the clamping blocks220of the fixed frame22onto the sliding blocks23. When the locking mechanism is in the unlocking state, the clamping blocks220of the fixed frame22may be removed from the sliding blocks23, and in turn, the pads21may be removed from the sliding blocks23.

With reference toFIG.4,FIG.11andFIG.12, notches242are provided in bottoms of the inserting blocks24. Convex portions234matched with the notches242of the inserting blocks24in terms of profiles are disposed on inner side walls of the sliding blocks23, and the notches242of the inserting blocks24abut against the convex portions234. When the tops of the inserting blocks24are connected to the sliding blocks23in a snap-fit manner, the bottoms of the inserting blocks24just abut against the convex portions234of the sliding blocks23, and thus the inserting blocks24may be more stably mounted on the sliding blocks23. When the sliding blocks23slide back and forth on the mounting frame14, the inserting blocks24are not easy to loosen or fall off. In this embodiment, the notches242in the bottoms of the inserting blocks24are arc-shaped, and the top surfaces of the convex portions234are arc-shaped, which facilitates the operation of connecting the inserting blocks24to the sliding blocks23in a snap-fit manner.

With reference toFIG.9,FIG.11andFIG.14, surrounding edges243are disposed at positions of inner side walls near tops of the inserting blocks24. In this way, the inserting blocks24may be easily removed from the sliding blocks23through the surrounding edges243, and then the pads21may be removed from the sliding blocks23. Preferably, notches are provided in tops of the sliding blocks23, arc-shaped grooves244concaved downwards are provided in positions of tops of the inserting blocks24corresponding to the notches, the arc-shaped grooves244extend to top surfaces of the surrounding edges243. As such, when the inserting blocks24are removed from the sliding blocks23with two fingers in a buckling manner, part of one of the fingers is located in the arc-shaped grooves244, and the other finger is buckled up on the surrounding edges243, such that the inserting blocks24may be easily pulled out of the sliding blocks23.

That is, by means of the notches in the tops of the sliding blocks23and the arc-shaped grooves244in the inserting blocks24, the fingers can conveniently extend and exert a force to the inserting blocks24, thereby reducing the difficulty of removing the inserting blocks24from the sliding blocks23. In this embodiment, the surrounding edges243of the inserting blocks24extend from tops to bottoms of the inserting blocks24, and portions of the surrounding edges243extending to the bottoms are set as a gradual structure, and the width of the gradual structure gradually decreases from the top to the bottom. The bottom of the surrounding edge243of this part is clung to the outer wall surface of the pad21, and a gap exists between the top of the surrounding edge243of this part and the outer wall surface of the pad21, which makes the overall structure of the sliding block23and the pad21compact enough after assembly. At the same time, the inserting block24may be easily removed from the sliding block23in a buckling manner.

With reference toFIG.15andFIG.16, in this embodiment, the driving apparatus30of the penis massager is a structure with two motors. The two motors350are spaced in the second chamber of the housing. The two motors350are transversely fixed in the fixed housing340at intervals, and the output shafts of the two motors350extend out from the left side and the right side, respectively. The output shaft of one motor350extending from the left side of the fixed housing340is rotationally connected to the first transmission mechanism320, and the output shaft of the other motor350extending from the right side of the fixed housing340is rotationally connected to the first transmission mechanism330. The output shaft of one motor350acts the first output shaft311, and the output shaft of the other motor350acts the second output shaft312.

The above is only a better embodiment of the present invention and is not intended to limit the present invention. Any modification, equivalent replacement and improvement made within the spirit and principle of the present invention shall be included in a scope of protection of the present invention.