This invention relates to an improved sex toy of the kind known as male masturbators, able to reproduce specifically on the male sexual organ an effect similar to the fellatio.
Adult sex toys of the kind of male masturbators have been known for a long time. Also known are sex toys able to recreate an effect similar to the fellatio, commonly known as “blow job simulators”. The fellatio reproduces the penetration movement with the difference that it also stimulates the male sexual organ thanks to the pressure of the lips on the penis. This effect is recreated by the elastic elements located on the open extremity of the male masturbators.
One of the most common types consists of a rigid cylindrical container in which the male sexual organ is inserted. Said rigid container is hollow and equipped with pneumatic systems changing the internal pressure and therefore increasing the pressure on the male organ and ensuring pleasure with a delicate aspiration. US2009/0099413 A1 describes a sex toy comprising a hollow container, at least one inner element, some protrusions on the inner element, a long pitch screw and means for moving said long pitch screw. Said container has an open end and a closed end including a threaded hole at its center. The pressure variation inside the container is obtained through a mechanism formed by a screw passing through the threaded hole of the closed end of the container and a cup. The screw rests against the cup. A more cost-effective method for applying radial pressure is to connect the screw to the closed end of the inner element. The operation is such that the movement of the screw applies a tension force along the longitudinal axis of the inner element.
In other cases, the pressure variation inside the container is created by an air bellow located at the base of the container or by a hollow sphere linked by a tube to the upper end of the container. An example of a container with this kind of pressure variation is described in US2006235266. Containers with this kind of pneumatic system are equipped with a manually activated valve that allows the air to come back to the container, reducing the internal pressure and allowing the removal of the penis.
The rigid container presents an inner element molded in such a way as to reproduce the female sexual organ. In US2009/0099413 A1 said inner element is a flexible synthetic or organic sheath including a body and a head; the body has a cylindrical shape and its open proximal end is surrounded by a semi-rigid flange element; the distal end of the body is a unit with the head; the head has a projection on distal end thereof; the head projection includes at least one seat which houses a restraining element placed at one end of the screw. The inner liner is constructed from suitable self-lubricating, easily cleanable materials appropriate for its application.
Some sex toys also present additional elements to increase the contact with the male organ. The same US2009/0099413 A1 describes protrusions being made of synthetic material and having a lenticular or spherical cap shape on the inner element. Other examples of sex toys with this kind of elements are described in GB 2271511, WO2010082316 and JP2008148774.
Some of these sex toys involve the use of lubricant creams to reduce the friction between the parts and to increase the user's pleasure thanks to their components.
It is the object of the present invention to create a sex toy of the kind commonly known as “blow job simulator” able to recreate on the male sexual organ an effect similar to the fellatio and therefore acting not only at the base of the male organ but all along it.
This and other objects are obtained by the present sex toy, comprising of a hollow container, a first inner element, a second inner element, a long pitch screw, means for moving the long pitch screw and two lubricating systems.
The hollow container is preferably cylindrical with an open end.
On the internal walls of the hollow container there is at least one seat, opening towards the inner part of the container itself. Said at least one seat preferably continues along the whole internal perimeter of the container. The closed end of the container presents a treaded hole.
The wall of the container presents protrusions towards its inner part. Said protrusions are made of synthetic material and have preferably a lenticular shape or a spherical cap shape. Said protrusions are whether one-piece on the inner walls of the container or autonomous and linked to the walls before using.
The first and the second inner element are coaxial with the container. The first inner element is made of a flexible synthetic or organic sheath including a body and a head. The body has a cylindrical shape with an open first end surrounded by a semi-rigid flange element protruding outwards. The second end of the body is a unit with the head. The head has a wider diameter than the body and presents a projection on its distal end. Said head projection could be thicker than the rest of the head and of the body. The head projection is crossed by a channel. In the head projection there is at least one seat holding the restraining element of the long pitch screw. The first inner element can be interchangeable.
The first lubricating system consists of at least one cavity and some micro-holes. Said cavity is located inside the walls of the body of the first inner element. Each cavity is linked to the internal part of the body by means of micro-holes opening on the wall separating the cavity from the internal part of the body. Inside each cavity there are single or bicomponent lubricant substances. In the first case, the mix due to the compression generates heat. In the second case, the lubricant substances are warmed by electrical resistances inserted in the body of the first inner element, alimented through power supply or electric accumulators. The second inner element consists of a hollow cup made of flexible and semi-rigid organic or synthetic material in the shape of a truncated ellipsoid of rotation. The second inner element is located between the first inner element and the walls of the container. The second inner element can be a one-piece body or can be formed by at least two foils linked one another at a distal extremity. Said foils might be of different width, length and degree of flexibility. Each foil might present a fringed free extremity. The second inner element has a central threaded hole in the distal end.
The hollow long pitch screw presents a restraining element at the extremity internal to the container. The screw goes through the threaded hole on the closed extremity of the container, the threaded hole located on the distal end of the second inner element, the restraining element located at its extremity internal to the container and enters in the seat of the head projection of the first inner element temporarily holding the first inner element to the screw. A channel with a longitudinal axis coaxial to the longitudinal axis of the screw goes through the screw itself.
The long pitch screw can be activated manually or electrically, allowing the movement of the inner elements with respect to the container. In the first case, the means for moving consist of a spring and a knob. The knob is formed by a circular plate presenting, on the wall closest to the closed extremity of the container, a first seat and a tube and a second seat on the opposite wall. The first seat holds a ball bearing in which the extremity of the screw located on the outside of the container is inserted. The ball bearing is rotationally linked to the knob. The temporary fixing between the screw and the knob is obtained through an o-ring located on the extremity of the tube. The tube presents a channel linked to the channel of the screw. Between the knob and the closed extremity of the container is inserted a spring enclosing the screw.
The second seat holds the edges of a laminar lid, shaped as a concave lens.
A second lubricating system uses the knob and the channel of the screw. Between the internal surface of the laminar lid and the wall of the knob there is a compartment holding a container in which a first lubricating substance is being housed. A second lubricating substance is located inside the channel of the lid.
The mix of the two lubricating substances is obtained by evagination, piercing the container housing the first substance with a needle fixed on the wall of the convex part of the laminar lid.
To ensure the use of both lubricating systems, the first inner element and the knob are disposable.
When electrically activated, the long pitch screw is connected to an electrical engine equipped with electronic control counting at least one programmable board with microcontroller, alimented through power supply or electric accumulators. The electrical engine is activated by a remote control equipped with an intensity regulation device. To allow its use, it is necessary to change the lubricating system on the first inner element before each use.
The invention is presented below in an exemplary embodiment and in connection with the attached drawings on which:
With reference to
The hollow container 1 is cylindrical with an open end. Next to its open extremity, on the walls of the container 1, there are two ring-shaped, one-piece detached flanges 1.1. They encircle a ring-shaped seat 1.2 open towards the inner part of the container 1. The closed end of the container 1 includes a threaded hole 1.3 at its center.
Adherent to the inner walls of the container 1, the protrusions 4 are made of synthetic material with a spherical cup shape and protrude toward inside thereof. The protrusions 4 are equipped with adhesive substances on their base.
The first inner element 2 and the second inner element 3 are coaxial to the container 1. The first inner element consists of a flexible synthetic sheath including a body and a head. The body is cylindrical with a first open end surrounded by a semi-rigid flange element 2.1 protruding outwards. The second end of the body is a unit with the head. The head has a wider diameter than the body and presents a projection 2.2 on its distal end. Said head projection 2.2 is thicker than the rest of the head. The head projection is crossed by a channel 2.3, enlarging at its distal to form a spherical seat 2.4.
The sex toy has a first system of lubrication including at least one cavity 2.5 and some micro-holes. In detail, within the walls of the body of the first inner element 2 there is a ring-shaped cavity 2.5. Said cavity 2.5 is linked to the internal part of the body by means of micro-holes opening on the wall separating the cavity 2.5 from the internal part of the body. Bicomponent lubricant substances are housed inside the cavity 2.5.
The second inner element 3 is inserted between the first inner element 2 and the walls of the container 1. Said second inner element 3 is a hollow cup in the shape of a truncated ellipsoid of rotation formed by flexible semi-rigid synthetic foils 3.1, 3.2 connected at one end. The first series of foils 3.1 is longer than the second series of foils 3.2. At the distal end of the second inner element 3, where said foils are connected, there is a central threaded hole.
The means for moving the two internal elements 2, 3 include a long pitch screw 5 a spring 6 and a knob 7. A channel 5.1 passes through said screw 5; the longitudinal axis of said channel 5.1 is coaxial to the longitudinal axis of the screw 5. The long pitch screw 5 goes through the threaded hole 1.3 on the closed end of the container 1 and the threaded hole on the second inner element 3. On the extremity of the screw 5 located inside the container 1 there is a one-piece sphere 5.2, also crossed by the channel 5.1. The sphere 5.2 enters the spherical seat 2.4 on the head projection of the first inner element 2, temporarily holding it to the hollow screw 5.
The extremity of the screw 5 located outside the container 1 is inserted in a ball bearing 8 rotationally linked to a first wall of the knob 7, next to the closed extremity of the container 1. The spring 6 encloses the screw 5 and is located between the knob 7 and the closed extremity of the container 1.
The knob 7 is formed by a circular plate with a first seat in a wall close to the closed extremity of the container 1 and a tube and a second seat on the opposite wall. The first seat holds said ball bearing 8. The second seat is delimited by a circular crown 7.1. In the circular crown 7.1 there is a ring-shaped opening 7.2 facing inwards. The edges of a laminar lid 7.3, molded as a convex lens, enter inside the opening 7.2 of the knob 7. Said laminar lid is equipped with a needle 7.4 linked on the convex part, its central longitudinal axis being coincident with the longitudinal axis of the lid 7.3.
A second lubricating system uses the knob 7 and the channel 5.1 of the screw 5. When the lid 7.3 is blocked inside the opening 7.2, there is a compartment between the inner surface of the laminar lid 7.3 and the distal wall of the knob 7. Inside said compartment there is a container 9, in which is housed a first lubricant substance. A central channel 7.5 orthogonal to the circular plate goes through the circular plate of the knob 7 itself and the tube. In said channel 7.5 is housed a second lubricant substance; said channel 7.5 is closed on one side by the container 9 and on the other side by a plastic removable tab closing the distal extremity of the tube. The temporary fixing between the screw 5 and the knob 7 is obtained through an o-ring 10 located at the extremity of the tube. Channel 7.5 of the knob 7 is connected with channel 5.1 of the screw 5 and channel 2.3 of the first inner element 2.
While operating, the second inner element 3 is already inserted in the container 1 and fixed to the screw 5. The first inner element 2 is therefore completely inserted in the hollow container 1. The ring-shaped flange 2.1 of the first inner element 2 is inserted in the ring-shaped seat 1.2 located close to the open extremity of the container 1, preventing the involuntary detachment of the first inner element 2 from the container 1. The sphere 5.2, located on the extremity of the screw 5 inside the container 1, enters into the spherical seat 2.4 of the projection 2.2 of the head of the first inner element 2, temporarily blocking the first inner element 2 to the screw 5. The first inner element 2 fits perfectly to the shape and size of the penis thanks to its remarkable elasticity.
The plastic tab closing the channel 7.5 is removed from the knob 7 and therefore the knob 7 is temporarily fixed to the screw 5 through the o-ring 10.
Once thus assembled, the sex toy can be used.
Pulling the knob 7 towards the container 1 activates the rotation of the screw 5 and causes the longitudinal advance of the first inner element 2 and of the second inner element 3 with respect to the container 1. The free extremities of the foils 3.1, 3.2 of the second inner element 3 touch and slide on the first inner element 2. As the foils 3.1, 3.2 of the second inner element 3 are of a semi-rigid material, they reproduce the action of the mouth during the fellatio. Foils 3.1, 3.2 collide with the protrusions 4 on the inner walls of the container 1, augmenting the sensation of pressure on the penis. Releasing the knob 7, the spring 6 separates again the knob 7 from the container 1, causing the counter-rotation of the screw 5 and the retreating of the second inner element 3 from the first inner element 2. The lubricating substances inside the ring-shaped cavity 2.5 of the body of the first inner element 2 go through the micro-holes inside the first inner element 2, preventing irritations and pain, as the penis is not in contact with the lubricants naturally produced by the vagina. The compression exerted on the body of the first inner element 2 causes the mixing of the two lubricating elements. Said mix produces heat reaching almost body-temperature.
Bicomponent lubricants in the knob 7 behave in the same way. Pulling the lid 7.3 towards the knob 7 to allow its edges to enter the opening 7.2, its needle 7.4 pierces the container 9 and pulls the first lubricant to the second lubricant inside the channel 7.5. The two substances mix and generate heat. The activation of the screw 5 causes, thanks to a pneumatic action, the advancing of the self-heating bicomponent lubricant inside the channel 5.1 of the screw 5 and the channel 2.3 of the first inner element 2, up to the first inner element 2 itself.
To ensure the use of both lubricating systems, both the first inner element 2 and the knob 7 are disposable.
It is to be understood that many modifications and variations may be devised given the above description of the principles of the invention. It is intended that all such modifications and variations be considered as within the spirit and scope of this invention, as defined in the following claims.
Number | Date | Country | Kind |
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102015000042169 | Aug 2015 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IT2016/000188 | 7/29/2016 | WO | 00 |