Self-heating massage stone

A pocket-size self-heating massage stone includes a first receptacle having a rim portion, an interior recess and being made of ceramic slip, porcelain or stoneware slip and a second receptacle having a rim portion, an interior recess and being made of ceramic slip, porcelain or stoneware slip. A heating element is arranged in the interior recess of the second receptacle and being positioned in direct contact to transmit heat directly to a surface of the second receptacle such that the heating element only directly heats the second receptacle and does not directly heat the first receptacle. A rechargeable battery is disposed within the massage stone. The first and second receptacles are connected to one another via only the rim portions and the interior recesses of the first and second receptacles are free of connectors which connect together the first and second receptacles.

FIELD OF THE INVENTION

This invention relates to massage devices, and more specifically, to a self heating massage stone.

BACKGROUND OF THE INVENTION

Massage therapy may involve the manual manipulation of soft body tissues to enhance the general health and well-being of a patient or a user. The manual manipulation may involve applying a pressure, a tension, a vibration to the soft body tissues with the help of various aids such as massage stones, massage lotions, essential oils, and the like.

Massage stones are used in stone massage therapy by heating the massage stones before applying to the soft body tissues. Massage stones are usually made of basalt, which is rich in iron and has the ability to retain heat.

Conventionally, massage stones are immersed in water that is then heated in an electric heating device until the massage stones attain a certain temperature range. After heating the hot massage stones are removed and applied to the soft body tissues. The therapist also massages the client's soft tissues with the warm stones, which may relieve tension, loosen adhesions, increase circulation, etc.

However, there are several issues with massage stones. First, the therapist conducting the stone massage therapy has to ensure that the massage stones are a suitable temperature for use during therapy. Many times the stones are too hot, or not hot enough. Second, current massage stones tend to lose heat attained during the massage. Thus, the therapist/client contact may be interrupted every time the therapist must stop to get new heated stones because the stones in use have lost their heat.

Therefore, it would be desirable to provide a device and method that overcomes the above problems.

SUMMARY

In accordance with one embodiment of the present invention, a heated massage stone is disclosed. The heated massage stone has a first receptacle having a first interior recess and a second receptacle having a second interior recess. A heating element is positioned in one of the first interior recess or the second interior recess. An attachment device is used to secure the first receptacle to the second receptacle

In accordance with one embodiment of the present invention, a heated massage stone is disclosed. The heated massage stone has a first receptacle having a first interior recess and a second receptacle having a second interior recess. A heating element is positioned in one of the first interior recess or the second interior recess. A rechargeable battery is attached to the heating element. A plurality of magnets is attached to a rim of the first receptacle and to a rim of the second receptacle to secure the first receptacle to the second receptacle.

In accordance with one embodiment of the present invention, a heated massage stone is disclosed. The heated massage stone has a first receptacle having a first interior recess and a second receptacle having a second interior recess. A heating element is positioned in one of the first interior recess or the second interior recess. An insulation layer is attached to the heating element. A rechargeable battery is attached to the heating element. A plurality of magnets are attached to a rim of the first receptacle and to a rim of the second receptacle to secure the first receptacle to the second receptacle so that the first and second interior recesses form a cavity to retain the heating element

The features, functions, and advantages can be achieved independently in various embodiments of the disclosure or may be combined in yet other embodiments.

The invention also provides for a pocket-size self-heating massage stone, including a first receptacle having a rim portion, an interior recess and being made of ceramic slip, porcelain or stoneware slip and a second receptacle having a rim portion, an interior recess and being made of ceramic slip, porcelain or stoneware slip. A heating element is arranged in the interior recess of the second receptacle and being positioned in direct contact to transmit heat directly to a surface of the second receptacle such that the heating element is not embedded in a wall of the second receptacle and only directly heats the second receptacle and does not directly heat the first receptacle. A rechargeable battery is disposed within the massage stone. The first and second receptacles are connected to one another via only the rim portions and the interior recesses of the first and second receptacles are free of connectors which connect together the first and second receptacles.

The invention also provides for a pocket-size self-heating massage stone, including a first semi-oval shaped receptacle having an interior recess and being made of ceramic slip, porcelain or stoneware slip and a second semi-oval shaped receptacle having an interior recess and being made of ceramic slip, porcelain or stoneware slip. A heating element is arranged in the interior recess of the second receptacle and being positioned in direct contact to transmit heat directly to an inner surface of the second receptacle, wherein the heating element is not embedded in a wall of the second receptacle. A rechargeable battery is disposed within the massage stone. An insulating cover is structured and arranged to prevent heat from dissipating toward the first receptacle when the heating element directly heats the second receptacle. Plural connectors are structured and arranged to connect a rim portion of the first receptacle to a rim portion of the second receptacle. The plural connectors are arranged on the rim portions of the first and second receptacles and the interior recesses of the first and second receptacles are free of connectors which connect together the first and second receptacles.

The invention also provides for a pocket-size self-heating massage stone, including a first semi-oval shaped and non-directly heated receptacle comprising an interior recess and exterior glazing and being made of ceramic slip, porcelain or stoneware slip and a second semi-oval shaped and directly heated receptacle having an interior recess and being made of ceramic slip, porcelain or stoneware slip having an exterior glazing. A heating element is arranged in the interior recess of the second receptacle and being positioned in direct contact to transmit heat directly to a surface of the second receptacle so as to directly heat the second receptacle, wherein the heating element is not embedded in a wall of the second receptacle. A rechargeable battery is disposed within the massage stone. An insulating cover is structured and arranged to prevent heat from dissipating toward the first receptacle. A plurality of connectors are structured and arranged to connect a rim portion of the first receptacle to a rim portion of the second receptacle. All of the plurality of connectors are located on the rim portions and include magnets and the interior recesses of the first and second receptacles are free of connectors which connect together the first and second receptacles.

DETAILED DESCRIPTION OF THE INVENTION

Broadly, an embodiment of the present invention generally provides a self-heating massage stone. Presently, stones used in a hot stone massage do not stay hot long enough. Embodiments of the present invention may allow one to give a stone massage for an entire treatment without having to switch out new stones.

As depicted in the Figures, an embodiment of a massage stone10is shown. In accordance with one embodiment, the massage stone10may be formed out of ceramic. A ceramic material may be used as certain types of ceramics have the ability to readily dissipate heat. Further, the coloration and texture is intrinsic to the ceramic materials and so painting or other kinds of surface protection is not necessary in recurring maintenance.

In accordance with one embodiment, the massage stone10may be formed as a two piece10A and10B massage stone. As may be seen in the Figures, each piece10A and10B may be formed semi-oval in shape to look like current massage stones. Each piece10A and10B may be formed with a semi-hollow interior12.

In accordance with one embodiment, the massage stone10may be formed by using a two piece mold in the shape of a massage stone and a ceramic slip, or porcelain, or stoneware slip is poured in the mold. The mold may be formed by obtaining a stone and making a plaster mold of the stone using a double sided mold.

Once set or dried, the bisque stone shapes may be taken out of the mold and set to dry. Once dried the bisque stone shapes may go into a kiln where the bisque stone shapes may be low fired or bisque fired. The bisque stone shapes may then be taken out and cooled, then glazed with a black shiny glaze. The bisque stone shapes may then be fired again in the kiln forming the two pieces10A and10B of the massage stone10.

Once the two pieces10A and10B are taken out, connectors14may be placed around an interior rim16of each of the two pieces10A and10B. The connectors14may be used to secure the two pieces10A and10B together to form the massage stone10as a single unit which may resemble a basalt stone.

In accordance with one embodiment, a plurality of magnets14A may be placed in the interior rim16of each of the two pieces10A and10B. The magnets14A may be positioned so that corresponding magnets14A may be aligned on each of the two pieces10A and10B when the two pieces10A and10B are attached. Also, the corresponding magnets14A should be of opposite polarity so that the two pieces10A and10B attach to one another. While the massage stone10may be held together by magnets14A, other methods may be used without departing from the spirit and scope of the present invention. Alternative methods may be used such as using keys14B that may be molded into the two pieces10A and10B. One side has a male key and the other side has the female key into which the male key fits.

In an embodiment, a heating element16may be positioned in the interior of one of the two pieces10A or10B. The heating element16may be used to warm the hollowed out ceramic massage stone10and keeps it warm. The heating element16may transmit heat to the surface of the piece10A or10B in which the heating element16is positioned. The heating element16may have an insulated cover18. The insulated cover18may prevent heat from dissipating outward toward the other piece10A or10B in which the heating element16is not positioned.

The heating element16may be a powered by a rechargeable battery20. The rechargeable battery20may be a lithium ion battery or the like.

The heating element16may be adjustable to control the temperature of the massage stone10. Further, the heating element16may keep the massage stone10continuously warm as the rechargeable battery20is able to power the heating element and keep the ceramic stone warm for the entire treatment. In contrast, conventional stones only stay hot for five minutes and then the therapist has to leave the clients body and get new stones. A process that has to constantly be repeated throughout the treatment.

To use an embodiment, activate the heating element16. This may be done by turning on a switch22to the heating element. The switch22may be located external on the massage stone10. Alternatively, one may have to open the two halves10A and10B of the massage stone10and turn on a switch22located on/near the heating element16. Once activated, oil may be placed on the massage stone10and give a massage with them to a person. People can put them in their pockets as hand warmers as well.

Other embodiments may have different shapes for the massage stone10, or different sources of heat on the inside.