TECHNICAL FIELD
The present invention relates to the field of adult product massagers, and in particular, to a massager with a plurality of massage modes and a massage method.
BACKGROUND
With the improvement of living standards and the increase of people's life and work pressure, adult health care products are becoming more and more popular, and people are also putting more and more energy in their own health and comfort of the life process. In this environment, various health care and massage products specifically for adults are popularized and applied, among which a simulation female massager is a very common product, which provides single adult women or women who have been separated from their spouses for a long time with the possibility of relieving some of the pressure. The conventional simulation massager not only comprises a simulation massage body, but also is internally provided with a vibration motor, which is driven by the motor to achieve active massage. This massager greatly improves the convenience of use and enhances comfort. However, the conventional massager usually has only one vibration massage function, which has a poor effect when used for massage. In addition, the massage effect is reduced after long-term use of the same massage manner, resulting in a poor massage experience.
SUMMARY
The technical problem to be solved by the present invention is that the conventional massager usually has only one vibration massage function, which has a poor effect when used for massage, and the massage effect is reduced after long-term use of the same massage manner, resulting in a poor massage experience. Aiming at the above defect in the prior art, a negative pressure massager and a massage method are provided.
To solve the above technical problem, the present invention adopts the following technical solutions.
A massager with a plurality of massage modes is constructed, which comprises: an outer housing, a control board arranged in the outer housing, and a battery and a control button which are connected to the control board, wherein a handle is formed at one end of the outer housing, a charging port for charging the battery is arranged on the handle, at least one group of massagers are also arranged on the outer housing, one group of massagers comprises a first vibration motor and a transmission mechanism connected to the first vibration motor, at least one group of massage columns are arranged at an end portion of the transmission mechanism, the massage columns are moved by the transmission mechanism when the first vibration motor is working, and end portions of the massage columns protrude from the outer housing and move along with the massage columns to achieve moving massage.
A massage method is constructed, wherein the massage method is based on the massager with multifunctional massage modes, and the massager is driven by the control button to perform massage in at least one or more of the plurality of massage modes simultaneously.
The present invention has the beneficial effects that: a plurality of massage modes are provided on the massager, and the plurality of massage modes can perform massage operations simultaneously in structure, so that the massage effect is better. The plurality of massage modes comprise moving massage, rotating massage and sliding massage, each massage mode has an optimal massage effect on specific parts, the massage effect is more significant, and the use is more convenient.
BRIEF DESCRIPTION OF DRAWINGS
FIG. 1 is a three-dimensional structural diagram of a massager according to the present invention;
FIG. 2 is a cross-sectional structural diagram of a massager according to the present invention;
FIG. 3 is an exploded structural diagram of a massager according to the present invention;
FIG. 4 is a structural diagram of an isolating member according to the present invention;
FIG. 5 is a structural diagram of an inner housing according to the present invention;
FIG. 6 is a partial structural diagram of a second massager according to the present invention;
FIG. 7 is a partial structural diagram of a third massager according to the present invention;
FIG. 8 is a structural diagram of a connection between a first massager and an inner housing according to the present invention;
FIG. 9 is a structural diagram of a first massager according to the present invention;
FIG. 10 is an exploded diagram of a first massager according to the present invention;
FIG. 11 is a structural diagram of a rotating block according to the present invention;
FIG. 12 is a structural diagram of a worm sleeve according to the present invention;
FIG. 13 is a structural diagram of a worm according to the present invention;
FIG. 14 is a structural diagram of a transmission sleeve according to the present invention; and
FIG. 15 is a structural diagram of a connection between a locking block and a transmission block according to the present invention.
DETAILED DESCRIPTION OF EMBODIMENTS
A massager with a plurality of massage modes according to a preferred embodiment of the present invention, as shown in FIG. 1, comprises an outer housing 10, the outer housing is in a “Y” shape as a whole, a first support leg forms a handle 101, a battery 40 and a control board 50 connected to the battery are arranged in the handle, three groups of control buttons 60 connected to the control board are arranged on the outer housing, a charging head 80 is arranged at an end portion of the handle, and the charging head can charge the battery in a magnetic charging mode. A third massage portion 60 is arranged at an end portion of a second support leg, a second massage portion 30 is arranged at an end portion of a third support leg, and the second massage portion is arranged at a middle part of the third support leg. When the massager is used, the third support leg is inserted, the first massage portion 20 and the second massage portion 30 massage the inside, and the third massage portion 60 massages the outside, thereby forming various massage modes. Three groups of control buttons are arranged corresponding to the three massage portions to adjust the massage intensity of the corresponding massage portions respectively.
Specifically, as shown in FIGS. 2 to 3 and 6 to 7, an inner housing 101 is further arranged in the outer housing 10, and the inner housing wraps the three groups of massage portions to reduce the transmission of vibration to the outer housing during the operation of the massage portions. The first massage portion 20 comprises a first vibration motor 200 and a transmission mechanism 201 driven by the first vibration motor, a massage column 202 is connected to an end portion of the transmission mechanism, the massage column protrudes from a surface of the outer housing, and the massage column moves to perform moving massage when the first massage portion works; the second massage portion 30 comprises a second vibration motor 300 and a rotating massage block 301 driven by the second vibration motor, an end portion of the outer housing is provided with a second massage portion 302 corresponding to the rotating massage block, and the second massage portion performs rotating massage through the rotation of the rotating block; and the third massage portion 60 comprises a third vibration motor 600 and a rotating massage column 601 driven by the third vibration motor, an end portion of the outer housing is provided with a convex tongue 603 corresponding to the rotating massage column, an inner convex ball 602 in contact with the rotating massage column is arranged inside the convex tongue, and the convex tongue moves up and down for message through the rotation of the rotating massage column. To avoid the mutual influence among a plurality of groups of massage portions, an isolating member 102 is arranged in the inner housing 101 to isolate the plurality of groups of massage portions.
Further, as shown in FIGS. 4 to 5, a connecting end 1022 is arranged in the middle of the isolating member 102, fixed ends 1020 are arranged at two sides of the connecting end, and a connecting groove 1021 is arranged between the connecting end and the fixed end. The inner housing 101 is formed by connecting a left inner housing 1010 and a right inner housing 1011, a connecting column 1014 is arranged on the inner housing corresponding to the connecting groove, the connecting column is inserted into the connecting groove to connect the inner housing and the isolating member, and the opposite surfaces of the left inner housing and the right inner housing are connected and sealed through a flange 1012 and a lower step 1013, so that the sealing performance of the inner housing is improved, the inner housing and the isolating member are connected more stably, the mutual influence of vibration work among the plurality of groups of massage portions is avoided, and the massage effect is better.
Further, as shown in FIGS. 8 to 10, a travel groove 1015 is arranged on the inner housing corresponding to the first massage portion 20, and a moving range of the massage column is an area region of the travel groove. The transmission mechanism 201 comprises a rotating block 2010 that rotates synchronously with the first vibration motor and a worm sleeve 2011 that rotates synchronously with the rotating block, the worm 2012 is arranged in the worm sleeve and synchronously rotates along with the rotating block, a transmission sleeve 2015 is sleeved outside the worm sleeve, and the transmission sleeve is connected to the worm sleeve through a locking block 2013 and a transmission block 2014. When the worm rotates, the transmission block pushes the transmission sleeve to move back and forth and left and right, and the massage column 202 is arranged at the end portion of the transmission block and moves along with the transmission sleeve in the travel groove to achieve moving massage. It should be noted that a plurality of groups of massage columns 202 can also be provided, which can achieve massage through simultaneous movement or massage by partially moving back and forth and partially moving left and right, so that the massage effect is better. A part of the outer housing corresponding to the travel groove is arranged in a hollowed-out shape, so that the massage column can directly massage. Therefore, the massage feeling is stronger, and the experience effect is better. Meanwhile, the shape of the massage column is not limited in the present invention, and the end portion of the massage column in any shape should fall within the protection scope of the present invention.
Further, as shown in FIGS. 11 to 15, three groups of convex columns 20100 are arranged on an end surface of the rotating block 2010, and the end surface is connected to the worm sleeve 2011, three groups of convex column holes 20110 corresponding to the worm sleeve are arranged on the worm sleeve, and the convex columns are inserted into the convex column holes to achieve synchronous rotation of the worm sleeve and the rotating block. A first circular hole 20101 is arranged on one end surface of the rotating block facing the worm sleeve, a square hole 20102 is arranged in the first circular hole, a depth of the square hole is greater than that of the first circular hole, a cylindrical end 20120 is arranged on the worm 2012 corresponding to the first circular hole, and a quadrate hole 20121 is arranged corresponding to the square hole, so that the worm can synchronously rotate along with the rotating block. The other end of the worm is also provided with a cylindrical end 20120, the other end of the worm sleeve is provided with a through hole 20111 corresponding to the cylindrical end, and the worm is arranged in the worm sleeve in a connecting mode through the through hole and the first circular hole and rotates synchronously with the second vibration motor. A transmission sleeve 2015 is sleeved outside the worm sleeve 2011, a square opening 20112 is arranged at a side surface of the worm sleeve, and when a square limiting block 20151 is arranged inside the transmission sleeve corresponding to the square opening, the transmission sleeve rotates with the rotation of the worm sleeve. A sinking portion 20154 is provided at one end of the square limiting block, the sinking portion is provided with an arc-shaped groove 20152, clamping grooves 20153 are provided on two sides of the sinking portion, a locking block 2013 and a transmission block 2014 are also arranged in the sinking portion, an upper side and a lower side of the locking block are provided with clamping blocks 20130 corresponding to the clamping grooves so as to fix the transmission block on the transmission sleeve, and a pushing column 20141 is placed in the arc-shaped groove. A sliding block 20140 is arranged at one side of the locking block facing the worm, the worm is provided with a sliding groove 20122 corresponding to the sliding block, and when the transmission block rotates along with the transmission sleeve, the transmission sleeve moves on the sliding groove to enable the transmission sleeve to moving back and forth relative to the worm so as to push the massage column to move back and forth in the travel groove. To increase the stability of transmission, the cross section of the sliding groove is in an inverted “V” shape, the cross section of the corresponding sliding block is in an upright “V” shape, and the sliding grooves are connected end to end in an “8” shape, so that the massage column can achieve massage by moving back and forth in a circulating manner and certain moving massage by moving left and right.
When the massager is used, the massager is inserted into a massage portion, the control button is pressed, the first vibration motor drives the transmission mechanism to move back and forth, and the massage column moves back and forth in the travel groove, so that a moving massage in the front, back, left and right directions is formed; the second vibration motor drives the rotating massage block to rotate, so that the second rotating massage block rotates to drive the second massage portion to rotate, and rotating massage is achieved; meanwhile, the third vibration motor drives the rotating massage column to rotate and drives the inner convex ball to move up and down, so that the convex tongue is driven to slide up and down, and sliding massage on the specific part is achieved. The three massage modes provide targeted massage for specific parts, which has a better massage effect. The three massage modes can also be performed independently or simultaneously, which provides a better massage experience. In addition, the isolating member arranged between every two groups of massagers avoids the transmission of vibration, so that each group of massagers works independently.
According to a massage method in a preferred embodiment of the present invention, the different massage portions are controlled to work by adjusting the buttons, wherein the first vibration motor drives the transmission mechanism to move when working, so that the massage column is pushed to move back and forth and left and right to achieve moving massage; the second vibration motor drives the rotating block to rotate when working, so that the second massage portion rotates to achieve rotating massage; and the third vibration motor drives the rotating column to rotate when working, the inner convex ball swings up and down to achieve sliding massage of the convex tongue in the up and down direction. This method is based on the structure of the above negative pressure massager. The specific structure is as described above and details are not described herein again.
Patent Application
20240382376
