CN212347131U - Eye massage instrument - Google Patents

Abstract

The utility model discloses an eye massage instrument, which comprises a left elastic tube, a right elastic tube, a master control single-chip microcomputer circuit, a starting operation circuit, a +5V power circuit, a +28V power circuit and a sound wave vibration driving circuit which are arranged on an instrument main body, wherein the top end of the left elastic tube is provided with a left sound wave vibrating piece, and the top end of the right elastic tube is provided with a right sound wave vibrating piece; one pin of a main control single-chip microcomputer U1 in the main control single-chip microcomputer circuit is connected with the base electrode of a transistor Q4 in the sound wave vibration driving circuit. The utility model has the advantages that: the utility model discloses a set up two elastic stretching's massage head and can height-adjusting's pillar for massage head can contact softly with the eyeball, and the overhead sound wave trembler of massage, refrigeration piece can be executed to the eyeball high-efficiently and relieve difficulties and cold compress hot compress, the utility model discloses can conveniently adjust the interval of two massage heads, make its eyeball of accurately aiming at the user.

Description

Eye massage instrument

Technical Field

The utility model relates to a physiotherapy instrument, in particular to an eyeball massage instrument, in particular to an instrument for directly massaging eyeballs.

Background

In the current society, the functions of mobile phones are all powerful, the time for people to watch mobile phones every day is greatly increased, eyes cannot have a good rest, and the mobile phones become social public hazards, in the prior art, in order to relieve the fatigue of the eyes, a patent has been applied for an eye massage technology, for example, a technical scheme disclosed in patent No. 201420151998.0 is as follows:

the utility model provides an eye massager, include the eye-shade and connect in the bandage at eye-shade both ends, the eye-shade includes lock in preceding shell and backshell of an organic whole, is equipped with two cavity eye frames that correspond with the eye on the backshell, and two cavity eye frame fronts are equipped with respectively and lead the temperature piece, each lead the front surface of temperature piece and be equipped with the semiconductor refrigeration piece respectively, all be equipped with heat abstractor on each semiconductor refrigeration piece. In the utility model, the eye massager performs cold compress on the eyes by utilizing the refrigeration function of the semiconductor refrigeration piece, and at the moment, the heat dissipation device dissipates heat from the hot end of the semiconductor refrigeration piece, so that the cold compress effect is better; when the polarity of an external power supply is reversely connected, the semiconductor refrigerating sheet quickly generates heat to carry out hot compress on eyes, and at the moment, the hot compress expands blood vessels around the eyes, promotes blood circulation and relieves fatigue and dryness of the eyes.

By analyzing the technical scheme of the patent, the following steps are known: because the front side of the hollow eye frame is provided with the temperature guide sheet, the front surfaces of the temperature guide sheets are respectively provided with the semiconductor refrigeration sheets, and the semiconductor refrigeration sheets are respectively provided with the heat dissipation devices. Therefore, the cold compress and the hot compress of the semiconductor refrigeration piece can not be better transmitted with the eyeball and can only be applied to the eyeball by passing through the temperature radiation of the air between the semiconductor refrigeration piece and the eyeball, so that the efficiency is low, and the energy of the battery is greatly wasted. If a user's eye socket is deep, the temperature radiation is farther away. Therefore, the cold compress and the hot compress are applied to the eyeball by adopting a good transmission medium, so that the eyestrain recovery efficiency can be greatly improved, the energy can be greatly saved, and a solid foundation is laid for the long-time work of the massage instrument.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is exactly in order to solve prior art "cavity eye-frame has restricted cold compress and hot compress transmission efficiency. "to provide an eye massaging apparatus. The utility model discloses not only adopt the semiconductor refrigeration piece to apply cold compress and hot compress to the eyeball, still apply the sound wave vibration massage to the eyeball, alleviate eyeball's fatigue.

The utility model discloses a realize like this: an eye massaging apparatus is designed and manufactured, comprising:

the instrument main body is provided with a left elastic cylinder and a right elastic cylinder;

the top end of the left elastic cylinder is provided with a left sound wave vibrating piece, and the top end of the right elastic cylinder is provided with a right sound wave vibrating piece;

the instrument main body is provided with a main control single chip microcomputer circuit, a starting operation circuit, a +5V power supply circuit, a +28V power supply circuit and a sound wave vibration driving circuit, wherein one pin of a main control single chip microcomputer U1 in the main control single chip microcomputer circuit is connected with a base electrode of a transistor Q4 in the sound wave vibration driving circuit.

The left elastic cylinder and the right elastic cylinder are located on the left sliding base and the right sliding base;

the left sliding base and the right sliding base are located on the left sliding surface and the right sliding surface.

A left screw rod passes through a screw hole of the left sliding base in a rotating mode, a right screw rod passes through a screw hole of the right sliding base in a rotating mode, and the two screw rods are connected through a flexible shaft or a universal joint; the end of the left screw or the right screw is connected with an adjuster.

A left refrigerating piece and a right refrigerating piece are arranged outside the left sound wave vibrating piece and the right sound wave vibrating piece; the instrument main body is also provided with a refrigerating piece driving circuit, and the main control single-chip microcomputer U1 drives the left refrigerating piece and the right refrigerating piece to work after being electrified and started to work.

The thread directions of the left lead screw and the right lead screw are opposite; a left spring is arranged in the left elastic tube, and a right spring is arranged in the right elastic tube; the inner face of the instrument main body is provided with a support post hole which is used for accommodating a straight-head support post or an elbow support post.

The main control single-chip microcomputer circuit, the starting operation circuit, the +5V power circuit, the +28V power circuit, the sound wave vibration driving circuit and the refrigerating sheet driving circuit are arranged on a circuit board, and the circuit board is arranged in a circuit board cavity of the instrument main body;

a rechargeable battery E1 is disposed in the battery chamber of the instrument body.

The utility model has the advantages that: the utility model discloses a set up two elastic stretching's massage head and can height-adjusting's pillar for the massage head can contact softly with the eyeball, and the overhead sound wave trembler of massage and refrigeration piece can be executed with the cold compress hot compress and the sleepiness to the eyeball high-efficiently, the utility model discloses can conveniently adjust the interval of two massage heads, make its eyeball of accurately aiming at the user. The utility model discloses there is multiple massage mode to supply to select operation convenient to use, can alleviate the fatigue of eyes effectively, guarantees the health of eyes.

Drawings

Fig. 1 is a schematic structural view of an instrument body in the eye massaging apparatus of the present invention;

FIG. 2 is a schematic view of the whole internal structure of the eye massaging device of the present invention;

fig. 3-1 is a schematic view of a first embodiment of the eye massaging device of the present invention, wherein the first embodiment comprises an operating button on the outer main surface of the eye massaging device, a display module and a jack, and the display module is an LCD display screen;

fig. 3-2 is a schematic view of a second embodiment of the eye massaging device of the present invention, wherein the display module, the display module and the insertion hole are arranged on the outer main surface of the eye massaging device, and the display module is displayed by an LED lamp in the second embodiment;

FIG. 4-1 is a schematic view of a straight post 91 screwed into the post hole 41 of the eye massaging device of the present invention;

fig. 4-2 is a schematic view of the elbow support 92 screwed into the support hole 41 of the eye massaging device of the present invention;

FIG. 5-1 is a circuit diagram of a first embodiment of a main control single-chip microcomputer circuit in the eye massaging apparatus of the present invention, in which the display module employs an LCD display screen;

fig. 5-2 is a circuit diagram of a second embodiment of the main control single-chip microcomputer circuit in the eye massaging apparatus of the present invention, in which the display module employs an LED lamp;

FIG. 6-1 is a schematic diagram of the power-on operating circuit of the eye massaging device of the present invention;

FIG. 6-2 is a schematic diagram of a +5V power supply circuit in the eye massaging device of the present invention;

FIG. 7-1 is a schematic diagram of a charging circuit in the eye massaging apparatus of the present invention;

FIG. 7-2 is a schematic diagram of a +28V power supply circuit in the eye massaging device of the present invention;

fig. 8-1 is a schematic diagram of a refrigerating sheet driving circuit in the eye massaging apparatus of the present invention;

fig. 8-2 is a schematic diagram of the sound wave vibration driving circuit in the eye massaging apparatus of the present invention.

Detailed Description

The present invention will be described in further detail with reference to various embodiments.

Referring to fig. 1 to 8, an eye massage apparatus is designed and manufactured, including:

the instrument body 1 is provided with a left elastic tube 510 and a right elastic tube 520;

the top end of the left elastic cylinder 510 is provided with a left sound wave vibration plate 516, and the top end of the right elastic cylinder 520 is provided with a right sound wave vibration plate 526;

a main control single chip microcomputer circuit, a starting operation circuit, a +5V power supply circuit, a +28V power supply circuit and a sound wave vibration driving circuit are arranged on the instrument main body 1, and one pin of a main control single chip microcomputer U1 in the main control single chip microcomputer circuit is connected with a base electrode of a transistor Q4 in the sound wave vibration driving circuit.

The left elastic tube 510 and the right elastic tube 520 are located on the left sliding base 51 and the right sliding base 52;

the left sliding base 51 and the right sliding base 52 are seated on the left sliding surface 21 and the right sliding surface 22;

a left screw 33 is screwed through a screw hole of the left sliding base 51, a right screw 34 is screwed through a screw hole of the right sliding base 52, and the two screws are connected by a flexible shaft or a universal joint; an adjuster 35 is connected to the end of the left lead screw 33 or the right lead screw 34.

A left refrigerating plate 517 and a right refrigerating plate 527 are arranged outside the left sound wave vibrating plate 516 and the right sound wave vibrating plate 526; the instrument main body 1 is also provided with a refrigerating sheet driving circuit, and the main control single-chip microcomputer U1 drives the left refrigerating sheet 517 and the right refrigerating sheet 527 to work after being powered on and starts to work.

The thread directions of the left lead screw 33 and the right lead screw 34 are opposite; a left spring 512 is arranged in the left elastic tube 510, and a right spring 522 is arranged in the right elastic tube 520; the thread directions of the left lead screw 33 and the right lead screw 34 are opposite; the inner surface of the instrument main body 1 is provided with a support hole 41, and the support hole 41 is used for accommodating a straight support 91 or an elbow support 92.

The main control single-chip microcomputer circuit, the starting operation circuit, the +5V power circuit, the +28V power circuit, the sound wave vibration driving circuit and the refrigerating sheet driving circuit are arranged on a circuit board 81, and the circuit board 81 is arranged in a circuit board cavity of the instrument main body 1;

a rechargeable battery E1 is disposed in the battery chamber of the instrument body 1.

As shown in fig. 1 and 2, an apparatus body 1, a left slide surface 21 and a right slide surface 22 are prepared in the apparatus body 1;

a left sliding base 51 is arranged on the left sliding surface 21, and a left screw 33 is screwed through a screw hole of the left sliding base 51;

a right sliding base 52 is arranged on the right sliding surface 22, and a right screw 34 is screwed through a screw hole of the right sliding base 52;

a left marking column 11 is arranged on the left sliding base 51, a right marking column 12 is arranged on the right sliding base 52, the left marking column moves in the left marking groove, and the right marking column moves in the right marking groove.

The left and right screw rods are connected by a flexible shaft 31 or a universal joint, and a flexible shaft box body 30 is arranged outside the flexible shaft box body; the end of the left screw 33 or the right screw 34 is connected with an adjuster 35; the actuator 35 shown in fig. 2 is a knob that is twisted to rotate the right lead screw 34 and the left lead screw 33. Of course, the governor may also be designed in a motor-driven mode. The thread directions of the left lead screw 33 and the right lead screw 34 are opposite; two shaft heads of the left screw 33 rotate in the first left shaft hole 15 and the second left shaft hole 16; the two stub shafts of the right lead screw 34 rotate in the right shaft one hole 17 and the right shaft two hole 18.

The rotation of the right lead screw 34 and the left lead screw 33 causes the two sliding bases to move, and the moving direction is different according to the rotation direction of the knob, or is separated or close, and is adjusted according to the distance between two eyeballs of a user in use.

A left elastic cylinder 510 is prepared on the left sliding base 51, and a right elastic cylinder 520 is prepared on the right sliding base 52; the left spring 512 is disposed inside the left elastic tube 510, and the right spring 522 is disposed inside the right elastic tube 520.

The top end of the left elastic tube 510 is provided with a left sound wave vibrating plate 516 and a left refrigerating plate 517, and the top end of the right elastic tube 520 is provided with a right sound wave vibrating plate 526 and a right refrigerating plate 527.

The massage head is a cambered surface massage head outside the sound wave vibrating plate and the refrigerating plate, has good heat conductivity, is tightly combined with the sound wave vibrating plate and the refrigerating plate, is integrated with the top of the elastic cylinder, takes the left elastic cylinder 510 as an example, the left spring 512 is propped against the left clapboard 515 in the left upper cylinder 513, of course, the left clapboard 515 is prepared into a ring shape, so that a lead can conveniently pass through the left elastic cylinder 515 and the right elastic cylinder 520 has the same structure as the left elastic cylinder 510.

Also for example, with respect to left resilient drum 510, there is a retaining catch 514 between upper left drum 513 and lower left drum to prevent disengagement, as is right resilient drum 520.

As shown in fig. 2, a left fixing band fastener 71 and a right fixing band fastener 72 are provided at both sides of the apparatus body 1, a left fixing band 73 and a right fixing band 74 are connected thereto, and a fixing band lock head 75 locks the two fixing bands.

As shown in fig. 2, since the left elastic tube 510 and the right elastic tube 520 are movably adjusted and the height is adjusted according to the depth of each eye socket, the skin 6 is soft and elastic and has a good heat conduction property.

As shown in fig. 2, a circuit board cavity is arranged on the instrument main body 1, a main control single-chip microcomputer circuit, an operation circuit, +5V power circuit, +28V power circuit, a sound wave vibration drive circuit and a refrigerating plate drive circuit are arranged on the circuit board in the cavity, one pin of a main control single-chip microcomputer U1 in the main control single-chip microcomputer circuit inputs a potential signal of a control point K4 of the operation circuit, and the other pin outputs a signal for maintaining the operation circuit to be conducted; another pin of the main control single-chip microcomputer U1 is connected with the base of the transistor Q1 in the refrigerating piece driving circuit to control the on and off of the refrigerating piece, and another pin is connected with the base of the transistor Q5 in the refrigerating piece driving circuit to control the switching of the cold and hot surfaces of the refrigerating piece;

and a pin of the master control single-chip microcomputer U1 is connected with the base of the transistor Q4 in the sound wave vibration driving circuit.

As shown in FIG. 2, when the main body 1 is curved, the left and right sliding surfaces form a certain included angle, the left and right marking posts cannot be arranged at the centers of the two sliding bases, and the middle design is needed, that is, the left and right marking posts correspond to the centers of the massage heads.

As shown in fig. 4, the inner surface of the device main body 1 is provided with a support hole 41, and the support hole 41 is used for accommodating a straight support 91 or an elbow support 92.

The elbow brace 92 can achieve this goal by requiring braces that accommodate different facial sizes and three-dimensional configurations, as the user's facial size varies.

The four long lapping arms 922 of the elbow strut 92 can be lapped on the face with any size and three-dimensional shape, the screw 921 which is tightly matched with the screw hole of the strut hole 41 cannot change the direction easily once the position is determined, the spring in the elastic tube adopts a very soft spring, and the massage head can be very comfortably pressed on the eyeball.

Two embodiments of the front panel arrangement of the present eye massaging apparatus shown in fig. 3 may be provided in many kinds, for example, a charging jack and a charging indicator lamp are provided at the side of the apparatus main body 1, and so on.

Fig. 3-1 is an embodiment of a display assembly using an LCD display screen, fig. 3-2 is an embodiment of a display assembly using an LED lamp, and respective circuits are shown in fig. 5-1 and 5-2.

The two different display components are different in driving program modules loaded in the main control single-chip microcomputer U1, and +3.3V voltage needs to be added to the 7 th pin of nokia5110, so that power can be taken from +5V, and the power can be output after voltage stabilization.

The main control single-chip microcomputer U1 shown in fig. 5 is STC15W408S, and there are many single-chip microcomputers that can serve the tasks of the present invention, which cannot be listed here.

The power-on operation circuit shown in fig. 6-1 can also be simply and directly replaced by a manual switch, and the power-on operation circuit has the advantages that: when the user forgets to turn off the power supply, the corresponding program module in the main control single-chip microcomputer U1 can automatically turn off the power supply after a period of time delay, thereby avoiding the over-discharge of the battery.

FIG. 6-2 shows a +5V power supply circuit using a chip 34063, where the ratio of R20 to R19 is selected to obtain the desired voltage output at the output.

The +5V power supply is a main control single-chip microcomputer U1, and the refrigeration piece supplies power.

The charging circuit of fig. 7-1 is a typical circuit for charging a lithium battery using a TP4056 chip.

The +28V power supply circuit of fig. 7-2 is a circuit for supplying power to the acoustic wave vibration driving circuit, and as with fig. 6-2, the ratio of R20 to R19 is selected so that a desired voltage output can be obtained at the output terminal.

As shown in fig. 8-1, in the circuit for driving the cooling fins, a conducting signal from pin P3.6 of the main control single-chip microcomputer U1 is input to the base of the transistor Q1, so that the cooling fins operate, specifically, whether cooling or heating is performed is determined by changing the high level or the low level and the high and low levels of a control signal sent from pin P3.3 of the main control single-chip microcomputer U1 input to the base of the transistor Q5, so that the output surface of the cooling fins also switches between cooling and heating; the cold and hot output of the refrigerating plate is only a few degrees higher than the room temperature, and the intermittent refrigeration and heating can be selected, so the power consumption of the refrigerating plate is not high.

As shown in fig. 8-2, the base of the transistor Q4 inputs the audio driving signal from pin P3.2 of the main control single-chip microcomputer U1, the audio signal range is 20Hz to 20KHz, we can get a frequency in the high tone part, for example, about 1000Hz, and certainly, lower or higher than this value, it is effective to eliminate the eye fatigue.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there may be variations in the specific implementation and application range according to the spirit of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (5)

1. An eye massaging apparatus, comprising:

the instrument body (1), the left elastic tube (510) and the right elastic tube (520) are arranged on the instrument body (1);

the top end of the left elastic cylinder (510) is provided with a left sound wave vibration plate (516), and the top end of the right elastic cylinder (520) is provided with a right sound wave vibration plate (526);

a main control single chip microcomputer circuit, a starting operation circuit, a +5V power supply circuit, a +28V power supply circuit and a sound wave vibration driving circuit are arranged on an instrument main body (1), and one pin of a main control single chip microcomputer U1 in the main control single chip microcomputer circuit is connected with a base electrode of a transistor Q4 in the sound wave vibration driving circuit.

2. Eye massaging apparatus according to claim 1, characterized in that said left and right elastomeric cylinders (510, 520) are seated on left and right sliding bases (51, 52);

the left sliding base (51) and the right sliding base (52) are located on the left sliding surface (21) and the right sliding surface (22);

a left screw (33) is screwed through the screw hole of the left sliding base (51), a right screw (34) is screwed through the screw hole of the right sliding base (52), and the two screws are connected by a flexible shaft or a universal joint; the end of the left screw rod (33) or the right screw rod (34) is connected with an adjuster (35).

3. An eye massaging apparatus according to claim 1, wherein said left acoustic vibrating reed (516), said right acoustic vibrating reed (526) are externally provided with a left refrigerating plate (517), a right refrigerating plate (527); a refrigerating sheet driving circuit is further arranged in the instrument main body (1), and after the master control single-chip microcomputer U1 is powered on and starts to work, the left refrigerating sheet (517) and the right refrigerating sheet (527) are driven to work.

4. Eye massaging apparatus according to claim 2, characterized in that the thread direction of the left lead screw (33) and the right lead screw (34) is opposite; a left spring (512) is arranged in the left elastic tube (510), and a right spring (522) is arranged in the right elastic tube (520); the inner surface of the instrument main body (1) is provided with a support hole (41), and the support hole (41) is used for accommodating a straight-head support (91) or an elbow support (92).

5. An eye massaging apparatus according to claim 1, wherein the main control one-chip microcomputer circuit, the power-on operation circuit, the +5V power supply circuit, the +28V power supply circuit, the sonic vibration driving circuit and the refrigerating sheet driving circuit are provided on a circuit board (81), and the circuit board (81) is provided in a circuit board cavity of the apparatus body (1);

a rechargeable battery E1 is disposed in the battery chamber of the instrument body (1).

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