CN113633415A - High-efficiency tooth cleaner - Google Patents

Abstract

The invention relates to an energy-saving efficient tooth cleaner, which comprises a handle shell (100), a balloon (200) and a driving mechanism (300), wherein the balloon (200) is driven by a motor (301) to contract in a reciprocating manner so as to pump water in a water storage tank (101) to a spray head (103) through a first guide pipe (201) and a one-way valve (202), and a stirring blade (307) is driven by the motor (301) to stir the water in the balloon (200) so as to enable the water sprayed by the spray head (103) to have turbulent flow. The invention uses the driving mechanism (300) to pump the water in the saccule (200) out of the spray head (103) by using the saccule (200) as a pumping mechanism, and on the other hand, the water sprayed out of the saccule (200) is provided with turbulent flow by rotating the stirring blade (307), so that the flow speed of the water flow on the surface of the tooth is increased by the turbulent flow, and the cleaning efficiency is increased under the condition of the same water outlet speed.

Description

High-efficiency tooth cleaner

The patent application of the invention is divisional application. The patent number of the original case is 202010272432.3, the application date is 2020, 4 and 9, and the invention name is an energy-saving and high-efficiency tooth cleaner.

Technical Field

The present invention relates to a dental device, and in particular to a device for cleaning teeth.

Background

Currently, toothbrushes and electric tooth rinsers are available in the market, wherein the toothbrushes can clean the surfaces of teeth, while the tooth rinsers can wash the gaps between teeth with water flow without damaging the gums.

Traditional towards tooth ware is for simple water pump water and play towards tooth effect, and its rivers shape is comparatively single, erodees the effect poor, and waste water takes electricity.

Therefore, there is a need for an energy efficient dental cleaner.

Disclosure of Invention

The invention aims to provide an energy-saving and efficient tooth cleaner.

The invention relates to an energy-saving and high-efficiency tooth cleaner, which comprises

The bottom of the handle shell is provided with a water storage tank, and the top of the handle shell is provided with a second conduit and a spray head;

the balloon is communicated with the inside of the water storage tank through a first conduit, a one-way valve is arranged on the first conduit, and the top of the balloon is communicated with the second conduit and the spray head;

the driving mechanism drives the balloon to contract in a reciprocating mode through the motor so as to pump water in the water storage tank to the spray head through the first guide pipe and the one-way valve, and drives the stirring blades to stir water in the balloon through the motor so that water sprayed out of the spray head is provided with turbulent flow.

The energy-saving efficient tooth cleaner is characterized in that the second guide pipe is fixed with the top of the handle shell, the bottom of the second guide pipe is communicated with the balloon, the top of the second guide pipe is communicated with at least two spray heads, and the spray heads and the brush bristles are arranged in a parallel and staggered mode in the length direction.

The invention relates to an energy-saving high-efficiency tooth cleaner, wherein a driving mechanism comprises a motor, an output shaft, a first fixing plate, a first through hole, a first sealing ring, a deflector rod, a stirring blade, a first connecting rod, a second fixing plate, a first fixing rod and a second through hole, the motor is fixed with the side surface of a handle shell, the top of the motor is provided with the first fixing plate, the first fixing plate is fixed with the bottom of a balloon, the second fixing plate is fixed with the top of the balloon, the first through hole is jointly formed in the bottom surfaces of the first fixing plate and the balloon, the first sealing ring is wound in the first through hole, the output shaft of the motor is wound in the first sealing ring, the deflector rod and the stirring blade are coaxially fixed on the output shaft of the motor in the balloon, the first connecting rod is fixed on the inner surface of the balloon, and the second connecting rod is fixed at one end of the first connecting rod far away from the balloon, the second connecting rod can be in lap joint with the outer end of the deflector rod;

a second fixing plate is fixed to the top of the balloon, a second through hole is formed in the second fixing plate and the top of the balloon, the second through hole of the second fixing plate is fixed to and communicated with the bottom of the second catheter, the second fixing plate is fixed to one end of the first fixing rod, and the other end of the first fixing rod is fixed to one end of the handle shell;

wherein the balloon is made of rubber or plastic.

The invention relates to an energy-saving efficient tooth cleaner, wherein at least two groups of bent rods formed by a first connecting rod and a second connecting rod are uniformly distributed along the circumferential direction of a balloon.

The invention relates to an energy-saving efficient tooth cleaner, wherein a connecting box is arranged between a driving lever and a stirring blade, the connecting box comprises a first permanent magnet, a second attraction block, a first shaft, a protective shell, a second fixed rod, a third through hole, a fourth through hole and a second sealing ring, the top of the first fixed plate is fixed with the bottom of the second fixed rod, the top of the second fixed rod is fixed with the bottom of the protective shell, the bottom and the top of the protective shell are respectively provided with the third through hole and the fourth through hole, the third through hole and the fourth through hole are respectively surrounded by the second sealing ring, the inner ring of the second sealing ring of the third through hole is surrounded by an output shaft of a motor, and the inner ring of the second sealing ring of the fourth through hole is surrounded by the first shaft;

the top of the output shaft of the motor is fixedly provided with a first permanent magnet, the bottom of the first shaft is fixedly provided with a second attraction block, the first permanent magnet is over against the second attraction block and mutually attracted, the top of the first shaft is arranged on the second fixing plate through a bearing, and the deflector rod is fixed with the first shaft.

The invention relates to an energy-saving efficient tooth cleaner, wherein a connecting box is arranged between a driving lever and a stirring blade, the connecting box comprises a first gear, a second gear, a first shaft, a protective shell, a second fixed rod, a third through hole, a fourth through hole and a second sealing ring, the top of the first fixed rod is fixed with the bottom of the second fixed rod, the top of the second fixed rod is fixed with the bottom of the protective shell, the bottom and the top of the protective shell are respectively provided with the third through hole and the fourth through hole, the third through hole and the fourth through hole are respectively surrounded by the second sealing ring, an output shaft of a motor is surrounded in the second sealing ring of the third through hole, and the first shaft is surrounded in the second sealing ring of the fourth through hole;

a first gear is fixed to the top of an output shaft of the motor, a second gear is fixed to the bottom of the first shaft, the first gear and the second gear are meshed, the top of the first shaft is mounted on the second fixing plate through a bearing, and the deflector rod is fixed to the first shaft;

the deflector rod is coaxially fixed with the first shaft, and the output shaft of the motor is coaxially fixed with the stirring blade.

The invention relates to an energy-saving high-efficiency tooth cleaner, wherein a pulse mechanism is arranged on a second through hole of a second fixing plate, and the pulse mechanism comprises a notch disc, a chuck, a third connecting rod, a clamping pin, a long hole, a second shaft and a valve; the notch disc is coaxially fixed with the top of the first shaft, the notch disc is provided with a first arc-shaped notch, one end of the third connecting rod is fixed with the first shaft, the other end of the third connecting rod is fixed with one end of the bayonet lock, the end surface of the chuck is provided with four long holes which are uniformly distributed along the circumferential direction of the chuck, the bayonet lock can be arranged in the long hole and moves along the long hole, a second arc-shaped notch is arranged between two adjacent long holes of the chuck, the second arc-shaped notch of the chuck can be lapped with the outer circumferential surface of the notch disc, the circle center of the chuck is coaxially fixed with the second shaft, the second shaft is arranged on the second fixing plate through a bearing, and valves are fixed on the surface of the notch disc close to the second fixing plate, the valves can be in lap joint with the second through holes of the second fixing plate, and at least one group of valves are uniformly distributed along the circumferential direction of the second shaft.

The invention relates to an energy-saving and high-efficiency tooth cleaner, wherein a valve is fixed with a chuck through a first spring.

The invention relates to an energy-saving efficient tooth cleaner, wherein a boss ring with a truncated cone-shaped cross section is arranged at the position, facing an orifice of a valve, of a second through hole.

The energy-saving efficient tooth cleaner is different from the prior art in that the driving mechanism is used for pumping the water in the saccule out of the spray head by using the saccule as a pumping mechanism, and the water sprayed out of the saccule is provided with turbulent flow by rotating the stirring blade, so that the flow speed of water flow on the surface of teeth is increased by the turbulent flow, and the cleaning efficiency is increased under the condition of the same water outlet speed. The present invention realizes two functions by driving the driving mechanism through one motor, which can reduce the cost of arranging multiple motors and the cost of controlling multiple motors, and improve the efficiency of cleaning teeth.

The energy-saving and high-efficiency tooth cleaner of the invention is further explained by combining the attached drawings.

Drawings

FIG. 1 is a front view of an energy efficient dental cleaner;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a modified view of the structure of FIG. 1;

FIG. 4 is an enlarged fragmentary view of the upper portion of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is an enlarged partial view of the middle portion of FIG. 1;

fig. 7 is a partially enlarged view of the middle portion of fig. 3.

Detailed Description

As shown in figures 1-7, referring to figures 1 and 2, the energy-saving and high-efficiency tooth cleaner of the invention comprises

A handle case 100 having a water storage tank 101 disposed at the bottom thereof and a second guide pipe 102 and a spray head 103 disposed at the top thereof;

a balloon 200 which is communicated with the inside of the water storage tank 101 through a first conduit 201, wherein a one-way valve 202 is arranged on the first conduit 201, and the top of the balloon 200 is communicated with the second conduit 102 and the spray head 103;

a driving mechanism 300 which drives the balloon 200 to contract back and forth through a motor 301 so as to pump the water in the water storage tank 101 to the spray head 103 through the first conduit 201 and the one-way valve 202, and drives the stirring blade 307 through the motor 301 to stir the water in the balloon 200 so as to enable the water sprayed by the spray head 103 to be provided with turbulent flow.

In the present invention, the driving mechanism 300 pumps water in the balloon 200 out of the nozzle 103 using the balloon 200 as a pumping mechanism, and rotates the stirring blade 307 to make the water sprayed in the balloon 200 turbulent, thereby increasing the flow rate of the water on the tooth surface by the turbulent flow, and increasing the cleaning efficiency at the same water outlet speed. The present invention realizes two functions by driving the driving mechanism 300 through one motor 301, which can reduce the cost of arranging multiple motors 301 and the cost of controlling multiple motors 301, and improve the efficiency of cleaning teeth.

Wherein the bottom of the first conduit 201 is disposed at the lowest position of the water storage tank 101, and the top of the first conduit 201 is disposed at the bottom of the balloon 200.

Wherein, case lid 111 has been seted up to the bottom surface or the side of storage water tank 101, the one end of case lid 111 with storage water tank 101's open-ended one side hinged joint, case lid 111 passes through buckle mechanism 112 detachably with storage water tank 101's open-ended opposite side and fixes, and wherein, buckle mechanism 112 is prior art, and this is not repeated here.

Wherein, the first conduit 201 and the second conduit 102 are both hard pipes or harder pipes, which can be made of iron, steel, aluminum alloy, plastic, rubber, or resin.

As a further explanation of this embodiment, referring to fig. 1, the second guide tube 102 is fixed to the top of the handle housing 100, the bottom of the second guide tube 102 is communicated with the balloon 200, the top of the second guide tube 102 is communicated with at least two spray heads 103, and the spray heads 103 are arranged in parallel and staggered with the length direction of the bristles 104.

The invention can utilize water flow with turbulent flow to wash teeth during tooth brushing by the parallel and staggered arrangement of the brush hairs 104 and the spray head 103, thereby increasing the cleaning efficiency.

The staggered arrangement of the spray heads 103 and the bristles 104 can be understood that the bristles 104 and the spray heads 103 are both strip-shaped, and a strand of bristles 104 can be arranged between each spray head 103, so that each bristle 104 can enjoy the washing of the sprayed water column with turbulent flow when brushing teeth, thereby increasing the cleaning efficiency.

As a further explanation of this embodiment, referring to fig. 1, 2, 3, and 4, the driving mechanism 300 includes a motor 301, an output shaft 302, a first fixing plate 303, a first through hole 304, a first sealing ring 305, a driving lever 306, a stirring blade 307, a first connecting rod 308, a second connecting rod 309, a second fixing plate 310, a first fixing rod 311, and a second through hole 312, the motor 301 is fixed to a side surface of the handle housing 100, the first fixing plate 303 is disposed on a top of the motor 301, the first fixing plate 303 is fixed to a bottom of the balloon 200, the second fixing plate 310 is fixed to a top of the balloon 200, the first fixing plate 303 and a bottom surface of the balloon 200 are both provided with a first through hole 304, the first sealing ring 305 is wound in the first through hole 304, the output shaft 302 of the motor 301 is wound in the first sealing ring 305, the driving lever 306 and the stirring blade 307 are coaxially fixed to the output shaft 302 of the motor 301 in the balloon 200, a first connecting rod 308 is fixed on the inner surface of the balloon 200, a second connecting rod 309 is fixed at one end of the first connecting rod 308, which is far away from the balloon 200, and the second connecting rod 309 can be overlapped with the outer end of the driving rod 306;

a second fixing plate 310 is fixed to the top of the balloon 200, a second through hole 312 is formed in the second fixing plate 310 and the top of the balloon 200, the second through hole 312 of the second fixing plate 310 is fixed to and communicated with the bottom of the second catheter 102, the second fixing plate 310 is fixed to one end of the first fixing rod 311, and the other end of the first fixing rod 311 is fixed to one end of the handle shell 100;

wherein the balloon 200 is made of rubber or plastic.

The stirring blade 307 in the sacculus 200 is driven to rotate by the motor 301, so that water in the sacculus 200 can flow upwards and has certain turbulence; meanwhile, the motor 301 drives the driving lever 306 in the balloon 200 to rotate, two ends of the driving lever 306 can be in lap joint with the second connecting rod 309 and can not be in lap joint with the second connecting rod 309, when the driving lever 306 rotates, the second connecting rod 309 can be hit each time, the second connecting rod 309 can be driven by the driving lever 306 to realize concave-convex bending through the side surface of the balloon 200 driven by the first connecting rod 308, the inner volume of the second connecting rod 309 is changed, water is pumped up through the resetting capacity of the balloon 200, and the balloon 200 can always pump water to the spray head 103 through the principle of the one-way valve 202.

The driving lever 306 is an arc-shaped lever, the driving lever 306 of the arc-shaped lever can deform the balloon 200 to pump out water just after rotating to contact with the second connecting rod 309, and in the case of continuing to rotate, the driving lever 306 of the arc-shaped lever is easier to enable the overlapping of the driving lever 306 of the arc-shaped lever and the second connecting rod 309 to be failed than the driving lever 306 of the straight lever, so that the water is pumped into the balloon 200 through the resetting force of the balloon 200. Of course, the driving lever 306 may also be a straight rod arranged horizontally or a straight rod arranged obliquely.

Wherein the one-way valve 202 is only capable of flowing water upwards and not downwards for pumping of the balloon 200.

The motor 301 is connected to the power module 110, which may be a battery, via a waterproof wire, and is defined by the inner surface of the handle case 100.

The balloon 200 is preferably made of nitrile rubber, so as to ensure the sealing property, the resetting capability, the tensile resistance and the service life.

The second link 309 is perpendicular to the first link 308, or the second link 309 is in a hook shape or an arc shape, so as to better overlap the toggle 306.

The output shaft 302 of the motor 301 is rotatably and hermetically arranged in the first through hole 304 through the first sealing ring 305, the body of the motor 301 is provided with a waterproof layer to prevent the motor 301 from being short-circuited when the first sealing ring 305 fails, and the first sealing ring 305 should be capable of bearing high pressure without causing water to flow out of the balloon 200 and ensuring that the output shaft 302 can rotate.

Wherein, the bottom of the handle shell 100 is fixed with the outer surface of the water storage tank 101, and the motor 301 can be directly fixed with the handle shell 100 or fixed with the top of the water storage tank 101.

As a further explanation of this embodiment, referring to fig. 1, 2, 3, and 4, the bending rods formed by the first connecting rods 308 and the second connecting rods 309 are distributed uniformly in at least two groups along the circumferential direction of the balloon 200.

The invention can increase the frequency and efficiency of pumping water by configuring the plurality of groups of bent rods.

The bending rods formed by the first connecting rods 308 and the second connecting rods 309 are uniformly distributed along the circumferential direction of the balloon 200 by 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more groups. The multiple groups of bent rods increase the frequency and efficiency of water pumping.

As a further explanation of the present embodiment, referring to fig. 1, 2, and 6, a connection box 400 is configured between the shift lever 306 and the stirring blade 307, the connection box 400 includes a first permanent magnet 401, a second attraction block 402, a first shaft 403, a protective shell 404, a second fixing rod 405, a third through hole, a fourth through hole, and a second sealing ring, the top of the first fixing plate 303 is fixed to the bottom of the second fixing rod 405, the top of the second fixing rod 405 is fixed to the bottom of the protective shell 404, the bottom and the top of the protective shell 404 are respectively provided with the third through hole and the fourth through hole, the third through hole and the fourth through hole are respectively surrounded by the second sealing ring, the output shaft 302 of the motor 301 is surrounded in the second sealing ring of the third through hole, and the first shaft 403 is surrounded in the second sealing ring of the fourth through hole;

a first permanent magnet 401 is fixed to the top of the output shaft 302 of the motor 301, a second attraction block 402 is fixed to the bottom of the first shaft 403, the first permanent magnet 401 faces the second attraction block 402 and attracts each other, the top of the first shaft 403 is mounted on the second fixing plate 310 through a bearing, and the shift lever 306 is fixed to the first shaft 403.

According to the invention, when the motor 301 rotates, the first permanent magnet 401 and the second attraction block 402 attract each other through the connection box 400 to realize synchronous motion or asynchronous motion of the first shaft 403 along with the output shaft 302 of the motor 301, so that the maximum pressure in the balloon 200 is controlled to avoid the phenomenon that the pressure in the balloon 200 is too high and is sprayed out of various sealing rings, and even the balloon 200 is prevented from exploding.

It should be emphasized that the restoring force of the balloon 200 when the end of the driving rod 306 is overlapped with the second connecting rod 309 is smaller or much smaller than the attractive force of the first permanent magnet 401 and the second attractive block 402, and smaller or much smaller than the rotating force or torque of the motor 301.

The deflector rod 306 is fixed to the output shaft 302 of the motor 301 of the present invention through the first shaft 403, so that the stirring blade 307 can be fixed to the output shaft 302 of the motor 301 to realize asynchronous movement of the stirring blade 307 and the deflector rod 306, and a larger turbulent flow is stirred by the stirring blade 307, and the deflector rod 306 realizes a turbulent flow with a higher rotation speed for turbulent flow of the stirring blade 307, thereby realizing a better cleaning effect.

Of course, the stirring blade 307 and the deflector rod 306 may be fixed on the first shaft 403, so as to achieve a greater turbulence and thus a better cleaning effect.

The second attraction block 402 may be a permanent magnet or an attracted iron block that attracts the first permanent magnet 401, and drives the first shaft 403 to rotate mainly by attraction with the first permanent magnet 401, so that the driving lever 306 rotates, and when the resistance of the driving lever 306 is too large, the motor 301 idles and the driving lever 306 does not rotate, thereby preventing the balloon 200 from exploding.

A modification of this embodiment may also be that, referring to fig. 3 and 7, a connection box 400 is disposed between the shift lever 306 and the stirring blade 307, the connection box 400 includes a first gear 409, a second gear 410, a first shaft 403, a protective shell 404, a second fixing rod 405, a third through hole, a fourth through hole, and a second sealing ring, the top of the first fixing plate 303 is fixed to the bottom of the second fixing rod 405, the top of the second fixing rod 405 is fixed to the bottom of the protective shell 404, the bottom and the top of the protective shell 404 are respectively provided with the third through hole and the fourth through hole, the third through hole and the fourth through hole are respectively surrounded by the second sealing ring, the second sealing ring of the third through hole is surrounded by the output shaft 302 of the motor 301, and the second sealing ring of the fourth through hole is surrounded by the first shaft 403;

a first gear 409 is fixed to the top of the output shaft 302 of the motor 301, a second gear 410 is fixed to the bottom of the first shaft 403, the first gear 409 and the second gear 410 are meshed, the top of the first shaft 403 is mounted on the second fixing plate 310 through a bearing, and the shift lever 306 is fixed to the first shaft 403;

the shift lever 306 is coaxially fixed with the first shaft 403, and the output shaft 302 of the motor 301 is coaxially fixed with the stirring blade 307.

The invention makes the deflector rod 306 and the stirring blade 307 rotate in opposite directions in the balloon 200 through the pair of meshed gears, so that the stroke in the balloon 200 is in forward and reverse two turbulent flows, and when the turbulent flows are ejected, the turbulent flows in more directions are generated to achieve better cleaning effect.

Wherein motor 301 can maintain torque and not rotate when the resistance of toggle lever 306 is excessive, which is due to the characteristics of motor 301.

As a further explanation of this embodiment, referring to fig. 4 and 5, an impulse mechanism 500 is disposed on the second through hole 312 of the second fixing plate 310, and the impulse mechanism 500 includes a notch plate 501, a chuck 502, a third link 503, a detent 504, a long hole 505, a second shaft 506, and a valve 507; the notch disc 501 is coaxially fixed with the top of the first shaft 403, the notch disc 501 is provided with a first arc-shaped notch, one end of the third connecting rod 503 is fixed with the first shaft 403, the other end of the third connecting rod 503 is fixed with one end of the bayonet 504, the end surface of the chuck 502 is provided with four long holes 505 uniformly distributed along the circumferential direction of the chuck, the bayonet 504 can be arranged in the long holes 505 and move along the long holes 505, a second arc-shaped notch is arranged between two adjacent long holes 505 of the chuck 502, the second arc-shaped notch of the chuck 502 can be overlapped with the outer circumferential surface of the notch disc 501, the center of the circle of the chuck 502 is coaxially fixed with the second shaft 506, the second shaft 506 is mounted on the second fixing plate 310 through a bearing, a valve 507 is fixed on the surface of the notch disc 501 close to the second fixing plate 310, and the valve 507 can be overlapped with the second through hole 312 of the second fixing plate 310, at least one set of valves 507 is evenly distributed along the circumference of the second shaft 506.

According to the invention, the pulse mechanism 500 can drive the chuck 502 to intermittently rotate through the continuous rotation of the notch disc 501, and the valve 507 driven by the chuck 502 enables the second through hole 312 of the second fixing plate 310 to be intermittently closed, so that the water flow sprayed by the spray head 103 is intermittently sprayed, on one hand, the pressure of the water sprayed by the spray head 103 is increased, and on the other hand, the turbulent flow of the water flow acting on the tooth surface of a user is increased through the intermittent water flow spraying, so that the cleaning effect is increased.

Wherein when the valve 507 is overlapped with the second through hole 312 of the second fixing plate 310, the water in the balloon 200 cannot flow out from the second through hole 312 to the spray head 103,

wherein, the valves 507 are uniformly distributed along the circumferential direction of the second shaft 506 in 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more groups, and the more the number is, the more the breakpoints of the water flow are, the larger the water flow pulse frequency is at the same rotational speed of the motor 301.

Wherein, the second arc breach set up the mode and do: the profile of the outer circumference of the notch disc 501 is the same, so that when the notch disc 501 rotates, the chuck 502 does not rotate by the overlapping of the convex circumferential surface of the notch disc 501 and the second arc-shaped notch.

The opening mode of the arc-shaped notch of the notch disc 501 may be as follows: with the two end points of the arc-shaped notch as imaginary lines, the left-side bow and the right-side symmetrical bow of the imaginary line in fig. 2 are both cut off to form a notch disk. Of course, as a preference, the arc-shaped track of the arc-shaped notch of the notch disc 501 is the same as the track of the outermost end of the chuck 502, so that the outermost end of the chuck 502 can be clamped to rotate in the arc-shaped notch without being affected.

For further explanation of this embodiment, referring to fig. 5, the valve 507 is fixed to the chuck 502 by a first spring 508.

The valve 507 and the chuck 502 are fixed by the first spring 508 in the present invention, so that the strength of the second through hole 312 of the valve 507 is enhanced, and the valve 507 can be easily removed from the opening of the second through hole 312 when the chuck 502 is rotated.

Wherein the area of the contact surface of the valve 507 is larger or much larger than the area of the orifice of the second through hole 312 to ensure sealing.

Wherein the valve 507 is made of cork or rubber.

Wherein, the valve 507 can also be directly fixed with the chuck 502.

As a further explanation of the present embodiment, referring to fig. 5, the opening of the second through hole 312 facing the valve 507 is provided with a boss ring 509 having a truncated cone shape in cross section.

According to the invention, the boss ring 509 with the truncated cone-shaped cross section can further compress the first spring 508 of the valve 507 when the valve 507 moves to the second through hole 312, so that the extrusion force is increased, and the sealing effect is increased.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (5)

1. An energy-saving and high-efficiency tooth cleaner is characterized in that: comprises that

A handle case (100) having a water storage tank (101) disposed at the bottom thereof and a second duct (102) and a spray head (103) disposed at the top thereof;

the balloon (200) is communicated with the inside of the water storage tank (101) through a first conduit (201), a one-way valve (202) is arranged on the first conduit (201), and the top of the balloon (200) is communicated with the second conduit (102) and the spray head (103);

the driving mechanism (300) drives the balloon (200) to contract back and forth through the motor (301) so as to pump the water in the water storage tank (101) to the spray head (103) through the first guide pipe (201) and the one-way valve (202), and drives the stirring blade (307) through the motor (301) to stir the water in the balloon (200) so as to enable the water sprayed by the spray head (103) to be provided with turbulent flow;

the driving mechanism (300) comprises a motor (301), an output shaft (302), a first fixing plate (303), a first through hole (304), a first sealing ring (305), a shifting rod (306), a stirring blade (307), a first connecting rod (308), a second connecting rod (309), a second fixing plate (310), a first fixing rod (311) and a second through hole (312), wherein the motor (301) is fixed with the side surface of the handle shell (100), the top of the motor (301) is provided with the first fixing plate (303), the first fixing plate (303) is fixed with the bottom of the balloon (200), the second fixing plate (310) is fixed with the top of the balloon (200), the first through hole (304) is jointly formed in the bottom surfaces of the first fixing plate (303) and the balloon (200), the first sealing ring (305) is arranged in the first through hole (304), the output shaft (302) of the motor (301) is arranged in the first sealing ring (305), a driving rod (306) and a stirring blade (307) are coaxially fixed on an output shaft (302) of a motor (301) in the balloon (200), a first connecting rod (308) is fixed on the inner surface of the balloon (200), a second connecting rod (309) is fixed at one end, far away from the balloon (200), of the first connecting rod (308), and the second connecting rod (309) can be overlapped with the outer end of the driving rod (306);

a second fixing plate (310) is fixed to the top of the balloon (200), a second through hole (312) is formed in the second fixing plate (310) and the top of the balloon (200) together, the second through hole (312) of the second fixing plate (310) is fixed to and communicated with the bottom of the second catheter (102), the second fixing plate (310) is fixed to one end of the first fixing rod (311), and the other end of the first fixing rod (311) is fixed to one end of the handle shell (100);

wherein the balloon (200) is made of rubber or plastic.

2. An energy efficient dental cleaner as claimed in claim 1, wherein: a connecting box (400) is configured between the shifting rod (306) and the stirring blade (307), the connecting box (400) comprises a first permanent magnet (401), a second attraction block (402), a first shaft (403), a protective shell (404), a second fixing rod (405), a third through hole, a fourth through hole and a second sealing ring, the top of the first fixing plate (303) is fixed with the bottom of the second fixing rod (405), the top of the second fixing rod (405) is fixed with the bottom of the protective shell (404), the bottom and the top of the protective shell (404) are respectively provided with the third through hole and the fourth through hole, the third through hole and the fourth through hole are respectively surrounded by the second sealing ring, the second sealing ring of the third through hole is internally surrounded by an output shaft (302) of the motor (301), and the second sealing ring of the fourth through hole is internally surrounded by the first shaft (403);

the top of an output shaft (302) of the motor (301) is fixed with a first permanent magnet (401), the bottom of the first shaft (403) is fixed with a second attraction block (402), the first permanent magnet (401) is over against the second attraction block (402) and mutually attracted, the top of the first shaft (403) is installed on the second fixing plate (310) through a bearing, and the shifting rod (306) is fixed with the first shaft (403).

3. An energy efficient dental cleaner as claimed in claim 2, wherein: a pulse mechanism (500) is arranged on a second through hole (312) of the second fixing plate (310), and the pulse mechanism (500) comprises a notch disc (501), a chuck (502), a third connecting rod (503), a bayonet (504), a long hole (505), a second shaft (506) and a valve (507); the gap disc (501) is coaxially fixed with the top of the first shaft (403), a first arc-shaped gap is arranged on the gap disc (501), one end of a third connecting rod (503) is fixed with the first shaft (403), the other end of the third connecting rod (503) is fixed with one end of a clamping pin (504), four long holes (505) uniformly distributed along the circumferential direction of the clamping disc (502) are formed in the end face of the clamping disc (502), the clamping pin (504) can be configured in the long holes (505) and moves along the long holes (505), a second arc-shaped gap is formed between two adjacent long holes (505) of the clamping disc (502), the second arc-shaped gap of the clamping disc (502) can be overlapped with the outer circumferential surface of the gap disc (501), the circle center of the clamping disc (502) is coaxially fixed with the second shaft (506), and the second shaft (506) is installed on the second fixing plate (310) through a bearing, valves (507) are fixed on the surface, close to the second fixing plate (310), of the notch disc (501), the valves (507) can be overlapped with second through holes (312) of the second fixing plate (310), and at least one group of valves (507) are uniformly distributed along the circumferential direction of the second shaft (506).

4. An energy efficient dental cleaner as claimed in claim 3 wherein: the valve (507) is fixed to the chuck (502) by a first spring (508).

5. An energy efficient dental cleaner as claimed in claim 4 wherein: a boss ring (509) with a truncated cone-shaped cross section is arranged at the opening of the second through hole (312) facing the valve (507).

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