CN116765074A - Automatic cleaner for water cup - Google Patents

Abstract

The invention relates to an automatic cleaner for a water cup, which comprises a base (100) and a telescopic part (200) which are fixed on a bracket (206), wherein a motor (201) drives a crank sliding block mechanism so that a brush head (209) moves up and down along the wall of the cup, the telescopic part drives a cleaning head to move up and down, and therefore the automatic cleaning effect of the water cup is realized.

Description

Automatic cleaner for water cup

Technical Field

The invention relates to an automatic cleaner for a water cup, in particular to an automatic cleaner for a water cup, which can save manpower and material resources, and is automatic, stable and efficient.

Background

The cup is a container for containing liquid, and can be used for drinking tea, water, beverage and the like at ordinary times. In places with a large number of water cup applications, such as bars, restaurants and the like, the cleaning work of the water cup is particularly important, especially for higher cylindrical water cups, the traditional manual cleaning is difficult to effectively clean the bottom of the water cup, and time and labor are wasted, so that an automatic water cup cleaner capable of saving manpower and material resources, and being automatic, stable and efficient is lacking at present.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic water cup cleaner which can save manpower and material resources and is automatic, stable and efficient.

The invention relates to an automatic cleaner for a water cup, which comprises

A base fixed to the bracket;

and the telescopic part drives the crank sliding block mechanism through the motor so that the brush head moves up and down along the wall of the water cup.

The invention relates to an automatic cleaner for a water cup, wherein a telescopic part comprises a motor, a crank, a first connecting rod, a first sliding block, a second sliding block, a bracket, a first guide rail, a brush rod and a brush head;

the motor is fixed with the base, and the motor output shaft is fixed with crank one end, the crank other end is articulated with first connecting rod one end, the first connecting rod other end is articulated with first slider, first slider is along first guide rail longitudinal movement in the support, and the support is fixed with the base, the second slider is connected with brush-holder stud one end, brush-holder stud other end and brush head fixed connection.

The invention relates to an automatic cleaner for a water cup, wherein the telescopic part further comprises a first guide groove, a second guide groove, a first bayonet lock, a longitudinal guide groove and an inclined guide groove;

the first guide groove is arranged in the first sliding block, the second guide groove is perpendicular to the first guide rail, a second sliding block moving along the second guide groove is arranged in the second guide groove, the second sliding block is fixed with one end of the brush rod, the second sliding block is connected with the first bayonet lock, the first bayonet lock is arranged in the first guide groove and moves along the first guide groove, the first guide groove comprises a longitudinal guide groove and an inclined guide groove, the longitudinal guide groove is arranged on two sides of the support, and the inclined guide groove is arranged between the longitudinal guide grooves.

The invention relates to an automatic cleaner for a water cup, wherein the telescopic part further comprises a first guide block, a second guide block, a first lug and a second lug;

a first guide block is fixed in the longitudinal guide groove, the first guide block gradually protrudes from a junction near the lower part of the longitudinal guide groove and the inclined guide groove to a junction far away from the lower part of the longitudinal guide groove and the inclined guide groove, one end of the first guide block far away from the junction of the lower part of the longitudinal guide groove and the inclined guide groove is fixed with the first lug, and the first lug extends to the junction of the upper part of the longitudinal guide groove and the inclined guide groove;

a second guide block is fixed in the inclined guide groove, the second guide block gradually protrudes from the junction near the upper parts of the longitudinal guide groove and the inclined guide groove to the junction far away from the upper parts of the longitudinal guide groove and the inclined guide groove, the junction far away from the upper parts of the longitudinal guide groove and the inclined guide groove of the second guide block is fixed with the second lug, and the second lug extends to the junction between the lower parts of the longitudinal guide groove and the inclined guide groove;

the second slider has seted up the bayonet lock, be equipped with in the bayonet lock along its first bayonet lock that removes, first bayonet lock with the one end of spring is fixed, the other end of first spring with first bayonet lock is fixed.

The invention relates to an automatic cleaner for a water cup, wherein the telescopic part further comprises a first limiting block, a second limiting block, a third limiting block, a fourth limiting block, a second spring and a third spring;

the first limiting block is obliquely arranged from top to bottom from left to right, the lower end of the first limiting block is hinged at the through position of the upper part of the longitudinal guide rail and the oblique guide rail, the lower surface of the first limiting block can be overlapped with one end of a third limiting block, the third limiting block is fixed with the longitudinal guide rail, one end of the lower surface of the first limiting block is fixed with one end of the second spring, and the other end of the second spring is fixed with the longitudinal guide rail;

the upper end of the second limiting block is connected with the lower portion of the inclined guide rail in a hinged mode, the right surface of the second limiting block can be overlapped with one end of a fourth limiting block, the fourth limiting block is fixed with the inclined guide rail, one end of the right surface of the second limiting block is fixed with one end of the third spring, and the other end of the third spring is fixed with the inclined guide rail;

the second sliding block is provided with a second bayonet lock hole, a second bayonet lock moving along the second bayonet lock is arranged in the first bayonet lock, and the second bayonet lock and the first bayonet lock are coaxially fixed.

The automatic water cup cleaner provided by the invention is characterized in that the motor drives the rotating mechanism to rotate the water cup.

The rotating mechanism comprises a first conical gear, a second conical gear, a first transmission shaft, a first bearing, a first disc, a second disc, a first connecting shaft, a second bearing and a caliper;

the motor output shaft is fixed with a first conical gear coaxially, the first conical gear is meshed with a second conical gear, the second conical gear is fixed with the first transmission shaft coaxially, one end of the first transmission shaft is vertically arranged on the base through a first bearing, the other end of the first transmission shaft is fixed with a first disc coaxially, the first disc is connected with a second disc in a driving mode, the upper surface of the second disc is fixed with a first connecting shaft coaxially, the first connecting shaft is arranged on the support through a second bearing, the lower surface of the second disc is fixed with at least two calipers, and the calipers are attached to the outer wall of the water cup.

The invention discloses an automatic water cup cleaner, wherein a first disc and a second disc are in intermittent driving connection, a second notch is formed in the outer circumference of the second disc, at least 3 second notches are uniformly distributed along the circumference of the second disc, the second notch can be attached to the outer circumference of the first disc, the upper surface of the second disc is fixed with a guide post, the guide post is arranged on a connecting line between the center of the second disc and the center of the second notch, the guide post can be overlapped with one end of a deflector rod, the other end of the deflector rod is fixed with the upper part of a first transmission shaft, the outer circumference of the first disc is provided with a first notch, and the connecting line between the center of the first notch and the center of the first disc is consistent with the length direction of the deflector rod.

The invention relates to an automatic water cup cleaner, wherein the rotating mechanism further comprises a roller, a third connecting shaft and a third bearing;

the rim of a cup of drinking cup and the outer periphery contact of at least 3 gyro wheels, every gyro wheel is fixed with the third connecting axle is coaxial, the third connecting axle passes through the third bearing and installs on the support.

The automatic water cup cleaner disclosed by the invention has the advantage that the brush head can be contacted with the inner surface of the water cup.

The automatic water cup cleaner disclosed by the invention is characterized in that the brush head can be contacted with the inner surface and/or the outer surface of the water cup.

The automatic water cup cleaner disclosed by the invention is different from the prior art in that the automatic water cup cleaner disclosed by the invention can save manpower and material resources, and is automatic, stable and efficient.

The automatic water cup cleaner of the present invention will be further described with reference to the accompanying drawings.

Drawings

FIG. 1 is a front view of a cup automatic cleaner;

FIG. 2 is a left side view of the automatic water cup cleaner of FIG. 1;

FIG. 3 is another state diagram of the automatic water cup cleaner of FIG. 1;

FIG. 4 is an isometric view of the automatic water cup cleaner of FIG. 1;

FIG. 5 is an enlarged view of a portion of the automatic water cup cleaner of FIG. 1;

FIG. 6 is an enlarged partial view of a side view of the automatic water cup cleaner of FIG. 2;

FIG. 7 is a partial top view of the automatic water cup cleaner of FIG. 1;

FIG. 8 is another state diagram of a partial top view of the automatic water cup cleaner of FIG. 1;

FIG. 9 is a partial right side view of FIG. 5;

fig. 10 is another partial right side view of fig. 5.

FIG. 11 is a functional expansion view of the automatic water cup cleaner of FIG. 1;

FIG. 12 is an enlarged view of a portion of the functional expansion diagram of FIG. 11;

FIG. 13 is an enlarged view of a portion of FIG. 5 for the same function;

FIG. 14 is an enlarged view of a portion of FIG. 13;

fig. 15 is a partial enlarged view of fig. 13.

Detailed Description

Referring to FIG. 1, as shown in FIGS. 1 to 15, the automatic cleaner for water cup of the present invention comprises

A base 100 fixed to a bracket 206; and the telescopic part 200 drives the crank block mechanism through the motor 201, so that the brush head 209 moves up and down along the wall of the water cup.

According to the invention, the brush head is driven to move up and down by the telescopic part, so that the automatic cleaning effect of the water cup is realized.

Wherein, the base 100 may be a handle.

The invention can realize random movement of the telescopic part 200 by the handle type base 100.

For a further explanation of the invention, see fig. 1, 2, 4;

the telescopic part 200 comprises a motor 201, a crank 202, a first connecting rod 203, a first sliding block 204, a second sliding block 205, a bracket 206, a first guide rail 207, a brush rod 208 and a brush head 209;

the motor 201 is fixed with the base 100, an output shaft of the motor 201 is fixed with one end of the crank 202, the other end of the crank 202 is hinged with one end of the first connecting rod 203, the other end of the first connecting rod 203 is hinged with the first sliding block 204, the first sliding block 204 moves along a first guide rail 207 in the support 206, the first guide rail 207 is fixed with the support 206, the second sliding block 205 is connected with one end of the brush rod 208, and the other end of the brush rod 208 is fixedly connected with the brush head 209.

The invention drives the crank 202 to rotate through the motor 201, and drives the first sliding block 204 to move up and down through the first connecting rod 203, so that the brush rod 208 moves up and down.

Wherein the brush bar 208 is directly fixed to the first slider 204.

According to the invention, through the brush bar 208 and the second sliding block 205 which are directly fixed, the equipment failure rate can be reduced, and the service life of the equipment can be prolonged.

The first slider 204 is provided with a dovetail slider, and the first guide rail 207 is provided with a dovetail guide groove matched with the dovetail slider in shape.

The invention can avoid the connection failure of the first slider 204 and the first guide rail 207 through the dovetail-shaped slider and the dovetail-shaped guide groove which are matched with each other.

The power module provided with the motor 201 includes a battery, an electric control module, and a wireless communication module, where the wireless communication module is electrically connected with the electric control module, and the wireless communication module is wirelessly connected with the user terminal.

The invention can directly lead the user terminal to wirelessly control the motor 201 through the wireless communication module, thereby leading the rotating speed, the rotating direction and the power of the motor 201 to be adjustable and further randomly adjusting the expansion speed, the moving direction and the force of the brush head 209.

For a further explanation of the invention, see fig. 1, 2, 3, 4;

the telescopic part 200 further comprises a first guide groove 211, a second guide groove 212 and a first bayonet 213; the first sliding block 204 is internally provided with a second guiding groove 212, the second guiding groove 212 is perpendicular to the first guiding rail, the second guiding groove 212 is internally provided with a second sliding block 205 moving along the second guiding groove, the second sliding block 205 is fixed with one end of the brush rod 208, the second sliding block 205 is connected with a first bayonet catch 213, the first bayonet catch 213 is configured in the first guiding groove 211 and moves along the first guiding groove, the first guiding groove 211 comprises a longitudinal guiding groove 214 and inclined guiding grooves 215, the longitudinal guiding grooves 214 are formed in two sides of the support 206, and the inclined guiding grooves 215 are formed between the longitudinal guiding grooves 214.

The invention realizes the longitudinal movement of the brush bar 208 at different positions through the longitudinal guide groove 214 and the inclined guide groove 215.

The "connection between the second slider 205 and the first bayonet 213" is that the second slider 205 is directly fixed to the first bayonet 213.

The connection relation between the second slider 205 and the first bayonet 213 configured in the above manner is more stable, the cost is low, and the problem of connection failure is avoided.

Wherein the longitudinal guide grooves 214 are symmetrically arranged at two sides of the bracket 206, the inclined guide grooves 215 are arranged between the longitudinal guide grooves 214, the two inclined guide grooves 215 are approximately in an X shape, the inclined guide grooves 215 are communicated with the two longitudinal guide grooves 214, and the distance from the upper part of the longitudinal guide groove 214 communicated with the inclined guide groove 215 to the upper end of the longitudinal guide groove 214 is greater than the distance from the upper part of the longitudinal guide groove 214 communicated with the inclined guide groove 214 to the lower end of the longitudinal guide groove 214.

According to the invention, the upper length of the communicating part of the longitudinal guide groove 214 and the inclined guide groove 215 is longer than the lower length, so that the first bayonet lock 213 is in contact with the water cup when the first bayonet lock 213 is arranged at the upper part of the longitudinal guide groove 214, and the first bayonet lock 213 is prevented from moving transversely due to the reaction force of the cup, so that the contact failure of the first bayonet lock 209 and the water cup is prevented.

The second slider 205 is a square slider, and the second guiding slot 212 is a square guiding slot.

The invention prevents the brush bar 208 from rotating along the first bayonet 213 by moving the square slide block along the square guide groove.

The second slider 205 is a dovetail slider, and the second guide slot 212 is a dovetail slot, and the dovetail slider is matched with the dovetail slot in shape.

The invention avoids the connection failure of the second slider 205 and the second guide slot 212 by providing dovetail shaped sliders and dovetail grooves in the second guide slot 212.

For a further explanation of the invention, see fig. 1, 5, 6;

the telescopic part 200 further comprises a first guide block 221, a second guide block 222, a first lug 223 and a second lug 224;

a first guide block 221 and a first bump 223 are fixed in the longitudinal guide groove 214, the first guide block 221 gradually protrudes from a junction near the lower part of the longitudinal guide groove 214 and the inclined guide groove 215 to a junction far away from the lower part of the longitudinal guide groove 214 and the inclined guide groove 215, one end of the first guide block 221 far away from the junction of the longitudinal guide groove 214 and the lower part of the inclined guide groove 215 is fixed with the first bump 223, and the first bump 223 extends to the junction of the longitudinal guide groove 214 and the upper part of the inclined guide groove 215;

a second guide block 222 and a second bump 224 are fixed in the inclined guide groove 215, the second guide block 222 gradually protrudes from a junction near the upper part of the longitudinal guide groove 214 and the inclined guide groove 215 to a junction far away from the upper part of the longitudinal guide groove 214 and the inclined guide groove 215, one end of the second guide block 222 far away from the junction of the longitudinal guide groove 214 and the upper part of the inclined guide groove 215 is fixed with the second bump 224, and the second bump 224 extends to the junction of the longitudinal guide groove 214 and the lower part of the inclined guide groove 215;

the second slider 205 is provided with a pin hole 226, a first pin 213 moving along the pin hole 226 is arranged in the pin hole 213, the first pin 213 is fixed with one end of the first spring 225, and the other end of the first spring 225 is fixed with the pin hole 226.

The invention realizes that the first bayonet 213 moves along the first guide slot 211 in an 8 shape by arranging the guide block and the convex block in the first guide slot 211; by providing the first bayonet 213 connected to the spring 225, it is achieved that the first bayonet 213 can maintain the fit to the first guide slot 211, thereby achieving stable reciprocation of the brush bar.

In use, as shown in fig. 5, when the first slider 204 moves from top to bottom, the first detent 213 moves from the bottom to the top of the longitudinal guide 214 on one side; when the first slider 204 moves from top to bottom, the first bayonet moves downwards from the intersection of the longitudinal guide groove 214 and the upper part of the inclined guide groove 215, and the second lug 224 guides the first bayonet 213, so that the first bayonet 213 moves to the bottom of the longitudinal guide groove 214 on the other side along the inclined guide groove 215 at the intersection of the longitudinal guide groove 214 and the upper part of the inclined guide groove 215; with this cycle, the first bayonet 213 is realized to have a motion trajectory of approximately "≡", so that the motion trajectories of "fact" of the brush lever 208 and the brush head 209 are realized, and the effect of efficiently cleaning the cup is realized.

Wherein the second protrusions 224 of the two intersecting diagonal channels 215 are staggered and fixed with respect to each other and exhibit a substantially "x" shape.

The invention realizes that the first bayonet 213 is smoothly attached to the first guide slot 211 for movement by arranging the mutually staggered and fixed convex blocks in the inclined guide slot 215.

Wherein, the part of the double solid line in fig. 5 represents the lower position or the non-convex position, and the part of the dotted line in fig. 5 represents the higher position of the convex.

The invention realizes that the first bayonet 213 moves along the first guide slot 211 according to the design requirement by arranging the guide blocks with variable heights and the convex blocks with constant heights.

The depths of the longitudinal guide groove 214 and the inclined guide groove 215 are the same, and the highest heights of the first guide block 221, the second guide block 222, the first lug 223 and the second lug 224 in the longitudinal guide groove 214 and the inclined guide groove 215 are smaller than half the depths of the longitudinal guide groove 214 and the inclined guide groove 215.

The invention prevents the first bayonet 213 from falling out of the longitudinal guide groove 214 and the inclined guide groove 215 by limiting the heights of the first guide block 221, the second guide block 222, the first lug 223 and the second lug 224.

For a further explanation of the invention, see fig. 1, 5, 6, 9, 10;

the telescopic part 200 further comprises a first limiting block 227, a second limiting block 228, a third limiting block 229, a fourth limiting block 230, a second spring 231 and a third spring 232;

the first limiting block 227 is obliquely arranged from top to bottom from left to right, the lower end of the first limiting block 227 is hinged at a position where the upper parts of the longitudinal guide rail 214 and the oblique guide rail 215 are communicated, the lower surface of the first limiting block 227 can be overlapped with one end of a third limiting block 229, the third limiting block 229 is fixed with the longitudinal guide rail 214, one end of the lower surface of the first limiting block 227 is fixed with one end of the second spring 231, and the other end of the second spring 231 is fixed with the longitudinal guide rail 214;

the second limiting block 229 is vertically arranged, the upper end of the second limiting block 228 is hinged at a position where the lower portion of the longitudinal guide rail 214 and the inclined guide rail 215 are penetrated, the right surface of the second limiting block 228 can be overlapped with one end of a fourth limiting block 230, the fourth limiting block 230 is fixed with the inclined guide rail 215, one end of the right surface of the second limiting block 229 is fixed with one end of a third spring 232, and the other end of the third spring 232 is fixed with the inclined guide rail 214;

the second slider 205 is provided with a second bayonet hole 233, a second bayonet 234 moving along the second bayonet hole 233 is disposed in the second bayonet hole 234, and the second bayonet 234 is coaxially fixed with the second bayonet hole 233.

Wherein the limiting devices are symmetrically arranged left and right.

The limiting device is arranged, so that the second clamping pin 234 moves in an 'infinity' shape along the first guide groove 211.

In use, as shown in fig. 11, when the first slider 204 moves from bottom to top, the second detent 234 moves from the bottom to the top of the longitudinal guide 214 on one side; when the first sliding block 204 moves from top to bottom, the second bayonet 234 moves downwards from the intersection of the upper part of the longitudinal guide groove 214 and the inclined guide groove 215 through the guide of the limiting block, so that the second bayonet 234 moves to the bottom of the longitudinal guide groove 214 on the other side along the inclined guide groove 215 at the intersection of the upper part of the longitudinal guide groove 214 and the inclined guide groove 215; with this cycle, the second bayonet 234 is enabled to exhibit a substantially "≡" motion trajectory, thereby achieving a "fact" motion trajectory of the brush lever 208 and the brush head 209, and thus achieving an efficient cup cleaning effect.

For a further explanation of the invention, see fig. 11, 12, 13;

the motor 201 drives the rotation mechanism 300 to rotate the water cup 310.

The rotating mechanism 300 comprises a first conical gear 301, a second conical gear 302, a first transmission shaft 303, a first bearing 304, a first disc 305, a second disc 306, a first connecting shaft 307, a second bearing 308 and a caliper 309;

the output shaft of the motor 201 is coaxially fixed with the first conical gear 301, the first conical gear 301 is meshed with the second conical gear 302, the second conical gear 302 is coaxially fixed with the first transmission shaft 303, one end of the first transmission shaft 303 is vertically installed on the base 100 through a first bearing 304, the other end of the first transmission shaft 303 is coaxially fixed with a first disc 305, the first disc 305 is in driving connection with a second disc 306, the upper surface of the second disc 306 is coaxially fixed with a first connecting shaft 307, the first connecting shaft 307 is installed on the support 206 through a second bearing 308, the lower surface of the second disc 306 is fixed with at least two calipers 309, and the calipers 309 are attached to the outer wall of the water cup 310.

The driving manner of the "driving connection between the first disc 305 and the second disc 306" is: the first disc 305 and the second disc 306 are gears, and the first disc 305 is meshed with the second disc 306.

The invention can realize that the first disc 305 drives the second disc 306 to rotate all the time by the driving mode, thereby realizing continuous rotation of the water cup.

Wherein the caliper (309) is made of rubber.

According to the invention, the convenience of taking the water cup (310) is realized by arranging the rubber calipers (309).

The lower surface of the second disc 306 is fixed with at least two calipers 309, the at least two calipers 309 are uniformly distributed along the circumferential direction of the second disc 306, and the number of the calipers 309 may be 2, 3, 4, 5 or more.

According to the invention, by arranging the plurality of calipers 309 fixed with the second disc 306, the calipers 309 can better clamp the water cup 310, so that the water cup can rotate more stably.

For a further explanation of the invention, see fig. 1, 7, 8;

the first disc 305 is connected with the second disc 306 in an intermittent driving way, a second notch 311 is formed in the outer circumference of the second disc 306, at least 3 second notches 311 are uniformly distributed along the circumference of the second disc 306, the second notch 311 can be attached to the outer circumference of the first disc 305, the upper surface of the second disc 306 is fixed to a guide pillar 312, the guide pillar 312 is configured on a connecting line between the center of the second disc 306 and the center of the second notch, the guide pillar 312 can be attached to one end of a deflector rod 313, the other end of the deflector rod 313 is fixed to the upper portion of the first transmission shaft 303, a first notch 314 is formed in the outer circumference of the first disc 305, and the connecting line between the center of the first notch 314 and the center of the second disc 305 is consistent with the length direction of the deflector rod 313.

According to the invention, the intermittent rotation of the water cup 310 is realized by arranging the disc type intermittent driving connection, so that the cleaning stability of the water cup 310 is improved.

For a further explanation of the invention, see fig. 7, 8;

the rotating mechanism 300 further comprises a roller 321, a third connecting shaft 322 and a third bearing 323;

the cup mouth of the water cup 310 is in contact with the outer circumferential surfaces of at least 3 rollers 321, each roller 321 is coaxially fixed with a third connecting shaft 322, and the third connecting shaft 322 is mounted on the bracket 206 through a third bearing 323.

The number of the rollers 321, the third connecting shafts 322, and the third bearings 323 is the same, and the number of the rollers 321 may be 3, 4, 5, 6, 7, 8, or more and should be prevented from contacting the first slider 204 and the bracket 206.

According to the invention, by arranging the roller 321, the third connecting shaft 322 and the third bearing 323, the cup 310 can be effectively supported when the rotating mechanism moves, so that the rotating mechanism 300 is more stable.

Wherein, the roller (321) is provided with a V-shaped groove along the outer circumferential surface.

The invention prevents the water cup (310) from moving axially by providing the roller (321) with the V-shaped groove.

The rollers (321) may have different diameters, the third connecting shafts (322) may have different diameters, and the third bearings (323) may have different diameters.

The invention avoids the contact of the same roller to the bracket (206) by arranging rollers (321) with different diameters.

For a further explanation of the invention, see fig. 1;

the brush head (209) is capable of contacting an inner surface of the water cup (310).

For a further explanation of the invention, see fig. 14;

the brush head (209) is capable of contacting an inner and/or outer surface of the water cup (310).

For a further explanation of the invention, see fig. 15;

the above examples are only illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solution of the present invention should fall within the scope of protection defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a drinking cup self-cleaning ware which characterized in that: comprising

A base (100) fixed to the bracket (206);

and the telescopic part (200) drives the crank block mechanism through the motor (201) to enable the brush head (209) to move up and down along the cup wall of the water cup (310).

2. The automatic water cup cleaner according to claim 1, wherein:

the telescopic part (200) comprises a motor (201), a crank (202), a first connecting rod (203), a first sliding block (204), a second sliding block (205), a bracket (206), a first guide rail (207), a brush rod (208) and a brush head (209);

the novel brush is characterized in that the motor (201) is fixed with the base (100), an output shaft of the motor (201) is fixed with one end of the crank (202), the other end of the crank (202) is hinged with one end of the first connecting rod (203), the other end of the first connecting rod (203) is hinged with the first sliding block (204), the first sliding block (204) longitudinally moves along a first guide rail (207) in the support (206), the support (206) is fixed with the base (100), the second sliding block (205) is connected with one end of the brush rod (208), and the other end of the brush rod (208) is fixedly connected with the brush head (209).

3. The automatic water cup cleaner according to claim 2, wherein: the telescopic part (200) further comprises a first guide groove (211), a second guide groove (212), a first clamping pin (213), a longitudinal guide groove (214) and an inclined guide groove (215);

the novel brush holder is characterized in that a second guide groove (212) is formed in the first sliding block (204), the second guide groove (212) is perpendicular to the first guide rail, a second sliding block (205) moving along the second guide groove is arranged in the second guide groove (212), the second sliding block (205) is fixed with one end of the brush rod (208), the second sliding block (205) is connected with a first clamping pin (213), the first clamping pin (213) is arranged in the first guide groove (211) and moves along the first guide groove, the first guide groove (211) comprises a longitudinal guide groove (214) and an inclined guide groove (215), the longitudinal guide groove (214) is arranged on two sides of the support (206), and the inclined guide groove (215) is arranged between the longitudinal guide grooves (214).

4. A cup automatic cleaner according to claim 3, wherein: the telescopic part (200) further comprises a first guide block (221), a second guide block (222), a first lug (223) and a second lug (224);

a first guide block (221) is fixed in the longitudinal guide groove (214), the first guide block (221) gradually protrudes from a junction near the lower part of the longitudinal guide groove (214) and the inclined guide groove (215) to a junction far away from the lower part of the longitudinal guide groove (214) and the inclined guide groove (215), one end, far away from the junction of the lower part of the longitudinal guide groove (214) and the inclined guide groove (215), of the first guide block (221) is fixed with the first lug (223), and the first lug (223) extends to the junction of the upper part of the longitudinal guide groove (214) and the inclined guide groove (215);

a second guide block (222) is fixed in the inclined guide groove (215), the second guide block (222) gradually protrudes from a junction near the upper parts of the longitudinal guide groove (214) and the inclined guide groove (215) to a junction far away from the upper parts of the longitudinal guide groove (214) and the inclined guide groove (215), the junction far away from the upper parts of the longitudinal guide groove (214) and the inclined guide groove (215) of the second guide block (222) is fixed with the second lug (224), and the second lug (224) extends to the junction of the lower parts of the longitudinal guide groove (214) and the inclined guide groove (215);

the second slider 205 is provided with a clamping hole (226), a first clamping pin (213) moving along the clamping hole (226) is arranged in the clamping hole, the first clamping pin (213) is fixed with one end of the first spring 225, and the other end of the first spring (225) is fixed with the clamping hole (226).

5. A cup automatic cleaner according to claim 3, wherein: the telescopic part (200) further comprises a first limiting block (227), a second limiting block (228), a third limiting block (229), a fourth limiting block (230), a second spring (231) and a third spring (232);

the first limiting block (227) is obliquely arranged from top to bottom from left to right, the lower end of the first limiting block (227) is hinged at a through position of the upper part of the longitudinal guide rail (214) and the inclined guide rail (215), the lower surface of the first limiting block (227) can be overlapped with one end of a third limiting block (229), the third limiting block (229) is fixed with the longitudinal guide rail (214), one end of the lower surface of the first limiting block (227) is fixed with one end of the second spring (231), and the other end of the second spring (231) is fixed with the longitudinal guide rail (214);

the second limiting block (228) is vertically arranged, the upper end of the second limiting block (228) is connected with the lower portion of the inclined guide rail (215) in a penetrating mode, the right surface of the second limiting block (228) can be overlapped with one end of a fourth limiting block (230), the fourth limiting block (230) is fixed with the inclined guide rail (215), one end of the right surface of the second limiting block (228) is fixed with one end of a third spring (232), and the other end of the third spring (232) is fixed with the inclined guide rail (214);

the second slider (205) is provided with a second bayonet lock hole (233), a second bayonet lock (234) moving along the second bayonet lock hole (233) is arranged in the second bayonet lock hole (234), and the second bayonet lock (234) and the first bayonet lock hole (233) are coaxially fixed.

6. The automatic water cup cleaner according to claim 4, wherein:

the motor (201) drives the rotation mechanism (300) to rotate the water cup (310).

The rotating mechanism (300) comprises a first conical gear (301), a second conical gear (302), a first transmission shaft (303), a first bearing (304), a first disc (305), a second disc (306), a first connecting shaft (307), a second bearing (308) and a caliper (309);

the motor (201) output shaft is fixed with first conical gear (301) is coaxial, first conical gear (301) and second conical gear (302) meshing, second conical gear (302) with first transmission shaft (303) is coaxial fixed, one end of first transmission shaft (303) is installed on base (100) through first bearing (304) is vertical, the other end of first transmission shaft (303) is fixed with first disc (305) is coaxial, first disc (305) is connected with second disc (306) drive, the upper surface of second disc (306) is fixed with first connecting axle (307) is coaxial, first connecting axle (307) is installed on support (206) through second bearing (308), the lower surface of second disc (306) is fixed with at least two callipers (309), callipers (309) are laminated with drinking cup (310) outer wall.

7. The automatic water cup cleaner according to claim 6, wherein: the utility model discloses a driving device for a bicycle, including first disc (305), second disc (306) are connected for intermittent type drive, the outer circumference of second disc (306) is opened and is provided with second breach (311), and at least 3 second breach (311) are followed the circumference evenly distributed of (306) of second disc, second breach (311) can laminate with first disc (305) outer circumference, second disc (306) upper surface is fixed with guide pillar (312), guide pillar (312) dispose on the line at the centre of a circle of second disc (306) and second breach center, guide pillar (312) can overlap joint with one end of driving lever (313), the other end and first transmission shaft (303) upper portion of driving lever (313) are fixed, the outer circumference of first disc (305) is equipped with first breach (314), the center of first breach (314) with the length direction of line of the centre of a circle of 305 and driving lever (313) is unanimous.

8. The automatic water cup cleaner according to claim 7, wherein: the rotating mechanism (300) further comprises a roller (321), a third connecting shaft (322) and a third bearing (323);

the cup mouth of the water cup (310) is in contact with the outer circumferential surfaces of at least 3 rollers (321), each roller (321) is coaxially fixed with a third connecting shaft (322), and the third connecting shafts (322) are arranged on the support (206) through third bearings (323).

9. The automatic water cup cleaner according to claim 8, wherein: the brush head (209) is capable of contacting an inner surface of the water cup (310).

10. The automatic water cup cleaner according to claim 8, wherein: the brush head (209) is capable of contacting an inner and/or outer surface of the water cup (310).