CN114535208A

CN114535208A - Ultrasonic wave bottle cleaning machine set convenient to operation

Info

Publication number: CN114535208A
Application number: CN202210173294.2A
Authority: CN
Inventors: 曹晓玲; 曹远东; 徐小平; 周志; 余少武
Original assignee: Jiangxi Jiabo Biological Engineering Co ltd
Current assignee: Jiangxi Jiabo Biological Engineering Co ltd
Priority date: 2022-02-24
Filing date: 2022-02-24
Publication date: 2022-05-27

Abstract

The invention relates to the technical field of ultrasonic bottle washing, and discloses an ultrasonic bottle washing unit convenient to operate. According to the invention, the cross rod moves downwards, the protective cover at the bottom of the cross rod generates extrusion force on water flow, so that the water flow generates reverse floating thrust on the spiral blade, the spiral blade is stressed to rotate, the bottle clamped at the top of the cross rod is driven to rotate, the bottle is contacted with the first bristles, and the cleaning of the outer side of the bottle can be realized by utilizing the first bristles, so that the bottle can rotate under the influence of water flow buoyancy and the driving force, the safety of the whole operation in the bottle cleaning process is ensured, and meanwhile, the contact area between the first bristles and the bottle and the cleaning frequency in the cleaning process are improved.

Description

Ultrasonic wave bottle cleaning machine set convenient to operation

Technical Field

The invention relates to the technical field of ultrasonic bottle washing, in particular to an ultrasonic bottle washing machine set convenient to operate.

Background

An ultrasonic bottle washer is a special device for washing bottles, has high automation degree, is suitable for ampoules, penicillin bottles, mould bottles, oral liquid bottles and the like with the specification of 1-20ml, is used for carrying out ultrasonic cleaning, is filled into a special combined tray when the bottles are put into the special combined tray, consists of a bottle tray and a cover plate and is separated and positioned by a hole of the bottle tray, is manually sent into a first station, is sprayed with circulating water to fill a river, sinks to an ultrasonic groove for ultrasonic rough cleaning, then is lifted to a second station, is sprayed with water downwards to wash an outer bottle, inserts a needle into the bottle (air blast), carries out primary cleaning (water injection), carries out secondary cleaning (water injection), carries out tertiary air blast, and is thrown to a bottle mouth, and is lifted upwards to automatically enter a sterilization oven.

When a bottle to be cleaned needs to be guided into the ultrasonic bottle washing machine, the bottle is generally cleaned by a soaking method, the driving motor needs to be utilized to drive the first bristles to brush the outer wall of the bottle to be cleaned, however, water flow exists in the ultrasonic bottle washing tank, if the first bristles are directly carried with the driving motor and sink to the inside of the ultrasonic bottle washing tank, the water flow is easily immersed into the inside of the driving motor, so that the operation safety is reduced, if the first bristles are not immersed into the inside of the ultrasonic bottle washing tank, a corresponding support needs to be arranged, and the bottle is cleaned by being driven by the driving motor, so that the structure of the ultrasonic bottle washing machine is complex, the types and the number of electric elements used by each group of ultrasonic bottle washing machine units are more, the consumption of electric quantity is increased to a certain extent, and the cost is increased.

Therefore, the ultrasonic bottle washing machine set convenient to operate is designed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an ultrasonic bottle washing machine set convenient to operate, which solves the problem that the bottles are cleaned by a general soaking method, the outer wall of the bottle to be cleaned needs to be brushed by driving first bristles by using a driving motor, however, because water flow exists in an ultrasonic bottle washing groove, if the first bristles are directly carried by the driving motor to sink to the inside of the ultrasonic bottle washing groove, the water flow is easy to soak into the driving motor, thereby reducing the operation safety, if the bottle is not immersed in the ultrasonic bottle washing tank, a corresponding bracket needs to be arranged, and the bottle is brushed and cleaned under the driving of the driving motor, thereby the structure of the ultrasonic bottle washing machine set is more complex, the types and the quantity of the electric appliance elements used by each group of ultrasonic bottle washing machine sets are more, the consumption of electric quantity is increased to a certain extent, and the cost is improved.

In order to achieve the purpose, the invention adopts the technical scheme that:

an ultrasonic bottle washing unit convenient to operate comprises a structure main body, wherein an ultrasonic bottle washing groove is formed in the outer side of the structure main body, supporting assemblies are arranged at two ends of the bottom side in the ultrasonic bottle washing groove, a plurality of groups of protective covers are uniformly arranged at the bottoms of the supporting assemblies, water seepage holes are formed in the top ends of two sides of the protective covers, a plurality of groups of blocking covers are uniformly arranged at the bottom ends of the inner sides of the protective covers, rotating assemblies extending to the lower portion of the protective covers are arranged at the bottoms of the blocking covers, clamping assemblies are arranged at the tops of the blocking covers, a cleaning assembly is arranged at one side of each group of clamping assemblies, bottles are inserted into the inner sides of the clamping assemblies, a U-shaped frame is arranged at the top of the supporting assemblies, a plurality of groups of engines are uniformly arranged at the tops of the U-shaped frame, electric push rods are arranged at the output ends of the engines and are positioned at the top ends in the U-shaped frame, the output end of the electric push rod is provided with a T-shaped support, the two sides of the T-shaped support are provided with small electric push rods, and the output ends of the small electric push rods are provided with supporting blocks.

Further, the supporting component all includes the horizontal pole, the both sides of horizontal pole all are provided with L type support, electric telescopic handle is all installed to the inboard of L type support, electric telescopic handle's bottom all is provided with a piece, one side of a piece all with the bottom welded connection at ultrasonic wave wash-bottle groove both sides both ends, the top of horizontal pole all evenly is provided with the jack that the multiunit extends to the inside top of protection casing, every group the inside four corners department of jack all rolls and inlays and be equipped with the spin.

Further, the rotating assembly all includes the dwang, the outside bottom of dwang all evenly is provided with multiunit helical blade, helical blade's bottom all is provided with to the groove, the top in the dwang outside all is provided with the sealing washer, and the sealing washer all is located the bottom of jack.

Further, the bottom of joint subassembly all includes the motor, the outside eight corners department of motor all is provided with the card frame, the card frame all is "L" type structure, the damping pad has all been laid to the inside one side of card frame, the inside bottom of card frame all evenly is provided with the multiunit second brush hair.

Further, clean the subassembly and all include branch, one side of branch all is provided with the mounting, one side that branch was kept away from to the mounting all is provided with first brush hair, the bottom of branch all with the top welded connection of horizontal pole.

Furthermore, one side of the bottom of one end of the ultrasonic bottle washing groove is provided with a delivery pipe, and valves are arranged on the delivery pipe.

Furthermore, the top of the motor is fixedly connected with the top of the protective cover.

Furthermore, four corners inside each group of jacks are provided with rolling grooves matched with the rolling balls, and the rolling balls are connected with the jacks in a rolling manner through the rolling grooves.

The invention has the beneficial effects that:

1. the invention adopts the support block, the electric telescopic rod, the L-shaped bracket, the cross rod, the jack, the rolling groove, the rolling ball, the protective cover, the water seepage hole, the baffle cover, the rotating rod, the helical blade, the abutting groove, the clamping component, the second brush hair, the U-shaped bracket, the engine, the electric push rod, the T-shaped bracket, the small electric push rod and the abutting block, when the bottle needs to be cleaned by ultrasonic wave, the cross rod moves downwards, the protective cover at the bottom of the cross rod generates extrusion force on water flow, and simultaneously the water flow generates reverse floating thrust on the helical blade, so that the helical blade carries the rotating rod to rotate in the jack and the protective cover, and drives the bottle above the clamping component to rotate, the outer side of the bottle is sequentially contacted with the surface of the first brush hair in the rotating process, the cleaning on the outer side of the bottle can be realized by the first brush hair, and the bottle can be directly influenced by the buoyancy and the thrust of the water flow, when the bottom of bottle and the contact surface that is sheltered from by the card frame are cleared up to needs, the length of extension electric putter output, make T type frame and small-size electric putter extend to the inboard of bottle, then the length of extension small-size electric putter output, make to support the inside at the bottle, the engine drives the bottle simultaneously and rotates towards the direction opposite with card frame commentaries on classics power, make the second brush hair brush the bottom of bottle, make water buoyancy replace driving motor to produce the commentaries on classics power promotion to the card frame, the security of whole operation among the bottle cleaning process has been guaranteed (not have the electrical apparatus to be soaked by water), the contact area between first brush hair and the bottle and the frequency of brushing among the cleaning process have been improved simultaneously, thereby the time of work has been shortened, and the work efficiency is improved.

2. According to the invention, through the arrangement of the jack, the baffle cover, the rotating rod, the helical blade, the rolling balls and the rolling groove, when the rotating rod and the helical blade outside the rotating rod are influenced to rotate by buoyancy, the rotating rod rotates in the jack, a plurality of groups of rolling balls are embedded in the jack, and the side surfaces of the rolling balls are directly contacted with the side surfaces of the rotating rod, so that the contact area between the inner wall of the jack and the rotating rod is smaller, the influence of resistance on the rotating rod when the rotating rod is forced to rotate is smaller, and the rotating rod is more labor-saving, meanwhile, because the rolling balls roll in the rolling groove, the rolling balls can be influenced to rotate by the rotating rod when the rotating rod rotates, inertia thrust is generated on the rotating rod, the influence of resistance on the rotating rod when the rotating rod is reduced, the rotating speed of the rotating rod and the clamping frame is improved, and the contact frequency between the first bristles and the bottle is prolonged, the cleanliness of cleaning is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial perspective view of the present invention;

FIG. 3 is a perspective view of a rotating member of the present invention;

FIG. 4 is a schematic structural view of an L-shaped stent of the present invention;

FIG. 5 is a partial schematic view of the present invention;

FIG. 6 is an enlarged view of A of FIG. 1 according to the present invention;

fig. 7 is a schematic structural view of the electric putter of the present invention.

In the figure: 1. a structural body; 2. ultrasonic bottle washing groove; 3. a support assembly; 301. supporting a block; 302. an electric telescopic rod; 303. an L-shaped bracket; 304. a cross bar; 305. a jack; 306. a rolling groove; 307. rolling a ball; 4. a protective cover; 5. a water seepage hole; 6. a shield; 7. a rotating assembly; 701. rotating the rod; 702. a helical blade; 703. a butting groove; 704. a seal ring; 8. a clamping assembly; 801. a motor; 802. a clamping frame; 803. a damping pad; 9. a sweeping assembly; 901. a strut; 902. a fixing member; 903. a first bristle; 10. a bottle; 11. a second bristle; 12. a U-shaped frame; 13. an engine; 14. an electric push rod; 15. a T-shaped bracket; 16. a small electric push rod; 17. and (6) butting against blocks.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to FIGS. 1-7: an ultrasonic bottle washing machine set convenient to operate comprises a structure main body 1, an ultrasonic bottle washing groove 2 is arranged on the outer side of the structure main body 1, supporting components 3 are arranged at two ends of the bottom side in the ultrasonic bottle washing groove 2, a plurality of groups of protective covers 4 are uniformly arranged at the bottoms of the supporting components 3, water seepage holes 5 are formed in the top ends of two sides of each protective cover 4, a plurality of groups of blocking covers 6 are uniformly arranged at the bottom ends of the inner sides of the protective covers 4, rotating components 7 extending to the lower portion of each protective cover 4 are arranged at the bottoms of the blocking covers 6, clamping components 8 are arranged at the tops of the blocking covers 6, a cleaning component 9 is arranged at one side of each group of clamping components 8, bottles 10 are inserted into the inner sides of the clamping components 8, a U-shaped frame 12 is arranged at the top of the supporting components 3, a plurality of engines 13 are uniformly arranged at the top of the U-shaped frame 12, electric push rods 14 are arranged at the output ends of the engines 13, and the electric push rods 14 are positioned at the top ends in the U-shaped frame 12, the output end of the electric push rod 14 is provided with a T-shaped support 15, the two sides of the T-shaped support 15 are provided with small electric push rods 16, and the output end of each small electric push rod 16 is provided with a resisting block 17.

In the invention, when the bottle 10 needs to be cleaned by ultrasonic waves, the bottle 10 is directly plugged to the inner side of the clamping component 8, then the output end of the electric telescopic rod 302 is shortened under the action of electric power and drives the L-shaped support 303 and the cross rod 304 to move downwards until the cross rod 304 drives the bottle 10 placed above the cross rod 304 to slowly soak into water flow inside the ultrasonic bottle cleaning groove 2, as the cross rod 304 moves downwards, the protective cover 4 at the bottom of the cross rod generates extrusion force on the water flow, and simultaneously the water flow generates reverse floating thrust on the spiral blade 702, so that the spiral blade 702 carries the rotating rod 701 to rotate inside the jack 305 and the protective cover 4 and drives the bottle 10 above the clamping component 8 to rotate, the outer side of the bottle 10 is sequentially contacted with the surface of the first brush bristles 903 in the rotating process, the cleaning on the outer side of the bottle 10 can be realized by the first brush bristles 903, and the bottle 10 can be directly influenced by the water flow and the buoyancy thrust to rotate, the cleaning of the periphery of the bottle 10 by the first bristles 903 can be realized without using a driving motor, so that the operation safety is improved, the consumption of electric quantity is reduced to a certain extent, the cost is reduced, the floating thrust of the passing water flow is better concentrated on the bottom of the spiral blade 702 by using the abutting groove 703, the pushing effect of the spiral blade 702 is better, and the pushing force is improved.

Please refer to fig. 1, 2, 4, 5 and 6, the supporting assembly 3 includes a cross bar 304, two sides of the cross bar 304 are both provided with L-shaped brackets 303, inner sides of the L-shaped brackets 303 are both provided with electric telescopic rods 302, bottoms of the electric telescopic rods 302 are both provided with support blocks 301, one sides of the support blocks are both welded with bottoms of two sides of the ultrasonic bottle washing tank 2, tops of the cross bar 304 are both uniformly provided with a plurality of groups of jacks 305 extending to a top end of the interior of the protective cover 4, four corners inside each group of jacks 305 are all embedded with rolling balls 307 in a rolling manner, when the rotating rod 701 rotates inside the jacks 305, the rolling balls 307 directly contact with a side surface of the rotating rod 701, so that a contact area between inner walls of the jacks 305 and the rotating rod 701 is smaller, resistance influence on the rotating of the rotating rod 701 when the rotating rod 701 is forced is smaller, thereby making the rotating of the rotating rod 701 more labor-saving, and simultaneously, as the rolling balls 307 roll inside the rolling grooves 306, therefore, when the rotating lever 701 rotates, the rolling is influenced by the rotating lever 701 to rotate, and the rotating lever 701 in rotation generates an inertial thrust to move, thereby increasing the rotation speed to a certain extent.

Please refer to fig. 1, 2, 3, 5 and 6, the rotation assembly 7 includes a rotation rod 701, the bottom of the rotation rod 701 is uniformly provided with a plurality of sets of helical blades 702, the bottom of the helical blades 702 is provided with a supporting groove 703, the top of the outer side of the rotation rod 701 is provided with a sealing ring 704, the sealing ring 704 is located at the bottom of the insertion hole 305, the bottom of the insertion hole 305 is sealed and connected by the sealing ring 704, so as to ensure the water flow guided into the interior of the protection cover 4 through the bottom of the protection cover, and the protection cover 4 is directly guided out along the water seepage hole 5 after acting force is generated on the rotation rod 701 and the helical blades 702, so that the water flow is smoother.

Please refer to fig. 1, 2, 3, 5 and 6, the bottom of the clamping assembly 8 includes a motor 801, eight corners outside the motor 801 are all provided with clamping frames 802, the clamping frames 802 are all in an "L" shape, one side inside the clamping frames 802 is all laid with a damping pad 803, the bottom inside the clamping frames 802 is all uniformly provided with a plurality of groups of second bristles 11, the damping pad 803 is used to make the friction force between the clamping frames 802 and the outside of the bottle 10 larger, thereby ensuring better stability of the bottle 10 inside the clamping frames 802.

Please refer to fig. 1, 2, 4, 5 and 6, the sweeping assemblies 9 each include a supporting rod 901, a fixing member 902 is disposed on one side of the supporting rod 901, a first bristle 903 is disposed on one side of the fixing member 902 away from the supporting rod 901, the bottom of the supporting rod 901 is welded to the top of the cross bar 304, the rotating rod 701, which is influenced by the floating thrust of the water flow, drives the bottle 10 on the top to rotate, and the outer side of the bottle is sequentially contacted with the first bristle, so as to clean the outer side of the bottle 10 by the first bristle, and clean the bottle 10 more cleanly.

Please refer to fig. 1, a guiding pipe is disposed on one side of the bottom of one end of the ultrasonic bottle washing tank, and valves are disposed on the guiding pipe, so that the guiding pipe is convenient for guiding out the water inside the ultrasonic bottle washing tank 2, thereby reducing the difficulty of discharging the water inside the ultrasonic bottle washing tank.

Please refer to fig. 1, 2, 3, 5 and 6, the top of the motor 801 is fixedly connected to the top of the protection cover 4, and when the protection cover 4 rotates, the motor 801 is directly driven to rotate at the same rotation speed.

Please refer to fig. 1, 5 and 6, four corners inside each jack 305 are all provided with rolling grooves 306 matching with the rolling balls 307, the rolling balls 307 are all connected with the jacks 305 through the rolling grooves 306 in a rolling manner, when the rotating rod 701 rotates inside the jack 305, because the rolling balls 307 directly contact with the side surface of the rotating rod 701, the contact area between the inner wall of the jack 305 and the rotating rod 701 is smaller, the resistance influence on the rotating rod 701 when the rotating rod 701 rotates under force is smaller, and the rotation of the rotating rod 701 is more labor-saving, and because the rolling balls 307 roll inside the rolling grooves 306, the rolling of the rotating rod 701 can be influenced by the rotating rod 701 when the rotating rod 701 rotates, and the inertial thrust for moving the rotating rod 701 is generated, thereby increasing the rotating speed to a certain extent.

In conclusion, when the ultrasonic cleaning device is used, when the bottle 10 needs to be cleaned by ultrasonic waves, the bottle 10 is directly plugged into the inner side of the clamping component 8 (the clamping component 8 is utilized to limit and support the bottle 10, so that the bottle 10 can rotate along with the clamping component 8 which rotates under the influence of buoyancy, the surface of the bottle 10 supported by the clamping component 8 can be brushed by the first bristles 903, when the abutting block 17 is positioned above the bottle 10 and does not extend into the bottle 10 and does not contact with the inside of the bottle 10, the bottle opening of the bottle 10 can also extend into cleaning liquid, so that the small electric push rod 16 is prevented from being soaked and corroded by part of the cleaning liquid penetrating into the bottle 10 through the bottle opening, the service life of the small electric push rod 16 is prolonged, the safety in the process of cleaning the bottle 10 is improved), then the output end of the electric telescopic rod 302 is shortened under the action of electric power, the L-shaped support 303 and the cross bar 304 are driven to move downwards until the cross bar 304 drives the bottle 10 placed above the cross bar to slowly immerse into the water flow inside the ultrasonic bottle washing groove 2, the protective cover 4 at the bottom of the cross bar 304 generates extrusion force on the water flow and generates reverse floating thrust on the spiral blade 702, so that the spiral blade 702 carries the rotating rod 701 to rotate inside the jack 305 and the protective cover 4 and drives the bottle 10 above the clamping component 8 to rotate, the outer side of the bottle 10 is sequentially contacted with the surfaces of the first bristles 903 in the rotating process, the cleaning of the outer side of the bottle 10 can be realized by using the first bristles 903, the bottle 10 can be directly influenced by the buoyancy force and the pushing force of the water flow to rotate, the cleaning of the outer periphery of the bottle 10 by using the first bristles 903 can be realized without using a driving motor, and the operation safety is improved, the consumption of electric quantity is reduced to a certain extent, the cost is reduced, when the rotating rod 701 rotates in the jack 305, the rolling ball 307 is directly contacted with the side surface of the rotating rod 701, so that the contact area between the inner wall of the jack 305 and the rotating rod 701 is smaller, the resistance influence on the rotating rod 701 when the rotating rod 701 is forced to rotate is smaller, the rotating rod 701 rotates more easily, meanwhile, the rolling ball 307 rolls in the rolling groove 306, so that the rotating rod 701 rotates under the influence of the rotating rod 701 when rotating, the inertia thrust for moving the rotating rod 701 is generated, the rotating speed is improved to a certain extent, when the bottom of the bottle 10 and the contact surface between the clamped frame 802 and the bottle 10 need to be cleaned, the length of the output end of the electric push rod 14 is prolonged under the action of electric power until the T-shaped frame 15 and the small electric push rod 16 extend to the inner side of the bottle 10, then, the length of the output end of the small electric push rod 14 is extended, so that the abutting block 17 abuts against the inside of the bottle 10 (when the abutting block 17 is driven by the electric push rod 14 and the small electric push rod 16 to extend to the inside of the bottle 10, because the abutting block 17 is abutted against two sides of the inside of the bottle 10 by the small electric push rod 16, the abutting block 17 is influenced by the extrusion force of the small electric push rod 16, so that the extrusion force of the abutting block 17 on the bottle 10 is far greater than the frictional damping force of the clamping component 8 on the bottle, thereby shortening the length of the output end of the electric push rod 14 under the electric power, driving the bottle 10 to move upwards and moving out of the clamping component 8, then driving the bottle 10 pressed by the abutting block 17 to rotate under the action of the engine 13, and the rotation direction of the engine 13 is opposite to the rotation direction of the clamping component 8 influenced by the buoyancy, so that the outside of the bottle 10 can be sequentially contacted with the second bristles 11 arranged in the clamping component 8, the bottle cleaning device is located below the bottle opening, the length of the output end of the electric push rod 14 is shortened, so that the output end of the electric push rod 14 drives the bottle 10 to move upwards slightly, meanwhile, the output end of the engine 13 drives the bottle 10 to rotate in the direction opposite to the clamping frame 802, so that the second bristles 11 on the inner side of the clamping frame 802 brush the bottom of the bottle 10, and meanwhile, the engine 13 drives the bottle 10 to rotate, so that the position where the bottle 10 is covered by the clamping frame 802 can be continuously contacted with the first bristles 11, the integrity of cleaning the outer part of the bottle 10 is ensured, and the cleanliness of cleaning the bottle 10 is ensured.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an ultrasonic wave bottle cleaning unit convenient to operation, includes main structure body (1), its characterized in that: the ultrasonic bottle washing machine is characterized in that an ultrasonic bottle washing groove (2) is formed in the outer side of the structure main body (1), supporting assemblies (3) are arranged at two ends of the bottom side in the ultrasonic bottle washing groove (2), a plurality of groups of protective covers (4) are uniformly arranged at the bottoms of the supporting assemblies (3), water seepage holes (5) are formed in the top ends of two sides of each protective cover (4), a plurality of groups of blocking covers (6) are uniformly arranged at the bottom ends of the inner sides of the protective covers (4), rotating assemblies (7) extending to the lower portions of the protective covers (4) are arranged at the bottoms of the blocking covers (6), clamping assemblies (8) are arranged at the tops of the blocking covers (6), cleaning assemblies (9) are arranged on one side of each group of the clamping assemblies (8), bottles (10) are inserted into the inner sides of the clamping assemblies (8), and U-shaped frames (12) are arranged at the tops of the supporting assemblies (3), multiunit engine (13) are evenly installed at the top of U type frame (12), electric putter (14) are all installed to the output of engine (13), and electric putter (14) are located the inside top of U type frame (12), the output of electric putter (14) all is provided with T type support (15), the both sides of T type support (15) all are provided with small-size electric putter (16), the output of small-size electric putter (16) all is provided with and supports piece (17).

2. An ultrasonic bottle washing set for convenient operation as defined in claim 1, wherein: supporting component (3) all include horizontal pole (304), the both sides of horizontal pole (304) all are provided with L type support (303), electric telescopic handle (302) are all installed to the inboard of L type support (303), the bottom of electric telescopic handle (302) all is provided with a piece (301), the bottom welded connection at bottle groove (2) both sides both ends is all washed with the ultrasonic wave to one side of a piece, the top of horizontal pole (304) all evenly is provided with jack (305) that the multiunit extends to protection casing (4) inside top, every group jack (305) inside four corners department all rolls and inlays and be equipped with spin (307).

3. An ultrasonic bottle washing set for convenient operation as defined in claim 2, wherein: rotating assembly (7) all include dwang (701), the outside bottom of dwang (701) all evenly is provided with multiunit helical blade (702), the bottom of helical blade (702) all is provided with to groove (703), the top in dwang (701) outside all is provided with sealing washer (704), and sealing washer (704) all is located the bottom of jack (305).

4. An ultrasonic bottle washing set for convenient operation as defined in claim 1, wherein: the bottom of joint subassembly (8) all includes motor (801), the outside eight angle departments of motor (801) all are provided with card frame (802), card frame (802) all are "L" type structure, damping pad (803) have all been laid to the inside one side of card frame (802), the inside bottom of card frame (802) all evenly is provided with multiunit second brush hair (11).

5. An ultrasonic bottle washing set for convenient operation as defined in claim 2, wherein: the cleaning assembly (9) comprises supporting rods (901), fixing pieces (902) are arranged on one sides of the supporting rods (901), first bristles (903) are arranged on one sides, far away from the supporting rods (901), of the fixing pieces (902), and the bottoms of the supporting rods (901) are connected with the tops of the cross rods (304) in a welding mode.

6. An ultrasonic bottle washing set for convenient operation as defined in claim 1, wherein: one side of ultrasonic wave wash-bottle groove one end bottom is provided with the eduction tube, and all is provided with the valve on the eduction tube.

7. An ultrasonic bottle washing set for convenient operation according to claim 4, wherein: the top of the motor (801) is fixedly connected with the top of the protective cover (4).

8. An ultrasonic bottle washing set for convenient operation as defined in claim 2, wherein: and rolling grooves (306) matched with the rolling balls (307) are arranged at four corners inside each group of the jacks (305), and the rolling balls (307) are connected with the jacks (305) in a rolling way through the rolling grooves (306).