CN116765039A - Bioengineering vessel cleaning device and application method thereof - Google Patents

Abstract

The application discloses a bioengineering vessel cleaning device and a using method thereof, and belongs to the technical field of vessel cleaning devices. Including ultrasonic cleaner, the connecting seat rotates and sets up inside ultrasonic cleaner, place the dish and rotate through the rotation subassembly and set up in the connecting seat outside, and be provided with a plurality ofly, the stirring leaf is installed inside ultrasonic cleaner, install drive assembly in the ultrasonic cleaner, drive assembly can drive the stirring leaf and rotate, drive the stirring leaf through drive assembly and rotate and stir the washing liquid, make the air can mix with the washing liquid, increase the inside gas of washing liquid and dissolved oxygen's content, make the washing liquid under the effect of high frequency sound wave, the bubble quantity that produces increases, and then increase the bubble and adhere to the impact frequency of dirt on the household utensils, increase ultrasonic cleaning's effect.

Description

Bioengineering vessel cleaning device and application method thereof

Technical Field

The application relates to the technical field of ware washing devices, in particular to a bioengineering ware washing device and a using method thereof.

Background

In bioengineering experiments, sensitive biological materials such as cells, viruses and proteins are usually used, and in order to ensure accuracy and consistency of the experiments, the laboratory vessels are cleaned to a high degree, so that ultrasonic cleaning is usually adopted.

The document of prior art publication No. CN217094733U provides a quick belt cleaning device of household utensils for bioengineering, and the device passes through ultrasonic cleaner, ultrasonic cleaner's inside swing joint has the frame of placing, the inside of placing the frame is provided with stop gear, ultrasonic cleaner's top swing joint has the top cap, one side of top cap is provided with the observation window, one side swing joint that the top cap is close to the observation window has the fixed plate, the top of fixed plate is provided with the clearance piece, one side of fixed plate is provided with the pull rod.

The above prior art solution, though realizing the beneficial effects related to the prior art by the structure of the prior art, still has the following drawbacks: the principle of ultrasonic cleaning is that cavitation and vortex effect are generated in liquid by utilizing high-frequency sound waves to clean the surface of an object, the cavitation of a cleaning medium is related to dissolved gas and dissolved oxygen in the cleaning medium, when the content of air and dissolved oxygen in the cleaning medium is low, the number of bubbles generated by the cavitation is reduced, and the cleaning effect is further reduced, wherein the defects in the prior art are not overcome; in addition, in the process of recycling the cleaning medium, the generated ultrasonic vibration can discharge the gas dissolved in the cleaning medium outwards, so that the effect of subsequent cleaning is reduced.

In view of this, we propose a bioengineering ware washing device.

Disclosure of Invention

1. Technical problem to be solved

The application aims to provide a method for a bioengineering vessel cleaning device, which solves the technical problem that the device in the background technology can not adjust the content of gas and dissolved oxygen in a cleaning medium.

2. Technical proposal

The technical proposal of the application provides a bioengineering vessel cleaning device, which comprises

An ultrasonic cleaner;

the connecting seat is rotatably arranged in the ultrasonic cleaner;

the placing discs are rotatably arranged on the outer sides of the connecting seats through the autorotation assemblies and are provided with a plurality of placing discs;

stirring leaf, the stirring leaf is installed inside ultrasonic cleaner, install drive assembly in the ultrasonic cleaner, drive assembly can drive stirring leaf rotation.

Through adopting above-mentioned technical scheme, drive stirring leaf through drive assembly and rotate for stirring leaf can stir the washing liquid in the ultrasonic cleaner, make the air can dissolve in the washing liquid.

As an alternative scheme of the technical scheme of the application, a machine cavity is formed in the ultrasonic cleaner, a first motor is arranged in the machine cavity, and an output shaft of the first motor penetrates through the inner wall of the machine cavity to extend to a cleaning cavity in the ultrasonic cleaner and is fixedly connected with the middle part of the connecting seat.

Through adopting above-mentioned technical scheme, through the connecting seat rotation, can let the household utensils around the connecting seat rotate for ultrasonic cleaner can be by effectual washing through the position that changes the household utensils, adjustment household utensils and the position between the ultrasonic source, and then makes the household utensils that are located different positions.

As an alternative scheme of the technical scheme of the document, the autorotation assembly comprises a connecting rod fixedly arranged in the ultrasonic cleaner, one end of the connecting rod is fixedly provided with a fixed bevel gear, the outer wall of the fixed bevel gear is connected with a plurality of bevel gears A in a meshed mode, the bevel gears A are rotationally connected with a connecting seat, the bevel gears A are fixedly connected with a placing disc, and the output end of the first motor is rotationally penetrated through the connecting rod and the fixed bevel gear and is fixedly connected with the connecting seat.

As an alternative to the technical solution of the present application, the placing tray is provided with an inner group and an outer group;

the outer wall of the bevel gear A is connected with the bevel gear B in a meshed mode, the bevel gear B is connected with the connecting seat in a rotating mode, and the bevel gear B is fixedly connected with the outer side placing disc.

Through adopting above-mentioned technical scheme, drive the rotation of placing the dish through rotation subassembly, let the household utensils on it rotate, can promote the dirt on household utensils surface to drop through the relative motion between household utensils and the washing liquid.

As an alternative to the technical solution of the present application, the connection base is arranged in a conical structure;

the stirring blade is arranged in an inclined structure.

By adopting the technical scheme, the distance between the upper ends of the vessels can be increased, so that a user can conveniently place and take the vessels; the inclined stirring blade can enlarge the stirring range of the cleaning liquid and promote the dissolution of air.

As an alternative scheme of the technical scheme of the application, the driving assembly comprises a fixed box fixedly arranged on the outer wall of the ultrasonic cleaner, a rotating cylinder is rotatably arranged in the fixed box, a driving shaft is connected in the rotating cylinder in a sliding manner, and the driving shaft is connected with the stirring blade;

the outer wall of the driving shaft is fixedly provided with a sliding block, and the sliding block is in sliding connection with a sliding groove in the rotating cylinder;

a rotary bevel gear A is rotatably arranged in the fixed box, a rotary bevel gear B is connected to the outer wall of the rotary bevel gear A in a meshed manner, and the rotary bevel gear B is fixedly connected with the rotary barrel in a coaxial manner;

and a second motor is coaxially and fixedly arranged on one side of the rotating bevel gear A, and the fixed box is fixedly connected with the second motor.

Through adopting above-mentioned technical scheme, can drive the drive shaft and rotate this moment to a plurality of stirring leaves on the drive shaft have been driven and have rotated.

As an alternative scheme of the technical scheme of the application, the outer wall of the driving shaft is provided with a reciprocating groove which is arranged in an annular curve structure;

the reciprocating groove is internally provided with a limiting slide block in a sliding manner, and the limiting slide block is fixedly arranged in the fixed box.

As an alternative scheme of the technical scheme of the application, a plurality of connecting shafts are fixedly arranged on the outer wall of the rotating cylinder, a swinging frame is rotatably arranged on the outer side of each connecting shaft, the swinging frame is fixedly connected with the stirring blade, the swinging frame is in an L-shaped structure, and a rotating ball seat A is fixedly connected to one side of the swinging frame;

the outer side of the rotary ball seat A is provided with a rotary ball body A in a sliding manner, one side of the rotary ball body A is provided with a supporting rod, two ends of the supporting rod are provided with rotary ball seats B, and the rotary ball seats B are in rotary connection with the rotary ball body A;

the outer wall of the driving shaft is fixedly provided with a plurality of limiting rods, the outer sides of the limiting rods are fixedly provided with rotary spheres B, and the rotary spheres B are rotationally connected with another rotary ball seat B.

Through adopting above-mentioned technical scheme, drive the axle and when rotating, can reciprocate relative to the rotary drum, and then can promote the swing frame through the bracing piece and rotate for the stirring leaf can swing, can raise the washing liquid, further promotes the mixture of air and washing liquid.

As an alternative scheme of the technical scheme of the application, a plurality of clamping blocks are arranged in the placing disc, and the clamping blocks are arranged in an arc-shaped structure;

the clamping block fixedly connected with telescopic link, the telescopic link other end is fixed with placing the dish inner wall connection, the telescopic link has elasticity, and is the shrink form under the natural state.

Through adopting above-mentioned technical scheme, the grip block can be under the pulling of telescopic link, carries out the centre gripping to the inner wall of household utensils.

The application also discloses a using method of the bioengineering vessel cleaning device, which comprises the following steps:

s1, placing cleaning liquid into an ultrasonic cleaner, and switching on an external power supply;

s2, starting a second motor, wherein the second motor drives a rotating cylinder to rotate through a rotating bevel gear A, and the rotating cylinder drives a plurality of stirring blades on a driving shaft to rotate so as to stir the cleaning liquid; when the driving shaft rotates, the cleaning solution moves up and down in the rotating cylinder under the limit of the limit sliding block, so that the rotating cylinder can swing, the cleaning solution is further stirred, the cleaning solution can be stirred She Yang and contacted with air, and the content of gas and dissolved oxygen in the cleaning solution is increased;

s3, closing the second motor, and placing the vessel on the placing plate, so that the plurality of clamping blocks can clamp and fix the inner wall of the vessel under the pulling of the telescopic rod;

s4, starting the first motor, so that the first motor can drive the connecting seat to rotate, a plurality of placing plates on the connecting seat are driven to rotate and transpose, and starting the ultrasonic cleaner to clean the vessels fixed on the placing plates.

3. Advantageous effects

One or more technical schemes provided in the technical scheme of the application at least have the following technical effects or advantages:

1. according to the application, the stirring blade is driven to rotate by the driving component to stir the cleaning solution, so that air can be mixed with the cleaning solution, the content of gas and dissolved oxygen in the cleaning solution is increased, the number of generated bubbles of the cleaning solution is increased under the action of high-frequency sound waves, the impact frequency of the bubbles on dirt attached to a vessel is increased, and the ultrasonic cleaning effect is improved.

2. According to the application, the self-rotation assembly drives the placing plate to rotate, so that the vessel on the placing plate can rotate, the distance between the vessel and the ultrasonic vibration source is changed, and meanwhile, the relative movement of the vessel and the cleaning liquid can be utilized to accelerate the dirt on the surface of the vessel to drop, so that the cleaning effect is improved.

3. According to the application, through the arrangement of the swinging frame and the supporting rod, the stirring blade can swing under the driving of the swinging frame while rotating, so that the stirring blade can lift the cleaning liquid upwards, the contact area of the cleaning liquid and air is increased, and the dissolution of the air is further accelerated.

4. According to the application, the connecting seat is arranged in a conical shape, so that the distance between the upper ends of the vessels can be increased when the vessels are placed on the placing plate, and the vessels are convenient for a user to take.

Drawings

FIG. 1 is a schematic view of the overall structure of a bioengineering warewashing apparatus according to a preferred embodiment of the application;

FIG. 2 is a cross-sectional view showing the overall structure of a bio-engineering ware washing apparatus according to a preferred embodiment of the present application;

FIG. 3 is a schematic exploded view of the drive assembly of the bioengineered warewasher according to one preferred embodiment of the application;

FIG. 4 is an exploded view showing the construction of a drive assembly of a bioengineered warewasher according to a preferred embodiment of the application;

FIG. 5 is an enlarged view of the structure of the bioengineered warewashing apparatus according to a preferred embodiment of the application;

FIG. 6 is a bottom view of the spin assembly of the bioengineering ware washing device according to the preferred embodiment of the application;

FIG. 7 is a exploded view showing the internal structure of a tray of the bio-engineering warewashing apparatus according to a preferred embodiment of the present application;

the reference numerals in the figures illustrate: 1. an ultrasonic cleaner; 2. a connecting seat; 21. a machine cavity; 22. a first motor; 3. placing a tray; 31. a connecting rod; 32. fixing a bevel gear; 33. bevel gear A; 301. bevel gear B; 4. stirring the leaves; 41. a fixed box; 42. a rotating cylinder; 43. a driving shaft; 44. a slide block; 45. a chute; 46. rotating the bevel gear A; 47. rotating the bevel gear B; 48. a second motor; 401. a reciprocating groove; 402. a limit sliding block; 4001. a connecting shaft; 4002. a swing frame; 4003. rotating the ball seat A; 4004. rotating the sphere A; 4005. a support rod; 4006. rotating the ball seat B; 4007. a limit rod; 4008. rotating the sphere B; 5. a clamping block; 51. a telescopic rod.

Detailed Description

The application is described in further detail below with reference to the drawings.

Referring to FIG. 1, an embodiment of the present application provides a bioengineering ware washing device comprising

An ultrasonic cleaner 1;

the connecting seat 2 is rotatably arranged in the ultrasonic cleaner 1;

the placing discs 3 are rotatably arranged outside the connecting seat 2 through the autorotation assembly, and a plurality of placing discs 3 are arranged;

stirring leaf 4, stirring leaf 4 installs inside ultrasonic cleaner 1, installs drive assembly in the ultrasonic cleaner 1, and drive assembly can drive stirring leaf 4 rotation.

The stirring blade 4 is driven to rotate through the driving component, so that the stirring blade 4 can stir the cleaning liquid in the ultrasonic cleaner 1, and air can be dissolved in the cleaning liquid.

Referring to fig. 2, the embodiment of the application provides a bioengineering vessel cleaning device, a machine cavity 21 is formed in an ultrasonic cleaner 1, a first motor 22 is arranged in the machine cavity 21, and an output shaft of the first motor 22 penetrates through the inner wall of the machine cavity 21 to extend to a cleaning cavity in the ultrasonic cleaner 1 and is fixedly connected with the middle part of a connecting seat 2.

Through connecting seat 2 rotation, can let the household utensils at connecting seat 2 rotate for ultrasonic cleaner is at the during operation, can be through changing the position of household utensils, adjusts the position between household utensils and the ultrasonic source, and then makes the household utensils that are located different positions homoenergetic by effectual washing.

Referring to fig. 6, an embodiment of the present application provides a bioengineering vessel cleaning device, the rotation assembly includes a connecting rod 31 fixedly disposed in the ultrasonic cleaner 1, one end of the connecting rod 31 is fixedly provided with a fixed bevel gear 32, the outer wall of the fixed bevel gear 32 is engaged with a plurality of bevel gears a33, the bevel gears a33 are rotatably connected with a connecting seat 2, the bevel gears a33 are fixedly connected with a placing plate 3, and the output end of a first motor 22 rotates to penetrate through the connecting rod 31, the fixed bevel gear 32 and is fixedly connected with the connecting seat 2.

The placing plate 3 is provided with an inner group and an outer group;

the outer wall of the bevel gear A33 is connected with a bevel gear B301 in a meshed manner, the bevel gear B301 is connected with the connecting seat 2 in a rotating manner, and the bevel gear B301 is fixedly connected with the outer placing disc 3.

When the connecting seat 2 rotates, the connecting seat 2 rotates around the fixed bevel gear 32 on the connecting rod 31, so that a plurality of bevel gears A33 on the connecting seat 2 also rotate around the fixed bevel gear 32, the bevel gears A33 are meshed with the fixed bevel gear 32, so that the bevel gears A33 drive the inner circle of placing disc 3 to rotate, and simultaneously when the bevel gears A33 rotate, the bevel gears A33 are meshed with the bevel gears B301, so that the bevel gears B301 rotate, the outer circle of placing disc 3 is driven to rotate, the number of treating vessels is increased, the rotation assembly drives the placing disc 3 to rotate, relative movement between the vessels and cleaning liquid is caused, and the dirt on the surfaces of the vessels is promoted.

Referring to fig. 1 and 2, an embodiment of the present application provides a bioengineering vessel cleaning device, in which a connection base 2 is provided in a conical structure;

the stirring blade 4 is arranged in an inclined structure.

The upper end interval of the vessel can be increased, so that a user can conveniently place and take the vessel; the inclined stirring blade 4 can increase the stirring range of the cleaning liquid and promote the dissolution of air.

Referring to fig. 3 and 4, the embodiment of the application provides a bioengineering vessel cleaning device, a driving assembly comprises a fixed box 41 fixedly arranged on the outer wall of an ultrasonic cleaner 1, a rotary cylinder 42 is rotatably arranged in the fixed box 41, a driving shaft 43 is slidingly connected in the rotary cylinder 42, and the driving shaft 43 is connected with a stirring blade 4;

the outer wall of the driving shaft 43 is fixedly provided with a sliding block 44, and the sliding block 44 is in sliding connection with a sliding groove 45 in the rotating cylinder 42;

a rotary bevel gear A46 is rotatably arranged in the fixed box 41, a rotary bevel gear B47 is connected to the outer wall of the rotary bevel gear A46 in a meshed manner, and the rotary bevel gear B47 is fixedly connected with the rotary barrel 42 in a coaxial manner;

a second motor 48 is coaxially and fixedly arranged on one side of the rotary bevel gear A46, and the fixed box 41 is fixedly connected with the second motor 48.

The output shaft of the second motor 48 is started to rotate so as to drive the rotating bevel gear A46 to rotate, the rotating bevel gear A46 is meshed with the rotating bevel gear B47, the rotating barrel 42 on the rotating bevel gear B47 rotates, and the driving shaft 43 is driven to rotate at the moment, so that the stirring blades 4 on the driving shaft 43 are driven to rotate.

Referring to fig. 4, the embodiment of the application provides a bioengineering vessel cleaning device, wherein a reciprocating groove 401 is formed on the outer wall of a driving shaft 43, and the reciprocating groove 401 is arranged in an annular curve structure;

the reciprocating groove 401 is internally provided with a limit slider 402 in a sliding manner, and the limit slider 402 is fixedly arranged in the fixed box 41.

When the driving shaft 43 rotates, the driving shaft 43 slides in the rotating cylinder 42 when being limited by the limiting slider 402 due to the reciprocating groove 401 on the driving shaft 43.

Referring to fig. 5, an embodiment of the present application provides a bioengineering vessel cleaning device, wherein a plurality of connecting shafts 4001 are fixedly arranged on the outer wall of a rotating cylinder 42, a swinging frame 4002 is rotatably arranged on the outer side of the connecting shafts 4001, the swinging frame 4002 is fixedly connected with a stirring blade 4, the swinging frame 4002 is in an L-shaped structure, and a rotating ball seat a4003 is fixedly connected to one side of the swinging frame;

a rotary ball body A4004 is arranged on the outer side of the rotary ball seat A4003 in a sliding manner, a supporting rod 4005 is arranged on one side of the rotary ball body A4004, rotary ball seats B4006 are arranged at two ends of the supporting rod 4005, and the rotary ball seats B4006 are in rotary connection with the rotary ball body A4004;

the outer wall of the driving shaft 43 is fixedly provided with a plurality of limit rods 4007, the outer sides of the limit rods 4007 are fixedly provided with rotary spheres B4008, and the rotary spheres B4008 are rotationally connected with another rotary ball seat B4006.

In the process of driving the shaft 43 to reciprocate, the limiting rod 4007 on the driving shaft 43 can be used for pulling and pushing the supporting rod 4005 in a reciprocating manner, and the rotating ball body B4008 and the rotating ball seat B4006 and the rotating ball seat A4003 and the rotating ball body A4004 are arranged in a rotating manner, so that the swinging frame 4002 can be pushed to swing through the supporting rod 4005, the stirring blade 4 can swing, the stirring blade 4 can lift the cleaning liquid upwards, and the dissolving speed of air in the cleaning liquid is increased.

Referring to fig. 7, an embodiment of the present application provides a bioengineering vessel cleaning device, in which a plurality of clamping blocks 5 are disposed in a placement tray 3, and the clamping blocks 5 are disposed in an arc-shaped structure;

the clamping block 5 is fixedly connected with a telescopic rod 51, the other end of the telescopic rod 51 is fixedly connected with the inner wall of the placing plate 3, and the telescopic rod 51 has elasticity and is contracted in a natural state.

So that the clamping blocks 5 can clamp the inner wall of the vessel under the pulling of the telescopic rod 51.

The embodiment of the application provides a bioengineering vessel cleaning device, which comprises the following steps:

s1, placing cleaning liquid into an ultrasonic cleaner 1, and switching on an external power supply;

s2, starting a second motor 48, wherein the second motor 48 drives a rotating cylinder 42 to rotate through a rotating bevel gear A46, and the rotating cylinder 42 drives a plurality of stirring blades 4 on a driving shaft 43 to rotate so as to stir the cleaning liquid; when the shaft 43 is driven to rotate, the cleaning liquid moves up and down in the rotating cylinder 42 under the limit of the limit sliding block 402, so that the rotating cylinder 42 can swing, the cleaning liquid is further stirred, the cleaning liquid can be lifted by the stirring blades 4 and contacted with air, and the content of gas and dissolved oxygen in the cleaning liquid is increased;

s3, closing the second motor 48, and placing the vessel on the placing disc 3, so that the plurality of clamping blocks 5 can clamp and fix the inner wall of the vessel under the pulling of the telescopic rod 51;

s4, starting the first motor 22, so that the first motor 22 can drive the connecting seat 2 to rotate, thereby driving the plurality of placing discs 3 on the connecting seat 2 to rotate and replace, starting the ultrasonic cleaner 1, and cleaning the vessels fixed on the placing discs 3.

When the ware cleaning device is needed, firstly, cleaning liquid is put into the ultrasonic cleaner 1, then the output shaft of the second motor 48 is started to rotate to drive the rotating bevel gear A46 to rotate, the rotating bevel gear A46 is meshed with the rotating bevel gear B47, the rotating cylinder 42 on the rotating bevel gear B47 is enabled to rotate, the driving shaft 43 is driven to rotate at the moment, the plurality of stirring blades 4 on the driving shaft 43 are driven to rotate to stir the cleaning liquid, when the driving shaft 43 rotates, due to the arrangement of the reciprocating groove 401 on the driving shaft 43, when being limited by the limiting slide block 402, the driving shaft 43 can slide in the rotating cylinder 42, and in the process of driving the shaft 43 to reciprocate, the limiting rod 4007 on the driving shaft 43 can reciprocally pull and push the supporting rod 4005, and due to the rotation of the rotating ball body B4008 and the rotating ball seat B4006 and the rotating ball body 4004, the stirring frame 4002 can be pushed to swing through the supporting rod 4003, the stirring blades 4 can swing, and the stirring blades 4 can upwards lift the cleaning liquid, and the speed of the cleaning liquid can be increased.

After a certain time, the second motor 48 is turned off, then the vessel is placed in the placing tray 3, and the clamping block 5 is pulled by the telescopic rod 51, so that the clamping block 5 can clamp and fix the inner wall of the vessel;

by starting the first motor 22 and the ultrasonic cleaner 1, cavitation and vortex effects are generated in the liquid by high-frequency sound waves to clean the surface of the vessel, so that the first motor 22 can drive the connecting seat 2 to rotate, and a plurality of placing discs 3 on the connecting seat 2 are driven to rotate and replace, and the position of the vessel is adjusted; while the connecting seat 2 rotates, the connecting seat 2 rotates around the fixed bevel gear 32 on the connecting rod 31, so that a plurality of bevel gears A33 on the connecting seat 2 also rotate around the fixed bevel gear 32, and the bevel gears A33 are meshed with the fixed bevel gear 32, so that the bevel gears A33 drive the inner circle of placing plates 3 to rotate, and simultaneously when the bevel gears A33 rotate, the bevel gears A33 are meshed with the bevel gears B301, so that the bevel gears B301 rotate, and the outer circle of placing plates 3 are driven to rotate, so that the vessel can relatively move with the cleaning liquid, and dirt on the surface of the vessel is promoted to fall off.

Claims (10)

1. A bioengineering household utensils belt cleaning device, its characterized in that: comprising:

an ultrasonic cleaner;

the connecting seat is rotatably arranged in the ultrasonic cleaner;

the placing discs are rotatably arranged on the outer sides of the connecting seats through the autorotation assemblies and are provided with a plurality of placing discs;

stirring leaf, the stirring leaf is installed inside ultrasonic cleaner, install drive assembly in the ultrasonic cleaner, drive assembly can drive stirring leaf rotation.

2. The bioengineered warewashing apparatus of claim 1, wherein: the ultrasonic cleaning machine is characterized in that a machine cavity is formed in the ultrasonic cleaning machine, a first motor is arranged in the machine cavity, and an output shaft of the first motor penetrates through the inner wall of the machine cavity to extend to a cleaning cavity in the ultrasonic cleaning machine and is fixedly connected with the middle of the connecting seat.

3. The bioengineered warewashing apparatus of claim 2, wherein: the rotation subassembly is including fixed the setting in the inside connecting rod of ultrasonic cleaner, connecting rod one end is fixed to be provided with fixed bevel gear, fixed bevel gear outer wall meshing is connected with a plurality of bevel gears A, bevel gear A rotates with the connecting seat to be connected, bevel gear A is fixed with placing the dish connection, first motor output rotates runs through connecting rod, fixed bevel gear and with connecting seat fixed connection.

4. A bioengineered warewashing apparatus according to claim 3, characterised in that: the placing plate is provided with an inner group and an outer group;

the outer wall of the bevel gear A is connected with a bevel gear B in a meshed manner, the bevel gear B is rotationally connected with the connecting seat, and the bevel gear B is fixedly connected with the outer placing disc.

5. The bioengineered warewashing apparatus of claim 1, wherein: the connecting seat is arranged in a conical structure;

the stirring blade is arranged in an inclined structure.

6. The bioengineered warewashing apparatus of claim 1, wherein: the driving assembly comprises a fixed box fixedly arranged on the outer wall of the ultrasonic cleaner, a rotating cylinder is rotatably arranged in the fixed box, a driving shaft is connected in the rotating cylinder in a sliding manner, and the driving shaft is connected with the stirring blade;

the outer wall of the driving shaft is fixedly provided with a sliding block, and the sliding block is in sliding connection with a sliding groove in the rotating cylinder;

a rotary bevel gear A is rotatably arranged in the fixed box, a rotary bevel gear B is connected to the outer wall of the rotary bevel gear A in a meshed manner, and the rotary bevel gear B is fixedly connected with the rotary barrel in a coaxial manner;

and a second motor is coaxially and fixedly arranged on one side of the rotating bevel gear A, and the fixed box is fixedly connected with the second motor.

7. The bioengineered warewashing apparatus of claim 6, wherein: the outer wall of the driving shaft is provided with a reciprocating groove which is in an annular curve structure;

the reciprocating groove is internally provided with a limiting slide block in a sliding manner, and the limiting slide block is fixedly arranged in the fixed box.

8. The bioengineered warewashing apparatus of claim 6, wherein: the outer wall of the rotating cylinder is fixedly provided with a plurality of connecting shafts, the outer sides of the connecting shafts are rotatably provided with swinging frames, the swinging frames are fixedly connected with the stirring blades, the swinging frames are in an L-shaped structure, and one side of each swinging frame is fixedly connected with a rotating ball seat A;

the outer side of the rotary ball seat A is provided with a rotary ball body A in a sliding manner, one side of the rotary ball body A is provided with a supporting rod, two ends of the supporting rod are provided with rotary ball seats B, and the rotary ball seats B are in rotary connection with the rotary ball body A;

the outer wall of the driving shaft is fixedly provided with a plurality of limiting rods, the outer sides of the limiting rods are fixedly provided with rotary spheres B, and the rotary spheres B are rotationally connected with another rotary ball seat B.

9. The bioengineered warewashing apparatus of claim 1, wherein: a plurality of clamping blocks are arranged in the placing plate, and the clamping blocks are arranged in an arc-shaped structure;

the clamping block fixedly connected with telescopic link, the telescopic link other end is fixed with placing the dish inner wall connection, the telescopic link has elasticity, and is the shrink form under the natural state.

10. A method of using a bioengineered warewashing apparatus according to any one of claims 1 to 9, comprising the steps of:

s1, placing cleaning liquid into an ultrasonic cleaner, and switching on an external power supply;

s2, starting a second motor, wherein the second motor drives a rotating cylinder to rotate through a rotating bevel gear A, and the rotating cylinder drives a plurality of stirring blades on a driving shaft to rotate so as to stir the cleaning liquid; when the driving shaft rotates, the cleaning solution moves up and down in the rotating cylinder under the limit of the limit sliding block, so that the rotating cylinder can swing, the cleaning solution is further stirred, the cleaning solution can be stirred She Yang and contacted with air, and the content of gas and dissolved oxygen in the cleaning solution is increased;

s3, closing the second motor, and placing the vessel on the placing plate, so that the plurality of clamping blocks can clamp and fix the inner wall of the vessel under the pulling of the telescopic rod;

s4, starting the first motor, so that the first motor can drive the connecting seat to rotate, a plurality of placing plates on the connecting seat are driven to rotate and transpose, and starting the ultrasonic cleaner to clean the vessels fixed on the placing plates.