CN113797807B

CN113797807B - Essence powder stirring mixing arrangement

Info

Publication number: CN113797807B
Application number: CN202111236895.5A
Authority: CN
Inventors: 单丽君; 王超; 汪洪流
Original assignee: Huaibei Delan And Chuang Biotechnology Co ltd
Current assignee: Huaibei Delan And Chuang Biotechnology Co ltd
Priority date: 2021-10-24
Filing date: 2021-10-24
Publication date: 2023-09-08
Anticipated expiration: 2041-10-24
Also published as: CN113797807A

Abstract

The invention relates to an essence powder stirring and mixing device which comprises a stirring frame, a stirring bottom mechanism, a lifting cylinder and a stirring cover, wherein the stirring bottom mechanism is arranged at the bottom end of the stirring frame, and the upper end of the stirring frame is connected with the stirring cover through the lifting cylinder. According to the invention, the problems that powder is easy to adhere to the inner wall of the stirring cylinder in the stirring process, as the brightness of the inner part of the stirring cylinder is low, dead angles exist between the bottom and the side wall, the powder is difficult to clean effectively, residual powder still exists after cleaning, the cleaning efficiency is low and the cleaning time is long, and the residual powder affects the stirring of other essence powder and the like.

Description

Essence powder stirring mixing arrangement

Technical Field

The invention relates to the related technical field of essence production, in particular to an essence powder stirring and mixing device.

Background

In order to pursue benefit maximization, the modern food industry needs to add corresponding essence to strengthen or improve the fragrance of the product, induce consumption and enlarge sales, the essence is widely applied to various fields of food production as a special high-concentration additive which can influence the taste and flavor of the food, can make up for the fragrance defect of the food itself, endow part of the food with vivid original taste, strengthen the fragrance of the food and mask the bad smell of the food, and the advantages of the essence make the essence increasingly important for people to study, and the daily essence is increasingly widely used in daily life and needs to be stirred and mixed when being processed.

However, the following problems are often encountered in conventional stirring processes:

in the stirring process, powder is easy to attach on the inner wall of the stirring barrel, and because the brightness inside the stirring barrel is lower, dead angles exist between the bottom and the side wall, the powder is difficult to clean effectively, residual powder still exists after cleaning, the cleaning efficiency is low and the time is long, and the residual powder of the part leads to influencing the stirring of other follow-up essence powder.

Disclosure of Invention

Technical scheme (one)

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides an essence powder stirring mixing arrangement, includes stirring frame, stirring bottom mechanism, lift cylinder, stirring lid, and stirring frame's bottom is provided with stirring bottom mechanism, and stirring frame's upper end is connected with the stirring lid through the lift cylinder.

The stirring frame include round frame, discharge chamber, collect frame, handle, sealing washer, offered annular discharge chamber on the round frame, discharge intracavity evenly is provided with along its circumference and collects the frame, collect and be sliding fit between frame and the discharge chamber and connect, collect the lateral wall of frame and install the handle, the sealing washer is installed to the upper end inboard of discharge chamber, plays sealed effect to the discharge inlet of discharge chamber when not blowing to the setting of sealing washer.

The stirring bottom mechanism comprises a driving cylinder, a chassis, an electric heating ring, a first power supply unit, a gap rod, a lifting plate, a cleaning branched chain, a linkage branched chain, a telescopic pipe, an air pump and a second power supply unit, wherein the driving cylinder is connected between the chassis and a round frame, the chassis serves as the bottom during stirring, meanwhile, the role of a piston plate is also played when powder on the inner wall of the round frame is scraped off, the electric heating ring is arranged at the edge of the driving cylinder, the electric heating ring is connected with the first power supply unit, the gap rod is symmetrically arranged on the chassis, the gap rod is arranged to ensure that enough gap between the chassis and the supporting plate is reserved, so that follow-up powder is blown into a discharge cavity, a hidden groove is formed in the middle of the chassis, the hidden groove is connected with the lifting plate in a mode of sliding up and down, the cleaning branched chain is arranged at the upper end of the lifting plate, the cleaning branched chain plays a role of scraping and air blowing cleaning the follow-up powder, the hidden groove is arranged at the lower end of the lifting plate, the circular ring cavity is arranged in the lifting plate, the telescopic pipe is connected between the circular ring cavity and the air pump, and the air pump through the base, and the air pump is connected with the second power supply unit.

The cleaning branched chain comprises a rotating plate, a circular sliding block, a connecting cavity, an annular pipe, an output cavity, a square plate and a cylinder, wherein the lower end of the rotating plate is provided with the circular sliding block, the circular sliding block is connected with the lifting plate in a rotating fit manner, the connecting cavity is formed in the rotating plate, the annular pipe is arranged at the lower end of the connecting cavity and is positioned in the annular cavity, the annular pipe is connected with the circular cavity in a rotating fit manner, the connecting cavity and the annular cavity are rotationally connected, the output cavity is symmetrically formed in the rotating plate, the output cavity is communicated with the connecting cavity, an empty slot is formed in the middle of the rotating plate, the upper half of the empty slot is of a square slot structure, the rotating plate can be driven to rotate after the square rod is inserted in the design of the square slot structure, the upper half of the empty slot is connected with the square plate in a sliding fit manner up and down, and the cylinder is arranged at the lower end of the square plate.

The stirring cover include outer plectane, the expansion bracket, interior plectane, annular electronic slider, the swivel ring, stirring branch chain, motor and square pole, be connected with the lift cylinder between outer plectane and the round frame, outer plectane passes through the expansion bracket with interior plectane to be connected, the expansion bracket plays fixed effect in relative position between outer plectane, interior round plate, the condition that the interior round plate takes place to rotate has been avoided, simultaneously because the extending structure of expansion bracket, when the lifting ring risees, the expansion bracket is synchronous extension under the fixed condition in position between outer plectane, interior round plate is not influenced, be connected with the swivel ring between outer plectane and the interior round plate through sliding fit's mode, the swivel ring is connected with annular electronic slider, stirring branch chain after driving the decline carries out mixed stirring to essence powder, annular electronic slider is installed on outer plectane, be provided with stirring branch chain on the swivel ring, the motor mount is installed through the motor cabinet in the middle part in the motor, install square pole on the output shaft of motor.

Preferably, the sealing ring comprises a sealing ring, a telescopic ring, an internal spring, a propping plate and a reset spring, wherein the sealing ring is connected with the discharge cavity in a vertically sliding fit manner, the sealing ring is connected with the internal spring, the upper ends of the sealing ring and the discharge cavity are connected with the telescopic ring, an internal groove is formed in the sealing ring, the inner groove is formed in the sealing ring and has a hidden effect on the propping plate, the internal groove is connected with the propping plate through a pin shaft, the pin shaft of the propping plate is connected with the stirring branched chain in a manner that the propping plate is inserted into the hidden groove under the extrusion of the stirring branched chain, the reset spring plays a role of resetting the middle part of the propping plate and the lower end of the internal groove, the sealing ring at the initial position plays a role of sealing the discharge inlet of the discharge cavity, and when the chassis rises to the highest degree, the propping plate is lifted upwards through a gap rod, so that the sealing ring is driven to rise synchronously, and at the moment, the discharge inlet at the upper end of the discharge cavity is opened.

Preferably, the first power supply unit and the second power supply unit are provided with branched chains with the same structure and size, the first power supply unit comprises an insulating frame, a power supply, two conducting rods, a wire, insulating rods, conducting plates and contact plates, the insulating frame is arranged on a chassis, the power supply is arranged at the upper end of the insulating frame, the lower end of the insulating frame is provided with the two conducting rods separately, the insulating frame and the insulating rods are connected in a vertically sliding fit manner, the insulating rods are arranged between the two conducting rods, the conducting plates are arranged at the upper ends of the insulating rods, the lower ends of the insulating rods at the initial positions are in contact with the contact plates, the insulating frame and the insulating rods have an insulating effect, the contact plates are arranged on a round frame, an electric heating ring, the power supply and the two conducting rods are connected in series through the wire, the electric heating ring-shaped lamp tube structure is arranged between the electric heating ring-shaped lamp tube structure, and the electric heating ring-shaped lamp tube structure is arranged after the electric heating.

Preferably, the power supply on the second power supply group, the two conducting rods and the air pump are connected in series through wires, and when a complete series circuit is formed between the first power supply group and the air pump, the air pump blows air after being electrified.

Preferably, the linkage branched chain comprises a pressure receiving plate, an elastic telescopic rod, an upper push rod and a turning plate, wherein the lower end of the pressure receiving plate is connected with the chassis through the elastic telescopic rod, the elastic telescopic rod has a resetting function, the upper push rod is connected with the left end and the right end of the pressure receiving plate through a pin shaft, the upper push rod is attached to the turning plate, and the turning plate is installed on the hidden groove.

As the preference, stirring branched chain include lift ring, stirring rake, multistage cylinder, the lift ring is connected with the swivel becket through upper and lower sliding fit's mode, the stirring rake is evenly installed along its circumference to the lower extreme of lift ring, be connected with multistage cylinder between lift ring's upper end and the swivel becket, when needing to stir, drive lift ring, stirring rake decline through multistage cylinder, later drive the whole decline of stirring lid through the lift cylinder, drive stirring branched chain through annular electronic slider and rotate to drive the stirring rake and stir essence powder, when needing to clear up the round frame inner wall, drive lift ring, stirring rake rebound through multistage cylinder, lift ring, the stirring rake after the rebound have been guaranteed can not hinder stirring bottom mechanism to the clearance of round frame inner wall.

Preferably, the side wall of the rotating plate is provided with air holes which are communicated with the connecting cavity, powder on the chassis is scraped in the rotating process of the rotating plate, and the scraped powder is blown into the discharging cavity by being matched with gas blown out of the air holes.

Preferably, the inner side of the turning plate is connected with a turning roller through a pin shaft, so that the difficulty of angle change of the upper push rod is reduced.

Preferably, the lower end of the stirring paddle is of a tooth-shaped structure, and the powder flow-through property is improved while stirring.

Preferably, the chassis is provided with a discharge port corresponding to the air hole at the initial position, the rotating plate is still in the hidden groove when the air pump is electrified for blowing air initially, the gas can be discharged temporarily through the discharge port so as to avoid the gas from being blocked, and when the rotating plate is lifted and exposed, the blown-out gas blows the powder on the chassis outwards.

(II) advantageous effects

1. According to the essence powder stirring and mixing device, powder on the inner wall of the round frame is scraped off in a piston type pushing-up manner for cleaning the inner wall, powder on the chassis is separated and scraped off in a circumferential rotation manner, and the powder is blown into the discharge cavity in an air blowing manner and falls into the collecting frame for collection;

2. according to the essence powder stirring and mixing device, a stirring area is formed between the upper part of the chassis and the round frame during stirring by the stirring bottom mechanism, powder is mixed and stirred through the rotation of the descending stirring branched chain, the powder on the inner wall of the round frame is scraped through the upward pushing of the chassis during powder cleaning, and the scraped powder is blown into the discharge cavity by the circumferential rotation and air blowing of the exposed rotating plate;

3. according to the essence powder stirring and mixing device, the cleaning branched chain adopts the structural linkage design concept, when stirring is carried out, the cleaning branched chain adopts hidden placement, so that the flatness of a chassis is ensured, when the chassis needs to be cleaned, under the action of multiple groups of extrusion forces, the lifting plate and the rotating plate synchronously lift, the lifting plate lifts to the original position of the rotating plate, so that the flatness of the chassis is filled, the lifting plate is completely exposed and is aligned and embedded with the square rod, and then the rotating plate is driven to clean the chassis through the rotation of the motor.

Drawings

The invention will be further described with reference to the drawings and examples.

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

FIG. 2 is an overall cross-sectional view of the present invention;

FIG. 3 is a schematic perspective view of the agitator cap of the present invention;

FIG. 4 is a schematic perspective view of the stirring frame and stirring base mechanism of the present invention;

FIG. 5 is a schematic perspective view of the invention between the collection frame and the handle;

FIG. 6 is a schematic view of the structure of the lifting plate, the cleaning branch, the linkage branch and the telescopic pipe of the present invention;

FIG. 7 is an enlarged view of a portion of the invention at X of FIG. 2;

FIG. 8 is an enlarged view of a portion of the invention at Y of FIG. 2;

fig. 9 is an enlarged view of a portion of the invention at Z of fig. 2.

Detailed Description

Embodiments of the present invention are described below with reference to the accompanying drawings. In this process, to ensure clarity and convenience of description, the widths of the lines or the sizes of the constituent elements in the drawings may be exaggerated.

In addition, the terms hereinafter are defined based on functions in the present invention, and may be different according to intention of a user, an operator, or a convention. Accordingly, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 9, an essence powder stirring and mixing device comprises a stirring frame 1, a stirring bottom mechanism 2, a lifting cylinder 3 and a stirring cover 4, wherein the stirring bottom mechanism 2 is arranged at the bottom end of the stirring frame 1, and the upper end of the stirring frame 1 is connected with the stirring cover 4 through the lifting cylinder 3.

The stirring frame 1 comprises a round frame 11, a discharge cavity 12, a collecting frame 13, a handle 14 and a sealing ring 15, wherein the round frame 11 is provided with the annular discharge cavity 12, the collecting frame 13 is uniformly arranged in the discharge cavity 12 along the circumferential direction of the round frame, the collecting frame 13 is connected with the discharge cavity 12 in a sliding fit manner, the handle 14 is arranged on the outer side wall of the collecting frame 13, the sealing ring 15 is arranged on the inner side of the upper end of the discharge cavity 12, the sealing ring 15 plays a role in sealing a discharge port of the discharge cavity 12 when the powder is not blown by wind, and in particular work, powder attached to the inner wall of the round frame 11 is blown into the discharge cavity 12 through the stirring bottom mechanism 2 so as to fall into the collecting frame 13, and the collecting frame 13 can be pulled out by holding the handle 14 in a follow-up manner, so that the powder in the collecting frame 13 is cleaned.

The seal ring 15 includes a seal ring 151, a telescopic ring 152, an internal spring 153, a support plate 154, and a return spring 155, where the seal ring 151 is connected with the discharge chamber 12 in a vertically sliding fit, the seal ring 151 is connected with the discharge chamber 12 with the internal spring 153, the upper ends of the seal ring 151 and the discharge chamber 12 are connected with the telescopic ring 152, an internal groove is formed on the seal ring 151, the internal groove is formed to conceal the support plate 154, a pin shaft is connected between the internal groove and the support plate 154, the pin shaft of the support plate 154 ensures that the support plate 154 enters the hidden groove under the extrusion of the stirring branched chain 46 when the stirring branched chain 46 is inserted into the support plate 154, the middle part of the support plate 154 and the lower end of the internal groove are connected with the return spring 155, the return spring 155 plays a role of resetting, the seal ring 151 at the initial position plays a sealing role on the discharge port of the discharge chamber 12, and when the chassis 22 rises to the highest degree, the support plate 154 is pushed up through the gap rod 25, thereby driving the seal ring 151 to rise synchronously, and the discharge port at the upper end of the discharge chamber 12 is opened.

The stirring bottom mechanism 2 comprises a driving cylinder 21, a chassis 22, an electric heating ring 23, a first power supply unit 24, a gap rod 25, a lifting plate 31, a cleaning branched chain 26, a linkage branched chain 27, a telescopic pipe 28, an air pump 29 and a second power supply unit 30, wherein the driving cylinder 21 is connected between the chassis 22 and the round frame 11, the chassis 22 serves as the bottom during stirring and also serves as a piston plate during scraping powder on the inner wall of the round frame 11, the electric heating ring 23 is arranged at the edge of the driving cylinder 21, the electric heating ring 23 is connected with the first power supply unit 24, the gap rod 25 is symmetrically arranged on the chassis 22, the gap rod 25 is arranged to provide enough gap between the chassis 22 and the supporting plate 154, so that the following powder is ensured to be blown into the discharge cavity 12, a hidden groove is formed in the middle part of the chassis 22, the hidden groove is connected with the lifting plate 31 in an up-down sliding fit manner, the cleaning branched chain 26 is arranged at the upper end of the lifting plate 31, the cleaning branched chain 26 plays roles of scraping and blowing cleaning for subsequent powder cleaning, the lower end of the hidden groove is provided with a linkage branched chain 27, the linkage branched chain 27 is positioned below the lifting plate 31, a circular ring cavity is formed in the lifting plate 31, a telescopic pipe 28 is connected between the circular ring cavity and the air pump 29, the air pump 29 is arranged on the chassis 22 through a base, the air pump 29 is connected with the second power pack 30, when the cleaning of the powder attached to the chassis 22 and the inner wall of the round frame 11 is needed in specific work, the chassis 22 is driven to rise through the driving air cylinder 21, at the moment, the electric heating ring 23 is electrified to heat, and the air pump 29 is electrified to blow, because the rotating plate 261 is still positioned in the hidden groove at the moment, blown air is discharged temporarily from the discharge port, the powder attached to the inner wall of the round frame 11 is scraped onto the chassis 22 through the rising chassis 22, when the chassis 22 rises to the highest degree, the sealing ring 15 is jacked upwards through the gap rod 25, the discharge port at the upper end of the discharge cavity 12 is opened, the square rod 48 extrudes the cleaning branched chain 26, the rotating plate 261 is lifted and exposed, then the motor 47 drives the square rod 48 to rotate, the exposed rotating plate 261 is driven to rotate, powder which falls on and is originally attached to the chassis 22 is scraped, and the powder is blown into the discharge cavity 12 through air blowing.

The first power supply unit 24 and the second power supply unit 30 are branched chains with the same structure and size, the first power supply unit 24 comprises an insulating frame 241, a power supply 242, two conducting rods 243, a conducting wire 244, an insulating rod 245, a conducting plate 246 and a contact plate 247, the insulating frame 241 is arranged on the chassis 22, the power supply 242 is arranged at the upper end of the insulating frame 241, the two conducting rods 243 are separately arranged at the lower end of the insulating frame 241, the insulating frame 241 and the insulating rod 245 are connected in a vertically sliding fit manner, the insulating rod 245 is positioned between the two conducting rods 243, the conducting plate 246 is arranged at the upper end of the insulating rod 245, the lower end of the insulating rod 245 at the initial position is contacted with the contact plate 247, the insulating frame 241 and the insulating rod 245 have insulating effect, the contact plate 247 is arranged on the round frame 11, the electric heating ring 23, the power supply 242 and the two conducting rods 243 are connected in series through a lead 244, the electric heating ring 23 is of an annular lamp tube structure and is heated after being electrified, the power supply 242 on the second power supply group 30, the two conducting rods 243 and the air pump 29 are connected in series through the lead 244, when a complete series circuit is formed between the first power supply group 24 and the air pump 29, the air pump 29 blows after being electrified, when the chassis 22 is particularly operated, the insulating frame 241 is synchronously lifted and separated from the contact plate 247, the insulating rod 245 and the conducting plate 246 are lowered under the action of gravity until the conducting plate 246 is contacted with the two conducting rods 243, at the moment, the first power supply group 24 and the electric heating ring 23 form a complete series circuit, and the electric heating ring 23 is heated after being electrified, so that the inner wall of the scraped round frame 11 is subjected to drying treatment.

The cleaning branched chain 26 comprises a rotating plate 261, a circular sliding block 262, a connecting cavity 263, an annular tube 264, an output cavity 265, a square plate 266 and a cylinder 267, wherein the circular sliding block 262 is arranged at the lower end of the rotating plate 261, the circular sliding block 262 is connected with the lifting plate 31 in a rotating fit manner, the connecting cavity 263 is arranged in the rotating plate 261, the annular tube 264 is arranged at the lower end of the connecting cavity 263, the annular tube 264 is positioned in the annular cavity and is in rotating fit connection with the connecting cavity 263 and the annular cavity, the output cavity 265 is symmetrically arranged on the rotating plate 261, the output cavity 265 and the connecting cavity 263 are in a communicating relationship, an empty groove is formed in the middle part of the rotating plate 261, the upper half part of the empty groove is in a square groove structure, the design of the square groove structure ensures that the rotating plate 261 can be driven to rotate when the square rod 48 is inserted after the square rod 48 rotates, the lower half part of the empty groove is of a round groove structure, the upper half part of the empty groove is connected with the square plate 266 in a vertically sliding fit manner, a cylinder 267 is arranged at the lower end of the square plate 266, air holes are formed in the side wall of the rotating plate 261 and communicated with the connecting cavity 263, powder on the chassis 22 is scraped in the rotating process of the rotating plate 261, the scraped powder is blown into the discharge cavity 12 by matching with air blown out from the air holes, a discharge port is formed in the chassis 22 and corresponds to the air holes at the initial position, when the air pump 29 is initially electrified and blows, the rotating plate 261 is still in the hidden groove, in order to avoid the air being blocked, the formed discharge port can temporarily discharge the air, when the rotating plate 261 is lifted and exposed, the blown out air blows the powder on the chassis 22 to the outside, and the lifted chassis 22 drives the cleaning branched chain 26 to lift in specific work, in the rising process, the square rod 48 is in contact with the square plate 266 and then presses the square plate 266 downwards, the synchronous pressing cylinder 267 is matched with the linkage branched chain 27 to drive the rotating plate 261 and the lifting plate 31 to rise until the rotating plate 261 is completely exposed, and the lifting plate 31 temporarily fills the hidden groove (ensures that powder cannot enter), and then the motor 47 drives the square rod 48 to rotate, so that the exposed rotating plate 261 is driven to rotate, and then powder which is dropped on and originally attached to the chassis 22 is scraped and blown into the discharge cavity 12 by air blowing.

The linkage branched chain 27 include the pressure receiving plate 271, elastic telescopic rod 272, go up push rod 273, diversion board 274, the lower extreme of pressure receiving plate 271 passes through elastic telescopic rod 272 and is connected with chassis 22, elastic telescopic rod 272 plays the effect that resets, the left and right sides of pressure receiving plate 271 has last push rod 273 through the round pin hub connection, go up push rod 273 laminating on diversion board 274, diversion board 274 installs on hiding the groove, the inboard of diversion board 274 have the diversion roller through the round pin hub connection, reduced the degree of difficulty of last push rod 273 angle change, during specific work, the chassis 22 that rises drives and cleans branched chain 26 and rises, the in-process that rises, square rod 48 and square plate 266 contact back to the side plate 266 push downwards, synchronous extruded cylinder 267 pushes down pressure receiving plate 271 under the drive of pressure receiving plate 271 and under the extrusion of diversion board 274, the outside upward angle modulation of last push rod 273 to extrude rotation plate 261, lifter plate 31 rise until rotation plate 261 is fully exposed.

The stirring cover 4 comprises an outer circular plate 41, a telescopic frame 42, an inner circular plate 43, an annular electric sliding block 44, a rotating ring 45, stirring branched chains 46, a motor 47 and square rods 48, wherein a lifting cylinder 3 is connected between the outer circular plate 41 and the circular frame 11, the outer circular plate 41 and the inner circular plate 43 are connected through the telescopic frame 42, the telescopic frame 42 plays a role in fixing the relative positions of the outer circular plate 41 and the inner circular plate 43, the inner circular plate 43 is prevented from rotating, the outer circular plate 41 and the inner circular plate 43 are connected with the rotating ring 45 in a sliding fit mode, the rotating ring 45 is connected with the annular electric sliding block 44, the annular electric sliding block 44 drives the descending stirring branched chains 46 to mix and stir essence powder, the annular electric sliding block 44 is arranged on the outer circular plate 41, the stirring branched chains 46 are arranged on the rotating ring 45, the middle of the inner circular plate 43 is provided with the motor 47 through a motor seat, and the square rods 48 are arranged on an output shaft of the motor 47.

The stirring branched chain 46 include lifting ring 461, stirring rake 462, multistage cylinder 463, lifting ring 461 is connected with swivel becket 45 through upper and lower sliding fit's mode, and stirring rake 462 is evenly installed along its circumference to lifting ring 461's lower extreme, is connected with multistage cylinder 463 between lifting ring 461's upper end and the swivel becket 45, stirring rake 462's lower extreme be tooth-like structure, improved the fluxion of powder when stirring, when specifically during operation needs stirring, drive lifting ring 461, stirring rake 462 decline through multistage cylinder 463, later drive stirring lid 4 through lifting cylinder 3 wholly decline, drive stirring branched chain 46 through annular electric slider 44 and rotate to drive stirring rake 462 and stir essence powder, when need clear up circle frame 11 inner wall, drive lifting ring 461, stirring rake 462 through multistage cylinder 463 and rise, lifting ring 461, stirring rake 462 after the back have guaranteed can not hinder stirring bottom mechanism 2 to the clearance of circle frame 11 inner wall.

When in operation, the device comprises:

mixing and stirring: each essence powder is orderly put in a certain amount, the lifting ring 461 and the stirring paddle 462 are driven to descend by the multi-stage cylinder 463, the stirring cover 4 is driven to wholly descend by the lifting cylinder 3, and the stirring branched chain 46 is driven to rotate by the annular electric sliding block 44, so that the stirring paddle 462 is driven to stir the essence powder;

cleaning the inner wall:

s1, driving a lifting ring 461 and a stirring paddle 462 to lift back through a multi-stage cylinder 463;

s2, driving the air cylinder 21 to drive the chassis 22 to ascend, at the moment, electrifying the electric heating ring 23 to heat and dry the cleaned round frame 11, electrifying the air pump 29 to blow air and temporarily discharging the blown air from the discharge port, and scraping powder attached to the inner wall of the round frame 11 by the continuously ascending chassis 22 onto the chassis 22;

s3, when the chassis 22 rises to the highest level, the sealing ring 15 is jacked up upwards through the gap rod 25, a discharge port at the upper end of the discharge cavity 12 is opened, the square rod 48 extrudes the cleaning branched chain 26, so that the rotating plate 261 rises to be exposed, then the motor 47 drives the square rod 48 to rotate, so that the exposed rotating plate 261 is driven to rotate, and then powder which is landed on and originally adhered to the chassis 22 is scraped and blown into the discharge cavity 12 through air blowing;

s4, powder blown into the discharge cavity 12 falls into the collecting frame 13, and the collecting frame 13 can be pulled out by holding the handle 14, so that the powder in the collecting frame 13 is cleaned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The utility model provides an essence powder stirring mixing arrangement, includes stirring frame (1), stirring bottom mechanism (2), lift cylinder (3), stirring lid (4), its characterized in that: the bottom end of the stirring frame (1) is provided with a stirring bottom mechanism (2), and the upper end of the stirring frame (1) is connected with a stirring cover (4) through a lifting cylinder (3);

the stirring frame (1) comprises a round frame (11), an annular discharge cavity (12) is formed in the round frame (11), a collecting frame (13) is uniformly arranged in the discharge cavity (12) along the circumferential direction of the round frame, the collecting frame (13) is connected with the discharge cavity (12) in a sliding fit manner, a handle (14) is arranged on the outer side wall of the collecting frame (13), and a sealing ring (15) is arranged on the inner side of the upper end of the discharge cavity (12);

the stirring bottom mechanism (2) comprises a driving cylinder (21), an electric heating ring (23) is arranged at the edge of the driving cylinder (21), the electric heating ring (23) is connected with a first power supply group (24), a gap rod (25) is symmetrically arranged on the chassis (22), a hidden groove is formed in the middle of the chassis (22), the hidden groove is connected with a lifting plate (31) in a vertically sliding fit manner, a cleaning branched chain (26) is arranged at the upper end of the lifting plate (31), a linkage branched chain (27) is arranged at the lower end of the hidden groove, the linkage branched chain (27) is positioned below the lifting plate (31), a circular cavity is formed in the lifting plate (31), a telescopic pipe (28) is connected between the circular cavity and an air pump (29), the air pump (29) is arranged on the chassis (22) through a base, and the air pump (29) is connected with a second power supply group (30);

the cleaning branched chain (26) comprises a rotating plate (261), wherein a circular sliding block (262) is arranged at the lower end of the rotating plate (261), the circular sliding block (262) is connected with a lifting plate (31) in a rotating fit manner, a connecting cavity (263) is formed in the rotating plate (261), an annular pipe (264) is arranged at the lower end of the connecting cavity (263), the annular pipe (264) is arranged in the annular cavity, the annular pipe and the annular pipe are in rotating fit connection, an output cavity (265) is symmetrically formed in the rotating plate (261), the output cavity (265) is in communication relation with the connecting cavity (263), an empty groove is formed in the middle of the rotating plate (261), the upper half part of the empty groove is of a square groove structure, the upper half part of the empty groove is of a circular groove structure, the upper half part of the empty groove is connected with the square plate (266) in an up-down sliding fit manner, and a cylinder (267) is arranged at the lower end of the square plate (266);

the linkage branched chain (27) comprises a pressure receiving plate (271), the lower end of the pressure receiving plate (271) is connected with the chassis (22) through an elastic telescopic rod (272), the left end and the right end of the pressure receiving plate (271) are connected with an upper push rod (273) through a pin shaft, the upper push rod (273) is attached to a turning plate (274), and the turning plate (274) is arranged on the hidden groove;

the stirring cover (4) comprises an outer circular plate (41), a lifting cylinder (3) is connected between the outer circular plate (41) and a circular frame (11), the outer circular plate (41) is connected with an inner circular plate (43) through a telescopic frame (42), the outer circular plate (41) is connected with a rotating ring (45) in a sliding fit mode, the rotating ring (45) is connected with an annular electric sliding block (44), the annular electric sliding block (44) is arranged on the outer circular plate (41), stirring branched chains (46) are arranged on the rotating ring (45), a motor (47) is arranged in the middle of the inner circular plate (43) through a motor seat, and a square rod (48) is arranged on an output shaft of the motor (47);

the stirring branched chain (46) comprises a lifting ring (461), the lifting ring (461) is connected with the rotating ring (45) in an up-down sliding fit mode, stirring paddles (462) are uniformly arranged at the lower end of the lifting ring (461) along the circumferential direction of the lifting ring, and a multistage cylinder (463) is connected between the upper end of the lifting ring (461) and the rotating ring (45).

2. The essence powder stirring and mixing device according to claim 1, wherein: the sealing ring (15) comprises a sealing ring (151), the sealing ring (151) is connected with the discharge cavity (12) in a vertically sliding fit manner, the sealing ring (151) is connected with the discharge cavity (12) through a built-in spring (153), the upper ends of the sealing ring (151) and the discharge cavity (12) are connected with a telescopic ring (152), an inner groove is formed in the sealing ring (151), the inner groove is connected with a propping plate (154) through a pin shaft, and the middle part of the propping plate (154) is connected with a reset spring (155) through the lower end of the inner groove.

3. The essence powder stirring and mixing device according to claim 1, wherein: the power supply unit I (24) and the power supply unit II (30) between be the branch chain that the structure, size are the same, the power supply unit I (24) include insulating frame (241), insulating frame (241) are installed on chassis (22), power (242) are installed to the upper end of insulating frame (241), two conducting rods (243) are installed separately to the lower extreme of insulating frame (241), be the upper and lower sliding fit connection between insulating frame (241) and insulating rod (245), and insulating rod (245) are located between two conducting rods (243), conducting plate (246) are installed to the upper end of insulating rod (245), the lower extreme and the contact plate (247) of insulating rod (245) of initial position are contacted, contact plate (247) are installed on round frame (11), electric heating circle (23), power (242), connect in series through wire (244) between two conducting rods (243).

4. The essence powder stirring and mixing device according to claim 1, wherein: the side wall of the rotating plate (261) is provided with air holes which are communicated with the connecting cavity (263).

5. The essence powder stirring and mixing device according to claim 1, wherein: the inner side of the turning plate (274) is connected with a turning roller through a pin shaft.

6. The essence powder stirring and mixing device according to claim 1, wherein: the lower end of the stirring paddle (462) is of a tooth-shaped structure.

7. The essence powder stirring and mixing device according to claim 4, wherein: the chassis (22) is provided with a discharge port which corresponds to the air hole at the initial position.