CN112674128A

CN112674128A - Multi-angle stirring device

Info

Publication number: CN112674128A
Application number: CN202011515396.5A
Authority: CN
Inventors: 王勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-04-20

Abstract

The invention belongs to the technical field of food processing devices, and particularly relates to a multi-angle stirring device which comprises a mounting frame, a stirring cavity, a rotating rod, a first telescopic rod, a second telescopic rod and a stirring mechanism, wherein the rotating rod is connected with the first telescopic rod through a connecting rod; the upper end of the mounting rack is provided with a rotating rod; the rotating rod is rotatably and telescopically connected to the lower end of the motor on the mounting frame, the outer walls of two sides of the lower end of the rotating rod are symmetrically hinged with a first telescopic rod, and the lower end of the rotating rod is fixedly connected to the upper end of a second telescopic rod; the outer end of the first telescopic rod is connected with a stirring mechanism; the dough that has rolled can earlier contact with the cleaning plate in its wall when rolling the board to scraped and break away from the contact with stirring the chamber, set up to the arc because of its outside simultaneously, the dough that is scraped can take place to turn over the book, and then protects the air of the inside just injection of dough, makes the air stay longer in the dough, and then the cooperation pierces through the fermentation efficiency that the board improves the yeast by a wide margin.

Description

Multi-angle stirring device

Technical Field

The invention belongs to the technical field of food processing devices, and particularly relates to a multi-angle stirring device.

Background

The term "flour" is used to refer to wheat flour, i.e., flour milled from wheat, and the term "high gluten wheat flour" is used to refer to what we commonly speak of. Wheat flour is classified into special flour (such as bread flour, dumpling flour, biscuit flour, etc.), general flour (such as standard flour, enriched flour), and nutrition enriched flour (such as calcium enriched flour, iron enriched flour, and "7 + 1" nutrition enriched flour, etc.); the flour is divided into special first-class flour, special second-class flour, standard flour, common flour and the like according to the precision; the flour can be classified into high gluten flour, medium gluten flour and low gluten flour according to the strength of the gluten.

Flour and water are mixed and kneaded to form dough, the dough contains protein, fat, carbohydrate, a small amount of vitamins and mineral substances such as calcium, potassium, magnesium, zinc and the like, the taste is various, the digestion and the absorption are easy, the eating is convenient, the dough is well loved by people in daily life, and as a dough product, bread which is very popular is the first one of the dough products, but the requirement of bread making on the dough formed by stirring is higher, the stirring function can only be simply realized when the dough is stirred by the existing dough stirring machine, the stirring time is longer, the air is not facilitated to enter the dough, and the elasticity and the ductility of the stirred dough are very poor.

Disclosure of Invention

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a multi-angle stirring device which comprises a mounting frame, a stirring cavity, a rotating rod, a first telescopic rod, a second telescopic rod and a stirring mechanism, wherein the first telescopic rod is connected with the second telescopic rod through the rotating rod; the upper end of the mounting rack is provided with a rotating rod; the rotating rod is rotatably and telescopically connected to the lower end of the motor on the mounting frame, the outer walls of two sides of the lower end of the rotating rod are symmetrically hinged with a first telescopic rod, and the lower end of the rotating rod is fixedly connected to the upper end of a second telescopic rod; the outer end of the first telescopic rod is connected with a stirring mechanism; the lower end of the second telescopic rod is rotatably connected in the lower wall of the stirring cavity, and the inner cavity of the second telescopic rod is communicated with the inner cavity of the first telescopic rod; the stirring mechanism is attached to the inner wall of the stirring cavity.

The stirring mechanism comprises an installation block, a kneading plate, a rotating column, a connecting piston, a deformation pipe, a penetration plate, a circulation hole, an air outlet hole and a scraper; the upper end of the mounting block is hinged to the lower end of the first telescopic rod, the mounting block is made of a magnet material, and a rolling plate is fixedly mounted in the left end wall of the mounting block; the rolling plate is obliquely arranged, a rotating column is arranged on the right side of the rolling plate, and the lower end of the rolling plate is arranged on the lower side of the mounting block; the rotating column is rotatably connected in the lower wall of the right end of the mounting block, the lower end of the rotating column is arranged on the lower side of the mounting block, and the outer surface of the rotating column is uniformly and fixedly connected with a connecting piston; the outer end of the connecting piston is fixedly connected to the inner surface of the deformation pipe; the deformation pipe is arranged on the outer side of the rotating column and is made of elastic stainless steel metal materials.

The inner part of the deformation pipe is provided with a penetration plate, and the deformation pipe is uniformly provided with openings at intervals; the cross section of the penetration plate is of a water drop shape, the penetration plate is uniformly arranged between two adjacent connecting pistons, the inner end of the penetration plate is fixedly embedded in the wall of the rotating column, the outer end of the penetration plate is arranged in an opening on the deformation pipe, the inside of the penetration plate is arranged to be hollow, circulation holes are symmetrically formed in the inner end wall of the penetration plate, and air outlet holes are symmetrically formed in the outer end wall of the penetration plate.

Scraping plates are symmetrically attached to two sides of the lower end of the penetrating plate; the scraper blades are symmetrically connected in two side walls of an upper opening of the deformation pipe in a sliding mode, the inner ends of the scraper blades are initially attached to air outlet holes at the lower end of the penetration plate, holes are formed in the scraper blades and communicated with the air outlet holes, and the holes in the scraper blades are communicated with the outer side.

The wall thickness of the deformation pipe close to the upper opening of the wall of the deformation pipe is set to be thinner and thinner.

A cleaning plate is connected in the lower end wall of the twisting plate in an inclined sliding manner; the inner side cavity of the cleaning plate is communicated with the inner cavity of the connecting piston, the outer side of the cleaning plate is in a knife-edge shape, the outer side of the cleaning plate and the lower end of the twisting plate are in the same horizontal plane at the beginning, and the outer end of the cleaning plate is provided with an arc-shaped wall; when the stirring device is used, dough formed by preliminary mixing can be placed into the stirring cavity, the rotating rod can slide up and down and rotate by the driving motor at the moment, when the rotating rod slides up and down, the telescopic rod can be extruded to the second telescopic rod, the second telescopic rod can convey the internal air pressure of the second telescopic rod into the first telescopic rod, so that the first telescopic rod can be pushed to slide up and down along the two sides of the wall surface of the first telescopic rod in the stirring cavity, the rotating rod is also in a rotating state at the moment, the stirring mechanism at the end part of the first telescopic rod can also slide up and down along the inner wall of the first telescopic rod when rotating in the stirring cavity, so that the dough can be uniformly spread on the inner wall of the stirring cavity when stirring the dough, the dough is in a cake shape, flour and water in the dough can be further uniformly mixed in the stirring cavity, and when the stirring mechanism operates, the deformation pipe in the lower wall of the right end of the stirring mechanism can be uniformly rolled, the dough is firstly rolled by the deformation pipe to be rolled into a thinner cake shape, the cake shape is stretched by the sliding of the deformation pipe on the inner wall of the stirring cavity, and finally the dough is shoveled from the inner wall of the stirring cavity by the rolling plate, so that the high toughness of the dough is realized, gluten is formed gradually and quickly, the bread made in later stage is more perfectly expanded without the occurrence of depression, the dough is prevented from being adhered to the inner wall of the stirring cavity when the dough is not formed, the stirring time is prolonged greatly to hydrate the dough, and the dough is subjected to reverse extrusion force when the deformation pipe is contacted with the dough, so that the two sides of an opening in the wall are inwards recessed, and the air pressure inside the dough is compressed, meanwhile, when the penetration plate is sunken to a certain degree, the penetration plate can slide outwards relative to the deformation pipe, even if an air hole is obtained and appears at the outer side of the deformation pipe, the air pressure at the inner side of the penetration plate is released outwards through the air outlet hole instantly, and then the dough at the outer side is blown out of a groove instantly, and a working groove is reserved for the penetration plate, so that the situation that the opening is blocked and the dough cannot work normally due to the fact that the dough is adhered to the opening in the wall of the deformation plate is avoided, the situation that the dough cannot be discharged due to the fact that the dough is blocked when the air outlet hole at the lower side of the penetration plate is adhered can also be avoided, meanwhile, the penetration plate is inserted into the dough instantly along with the further contraction of the deformation plate, and the remaining high-pressure gas is ejected out of the dough instantly, so that countless small cavities can appear in the dough along with the rotation, meanwhile, the dough stirred completely has high elasticity and extensibility, the made bread has better taste and better shape, the deformation pipe can be divided into a cavity by the arrangement of the connecting piston, so that the pressure formed when the air pressure in the deformation pipe is compressed is higher, namely, the air pressure of the air sprayed through the air outlet hole is higher, the dough can be extruded to be sunken at each time, the dough is prevented from blocking an opening of the deformation pipe, enough air pressure can be remained and input into the dough to form the cavity, and the wall thickness of the deformation pipe close to the upper opening of the wall of the deformation pipe is thinner and thinner, so that the two side walls of the opening in the wall of the deformation pipe can generate a bounce force when the deformation pipe is reset, so that the deformation pipe has certain force when the deformation pipe is reset, the scraping plate can be ensured to clean the outer wall of the penetration plate, and the probability of blocking of the air outlet hole is, simultaneously by the dough that rolls can earlier contact with the cleaning plate in its wall when rolling the board to scraped and break away from and stir the contact in chamber, set up to the arc because of its outside simultaneously, the dough that is scraped can take place to turn over the book, and then protects the air that just injects into in the dough inside, makes the air remain for a relatively long time in the dough, and then the cooperation pierces through the fermentation efficiency that the board improves the yeast by a wide margin.

The invention has the following beneficial effects:

1. when the rotating rod slides up and down, the telescopic rod II can be extruded, the inner air pressure of the telescopic rod II is conveyed into the telescopic rod I by the telescopic rod II, the telescopic rod I is pushed to slide up and down along the two sides of the wall surface of the stirring cavity, the rotating rod is also in a rotating state at the moment, the stirring mechanism at the end part of the telescopic rod I can also slide up and down along the uniform inner wall of the stirring cavity when rotating in the stirring cavity, the dough can be spread out on the inner wall of the stirring cavity when stirring the dough, the dough is in a cake shape, the flour and the water in the stirring cavity are further mixed more uniformly, the deformation pipe in the lower wall of the right end of the stirring cavity can be uniformly rolled along the surface of the dough and stretched when the stirring mechanism operates in the stirring cavity, the dough is piled and mixed again through the blocking effect of the rolling plate on the left side of the stirring cavity, and the shape of the dough in the stirring cavity is firstly rolled by the deformation pipe to be rolled into a thinner cake shape The utility model discloses a dough kneading and stirring chamber, including the dough kneading and stirring chamber, the dough kneading and stirring chamber is equipped with the deformation pipe, the deformation pipe slides on the stirring intracavity wall and stretches its pie simultaneously, at last by kneading the board with its inner wall shovel from the stirring chamber, thereby realize the high toughness of dough, quick formation gluten gradually, make the expanded more perfect of bread of post manufacture can not have sunken appearance, the clearance through kneading the board can also avoid the dough to extend the churning time at the inner wall of stirring chamber when not forming the gluten simultaneously and lead to the churning time overlength to make the dough hydrate by a wide margin.

2. When the deformation pipe is contacted with the dough, the deformation pipe can be subjected to reverse extrusion force, so that two sides of an opening in the wall of the deformation pipe are inwards sunken, the air pressure in the inner side of the deformation pipe is compressed, and when the deformation pipe is sunken to a certain degree, the penetrating plate can slide outwards relative to the deformation pipe, even if an air hole appears in the outer side of the deformation pipe, the air pressure in the inner side of the deformation pipe is instantly released outwards through the air outlet hole, so that the dough in the outer side is instantly blown out of a groove, a working groove is reserved for the penetrating plate, the phenomenon that the opening is blocked and cannot normally work due to the fact that the dough is stuck at the opening in the wall of the deformation plate is avoided, the phenomenon that the dough is blocked and cannot discharge gas due to the fact that the dough is blocked when the air outlet hole in the lower side of the penetrating plate is stuck, the penetrating plate is instantly inserted into the dough along with the further contraction of the deformation, thereby the contact area of dough and air is greatly improved, and then the fermentation efficiency of yeast is greatly promoted, namely the stirring time of dough is greatly reduced, meanwhile, the stirred dough has high elasticity and ductility, the taste of the made bread is better, the shape is better, because the arrangement of the connecting piston can divide the deformation pipe into a cavity, the pressure formed when the air pressure in the deformation pipe is compressed is larger, namely, the air pressure sprayed out through the air outlet is larger, the depression can be extruded on the dough to avoid the dough from blocking the opening of the deformation pipe at each time, enough air pressure can be remained to be input into the dough to form the cavity, and because the wall thickness of the deformation pipe close to the opening on the wall is set to be thinner and thinner, the two side walls of the opening in the wall of the deformation pipe can generate a stock of bounce when the deformation pipe is reset, and the deformation pipe has certain force when the deformation pipe is reset, can ensure that the scraper blade clears up the outer wall that pierces through the board, further reduce the probability that the venthole is blockked up, the dough that has rolled simultaneously can earlier contact with the cleaning plate in its wall when rolling the board, and scraped the contact that breaks away from with the stirring chamber, set up to the arc because of its outside simultaneously, the roll-over can take place for the dough of scraping, and then protect the air of the inside just injection of dough, make the air stay longer in the dough, and then the cooperation pierces through the board and improves the fermentation efficiency of yeast by a wide margin.

Drawings

FIG. 1 is a front view of the present invention;

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

FIG. 3 is a schematic structural view of the stirring mechanism of the present invention;

FIG. 4 is a schematic structural view of a deformed tube of the present invention;

FIG. 5 is an enlarged view of a portion of the invention at A in FIG. 3;

FIG. 6 is an enlarged view of a portion of the invention at B in FIG. 4;

in the figure: mounting bracket 1, stirring chamber 2, bull stick 3, telescopic link 4, telescopic link 5 No. two, rabbling mechanism 6, installation piece 61 kneads board 62, rotates post 63, connects piston 64, deformation pipe 65, pierces through board 66, circulation hole 67, venthole 68, scraper blade 69, clearance board 7.

Detailed Description

An example of a multi-angle stirring apparatus according to an embodiment of the present invention will be described below with reference to fig. 1 to 6.

As shown in FIGS. 1-6, the multi-angle stirring device of the invention comprises a mounting frame 1, a stirring cavity 2, a rotating rod 3, a first telescopic rod 4, a second telescopic rod 5 and a stirring mechanism 6; the upper end of the mounting rack 1 is provided with a rotating rod 3; the rotating rod 3 is rotatably and telescopically connected to the lower end of a motor on the mounting frame 1, the outer walls of two sides of the lower end of the rotating rod 3 are symmetrically hinged with a first telescopic rod 4, and the lower end of the rotating rod 3 is fixedly connected to the upper end of a second telescopic rod 5; the outer end of the first telescopic rod 4 is connected with a stirring mechanism 6; the lower end of the second telescopic rod 5 is rotatably connected into the lower wall of the stirring cavity 2, and the inner cavity of the second telescopic rod 5 is communicated with the inner cavity of the first telescopic rod 4; the stirring mechanism 6 is attached to the inner wall of the stirring cavity 2.

The stirring mechanism 6 comprises a mounting block 61, a rolling plate 62, a rotating column 63, a connecting piston 64, a deformation pipe 65, a penetrating plate 66, a flow hole 67, an air outlet 68 and a scraper 69; the upper end of the mounting block 61 is hinged to the lower end of the first expansion link 4, the mounting block 61 is made of a magnet material, and a twisting plate 62 is fixedly mounted in the left end wall of the mounting block 61; the rolling plate 62 is obliquely arranged, a rotating column 63 is arranged on the right side of the rolling plate 62, and the lower end of the rolling plate 62 is arranged on the lower side of the mounting block 61; the rotating column 63 is rotatably connected in the lower wall of the right end of the mounting block 61, the lower end of the rotating column 63 is arranged at the lower side of the mounting block 61, and the outer surface of the rotating column 63 is uniformly and fixedly connected with a connecting piston 64; the outer end of the connecting piston 64 is fixedly connected to the inner surface of the deformation pipe 65; the deformation pipe 65 is arranged outside the rotating column 63, and the deformation pipe 65 is made of elastic stainless steel metal materials.

The inner part of the deformation pipe 65 is provided with a penetration plate 66, and the deformation pipe 65 is provided with openings at uniform intervals; the cross section of the penetrating plate 66 is of a water drop shape, the penetrating plate 66 is uniformly arranged between two adjacent connecting pistons 64, the inner end of the penetrating plate 66 is fixedly embedded in the wall of the rotating column 63, the outer end of the penetrating plate 66 is arranged in an opening on the deformation pipe 65, the inside of the penetrating plate 66 is hollow, the inner end wall of the penetrating plate 66 is symmetrically provided with circulation holes 67, and the outer end wall of the penetrating plate 66 is symmetrically provided with air outlet holes 68.

Scrapers 69 are symmetrically attached to the two sides of the lower end of the penetrating plate 66; the scraping plates 69 are symmetrically connected in two side walls of the upper opening of the deformation pipe 65 in a sliding mode, the inner ends of the scraping plates 69 are initially attached to air outlet holes 68 at the lower end of the penetrating plate 66, holes are formed in the scraping plates 69 and communicated with the air outlet holes 68, and holes in the scraping plates 69 are communicated with the outer sides.

The wall thickness of the deformation tube 65 near the upper opening of the wall is set to be thinner and thinner.

A cleaning plate 7 is obliquely and slidably connected to the lower end wall of the twisting plate 62; the inner cavity of the cleaning plate 7 is communicated with the inner cavity of the connecting piston 64, the outer side of the cleaning plate 7 is in a knife-edge shape, the outer side of the cleaning plate 7 and the lower end of the twisting plate 62 are in the same horizontal plane at the beginning, and the outer end of the cleaning plate 7 is provided with an arc-shaped wall; during the use, can place into stirring chamber 2 with the dough that preliminary mixing formed, driving motor makes bull stick 3 do and slide from top to bottom and rotation motion this moment, when bull stick 3 slides from top to bottom, can extrude telescopic link 5 No. two, make telescopic link 5 with its inside atmospheric pressure transport in telescopic link 4 No. two, thereby promote telescopic link 4 and slide from top to bottom along its wall both sides in stirring chamber 2, and bull stick 3 also is in under the rotation state this moment, so rabbling mechanism 6 of telescopic link 4 tip still can slide from top to bottom along its inner wall is even when stirring chamber 2 internal rotation, thereby make can spread the inner wall at stirring chamber 2 that the dough is even when stirring to the dough, make the dough be the pie, thereby make flour and water wherein further more even mixture in stirring chamber 2, and when rabbling mechanism 6 operates in stirring chamber 2 can make the deformation pipe 65 in its lower wall in the right-hand member even roll along the dough surface and pull it to it Stretching, piling and mixing again through the blocking effect of the rolling plate 62 on the left side of the dough, so that the shape of the dough in the stirring cavity 2 is firstly rolled by the deformation pipe 65 to roll the dough into a thinner cake shape, meanwhile, the cake shape is stretched by the sliding of the deformation pipe 65 on the inner wall of the stirring cavity 2, and then the dough is shoveled from the inner wall of the stirring cavity 2 by the rolling plate 62, thereby realizing the high toughness of the dough, forming gluten gradually and quickly, enabling the bread made in later period to be more perfect without the occurrence of depression, simultaneously, the dough can be prevented from being adhered to the inner wall of the stirring cavity 2 when the gluten is not formed, greatly prolonging the stirring time to enable the dough to be hydrated due to overlong stirring time through the cleaning of the rolling plate 62, and the dough can be subjected to reverse extrusion force when the deformation pipe 65 is in contact with the dough, so that two sides of an opening in the wall are inwards depressed, the inner side of the deformation pipe is compressed by air pressure, and meanwhile, when the deformation pipe is sunken to a certain degree, the penetrating plate 66 can slide outwards relative to the deformation pipe 65, even if the air hole 68 is obtained and appears outside the deformation pipe 65, the air pressure on the inner side of the deformation pipe is released outwards through the air outlet hole 68 instantly, the dough on the outer side is blown out of a groove instantly, a working groove is reserved for the penetrating plate 66, the situation that the opening is blocked and the normal work cannot be realized due to the fact that the dough is adhered to the opening in the wall of the deformation pipe is avoided, the situation that the dough cannot be discharged due to the fact that the dough is blocked and the air outlet hole 68 on the lower side of the penetrating plate 66 is also avoided, meanwhile, the penetrating plate 66 is inserted into the dough instantly along with the further contraction of the deformation pipe, the remaining high-pressure gas is ejected out of the dough instantly, countless small cavities can, and then promote the fermentation efficiency of the yeast by a wide margin, namely reduce the stirring time of the dough by a wide margin, make the dough that stirs and finish possess high elasticity and ductility simultaneously, make the bread taste made better, the shape is better, and because the setting up of connecting piston 64 will divide into a cavity in the deformation pipe 65, and then make the pressure that forms when the inside atmospheric pressure of deformation pipe 65 is compressed bigger, even make the gaseous atmospheric pressure of blowout through venthole 68 bigger, and then ensure to extrude the sunken opening that avoids the dough to block deformation pipe 65 on the dough at every turn, can also remain enough atmospheric pressure input and form the cavity into the dough, and because the wall thickness that deformation pipe 65 is close to its upper wall opening part sets up to be thinner and thinner, so deformation pipe 65 can produce a stock of bounce in both sides lateral wall of its opening part in its wall when reseing, and then make it possess certain dynamics when reseing, can ensure that scraper blade 69 clears up the outer wall of penetrator board 66, further reduce the probability that venthole 68 is blockked up, the dough that has rolled simultaneously can earlier contact with cleaning plate 7 in its wall when rolling board 62, and scraped and break away from the contact with stirring chamber 2, set up to the arc because of its outside simultaneously, the roll-over can take place for the dough of scraping, and then protect the inside air of just injecting into of dough, make the air remain for a long time in the dough, and then the cooperation pierces through board 66 and improves the fermentation efficiency of yeast by a wide margin.

The specific working process is as follows:

during the use, can place into stirring chamber 2 with the dough that preliminary mixing formed, driving motor makes bull stick 3 do and slide from top to bottom and rotation motion this moment, when bull stick 3 slides from top to bottom, can extrude telescopic link 5 No. two, make telescopic link 5 with its inside atmospheric pressure transport in telescopic link 4 No. two, thereby promote telescopic link 4 and slide from top to bottom along its wall both sides in stirring chamber 2, and bull stick 3 also is in under the rotation state this moment, so rabbling mechanism 6 of telescopic link 4 tip still can slide from top to bottom along its inner wall is even when stirring chamber 2 internal rotation, thereby make can spread the inner wall at stirring chamber 2 that the dough is even when stirring to the dough, make the dough be the pie, thereby make flour and water wherein further more even mixture in stirring chamber 2, and when rabbling mechanism 6 operates in stirring chamber 2 can make the deformation pipe 65 in its lower wall in the right-hand member even roll along the dough surface and pull it to it Stretching, piling and mixing again through the blocking effect of the rolling plate 62 on the left side of the dough, so that the shape of the dough in the stirring cavity 2 is firstly rolled by the deformation pipe 65 to roll the dough into a thinner cake shape, meanwhile, the cake shape is stretched by the sliding of the deformation pipe 65 on the inner wall of the stirring cavity 2, and then the dough is shoveled from the inner wall of the stirring cavity 2 by the rolling plate 62, thereby realizing the high toughness of the dough, forming gluten gradually and quickly, enabling the bread made in later period to be more perfect without the occurrence of depression, simultaneously, the dough can be prevented from being adhered to the inner wall of the stirring cavity 2 when the gluten is not formed, greatly prolonging the stirring time to enable the dough to be hydrated due to overlong stirring time through the cleaning of the rolling plate 62, and the dough can be subjected to reverse extrusion force when the deformation pipe 65 is in contact with the dough, so that two sides of an opening in the wall are inwards depressed, the inner side of the deformation pipe is compressed by air pressure, and meanwhile, when the deformation pipe is sunken to a certain degree, the penetrating plate 66 can slide outwards relative to the deformation pipe 65, even if the air hole 68 is obtained and appears outside the deformation pipe 65, the air pressure on the inner side of the deformation pipe is released outwards through the air outlet hole 68 instantly, the dough on the outer side is blown out of a groove instantly, a working groove is reserved for the penetrating plate 66, the situation that the opening is blocked and the normal work cannot be realized due to the fact that the dough is adhered to the opening in the wall of the deformation pipe is avoided, the situation that the dough cannot be discharged due to the fact that the dough is blocked and the air outlet hole 68 on the lower side of the penetrating plate 66 is also avoided, meanwhile, the penetrating plate 66 is inserted into the dough instantly along with the further contraction of the deformation pipe, the remaining high-pressure gas is ejected out of the dough instantly, countless small cavities can, and then promote the fermentation efficiency of the yeast by a wide margin, namely reduce the stirring time of the dough by a wide margin, make the dough that stirs and finish possess high elasticity and ductility simultaneously, make the bread taste made better, the shape is better, and because the setting up of connecting piston 64 will divide into a cavity in the deformation pipe 65, and then make the pressure that forms when the inside atmospheric pressure of deformation pipe 65 is compressed bigger, even make the gaseous atmospheric pressure of blowout through venthole 68 bigger, and then ensure to extrude the sunken opening that avoids the dough to block deformation pipe 65 on the dough at every turn, can also remain enough atmospheric pressure input and form the cavity into the dough, and because the wall thickness that deformation pipe 65 is close to its upper wall opening part sets up to be thinner and thinner, so deformation pipe 65 can produce a stock of bounce in both sides lateral wall of its opening part in its wall when reseing, and then make it possess certain dynamics when reseing, can ensure that scraper blade 69 clears up the outer wall of penetrator board 66, further reduce the probability that venthole 68 is blockked up, the dough that has rolled simultaneously can earlier contact with cleaning plate 7 in its wall when rolling board 62, and scraped and break away from the contact with stirring chamber 2, set up to the arc because of its outside simultaneously, the roll-over can take place for the dough of scraping, and then protect the inside air of just injecting into of dough, make the air remain for a long time in the dough, and then the cooperation pierces through board 66 and improves the fermentation efficiency of yeast by a wide margin.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A multi-angle stirring device comprises a mounting frame (1), a stirring cavity (2), a rotating rod (3), a first telescopic rod (4), a second telescopic rod (5) and a stirring mechanism (6); the method is characterized in that: the upper end of the mounting rack (1) is provided with a rotating rod (3); the rotating rod (3) is rotatably and telescopically connected to the lower end of a motor on the mounting frame (1), the outer walls of two sides of the lower end of the rotating rod (3) are symmetrically hinged with a first telescopic rod (4), and the lower end of the rotating rod (3) is fixedly connected to the upper end of a second telescopic rod (5); the outer end of the first telescopic rod (4) is connected with a stirring mechanism (6); the lower end of the second telescopic rod (5) is rotatably connected into the lower wall of the stirring cavity (2), and the inner cavity of the second telescopic rod (5) is communicated with the inner cavity of the first telescopic rod (4); the stirring mechanism (6) is attached to the inner wall of the stirring cavity (2).

2. The multi-angle stirring device as claimed in claim 1, wherein: the stirring mechanism (6) comprises a mounting block (61), a twisting plate (62), a rotating column (63), a connecting piston (64), a deformation pipe (65), a penetrating plate (66), a circulation hole (67), an air outlet hole (68) and a scraper (69); the upper end of the mounting block (61) is hinged to the lower end of the first telescopic rod (4), the mounting block (61) is made of a magnet material, and a twisting plate (62) is fixedly mounted in the left end wall of the mounting block (61); the rolling plate (62) is obliquely arranged, a rotating column (63) is arranged on the right side of the rolling plate (62), and the lower end of the rolling plate (62) is arranged on the lower side of the mounting block (61); the rotating column (63) is rotatably connected into the lower wall of the right end of the mounting block (61), the lower end of the rotating column (63) is arranged on the lower side of the mounting block (61), and the outer surface of the rotating column (63) is uniformly and fixedly connected with a connecting piston (64); the outer end of the connecting piston (64) is fixedly connected to the inner surface of the deformation pipe (65); the deformation pipe (65) is arranged on the outer side of the rotating column (63), and the deformation pipe (65) is made of elastic stainless steel metal materials.

3. The multi-angle stirring device as claimed in claim 2, wherein: the inner part of the deformation pipe (65) is provided with a penetrating plate (66), and the deformation pipe (65) is uniformly provided with openings at intervals; the cross section that pierces through board (66) is the water droplet type, pierces through board (66) and evenly establishes between two adjacent connecting piston (64), the inner fixed the inlaying of penetrating board (66) is installed in the wall of rotating post (63), the outer end that pierces through board (66) is established in the opening on deformation pipe (65), the inside that pierces through board (66) sets up to the cavity form, the circulation hole (67) has been seted up to the symmetry in the interior end wall that pierces through board (66), venthole (68) has been seted up to the symmetry in the outer end wall that pierces through board (66).

4. The multi-angle stirring device as claimed in claim 3, wherein: scrapers (69) are symmetrically attached to two sides of the lower end of the penetrating plate (66); the scraper plates (69) are symmetrically connected to two side walls of an opening in the deformation pipe (65) in a sliding mode, the inner ends of the scraper plates (69) are initially attached to air outlet holes (68) in the lower end of the penetration plate (66), holes are formed in the scraper plates (69) and communicated with the air outlet holes (68), and the holes in the scraper plates (69) are communicated with the outer side.

5. The multi-angle stirring device as claimed in claim 2, wherein: the wall thickness of the deformation pipe (65) close to the upper opening of the wall is set to be thinner and thinner.

6. The multi-angle stirring device as claimed in claim 2, wherein: a cleaning plate (7) is obliquely and slidably connected in the lower end wall of the twisting plate (62); the inside cavity of clearance board (7) and the inside cavity intercommunication of connecting piston (64), the outside of clearance board (7) sets up to the sword mouth form, and the outside of clearance board (7) is initial and is in same horizontal plane with the lower extreme of kneading board (62), and the outer end of clearance board (7) sets up to the arc wall.