CN112656251A

CN112656251A - Dessert processing device

Info

Publication number: CN112656251A
Application number: CN202011514999.3A
Authority: CN
Inventors: 付娟
Original assignee: Individual
Current assignee: Anhui Jingchuang Food Co ltd
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-04-16
Anticipated expiration: 2040-12-21
Also published as: CN112656251B

Abstract

The invention belongs to the technical field of dessert processing devices, and particularly relates to a dessert processing device which comprises a machine body, a processing cavity, a motor and a stirring mechanism, wherein the processing cavity is provided with a plurality of grooves; a processing cavity is fixedly arranged on the upper surface of the front end of the machine body; the cross section of the processing cavity is U-shaped, and a stirring mechanism is arranged inside the processing cavity; the stirring mechanism comprises a stirring rod, a hinged plate, a filter screen, a rotating plate, a cutting block, a pushing block, a pull rope and a dislocation plate; the stirring rods are initially arranged in an arc shape, a plurality of stirring rods are arranged, the stirring rods are arranged around the circumference, and the stirring rods are made of elastic memory metal materials; the articulated slab can drive some cheese to pass through from the space between cutting piece and the puddler when reseing, and the outer end of cutting piece cuts this part cheese that passes through in the twinkling of an eye under the effect of reseing of articulated slab this moment to can realize cutting the granule that mix with wherein, and then make the granule broken, and then realize better stirring.

Description

Dessert processing device

Technical Field

The invention belongs to the technical field of dessert processing devices, and particularly relates to a dessert processing device.

Background

Cheese (cheese), also known as cheese, is a fermented milk product, has properties similar to those of common yoghurt, is prepared by a fermentation process, and also contains lactic acid bacteria for health care, but cheese has higher concentration than yoghurt, is similar to solid food, and has richer nutritional value.

Each kilogram of cheese products is concentrated by 10 kilograms of milk, contains rich nutritional ingredients such as protein, calcium, fat, phosphorus, vitamin and the like, and is a pure natural food. In terms of technology, cheese is fermented milk; cheese is concentrated milk in terms of nutrition. Cheese is also a traditional food for nomadic nationalities such as Mongolia, Kazak and the like in northwest China, is called milk tofu in inner Mongolia, is called milk cake in Xinjiang, is called milk lump as completely dried cheese, and is the netherlands in the country with most export cheese in the world.

Cheese processing needs stir its earlier and makes its stirring be the smoothness form, could be with other material misce benes like this, otherwise the finished product has the tiny particle, and is not fine and smooth, and stir cheese among the prior art and stir with the help of the eggbeater usually, but the eggbeater can only tentatively realize the stirring function to cheese, can't break up particulate matter wherein, not only influences cheese and other materials and mixes, and the dessert taste of making simultaneously also can beat the discount greatly.

Disclosure of Invention

The technical scheme adopted by the invention for solving the technical problems is as follows: the dessert processing device comprises a machine body, a processing cavity, a motor and a stirring mechanism, wherein the processing cavity is provided with a processing cavity; a processing cavity is fixedly arranged on the upper surface of the front end of the machine body; the cross section of the processing cavity is U-shaped, and a stirring mechanism is arranged inside the processing cavity; the stirring mechanism comprises a stirring rod, a hinged plate, a filter screen, a rotating plate, a cutting block, a pushing block, a pull rope and a dislocation plate; the stirring rods are initially arranged in an arc shape, a plurality of stirring rods are arranged, the stirring rods are arranged around the circumference and are made of elastic memory metal materials, and the upper ends of the stirring rods are fixedly connected to the lower end of the motor; the motor is fixedly arranged at the front end of the machine body and is arranged on the upper side of the processing cavity.

A hinged plate is arranged on the outer side of the stirring rod; the hinged plates are uniformly and horizontally hinged on the inner wall of the processing cavity through torsion springs, the same horizontal plane of the hinged plates is provided with one layer, the hinged plates are provided with multiple layers, and the hinged plates are arc-shaped.

A filter screen is arranged in the hinged plate, and the inner wall of the hinged plate is hinged with a rotating plate through a torsional spring; the rotating plate is initially disposed outside the hinged plate.

The inner end of the hinged plate is provided with a cutting block; the outer surface of the cutting block is arc-shaped, and the outer side of the cutting block is knife-edge-shaped.

The rotating plate is arranged in the wall of the hinge plate in a sliding mode; a pushing block is connected in the outer end wall of the hinged plate in a sliding manner; the outer wall of the pushing block is arc-shaped, the outer surface of the pushing block is a friction surface, the outer surface of the pushing block is in fit and frictional contact with the inner surface of the cutting block, and the inner end of the pushing block can be in contact with the outer end of the contracted rotating plate; the cutting block is hinged in the outer end wall of the hinged plate through a torsion spring.

The inner end of the cutting block is fixedly connected with a pull rope; the other end of the pull rope is fixedly connected to the outer end of the dislocation plate; the dislocation plate is arranged in the wall of the hinged plate in a sliding manner, is in a filter screen shape, and is in a communicated and overlapped state with the filter screen initially; when the cheese stirring device is used, cheese can be placed into the processing cavity, the motor is started to drive the stirring rod to rotate at the moment, the cheese in the stirring cavity can be stirred, the motor is driven to move up and down when the motor rotates, the stirring rod can move up and down in the stirring cavity, when the stirring rod moves towards the lower end of the stirring cavity and contacts with the bottom of the stirring cavity, an extrusion force is generated on the stirring rod along with the downward movement of the stirring rod, so that the stirring rod is bent, the bending direction of the stirring rod is bent towards the inner wall of the stirring cavity, the stirring rod is contacted with the hinged plate when being bent to a certain degree, the hinged plate is driven to rotate towards the inner wall of the stirring cavity under the driving of the rotating force of the hinged plate, the hinged plate can be reset immediately under the torsion action of the torsion spring when the stirring rod rotates through the hinged plate, so that the rotating directions of the hinged plate, namely, one part of the cheese which initially moves in the same direction in the stirring cavity moves in the opposite direction with the stirring rod along with the resetting of the hinged plate, so that the cheese in the stirring cavity and the stirring rod can move in different directions, the cheese can be better broken up, the stirring efficiency is greatly improved, meanwhile, the hinged plate can drive one part of the cheese to pass through a gap between the cutting block and the stirring rod when being reset, the outer end of the cutting block instantaneously cuts the part of the passing cheese under the resetting action of the hinged plate, so that the grains mixed in the cutting block can be cut, the grains are crushed, the better stirring action is realized, the number of the grains after the stirring is greatly reduced, the stirring rod can firstly contact with the rotating plate on the outer side of the hinged plate when contacting with the hinged plate and extrudes the stirring rod, the rotating plate can gradually rotate into the wall of the hinged plate along with the movement of the stirring rod, therefore, a pushing force is generated on the cheese in the filter screen on the hinged plate to promote the cheese in the filter screen to be in a movable state and avoid the filter screen from being blocked, meanwhile, the rotating plate can drive the rotating plate to slide in the hinged plate along with the rotation of the stirring rod after rotating into the hinged plate, and then a friction force is generated on the cheese particles on the outer surface of the filter screen to promote the decomposition of the particles, so that the fineness of the stirred cheese is greatly improved, the pushing block at the outer end of the rotating plate can be pushed when the rotating plate slides and is driven to slide in the hinged plate, namely, the cutting block is driven to rotate towards one side of the inner wall of the stirring cavity, and the cutting block can form a rebound force when the stirring rod is separated from the hinged plate to be in contact with the hinged plate, so that the cutting and crushing effects on the particles are greatly improved, meanwhile, the pulling, avoid the rotor plate to lead to the filter screen to be blockked up when grinding the particulate matter with the particulate matter extrusion in the filter screen.

The invention has the following beneficial effects:

1. when the stirring rod moves towards the lower end of the stirring cavity and contacts with the bottom of the stirring cavity, an extrusion force is generated on the stirring rod along with the continuous downward movement of the stirring rod, so that the stirring rod is bent, the bending direction of the stirring rod is the bending direction close to the inner wall of the stirring cavity, the stirring rod is contacted with the hinged plate when being bent to a certain degree, the hinged plate is driven to rotate towards the inner wall of the stirring cavity under the driving of the rotating force of the hinged plate, the hinged plate can be reset immediately under the action of the torsion force of the torsion spring when the stirring rod rotates through the hinged plate, the rotating directions of the hinged plate and the stirring rod are opposite in a fixed time, namely, one part of cheese which initially moves towards the same direction in the stirring cavity moves along with the resetting of the hinged plate and the opposite direction of the stirring rod, so that the cheese in the stirring cavity and the stirring rod can present different direction moving states, and the cheese can be better, thereby greatly improving the stirring efficiency.

2. The hinged plate can drive a part of cheese to pass through a gap between the cutting block and the stirring rod when being reset, at the moment, the outer end of the cutting block instantaneously cuts the part of cheese passing through under the reset action of the hinged plate, so that the grains mixed in the hinged plate can be cut, the grains are crushed, a better stirring action is realized, the quantity of the grains after stirring is greatly reduced, the stirring rod is firstly contacted with the rotating plate on the outer side of the hinged plate when being contacted with the hinged plate and extrudes the hinged plate, the rotating plate can gradually rotate into the wall of the hinged plate along with the movement of the stirring rod, so that a driving force is generated on the cheese in the filter screen on the hinged plate, the cheese in the filter screen is enabled to be in a moving state, the filter screen is prevented from being blocked, and meanwhile, the rotating plate can drive the rotating plate to slide in the hinged plate along with the rotation of, and then produce a frictional force to the cheese particulate matter that is in the filter screen surface and promote its decomposition, and then improve the fine and smooth degree after the cheese stirring by a wide margin, and can promote the promotion piece of its outer end when the rotor plate slides, and order about it and slide in the articulated slab, make the cutting piece rotate to stirring intracavity wall one side promptly, and then realize that the cutting piece can form a bounce when the puddler breaks away from with the articulated slab contact, and then improve the cutting crushing effect to the particulate matter by a wide margin, can stimulate the stay cord when the cutting piece rotates simultaneously and make the inside dislocation board of articulated slab slide toward the outside, and then seal the filter screen, avoid the rotor plate to lead to the filter screen to be blockked up in extruding the filter screen with the particulate matter when grinding the.

Drawings

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

FIG. 2 is a schematic structural view of the stirring mechanism of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is an enlarged view of a portion of the invention at B in FIG. 3;

in the figure: the machine comprises a machine body 1, a processing cavity 2, a motor 3, a stirring mechanism 4, a stirring rod 41, a hinge plate 42, a filter screen 43, a rotating plate 44, a cutting block 45, a pushing block 46, a pull rope 47 and a dislocation plate 48.

Detailed Description

A confectionary processing apparatus according to an embodiment of the present invention will be described below with reference to fig. 1 to 4.

As shown in fig. 1-4, the dessert processing device of the present invention comprises a machine body 1, a processing cavity 2, a motor 3 and a stirring mechanism 4; a processing cavity 2 is fixedly arranged on the upper surface of the front end of the machine body 1; the cross section of the processing cavity 2 is U-shaped, and a stirring mechanism 4 is arranged inside the processing cavity 2; the stirring mechanism 4 comprises a stirring rod 41, a hinged plate 42, a filter screen 43, a rotating plate 44, a cutting block 45, a pushing block 46, a pulling rope 47 and a dislocation plate 48; the stirring rods 41 are initially arranged in an arc shape, a plurality of stirring rods 41 are arranged, the stirring rods 41 are arranged around the circumference, the stirring rods 41 are made of elastic memory metal materials, and the upper ends of the stirring rods 41 are fixedly connected to the lower end of the motor 3; the motor 3 is fixedly arranged at the front end of the machine body 1, and the motor 3 is arranged on the upper side of the processing cavity 2.

A hinged plate 42 is arranged on the outer side of the stirring rod 41; the hinged plates 42 are uniformly and horizontally hinged on the inner wall of the processing chamber 2 through torsion springs, the hinged plates 42 are arranged in one layer on the same horizontal plane, the hinged plates 42 are arranged in multiple layers, and the hinged plates 42 are arranged in an arc shape.

A filter screen 43 is arranged in the hinged plate 42, and the inner wall of the hinged plate 42 is hinged with a rotating plate 44 through a torsion spring; the pivoting plate 44 is initially disposed outboard of the hinge plates 42.

The inner end of the hinge plate 42 is provided with a cutting block 45; the outer surface of the cutting block 45 is arc-shaped, and the outer side of the cutting block 45 is knife-edge-shaped.

The pivoting plate 44 is slidably disposed in the wall of the hinge plate 42; a pusher block 46 is slidably connected in the outer end wall of said hinge plate 42; the outer wall of the pushing block 46 is arc-shaped, the outer surface of the pushing block 46 is a friction surface, the outer surface of the pushing block 46 is in fit and friction contact with the inner surface of the cutting block 45, and the inner end of the pushing block 46 can be in contact with the outer end of the contracted rotating plate 44; the cutting block 45 is hinged in the outer end wall of the hinge plate 42 by a torsion spring.

The inner end of the cutting block 45 is fixedly connected with a pull rope 47; the other end of the pull rope 47 is fixedly connected to the outer end of the dislocation plate 48; the dislocation plate 48 is arranged in the wall of the hinge plate 42 in a sliding manner, the dislocation plate 48 is in the shape of a filter screen 43, and the dislocation plate 48 is initially communicated with the filter screen 43 and is overlapped; when the cheese processing device is used, cheese can be placed into the processing cavity 2, the motor 3 is started to drive the stirring rod 41 to rotate at the moment, the cheese in the processing cavity 2 can be stirred, meanwhile, the motor 3 is driven to move up and down when the motor 3 rotates, the stirring rod 41 can move up and down in the processing cavity 2, when the stirring rod 41 moves towards the lower end of the processing cavity 2 and contacts with the bottom of the processing cavity, an extrusion force is generated on the stirring rod 41 along with the downward movement of the stirring rod 41, so that the stirring rod 41 bends, the bending direction of the stirring rod 41 is close to the bending direction of the inner wall of the processing cavity 2, when the stirring rod 41 bends to a certain degree, the stirring rod 41 can contact with the hinged plate 42 and drive the hinged plate 42 to rotate towards the inner wall of the processing cavity 2 under the driving of the hinged plate 42, and when the stirring rod 41 rotates through the hinged plate 42, the hinged plate 42 can be reset immediately under the torsion of the torsion spring, so that, namely, one part of the cheese which initially moves in the same direction in the processing cavity 2 moves in the opposite direction with the stirring rod 41 along with the resetting of the hinged plate 42, so that the cheese in the processing cavity 2 and the stirring rod 41 can be in different directions, the cheese can be better broken up, the stirring efficiency is greatly improved, meanwhile, the hinged plate 42 can drive one part of the cheese to pass through a gap between the cutting block 45 and the stirring rod 41 when being reset, at the moment, the outer end of the cutting block 45 instantaneously cuts the part of the passing cheese under the resetting action of the hinged plate 42, so that the grains mixed in the hinged plate can be cut, the grains are crushed, the better stirring action is realized, the quantity of the grains after the stirring is greatly reduced, and the stirring rod 41 can be firstly contacted with the rotating plate 44 on the outer side when being contacted with the hinged plate 42, the cheese is extruded, the rotating plate 44 gradually rotates into the wall of the hinged plate 42 along with the movement of the stirring rod 41, so that a pushing force is generated on the cheese in the filter screen 43 on the hinged plate 42, the cheese in the filter screen 43 is enabled to be in a moving state, the filter screen 43 is prevented from being blocked, meanwhile, the rotating plate 44 rotates into the hinged plate 42 and then drives the rotating plate 44 to slide in the hinged plate 42 along with the rotation of the stirring rod 41, a friction force is generated on the cheese particles on the outer surface of the filter screen 43 to promote the decomposition of the cheese particles, the fineness of the stirred cheese is greatly improved, the rotating plate 44 pushes the pushing block 46 at the outer end of the rotating plate when sliding and drives the pushing block to slide in the hinged plate 42, the cutting block 45 is enabled to rotate towards one side of the inner wall of the processing cavity 2, and the cutting block 45 forms a rebound force when the stirring rod 41 is separated from the contact with the hinged plate 42, meanwhile, when the cutting block 45 rotates, the pull rope 47 can be pulled to enable the dislocation plate 48 inside the hinge plate 42 to slide outwards, so that the filter screen 43 is sealed, and the situation that the filter screen 43 is blocked due to the fact that the rotating plate 44 extrudes the particles into the filter screen 43 when the particles are ground is avoided.

The specific working process is as follows:

when the cheese processing device is used, cheese can be placed into the processing cavity 2, the motor 3 is started to drive the stirring rod 41 to rotate at the moment, the cheese in the processing cavity 2 can be stirred, meanwhile, the motor 3 is driven to move up and down when the motor 3 rotates, the stirring rod 41 can move up and down in the processing cavity 2, when the stirring rod 41 moves towards the lower end of the processing cavity 2 and contacts with the bottom of the processing cavity, an extrusion force is generated on the stirring rod 41 along with the downward movement of the stirring rod 41, so that the stirring rod 41 bends, the bending direction of the stirring rod 41 is close to the bending direction of the inner wall of the processing cavity 2, when the stirring rod 41 bends to a certain degree, the stirring rod 41 can contact with the hinged plate 42 and drive the hinged plate 42 to rotate towards the inner wall of the processing cavity 2 under the driving of the hinged plate 42, and when the stirring rod 41 rotates through the hinged plate 42, the hinged plate 42 can be reset immediately under the torsion of the torsion spring, so that, namely, one part of the cheese which initially moves in the same direction in the processing cavity 2 moves in the opposite direction with the stirring rod 41 along with the resetting of the hinged plate 42, so that the cheese in the processing cavity 2 and the stirring rod 41 can be in different directions, the cheese can be better broken up, the stirring efficiency is greatly improved, meanwhile, the hinged plate 42 can drive one part of the cheese to pass through a gap between the cutting block 45 and the stirring rod 41 when being reset, at the moment, the outer end of the cutting block 45 instantaneously cuts the part of the passing cheese under the resetting action of the hinged plate 42, so that the grains mixed in the hinged plate can be cut, the grains are crushed, the better stirring action is realized, the quantity of the grains after the stirring is greatly reduced, and the stirring rod 41 can be firstly contacted with the rotating plate 44 on the outer side when being contacted with the hinged plate 42, the cheese is extruded, the rotating plate 44 gradually rotates into the wall of the hinged plate 42 along with the movement of the stirring rod 41, so that a pushing force is generated on the cheese in the filter screen 43 on the hinged plate 42, the cheese in the filter screen 43 is enabled to be in a moving state, the filter screen 43 is prevented from being blocked, meanwhile, the rotating plate 44 rotates into the hinged plate 42 and then drives the rotating plate 44 to slide in the hinged plate 42 along with the rotation of the stirring rod 41, a friction force is generated on the cheese particles on the outer surface of the filter screen 43 to promote the decomposition of the cheese particles, the fineness of the stirred cheese is greatly improved, the rotating plate 44 pushes the pushing block 46 at the outer end of the rotating plate when sliding and drives the pushing block to slide in the hinged plate 42, the cutting block 45 is enabled to rotate towards one side of the inner wall of the processing cavity 2, and the cutting block 45 forms a rebound force when the stirring rod 41 is separated from the contact with the hinged plate 42, meanwhile, when the cutting block 45 rotates, the pull rope 47 can be pulled to enable the dislocation plate 48 inside the hinge plate 42 to slide outwards, so that the filter screen 43 is sealed, and the situation that the filter screen 43 is blocked due to the fact that the rotating plate 44 extrudes the particles into the filter screen 43 when the particles are ground is avoided.

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 dessert processing device comprises a machine body (1), a processing cavity (2), a motor (3) and a stirring mechanism (4); the method is characterized in that: a processing cavity (2) is fixedly arranged on the upper surface of the front end of the machine body (1); the cross section of the processing cavity (2) is U-shaped, and a stirring mechanism (4) is arranged inside the processing cavity (2); the stirring mechanism (4) comprises a stirring rod (41), a hinge plate (42), a filter screen (43), a rotating plate (44), a cutting block (45), a pushing block (46), a pull rope (47) and a dislocation plate (48); the stirring rods (41) are initially arranged in an arc shape, a plurality of stirring rods (41) are arranged, the stirring rods (41) are arranged around the circumference, the stirring rods (41) are made of elastic memory metal materials, and the upper ends of the stirring rods (41) are fixedly connected to the lower end of the motor (3); the motor (3) is fixedly arranged at the front end of the machine body (1), and the motor (3) is arranged on the upper side of the processing cavity (2).

2. A confectionary processing apparatus according to claim 1, wherein: a hinged plate (42) is arranged on the outer side of the stirring rod (41); the hinged plates (42) are uniformly and horizontally hinged on the inner wall of the processing cavity (2) through torsion springs, one layer of hinged plates (42) is arranged on the same horizontal plane, multiple layers of hinged plates (42) are arranged, and the hinged plates (42) are arranged in an arc shape.

3. A confectionary processing apparatus according to claim 2, wherein: a filter screen (43) is arranged in the hinged plate (42), and the inner wall of the hinged plate (42) is hinged with a rotating plate (44) through a torsion spring; the pivoting plate (44) is initially disposed outside of the hinge plate (42).

4. A confectionary processing apparatus according to claim 2, wherein: the inner end of the hinge plate (42) is provided with a cutting block (45); the outer surface of the cutting block (45) is arc-shaped, and the outer side of the cutting block (45) is knife-edge-shaped.

5. A confectionary processing apparatus according to claim 3, wherein: the rotating plate (44) is arranged in the wall of the hinge plate (42) in a sliding manner; a pushing block (46) is connected in the outer end wall of the hinged plate (42) in a sliding way; the outer wall of the pushing block (46) is arc-shaped, the outer surface of the pushing block (46) is a friction surface, the outer surface of the pushing block (46) is in fit and frictional contact with the inner surface of the cutting block (45), and the inner end of the pushing block (46) can be in contact with the outer end of the contracted rotating plate (44); the cutting block (45) is hinged in the outer end wall of the hinged plate (42) by a torsion spring.

6. A confectionary processing apparatus according to claim 5, further comprising: the inner end of the cutting block (45) is fixedly connected with a pull rope (47); the other end of the pull rope (47) is fixedly connected to the outer end of the dislocation plate (48); the dislocation plate (48) is arranged in the wall of the hinge plate (42) in a sliding mode, the dislocation plate (48) is arranged in a filter screen (43) shape, and the dislocation plate (48) is in a communicated and overlapped state with the filter screen (43) initially.