CN112656251B - Dessert processingequipment - Google Patents

Abstract

The invention belongs to the technical field of dessert processing devices, in particular to a dessert processing device which comprises a machine body, a processing cavity, a motor and a stirring mechanism; the upper surface of the front end of the machine body is fixedly provided with a processing cavity; the cross section of the processing cavity is U-shaped, and a stirring mechanism is arranged in 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 arranged in an arc shape initially, 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 the clearance between some cheeses follow cutting piece and the puddler and pass through when resetting, cuts this part of cheese that passes through in the twinkling of an eye at the outer end of cutting piece under the reset action of articulated slab this moment to can realize cutting the granule that is mingled with wherein, and then make the granule broken, and then realize better stirring effect.

Description

Dessert processingequipment

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 which has properties similar to those of common yogurt, is produced by a fermentation process, and contains lactic acid bacteria which can be used for health care, but the concentration of cheese is higher than that of yogurt, is similar to that of solid food, and thus has a more abundant nutritional value.

Each kilogram of cheese products is prepared by concentrating 10 kilograms of milk, contains rich nutritional ingredients such as protein, calcium, fat, phosphorus, vitamins and the like, and is a purely natural food. In terms of process, cheese is fermented milk; for nutrition, cheese is concentrated milk. Cheese is also a traditional food of nomadic nationality such as Mongolian and Kazak in northwest China, is called milk bean curd in Mongolia, is called milk cake in Xinjiang, is called milk lump in Xinjiang, and is the Netherlands in the most countries of the world export.

The cheese processing needs to be stirred firstly to enable the cheese to be uniformly stirred and smooth, so that the cheese can be uniformly mixed with other materials, otherwise, the finished product has small particles and is not fine and smooth, the cheese is stirred by means of an egg beater in the prior art, but the egg beater can only preliminarily realize the stirring function of the cheese, the particles in the cheese can not be scattered, the cheese is not only influenced to be mixed with other materials, and meanwhile, the taste of the manufactured dessert can be greatly reduced.

Disclosure of Invention

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a dessert processing device which comprises a machine body, a processing cavity, a motor and a stirring mechanism, wherein the machine body is provided with a stirring cavity; the upper surface of the front end of the machine body is fixedly provided with a processing cavity; the cross section of the processing cavity is U-shaped, and a stirring mechanism is arranged in 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 arranged in an arc shape initially, a plurality of stirring rods are arranged around the circumference, the stirring rods are made of elastic memory metal materials, and the upper ends of the stirring rods are fixedly connected to the lower ends of the motors; the motor is fixedly arranged at the front end of the machine body, and the motor is arranged at the upper side of the processing cavity.

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

A filter screen is arranged in the hinged plate, and a rotating plate is hinged to the inner wall of the hinged plate through a torsion spring; the rotating plate is initially arranged on the outer side of the hinge 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 manner; 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 friction 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 hinge plate by 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 arranged in a filter mesh shape, and is in a communicating and overlapping state with the filter mesh initially; when the cheese stirring machine is used, cheese can be placed into a processing cavity, a motor is started to drive a stirring rod to rotate, cheese in the stirring cavity can be stirred, meanwhile, the motor is driven to move up and down when the motor rotates, so that 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, a extrusion force can be 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, when the stirring rod is bent to a certain extent, the stirring rod contacts with a hinged plate, and the hinged plate is driven to rotate towards the inner wall of the stirring cavity under the driving of the rotating force of the stirring rod, and the hinged plate can be reset immediately under the torque action of a torsion spring when the stirring rod rotates through the hinged plate, so that the bending direction of the stirring rod and the stirring rod are opposite in a section of fixed time, even if a part of cheese which initially moves in the same direction in the stirring cavity moves in the opposite direction along with the reset of the hinged plate and the stirring rod, the cheese in the stirring cavity and the stirring rod can be in different-direction movement states, so that the cheese can be better scattered, the stirring efficiency is greatly improved, meanwhile, the hinged plate can drive a part of cheese to pass through a gap between the cutting block and the stirring rod when reset, at the moment, the outer end of the cutting block instantaneously cuts the cheese passing through the part under the reset action of the hinged plate, so that the particles mixed in the cheese can be cut, the particles are crushed, the better stirring action is realized, the quantity of the particles after the stirring is greatly reduced, the stirring rod is contacted with a rotating plate outside the hinged plate when the stirring rod contacts with the hinged plate, and the stirring rod is extruded, the stirring rod moves, the rotating plate gradually rotates into the wall of the hinged plate, so that a pushing force is generated on cheese in the filter screen on the hinged plate, the cheese in the filter screen is in a movable state, the filter screen is prevented from being blocked, the rotating plate can be driven to slide in the hinged plate along with the rotation of the stirring rod after rotating into the hinged plate, further, a friction force is generated on cheese particles on the outer surface of the filter screen to promote the decomposition of the cheese particles, further, the fineness degree of the cheese after stirring is greatly improved, the rotating plate can push the pushing block at the outer end of the rotating plate during sliding and drives the cheese particles 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, further, the cutting block can form a rebound force when the stirring rod is separated from being contacted with the hinged plate, further, the cutting breaking effect on the particles is greatly improved, meanwhile, the pulling rope can be pulled to drive the inner dislocation plate to slide outwards during the rotation of the cutting block, the filter screen is further sealed, and the phenomenon that the particles are extruded into the filter screen when the particles are ground is prevented from being blocked by the rotating plate.

The beneficial effects of the invention are as follows:

1. when the stirring rod moves towards the lower end of the stirring cavity and contacts with the bottom of the stirring cavity, a extrusion force is generated for 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 bent near the inner wall of the stirring cavity, the stirring rod is in contact with the hinged plate when being bent to a certain extent, the hinged plate is driven to rotate towards the inner wall of the stirring cavity by the driving of the rotating force of the stirring rod, the hinged plate can be reset immediately under the torque effect of the torsion spring when the stirring rod rotates through the hinged plate, and the rotating direction of the hinged plate and the stirring rod is in the opposite direction within a period of fixed time, namely, one part of cheese which initially moves towards the same direction in the stirring cavity moves in the opposite direction along with the reset of the hinged plate, so that the cheese in the stirring cavity and the stirring rod can present movement states in different directions, and the cheese can be dispersed better, and the stirring efficiency is greatly improved.

2. The utility model provides a recess between hinge plate, can drive some cheeses from cutting piece and puddler when the hinge plate resets and pass through, at this moment, the outer end of cutting piece cuts this part cheese that passes through in the twinkling of an eye under the reset action of hinge plate, thereby can realize cutting the granule that is mingled with wherein, and then make the granule broken, and then realize better stirring effect, reduce the quantity of stirring back particulate matter by a wide margin, and the puddler can earlier contact rather than the pivoted plate in the outside when hinge plate contacts, and extrude it, along with the motion pivoted plate of puddler can gradually rotate into the wall of hinge plate, thereby produce a push force to the cheese in the filter screen on, make cheese in the filter screen be in the active state, avoid the filter screen to be stopped up, the pivoted plate can drive the pivoted plate to slide in the hinge plate along with the rotation of puddler in this moment, and then produce a friction promotion its decomposition to the cheese particulate matter that is in the filter screen surface, and then improve the fine and smooth degree after the cheese stirring by a wide margin, and the pivoted plate can promote the impeller of its outer end when sliding, and drive it to slide in the hinge plate, make the pivoted plate rotate to one side of inner wall of stirring chamber, and then realize that the pivoted plate breaks away from the pivoted plate and form the opposite to the cut particulate matter when the pivoted plate is cut off the extrusion of particulate matter, and then the filter screen is cut out of the profile, and then the particle is rotated to be cut and the extension piece.

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 body 1, the processing cavity 2, the motor 3, the stirring mechanism 4, the stirring rod 41, the hinged plate 42, the filter screen 43, the rotating plate 44, the cutting block 45, the pushing block 46, the pulling rope 47 and the dislocation plate 48.

Detailed Description

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

As shown in fig. 1 to 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; the upper surface of the front end of the machine body 1 is fixedly provided with a processing cavity 2; the cross section of the processing cavity 2 is U-shaped, and a stirring mechanism 4 is arranged in 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 pull rope 47 and a dislocation plate 48; the stirring rods 41 are arranged in an arc shape initially, the stirring rods 41 are arranged in a plurality, 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 at the upper side of the processing cavity 2.

The outer side of the stirring rod 41 is provided with a hinged plate 42; the hinged plates 42 are evenly and horizontally hinged on the inner wall of the processing cavity 2 through torsion springs, the hinged plates 42 are arranged on the same horizontal plane to form a layer, the hinged plates 42 are provided with multiple layers, and the hinged plates 42 are arc-shaped.

A filter screen 43 is arranged in the hinged plate 42, and a rotating plate 44 is hinged to the inner wall of the hinged plate 42 through a torsion spring; the pivot plate 44 is initially disposed outside of the hinge plate 42.

The inner end of the hinged 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 rotating plate 44 is slidably disposed in the wall of the hinge plate 42; a pusher 46 is slidably coupled within the outer end wall of the 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 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.

A pull rope 47 is fixedly connected to the inner end of the cutting block 45; 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 hinged plate 42 in a sliding way, the dislocation plate 48 is arranged in a shape of a filter screen 43, and the dislocation plate 48 is in a communicating and overlapping state with the filter screen 43 initially; when in use, cheese can be put into the processing cavity 2, at the moment, the motor 3 is started to drive the stirring rod 41 to rotate, 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, a extrusion force is generated for the stirring rod 41 along with the continuous downward movement of the stirring rod, so that the stirring rod 41 is bent, the bending direction of the stirring rod 41 is close to the inner wall of the processing cavity 2, the stirring rod 41 contacts with the hinged plate 42 when being bent to a certain extent, the hinged plate 42 is driven to rotate towards the inner wall of the processing cavity 2 under the driving of the rotating force of the stirring rod 41, and the hinged plate 42 can reset immediately under the torsion action of the torsion spring when the stirring rod 41 rotates through the hinged plate 42, so that the rotation directions of the hinged plate 42 and the stirring rod 41 are opposite in a certain period of fixed time, namely, one part of cheese which initially moves in the same direction in the processing cavity 2 moves in the opposite direction with the reset of the hinged plate 42 and the stirring rod 41, so that the cheese in the processing cavity 2 and the stirring rod 41 can be in different-direction movement states, the cheese can be better scattered, the stirring efficiency is greatly improved, meanwhile, the hinged plate 42 can drive one part of 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 cheese which passes through the part under the reset action of the hinged plate 42, thereby realizing the cutting of particles in the cheese, further crushing the particles, further realizing better stirring action, greatly reducing the quantity of particles after stirring is finished, the stirring rod 41 contacts with the rotating plate 44 on the outer side of the hinged plate 42 and extrudes the stirring rod, 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 cheese in the filter screen 43 on the hinged plate 42, the cheese in the filter screen 43 is enabled to be in a movable state, the filter screen 43 is prevented from being blocked, the rotating plate 44 can drive the rotating plate 44 to slide in the hinged plate 42 along with the rotation of the stirring rod 41 after the rotating plate 44 rotates into the hinged plate 42, further, a friction force is generated on cheese particles on the outer surface of the filter screen 43 to promote the decomposition of the cheese particles, further, the fineness degree of the cheese after stirring is greatly improved, the pushing block 46 on the outer end of the rotating plate 44 is pushed during the sliding of the rotating plate 44, and the pushing block 46 is driven to slide in the hinge plate 42, namely, the cutting block 45 is enabled to rotate towards the inner wall side of the processing cavity 2, further, the cutting block 45 forms a reverse elastic force when the stirring rod 41 is separated from the contact with the hinge plate 42, the cutting and the breaking effect on the particles is greatly improved, and meanwhile, the dislocation plate 48 in the filter screen 42 is enabled to slide outwards during the rotation, the rotating block 45 is enabled to be pushed, so that the rotating plate 43 is enabled to be pushed to slide, and the particles are prevented from being blocked by the filter screen 43 when the particles are blocked and the filter screen 43.

The specific working procedure is as follows:

when in use, cheese can be put into the processing cavity 2, at the moment, the motor 3 is started to drive the stirring rod 41 to rotate, 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, a extrusion force is generated for the stirring rod 41 along with the continuous downward movement of the stirring rod, so that the stirring rod 41 is bent, the bending direction of the stirring rod 41 is close to the inner wall of the processing cavity 2, the stirring rod 41 contacts with the hinged plate 42 when being bent to a certain extent, the hinged plate 42 is driven to rotate towards the inner wall of the processing cavity 2 under the driving of the rotating force of the stirring rod 41, and the hinged plate 42 can reset immediately under the torsion action of the torsion spring when the stirring rod 41 rotates through the hinged plate 42, so that the rotation directions of the hinged plate 42 and the stirring rod 41 are opposite in a certain period of fixed time, namely, one part of cheese which initially moves in the same direction in the processing cavity 2 moves in the opposite direction with the reset of the hinged plate 42 and the stirring rod 41, so that the cheese in the processing cavity 2 and the stirring rod 41 can be in different-direction movement states, the cheese can be better scattered, the stirring efficiency is greatly improved, meanwhile, the hinged plate 42 can drive one part of 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 cheese which passes through the part under the reset action of the hinged plate 42, thereby realizing the cutting of particles in the cheese, further crushing the particles, further realizing better stirring action, greatly reducing the quantity of particles after stirring is finished, the stirring rod 41 contacts with the rotating plate 44 on the outer side of the hinged plate 42 and extrudes the stirring rod, 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 cheese in the filter screen 43 on the hinged plate 42, the cheese in the filter screen 43 is enabled to be in a movable state, the filter screen 43 is prevented from being blocked, the rotating plate 44 can drive the rotating plate 44 to slide in the hinged plate 42 along with the rotation of the stirring rod 41 after the rotating plate 44 rotates into the hinged plate 42, further, a friction force is generated on cheese particles on the outer surface of the filter screen 43 to promote the decomposition of the cheese particles, further, the fineness degree of the cheese after stirring is greatly improved, the pushing block 46 on the outer end of the rotating plate 44 is pushed during the sliding of the rotating plate 44, and the pushing block 46 is driven to slide in the hinge plate 42, namely, the cutting block 45 is enabled to rotate towards the inner wall side of the processing cavity 2, further, the cutting block 45 forms a reverse elastic force when the stirring rod 41 is separated from the contact with the hinge plate 42, the cutting and the breaking effect on the particles is greatly improved, and meanwhile, the dislocation plate 48 in the filter screen 42 is enabled to slide outwards during the rotation, the rotating block 45 is enabled to be pushed, so that the rotating plate 43 is enabled to be pushed to slide, and the particles are prevented from being blocked by the filter screen 43 when the particles are blocked and the filter screen 43.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present invention and the scope of the claims, which are to be protected by the present invention.

Claims (2)

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: the upper surface of the front end of the machine body (1) is fixedly provided with a processing cavity (2); the cross section of the processing cavity (2) is U-shaped, and a stirring mechanism (4) is arranged in 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 pull rope (47) and a dislocation plate (48); the stirring rods (41) are arranged in an arc shape at the beginning, the stirring rods (41) are arranged in a plurality, 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 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 at the upper side of the processing cavity (2);

the outer side of the stirring rod (41) is provided with a hinged plate (42); the hinge plates (42) are evenly and horizontally hinged on the inner wall of the processing cavity (2) through torsion springs, the hinge plates (42) are arranged on the same horizontal plane to form a layer, the hinge plates (42) are provided with multiple layers, and the hinge plates (42) are arranged in an arc shape;

a filter screen (43) is arranged in the hinged plate (42), and a rotating plate (44) is hinged to the inner wall of the hinged plate (42) through a torsion spring; the rotating plate (44) is initially arranged on the outer side of the hinge plate (42);

the rotating plate (44) is slidably disposed in a wall of the hinge plate (42); a pushing block (46) is slidably connected in the outer end wall of the 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 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 hinged plate (42) through 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 hinged 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 communicating and overlapping state with the filter screen (43) initially.

2. A confectionary piece processing device according to claim 1, characterized in that: a cutting block (45) is arranged at the inner end of the hinged plate (42); the outer surface of the cutting block (45) is arc-shaped, and the outer side of the cutting block (45) is knife-edge-shaped.