CN211754301U - Cooking, pulping and stirring integrated machine - Google Patents

Abstract

The utility model belongs to the technical field of food processing, in particular to a cooking pulping and stirring integrated machine, which comprises a base, wherein a tank body is fixed on the base, and a tank cover is arranged on the tank body; the base is also fixed with a lifting structure, and the tank cover is fixed on the lifting structure; the tank body is of an interlayer structure, and a heating structure and a cooling structure are arranged in the interlayer of the tank body; a stirring motor is fixed on the upper part of the tank cover, and a stirring structure fixedly connected with a rotating shaft of the stirring motor is arranged on the lower part of the tank cover; the bottom of the tank body is provided with a slurry discharging port. The utility model discloses an all-in-one will cook, make beating and stir technology and go on in same device, and the cover adopts the mode of automatic lift, has not only simplified the process, improves the convenience of operation, avoids the material to shift and produce the loss between different processes simultaneously.

Description

Cooking, pulping and stirring integrated machine

Technical Field

The utility model belongs to the technical field of food processing, concretely relates to boiling making beating stirring all-in-one.

Background

The hawthorn contains abundant carbohydrates, minerals, trace elements and multiple vitamins, has high nutritional value, and is usually made into hawthorn rolls, hawthorn slices and the like which are easy to package, transport and store. In the process of making hawthorn rolls, hawthorn slices and the like by using hawthorn, the processes of selecting, cleaning, cooking, pulping, stirring, forming, drying, airing, packaging and the like are generally carried out.

At present, in the process of manufacturing products such as hawthorn rolls, hawthorn sheets and the like, cooking, pulping and stirring are different technological processes, each technological process is carried out independently, so that the cooked hawthorn needs to be fished out and transferred into a pulping container, after pulping is completed, hawthorn paste is transferred into a stirrer, auxiliary materials are added into the stirrer to be stirred and uniformly mixed, the whole process not only relates to a plurality of devices, but also needs manual operation, and the whole technological process wastes time and labor; in addition, multiple transfer processes are involved in the process, and material waste is inevitably caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a boiling making beating stirring all-in-one cooks, makes beating and the technology of stirring in same equipment, easy operation, and effectively avoids the raw materials extravagant.

Based on the above purpose, the utility model adopts the following technical scheme: a stewing, pulping and stirring integrated machine comprises a base, wherein a tank body is fixed on the base, and a tank cover is arranged on the tank body; the base is also fixed with a lifting structure, and the tank cover is fixed on the lifting structure; the tank body is of an interlayer structure, and a heating structure and a cooling structure are arranged in the interlayer of the tank body; a stirring motor is fixed on the upper part of the tank cover, and a stirring structure fixedly connected with a rotating shaft of the stirring motor is arranged on the lower part of the tank cover; the bottom of the tank body is provided with a slurry discharging port.

Furthermore, the lifting structure comprises a supporting plate fixed on the base, a lifting plate is arranged on the supporting plate, one end of the lifting plate is connected with the supporting plate in a sliding mode, and the other end of the lifting plate is integrally connected with the tank cover; the lifting structure also comprises a rack fixed on the supporting plate, a gear meshed with the rack is fixed in the lifting plate, a lifting motor and a counterweight are respectively fixed on two sides of the lifting plate, and a rotating shaft of the lifting motor penetrates through the lifting plate and the gear to be connected with the counterweight; the rotating shaft of the lifting motor is rotatably connected with the lifting plate and the balance weight and fixedly connected with the gear.

Furthermore, the lifting structure also comprises an auxiliary wheel fixed in the lifting plate, and two ends of a rotating shaft of the auxiliary wheel are rotatably connected with the lifting plate; the two ends of the auxiliary wheel are provided with round tables extending along the radial direction, the round tables are respectively positioned on the two sides of the supporting plate, and the auxiliary wheel is in running fit with the supporting plate.

Furthermore, a positioning rod is arranged on the lifting plate, and one end of the positioning rod is rotatably connected with the lifting plate; the other end of the positioning rod is a free end; the lifting plate is provided with a hook matched with the free end of the positioning rod; and after the positioning rod rotates relative to the lifting plate, the free end of the positioning rod is clamped between two adjacent teeth of the rack and used for limiting the downward movement of the lifting plate.

Further, the stirring structure comprises a stirring shaft fixedly connected with a rotating shaft of the motor, and blades are fixed at the bottom end of the stirring shaft; the paddle is of a bending structure and comprises a horizontal part and a bending part, and a through hole is formed in the bending part.

Further, the paddle is detachably connected with the stirring shaft.

Further, the paddles are uniformly arranged in the circumferential direction of the stirring shaft, and the number of layers of the paddles arranged in the axial direction of the stirring shaft is 1-2.

Furthermore, the heating structure is an electric heating pipe which is spirally arranged in the interlayer of the tank body; the cooling structure is a cooling pipe, and a cooling water inlet valve and a drain valve which are connected with the cooling pipe are arranged on the tank body; the cooling pipe and the electric heating pipe are spirally arranged in parallel.

Further, a temperature control switch and a display screen are also arranged on the tank body; the temperature control switch is used for controlling the heating temperature of the heating structure; the display screen is used for displaying the temperature, the heating or cooling time and the motor rotating speed inside the tank body; a lifting motor control switch and a stirring motor control switch are arranged on the supporting plate, and the lifting motor control switch is used for controlling the starting and stopping and speed regulation of the lifting motor; the stirring motor control switch is used for controlling the starting and the stopping of the stirring motor and the speed regulation.

Furthermore, an observation window and a pressure release valve are arranged on the tank cover, and the lifting motor and the stirring motor are both positive and negative rotating motors.

Furthermore, the bottom of the slurry outlet is slightly lower than the bottom surface of the interior of the tank body, so that materials in the tank body can be discharged completely through the slurry outlet lower than the bottom of the tank body.

The method for cooking, pulping and stirring by using the cooking, pulping and stirring all-in-one machine comprises the following steps:

(1) starting a lifting motor to rotate positively, and when the tank cover is driven to move upwards to a proper position through a lifting plate, opening the tank cover to a position convenient for adding raw and auxiliary materials into the tank body at the proper position to lock the tank cover; closing the lifting motor; at the moment, the tank body is in an open state, and feeding operation is carried out from the upper part of the tank body; starting a lifting motor to rotate positively, unlocking the tank cover and closing the lifting motor;

(2) starting the lifting motor to rotate reversely, and closing the lifting motor after the tank cover is lowered to be tightly contacted with the tank body;

(3) setting temperature and time parameters of a cooking process according to the cooking temperature and time requirements required by the cooking process, and simultaneously turning on a temperature control switch to enable the heating structure to enable the inner wall of the tank body to reach a specified temperature, so as to provide a high-temperature environment for the interior of the tank body and perform the hawthorn cooking process;

(4) after the cooking process is finished, opening a pressure release valve on the tank cover to exhaust steam, and simultaneously cooling the inner wall of the tank body through a cooling structure;

(5) stopping cooling after the temperature of the inner wall of the tank body is reduced by the temperature required by the pulping process, observing the slurry state in the tank body through an observation window, setting the stirring temperature and the pulping time, and adjusting the power of a stirring motor to carry out the pulping and stirring process;

(6) after the pulping process is finished, the pulp discharging port is opened, the stirring motor rotates reversely, and pulp can be discharged quickly through the movement of the paddle.

Further, the specific process of locking and unlocking the tank cover in the step (1) is as follows: when the lifting motor drives the tank cover to rise to a proper position, the positioning rod is rotated, the free end of the positioning rod is clamped between the two teeth of the rack, the tank cover is locked, and the lifting motor is turned off; after the feeding operation is completed, the lifting motor is started to rotate positively, upward acting force is exerted on the tank cover, the positioning rod rotates reversely to the lifting plate, the positioning rod is fixed through the hook arranged on the lifting plate, the tank cover is unlocked, and then the lifting motor is closed.

Further, in the process of performing the hawthorn cooking procedure in the step (3), if the volume of the tank body is small, the temperature difference between the materials is relatively small, and a stirring structure does not need to be started; when the tank body is large in size, the materials are difficult to be heated uniformly, and a stirring motor needs to be started to stir at a low speed, so that the materials are heated uniformly.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses an all-in-one adopts on being fixed in the cover lifter plate, utilizes the relative motion that the lifter plate produced for the backup pad for the cover is relative movement about the jar body produces, realizes opening, the closed action of the jar body, is convenient for uncap reinforced, seal operations such as boiling, making beating, stirring.

2. The utility model discloses an all-in-one machine adopts and fixes the rack in the backup pad, sets up the gear that meshes mutually with the rack in the lifter plate, and set up elevator motor and counter weight with gear coaxial coupling respectively in the both sides of lifter plate, through controlling the positive and negative rotation of elevator motor, thereby drive the elevating movement of lifter plate relative to the backup pad, adopt the driven mode of gear and rack meshing, be favorable to improving the stability of lifter plate motion; the adoption sets up the counter weight with elevator motor matched with in the backup pad, avoids the lifter plate to produce the yawing force in the elevating movement in-process, further improves the stability of lifter plate motion.

3. The utility model discloses an all-in-one machine adopts and is fixed with the auxiliary wheel with backup pad normal running fit in the lifter plate, and the auxiliary wheel is used for improving the smoothness nature of lifter plate relative to the motion of backup pad, simultaneously, through set up the auxiliary wheel in the lifter plate, plays limiting displacement to the gear, improves the degree of meshing of gear and rack, avoids backup pad and lifter plate to produce the transverse relative motion, and causes the clearance between gear and rack too big and produce the smooth tooth phenomenon; in addition, the two ends of the auxiliary wheel are respectively provided with a circular truncated cone extending along the radial direction of the auxiliary wheel, the circular truncated cones at the two ends of the auxiliary wheel are respectively positioned at the two sides of the supporting plate, the lifting plate is limited by the supporting plate fixed on the base, the lifting plate and the supporting plate are prevented from producing lateral relative motion, the tank cover is prevented from producing relative displacement in the horizontal direction relative to the tank body, and the closing and sealing of the tank cover and the tank body are not facilitated.

4. The utility model adopts the structure that the positioning rod is arranged on the lifting plate, one end of the positioning rod is rotationally connected with the lifting plate, the other end of the positioning rod is a free end, and the lifting plate is provided with a hook matched with the free end of the positioning rod; after the positioning rod rotates relative to the lifting plate, the free end of the positioning rod is clamped between two adjacent teeth on the rack and used for limiting the downward movement of the lifting plate; when the tank cover needs to be opened, the lifting motor is controlled to rotate, so that the tank cover integrally connected with the lifting plate is driven to rise, when the tank cover rises to a proper position, the positioning rod on the lifting plate is rotated to enable the free end of the positioning rod to be clamped on the rack, and therefore the lifting plate is limited, namely the tank cover is limited, and the tank cover is prevented from falling downwards when the lifting motor is closed; meanwhile, continuous rotation of the lifting motor is avoided, and energy consumption is saved.

5. The utility model adopts a bending structure, so that the paddle drives the slurry to move upwards when rotating clockwise, thereby facilitating pulping; when the paddle rotates anticlockwise, the slurry is driven to move downwards, and the slurry discharge port is opened, so that rapid slurry discharge is facilitated; the utility model adopts the technical scheme that the paddle is detachably fixed on the stirring shaft, which is convenient for the disassembly, cleaning, replacement and maintenance of the paddle; the adoption of multiple layers of blades arranged along the axial direction of the stirring shaft is beneficial to uniform pulping and quick pulp discharge.

To sum up, the utility model discloses an all-in-one will cook, make beating and stirring technology go on in same device, and the cover adopts the mode of automatic lift, has not only simplified the process, improves the convenience of operation, avoids the material to shift and produce the loss between different processes simultaneously.

Drawings

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

FIG. 2 is a schematic structural view of the closed state of the tank cover of the present invention;

FIG. 3 is a perspective view of the present lifter plate structure;

FIG. 4 is a schematic view of an auxiliary wheel structure;

FIG. 5 is a schematic view of a stirring structure;

FIG. 6 is a schematic view of the internal structure of the can body;

FIG. 7 is a schematic view of a detachable stirring structure.

In the figure: 1. a base; 2. a tank body; 3. a can lid; 4. a support plate; 5. a lifting plate; 6. a stirring motor; 7. a stirring structure; 71. a stirring shaft; 72. a paddle; 73 through holes; 74. a pin; 8. a slurry discharge valve; 81. a pulp discharge port; 9. a rack; 10. a gear; 11. a lifting motor; 12. balancing weight; 13. an auxiliary wheel; 131. a circular truncated cone; 14. positioning a rod; 15. hooking; 16. a display screen; 17. a temperature control switch; 18. a lifting motor control switch; 19. a stirring motor control switch; 20. a pressure relief valve; 21. a water inlet valve; 22. a drain valve; 23. and (4) an observation window.

Detailed Description

Example 1

A stewing, pulping and stirring integrated machine is shown in figures 1 and 2 and comprises a base 1, a tank body 2 is fixed on the base 1, a tank cover 3 is arranged on the tank body 2, an observation window 23 and a pressure release valve 20 are arranged on the tank cover 3, and a sealing ring matched with the tank body 2 is further arranged on the tank cover 3. The tank body 2 is of an interlayer structure, and a heating structure and a cooling structure are arranged in the interlayer of the tank body 2; a stirring motor 6 is fixed on the upper part of the tank cover 3, the stirring motor 6 is a forward and reverse rotating motor, and a stirring structure 7 fixedly connected with a rotating shaft of the stirring motor 6 is arranged on the lower part of the tank cover 3; the bottom of the tank body 2 is provided with a pulp discharging port 81. The heating structure is arranged in the interlayer of the tank body 2, so that the interior of the tank body 2 can be conveniently heated, and materials in the tank body 2 can be heated and cooked; the tank cover 3 is provided with a pressure release valve 20, and the pressure in the tank body 2 after being cooked is released through the pressure release valve 20; the tank cover 3 is provided with a stirring structure 7, and when the pressure in the tank body 2 is in a safe range after the cooking is finished, the stirring structure 7 is utilized to carry out pulping and stirring on the material in the tank body 2; the bottom of the tank body 2 is provided with a pulp outlet 81, the pulp outlet 81 is provided with a pulp outlet valve 8, and the material after uniform pulping is discharged through the pulp outlet 81 by opening the pulp outlet valve 8.

The utility model discloses the device is gone on in same device with three processes of cooking, making beating, stirring among the processing technology process of hawthorn goods, has simplified the process, has reduced the loss that the material shifted between the process.

The base 1 is also fixedly provided with a lifting structure, the lifting structure comprises a supporting plate 4 fixed on the base 1, a rack 9 is fixed on the supporting plate 4, the supporting plate 4 is sleeved with a lifting plate 5, and the supporting plate 4 is used for bearing the pressure of the lifting plate 5 in each direction so as to prevent the rack 9 from being deformed when being pressed; the lifting plate 5 is structured as shown in fig. 3, one end of the lifting plate 5 is connected with the supporting plate 4 in a sliding way, and the other end is connected with the tank cover 3 in an integrated way; a gear 10 meshed with the rack 9 is fixed in the lifting plate 5, a lifting motor 11 and a counterweight 12 are respectively fixed on two sides of the lifting plate 5, the lifting motor 11 is a forward and reverse rotating motor, and a rotating shaft of the lifting motor 11 penetrates through the lifting plate 5 and the gear 10 to be connected with the counterweight 12; the rotating shaft of the lifting motor 11 is rotationally connected with the lifting plate 5 and the counterweight 12 and is fixedly connected with the gear 10. A lifting motor control switch 18 and a stirring motor control switch 19 are arranged on the supporting plate 4, and the lifting motor control switch 18 is used for controlling the opening and closing and speed regulation of the lifting motor 11; the stirring motor control switch 19 is used for controlling the on-off and speed regulation of the stirring motor 6.

The adoption sets up cover 3 and lifter plate 5 integration, utilizes lifter plate 5 for the relative motion that backup pad 4 produced for cover 3 produces relative movement from top to bottom for jar body 2, realizes opening, the closed action of jar body 2, is convenient for uncap reinforced, seal operation such as boiling, making beating, stirring.

The lifting motor 11 is controlled to rotate forwards and backwards so as to drive the lifting plate 5 to move up and down relative to the supporting plate 4, and the gear 10 and the rack 9 are in meshed transmission, so that the movement stability of the lifting plate 5 is improved; the adoption sets up counter weight 12 with elevator motor 11 matched with on backup pad 4, avoids lifter plate 5 to produce the yawing force in the elevating movement in-process, further improves the stability of lifter plate 5 motion.

The lifting structure further comprises an auxiliary wheel 13 fixed in the lifting plate 5, as shown in fig. 4, two ends of a rotating shaft of the auxiliary wheel 13 are rotatably connected with the lifting plate 5; the auxiliary wheel 13 is in running fit with the support plate 4; the two ends of the auxiliary wheel 13 are respectively provided with a circular truncated cone 131 extending along the radial direction, and the circular truncated cones 131 are respectively positioned at the two sides of the supporting plate 4. The auxiliary wheel 13 is used for improving the moving fluency of the lifting plate 5 relative to the supporting plate 4, meanwhile, the auxiliary wheel 13 is arranged in the lifting plate 5, so that the limiting effect on the gear 10 is achieved, the meshing degree of the gear 10 and the rack 9 is improved, and the phenomenon that the gap between the gear 10 and the rack 9 is too large to generate the sliding tooth phenomenon due to the fact that the supporting plate 4 and the lifting plate 5 generate the transverse relative movement is avoided; in addition, both ends of the auxiliary wheel 13 are provided with round platforms 131 which extend along the radial direction, the round platforms 131 at both ends of the auxiliary wheel 13 are respectively positioned at both sides of the supporting plate 4, the lifting plate 5 is limited by the supporting plate 4 fixed on the base 1, the lifting plate 5 and the supporting plate 4 are prevented from generating lateral relative motion, the tank cover 3 is prevented from generating relative displacement in the horizontal direction relative to the tank body 2, and the closing and sealing of the tank cover 3 and the tank body 2 are not facilitated.

A positioning rod 14 is arranged on the lifting plate 5, and one end of the positioning rod 14 is rotatably connected with the lifting plate 5; the other end of the positioning rod 14 is a free end; the lifting plate 5 is provided with a hook 15 matched with the free end of the positioning rod 14; after the positioning rod 14 rotates relative to the lifting plate 5, the free end of the positioning rod is clamped between two adjacent teeth of the rack 9, so that the lifting plate 5 is limited to move downwards. When the tank cover 3 needs to be opened, the lifting motor 11 is controlled to rotate, so that the tank cover 3 integrally connected with the lifting plate 5 is driven to ascend, when the tank cover 3 ascends to a position convenient for adding raw and auxiliary materials into the tank body, the positioning rod 14 on the lifting plate 5 is rotated to the free end of the positioning rod to be clamped on the rack 9, and therefore the lifting plate 5 is limited, namely the tank cover 3 is limited, and the tank cover 3 is prevented from sliding downwards when the lifting motor 11 is closed; meanwhile, continuous rotation of the lifting motor 11 is avoided, and energy consumption is saved.

The stirring structure 7 is shown in fig. 5 and comprises a stirring shaft 71 fixedly connected with a rotating shaft of the motor, and a blade 72 is fixed at the bottom end of the stirring shaft 71; the paddle 72 is of a bending structure and comprises a horizontal part and a bending part, the bending angle between the horizontal part and the bending part is 10-60 degrees, preferably 35 degrees, and a through hole 73 is formed in the bending part, so that slurry can flow at a high speed conveniently, and the rotation resistance of the stirring shaft 71 is reduced. The blades 72 are uniformly arranged in the circumferential direction of the stirring shaft 71, the number of layers of the blades 72 arranged in the axial direction of the stirring shaft 71 is two, the bending directions of the two layers of blades 72 arranged in the axial direction of the stirring shaft 71 are opposite, and the blades arranged in opposite directions are beneficial to improving the pulping efficiency; the blades 72 with the bent structures are adopted, so that the blades 72 can drive the pulp to move upwards when rotating clockwise, and pulping is facilitated; when the paddle 72 rotates anticlockwise, the slurry is driven to move downwards, and the slurry discharge port 81 is opened, so that rapid slurry discharge is facilitated; the paddles 72 are arranged in multiple layers along the axial direction of the stirring shaft 71, so that uniform beating and rapid pulp discharging are facilitated.

The can cover 3 can be provided with a locking structure (not shown) matched with the can body 2; the locking structure can adopt the existing known locking structure, for example, the locking structure comprises a locking rod fixed on the tank body 2 and a locking hole fixed on the tank cover 3, and the locking rod passes through the locking hole and is used for locking the tank body 2 and the tank cover 3 after rotating. Under the drive of the lifting motor 11, after the tank cover 3 is tightly contacted with the tank body 2, the tank body 2 and the tank cover 3 are further locked by using the locking structure, which is beneficial to improving the sealing performance of the tank body 2 and the tank cover 3 and preventing steam leakage in the steaming process.

The heating structure in the interlayer of the tank body 2 is an electric heating pipe which is spirally arranged in the interlayer of the tank body 2; the cooling structure is a cooling pipe, and a cooling water inlet valve 21 and a drain valve 22 which are connected with the cooling pipe are arranged on the tank body 2; the cooling pipe and the electric heating pipe are spirally arranged in parallel. After the cooking, pulping and stirring processes of the tank body 2 are finished, cooling water is introduced into the cooling pipe through the water inlet valve 21 and is discharged through the water discharge valve 22, and the inner wall of the tank body 2 is cooled by using the circulating cooling water.

The tank body 2 is also provided with a temperature control switch 17 and a display screen 16; the temperature control switch 17 is used for controlling the heating temperature of the heating structure, and the display screen 16 is used for displaying the temperature and the heating or cooling time inside the tank body 2.

The bottom of the slurry outlet 81 is slightly lower than the bottom surface of the interior of the tank body 2, and the slurry outlet 81 is arranged downwards relative to the bottom of the tank body, as shown in fig. 6, so that the materials in the tank body 2 can be conveniently and completely discharged through the slurry outlet 81 lower than the bottom of the tank body 2.

The working process of the device is as follows:

(1) turning on a lifting motor control switch 18 to enable a lifting motor 11 to rotate forwards, driving the tank cover 3 to move upwards to a position convenient for adding raw and auxiliary materials into the tank body through a lifting plate 5, rotating the positioning rod, clamping the free end of the positioning rod between two teeth of the rack 9, and turning off the lifting motor control switch 18; at this time, the tank body 2 is in an open state, and the cleaned wet hawthorn and ingredients are poured into the tank body 2 from the upper part of the tank body 2.

(2) And opening the lifting motor control switch 18 to enable the lifting motor 11 to rotate reversely, after the tank cover 3 is lowered to be tightly contacted with the tank body 2, further locking and sealing the tank body 2 by using the locking structures on the tank body 2 and the tank cover 3, and closing the lifting motor 11.

(3) According to the cooking temperature and time requirements required by the cooking process, the temperature control switch 17 is opened, so that the electric heating tube is electrified to heat the inner wall of the tank body 2 to a specified temperature, a high-temperature environment is provided for the interior of the tank body 2, and the hawthorn cooking process is carried out; when the volume of the tank body 2 is small, the temperature difference between the materials is relatively small, and the stirring structure 7 does not need to be started; when the tank body 2 is large in size, the materials are difficult to be heated uniformly, and the stirring motor 6 needs to be started to stir at a low speed, so that the materials are heated uniformly.

(4) The temperature and time parameters of the cooking process are set through the temperature control switch 17, and the display screen 16 on the tank body 2 displays the real-time internal temperature and cooking time of the tank body 2.

(5) After the cooking is finished, the pressure release valve 20 on the tank cover 3 is opened to exhaust steam, meanwhile, cooling water is continuously introduced into the cooling pipe through the water inlet valve 21 and is discharged through the water discharge valve 22, and the inner wall of the tank body 2 is cooled through the cooling water continuously flowing in the cooling pipe.

(6) And stopping introducing the cooling water after the temperature of the inner wall of the tank body 2 is reduced by the temperature required by the pulping process, observing the slurry state in the tank body 2 through an observation window 23, setting the stirring temperature and the pulping time, and adjusting the power of the stirring motor 6 to carry out the pulping and stirring process.

(7) After the pulping process is finished, the pulp outlet 81 is opened, the stirring motor 6 rotates reversely, and pulp can be discharged quickly through the movement of the paddle 72.

Example 2

The device is different from the embodiment 1 only in that the structure of the paddle is shown in FIG. 7, and the paddle 72 is detachably connected with the stirring shaft 71 through a pin 74; the paddle 72 is detachably arranged, so that the paddle 72 can be conveniently taken down for maintenance operations such as cleaning and replacement.

Claims (7)

1. A stewing, pulping and stirring integrated machine comprises a base, wherein a tank body is fixed on the base, and a tank cover is arranged on the tank body; the automatic bottle opener is characterized in that a lifting structure is further fixed on the base, and the bottle cover is fixed on the lifting structure; the tank body is of an interlayer structure, and a heating structure and a cooling structure are arranged in an interlayer of the tank body; a stirring motor is fixed on the upper part of the tank cover, and a stirring structure fixedly connected with a rotating shaft of the stirring motor is arranged on the lower part of the tank cover; the bottom of the tank body is provided with a slurry discharging port.

2. The integrated machine for cooking, pulping and stirring as claimed in claim 1, wherein the lifting structure comprises a supporting plate fixed on the base and a lifting plate connected to the supporting plate in a sliding manner, and the other end of the lifting plate is integrally connected with the tank cover; the lifting structure also comprises a rack fixed on the supporting plate, a gear meshed with the rack is fixed in the lifting plate, a lifting motor and a balance weight coaxially connected with the gear are respectively arranged on two sides of the lifting plate, and a rotating shaft of the lifting motor penetrates through the lifting plate and the gear to be connected with the balance weight; the rotating shaft of the lifting motor is rotatably connected with the lifting plate and the balance weight and fixedly connected with the gear.

3. The integrated machine of cooking, pulping and stirring as claimed in claim 2, wherein the lifting structure further comprises an auxiliary wheel fixed in the lifting plate, and two ends of a rotating shaft of the auxiliary wheel are rotatably connected with the lifting plate; round platforms extending along the radial direction are arranged at two ends of the auxiliary wheel and are respectively positioned at two sides of the supporting plate; the auxiliary wheel is in running fit with the supporting plate.

4. The integrated machine of claim 3, wherein a positioning rod is arranged on the lifting plate, and one end of the positioning rod is rotatably connected with the lifting plate; the other end of the positioning rod is a free end; the lifting plate is provided with a hook matched with the free end of the positioning rod.

5. The integrated machine of claim 4, wherein the stirring structure comprises a stirring shaft fixedly connected with a rotating shaft of a motor, and blades are fixed at the bottom end of the stirring shaft; the paddle is of a bending structure and comprises a horizontal portion and a bending portion, and a through hole is formed in the bending portion.

6. The integrated machine of steaming, pulping and stirring according to claim 5, wherein the heating structure is an electric heating tube, and the electric heating tube is spirally arranged in the interlayer of the tank body; the cooling structure is a cooling pipe, and a cooling water inlet valve and a drain valve which are connected with the cooling pipe are arranged on the tank body; the cooling pipe and the electric heating pipe are spirally arranged in parallel.

7. The integrated machine of claim 6, wherein the tank cover is provided with an observation window and a pressure release valve, and the lifting motor and the stirring motor are both positive and negative rotating motors.

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