CN117085586A

CN117085586A - Mixed feeding method of core-spun chafing dish material

Info

Publication number: CN117085586A
Application number: CN202311051631.1A
Authority: CN
Inventors: 黄秋来
Original assignee: Fuzhou Lianjiang Xinbo Food Machinery Co ltd
Current assignee: Fuzhou Lianjiang Xinbo Food Machinery Co ltd
Priority date: 2023-08-21
Filing date: 2023-08-21
Publication date: 2023-11-21

Abstract

The invention relates to a mix feeding method of a core-spun hot pot seasoning, which utilizes a mix feeding structure of the core-spun hot pot seasoning, the mix feeding structure of the core-spun hot pot seasoning comprises a frame and a mixing material pipe positioned in the middle of the frame, two sides of the mixing material pipe are respectively communicated with a pulp-spun discharging pipe and a stuffing discharging pipe, stuffing discharging ports for discharging stuffing are arranged on the sides of the stuffing discharging pipe, stuffing regulating valves are arranged at the stuffing discharging ports, pulp-spun feeding ports and pulp-spun discharging ports are arranged on the pulp-spun discharging pipe, and a baffle plate is arranged at the pulp-spun discharging ports and is driven to move by a baffle plate driving mechanism.

Description

Mixed feeding method of core-spun chafing dish material

Technical Field

The invention belongs to food machinery, and particularly relates to a mixing and feeding method of a core-spun hot pot seasoning.

Background

The chafing dish material is also called "fish meat, and is prepared by using eel, shark or freshwater fish as raw material, chopping, adding sweet potato powder (starch), stirring uniformly, and packaging with pig lean meat or shrimp meat as stuffing. Production equipment related to the development of food adding machines is also gradually popularized. The patent names are as follows: the utility model provides a core-spun chafing dish material machine, the core-spun chafing dish material machine of patent application number CN201320800828.6 design can be through the inside and outside filling material respectively introduce the back and carry out extrusion molding again to satisfy similar manual chafing dish material's effect, but current relevant machinery can only realize only can realize the production of single core-spun chafing dish material, and efficiency is lower.

Disclosure of Invention

In order to solve the problems that the production efficiency of the existing hot pot seasoning production machinery is low, the hot pot seasoning cannot be supplied at multiple stations simultaneously, and the efficiency is low.

The technical scheme of the invention is as follows: a mix feeding method of core-spun chafing dish material, utilize a kind of core-spun chafing dish material to mix the feeding structure, said core-spun chafing dish material mix feeding structure include the stander and locate at the mixing tube in the middle part of the stander, the said mixing tube both sides communicate and regard as the thick liquid discharge tube of the outer thick liquid of chafing dish material and filling material discharge tube that lets in the internal filling material separately, the said filling material discharge tube lateral part has filling material discharge ports used for discharging filling material, there are filling material regulating valves in the said filling material discharge ports, there are slurry feed ports and slurry discharge ports on the said core-spun chafing dish material discharge tube, there are separation blades used for regulating the area of slurry discharge ports in the said slurry discharge ports, the said separation blade is driven by the separation blade driving mechanism to move;

the method comprises the following specific steps:

(1) An opening is arranged at the upper part of the stuffing discharging pipe, and stuffing entering the opening is regulated by a stuffing extruding regulating valve and then is input into the middle part of the mixing pipe;

(2) And (3) synchronizing with the step (1), introducing the slurry into the mixing material pipe, discharging the slurry, and coating the slurry outside the stuffing by the slurry, wherein a forming port is arranged below the mixing material pipe, and discharging the slurry through the forming port of the mixing material pipe to form the chafing dish material.

Preferably, the stuffing regulating valve comprises an outer shell, wherein the outer shell is provided with a stuffing feeding hole corresponding to a stuffing discharging hole and a stuffing extruding hole for discharging, the outer shell is internally provided with a movable valve rod, a communication hole which can be communicated with the stuffing feeding hole and the stuffing extruding hole is formed in the middle of the valve rod so as to form a stuffing extruding passage, and the valve rod moves along the axial direction so as to control the size of the section of the stuffing extruding passage.

Preferably, the baffle plate is provided with an adjusting port for allowing the package slurry passing through the package slurry discharge port to pass through, the other side of the package slurry discharge pipe corresponding to the package slurry discharge port is provided with a pushing rod extending into the package slurry discharge pipe, and the pushing rod of the package slurry discharge pipe is driven by a pushing rod driving device to reciprocate so as to extrude the slurry in the package slurry discharge pipe from the package slurry discharge port.

Preferably, the stuffing discharging pipe is internally provided with a rotatable extruding material rod, the extruding material rod and the stuffing discharging pipe are eccentrically arranged, a gap is formed between the outer surface of the extruding material rod and the inner wall of the stuffing discharging pipe, and a deflector rod is fixed in the middle of the stuffing extruding material rod;

during operation, the extrusion material rod rotates to drive the stirring rod arranged along the radial direction to rotate, and the stirring rod presses and stirs the stuffing in the gap at the upper part of the stuffing discharge pipe into the stuffing feeding port at the side part of the stuffing discharge pipe.

Preferably, the baffle driving mechanism comprises a movable rod hinged to the side part of the baffle, the movable rod is driven to move by an electric cylinder, an air cylinder or a screw-nut mechanism so as to drive the baffle to axially move along the movable rod to change and adjust the area of a pulp packing discharge port, a pulp packing discharge pipe is positioned at the pulp packing discharge port and provided with a channel embedded into the baffle, the baffle can slide along the channel, and a sealing plate is fixedly connected to the outer side of the pulp packing discharge port so as to prevent the baffle from falling out.

Preferably, the mixing material pipe is provided with a pair of mixing material cavities, and the pulp wrapping material discharging pipe and the stuffing discharging pipe are also provided with a pair, and are respectively arranged at two sides of the mixing material cavities.

Preferably, the pushing rod driving device comprises a pushing handle transversely connected with the pushing rod, a swinging fork is inserted into the upper part of the pushing handle, the swinging fork is driven to swing reciprocally by a swinging shaft, the swinging shaft is eccentrically connected with a pulp wrapping connecting rod, the lower part of the pulp wrapping connecting rod is provided with a slotted hole, the output end of a pushing motor is eccentrically and fixedly connected with a pulp wrapping crank, and the outer side end of the pulp wrapping crank is provided with a limiting piece extending into the slotted hole;

the pushing motor drives the pulp wrapping crank to rotate, the outer side end of the pulp wrapping crank is provided with a limiting piece extending into a slotted hole, further reciprocating lifting of the pulp wrapping connecting rod in the vertical direction is driven through crank rotation, the connecting rod drives the swinging shaft to swing in a reciprocating mode to drive the swinging fork to swing, the lower end of the swinging fork is provided with a long groove buckled into the pushing handle, the reciprocating swing of the swinging fork drives the pushing rod to reciprocate, the hot pot material is pushed forward once every forming, the pulp wrapping is extruded once from the pulp wrapping discharge port, and the end part of the pushing rod is arranged towards the pulp wrapping discharge port.

Preferably, the inner sleeve of the stuffing discharging pipe is provided with an adjusting sleeve positioned outside the extruding rod, the side part of the adjusting sleeve is provided with an adjusting through hole which can correspond to the stuffing discharging hole, and the outer side surface of the stuffing discharging pipe is fixedly connected with a cover plate to prevent the adjusting sleeve from falling off.

Preferably, the adjusting sleeve is fixed with the stuffing discharging pipe through the matching of the male groove and the female groove, the valve rod is driven by the valve rod driving mechanism to move along the axial direction, the extension plate is fixed at the inner side end of the valve rod, the lower part of the outer shell body is hinged with the adjusting screw, and the adjusting screw is in threaded fit with the extension plate.

Preferably, a pair of mixture cavities are arranged in the mixing material pipe corresponding to a pair of pulp wrapping and discharging pipes, inner stuffing pipes penetrate through the upper parts of the mixture cavities, inner stuffing inlets are formed in the side parts of the inner stuffing pipes, inner stuffing outlets are formed in the bottoms of the inner stuffing pipes, inner stuffing guiding pipes facing the inner stuffing inlets are arranged on the mixing material pipe, the inner stuffing guiding pipes are communicated with the stuffing extruding openings, and stuffing extruding outlets of the stuffing regulating valves.

Compared with the prior art, the invention has the following beneficial effects:

(1) According to the invention, the movable valve rod can be utilized to move in the outer shell, so that the size of the extrusion passage of the stuffing of the chafing dish is regulated, and the proportion of the stuffing in the chafing dish is further controlled, so that the production of different chafing dish varieties is realized.

(2) The invention is designed with the adjusting sleeve which is convenient to replace, and the gaps between different adjusting sleeves and the deflector rod of the extruding rod are different, so that the extruding efficiency of stuffing and the compaction degree of stuffing can be conveniently adjusted.

(3) According to the invention, the movable baffle plates are utilized to adjust the feeding of the chafing dish seasoning slurry, so that the diameter of the chafing dish seasoning is controlled or the ratio of the chafing dish seasoning to the stuffing is controlled, and the production of different chafing dish seasoning varieties is realized.

(4) The invention is designed with the pushing rod, and the pushing rod can be used for pushing the package pulp one by one, so that the accuracy of package pulp feeding of the chafing dish seasoning is ensured.

Drawings

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

FIG. 2 is a schematic diagram of a slurry-packed feed structure according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a slurry-packing discharge pipe according to an embodiment of the present invention.

FIG. 4 is a schematic diagram of a slurry-packing discharge pipe according to an embodiment of the present invention;

fig. 5 is a schematic view of a baffle structure according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a driving device for a pushing rod according to an embodiment of the present invention.

FIG. 7 is a schematic diagram of a stuffing feeding structure according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a regulating valve according to an embodiment of the invention.

FIG. 9 is a second schematic diagram of a regulating valve according to an embodiment of the present invention;

fig. 10 is a schematic view of a valve rod structure of an adjusting valve according to an embodiment of the present invention.

FIG. 11 is a schematic view of a structure of a filling discharge tube and an adjusting sleeve according to an embodiment of the present invention.

In the figure: 10-packing slurry discharge pipes, 110-packing slurry feed inlets, 120-packing slurry discharge holes, 121-channels, 122-sealing plates, 130-pushing rods, 131-pushing handles, 132-swinging forks, 133-swinging shafts, 134-packing slurry connecting rods, 135-slots, 136-pushing motors, 137-packing slurry cranks, 140-packing slurry hoppers, 20-baffle plates, 210-moving rods and 220-electric cylinders. 30-stuffing discharge pipe, 310-stuffing discharge port, 320-extrusion rod, 321-deflector rod, 330-adjusting sleeve, 331-cover plate, 340-stuffing hopper, 40-stuffing adjusting valve, 410-outer shell, 411-stuffing feed port, 412-stuffing extrusion port, 420-valve rod, 421-communication hole, 422-extension plate, 430-adjusting screw, 50-mixing pipe, 510-stuffing introduction pipe, 60-stuffing pipe, 602-pushing rod, 620-stuffing inlet, 630-stuffing outlet,

Detailed Description

The invention will now be described in detail with reference to the drawings and to specific embodiments.

Referring to fig. 1-11, a method for mixing and feeding a core-spun hot pot seasoning comprises a frame and a mixing material pipe 50 positioned in the middle of the frame, wherein two sides of the mixing material pipe are respectively communicated with a pulp-spun discharging pipe 10 serving as outer pulp of the hot pot seasoning and a stuffing discharging pipe 30 for introducing internal stuffing, a stuffing discharging port 310 for discharging stuffing is formed in the side part of the stuffing discharging pipe 30, an opening for entering the stuffing is formed in the top of the stuffing discharging pipe 30, a stuffing regulating valve 40 is arranged at the stuffing discharging port, a pulp-spun feeding port 110 and a pulp-spun discharging port 120 are formed in the pulp-spun discharging pipe, a baffle 20 for regulating the area of the pulp-spun discharging port is formed in the pulp-spun discharging port 120, and the baffle 20 is driven to move by a baffle driving mechanism.

The method comprises the following specific steps:

In this embodiment, the filling adjusting valve includes an outer casing 410, which has a filling inlet 411 corresponding to the filling outlet 310 and a filling extrusion outlet 412 for discharging, and a movable valve rod 420, in which a communication hole 421 capable of communicating with the filling inlet and the filling extrusion outlet is formed in the middle of the valve rod to form a filling extrusion passage, and the valve rod 420 moves axially to control the size of the cross section of the filling extrusion passage.

In this embodiment, the stuffing outlet 310 in the stuffing adjusting valve 40 is in communication with the stuffing outlet 310, so as to facilitate the stuffing to enter the stuffing adjusting valve 40 after being discharged from the stuffing discharging pipe 30. The number of the stuffing extrusion openings 412 is two, and the stuffing extrusion openings 412 are mainly used for synchronously producing two chafing dish materials at the same time, so that the number of the stuffing extrusion openings 412 can be increased and reduced according to the requirement.

The valve rod 420 and the shell body can be in sliding fit, the communication hole 421 can be used for controlling the aperture of the filling extrusion opening 412, and the size of the communication part between the communication hole 421 and the filling extrusion opening 412 is controlled by moving the valve rod 420, so that the size of the cross section of the filling extrusion passage is controlled.

In the embodiment of the present invention, only the valve stem 420 needs to be moved when the position of the valve stem 420 needs to be adjusted, and the manner of implementing the valve stem driving mechanism can be manual movement, and the valve stem driving mechanism is an electric cylinder, an air cylinder or a hydraulic cylinder. When an electric cylinder, an air cylinder or a hydraulic cylinder is adopted, the valve rod 40 can be fixedly connected with the telescopic end of the mechanism, and a relative buckle, a scale or a limiting structure can be designed on the surface of the outer shell 30 manually, so that the control of operators is facilitated.

In this embodiment, the size of the communicating hole 421 may be a single through hole for controlling uniformity and size of the two filling extruding outlets, and the size of the filling may be adjusted by the staggered communicating hole 421 and the filling extruding outlet 412 according to the position and size of the filling extruding outlet 412.

In an embodiment of the present invention, as shown in the drawing, the inner end of the valve rod 420 is fixed with an extension plate 422, the lower part of the outer housing is hinged with an adjusting screw 430, the adjusting screw is in threaded fit with the extension plate, in this embodiment, the adjusting screw 430 may be hinged with the outer housing through a bearing, the adjusting screw 430 and the extension plate 422 are in threaded fit to form a screw-nut mechanism, and when the adjustment is needed, the adjusting screw 430 is rotated to drive the movement of the valve rod 420, so as to achieve the adjustment.

In actual use, the valve stem 420 can be replaced as desired.

In an embodiment of the present invention, the extrusion material rod 320 capable of rotating is disposed in the filling material discharging tube 30, the extrusion material rod 320 is eccentrically disposed with the filling material discharging tube 30, a gap is disposed between the outer surface of the extrusion material rod and the inner wall of the filling material discharging tube, and a deflector rod 321 is fixed in the middle of the filling material extrusion material rod.

In this embodiment, the extrusion rod 320 is driven to rotate by a motor, and in practical design, the extrusion rod 320 may be driven to rotate by other transmission modes, and the extrusion rod 320 rotates to drive the driving rod 321 arranged along the radial direction to rotate, and the driving rod 321 presses and drives the stuffing in the gap on the upper portion of the stuffing discharge pipe 30 into the stuffing feeding hole 411 on the side portion of the stuffing discharge pipe 30.

In an embodiment of the present invention, the inner sleeve of the filling discharging tube is provided with an adjusting sleeve 330 positioned outside the extruding rod, the side portion of the adjusting sleeve 330 is provided with an adjusting through hole corresponding to the filling discharging hole, and the opening of the adjusting sleeve 330, which is the same as the opening of the upper portion of the filling discharging tube 30, ensures that the filling enters the inner cavity of the adjusting sleeve 330.

The adjusting sleeve 330 is matched and fixed with the stuffing discharging pipe 30 through a male groove and a female groove. The gap is formed between the adjusting sleeve 330 and the extrusion rod 320, and the outer side surface of the filling discharging pipe is fixedly connected with a cover plate 331 to prevent the adjusting sleeve from falling out.

The structure can conveniently change the adjusting sleeve 330, and the gap between the adjusting sleeve 330 and the deflector rod 321 of the extrusion rod is different, so that the adjusting sleeve 330 can be changed as required, and the extrusion efficiency of stuffing and the compaction degree of stuffing can be adjusted.

During operation, the upper part of the filling discharging pipe is communicated with the filling hopper 340, the filling hopper 340 is internally provided with a filling stirring paddle driven by a stirring motor to rotate, the lower part of the filling hopper is communicated with the upper part of the filling discharging pipe 30, and filling entering from the upper opening of the filling discharging pipe 30 is discharged to the filling regulating valve 40 at the side part through the extruding rod 320 and then is discharged by the regulating valve 40.

In this embodiment, two pulp wrapping and discharging ports 120 of the pulp wrapping and discharging pipe are provided, and the number of pulp can be actually designed according to the requirement, and the pulp output by the pulp wrapping and discharging ports 120 is used as the outer skin of the chafing dish, and then the chafing dish is formed one by cutting the stuffing into the inner parts.

As shown in fig. 6, in an embodiment of the present invention, the blade driving mechanism includes a moving rod 210 hinged to a side portion of the blade, and an electric cylinder 220 is fixed on the rear side of the moving rod, and the blade 20 is driven by the electric cylinder to move axially along the moving rod to change and adjust the area of the pulp discharge port 120.

In actual design, the moving rod 210 can be driven to move by manual or screw nut, air cylinder and other modes, so that the baffle 20 with the area of the discharge hole can be moved.

The baffle plate is provided with an adjusting port 201 for passing the packing slurry passing through the packing slurry discharge port. When the adjusting port 201 is located in the middle of the two pulp packaging discharge ports 120, the two discharge ports 120 can be evenly discharged, the two pulp packaging discharge ports 120 are approximately consistent in discharge, if the position of the baffle 20 is moved, different extrusion sizes of the two pulp packaging discharge ports 120 can be realized, and the change of the diameter particles of the chafing dish can be realized.

In addition, the two ladle slurry discharge ports 120 can be reduced by changing the gear shifting sheet 20, so that the effect of simultaneously adjusting the size of the hot pot seasoning particles can be achieved.

In this embodiment, a pushing rod 130 extending into the pulp-packing discharge pipe is disposed on the other side of the pulp-packing discharge pipe corresponding to the pulp-packing discharge port, and the pushing rod of the pulp-packing discharge pipe is driven by a pushing rod driving device to reciprocate so as to extrude the pulp in the pulp-packing discharge pipe from the pulp-packing discharge port 120.

In the above embodiment, in order to better fix the position of the baffle 20, the slurry packing discharge pipe is provided with a slot 121 embedded in the baffle at the slurry packing discharge port 120, the baffle 20 can slide along the slot 121, and a sealing plate 122 is fixedly connected to the outer side of the slurry packing discharge port to prevent the baffle 20 from falling out.

When the pushing rod 130 pushes the hot pot seasoning forward once every forming time, the package pulp is extruded once from the package pulp discharge port 120, the end part of the pushing rod 130 is arranged towards the package pulp discharge port, and each package pulp discharge port is correspondingly provided with a pushing rod 130. Typically, each of the pusher bars 130 is operated in synchronization.

In an embodiment of the present invention, the pushing rod driving device includes a pushing handle 131 transversely connected to the pushing rod 130, a swinging fork 132 is inserted into the upper portion of the pushing handle, the swinging fork 132 is driven to swing reciprocally by a swinging shaft 133, the swinging shaft is eccentrically connected to a pulp wrapping connecting rod 134, a slot hole 135 is formed in the lower portion of the pulp wrapping connecting rod, an output end of a pushing motor 136 is eccentrically and fixedly connected to a pulp wrapping crank 137, and a limiting member extending into the slot hole 135 is formed at an outer end of the pulp wrapping crank 137.

When the device works, the pushing motor 136 drives the pulp wrapping crank 137 to rotate, the outer side end of the pulp wrapping crank 137 is provided with a limiting piece extending into the slotted hole 135, further, the crank 137 rotates to drive the pulp wrapping connecting rod 134 to reciprocate in the vertical direction, the connecting rod 134 pulls the swinging shaft 133 to drive the swinging fork 132 to swing, the lower end of the swinging fork is provided with a long slot buckled into the pushing handle 131, and the swinging fork 132 swings to reciprocate to drive the pushing rod 130 to reciprocate.

In an embodiment of the present invention, a slurry packing hopper 140 is fixedly connected above the slurry packing feeding port, the slurry packing hopper is in a funnel shape with a big top and a small bottom, a spiral slurry packing stirring blade driven by a stirring device is arranged in the slurry packing hopper, and the spiral inner diameter of the slurry packing stirring blade is gradually increased.

The pulp-packing material falling from the pulp-packing hopper 140 enters the pulp-packing feed port 110 and is pushed out from the pulp-packing discharge port 120 by the pushing rod 130. The pushing rod 130 and the slurry packing and discharging pipe are provided with guide sleeves matched with each other so as to ensure the stability of the pushing rod 130 in the moving process.

The utility model provides a mix feeding mechanism of core-spun chafing dish material, includes mixture pipe 50 and a pair of thick liquid row material pipe 10 that communicate with the mixture pipe, a pair of mixture chamber is equipped with to a pair of thick liquid row material pipe that corresponds in the mixture pipe, and each mixture chamber upper portion runs through has interior filling pipe 60, and the lateral part of interior filling pipe has interior filling import 620, and the bottom of interior filling pipe has interior filling export 630, have the interior filling induction pipe 510 towards interior filling import on the mixture pipe 50, interior filling induction pipe communicates through pipeline and filling extrusion export 412, is used for the hot pot material of shaping different sizes respectively, and each mixture chamber communicates with thick liquid row material pipe 10, and thick liquid row material pipe 10 is used for letting in the outside thick liquid that becomes the chafing dish material crust, and the lateral part of interior filling pipe has interior filling import 620, and the bottom of interior filling pipe has interior filling export 630, and interior filling import 620 then is used for the interior filling of chafing dish material that lets in, and interior filling parcel is discharged from the mixture chamber lower part after mixing, gets into the cutting procedure and cuts off and forms the fish ball.

The invention described above, if it discloses or relates to components or structures fixedly connected with each other, then unless otherwise stated, the fixedly connected structure is understood as: detachably fixed connection (e.g. using bolts or screws) can also be understood as: the non-detachable fixed connection (e.g. riveting, welding), of course, the mutual fixed connection may also be replaced by an integral structure (e.g. integrally formed using a casting process) (except for obviously being unable to use an integral forming process).

In addition, terms used in any of the above-described aspects of the present disclosure to express positional relationship or shape have meanings including a state or shape similar to, similar to or approaching thereto unless otherwise stated.

Any part provided by the invention can be assembled by a plurality of independent components, or can be manufactured by an integral forming process.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. The method is characterized in that a sandwich hot pot material mixed feeding structure is utilized, the sandwich hot pot material mixed feeding structure comprises a frame and a mixing material pipe positioned in the middle of the frame, two sides of the mixing material pipe are respectively communicated with a pulp wrapping discharge pipe serving as outer pulp of the hot pot material and a filling material discharge pipe leading in internal filling materials, a filling material discharge port used for discharging filling materials is arranged at the side part of the filling material discharge pipe, a filling material regulating valve is arranged at the filling material discharge port, a pulp wrapping feeding port and a pulp wrapping discharge port are arranged on the pulp wrapping discharge pipe, a baffle plate used for regulating the area of the pulp wrapping discharge port is arranged at the pulp wrapping discharge port, and the baffle plate is driven to move by a baffle plate driving mechanism;

the method comprises the following specific steps:

2. The method according to claim 1, wherein the filling adjusting valve comprises an outer shell, the outer shell is provided with a filling feed inlet corresponding to a filling discharge port and a filling extrusion port for discharging, the outer shell is provided with a movable valve rod, a communication hole which can be communicated with the filling feed inlet and the filling extrusion port is formed in the middle of the valve rod in a penetrating way, and the valve rod moves along the axial direction to control the size of the cross section of the filling extrusion passage.

3. The method for mixing and feeding the core-spun chafing dish seasoning according to claim 2, wherein the baffle plate is provided with an adjusting port for allowing the coating paste passing through the coating paste discharge port to pass through, the other side of the coating paste discharge pipe corresponding to the coating paste discharge port is provided with a coating paste discharge pipe pushing rod which extends into the coating paste discharge pipe, and the coating paste discharge pipe pushing rod is driven by a pushing rod driving device to reciprocate so as to extrude the paste in the coating paste discharge pipe from the coating paste discharge port.

4. The method for mixing and feeding the core-spun chafing dish seasoning according to claim 1 or 2, wherein a rotatable extrusion material rod is arranged in the stuffing discharge pipe, the extrusion material rod and the stuffing discharge pipe are eccentrically arranged, a gap is arranged between the outer surface of the extrusion material rod and the inner wall of the stuffing discharge pipe, and a deflector rod is fixed in the middle of the stuffing extrusion material rod;

5. The method for mixing and feeding the core-spun chafing dish seasoning according to claim 3, wherein the baffle driving mechanism comprises a moving rod hinged to the side part of the baffle, the moving rod is driven to move by an electric cylinder, an air cylinder or a screw-nut mechanism to drive the baffle to axially move along the moving rod to change and adjust the area of a pulp-spun discharging hole, a channel embedded in the baffle is arranged at the pulp-spun discharging hole of the pulp-spun discharging pipe, the baffle can slide along the channel, and a sealing plate is fixedly connected to the outer side of the pulp-spun discharging hole to prevent the baffle from falling out.

6. The method of claim 3, wherein the mixing tube has a pair of mixing chambers, and the slurry-coating discharging tube and the filling discharging tube also have a pair, respectively disposed at two sides of the mixing chambers.

7. The method for mixing and feeding the core-spun chafing dish seasoning according to claim 3, wherein the pushing rod driving device comprises a pushing handle transversely connected with the pushing rod, a swinging fork is inserted into the upper part of the pushing handle, the swinging fork is driven to swing reciprocally by a swinging shaft, the swinging shaft is eccentrically connected with a pulp-spun connecting rod, a slotted hole is arranged at the lower part of the pulp-spun connecting rod, the output end of a pushing motor is eccentrically and fixedly connected with a pulp-spun crank, and the outer side end of the pulp-spun crank is provided with a limiting piece extending into the slotted hole;

8. The method for mixing and feeding the core-spun chafing dish according to claim 2, wherein an adjusting sleeve is sleeved in the stuffing discharging pipe and positioned outside the extruding rod, an adjusting through hole which can correspond to the stuffing discharging hole is formed at the side part of the adjusting sleeve, and a cover plate is fixedly connected to the outer side surface of the stuffing discharging pipe so as to prevent the adjusting sleeve from falling off.

9. The method for mixing and feeding the core-spun chafing dish seasoning according to claim 3, wherein the adjusting sleeve is matched and fixed with the stuffing discharging pipe through a male groove and a female groove, the valve rod is driven by the valve rod driving mechanism to move along the axial direction, an extending plate is fixed at the inner side end of the valve rod, an adjusting screw is hinged to the lower portion of the outer shell, and the adjusting screw is in threaded fit with the extending plate.

10. A method for mixing and feeding a core-spun chafing dish according to claim 3, wherein a pair of mixing material cavities are arranged in the mixing material pipe corresponding to a pair of pulp-spun discharging pipes, an inner stuffing pipe penetrates through the upper part of each mixing material cavity, an inner stuffing inlet is arranged on the side part of the inner stuffing pipe, an inner stuffing outlet is arranged at the bottom of the inner stuffing pipe, an inner stuffing guiding pipe facing the inner stuffing inlet is arranged on the mixing material pipe, the inner stuffing guiding pipe is communicated with the stuffing extruding opening, and a stuffing extruding opening of the stuffing regulating valve is arranged on the mixing material pipe.