CN210580938U - Machine set for producing powder rolls - Google Patents

Abstract

The utility model provides a production powder book's unit, according to material movement path, the material is in proper order through powder book make-up machine, slitter, drying-machine. Through additionally assuming electromagnetic induction coil in the middle part of the forming machine barrel, the material is sufficiently cured, and the two ends of the barrel are respectively provided with a cooling area, so that the material is prevented from being cured too early, the sticky plug is plugged in the barrel, and the material is prevented from being excessively cured, so that the puffing is caused, and the taste of the product is influenced. The strip cutting machine is provided with the compression roller to flatten the strip-shaped powder roll so as to facilitate strip cutting. The cut powder is fully dried through an S-shaped path formed by a plurality of layers of conveyor belts of the dryer.

Description

Machine set for producing powder rolls

Technical Field

The utility model relates to a food processing technology field is a unit of production powder book particularly.

Background

The powder is a popular folk snack with Anhui, which is prepared by grinding mung bean, soybean, rice or two of the two components into powder, adding water according to a certain proportion, mixing, heating and spreading into cake shape, cutting into strips and drying in the sun, wherein the cooking method is similar to that of noodles. Most of the products are produced manually in families, and only the requirements of the families are met.

The flour is easy to store after being folded and dried in the sun, tastes chewy, has rich nutritional value and is favored by more and more people. However, in the prior art, the special production equipment for the powder folder is still deficient, so that the production scale of the powder folder cannot meet the market demand.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defect that the special production equipment for producing the flour is deficient in the prior art, and providing a machine set for producing the flour.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

a plant for producing a vermicelli comprising:

a mixer; the blender comprises a blending barrel; a stirring shaft is vertically arranged in the stirring barrel; the bottom end of the stirring shaft extends out of the bottom wall of the stirring barrel and is linked with a first power device; a plurality of stirring fins are fixed on the stirring shaft rod body in the stirring barrel; the stirring barrel is also provided with a discharge hole; a gate valve plate is arranged at the discharge port;

a powder folding forming machine; the powder folding forming machine comprises a single-screw extrusion device, a heating device, a cooling device and a cutting device; the single-screw extrusion device comprises a screw barrel and a screw arranged in the screw barrel; the heating device comprises an electromagnetic induction coil wound on the surface of the screw cylinder; the electromagnetic induction coil is positioned in the middle of the screw barrel; the barrel bodies of the screw barrels positioned at two ends of the electromagnetic induction coil are respectively a first cooling area and a second cooling area; the cooling device comprises a first water pipe and a second water pipe; a water outlet of the first water pipe is used for spraying water to cool the first cooling area; a water outlet of the second water pipe is used for spraying water to cool the second cooling area;

the single-screw extrusion device extrudes hollow cylindrical powder; the cutting device comprises a scalpel; the splitting knife is fixed at a discharge port of the single-screw extrusion device; the splitting knife cuts the semi-finished product into strip-shaped powder folds along the axis of the semi-finished product;

a slitting machine; the slitter comprises a conveying mechanism; a press roller and a cutter device are also fixed on the conveying mechanism; the strip-shaped powder is folded on the conveying mechanism and sequentially passes through the compression roller and the cutter device; the cutter device is linked with the second power device; the second power device drives the cutter device to move up and down to cut the strip-shaped powder into strip-shaped powder pieces;

a dryer; the dryer includes a drying chamber; the drying chamber comprises a feeding hole and a discharging hole; a plurality of layers of conveying belts are arranged in the drying chamber from top to bottom; the moving directions of the two adjacent layers of conveying belts are opposite; the end of the upper layer of the conveying belt is provided with a chute, and the lower end of the chute is positioned above the starting end of the lower layer of the conveying belt; the feeding port is arranged on one side of the starting end of the uppermost layer of the conveying belt; the discharge hole is positioned at one side of the end of the lowest layer of the conveying belt.

Preferably, four stirring fins are fixed on the stirring shaft; the four stirring fins are uniformly distributed on the stirring shaft; two of the four stirring fins incline upwards, and the other two stirring fins incline downwards.

Preferably, the first power device is a motor.

Preferably, a heat insulation layer is further arranged between the induction coil and the screw cylinder.

Preferably, the cooling device comprises a reservoir, and water in the reservoir is pumped into the first water pipe and the second water pipe through pumping; sleeves are arranged in the first cooling area and the second cooling area of the screw barrel; the sleeve is fixed with the screw cylinder in a sealing way; a gap is reserved between the sleeve and the screw cylinder; the top of the sleeve is provided with a water inlet, and the bottom of the sleeve is provided with a water outlet; the water outlet of the first water pipe is communicated with the sleeve water inlet of the first cooling area; the water outlet of the second water pipe is communicated with the sleeve water inlet of the second cooling area; and the sleeve water outlet of the first cooling area and the sleeve water outlet of the second cooling area are communicated with the water reservoir through pipelines.

Preferably, an extrusion die is arranged at the end of the single-screw extrusion device; the cutting device comprises a cross rod; one end of the cross rod is fixed on the fixing support of the screw cylinder, and the other end of the cross rod is fixed with the sectioning knife; the sectioning knife is positioned in the front upper part of the extrusion die head; the cutting edge of the slitting knife and the axis of the extrusion die head are positioned in the same vertical plane.

Preferably, the slitter comprises a frame; the compression roller is rotationally fixed on the rack, and the conveying mechanism is a conveyor belt conveyor; the upper surface of compression roller and conveyer belt conveyer has the confession the clearance that the strip powder was rolled over and is passed through.

Preferably, the second power device comprises a positive and negative rotation motor and a screw rod; the cutter device comprises a cutter; the moving path of the conveyor belt conveyor is vertical to the cutter face of the cutter; two ends of the cutter are respectively fixedly connected with a vertical rod; the upright rod is fixed on the rack and can move up and down; the bottom end of the upright rod is connected with the screw rod; the positive and negative rotation motor is linked with the screw rod; the positive and negative rotation motor drives the screw rod to move up and down.

Preferably, in the drying chamber; the conveying belt is provided with five layers of conveying belts, namely a first layer of conveying belt, a second layer of conveying belt, a third layer of conveying belt, a fourth layer of conveying belt and a fifth layer of conveying belt from top to bottom in sequence; the second layer of conveying belt, the third layer of conveying belt and the fourth layer of conveying belt are driven to operate by the same motor.

Preferably, the driving rotating shafts of the second layer of conveying belt, the third layer of conveying belt and the fourth layer of conveying belt are positioned on the same side; the second layer of conveying belt is linked with the driving rotating shaft of the fourth layer of conveying belt through a chain wheel; a gear is fixed on the driving rotating shaft of the third layer of conveying belt; the gear is located the sprocket outside and with the sprocket linkage.

Compared with the prior art, the utility model, following beneficial effect has:

the utility model provides a production facility is rolled over to powder simple structure, and production efficiency is high.

An electromagnetic induction coil is wound on the outer wall of the screw cylinder, so that the heating temperature of the material reaches the design requirement; and the two ends of the screw barrel are respectively provided with a cooling area, so that the phenomenon that the material is stuck in the barrel after being cured too early to cause blockage in the screw barrel is avoided; set up the cooling zone at spiral shell section of thick bamboo tip, avoid the material to take place to puff after long-time heating, influence product quality. And the sleeve is arranged on the screw cylinder and is communicated with the water storage tank through a pipeline, so that the cooling water is collected and recycled.

When splitting the cylindric powder book open through cuing open, form the banding powder book, the later stage slitting of being convenient for. The splitting knife is arranged above the die head, namely the cylindrical powder is split from the top, and under the action of self weight, the split powder is turned over to two sides to form a belt shape.

The press roller is arranged on the conveying belt of the slitter, so that the strip-shaped powder is folded smoothly, and the strip can enter the lower part of the cutter conveniently.

The five layers of conveying belts are arranged in the drying chamber, so that the running path of the strip-shaped powder in the drying chamber is elongated, namely the drying time meets the drying requirement; and the driving rotating shafts of the middle three layers of conveying belts are driven by the chain wheels, and one motor provides power, so that the structure in the drying chamber is simplified while energy is saved and consumption is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a machine set for producing vermicelli rolls of the present invention;

FIG. 2 is a schematic structural view of a stirrer in the machine set for producing vermicelli rolls of the present invention;

fig. 3 is a schematic structural view of a powder folding forming machine in the machine set for producing powder folding of the present invention;

FIG. 4 is a schematic structural view of a slitter in a machine set for producing vermicelli rolls of the present invention;

fig. 5 is a schematic structural view of a dryer in the machine set for producing the powder roll of the present invention.

Detailed Description

In order to further understand and appreciate the structural features and advantages of the present invention, preferred embodiments and the accompanying drawings are described in detail as follows:

as shown in fig. 1, the machine set for producing the vermicelli comprises a stirrer 1, a vermicelli-folding forming machine 2, a slitter 3 and a dryer 4 according to the material running path.

Wherein:

as shown in fig. 2, the mixer 1 includes a mixer barrel 11. A stirring shaft 12 is vertically arranged in the mixing barrel 11; the bottom of (mixing) shaft 12 stretches out 11 diapalls of stirring cylinder and is linked with first power device 13, the utility model provides a first power device 13 is the motor. A plurality of stirring fins 14 are fixed on a stirring shaft 12 rod body in the stirring barrel 11; the stirring barrel 11 is also provided with a discharge hole 15; a gate valve plate 16 is arranged at the discharge port 15; in order to mix the materials fully, the stirring shaft 12 of the utility model is fixed with four stirring wings 14; four stirring fins 14 are uniformly distributed on the stirring shaft 12; two of the four stirring fins 14 are inclined upward, and the other two stirring fins 14 are inclined downward.

As shown in fig. 3, the powder folding molding machine 2 includes a single screw extrusion device, a heating device, a cooling device, and a cutting device; the single screw extrusion device includes a screw barrel 21 and a screw disposed in the screw barrel 21. The heating device comprises an electromagnetic induction coil 22 wound on the surface of the screw cylinder 21; the electromagnetic induction coil 22 is positioned in the middle of the screw cylinder 21; an insulating layer 23 is also arranged between the induction coil and the screw cylinder 21.

In order to avoid the material to cause glutinous stifled and the excessive heating causes the popped condition of gluing in screw section of thick bamboo 21 too early curing, the utility model discloses the barrel that is in electromagnetic induction coil 22 both ends at screw section of thick bamboo 21 is first cooling area territory and second cooling area territory respectively. The cooling device comprises a first water pipe 24 and a second water pipe 25. The water outlet of the first water pipe 24 is used for cooling the first cooling area by spraying water, and the water outlet of the second water pipe 25 is used for cooling the second cooling area by spraying water. The cooling device further includes a reservoir 26 for pumping water from the reservoir 26 into the first and second water pipes 24 and 25; in order to save water, the utility model discloses all be provided with sleeve 27 in the first cooling area of barrel 21 and second cooling area. The sleeve 27 is fixed with the screw cylinder 21 in a sealing way; a gap is reserved between the sleeve 27 and the screw cylinder 21; the top of the sleeve 27 is provided with a water inlet, and the bottom is provided with a water outlet; the water outlet of the first water pipe 24 is communicated with the water inlet of the sleeve 27 of the first cooling area; the water outlet of the second water pipe 25 is communicated with the water inlet of the sleeve 27 of the second cooling area; the water outlet of the sleeve 27 of the first cooling area and the water outlet of the sleeve 27 of the second cooling area are communicated with the water storage tank 26 through pipelines.

The single screw extrusion device extrudes hollow cylindrical powder through the die head 28; the cutting device comprises a cross bar 29 and a cutting knife 20; one end of the cross bar 29 is fixed on the fixed support of the screw cylinder 21, and the other end is fixed with the sectioning knife 20; the cutting knife 20 is fixed at the front upper part of the die head, and the cutting edge of the cutting knife 20 is positioned in the same vertical plane with the axis of the die head. The splitting knife 20 splits the semi-finished product into strip-shaped powder folds along the axis of the semi-finished product.

As shown in fig. 4, the slitter 3 includes a frame 31, a conveying mechanism 32, a press roller 33, and a cutter device 34. The compression roller 33 is rotationally fixed on the frame 31, and the conveying mechanism 32 is a conveyor belt conveyor; the press roller 33 is located above the conveyor belt conveyor and has a gap with the upper surface of the conveyor for the strip-shaped powder to pass through. The strip-shaped powder is folded on the conveying mechanism 32 and passes through the pressing roller 33 and the cutter device 34 in sequence. The cutter device 34 is linked with the second power device 35; the second power device 35 drives the cutter device to move up and down to cut the strip-shaped powder into strip-shaped powder.

The second power unit 35 includes a forward/reverse rotation motor 351 and a screw 352. The sleeve of the screw 352 is fixed to the frame. The cutter device 34 includes a cutter 341; the moving path of the conveyor belt is vertical to the cutter surface of the cutter 341; two ends of the cutter 341 are respectively fixedly connected with a vertical rod 342; the upright rod 342 is fixed on the frame 31 and can move up and down; the bottom end of the upright rod 342 is connected with a screw rod 352; the forward and reverse rotation motor 351 is linked with the screw rod 352; the forward and reverse rotation motor 351 drives the screw rod 352 to move up and down, so that the up and down movement of the cutter 341 is realized.

As shown in fig. 5, the dryer 4 includes a drying chamber 41; the drying chamber 41 includes a feed port and a discharge port. For accurate feeding, a chute 43 is provided at the feed port and the discharge port, respectively. The cut powder is fed to the feed inlet by a conveyor belt 45. A support 411 is fixed in the drying chamber 41, and a plurality of layers of conveyor belts 42 are arranged on the support 411 from top to bottom. The moving directions of the two adjacent layers of the conveying belts 42 are opposite.

In order to facilitate the powder on the upper layer conveying belt 42 to accurately fall into the lower layer conveying belt 42, the utility model discloses set up the chute 3 at the feed inlet to be in the initiating terminal of upper layer conveying belt. The ending end of the upper layer conveying belt 42 is provided with a chute 43, and the lower end of the chute 43 at the ending end of the upper layer conveying belt 42 is positioned above the starting end of the lower layer conveying belt 42; the starting end side of the uppermost layer of the conveyor belt 42 at the feed inlet; the discharge port is located on the end side of the lowermost conveyor belt 42.

The utility model is arranged in the drying chamber 41; five layers of conveyer belts 42 are arranged, namely a first layer of conveyer belt 42, a second layer of conveyer belt 42, a third layer of conveyer belt 42, a fourth layer of conveyer belt 42 and a fifth layer of conveyer belt 42 from top to bottom; the second layer of conveyor belt 42, the third layer of conveyor belt 42 and the fourth layer of conveyor belt 42 are driven by the same motor 45 to operate, so that the purposes of energy conservation and consumption reduction are achieved. Specifically, the driving rotating shafts of the second layer of conveying belt 42, the third layer of conveying belt 42 and the fourth layer of conveying belt 42 are positioned at the same side; the driving rotating shafts of the second layer of conveying belt 42 and the fourth layer of conveying belt 42 are linked through a chain wheel 44; a gear 421 is fixed on the driving rotating shaft of the third layer of the conveying belt 42; the gear 421 is located outside the chain wheel 44 and is in interference engagement with the chain outside of the chain wheel 44, so that the running direction of the third layer of the conveying belt 42 is opposite to the running direction of the second and fourth layers of the conveying belts 42.

The drying chamber 41 is heated by a heating rod (not shown) to heat the temperature inside the chamber, so that the powder is dehydrated, and the water is automatically discharged from an air outlet 411 on the top wall of the drying chamber 41 after being evaporated. The cut powder is folded and enters the drying chamber 41 from the feeding hole, the running speed of the 5 layers of conveying belts 42 is adjusted, so that the powder is folded and enters the drying chamber 41 to the discharging hole, the S-shaped path formed by the 5 layers of conveying belts 42 consumes time to meet the drying requirement, and the drying purpose is achieved. Because the temperature is higher in the drying chamber 41, the utility model discloses a high temperature resistant metal material supports conveyer belt 42.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a unit of production powder book which characterized in that: the method comprises the following steps:

a powder folding forming machine; the powder folding forming machine comprises a single-screw extrusion device, a heating device, a cooling device and a cutting device; the single-screw extrusion device comprises a screw barrel and a screw arranged in the screw barrel; the heating device comprises an electromagnetic induction coil wound on the surface of the screw cylinder; the electromagnetic induction coil is positioned in the middle of the screw barrel; the barrel bodies of the screw barrels positioned at two ends of the electromagnetic induction coil are respectively a first cooling area and a second cooling area; the cooling device comprises a first water pipe and a second water pipe; a water outlet of the first water pipe is used for spraying water to cool the first cooling area; a water outlet of the second water pipe is used for spraying water to cool the second cooling area;

the single-screw extrusion device extrudes hollow cylindrical powder; the cutting device comprises a scalpel; the splitting knife is fixed at a discharge port of the single-screw extrusion device; the sectioning knife sections the hollow cylindrical powder into strip-shaped powder folds along the axis of the hollow cylindrical powder folds;

a slitting machine; the slitter comprises a conveying mechanism; a press roller and a cutter device are also fixed on the conveying mechanism; the strip-shaped powder is folded on the conveying mechanism and sequentially passes through the compression roller and the cutter device; the cutter device is linked with the second power device; the second power device drives the cutter device to move up and down to cut the strip-shaped powder into strip-shaped powder pieces;

a dryer; the dryer includes a drying chamber; the drying chamber comprises a feeding hole and a discharging hole; a plurality of layers of conveying belts are arranged in the drying chamber from top to bottom; the moving directions of the two adjacent layers of conveying belts are opposite; the end of the upper layer of the conveying belt is provided with a chute, and the lower end of the chute is positioned above the starting end of the lower layer of the conveying belt; the feed inlet is positioned at one side of the starting end of the uppermost layer of the conveying belt; the discharge hole is positioned at one side of the end of the lowest layer of the conveying belt.

2. A plant for producing starch shreds as claimed in claim 1, characterized in that: and a heat insulation layer is also arranged between the induction coil and the screw cylinder.

3. A plant for producing starch shreds as claimed in claim 1, characterized in that: the cooling device comprises a reservoir, and water in the reservoir is pumped into the first water pipe and the second water pipe through pumping; sleeves are arranged in the first cooling area and the second cooling area of the screw barrel; the sleeve is fixed with the screw cylinder in a sealing way; a gap is reserved between the sleeve and the screw cylinder; the top of the sleeve is provided with a water inlet, and the bottom of the sleeve is provided with a water outlet; the water outlet of the first water pipe is communicated with the sleeve water inlet of the first cooling area; the water outlet of the second water pipe is communicated with the sleeve water inlet of the second cooling area; and the sleeve water outlet of the first cooling area and the sleeve water outlet of the second cooling area are communicated with the water reservoir through pipelines.

4. A plant for producing starch shreds as claimed in claim 1, characterized in that: an extrusion die head is arranged at the end part of the single-screw extrusion device; the cutting device comprises a cross rod; one end of the cross rod is fixed on the fixing support of the screw cylinder, and the other end of the cross rod is fixed with the sectioning knife; the sectioning knife is positioned in the front upper part of the die head; the cutting edge of the cutting knife and the axis of the die head are in the same vertical plane.

5. A plant for producing starch shreds as claimed in claim 1, characterized in that: the slitter comprises a frame; the compression roller is rotationally fixed on the rack, and the conveying mechanism is a conveyor belt conveyor; the upper surface of compression roller and conveyer belt conveyer has the confession the clearance that the strip powder was rolled over and is passed through.

6. A plant for producing starch shreds as claimed in claim 5, characterized in that: the second power device comprises a positive and negative rotation motor and a screw rod; the cutter device comprises a cutter; the moving path of the conveyor belt conveyor is vertical to the cutter face of the cutter; two ends of the cutter are respectively fixedly connected with a vertical rod; the upright rod is fixed on the rack and can move up and down; the bottom end of the upright rod is connected with the screw rod; the positive and negative rotation motor is linked with the screw rod; the positive and negative rotation motor drives the screw rod to move up and down.

7. A plant for producing starch shreds as claimed in claim 1, characterized in that: in the drying chamber; the conveying belt is provided with five layers of conveying belts, namely a first layer of conveying belt, a second layer of conveying belt, a third layer of conveying belt, a fourth layer of conveying belt and a fifth layer of conveying belt from top to bottom in sequence; the second layer of conveying belt, the third layer of conveying belt and the fourth layer of conveying belt are driven to operate by the same motor.

8. A plant for producing starch shreds as claimed in claim 7, characterized in that: the driving rotating shafts of the second layer of conveying belt, the third layer of conveying belt and the fourth layer of conveying belt are positioned on the same side; the second layer of conveying belt is linked with the driving rotating shaft of the fourth layer of conveying belt through a chain wheel; a gear is fixed on the driving rotating shaft of the third layer of conveying belt; the gear is located the sprocket outside and with the sprocket linkage.

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