CN115123637A

CN115123637A - Semi-wet powder packaging production line

Info

Publication number: CN115123637A
Application number: CN202210969532.0A
Authority: CN
Inventors: 俞贵伍; 陈世帮; 郑顺存; 胡卫镇; 蔡兆林
Original assignee: Wenzhou Ruichi Packaging Equipment Co ltd
Current assignee: Wenzhou Ruichi Packaging Equipment Co ltd
Priority date: 2022-08-12
Filing date: 2022-08-12
Publication date: 2022-09-30

Abstract

The invention discloses a semi-wet powder packaging production line, which is characterized in that: the semi-wet powder extrusion part is used for extruding a plurality of bundles of multi-bundle semi-wet powder, the cooling conveying platform is used for cooling and conveying the plurality of bundles of semi-wet powder side by side left and right, the cutting part is used for cutting off the semi-wet powder, and the winding part is used for automatically winding and forming the semi-wet powder. The invention can realize full-automatic packaging production of semi-wet powder, improve the efficiency and ensure the sanitation.

Description

Semi-wet powder packaging production line

Technical Field

The invention relates to food production equipment, in particular to a semi-wet powder packaging production line for automatic packaging production of semi-wet powder.

Background

Semi-wet powder is vermicelli which is not dried in the sun, and at present, the packaging production of the semi-wet powder is carried out manually, so that the efficiency is low and the sanitation is difficult to ensure.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a semi-wet powder packaging production line which can realize the full-automatic packaging production of semi-wet powder, ensure the quality, improve the efficiency and ensure the sanitation.

The invention is implemented by the following technical scheme:

semi-moist powder packaging production line, its characterized in that: the semi-wet powder extrusion part is used for extruding a plurality of bundles of multi-bundle semi-wet powder, the cooling conveying platform is used for cooling and conveying the plurality of bundles of semi-wet powder side by side left and right, the cutting part is used for cutting off the semi-wet powder, and the winding part is used for automatically winding and forming the semi-wet powder.

The input of winding shaping part is equipped with cylinder pay-off part, and cylinder pay-off part comprises cylinder feeding platform and the acceleration rate feeding platform of arranging around by, and cylinder feeding platform has the many deflector rolls of arranging around, and the deflector roll is driven by the cylinder motor, and the roll body of deflector roll passes through one-way bearing and installs on the roller, and the roller both ends are carried out rotatable supporting by fixed curb plate, and acceleration rate feeding platform is driven by the acceleration rate motor.

The cutting-off component is positioned above the discharge end of the cooling conveying platform, the discharge end of the cooling conveying platform is connected with the weighing and feeding platform, and the bottom of the weighing and feeding platform is provided with a weighing sensor.

By adopting the technical scheme, the invention can realize full-automatic packaging production of semi-wet powder, and the implementation process comprises the following steps: the semi-wet powder extrusion part extrudes a plurality of beams of semi-wet powder, each beam of semi-wet powder is multiple, the cooling conveying platform cools and conveys the plurality of beams of semi-wet powder in a left-right parallel mode, then the semi-wet powder is quantitatively cut off by the cutting part, the cut semi-wet powder enters the winding and forming part, the semi-wet powder is automatically wound and formed by the winding and forming part to form a whole which cannot be loosened, and finally the wound and formed semi-wet powder is sent out, so that the full-automatic packaging production of the semi-wet powder is completed, the efficiency is improved, and the sanitation is guaranteed. In the process, when the packaging weight error of the semi-wet powder has strict requirements, the quantitative cutting of the semi-wet powder by the cutting part can be carried out in a weighing mode or a fixed-length mode; in addition, because the winding forming part can not have the semi-moist powder that follow-up cut off to send into at the during operation, and the cooling conveying platform is the semi-moist powder of continuous transport, so set up cylinder pay-off part specially and guaranteed the cooperation between them to raise the efficiency, cylinder pay-off part is like this work: the roller motor drives the roller feeding platform to enable the guide roller to convey the semi-wet powder at the same speed as the cooling conveying platform, and the speed-up feeding platform conveys the semi-wet powder at a speed higher than the cooling conveying platform when needed, so that when the front end of the cut semi-wet powder enters the speed-up feeding platform to be conveyed quickly, the rear half section of the semi-wet powder is still on the roller feeding platform, although the driving speed of the roller feeding platform cannot be increased (the driving speed of the roller feeding platform ensures the normal conveying of the rear semi-wet powder), because the guide roller is arranged on the roller shaft through the one-way bearing, the guide roller contacted with the rear half section of the semi-wet powder can also passively increase the linear speed, so that the whole cut semi-wet powder is conveyed by the speed-up feeding platform at an increased speed and is separated from the rear half part of the semi-wet powder conveyed at a certain distance, so that the cooperative work of the winding forming part and the cooling conveying platform can be smoothly carried out.

Preferably, the semi-wet powder extrusion part comprises an extruder, and an extrusion port of the extruder is connected and communicated with a plurality of extrusion dies after being extruded by a plurality of extrusion pipes in a step-by-step manner, and each extrusion die is provided with a plurality of extrusion fine holes.

The extrusion head of the extruder is connected and communicated with the middle position of the first-stage extrusion pipe, the two ends of the first-stage extrusion pipe are respectively connected and communicated with the middle positions of the two second-stage extrusion pipes, the two ends of the second-stage extrusion pipe are respectively connected and communicated with the middle positions of the two third-stage extrusion pipes, the two ends of the third-stage extrusion pipes are respectively connected and communicated with the two extrusion dies, and all the extrusion dies are arranged side by side left and right. Through the design, the semi-wet powder extruded from a plurality of extrusion dies (the transverse span between the extrusion dies is large) can ensure the uniformity of density and the plumpness and roundness of the surface, the quantitative cutting control of the subsequent semi-wet powder is facilitated, and the product quality is better ensured.

Preferably, the connection positions of the first-stage extrusion pipe and the second-stage extrusion pipe, the second-stage extrusion pipe and the third-stage extrusion pipe, and the third-stage extrusion pipe and the extrusion die are connected through fast-locking hoop connectors. Through the design, the semi-wet powder extrusion part is convenient to disassemble, assemble and clean.

Preferably, the winding forming part comprises an upper two winding rollers and a lower two winding rollers which rotate in the same direction during working, the four winding rollers enclose a space for allowing semi-wet powder to be wound and formed inside, the upper two winding rollers are far away from each other, the lower two winding rollers are close to each other, the winding rollers are rotatably arranged on the winding support and driven by a winding motor, and the winding support performs left and right reciprocating sliding actions during working and is driven by a sliding motor. Through the design, when the winding forming part works, the four winding rollers rotate at the same direction and the same speed and slide left and right along with the winding support, so that semi-wet powder entering the winding space can be folded back and forth in the winding space, meanwhile, due to rolling contact friction with the four winding rollers, mutual spiral winding can be generated between adjacent semi-wet powder (namely, the semi-wet powder entering the winding space can be folded back and forth and spirally wound back and forth under the combined action of the same-direction rolling of the four rollers and the left and right reciprocating movement of the winding support), and at the last time, the action amplitude of the left and right reciprocating sliding of the winding support can be controlled to be reduced, so that the semi-wet powder entering the winding space at the back can be more concentrated in the middle position and wound outside the semi-wet powder which is folded back and forth and spirally wound in front, and the semi-wet powder can form a whole body which can not be loosened, and after being taken out, the semi-wet powder is fully automatically packaged and produced.

Preferably, the outer side support plate of the winding support is used for rotatably supporting the winding roller, the outer side support plate consists of a fixing plate and a front and rear adjusting plate, the fixing plate is fixedly connected with the winding support, and the front and rear adjusting plates can be arranged on the fixing plate in a swinging mode and are locked and fixed through adjusting and locking screws. Through the design, the space size of winding forming can be conveniently adjusted, and the semi-wet powder package in different sizes can be quickly adapted.

Drawings

The invention has the following drawings:

figure 1 is a schematic structural view of the present invention,

figure 2 is an enlarged view of the right half of figure 1,

figure 3 is a schematic diagram of the structure of a semi-moist powder extrusion part,

figure 4 is a front view in elevation of figure 3,

figure 5 is a schematic structural view of a roller feeding platform,

figure 6 is a top view (partially in section) of the left half of figure 5,

figure 7 is a schematic view of the structure of the winding form part,

figure 8 is a view of figure 7 taken from the front half,

fig. 9 is another directional view of fig. 8.

Detailed Description

As shown in the figure, the semi-wet powder packaging production line comprises a semi-wet powder extrusion part A, a cooling conveying platform B, a cutting part C and a winding forming part G, wherein the semi-wet powder extrusion part A is used for extruding eight bundles of multi-strip semi-wet powder L1, the cooling conveying platform B is used for cooling and conveying the eight bundles of semi-wet powder side by side from left to right, the cooling conveying platform adopts a wire mesh conveying belt driven by a motor, the cutting part C is used for quantitatively and long cutting the semi-wet powder, the cutting part is provided with eight groups of cutting knives which are independently controlled to separately cut the eight bundles of semi-wet powder, the winding forming part G is used for automatically winding and forming one bundle of semi-wet powder, the winding forming part is provided with eight groups, and each group corresponds to the semi-wet powder; the input end of each group of winding forming parts G is provided with a roller feeding part, the roller feeding part consists of a roller feeding platform E and an acceleration feeding platform F which are arranged front and back, the roller feeding platform E is provided with a plurality of guide rollers 9 which are arranged front and back, the guide rollers 9 are synchronously driven by a roller motor 12 through a circular synchronous belt 11, roller bodies 92 of the guide rollers are arranged on a roller shaft 91 through one-way bearings 14, roller bearings 13 are arranged at two ends of the roller shaft 91, the roller bearings 13 are supported by fixed side plates 10, the acceleration feeding platform F is driven by an acceleration motor, the output end of the acceleration feeding platform F is provided with a pressing wheel for limiting the movement of semi-wet powder entering the winding forming parts left and right, a cutting part C is positioned above the discharge end of a cooling conveying platform B, the discharge end of the cooling conveying platform B is connected with a weighing feeding platform D, and the bottom of the weighing feeding platform D is provided with a weighing sensor, the discharge end of the weighing and feeding platform D is directly connected with the feed end of the roller feeding platform E or indirectly connected with the feed end of the roller feeding platform E through a transition conveyor belt 1, the rear end of the weighing and feeding platform D can swing up and down, unqualified semi-wet powder to be weighed is sent to the outside of the equipment to be removed, and the feed end of the roller feeding platform E is provided with a material detection probe 2 (see figure 5).

The semi-wet powder extrusion part A comprises an extruder 3, an extrusion head of the extruder 3 is connected and communicated with the middle position of a first-stage extrusion pipe 4, two ends of the first-stage extrusion pipe 4 are respectively connected and communicated with the middle positions of two second-stage extrusion pipes 5, two ends of the second-stage extrusion pipes 5 are respectively connected and communicated with the middle positions of two third-stage extrusion pipes 6, two ends of each third-stage extrusion pipe 6 are respectively connected and communicated with two extrusion dies 7, eight extrusion dies 7 are arranged side by side on the left and right sides, each extrusion die 7 is provided with a plurality of extrusion pores for extruding thin semi-wet powder, and the connection positions of the first-stage extrusion pipes 4, the second-stage extrusion pipes 5, the third-stage extrusion pipes 6 and the extrusion dies 7 are all connected through clamp connectors 8 which are locked quickly.

The winding forming part G comprises four winding rollers 15 which rotate in the same direction during working, an upper two winding rollers and a lower two winding rollers, the winding rollers 15 can be rotatably arranged on a winding support 17, the four winding rollers 15 enclose a space for winding and forming semi-wet powder in the space, the upper two winding rollers are far away from each other, the lower two winding rollers are close to each other, an outer side support plate of the winding support 17 is used for rotatably supporting the winding rollers 15, the outer side support plate is composed of a middle fixing plate 18, a front adjusting plate 19 and a rear adjusting plate 20, the middle fixing plate 18 is fixedly connected with the winding support 17, the front adjusting plate 19 and the rear adjusting plate 20 can be arranged on the middle fixing plate 18 in a swinging mode and are locked and fixed through an adjusting locking screw 21, one winding roller on the upper side can be rotatably arranged on the front adjusting plate 19, and the other winding roller on the rear adjusting plate 20 can be rotatably arranged on the rear adjusting plate, the lower two winding rollers are rotatably arranged on the fixed plate 18, the rotation of the winding roller 15 is driven by a winding motor 16 through gear transmission, the winding support 17 performs reciprocating sliding movement left and right during working, and the winding support is driven by a sliding motor 23 through a screw nut structure 22.

The semi-wet powder packaging production line works as follows: the extruder 3 extrudes eight bundles of semi-wet powder L1 of each bundle of semi-wet powder through the extrusion die 7, then the eight bundles of semi-wet powder L1 are cooled and conveyed by the cooling conveying platform B in a left-right side-by-side mode, then the semi-wet powder is quantitatively cut off by the cutting part C, the cut semi-wet powder is weighed by the weighing and feeding platform D, the qualified semi-wet powder is fed into the winding and forming part G through the feeding of the roller feeding platform E and the speed-increasing and feeding platform F, the pinch roller limits the semi-wet powder entering the winding and forming part to move left and right, in the winding and forming part G, the four winding rollers 15 rotate at the same speed and slide left and right along with the winding support 17, so that the semi-wet powder entering the winding space is folded back and forth in the winding space, and simultaneously, due to the rolling contact friction with the four winding rollers 15, the mutual spiral winding can be generated between the adjacent semi-wet powder (namely, the semi-wet powder entering the winding space can roll in the same direction and wind around the four rollers Carry out reciprocal fifty percent discount and spiral winding under the compound motion effect of reciprocating motion about the frame), to the final time, the action range that reciprocating slided about winding support 17 can be controlled and diminishes, then the semi-moist powder that gets into the winding space at the back will more concentrate on the intermediate position winding has before reciprocal fifty percent discount and spiral winding semi-moist powder outside, thereby make the semi-moist powder form can not loose whole, and finally, manipulator H comes to take out semi-moist powder product L2 in the winding shaping space, take out the back and put on the belt I of sending out and carry out the concentrated delivery, accomplish the full-automatic packaging production of semi-moist powder.

Claims

1. Semi-moist powder packaging production line, its characterized in that: the semi-wet powder extrusion part is used for extruding a plurality of bundles of multi-bundle semi-wet powder, the cooling conveying platform is used for cooling and conveying the plurality of bundles of semi-wet powder side by side left and right, the cutting part is used for cutting off the semi-wet powder, and the winding part is used for automatically winding and forming the semi-wet powder.

2. The semi-moist powder packaging line as set forth in claim 1, characterized in that: the input of winding shaping part is equipped with cylinder pay-off part, and cylinder pay-off part comprises cylinder feeding platform and the acceleration rate feeding platform of arranging around by, and cylinder feeding platform has the many deflector rolls of arranging around, and the deflector roll is driven by the cylinder motor, and the roll body of deflector roll passes through one-way bearing and installs on the roller, and the roller both ends are carried out rotatable supporting by fixed curb plate, and acceleration rate feeding platform is driven by the acceleration rate motor.

3. The semi-moist powder packaging line as set forth in claim 2, characterized in that: the cutting part is positioned above the discharge end of the cooling conveying platform, the discharge end of the cooling conveying platform is connected with the weighing and feeding platform, and a weighing sensor is arranged at the bottom of the weighing and feeding platform.

4. The semi-moist powder packaging line as set forth in claim 1, characterized in that: the semi-wet powder extrusion part comprises an extruder, an extrusion port of the extruder is connected and communicated with a plurality of extrusion dies after being extruded step by step through a plurality of extrusion pipes, and each extrusion die is provided with a plurality of extrusion fine holes.

5. The semi-moist powder packaging line as set forth in claim 4, characterized in that: the extrusion head of the extruder is connected and communicated with the middle position of the first-stage extrusion pipe, the two ends of the first-stage extrusion pipe are respectively connected and communicated with the middle positions of the two second-stage extrusion pipes, the two ends of the second-stage extrusion pipe are respectively connected and communicated with the middle positions of the two third-stage extrusion pipes, the two ends of the third-stage extrusion pipes are respectively connected and communicated with the two extrusion dies, and all the extrusion dies are arranged side by side left and right.

6. The semi-moist powder packaging line as set forth in claim 4 or 5, wherein: the connection positions of the first-stage extrusion pipe and the second-stage extrusion pipe, the second-stage extrusion pipe and the third-stage extrusion pipe, and the third-stage extrusion pipe and the extrusion die are connected through a fast-locking hoop connector.

7. The semi-moist powder packaging line as set forth in claim 1, characterized in that: the winding forming part comprises two winding rollers on the upper surface and two winding rollers on the lower surface which rotate in the same direction during working, the four winding rollers enclose a space for allowing semi-wet powder to be wound and formed inside, the two winding rollers on the upper surface are away from each other, the two winding rollers on the lower surface are close to each other, the winding rollers can be rotatably arranged on the winding support and driven by a winding motor, the winding support does reciprocating sliding movement in the left-right direction during working, and the winding support is driven by the sliding motor.

8. The semi-moist powder packaging line as set forth in claim 7, characterized in that: the outer side supporting plate of the winding support is used for rotatably supporting the winding roller, the outer side supporting plate consists of a fixing plate and a front adjusting plate and a rear adjusting plate, the fixing plate is fixedly connected with the winding support, the front adjusting plate and the rear adjusting plate can be arranged on the fixing plate in a swinging mode, and the front adjusting plate and the rear adjusting plate are locked and fixed through adjusting locking screws.