CN107511863B

CN107511863B - Give birth to bright kelp automatic cutout segmenting device

Info

Publication number: CN107511863B
Application number: CN201710778541.0A
Authority: CN
Inventors: 贾宝贤; 边文凤; 汪珣
Original assignee: Harbin Institute of Technology Weihai
Current assignee: Harbin Institute of Technology Weihai
Priority date: 2017-09-01
Filing date: 2017-09-01
Publication date: 2020-01-21
Anticipated expiration: 2037-09-01
Also published as: CN107511863A

Abstract

The invention discloses an automatic cutting and segmenting device for fresh kelp, which is characterized in that a kelp feeding mechanism, a kelp cutting mechanism and a kelp segment conveying mechanism are arranged on a workbench. The kelp feeding mechanism is characterized in that two groups of parallel chain wheels are arranged on a workbench through a support and are connected through a chain, comb tooth substrates are arranged on the chain and are parallel to the axes of the chain wheels of each group of chain wheels, and comb teeth are arranged on the comb tooth substrates at intervals; the kelp cutting mechanism is provided with a cutter substrate, at least two strip-shaped cutters are arranged below the cutter substrate, and the cutter substrate is connected with a power mechanism arranged on the bracket through a cutter bar to enable the cutters to move up and down; the kelp section conveying mechanism is provided with at least two conveying belts which are vertically crossed with the chain under the cutter substrate; the cutter aligns with the gap of the conveying belt to cut the kelp. The invention has high automation degree, low labor intensity of workers and high production rate, can ensure that the kelp seedling ropes are positioned on the same straight line, and ensures the uniform specification of products.

Description

Give birth to bright kelp automatic cutout segmenting device

Technical Field

The invention relates to an automatic cutting and segmenting device for fresh kelp, in particular to an automatic cutting and segmenting device for fresh kelp based on horizontal movement of the fresh kelp and vertical falling cutting of a segmenting cutter.

Background

Researches show that different parts of the kelp have different economic values and nutritional values, and finished products processed are different, for example, the root part of the kelp can be made into kelp dices, the middle part of the kelp can be made into kelp rolls, and the tip part of the kelp can be made into kelp knots, so that the economic value of the kelp can be greatly improved by segmenting and classifying the whole kelp. Furthermore, when the kelp is boiled, different portions of the kelp should have different boiling strengths, for example, the root portion of the kelp should have a higher boiling strength, while the tip portion of the kelp should have a lower boiling strength. Therefore, it is necessary to cut and segment the kelp at different positions before the kelp is boiled.

At present, the kelp is mainly segmented manually, and the method has the disadvantages of high labor intensity, high cost and low production rate. According to the inquiry, patents related to the sea-tangle segmentation, such as CN201410825755, have a certain difficulty in implementation and are prone to the phenomenon of different root lengths.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides an automatic kelp cutting and segmenting device for cutting fresh kelp before boiling, wherein the automatic kelp cutting and segmenting device is based on horizontal and horizontal movement of the kelp and is used for cutting the kelp by vertically dropping a segmenting cutter. The device can realize automatic feed, automatic conveying, mechanical cutting, automatic classification function, can cut into the three-section with the living fresh kelp of growing on the seedling rope: namely, the belt tip, the belt middle and the belt root; realizes the automatic and efficient production process, reduces the labor intensity of workers, can lead the lengths of the kelp sections to be uniform, has high production rate and is convenient for subsequent processing.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a give birth to bright kelp automatic cutout segmenting device, is equipped with the workstation, is equipped with kelp feed mechanism, kelp cutting mechanism, kelp section conveying mechanism respectively through the support on its characterized in that workstation, wherein:

the kelp feeding mechanism is characterized in that two groups of parallel chain wheels are arranged on a workbench through a support, one group of chain wheels is connected with a motor through a chain wheel shaft, each group of chain wheels consists of a front chain wheel and a rear chain wheel, the two groups of chain wheels are connected through a chain, comb tooth substrates are arranged on the chains, the comb tooth substrates are parallel to the axes of the chain wheels of each group of chain wheels, and comb teeth are arranged on the comb tooth substrates at intervals;

the kelp cutting mechanism is provided with a cutter substrate, at least two strip-shaped cutters are arranged below the cutter substrate, and the cutter substrate is connected with a power mechanism which is arranged on the bracket and enables the cutter substrate to move up and down through a cutter bar;

the kelp section conveying mechanism is characterized in that at least two conveying belts which are vertically crossed with the chain are arranged below the cutter substrate, the conveying belts are supported on the support through a driving belt wheel and a driven belt wheel, and the driving belt wheel is connected with a motor.

The power mechanism for enabling the cutter base plate to move up and down can be a linear motor, a hydraulic oil cylinder or an air cylinder, the linear motor, the hydraulic oil cylinder or the air cylinder is fixed on the support, a telescopic part of the linear motor, the hydraulic oil cylinder or the air cylinder is connected with the cutter bar, and the telescopic part of the linear motor, the hydraulic oil cylinder or the air cylinder drives the cutter to move up and down through the cutter bar and the cutter base plate to realize the segmented cutting of the kelp.

The power mechanism for enabling the cutter substrate to move up and down can also be a crank sliding block mechanism. The mechanism comprises a support, a crank, a connecting rod, a cutter bar and a guide sleeve, wherein a motor is fixed on the support, the motor is connected with a speed reducer, the speed reducer is connected with the crank, the crank is connected with the connecting rod, the connecting rod is connected with the cutter bar, a bottom plate of the guide sleeve is fixedly connected with the support through a flange plate, the crank rotates to push the cutter bar to do vertical reciprocating linear motion in the guide sleeve through the connecting rod, and the motion drives a cutter to do vertical motion through a cutter substrate, so that the kelp is cut by section cutting.

The number of the cutters and the number of the conveyer belts are respectively three or three, the cutters are arranged between two adjacent conveyer belts, and cutter backing plates corresponding to the cutters are arranged below the conveyer belts, so that kelp can be conveniently cut.

The workbench can be provided with a feeding plate, and the workbench or the feeding plate is provided with a slot for the comb teeth to pass through, so that the comb teeth are better inserted into the kelp group to hook the kelp seedling rope, the kelp is dragged on the conveying belt under the cutter base plate, and the kelp seedling rope is kept in a straight state, so that the roots of the kelp are kept on the same straight line.

The carrier rollers are arranged at intervals under the conveying belt, and the roller shafts of the carrier rollers are supported on the bracket through the bearings, so that the conveying belt moves stably, and the middle part of the conveying belt is prevented from sinking. The tail end of the kelp section conveying mechanism is provided with a discharging flow distribution plate group so as to facilitate the kelp which is cut into sections to enter respective boiling grooves.

The cutter bar moves in the holes of the guide sleeve, the flange plate and the guide sleeve bottom plate, so that the cutter base plate and the cutter connected with the cutter bar are driven to move up and down, and the reciprocating motion of the cutter bar is ensured to be straight, smooth, stable and reliable.

The workbench is rectangular, the bracket is arranged on the left side of the workbench, the chain wheels are arranged on the front side and the rear side of the bracket, the chain is arranged along the length direction of the workbench, the conveying belt is arranged along the width direction of the workbench, and the chain and the conveying belt are arranged vertically.

When the kelp seedling rope is used, a rope (group) of fresh kelp together with the kelp seedling rope is placed on a workbench; starting a conveying chain of the feeding mechanism, driving the comb teeth to move by the chain, enabling a row of comb teeth to penetrate through a slot opening of the workbench or the feeding plate, hooking the kelp seedling rope and dragging forward for a distance of the length of the kelp, and at the moment, dragging the kelp seedling rope to the upper parts of three conveying belts of the kelp section conveying mechanism and pausing; then starting the kelp cutting mechanism, moving the three cutters downwards, enabling the cutters to fall into the gaps of the conveying belt, and cutting the kelp on the kelp seedling rope into three sections, namely a root section, a middle section and a tail section; thirdly, the cutter moves upwards to return to the original position and pauses; and starting the three conveyor belts to move synchronously, sending out the three sections of cut kelp, pausing, feeding the three sections of kelp into three boiling grooves of a subsequent process through a discharge flow distribution plate group, placing the next rope of fresh kelp and the kelp seedling rope on a workbench or a feeding plate in the time period, and repeating the steps. When the conveying chain is restarted, the seedling ropes on the front row of comb teeth automatically fall off, and the next row of comb teeth drags the next rope of kelp to the three conveying belts. The invention works in a beat mode, has high automation degree, low labor intensity of workers in the kelp segmentation process and high production rate. Because the comb teeth are dense, the kelp seedling ropes can be positioned on a straight line, so that the roots of the kelp seedlings are also positioned on the same straight line, and the consistency of the product specifications is ensured.

Drawings

FIG. 1 is an isometric view of the overall design of the present invention.

Fig. 2 is an overall design front view of the present invention.

Fig. 3 is a side view of the overall design of the present invention.

Fig. 4 is a top view of the overall design of the present invention.

Fig. 5 is a view showing the coupling of the comb teeth and the conveying chain.

FIG. 6 is a graph of comb teeth in relation to a feeding plate.

Fig. 7 is a relational diagram of the kelp section conveying mechanism and the kelp feeding mechanism.

Fig. 8 is a partially enlarged view of the cutting mechanism.

Fig. 9 is a diagram of the relationship between the cutter and the conveyor.

Fig. 10 is a work flow diagram.

In the figure: 1-a workbench; 2-kelp feed mechanism, wherein: 201-chain wheel, 202-chain, 203-comb tooth base plate, 204-comb tooth, 205-feeding plate, 206-fresh kelp and 207-kelp rope; 3-a scaffold; 4-a kelp cutting mechanism, wherein: 401-motor, 402-reducer, 403-coupler, 404-bearing seat, 405-crank, 406-connecting rod, 407-cutter bar, 408-guide sleeve, 409-guide sleeve bottom plate, 410-cutter base plate, 411-root cutter, 412-middle cutter and 413-tail cutter; 5-kelp section conveying mechanism, wherein: 501-driving belt wheel, 502-kelp root conveying belt, 503-kelp middle conveying belt, 504-kelp tail conveying belt, 505-discharging flow distribution plate group, 506-driven belt wheel and 507-carrier roller.

Detailed Description

The invention is further illustrated by way of example in the following with reference to the accompanying drawings.

The utility model provides a give birth to bright kelp automatic cutout segmenting device, is equipped with the workstation, and the workstation is rectangle, is equipped with kelp feed mechanism, kelp cutting mechanism, kelp section conveying mechanism respectively through the support on the workstation, and the support setting is in the workstation left side, wherein: the kelp feeding mechanism is characterized in that two groups of parallel chain wheels are arranged on a workbench through a support, one group of chain wheels is connected with a motor through a chain wheel shaft, each group of chain wheels consists of a front chain wheel and a rear chain wheel, the two groups of chain wheels are connected through a chain, a comb tooth substrate is arranged on the chain, the comb tooth substrate is parallel to the axis of each group of chain wheels, comb teeth are arranged on the comb tooth substrate at intervals, the chain wheels are arranged on the front side and the rear side of the support, the chain is arranged along the length direction of the workbench, a cutter substrate is arranged on the kelp cutting mechanism, at least two strip-shaped cutters are arranged below the cutter substrate, and the cutter substrate is connected with a power mechanism which is arranged; the power mechanism which enables the cutter base plate to move up and down can be a linear motor, a hydraulic oil cylinder or an air cylinder, the linear motor, the hydraulic oil cylinder or the air cylinder is fixed on the support, a telescopic arm of the linear motor, the hydraulic oil cylinder or the air cylinder is connected with the cutter bar, and the telescopic arm of the linear motor, the hydraulic oil cylinder or the air cylinder drives the cutter to move up and down through the cutter bar and the cutter base plate to realize the segmented cutting of the kelp; the power mechanism for enabling the cutter substrate to move up and down can also be a crank-link mechanism, the mechanism comprises a support, a crank, a link, a cutter bar, a guide sleeve and the like, the motor is fixed on the support, the motor is connected with the crank through a speed reducer, the crank is connected with the link, the link is connected with the cutter bar, a base plate of the guide sleeve is fixedly connected with the support through a flange plate, and the crank rotates to push the cutter bar to do reciprocating linear motion up and down in the guide sleeve through the link, so that the cutter moves up and down, and the segmented cutting of the kelp is realized; the kelp section conveying mechanism is at least provided with two conveying belts which are vertical cross-shaped with a chain under a cutter substrate, the conveying belts are supported on a support by a driving belt wheel and a driven belt wheel, the driving belt wheel is connected with a motor through a speed reducer, the cutters and the conveying belts are respectively three or three, the cutters are arranged between adjacent conveying belts, cutter base plates corresponding to the cutters are arranged under the conveying belts to facilitate cutting of kelp, carrier rollers are arranged under the conveying belts at intervals, and carrier roller shafts are supported on the support through bearings to enable the conveying belts to move stably and prevent the middle parts of the conveying belts from sinking. The tail end of the kelp section conveying mechanism is provided with a discharging flow distribution plate group so as to facilitate the kelp which is cut into sections to enter respective boiling grooves. The cutter bar drives the cutter base plate and the cutter connected with the cutter bar to move up and down through the guide sleeve, the flange and the guide sleeve bottom plate so as to ensure that the reciprocating motion of the cutter bar is straight, smooth, stable and reliable. The conveyer belt is arranged along the width direction of the workbench, and the chain and the conveyer belt are arranged in a vertical crossing manner. The workbench can be provided with a feeding plate which is provided with a slot for the comb teeth to pass through so that the comb teeth can be better inserted into the kelp group to hook the kelp seedling rope, the kelp is dragged on the conveying belt below the cutter base plate, and the kelp seedling rope is kept in a straight state so as to ensure that the roots of the kelp are kept on the same straight line, thereby ensuring that the specifications of products are consistent.

Example (b):

as shown in the figure, the kelp cutting device mainly comprises a workbench 1, a kelp feeding mechanism 2, a support 3, a kelp cutting mechanism 4 and a kelp section conveying mechanism 5. The feeding plate 205 is used for placing kelp, and grooves which are parallel to each other along the moving direction of the kelp are formed in the feeding plate 205; the comb 204 is coupled with the chain 202 through the comb substrate 203 and moves along with the chain 202, the chain 202 moves along with the chain wheel 201, and the chain wheel 201 is connected with the bracket through a chain wheel shaft and driven by a motor. The kelp cutting mechanism comprises a support 3, a motor 401, a speed reducer 402, a coupler 403, a bearing seat 404, a crank 405, a connecting rod 406, a cutter bar 407, a guide sleeve 408, a guide sleeve bottom plate 409, a cutter base plate 410, a kelp root cutter 411, a kelp middle cutter 412 and a kelp tail cutter 413. The guide sleeve 408 is rigidly connected with a guide sleeve bottom plate 409 through a flange plate, and the guide sleeve bottom plate 409 is rigidly connected with the bracket 3; the cutter bar 407 is rigidly connected with the cutter base plate 410, and the cutter base plate 410 is connected with three cutters: the root cutter 411, the middle cutter 412 and the tail cutter 413 are rigidly connected. Motor 401, reduction gear 402, bearing frame 404 are fixed on support 3, and motor 401 drives the crank 405 rotation after reduction gear 402 slows down, and rethread connecting rod 406 drives cutter arbor 407 and is reciprocal linear motion in uide bushing 408, ring flange, the downthehole of uide bushing bottom plate 409 to make three cutters through cutter base plate 410: the kelp root cutter 411, the kelp middle cutter 412 and the kelp tail cutter 413 move up and down. The conveying mechanism of the kelp section consists of a motor, a bracket, a driving belt pulley 501, a kelp root conveying belt 502, a kelp middle conveying belt 503, a kelp tail conveying belt 504, a discharging flow distribution plate group 505, a driven belt pulley 506 and a carrier roller 507. The motor is connected with a driving pulley 501 through a speed reducer, the driving pulley 501 and a driven pulley 506 are connected with a bracket, three

conveying belts

502, 503 and 504 are arranged on the driving pulley 501 and the driven pulley 506, a carrier roller 507 is arranged below the conveying belts, and a discharging splitter plate group 505 is arranged at the tail end of the kelp section conveying mechanism.

The working process of the device is as follows:

① a fresh kelp string 206 and a seedling string 207 are placed on a

feeding plate

205, ② the conveying chain is started, the chain 202 drives the comb tooth base plate 203 and the comb teeth 204 to move, the first row of comb teeth passes through the slots of the feeding plate 205, hooks the seedling string 207 and drags the kelp string for a distance of the length of the kelp string, at this time, the kelp string is dragged to the top of the three

conveying belts

502, 503, 504, and is suspended, ③ the kelp cutting mechanism 4 is started, the three cutters move downward simultaneously, the root cutter 411 falls on the side surface of the conveying belt 502, the middle cutter 412 falls in the gap between the

conveying belts

502 and 503, the tail cutter 413 falls in the gap between the

conveying belts

503 and 504, the kelp string on the seedling string is cut into three sections of root, middle and tail, ④ the three cutters move upward and return to the original position and are suspended, ⑤ the

conveying belts

502, 503, 504 move synchronously, the three sections are conveyed out of the discharging port through a discharging plate group 505, are suspended, the three sections enter three grooves of the subsequent processes for blanching the fresh kelp string 206 and the seedling string 207, and the conveying chain is dragged to the upper comb plate 502 and the three sections of the seedling string 205, and the comb teeth of the conveying belt 502 and the comb teeth of the conveying belt 502 and the comb teeth 504 again.

The invention works in a beat mode, has high automation degree, low labor intensity of workers in the kelp segmentation process and high production rate. Because the distance between the comb teeth is smaller, the kelp seedling rope can be positioned on the same straight line, and the root parts of the kelp are also positioned on the same straight line, thereby ensuring the uniform specification of products.

Claims

1. The utility model provides a give birth to bright kelp automatic cutout segmenting device is equipped with the workstation, is equipped with kelp feed mechanism, kelp cutting mechanism, kelp section conveying mechanism on its characterized in that workstation, wherein:

the comb tooth cleaning device comprises a workbench, a support, chain wheels, a chain, a conveying belt, a feeding plate and a comb tooth, wherein the workbench is rectangular, the support is arranged on the left side of the workbench, the chain wheels are arranged on the front side and the rear side of the support, the chain is arranged along the length direction of the workbench, the conveying belt is arranged along the width direction of the workbench, the chain and the conveying belt are arranged vertically, the workbench is provided with the feeding plate, and the feeding plate is provided;

the kelp feeding mechanism is characterized in that two groups of parallel chain wheels are arranged on a workbench through a support, one group of chain wheels is connected with a motor, each group of chain wheels consists of a front chain wheel and a rear chain wheel, the two groups of chain wheels are connected through a chain, a comb tooth substrate is arranged on the chain, the comb tooth substrate is parallel to the axis of the chain wheel of each group of chain wheels, and comb teeth are arranged on the comb tooth substrate at intervals;

the kelp cutting mechanism is provided with a cutter substrate, at least two strip-shaped cutters are arranged below the cutter substrate, the cutter substrate is connected with a power mechanism which is arranged on the bracket and enables the cutter substrate to move up and down through a cutter bar, the cutters are arranged between adjacent conveyer belts, and a cutter base plate corresponding to the cutters is arranged below the conveyer belts;

the kelp section conveying mechanism is characterized in that at least two conveying belts which are vertically crossed with the chain are arranged below the cutter substrate, the conveying belts are supported on the bracket by a driving belt wheel and a driven belt wheel, and the driving belt wheel is connected with a motor; the lower part of the conveying belt is provided with carrier rollers at intervals, carrier roller shafts are supported on the bracket through bearings, and the tail end of the kelp section conveying mechanism is provided with a discharging flow distribution plate group.

2. The automatic fresh kelp cutting and segmenting device according to claim 1, wherein the power mechanism for moving the cutter base plate up and down is a linear motor, a hydraulic cylinder or a cylinder, the linear motor, the hydraulic cylinder or the cylinder is fixed on the support, the telescopic part of the linear motor, the hydraulic cylinder or the cylinder is connected with the cutter bar, and the telescopic part of the linear motor, the hydraulic cylinder or the cylinder drives the cutter to move up and down through the cutter bar and the cutter base plate to realize the segmented cutting of the kelp.

3. The automatic fresh kelp cutting and segmenting device as claimed in claim 1, wherein the power mechanism for moving the cutter base plate up and down is a crank-link mechanism, the motor is fixed on the support, the motor is connected with the speed reducer, the speed reducer is connected with the crank, the crank is connected with the link, the link is connected with the cutter bar, the guide sleeve bottom plate is fixedly connected with the support through the flange plate, the rotation of the crank pushes the cutter bar to do up-and-down reciprocating linear motion in the guide sleeve through the link, and the motion drives the cutter to do up-and-down motion through the cutter base plate, so that the segmented cutting of the kelp is realized.