CN112497315A

CN112497315A - Kelp shredding equipment

Info

Publication number: CN112497315A
Application number: CN202011253899.XA
Authority: CN
Inventors: 李永
Original assignee: Individual
Current assignee: Quanzhou Yuzhijiang Breeding Co ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-03-16
Anticipated expiration: 2040-11-11
Also published as: CN112497315B

Abstract

The invention relates to the field of kelp shredding, in particular to kelp shredding equipment which comprises a gap water spraying mechanism, an upper shredding mechanism, a lower shredding mechanism, a bidirectional driving mechanism, a material pushing mechanism, a mounting frame and two guide plates, wherein the bidirectional driving mechanism is used for regulating the rotating speed of a driving motor so as to accelerate the shredding and moving speeds simultaneously, improve the working efficiency of the equipment and facilitate system control, the shredding and displacement of kelp are driven to be carried out synchronously by the bidirectional driving mechanism, the situation that the shredded kelp is cut repeatedly for multiple times is avoided, the production efficiency is improved, the situation that the shredded kelp is cut off by pulling when the kelp is cut for multiple times is avoided, the upper shredding mechanism drives an extrusion spraying mechanism to work, the situation that water flow on the spraying mechanism is sprayed onto shredding rake claws when the spraying mechanism is sprayed is avoided, and further the situation that the water flow is sprayed onto the shredding rake claws to cause splashing is avoided, the mode of always spraying water for flushing is replaced, and a large amount of water resources are saved.

Description

Kelp shredding equipment

Technical Field

The invention relates to the field of kelp shredding, and particularly relates to kelp shredding equipment.

Background

In the process of shredding the kelp, methods of machine cutting and manual cutting are often adopted, when the kelp is cut by a machine, the kelp is often cut only along the length direction of the kelp, the cutting in the width direction is difficult to perform, the cut kelp is often in a scattered structure, the kelp cannot be sold in a bundle, when the kelp is shredded by a worker, the kelp is often shredded on a shredder by the worker, and by the method, the shredded kelp is often shredded again, so that the kelp is cut repeatedly for many times, the production efficiency is reduced, and because the shredded kelp is cut off by pulling and the shredded kelp is washed by the worker after being shredded, a large amount of time is wasted by the worker, and shredded kelp residues often flow on the shredder for a long time, requiring a worker to clean.

Disclosure of Invention

The invention aims to provide kelp shredding equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a kelp shredding device, which comprises a gap water spraying mechanism, an upper shredding mechanism, a lower shredding mechanism, a bidirectional driving mechanism, a material pushing mechanism, a mounting frame and two guide plates, wherein the mounting frame is fixedly arranged on the ground, the two guide plates are fixedly arranged at the top of the mounting frame through a connecting plate, the two guide plates are symmetrically arranged, a gap for clamping kelp is reserved between the two guide plates, the left ends of the two guide plates are both of a downward bending structure, the material pushing mechanism for pushing the kelp to move is fixedly arranged on the mounting frame, the material pushing mechanism is in transmission connection with the bidirectional driving mechanism, the bidirectional driving mechanism is arranged above the right end of the mounting frame, the bidirectional driving mechanism is fixedly arranged on the mounting frame, the upper shredding mechanism for shredding the upper half part of the kelp is arranged at one side of the mounting frame, the lower shredding mechanism for shredding the lower half part of the kelp is arranged at, and go up silk mechanism and lower silk mechanism all fixed mounting subaerial, go up silk mechanism and lower silk mechanism all with two-way actuating mechanism transmission connection, clearance water spray mechanism fixed mounting subaerial, and clearance water spray mechanism is connected with last silk mechanism transmission, and the below of mounting bracket is provided with the water collecting pipe who is used for the water receiving.

Furthermore, the upper wire cutting mechanism comprises a rotating roller, a wire cutting rake claw and two rotating frames, the two rotating frames are fixedly installed on the ground, the rotating roller is rotatably connected with the two rotating frames, the wire cutting rake claw is fixedly installed on the outer edge of the rotating roller, one end of the rotating roller is in transmission connection with the gap water spraying mechanism, the other end of the rotating roller is in transmission connection with the bidirectional driving mechanism, and the upper wire cutting mechanism and the lower wire cutting mechanism are identical in structure.

Furthermore, the gap water spraying mechanism comprises an extrusion spraying mechanism, a water pumping one-way gate mechanism, a spraying mechanism, a water outlet one-way gate, a water storage tank, a water suction tank and a partition plate, the water storage tank is fixedly arranged on the ground, the water suction tank is positioned above the water storage tank, the bottom of the water suction tank is fixedly provided with a connecting square pipe communicated with the inside, the bottom of the connecting square pipe is positioned at the bottom of the inner side of the water storage tank, the connecting square pipe is fixedly connected with the water storage tank, the joint of the connecting square pipe and the water storage tank is sealed, the partition plate is fixedly arranged in the water suction tank, a gap for allowing water to pass through is reserved between the bottom of the partition plate and the bottom of the inner side of the water suction tank, the water suction tank is divided into a water pumping cavity and a water spraying cavity by the partition plate, the water pumping one-way gate mechanism for preventing water in the water suction tank, the extrusion injection mechanism for extruding the water pumping cavity is fixedly arranged on the water suction box, the extrusion injection mechanism is in transmission connection with one end of the rotating roller, the injection mechanism is fixedly arranged on the ground, a water inlet of the injection mechanism is communicated with the water spraying cavity, and a water outlet of the injection mechanism faces the kelp.

Further, the bidirectional driving mechanism comprises a first belt wheel, a second belt wheel, a driving shaft, a supporting plate, a driving motor, a reducer, two first bevel gears, two second bevel gears, shaft seats and drivers, the supporting plate is fixedly arranged on the mounting frame through a square tube, the two drivers are fixedly arranged on the supporting plate and are respectively in transmission connection with the lower wire cutting mechanism and the upper wire cutting mechanism, the two second bevel gears are respectively fixedly arranged on the two drivers, the two first bevel gears are positioned at the inner sides of the two second bevel gears and are respectively engaged with the two second bevel gears, the two first bevel gears are fixedly arranged on the driving shaft, the driving shaft is in rotation connection with the two shaft seats, the two shaft seats are respectively fixedly arranged on the supporting plate, the second belt wheel is fixedly arranged on the driving shaft, the driving motor is fixedly arranged on the supporting plate, and the input end of the reducer is fixedly arranged on the output, the first belt wheel is fixedly arranged at the output end of the subtracting device, the first belt wheel is connected with the second belt wheel through a belt, and the driving shaft is in transmission connection with the material pushing mechanism.

Furthermore, each driver comprises a third belt wheel, a fourth belt wheel, a transmission shaft and two first roller seats, the fourth belt wheels of the two drivers are fixedly installed on rotating rollers of the lower shredding mechanism and the upper shredding mechanism respectively, the third belt wheel is fixedly installed on the transmission shaft, the two first roller seats are rotatably connected with the transmission shaft, the first roller seats are fixedly installed on a supporting plate through square pipes, the third belt wheel is in transmission connection with the fourth belt wheel through a belt, and a second bevel gear is fixedly installed on the drivers.

Further, the pushing mechanism comprises a first chain wheel, a second chain wheel, a third chain wheel, a fourth chain wheel, a driving shaft, a driven shaft, a pushing chain, a transmission chain and a plurality of pushing shafts, the first chain wheel is fixedly arranged on the driving shaft, the second chain wheel is fixedly arranged on the driving shaft, the third chain wheel is rotatably arranged on the mounting frame through a roller seat, the third chain wheel is rotatably connected with the roller seat, the driven shaft is rotatably arranged on the mounting frame through the roller seat, the driven shaft is rotatably connected with the roller seat, the fourth chain wheel is fixedly arranged on the driven shaft, the pushing chain is respectively meshed with the fourth chain wheel and the third chain wheel, the transmission chain is meshed with the first chain wheel and the second chain wheel, the pushing chain is parallel to the length direction of the guide plate, the bottom of the pushing chain is attached to the top of the guide plate, the plurality of pushing shafts are fixedly arranged on, and the plurality of pushing shafts are uniformly distributed along the profile of the pushing chain.

Further, extrusion injection mechanism includes the piston plate, the push rod, the dead lever, the hinge bar, baffle and two first guide pillars, the one end fixed mounting of dead lever is on changeing the roller, the one end of hinge bar is articulated with the other end of dead lever, the other end of hinge bar is articulated with the top of push rod, the bottom fixed mounting of push rod is on the piston plate, the bottom of two first guide pillars and the top fixed connection of piston plate, baffle fixed mounting is on the suction box, and set up two gliding slide holes from top to bottom of supplying first guide pillar on the baffle.

Further, injection mechanism includes the shower nozzle, the water guide pipeline, the leading pipe, sealed apron and mount, mount fixed mounting is subaerial, sealed apron is located the inboard top of water spray cavity, four sides of sealed apron all with suction box fixed connection and sealed, the top of sealed apron is provided with the second outlet pipe, the one end fixed connection and the intercommunication of second outlet pipe and leading pipe, water guide pipeline fixed mounting is on the mount, and be provided with the first outlet pipe of a plurality of on the water guide pipeline, the first outlet pipe of a plurality of is connected with a plurality of shower nozzle respectively, and still be provided with the inlet tube on the water guide pipeline, the other end fixed connection of inlet tube and leading pipe.

Further, the one-way gate mechanism that draws water includes fixed baffle, the flashboard, two second guide pillars, extrusion spring and positioning circular plate, fixed baffle fixed mounting is on connecting side pipe, a plurality of apopore has been seted up on the fixed baffle, the flashboard lid is established on a plurality of apopore, and the top of two second guide pillars and the bottom fixed connection of flashboard, fixed baffle is passed to the bottom of two second guide pillars, set up on the fixed baffle and supply second guide pillar gliding guide hole from top to bottom, two positioning circular plate fixed mounting are respectively in the bottom of two second guide pillars, and two extrusion springs overlap respectively and establish on two second guide pillars, the one end and the positioning circular plate of every extrusion spring are contradicted, the other end and the flashboard of every extrusion spring are contradicted, the one-way gate mechanism that draws water is the same with a water one-.

The invention has the beneficial effects that:

1. the kelp shredding device has five effects through a bidirectional driving mechanism, one of the five effects is that the shredding and moving speed can be simultaneously accelerated by adjusting the rotating speed of a driving motor, the working efficiency of the device is improved, and the system control is convenient, the second effect is that the shredding and the displacement of the kelp are driven to be synchronously carried out through the bidirectional driving mechanism, the situation that the shredded kelp is repeatedly cut is avoided, the production efficiency is improved, the third effect is that the kelp shred is prevented from being broken due to the fact that the kelp shred is cut for multiple times, the fourth effect is that the upper shredding mechanism is driven to work through the bidirectional driving mechanism, meanwhile, the upper shredding mechanism drives an extrusion injection mechanism to work, the situation that water flow on the injection mechanism is sprayed onto the shredding rake claws when the injection mechanism is sprayed is avoided, and further the water flow splashing caused by the water flow being sprayed onto the shredding rake claws is avoided, and the fifth effect is that the upper shredding mechanism drives the extrusion injection mechanism to work, the spraying water flow which can be quantified and is in the clearance washes the kelp, replaces the mode of always spraying water to wash, and saves a large amount of water resources.

2. Through going up the silk mechanism, played two effects, shred the kelp through going up the silk mechanism, replace the transmission workman to carry out the mode of shredding to the kelp, practiced thrift a large amount of time of workman, its two, through the mode of this kind of rotatory cutting, avoided the kelp to go up the silk residue on the kelp and stayed on the shred rake claw for a long time, avoided the clearance of workman to the shred rake claw, practiced thrift a large amount of time of workman.

3. The mode that the kelp is moved by a worker is replaced by the material pushing mechanism, a large amount of time of the worker is saved, the moving speed is guaranteed, and the shredding effect is better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

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

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of the upper cutting mechanism;

FIG. 4 is a partial perspective view of the gap spray mechanism;

FIG. 5 is a partial top view of the gap spray mechanism;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

FIG. 7 is a schematic perspective view of the bi-directional driving mechanism;

FIG. 8 is a schematic perspective view of the pushing mechanism;

FIG. 9 is a schematic perspective view of the extrusion jetting mechanism;

FIG. 10 is a perspective view of the injection mechanism;

FIG. 11 is an exploded perspective view of the one-way pumping gate mechanism;

in the figure:

1. a gap water spraying mechanism; 1a, an extrusion injection mechanism; 1a1, piston plate; 1a2, push rod; 1a3, fixing bar; 1a4, hinge bar; 1a5, guide plate; 1a6, a first guide pillar; 1b, a water pumping one-way gate mechanism; 1b1, fixed guide plate; 1b2, second guide post; 1b3, compression spring; 1b4, positioning circular plate; 1b5, shutter; 1b6, water outlet; 1c, an injection mechanism; 1c1, spray head; 1c2, water conduit; 1c3, a first water outlet pipe; 1c4, water inlet pipe; 1c5, a water conduit; 1c6, sealing cover plate; 1c7 and a second water outlet pipe; 1c8, a fixed mount; 1d, a water outlet one-way gate; 1h, a water storage tank; 1e, a suction box; 1e1, connecting square tubes; 1f, a partition plate; 1i, a water pumping cavity; 1j, a water spraying cavity; 2. an upper wire cutting mechanism; 2a, rotating the roller; 2b, rotating the frame; 2c, shredding rake claws; 3. a lower filament cutting mechanism; 4. a bi-directional drive mechanism; 4a, a first pulley; 4b, a second pulley; 4c, a drive shaft; 4d, a first bevel gear; 4e, a second bevel gear; 4f, a support plate; 4i, a shaft seat; 4h, a driver; 4h1, third pulley; 4h2, fourth pulley; 4h3, a transmission shaft; 4h4, a first roller seat; 4g, driving a motor; 4k, a speed reducer; 5. a material pushing mechanism; 5a, a first chain wheel; 5b, a second sprocket; 5c, a third sprocket; 5d, a fourth chain wheel; 5e, driving shaft; 5f, a driven shaft; 5h, pushing the chain; 5i, a transmission chain; 5j, a material pushing shaft; 6. a mounting frame; 7. a guide plate; 8. a water collection pipe; 9. kelp.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 11, the kelp shredding device comprises a gap water spraying mechanism 1, an upper shredding mechanism 2, a lower shredding mechanism 3, a bidirectional driving mechanism 4, a material pushing mechanism 5, a mounting frame 6 and two guide plates 7, wherein the mounting frame 6 is fixedly arranged on the ground, the two guide plates 7 are fixedly arranged at the top of the mounting frame 6 through a connecting plate, the two guide plates 7 are symmetrically arranged, a gap for clamping kelp 9 is reserved between the two guide plates 7, the left ends of the two guide plates 7 are both of a downward bent structure, the material pushing mechanism 5 for pushing the kelp 9 to move is fixedly arranged on the mounting frame 6, the material pushing mechanism 5 is in transmission connection with the bidirectional driving mechanism 4, the bidirectional driving mechanism 4 is positioned above the right end of the mounting frame 6, the bidirectional driving mechanism 4 is fixedly arranged on the mounting frame 6, the upper shredding mechanism 2 for shredding the upper half part of the kelp 9 is positioned at one side of the mounting frame 6, a lower shredding mechanism 3 for shredding kelp 9 lower half is located the opposite side of mounting bracket 6, and goes up shredding mechanism 2 and lower equal fixed mounting of shredding mechanism 3 subaerial, goes up shredding mechanism 2 and lower shredding mechanism 3 and all is connected with the transmission of two-way actuating mechanism 4, and clearance water spray mechanism 1 fixed mounting is subaerial, and clearance water spray mechanism 1 with go up shredding mechanism 2 transmission and be connected, the below of mounting bracket 6 is provided with the water collecting pipe 8 that is used for the water receiving.

The upper wire cutting mechanism 2 comprises a rotating roller 2a, a wire cutting rake 2c and two rotating frames 2b, the two rotating frames 2b are fixedly installed on the ground, the rotating roller 2a is rotatably connected with the two rotating frames 2b, the wire cutting rake 2c is fixedly installed on the outer edge of the rotating roller 2a, one end of the rotating roller 2a is in transmission connection with the gap water spraying mechanism 1, the other end of the rotating roller 2a is in transmission connection with a bidirectional driving mechanism 4, and the upper wire cutting mechanism 2 is identical to the lower wire cutting mechanism 3 in structure. Work through two-way actuating mechanism 4, and then make two-way actuating mechanism 4 drive go up silk mechanism 2 and cut the commentaries on classics roller 2a on the silk mechanism 3 down and rotate, change roller 2a and drive and shred rake claw 2c and rotate, and then make and shred rake claw 2c and shred to kelp 9, and change roller 2a and will drive clearance water spray mechanism 1 simultaneously and carry out work, make clearance water spray mechanism 1 spray water to kelp 9, consequently, change roller 2a and play the effect that drives the cutting, and change roller 2a still plays the effect of drive water spray.

The gap water spraying mechanism 1 comprises an extrusion spraying mechanism 1a, a water pumping one-way gate mechanism 1b, a spraying mechanism 1c, a water outlet one-way gate 1d, a water storage tank 1h, a water suction tank 1e and a partition plate 1f, wherein the water storage tank 1h is fixedly arranged on the ground, the water suction tank 1e is positioned above the water storage tank 1h, the bottom of the water suction tank 1e is fixedly provided with a connecting square pipe 1e1 communicated with the inside, the bottom of the connecting square pipe 1e1 is positioned at the inner bottom of the water storage tank 1h, the connecting square pipe 1e1 is fixedly connected with the water storage tank 1h, the joint of the connecting square pipe 1e1 and the water storage tank 1h is sealed, the partition plate 1f is fixedly arranged in the water suction tank 1e, a gap for water flow to pass through is reserved between the bottom of the partition plate 1f and the inner bottom of the water suction tank 1e, the partition plate 1f divides the water suction tank 1e into a water pumping cavity 1i and a water spraying cavity 1j, and the one- 1e1, a water outlet one-way gate 1d for preventing water flow in the water spray cavity 1j from entering the water pumping cavity 1i is fixedly arranged in the water suction box 1e, an extrusion injection mechanism 1a for extruding the water pumping cavity 1i is fixedly arranged on the water suction box 1e, the extrusion injection mechanism 1a is in transmission connection with one end of a rotating roller 2a, an injection mechanism 1c is fixedly arranged on the ground, a water inlet of the injection mechanism 1c is communicated with the water spray cavity 1j, and a water outlet of the injection mechanism 1c faces the kelp 9. The extrusion spraying mechanism 1a is driven to work through the rotation of the rotating roller 2a, so that the extrusion spraying mechanism 1a moves up and down in the pumping cavity 1i, when the extrusion spraying mechanism 1a extrudes downwards, the rotating roller 2a is positioned in the front half section of the rotation, the extrusion spraying mechanism 1a extrudes water flow in the pumping cavity 1i, so that the water flow in the pumping cavity 1i enters the water spraying cavity 1j through the water outlet one-way gate 1d, and the water flow entering the water spraying cavity 1j is sprayed out from the water spraying cavity 1j to wash the sea belt 9;

when the extrusion injection mechanism 1a moves upwards, the rotating roller 2a is positioned at the rear half section of rotation, and due to the suction force generated by the extrusion injection mechanism 1a and the pumping cavity 1i, the pumping one-way gate mechanism 1b is opened, and the water flow in the water storage tank 1h enters the pumping cavity 1i through the pumping one-way gate mechanism 1 b;

therefore, the squeezing and ejecting mechanism 1a functions to pump out the water flow in the reservoir 1h and also functions to squeeze the water flow in the pumping chamber 1 i.

The bidirectional driving mechanism 4 comprises a first belt wheel 4a, a second belt wheel 4b, a driving shaft 4c, a supporting plate 4f, a driving motor 4g, a decrementer 4k, two first bevel gears 4d, two second bevel gears 4e, shaft seats 4i and drivers 4h, wherein the supporting plate 4f is fixedly arranged on an installation frame 6 through a square tube, the two drivers 4h are fixedly arranged on the supporting plate 4f, the two drivers 4h are respectively in transmission connection with the lower wire cutting mechanism 3 and the upper wire cutting mechanism 2, the two second bevel gears 4e are respectively and fixedly arranged on the two drivers 4h, the two first bevel gears 4d are positioned at the inner sides of the two second bevel gears 4e, the two first bevel gears 4d are respectively engaged with the two second bevel gears 4e, the two first bevel gears 4d are fixedly arranged on the driving shaft 4c, and the driving shaft 4c is in rotation connection with the two shaft seats 4i, two axle seats 4i are all fixedly mounted on a support plate 4f, a second belt wheel 4b is fixedly mounted on a drive shaft 4c, a drive motor 4g is fixedly mounted on the support plate 4f, the input end of a number reducer 4k is fixedly mounted on the output end of the drive motor 4g, a first belt wheel 4a is fixedly mounted on the output end of the number reducer 4k, the first belt wheel 4a is connected with the second belt wheel 4b through a belt, and the drive shaft 4c is in transmission connection with a material pushing mechanism 5. The two first bevel gears 4d are positioned at the inner sides of the two second bevel gears 4e, so that the two second bevel gears 4e rotate inwards, the two drivers 4h drive the shredding rake claws of the lower shredding mechanism 3 and the upper shredding mechanism 2 to shred the kelp 9 from top to bottom, and if the kelp cannot be shredded from bottom to top;

the driving motor 4g is controlled by the controller to work, the driving motor 4g drives the reducer 4k to rotate, the reducer 4k drives the first belt wheel 4a to rotate, the first belt wheel 4a drives the second belt wheel 4b to rotate through a belt, the second belt wheel 4b drives the two first bevel gears 4d to rotate through the driving shaft 4c, the first bevel gears 4d drive the driver 4h to rotate through the second bevel gear 4e, the kelp 9 is shredded from top to bottom by the shredding rake claws of the upper shredding mechanism 2 and the lower shredding mechanism 3, and the driving shaft 4c drives the material pushing mechanism 5 to work while rotating;

therefore, through adjusting driving motor 4 g's rotational speed, and then can accelerate simultaneously and shred the speed with removing, improve equipment's work efficiency, and the system control of being convenient for, and go on through shredding and displacement's synchronization, avoid carrying out the repeated multiple cutting to kelp 9 after shredding, the production efficiency of improvement, and when avoiding because cutting many times, cut kelp 9 after shredding and break, consequently, drive shaft 4c plays and drives two-way shredding work, and still play and drive the kelp removal after shredding.

Each driver 4h comprises a third belt wheel 4h1, a fourth belt wheel 4h2, a transmission shaft 4h3 and two first roller seats 4h4, the fourth belt wheels 4h2 of the two drivers 4h are fixedly installed on the rotating rollers of the lower shredding mechanism 3 and the upper shredding mechanism 2 respectively, the third belt wheel 4h1 is fixedly installed on the transmission shaft 4h3, the two first roller seats 4h4 are rotatably connected with the transmission shaft 4h3, the first roller seats 4h4 are fixedly installed on the supporting plate 4f through square tubes, the third belt wheel 4h1 is in transmission connection with the fourth belt wheel 4h2 through a belt, and the second bevel gear 4e is fixedly installed on the driver 4 h. Through the rotation of second bevel gear 4e, and then drive the rotation of transmission shaft 4h3, transmission shaft 4h3 will drive third band pulley 4h1 and rotate, and third band pulley 4h1 drives fourth band pulley 4h2 through the belt and rotates, and then makes two fourth band pulleys 4h2 drive and goes up shredding mechanism 2 and lower shredding mechanism 3 and move.

The material pushing mechanism 5 comprises a first chain wheel 5a, a second chain wheel 5b, a third chain wheel 5c, a fourth chain wheel 5d, a driving shaft 5e, a driven shaft 5f, a pushing chain 5h, a transmission chain 5i and a plurality of material pushing shafts 5j, wherein the first chain wheel 5a is fixedly arranged on the driving shaft 4c, the second chain wheel 5b is fixedly arranged on the driving shaft 5e, the third chain wheel 5c is rotatably arranged on the mounting frame 6 through a roller seat, the third chain wheel 5c is rotatably connected with the roller seat, the driven shaft 5f is rotatably arranged on the mounting frame 6 through the roller seat, the driven shaft 5f is rotatably connected with the roller seat, the fourth chain wheel 5d is fixedly arranged on the driven shaft 5f, the pushing chain 5h is meshed with the fourth chain wheel 5d and the third chain wheel 5c, the transmission chain 5i is meshed with the first chain wheel 5a and the second chain wheel 5b, and promote chain 5h and be on a parallel with the length direction of deflector 7, and promote the bottom of chain 5h and the top laminating of deflector 7, a plurality of material pushing shaft 5j all fixed mounting is on promoting chain 5h, and, a plurality of material pushing shaft 5j along promoting chain 5h profile evenly distributed. Through drive shaft 4 c's rotation, it rotates to make drive shaft 4c drive first sprocket 5a, first sprocket 5a will drive second sprocket 5b through drive chain 5i and rotate, second sprocket 5b will drive driving shaft 5e and rotate, and then make driving shaft 5e drive third sprocket 5c and rotate, third sprocket 5c will drive and promote chain 5h and rotate, it rotates to promote chain 5h will drive a plurality of ejector pad axle 5j, a plurality of ejector pad axle 5j will promote a plurality of kelp 9 and remove, and then make kelp 9 be cut silk mechanism 2 and lower shredding mechanism 3 and shred on being cut silk mechanism.

The extrusion spraying mechanism 1a comprises a piston plate 1a1, a push rod 1a2, a fixed rod 1a3, a hinge rod 1a4, a guide plate 1a5 and two first guide columns 1a6, wherein one end of the fixed rod 1a3 is fixedly installed on the rotating roller 2a, one end of the hinge rod 1a4 is hinged with the other end of the fixed rod 1a3, the other end of the hinge rod 1a4 is hinged with the top of the push rod 1a2, the bottom of the push rod 1a2 is fixedly installed on the piston plate 1a1, the bottoms of the two first guide columns 1a6 are fixedly connected with the top of the piston plate 1a1, the guide plate 1a5 is fixedly installed on a water suction box 1e, and two sliding holes for the first guide columns 1a6 to slide up and down are formed in the guide plate 1a 5. Through the rotation of the roller 2a, the roller 2a drives the fixed rod 1a3 to rotate, the fixed rod 1a3 drives the hinged rod 1a4 to rotate, the hinged rod 1a4 drives the push rod 1a2 to move up and down along the length direction of the first guide post 1a6, during the first half of the rotation of the roller 2a, the piston plate 1a1 extrudes the water in the water suction box 1e, so that the water in the water suction box 1e is sprayed out along the spraying mechanism 1c, during the second half of the rotation of the roller 2a, the piston plate 1a1 pumps the water in the water suction box 1h into the water suction box 1e along the connecting square pipe 1e1,

through this kind of mode of drawing water and spraying water, avoid injection mechanism 1c when spraying, rivers on the injection mechanism 1c spout shred rake 2c on, and then avoided rivers to spout the rivers that arouse on the shred rake 2c and spatter all around, and through this kind of mode, can ration and the jetting rivers in clearance wash kelp 9, replaced the mode that sprays water and wash always, practiced thrift a large amount of water resources.

The spraying mechanism 1c comprises a spray head 1c1, a water guide pipe 1c2, a water guide pipe 1c5, a sealing cover plate 1c6 and a fixed frame 1c8, the fixed frame 1c8 is fixedly installed on the ground, the sealing cover plate 1c6 is located on the top of the inner side of a water spraying cavity 1j, four sides of the sealing cover plate 1c6 are fixedly connected and sealed with a water suction box 1e, a second water outlet pipe 1c7 is arranged on the top of the sealing cover plate 1c 92, a second water outlet pipe 1c7 is fixedly connected and communicated with one end of the water guide pipe 1c5, the water guide pipe 1c2 is fixedly installed on the fixed frame 1c8, a plurality of first water outlet pipes 1c3 are arranged on the water guide pipe 631 c2, the plurality of first water outlet pipes 1c3 are respectively connected with the spray heads 1c1, a water guide pipe 1c2 is further provided with a water inlet pipe 5731 c5, and a water inlet pipe. Through the extrusion of piston board 1a1, will make the rivers in the cavity of drawing water 1i pass through water outlet one-way gate 1d, enter into water spray cavity 1j, again pass through second outlet pipe 1c7 in proper order, leading water pipe 1c5, inlet tube 1c4, aqueduct 1c2 and first outlet pipe 1c3, spout from shower nozzle 1c1 at last, and then wash kelp 9, and can adjust the water yield of shower nozzle 1c1 according to the position, when guaranteeing to cut different positions, the washing effect of spun rivers to kelp 9 is better.

The pumping unidirectional gate mechanism 1b comprises a fixed guide plate 1b1, a gate plate 1b5, two second guide posts 1b2, an extrusion spring 1b3 and a positioning circular plate 1b4, wherein the fixed guide plate 1b1 is fixedly installed on a connecting square tube 1e1, the fixed guide plate 1b1 is provided with a plurality of water outlet holes 1b6, the gate plate 1b5 is covered on a plurality of water outlet holes 1b6, the tops of the two second guide posts 1b2 are fixedly connected with the bottom of the gate plate 1b5, the bottoms of the two second guide posts 1b2 penetrate through the fixed guide plate 1b1, the fixed guide plate 1b1 is provided with a guide hole for the second guide post 1b2 to slide up and down, the two positioning circular plates 1b4 are respectively and fixedly installed at the bottoms of the two second guide posts 1b2, the two extrusion springs 1b3 are respectively sleeved on the two second guide posts 1b2, one end of each extrusion spring 1b3 is abutted against the positioning circular plate 1b4, and the other end of each extrusion spring 3 b5, the water pumping one-way gate mechanism 1b and the water outlet one-way gate 1d have the same structure and the opposite effects. When the piston plate 1a1 pumps water upwards, the valve plate 1b5 is sucked upwards due to the internal suction force of the pumping cavity 1i, so that the valve plate 1b5 drives the second guide post 1b2 to slide upwards, and the positioning circular plate 1b4 compresses the extrusion spring 1b3, so that the water in the water storage tank 1h is sucked into the pumping cavity 1i through the water outlet hole 1b 6;

when the piston plate 1a1 is pressed downwards, due to the blocking effect of the fixed guide plate 1b1, the water flow in the pumping cavity 1i will not enter the water storage tank 1h, and at this time, the water flow in the pumping cavity 1i will act on the water outlet one-way gate 1d, the action of the water outlet one-way gate 1d is the same as the action of the opening of the pumping one-way gate mechanism 1b, so that the water flow in the pumping cavity 1i enters the water spraying cavity 1j and is sprayed out along the spraying mechanism 1 c.

The working principle is as follows: when the kelp 9 needs to be shredded, the controller is started by a worker, the controller controls the driving motor 4g to move, the bundled kelp 9 is clamped between the two guide plates 7 by the worker,

due to the work of the driving motor 4g, the driving motor 4g drives the reducer 4k to rotate, the reducer 4k drives the first belt pulley 4a to rotate, the first belt pulley 4a drives the second belt pulley 4b to rotate through a belt, the second belt pulley 4b drives the two first bevel gears 4d to rotate through the driving shaft 4c, the first bevel gears 4d drive the driver 4h to rotate through the second bevel gear 4e, the kelp 9 is shredded from top to bottom by the shredding rake claws of the upper shredding mechanism 2 and the lower shredding mechanism 3, and the driving shaft 4c drives the material pushing mechanism 5 to work while rotating;

through the rotation of the driving shaft 4c, the driving shaft 4c drives the first chain wheel 5a to rotate, the first chain wheel 5a drives the second chain wheel 5b to rotate through the transmission chain 5i, the second chain wheel 5b drives the driving shaft 5e to rotate, and further the driving shaft 5e drives the third chain wheel 5c to rotate, the third chain wheel 5c drives the pushing chain 5h to rotate, the pushing chain 5h drives a plurality of pushing shafts 5j to rotate, the pushing shafts 5j move the kelp 9 clamped between the two guide plates 7, so that the kelp 9 is shredded by the upper shredding mechanism 2 and the lower shredding mechanism 3, and after each piece of kelp 9 is pushed, a new kelp 9 is replenished through a worker;

along with the rotation of the roller 2a, the roller 2a drives the fixing rod 1a3 to rotate, the fixing rod 1a3 drives the hinged rod 1a4 to rotate, the hinged rod 1a4 drives the push rod 1a2 to move up and down along the length direction of the first guide post 1a6, when the roller 2a rotates in the first half section, the piston plate 1a1 extrudes the water in the water suction tank 1e, the water in the water pumping cavity 1i passes through the water outlet one-way gate 1d and enters the water spraying cavity 1j through the extrusion of the piston plate 1a1, then passes through the second water outlet pipe 1c7, the water guide pipe 1c5, the water inlet pipe 1c4, the water guide pipe 1c2 and the first water outlet pipe 1c3 in sequence, and finally is sprayed out from the spray head 1c1, so as to wash the sea belt 9,

when the rotary roller 2a rotates in the latter half, when the piston plate 1a1 pumps water upwards, the water pumping cavity 1i is sucked upwards to suck the water gate 1b5, so that the water gate 1b5 drives the second guide post 1b2 to slide upwards, the positioning circular plate 1b4 compresses the extrusion spring 1b3, and water in the water storage tank 1h is sucked into the water pumping cavity 1i through the water outlet hole 1b6 to prepare for next water spraying.

Claims

1. A kelp shredding device is characterized by comprising a gap water spraying mechanism (1), an upper shredding mechanism (2), a lower shredding mechanism (3), a bidirectional driving mechanism (4), a material pushing mechanism (5), a mounting rack (6) and two guide plates (7), wherein the mounting rack (6) is fixedly mounted on the ground, the two guide plates (7) are fixedly mounted at the top of the mounting rack (6) through connecting plates, the two guide plates (7) are symmetrically arranged, a gap for clamping a kelp (9) is reserved between the two guide plates (7), the left ends of the two guide plates (7) are both of a downward bent structure, the material pushing mechanism (5) for pushing the kelp (9) to move is fixedly mounted on the mounting rack (6), the material pushing mechanism (5) is in transmission connection with the bidirectional driving mechanism (4), the bidirectional driving mechanism (4) is located above the right end of the mounting rack (6), and two-way actuating mechanism (4) fixed mounting is on mounting bracket (6), it is located one side of mounting bracket (6) to go on going up silk mechanism (2) of cutting to kelp (9) first half, it is located the opposite side of mounting bracket (6) to be used for going on silk lower silk mechanism (3) of cutting to kelp (9) lower half, and go up silk mechanism (2) and all fixed mounting subaerial with lower silk mechanism (3), it all is connected with two-way actuating mechanism (4) transmission to go up silk mechanism (2) and lower silk mechanism (3), clearance water spray mechanism (1) fixed mounting is subaerial, and clearance water spray mechanism (1) is connected with last silk mechanism (2) transmission, the below of mounting bracket (6) is provided with water collecting pipe (8) that are used for the water receiving.

2. The kelp cutting device according to claim 1, characterized in that the upper cutting mechanism (2) comprises a rotary roller (2 a), a cutting rake claw (2 c) and two rotary frames (2 b), the two rotary frames (2 b) are fixedly arranged on the ground, the rotary roller (2 a) is rotatably connected with the two rotary frames (2 b), the cutting rake claw (2 c) is fixedly arranged on the outer edge of the rotary roller (2 a), one end of the rotary roller (2 a) is in transmission connection with the gap water spraying mechanism (1), the other end of the rotary roller (2 a) is in transmission connection with a bidirectional driving mechanism (4), and the upper cutting mechanism (2) and the lower cutting mechanism (3) have the same structure.

3. The kelp shredding device according to claim 2, wherein the gap water spraying mechanism (1) comprises an extrusion spraying mechanism (1 a), a water pumping one-way gate mechanism (1 b), a spraying mechanism (1 c), a water outlet one-way gate (1 d), a water storage tank (1 h), a water suction tank (1 e) and a partition plate (1 f), the water storage tank (1 h) is fixedly arranged on the ground, the water suction tank (1 e) is positioned above the water storage tank (1 h), the bottom of the water suction tank (1 e) is fixedly provided with a square connecting pipe (1 e 1) communicated with the inside, the bottom of the square connecting pipe (1 e 1) is positioned at the inner bottom of the water storage tank (1 h), the square connecting pipe (1 e 1) is fixedly connected with the water storage tank (1 h), the connection part of the square connecting pipe (1 e 1) and the water storage tank (1 h) is sealed, the partition plate (1 f) is fixedly arranged in the water suction tank (1 e), a gap for water flow to pass through is reserved between the bottom of the partition plate (1 f) and the bottom of the inner side of the water suction box (1 e), the water suction box (1 e) is divided into a water suction cavity (1 i) and a water spray cavity (1 j) by the partition plate (1 f), a water suction one-way gate mechanism (1 b) for blocking water flow in the water suction box (1 e) from entering the water storage box (1 h) is fixedly arranged at the top of the connecting square pipe (1 e 1), a water outlet one-way gate (1 d) for blocking water flow in the water spray cavity (1 j) from entering the water suction cavity (1 i) is fixedly arranged in the water suction box (1 e), an extrusion injection mechanism (1 a) for extruding the water suction cavity (1 i) is fixedly arranged on the water suction box (1 e), the extrusion injection mechanism (1 a) is in transmission connection with one end of the rotating roller (2 a), the injection mechanism (1 c) is fixedly arranged on the ground, and a water inlet of the injection mechanism (1 c) is communicated with the water spray cavity (1, the water outlet of the spraying mechanism (1 c) faces the sea belt (9).

4. The kelp shredding device according to claim 3, characterized in that the bidirectional driving mechanism (4) comprises a first pulley (4 a), a second pulley (4 b), a driving shaft (4 c), a supporting plate (4 f), a driving motor (4 g), a reducer (4 k), two first bevel gears (4 d), a second bevel gear (4 e), a shaft seat (4 i) and a driver (4 h), the supporting plate (4 f) is fixedly installed on the mounting frame (6) through a square tube, the two drivers (4 h) are both fixedly installed on the supporting plate (4 f), the two drivers (4 h) are respectively in transmission connection with the lower shredding mechanism (3) and the upper shredding mechanism (2), the two second bevel gears (4 e) are respectively fixedly installed on the two drivers (4 h), and the two first bevel gears (4 d) are located on the inner sides of the two second bevel gears (4 e), and two first bevel gears (4 d) are respectively meshed with two second bevel gears (4 e), the two first bevel gears (4 d) are fixedly installed on a driving shaft (4 c), the driving shaft (4 c) is rotationally connected with two shaft seats (4 i), the two shaft seats (4 i) are fixedly installed on a supporting plate (4 f), a second belt wheel (4 b) is fixedly installed on the driving shaft (4 c), a driving motor (4 g) is fixedly installed on the supporting plate (4 f), the input end of a reduction counter (4 k) is fixedly installed on the output end of the driving motor (4 g), the first belt wheel (4 a) is fixedly installed on the output end of the reduction counter (4 k), the first belt wheel (4 a) is connected with the second belt wheel (4 b) through a belt, and the driving shaft (4 c) is in transmission connection with a material pushing mechanism (5).

5. A kelp cutting device according to claim 4, characterized in that each transmission (4 h) comprises a third belt wheel (4 h 1), a fourth belt wheel (4 h 2), a transmission shaft (4 h 3) and two first roller seats (4 h 4), the fourth belt wheels (4 h 2) of the two transmissions (4 h) are respectively and fixedly arranged on the rotating rollers of the lower cutting mechanism (3) and the upper cutting mechanism (2), the third belt wheel (4 h 1) is fixedly arranged on the transmission shaft (4 h 3), the two first roller seats (4 h 4) are respectively and rotatably connected with the transmission shaft (4 h 3), the first roller seats (4 h 4) are fixedly arranged on the supporting plate (4 f) through square tubes, the third belt wheel (4 h 1) is in transmission connection with the fourth belt wheel (4 h 2) through a belt, and the second bevel gear (4 e) is fixedly arranged on the transmission (4 h).

6. A kelp cutting device according to claim 5, characterized in that the material pushing mechanism (5) comprises a first chain wheel (5 a), a second chain wheel (5 b), a third chain wheel (5 c), a fourth chain wheel (5 d), a driving shaft (5 e), a driven shaft (5 f), a pushing chain (5 h), a transmission chain (5 i) and a plurality of material pushing shafts (5 j), the first chain wheel (5 a) is fixedly arranged on the driving shaft (4 c), the second chain wheel (5 b) is fixedly arranged on the driving shaft (5 e), the third chain wheel (5 c) is rotatably arranged on the mounting frame (6) through a roller seat, the third chain wheel (5 c) is rotatably connected with the roller seat, the driven shaft (5 f) is rotatably arranged on the mounting frame (6) through the roller seat, the driven shaft (5 f) is rotatably connected with the roller seat, fourth sprocket (5 d) fixed mounting is on driven shaft (5 f), promote chain (5 h) all with fourth sprocket (5 d) and third sprocket (5 c) meshing, drive chain (5 i) and first sprocket (5 a) and second sprocket (5 b) meshing, and promote the length direction that chain (5 h) are on a parallel with deflector (7), and the top laminating of the bottom that promotes chain (5 h) and deflector (7), the equal fixed mounting of a plurality of material pushing shaft (5 j) is on promoting chain (5 h), and, a plurality of material pushing shaft (5 j) are along promoting chain (5 h) profile evenly distributed.

7. The kelp cutting apparatus according to claim 6, wherein the crushing and spraying mechanism (1 a) comprises a piston plate (1 a 1), a push rod (1 a 2), a fixing rod (1 a 3), a hinge rod (1 a 4), a guide plate (1 a 5) and two first guide pillars (1 a 6), one end of the fixing rod (1 a 3) is fixedly installed on the rotating roller (2 a), one end of the hinge rod (1 a 4) is hinged with the other end of the fixing rod (1 a 3), the other end of the hinge rod (1 a 4) is hinged with the top of the push rod (1 a 2), the bottom of the push rod (1 a 2) is fixedly installed on the piston plate (1 a 1), the bottoms of the two first guide pillars (1 a 6) are fixedly connected with the top of the piston plate (1 a 1), the guide plate (1 a 5) is fixedly installed on the water suction box (1 e), and the guide plate (1 a 5) is provided with two sliding holes for the first guide post (1 a 6) to slide up and down.

8. The kelp shredding device according to claim 7, wherein the spraying mechanism (1 c) comprises a spraying nozzle (1 c 1), a water guide pipe (1 c 2), a water guide pipe (1 c 5), a sealing cover plate (1 c 6) and a fixed frame (1 c 8), the fixed frame (1 c 8) is fixedly installed on the ground, the sealing cover plate (1 c 6) is located at the top of the inner side of the water spraying cavity (1 j), four sides of the sealing cover plate (1 c 6) are fixedly connected and sealed with a water suction box (1 e), a second water outlet pipe (1 c 7) is arranged at the top of the sealing cover plate (1 c 6), the second water outlet pipe (1 c 7) is fixedly connected and communicated with one end of the water guide pipe (1 c 5), the water guide pipe (1 c 2) is fixedly installed on the fixed frame (1 c 8), the water guide pipe (1 c 2) is provided with a plurality of first water outlet pipes (1 c 3), and the plurality of first water outlet pipes (1 c 3) are respectively connected with the plurality of spraying nozzles (1 c 1), and the water guide pipe (1 c 2) is also provided with a water inlet pipe (1 c 4), and the water inlet pipe (1 c 4) is fixedly connected with the other end of the water guide pipe (1 c 5).

9. The kelp shredding device according to claim 8, wherein the pumping one-way gate mechanism (1 b) comprises a fixed guide plate (1 b 1), a shutter (1 b 5), two second guide posts (1 b 2), an extrusion spring (1 b 3) and a positioning circular plate (1 b 4), the fixed guide plate (1 b 1) is fixedly installed on the connecting square pipe (1 e 1), the fixed guide plate (1 b 1) is provided with a plurality of water outlet holes (1 b 6), the shutter (1 b 5) is covered on the plurality of water outlet holes (1 b 6), the tops of the two second guide posts (1 b 2) are fixedly connected with the bottom of the shutter (1 b 5), the bottoms of the two second guide posts (1 b 2) penetrate through the fixed guide plate (1 b 1), the fixed guide plate (1 b 1) is provided with guide holes for the second guide posts (1 b 2) to slide up and down, and the two positioning circular plates (1 b 4) are respectively and fixedly installed on the bottoms of the two second guide posts (1 b 2), and two extrusion springs (1 b 3) are respectively sleeved on the two second guide posts (1 b 2), one end of each extrusion spring (1 b 3) is abutted against a positioning circular plate (1 b 4), the other end of each extrusion spring (1 b 3) is abutted against a gate plate (1 b 5), and the water pumping one-way gate mechanism (1 b) and the water outlet one-way gate (1 d) are identical in structure and opposite in effect.