CN108243941B - Kelp rope seedling loading and unloading equipment and working method thereof - Google Patents

Abstract

The invention relates to kelp rope seedling loading and unloading equipment and a working method thereof, which are characterized in that: the kelp machine comprises a machine shell with an input end and an output end and a kelp rope penetrating through the machine shell, wherein the output end of the kelp rope is wound by a rotating roller, the rotating roller is driven by a motor to rotate, both ends of the kelp rope in the machine shell are respectively provided with a kelp rope twisting mechanism, and the input end of the machine shell is provided with a kelp cutter. According to the kelp rope seedling loading and unloading device, kelp can be cut off from the kelp rope through the kelp cutter, and the kelp heads clamped on the kelp rope can fall off through the action of the kelp rope twisting mechanism and then new kelp seedlings are inserted, so that the kelp rope seedling loading and unloading work is greatly facilitated, a large amount of labor force is saved, and the production efficiency is improved.

Description

Kelp rope seedling loading and unloading equipment and working method thereof

Technical field:

the invention relates to kelp rope seedling loading and unloading equipment and a working method thereof.

The background technology is as follows:

kelp is one of seaweed plants, is a large-sized marine brown seaweed plant grown in low-temperature seawater, belongs to the family Phaeophyceae, and is a large-leaf algae plant, and is named as a flexible similar strip because the kelp grows in seawater. Kelp is a vegetable with high nutritive value and has a certain medicinal value.

Kelp is widely planted in coastal areas, however, kelp seedlings are required to be inserted into thick ropes before planting kelp, and the kelp ropes are required to be loosened and tightened manually in the process, so that huge working strength is brought to workers.

The invention comprises the following steps:

the invention aims to provide kelp rope seedling loading and unloading equipment and a working method thereof, and the kelp rope seedling loading and unloading equipment has a simple structure and reasonable design, and is beneficial to reducing the manual working strength.

The invention relates to kelp rope seedling loading and unloading equipment, which is characterized in that: the kelp machine comprises a machine shell with an input end and an output end and a kelp rope penetrating through the machine shell, wherein the output end of the kelp rope is wound by a rotating roller, the rotating roller is driven by a motor to rotate, both ends of the kelp rope in the machine shell are respectively provided with a kelp rope twisting mechanism, and the input end of the machine shell is provided with a kelp cutter.

Further, the kelp rope twisting mechanism comprises a second motor and a rotating rod driven by the second motor to rotate, wherein a first h-shaped convex part and a second h-shaped convex part are sequentially arranged on the rotating rod close to the input end of the machine shell, a third h-shaped convex part and a fourth h-shaped convex part are sequentially arranged on the rotating rod close to the output end of the machine shell, the first h-shaped convex part is hinged with a first deflector rod, the second h-shaped convex part is hinged with a first pressure rod, the third h-shaped convex part is hinged with a second deflector rod, and the fourth h-shaped convex part is hinged with a second pressure rod; the free end of the first deflector rod is hinged with a first arc-shaped plate, the first arc-shaped plate lifts the kelp rope, the first arc-shaped plate is embedded in an arc-shaped track of the machine shell and slides along the arc-shaped track under the pushing of the first deflector rod, the free end of the first pressure rod is hinged with a first buckling pressure rod, and the middle section of the first buckling pressure rod is hinged on the machine shell so that when the first pressure rod pushes one end of the first buckling pressure rod, the other end of the first buckling pressure rod buckles the kelp rope;

further, the third-shaped convex part is hinged to the second deflector rod, the fourth-shaped convex part is hinged to the second pressure rod, the free end of the second deflector rod is hinged to a second arc-shaped plate, the second arc-shaped plate lifts the kelp rope, the second arc-shaped plate is embedded in an arc-shaped track of the machine shell and slides along the arc-shaped track under the pushing of the second deflector rod, the free end of the second pressure rod is hinged to a second buckling pressure rod, and the middle section of the second buckling pressure rod is hinged to the machine shell so that when the second pressure rod pushes one end of the second buckling pressure rod, the other end of the second buckling pressure rod buckles the kelp rope.

Further, a linkage switch of the motor and the second motor is arranged on the side portion of the shell, a swinging rod is fixedly sleeved on an output shaft of the motor, and the swinging rod touches the second linkage switch of the motor and the second motor in the swinging process.

Further, the kelp cutter comprises a fixing ring which is fixed on the machine shell and used for penetrating the kelp rope, and cutters which are uniformly distributed in the inner ring of the fixing ring, wherein the ends of the cutters are in an isosceles triangle shape, the cutting edges are positioned on the waist edge of the isosceles triangle, and the cutters and the axial lead of the fixing ring form an included angle, and the ends of the cutters face the input end of the kelp rope.

The invention relates to a working method of kelp rope seedling loading and unloading equipment, which is characterized by comprising the following steps of: the kelp rope seedling loading and unloading equipment comprises a machine shell with an input end and an output end and kelp ropes penetrating through the machine shell, wherein the output end of the kelp ropes is wound by a rotating roller, the rotating roller is driven by a motor to rotate, both ends of the kelp ropes in the machine shell are respectively provided with a kelp rope twisting mechanism, and the input end of the machine shell is provided with a kelp cutter; when the kelp rope twisting mechanism is used, kelp ropes are firstly penetrated from the input end of a machine shell to the output end and are wound on a rotating roller, a motor is started through a kelp cutter and a kelp rope twisting mechanism during the process, so that the kelp ropes continuously move from the input end of the machine shell to the output end, kelp hung on the kelp ropes is cut off and falls off, the kelp heads are still clamped in the kelp ropes, after the kelp heads are wound on the rotating roller after passing through the kelp rope twisting mechanism of the machine shell, the kelp heads clamped in the kelp ropes are not clamped and naturally fall along with gravity after being twisted, new kelp seedlings are inserted into gaps of the kelp ropes manually after falling off, and then the kelp seedlings are wound on the rotating roller after being output from the output end of the machine shell.

According to the kelp rope seedling loading and unloading device, kelp can be cut off from the kelp rope through the kelp cutter, and the kelp heads clamped on the kelp rope can fall off through the action of the kelp rope twisting mechanism and then new kelp seedlings are inserted, so that the kelp rope seedling loading and unloading work is greatly facilitated, a large amount of labor force is saved, and the production efficiency is improved.

Description of the drawings:

FIG. 1 is a schematic view of a front cross-sectional configuration of the present invention;

FIG. 2 is a schematic top view of the configuration of FIG. 1;

FIG. 3 is a schematic view of the partial construction of FIG. 1;

FIG. 4 is a schematic view of a cross-sectional construction of the kelp-rope twisting mechanism in the axial direction of the kelp rope;

FIG. 5 is a schematic view of the construction of a first arcuate plate;

FIG. 6 is a schematic cross-sectional construction of the kelp cutter;

fig. 7 is a schematic view of the partial construction of fig. 1.

The specific embodiment is as follows:

the process according to the invention is described in further detail below with reference to examples. It should be specifically noted that the protection scope of the present invention should include but not limited to the technical content disclosed in the present embodiment.

The kelp rope seedling loading and unloading equipment comprises a machine shell 3 with an input end 1 and an output end 2 and kelp ropes 4 penetrating through the machine shell, wherein the output end of each kelp rope 4 is wound by a rotating roller 5, the rotating rollers 5 are driven to rotate by a motor A, two ends of each kelp rope in the machine shell 3 are respectively provided with a kelp rope twisting mechanism 6, and the input end of the machine shell is provided with a kelp cutter 7.

According to the kelp rope seedling loading and unloading device, kelp can be cut off from the kelp rope through the kelp cutter, and the kelp heads clamped on the kelp rope can fall off through the action of the kelp rope twisting mechanism and then new kelp seedlings are inserted, so that the kelp rope seedling loading and unloading work is greatly facilitated, a large amount of labor force is saved, and the production efficiency is improved.

Further, in order to achieve reasonable design, the kelp rope twisting mechanism 6 comprises a second motor 8 and a rotating rod 9 driven to rotate by the second motor, wherein a first triangular convex part 10 and a second triangular convex part 11 are sequentially arranged on the rotating rod 9 close to the input end of the machine shell, a third triangular convex part 12 and a fourth triangular convex part 13 are sequentially arranged on the rotating rod 9 close to the output end of the machine shell 3, the first triangular convex part 10 is hinged with a first deflector rod 14, the second triangular convex part 11 is hinged with a first pressure rod 15, the third triangular convex part 12 is hinged with a second deflector rod 16, and the fourth triangular convex part 13 is hinged with a second pressure rod 17; the free end of the first deflector rod 14 is hinged with a first arc-shaped plate 18, the first arc-shaped plate 18 lifts the kelp rope 4, the first arc-shaped plate 18 is embedded in an arc-shaped track of the machine shell and slides along the arc-shaped track under the pushing of the first deflector rod 14, the free end of the first pressure rod 15 is hinged with a first buckling pressure rod 19, and the middle section of the first buckling pressure rod 19 is hinged on the machine shell 3 so that when the first pressure rod pushes one end of the first buckling pressure rod, the other end of the first buckling pressure rod 19 buckles the kelp rope.

The first, second, third and fourth-shaped protruding parts on the rotating rod 9 and the first deflector rod 14, the first pressing rod 15, the second pressing rod 17 and the first buckling pressing rod 19 form a crank connecting rod mechanism, so that the rotating rod 9 is driven by a motor to form reciprocating lifting motion by the first deflector rod 14, the first pressing rod 15, the second pressing rod 17 and the first buckling pressing rod 19, the first arc-shaped plate 18 lifts the kelp rope 4, the front end of the first buckling pressing rod 19 buckles the kelp rope under the driving of the first pressing rod 15, and the kelp rope is driven to twist around the arc-shaped rail 26 under the driving of the first deflector rod 14 under the cooperation of the first arc-shaped plate 18 and the first buckling pressing rod 19, and for good revolving stability of the first arc-shaped plate 18, the side surface of the first arc-shaped plate 18 is provided with an arc-shaped protruding block 25, the arc-shaped protruding block 25 is embedded in the arc-shaped rail 26 of the casing 3 to slide, and the acting force of the first deflector rod 14 to the kelp rope is better and more stably transmitted to the arc-shaped plate 18 due to the fact that the contact surface of the arc-shaped protruding block 25 and the arc-shaped rail 26 is larger.

Further, the structure of connection on the third few font convex part 12 and the fourth few font convex part 13 is the same with the structure of connection of the first few font convex part 10 and the second few font convex part 11, and above-mentioned third few font convex part articulates the second driving lever, the second depression bar is articulated to the fourth few font convex part, the free end of second driving lever articulates there is the second arc, the kelp rope is lifted to the second arc, the second arc inlays in the arc track of machine casing, slides along the arc track under the promotion of second driving lever, the free end of second depression bar articulates there is the second to detain the depression bar, the middle section of second detaining the depression bar articulates on the machine casing to when the one end of second knot depression bar is promoted to the second depression bar, the other end of second knot depression bar detains the kelp rope.

Therefore, the kelp ropes are in a structure close to the input end of the machine shell 3 and in a structure close to the output end of the machine shell 3, so that twisting action of the kelp ropes can be realized, kelp heads can fall off, new kelp seedlings can be manually inserted, and semi-automation of kelp rope loading and seedling releasing is realized.

Further, in order to realize that the kelp rope twisting mechanism 6 does not act when the kelp rope is wound by the motor driving rotating roller 5, and when the kelp rope twisting mechanism 6 works, the motor does not drive the rotating roller 5 to act, a linkage switch 20 of the motor and the second motor is arranged on the side part of the shell, a swinging rod 21 is fixedly sleeved on an output shaft of the motor, and the swinging rod 21 touches a second linkage switch 22 of the motor and the second motor in the swinging process. The linkage switch 20 is mutually related to the second linkage switch 22, the motor and the second motor, namely, the motor A starts to work after the linkage switch 20 is switched on and drives the rotary roller 5 to revolve the kelp rope 4 so as to enable the kelp rope to move, and meanwhile, the second motor 8 is in a non-working state; when the swinging rod 21 triggers the second linkage switch 22, the motor stops working, the second motor 8 works, and the kelp rope 4 is twisted, and the kelp rope does not move.

Further, for reasonable in design, above-mentioned kelp cutter 7 is including fixing the solid fixed ring 23 that is used for passing the kelp rope on the casing and evenly laying the cutter 24 in solid fixed ring inner circle, the cutter end is isosceles triangle shape, and the cutting edge is located isosceles triangle's waist edge, and cutter and gu fixed ring's axial lead form the contained angle, and the cutter end is towards the input of kelp rope.

The invention relates to a working method of kelp rope seedling loading and unloading equipment, which comprises a machine shell with an input end and an output end and kelp ropes penetrating through the machine shell, wherein the output end of the kelp ropes is wound by a rotating roller, the rotating roller is driven by a motor to rotate, both ends of the kelp ropes in the machine shell are respectively provided with a kelp rope twisting mechanism, and the input end of the machine shell is provided with a kelp cutter; when the kelp rope twisting mechanism is used, kelp ropes are firstly penetrated from the input end of a machine shell to the output end and are wound on a rotating roller, a motor is started through a kelp cutter and a kelp rope twisting mechanism during the process, so that the kelp ropes continuously move from the input end of the machine shell to the output end, kelp hung on the kelp ropes is cut off and falls off, the kelp heads are still clamped in the kelp ropes, after the kelp heads are wound on the rotating roller after passing through the kelp rope twisting mechanism of the machine shell, the kelp heads clamped in the kelp ropes are not clamped and naturally fall along with gravity after being twisted, new kelp seedlings are inserted into gaps of the kelp ropes manually after falling off, and then the kelp seedlings are wound on the rotating roller after being output from the output end of the machine shell.

The foregoing description is only of the preferred embodiments of the invention, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (3)

1. The kelp rope dress takes off seedling equipment, its characterized in that: the kelp machine comprises a machine shell with an input end and an output end and a kelp rope penetrating through the machine shell, wherein the output end of the kelp rope is wound by a rotating roller, the rotating roller is driven by a motor to rotate, both ends of the kelp rope in the machine shell are respectively provided with a kelp rope twisting mechanism, and the input end of the machine shell is provided with a kelp cutter;

the kelp rope twisting mechanism comprises a second motor and a rotating rod driven to rotate by the second motor, a first h-shaped convex part and a second h-shaped convex part are sequentially arranged on the rotating rod close to the input end of the machine shell, a third h-shaped convex part and a fourth h-shaped convex part are sequentially arranged on the rotating rod close to the output end of the machine shell, the first h-shaped convex part is hinged with a first deflector rod, the second h-shaped convex part is hinged with a first pressure rod, the third h-shaped convex part is hinged with a second deflector rod, and the fourth h-shaped convex part is hinged with a second pressure rod; the free end of the first deflector rod is hinged with a first arc-shaped plate, the first arc-shaped plate lifts the kelp rope, the first arc-shaped plate is embedded in an arc-shaped track of the machine shell and slides along the arc-shaped track under the pushing of the first deflector rod, the free end of the first pressure rod is hinged with a first buckling pressure rod, and the middle section of the first buckling pressure rod is hinged on the machine shell so that when the first pressure rod pushes one end of the first buckling pressure rod, the other end of the first buckling pressure rod buckles the kelp rope;

the free end of the second deflector rod is hinged with a second arc-shaped plate, the second arc-shaped plate lifts the kelp rope, the second arc-shaped plate is embedded in an arc-shaped track of the machine shell and slides along the arc-shaped track under the pushing of the second deflector rod, the free end of the second pressure rod is hinged with a second buckling pressure rod, and the middle section of the second buckling pressure rod is hinged on the machine shell so that when the second pressure rod pushes one end of the second buckling pressure rod, the other end of the second buckling pressure rod buckles the kelp rope;

when the kelp rope twisting mechanism is used, kelp ropes are firstly penetrated from the input end of a machine shell to the output end and are wound on a rotating roller, a motor is started through a kelp cutter and a kelp rope twisting mechanism during the process, so that the kelp ropes continuously move from the input end of the machine shell to the output end, kelp hung on the kelp ropes is cut off and falls off, the kelp heads are still clamped in the kelp ropes, after the kelp heads are wound on the rotating roller after passing through the kelp rope twisting mechanism of the machine shell, the kelp heads clamped in the kelp ropes are not clamped and naturally fall along with gravity after being twisted, new kelp seedlings are inserted into gaps of the kelp ropes manually after falling off, and then the kelp seedlings are wound on the rotating roller after being output from the output end of the machine shell.

2. The kelp rope seedling loading and unloading device according to claim 1, characterized in that: the motor is arranged on the side portion of the shell, a linkage switch of the motor and the second motor is arranged on the side portion of the shell, a swinging rod is fixedly sleeved on an output shaft of the motor, and the swinging rod touches the second linkage switch of the motor and the second motor in the swinging process.

3. The kelp rope seedling loading and unloading device according to claim 1, characterized in that: the kelp cutter comprises a fixed ring which is fixed on the machine shell and used for penetrating the kelp rope and cutters which are uniformly distributed in the inner ring of the fixed ring, wherein the ends of the cutters are in an isosceles triangle shape, the cutting edges are positioned on the waist edge of the isosceles triangle, and the cutters and the axial lead of the fixed ring form an included angle, and the ends of the cutters face the input end of the kelp rope.