KR100996820B1

KR100996820B1 - Line hauler

Info

Publication number: KR100996820B1
Application number: KR1020100075078A
Authority: KR
Inventors: 임태계
Original assignee: 임태계
Priority date: 2010-08-03
Filing date: 2010-08-03
Publication date: 2010-11-25
Also published as: WO2012018169A1

Abstract

PURPOSE: A line harler is provided, which prevents a fishing rope from being introduced into a supporting roller by a roller pin. CONSTITUTION: A line harler comprises: a support stand(60); and a first supporting roller(10), a second supporting roller(20), and a small hauling roller(30), and an auxiliary hauling roller(40), and a big hauling roller(50) which are respectively connected to a principal axis(61), a second axis(62), a third shaft(63), a fourth shaft(64) and a fifth shaft. In the inner side of the support stand, a driver rotating the third shaft, fourth shaft and the fifth shaft is equipped. One of two supporting rollers is equipped with: a housing in which an internal space of the cylindrical shape is formed; a bearing for smoothing the rotation of the housing; a rubber packing mounted on the outside of the bearing; and a roller pin for introducing the rubber packing into the internal space.

Description

Yang Seung Gi {LINE HAULER}

The present invention relates to a lift, and more particularly, to a lift that can be wound around the fishing line.

A lifter is a device for fishing by hanging dozens of fish hooks on a single long fishing line at regular intervals.As a general rule, the surface friction of the fishing line in contact with the roller is maximized to prevent slippage of the fishing line generated during lifting. To maximize the lifting efficiency.

1 is an exemplary view showing the structure of a conventional lift.

The structure of the conventional transporter is such that the large lifting roller 6, the small lifting roller 3, the auxiliary lifting roller 4 and the first and second auxiliary rollers 1, 2 are engaged with gears The chain is connected by a chain, and the gear of the small lifting roller is connected by a chain with a drive gear located below the rollers in a direction opposite to the support 5, and the driving gear meshes with the gear of the auxiliary lifting roller. As a structure that allows the roller to rotate interlocked, the fishing line 7 is more firmly adhered to the fishing line 7 by the small lifting roller acting in the close direction with respect to the large lifting roller and the auxiliary lifting roller to prevent slipping when lifting.

Accordingly, by using the manufactured transverse passageway secured to the hull, the slippage of the fishing line occurring during lifting can be prevented to a certain extent.

However, the conventional lifter as described above has a gap between the support and the rollers, there is a problem that the fishing line is wound on the shaft of each roller through the gap, the fishing line is entangled in the lifter.

Moreover, oil is supplied to each roller for smooth rotation of the roller. As described above, when the fishing line is wound on the shaft of the roller, the oil is buried in the fishing line, and thus, the fishing line wound on the lifter is again returned. In the case of using the oil in the fishing line, the sea may be contaminated by the oil on the fishing line. As a result, there is a problem that the catch amount is reduced due to the nature of the meat which dislikes the oil smell.

For example, the first and second auxiliary rollers are provided with a rubber packing on the first side adjacent to the support to seal the inside and the outside of the auxiliary roller, but the fishing line wound on the shaft of the auxiliary roller as described above. As the rubber packing is worn out and flows into the auxiliary roller, the fishing line is tangled, the oil is attached to the fishing line, and the seawater is contaminated through the worn rubber packing gap, and the components inside the roller are corroded. have.

In addition, the small lifting roller and the auxiliary lifting roller, too, because the first side adjacent to the support is open, there is a problem that the fishing line is entangled, there is a problem that the oil can be attached to the fishing line.

An object of the present invention for solving the above problems is to block the opening of the center of the first side adjacent to the support with a roller pin, so that the first rotating shaft penetrates into the auxiliary roller through the inside of the roller pin. To provide a lift.

The present invention for achieving the above object, two auxiliary rollers for winding the fishing line, small lifting rollers, auxiliary lifting rollers, large lifting rollers; A second shaft, a third shaft, a fourth shaft and a fifth shaft for rotating the two auxiliary rollers, the small-lifting roller, the auxiliary lifting roller, and the lifting roller, respectively; And a support for supporting the two first, third, fourth, and fifth axes, wherein at least one of the two auxiliary rollers includes: a housing in which a cylindrical inner space is formed; A bearing mounted to a space to smoothly rotate the housing, a rubber parking mounted on an outer side of the bearing, and an outer side of the rubber parking adjacent to the support; It includes a roller pin flowing into the space, the roller pin, the roller pin plate is formed in a disk shape for covering the outer rubber parking; And a roller pin shaft protruding in a cylindrical shape from a central portion of the roller pin plate and penetrating through the rubber parking to the inner space, wherein the opposite surface of the roller pin plate on which the roller pin shaft protrudes A roller pin hole penetrating the inside of the roller pin shaft is formed, and the first shaft is inserted into the roller pin hole.

The present invention blocks the opening in the center of the first side adjacent to the support with a roller pin, the first rotation shaft penetrates into the auxiliary roller through the inside of the roller pin, the fishing line inside the auxiliary roller by the roller pin It has an excellent effect that it can not be introduced into.

In addition, the present invention is to prevent the fishing line from flowing into the auxiliary roller, it is possible to prevent the fishing line from getting tangled on the rotating shaft, without contacting the oil inside the auxiliary roller, can extend the life of the roller parts, reducing the catch amount It has an excellent effect that can prevent.

1 is an exemplary view showing a structure of a conventional lift.
2 is an exploded perspective view of a lift according to the present invention.
3 is a cross-sectional view showing a state in which the first auxiliary roller applied to the lift according to the present invention is mounted on the support by the first shaft.
Figure 4 is an exploded perspective view of the first auxiliary roller applied to the lift in accordance with the present invention.
Figure 5 is a cross-sectional view showing a state in which the small lifting roller applied to the lift according to the present invention is mounted on the support by the third axis.
Figure 6 is a perspective view showing a state in which the small lifting roller applied to the lift in accordance with the present invention is connected to the third shaft.
FIG. 7 is a cross-sectional view showing a state in which the auxiliary lifting roller applied to the transporter according to the present invention is mounted on the support by the fourth shaft. FIG.
8 is a perspective view showing a state in which the auxiliary lifting roller applied to the lift according to the present invention is connected to the fourth shaft.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view of a lift according to the present invention.

The present invention is characterized by changing the structure of the roller and the structure of the support in the conventional lifter in order to solve the problems of the prior art as described above, the present invention is a conventional lifter shown in FIG. The general structure and the function of the transporter will be omitted, and the structure of each roller and the structure of the support, which are features of the present invention, will be described in detail with reference to the drawings.

Meanwhile, as shown in FIG. 2, the present invention includes a first shaft 61, a second shaft 62, a third shaft 63, a fourth shaft 64 and a protrusion protruding outward of the support 60. The first auxiliary roller 10, the second auxiliary roller 20, the small lifting roller 30, the auxiliary lifting roller 40 and the large lifting roller 50 are connected to each of the fifth shafts, respectively. Inside, the driver is provided to rotate the third, fourth and fifth axes. Here, the first shaft and the second shaft may also be rotated by the driver, but may perform only a function of connecting the two auxiliary rollers to the support.

3 is a cross-sectional view showing a state in which the first auxiliary roller applied to the lift according to the present invention is mounted on the support by the first shaft, Figure 4 is an exploded perspective view of the first auxiliary roller applied to the lift according to the present invention to be.

Prior to explaining the features of the first auxiliary roller to be applied to the present invention will be described briefly the structure of the conventional first auxiliary roller as follows. That is, in the conventional first auxiliary roller, the opening of the first side adjacent to the support is protected by rubber parking without the roller pin configuration shown in FIG. 4, and the first shaft directly penetrates the rubber parking. Was introduced into the first auxiliary roller. Therefore, the fishing line 70 rotated along the first auxiliary roller flows between the support and the first side surface, which is the surface of the first auxiliary roller adjacent to the support, is entangled on the first axis while rotating with the first axis. It was worn and, in severe cases, was drilled through the rubber parking and entangled into the first auxiliary roller. In addition, when the rubber parking is damaged, seawater inflowed by the fishing line infiltrates into the first sub-roller, thereby contaminating the inside of the first sub-roller.

However, as shown in FIGS. 3 and 4, the first auxiliary roller 10 applied to the present invention has a cylindrical shape, a housing 11 having a cylindrical inner space formed therein, and mounted in the inner space. The bearing 12 to smoothly rotate the housing, the rubber parking 13 mounted on the outer side of the bearing and the rubber parking at the outer side of the rubber parking adjacent to the support and penetrates the rubber parking to the inner space It includes a roller pin 14 to be introduced. That is, a bearing for smoothly rotating the housing is mounted in the cylindrical inner space, and rubber parking is mounted on the outer side thereof, and the metal roller pin 14 is formed on the first side of the outer side adjacent to the support. Is covered with a cover (15) on the second side which is the opposite side of the first side.

That is, the roller pin 14 covers the outer rubber parking area by the roller pin plate 14a, and at the central portion of the roller pin plate, the cylindrical roller pin shaft 14b protrudes, thereby penetrating the rubber parking and the bearing to the first auxiliary roller. It is flowing inside.

On the other hand, a roller pin hole 14c penetrating through the inside of the roller pin shaft is formed on the opposite surface of the roller pin plate from which the roller pin shaft protrudes, and the first shaft 61 is inserted into the roller pin hole.

Therefore, when the first auxiliary roller as described above is rotated in a state of being mounted to the support by the first shaft, the first side of the fishing line wound along the outer circumferential surface of the first auxiliary roller is adjacent to the roller pin plate and the support Even if it is introduced into the fishing line, the fishing line cannot be introduced into the first sub roller by the roller pin plate, and it does not wear the roller pin plate. Therefore, sea water may flow into the first sub roller and damage the first sub roller. none.

In addition, since the first auxiliary roller according to the present invention may exist in a state of being hermetically sealed with the outside, oil may be directly contained in the inner space.

On the other hand, the structure of the first sub-roller as described above can be equally applied to the second sub-roller, the description of the structure of the second sub-roller is omitted. On the other hand, since the first sub-roller and the second sub-roller can have the same structure, the first sub-roller and the second sub-roller are collectively referred to as two sub-rollers. Further, when the two auxiliary rollers are generically referred to, the first axis and the second axis may be collectively referred to as a first axis.

5 is a cross-sectional view showing a state in which the small lifting roller applied to the lifter according to the present invention is provided on the support side by a third shaft, and FIG. 6 is the third lifting roller applied to the lift lifter according to the present invention. As a perspective view showing a state connected with the small lifting roller 30 and the third shaft 63 shown in FIG.

Before describing the characteristics of the third shaft for rotating the small-lifting roller according to the present invention, the structure of the conventional third shaft will be briefly described as follows. The third shaft, which is conventionally used in the present invention, is movably mounted through a third shaft hole 66 formed in the support, as shown in Fig. 5, for positioning the small lifting roller in a proper position, The 3rd axis | shaft was not equipped with the 3rd axis plate provided in the outer peripheral surface of the 3rd axis | shaft of this invention shown in FIG. Therefore, when the fishing line that rotates along the small lifting roller is introduced between the support and the first side, the fishing line is immediately adjacent to the third axis, so that the fishing line is entangled with the third axis. In addition, the oil for smooth rotation is introduced into the inside of the third shaft and the small lifting roller, so that the fishing line is tangled on the third shaft, so that the oil is buried thereafter, when the fishing line is reused, the seawater is contaminated. There is a problem that the catch can be reduced due to the nature of the meat does not like the smell of oil.

However, as shown in FIGS. 5 and 6, the third shaft 63 for rotating the small lifting roller applied to the present invention has a small lifting roller 30 adjacent to the support 60 on its outer circumferential surface. The third shaft plate 63a, which is smaller than the inner diameter of the first side surface of the plate 11, is mounted in a disc shape.

Here, the diameter of the third shaft plate should preferably match the inner diameter of the small lifting roller, but considering the friction during rotation and detachment of the small lifting roller, the diameter of the third shaft plate is about 1 to 5 mm with the inner peripheral surface of the first side of the small lifting roller. It is desirable to leave a space apart. If the separation length is less than the minimum value of 1mm, friction interference between the support and the small lifting roller may occur during rotation or detachment, and if the maximum value is more than 5mm, the fishing line may be exposed to the risk of entering through the space.

In addition, it is preferable that the third shaft plate is formed on the third shaft so that a predetermined length flows into the inner space of the small lifting roller as shown in FIG. 5.

Therefore, when rotating in the state in which the small lifting roller is mounted on the third shaft as described above, even if the fishing line wound along the outer circumferential surface of the small lifting roller flows into the first side where the third shaft plate and the support are adjacent, The fishing line only flows between the third shaft and the support, and cannot pass through the space between the third shaft and the small lifting roller and into the inner space of the small lifting roller, so that the fishing line is not tangled. There is no fear that the fishing line will be contaminated by the oil introduced into the inside of the small lifting roller.

7 is a cross-sectional view showing a state in which the auxiliary lifting roller applied to the lift according to the present invention is mounted on the support by the fourth shaft, Figure 8 is a secondary lifting roller applied to the lift according to the invention the fourth shaft and As a perspective view showing the connected state, the auxiliary lifting roller 40, the fourth shaft 64 and the auxiliary lifting roller shown in FIG. Is shown.

Prior to explaining the features of the depression 67 formed in the support so that the auxiliary lifting roller applied to the present invention by a predetermined length briefly described the structure of the conventional support 60 as follows. That is, the surface of the support that the conventional fourth shaft is protruded to contact the auxiliary lifting roller has no depression as shown in FIGS. 7 and 8, so that the fishing line that has been rotated along the auxiliary lifting roller has the support and the first support shaft. If the flow between the side immediately adjacent to the fourth axis, the fishing line was entangled in the fourth axis occurred. In addition, the oil for smooth rotation is introduced into the fourth shaft and the auxiliary lifting roller, so that the fishing line is tangled on the fourth shaft, so that the oil is buried, when the fishing line is reused, the seawater is contaminated. There is a problem that the catch can be reduced.

However, as shown in FIGS. 7 and 8, the end of the first side of the auxiliary lifting roller is recessed by a predetermined length from the surface of the support, as shown in FIGS. 7 and 8. A depression 67 is formed to be introduced. Here, the depression depth may be variously formed, but may be several mm to several tens of mm.

Therefore, when rotating in the state in which the auxiliary lifting roller is mounted on the fourth shaft, the fishing line wound along the outer circumferential surface of the auxiliary lifting roller flows into the first side where the support and the auxiliary lifting roller are adjacent by the depression of the support. Therefore, there is no fear that tangling of the fishing line will occur.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10: first auxiliary roller 20: second auxiliary roller
30: small lifting roller 40: auxiliary lifting roller
50: salvage roller 60: support
61: first axis 62: second axis
63: 3rd axis 64: 4th axis
66: third shaft hole 67: depression

Claims

Two auxiliary rollers, small lifting rollers, auxiliary lifting rollers, and large lifting rollers for winding the fishing line;
A second shaft, a third shaft, a fourth shaft and a fifth shaft for rotating the two auxiliary rollers, the small-lifting roller, the auxiliary lifting roller, and the lifting roller, respectively; And
And a support for supporting the two first, third, fourth, and fifth axes,
At least one of the two auxiliary rollers,
A housing in which a cylindrical inner space is formed, a bearing mounted on the inner space to smoothly rotate the housing, a rubber parking mounted on an outer side of the bearing, and an outer side of the rubber parking adjacent to the support Covering the parking and penetrates the rubber parking to include the roller pin flowing into the inner space,
The roller pin,
Roller pin plate is formed in the shape of a disk for covering the outer rubber parking; And
It protrudes in a cylindrical shape from the central portion of the roller pin plate, and includes a roller pin shaft flowing through the rubber parking into the inner space,
A roller pin hole penetrating the inside of the roller pin shaft is formed on the opposite side of the surface of the roller pin plate protruding from the roller pin plate, the first shaft is inserted into the roller pin hole.

delete

The method of claim 1,
The lifter, characterized in that the oil is contained in the inner space of the first auxiliary roller.

The method of claim 1,
On the outer circumferential surface of the third shaft for rotating the small lifting roller, a third shaft plate having an outer diameter smaller than the inner diameter of the first side surface of the small lifting roller adjacent to the support is mounted in a disc shape. Yang Seung-gi.

The method of claim 4, wherein
The lifter, characterized in that the separation space of 1 ~ 5mm is formed between the third shaft plate and the inner peripheral surface of the small lifting roller.

The method of claim 4, wherein
Wherein the third shaft plate is mounted on the first side surface of the small bulging roller in a state of being introduced in the direction of the inner space of the small bulging roller.

The method of claim 1,
The surface of the support in contact with the auxiliary lifting rollers, lifter characterized in that the recess is formed so that the end of the first side surface of the auxiliary lifting roller is recessed by a predetermined length from the surface of the support.