KR20160000815U - Winch apparatus - Google Patents

Abstract

There is provided a winch device in which the grease is appropriately supplied to the inside of the device and is prevented from falling on the deck. A drum 80 which is rotatably mounted on the main shaft 15 through first and second fixed boss members 85 and 86 and a crankshaft 15 which is connected to the rotary drive source 11, And a sliding moving tooth portion 92 which is engaged with the fixed tooth portion 91 provided on one side of the first fixed boss member 85 is provided on the other side, The working space portions 113 to 116 formed in the corner portions of the respective holes 95 are sealed by the sealing member 121 on one side and the sealing member 121 on the other side by the sliding movement boss member 93 having the sliding movement boss member 93, And was covered with ashes 125 to prevent an easy outflow of grease.

Description

WINCH APPARATUS

The present invention relates to a winch device (winch appatatus) which can be mounted on a ship or used on land.

BACKGROUND ART [0002] A ship such as a tugboat is equipped with a winch device for winding up an anchor chain or for lifting up a rope for preliminary fishing, and a specific example thereof is disclosed in Patent Document 1. [ Patent Document 1 discloses a winch device for a crane mechanism that prevents a boom of a crane mechanism (mechanism) from contacting other ships or the like, and is effective in securing a safety surface.

The same winch device 10 is also proposed in Patent Document 2, and this is shown in Figs. 7 and 8 (A). The winch device 10 transmits the rotational driving force from the hydraulic motor 11 to the main shaft 15 through a gear mechanism having a small gear 12 and a large gear 13.

The main shaft 15 is rotatably supported by a bearing member 17 provided at an upper portion or an intermediate portion of the plurality of leg members 16. The leg member 16 on which the hydraulic motor 11 is mounted also serves as a cover case of the gear mechanism. The bearing member 17 has a bearing housing 18 and a bushing 19 (or a bearing) disposed therein. A grease or the like is supplied from a grease nipple or the like provided on the bearing housing 18 To be supplied.

The rope drum 20 and the chain drum 21 are rotatably supported at predetermined positions of the main shaft 15 via the first fixed boss members 22 and 23 and the second fixed boss members 24 and 25 Is installed. The number of the rope drum 20 and the chain drum 21 may be plural.

A fixed serration portion 27 is provided at one side of the first fixed boss members 22 and 23 (in the direction of arrow A in Fig. 8), and a cross section formed at a specific position of the main shaft 15 is approximately Is engaged with a sliding moving tooth portion 32 provided on the other side (in the direction of arrow B in Fig. 8) of the sliding sliding boss member 30 which slides and fits into a square angular sliding sliding portion 28, So that the rotational movement force is transmitted from the main shaft 15 to the rope drum 20 and the chain drum 21. [ The sliding movement boss member 30 is moved by operating the clutch levers 33 and 34 so that the clutch mechanisms 35 and 36 having the sliding moving tooth portion 32 and the fixed tooth portion 27 are turned on on "or" off "is performed.

The gap between the fixed toothed portion 27 and the sliding moving tooth portion 32 and the gap between the angular shaft sliding portion 28 and the boss hole 37 of the sliding sliding boss member 30 is always filled with grease. A sealing member (for example, an oil seal) 38 may be provided on one side of the sliding sliding boss member 30, and the sliding moving tooth portion A cover 39 is disposed around the fixed tooth portion 32 and the fixed tooth portion 27. A through hole 40 is formed in the first fixed boss members 22 and 23 so that grease or the like, 20, 21) and the main shaft (15) in the closed space portion (42) of the body portion (41).

The second fixed boss members 24 and 25 have a structure in which they are supplied to the bearings of the second closed boss members 24 and 25 to flow into the closed space portion 42 of the hermetic seal.

Japanese Patent Application Laid-Open No. 2005-254878 Japanese Patent No. 5181071

However, in the winch device 10 described in Patent Document 2, as shown in Fig. 8 (B), the sliding boss member 30 has a cross section of a substantially rectangular boss hole 37, It is difficult to form four surfaces 43 to 46 that are in contact with the substantially square pivoting sliding movement portion 28. It is difficult to form the corner portions 47 to 50 of the angular sliding movement portion 28 having a substantially square cross- The machining of the four surfaces 43 to 46 is carried out. A generally annular grease groove 57 is formed in the bottom of the grease injection hole 56 so as to spread the filling path of the grease injected from the grease injection hole 56 on the circumference.

The clearance between each of the four-axis sliding movement portions 28 (four peripheral surfaces) and the four surfaces 43 to 46 of the boss hole 37 is small, resistance to passage of grease is large, In the case of one grease, since the flow resistance of the grease in the machining space portions 51 to 54 is small, there is a problem that the grease can not sufficiently flow through the machining space portions 51 to 54 and the sliding portion.

In the technique described in Patent Document 2, the excess grease is retained in the closed space portion 42 between the body portion 41 and the main shaft 15. However, the closed space portion 42 may have a volume Because of this size, there was a problem that it was not easy to judge how much grease was put into a large amount of grease if it was full.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a winch device in which grease is appropriately supplied to the inside of a device and is prevented from falling on a deck.

In the winch device according to the present invention related to the above object,

1) a first fixed boss member supported by a plurality of bearing members and connected to a rotation drive source, 2) a first fixed boss member having a fixed toothed portion at one side thereof, and a drum rotatably installed on the main shaft by a second fixed boss member (3) a slidably movable gear portion which is provided at a specific position of the main shaft and has a rectangular hole, which is slidably fitted in an angular axial sliding movement portion having a square cross section, and which has a sliding moving tooth portion engaged with the fixed tooth portion And the sliding moving boss member constitutes a clutch means that has a moving boss member and the fixed tooth portion and the sliding moving tooth portion turn on or off the rotation of the drum, And a grease groove is formed in a corner portion of each of the holes, Come on.

Wherein a sealing member is provided at one side of the sliding moving boss member so as to slide and move in contact with the main shaft having a circular section and the other side of the sliding moving boss member is located outside the respective axis sliding movement portions, Cover material is installed.

In the winch device according to the present invention, when the cover material is annular so as to block a plurality of the processing space portions at the same time, or when the cover material is divided in the circumferential direction, or when the cover material is installed And the like. Further, the cover material may be plate-shaped or stereoscopic (for example, stopper-shaped).

The winch device according to the present invention is characterized in that the drum is a rope drum having a body portion and side plates (A, B) provided on both sides of the body portion, the side plate (A) And the side plate (B) on the other side may be rotatably mounted on the main shaft via the second fixing boss member.

In the winch device according to the present invention, the drum is a chain drum, and one side of the chain drum main body is rotatably connected to the main shaft through the first fixing boss member and the other side through the second fixing boss member .

The drum is a chain drum, and the chain drum main body, the bearing housing of the first fixed boss member, and the bearing housing of the second fixed boss member are integrally formed, and through the bearing housed therein, As shown in Fig.

In the winch device according to the present invention, a small-diameter cylinder having a gap is provided between the main shaft and the inner side of the cylinder forming the body portion, and the first and second fixed boss members It is preferable that the injected grease flows into a space portion formed between the main shaft and the small-diameter cylinder through a grease inflow path (inflow path).

In the winch device according to the present invention, a small-diameter cylinder is provided on the outside of the main shaft in the chain drum main body so as to be axially aligned with the main shaft, and the small- The grease injected into the bearing may flow into the space portion formed between the main shaft and the small-diameter cylinder through the grease inflow passage.

The winch device according to the present invention is characterized in that a sealing member is provided on one side of the sliding movement boss member so as to slide and move in contact with a main shaft having a circular cross section (including a stainless pipe whose end surface is shrink-fitted to the main shaft and having a circular section) And the cover member covering the machining space portion is formed at the other side of the sliding boss member on the outer side of each of the sliding and sliding shifting portions. Thus, the machining space portion is once closed, the back pressure is applied to the grease flowing in the machining space portion, Grease is charged more between the moving part and each ball so that grease lubrication is promoted, and it is possible to extend the life of the device.

In the winch device according to the present invention, when the cover material is annular so as to block a plurality of processing space portions at the same time, the structure of the cover material becomes simple, and mounting thereof is facilitated.

When the cover member is divided in the circumferential direction (for example, half-divided, four-divided), mounting and separation are facilitated.

In the winch device according to the present invention, a small-diameter cylinder having a gap (for example, 2 to 10 mm) is provided between the main shaft and the inside of the cylinder forming the body portion, The space portion A is much smaller in volume than the space portion B formed between the cylinder and the main shaft so that the space portion A is filled with the space portion A formed between the main shaft and the main shaft, It is also possible to use a winch device in a state in which the battery pack A is charged.

1 is a front sectional view of a winch device according to a first embodiment of the present invention.
Figure 2 is a partial enlarged view of the winch device.
3 (A) is an enlarged cross-sectional view of an arrow P-P 'in FIG. 2, and FIG. 2 (B) is an enlarged cross-sectional view of an arrow Q-Q' in FIG.
FIG. 4A is a side view of the cover member shown by the arrow S-S 'in FIG. 2, and FIG. 4B is a side view of the cover member according to a modification.
5 is a front sectional view of a winch device according to a second embodiment of the present invention.
6 is a partial enlarged view of the winch device.
7 is a front sectional view of a winch device according to a conventional example.
8 (A) is a partially enlarged view, and FIG. 8 (B) is a cross-sectional view taken along the line K-K '.

Embodiments of the present invention will now be described with reference to the accompanying drawings. The same components as those of the winch device 10 according to the conventional example shown in Figs. 7 and 8 are denoted by the same reference numerals.

As shown in Figs. 1 and 2, the winch device 60 according to the first embodiment of the present invention includes a base mount 60a that is finally fixed to a deck or the like of a ship, a base mount 60a Leg members 61 to 64 provided on the leg members 61 to 64 and a main shaft 15 rotatably supported via bearings 65 to 68 mounted on the leg members 61 to 64, respectively. The bearing members 65 to 68 have bearing housings 69 to 72 fixed to the leg members 61 to 64 and bearings (for example, metal bushings) 73 to 76 respectively mounted inside the bearing housings 69 to 72, The bearing housings 69 to 72 are provided with grease nipples 78 in the grease injection holes 77 so that grease can be supplied between the bearings 73 to 76 and the main shaft 15 .

The large gear 13 is fixed to the other side of the main shaft 15 in the direction of arrow B in Fig. 1 and the large gear 13 is fixed to a part of the leg member 64, The main shaft 15 is engaged with the small gear 12 provided on the output shaft of the hydraulic motor 11 so that the main shaft 15 can rotate forward or reverse by the hydraulic motor 11. [ The main shaft 15 is provided with a rope drum 80 for winding and feeding the rope and two chain drums (examples of drums) for pulling up or pulling down the anchors 81, and 82 are provided at predetermined positions.

1 and 2, the rope drum 80 has side plate members (side plates A and B) 83 and 84 on the left and right sides and a body portion 41 connecting the side plates A and B, The first and second fixed boss members 85 and 86 are provided on the respective axial center sides of the main spindle 83 and 84 and are fixed to predetermined positions of the main shaft 15 via the first and second fixed boss members 85 and 86, As shown in Fig. The first and second fixed boss members 85 and 86 are cylindrically shaped so that a grease nipple 88 is provided in the grease injection hole 87 and a grease can be supplied to the bearings 89 and 90 . 1) of the first fixed boss member 85 has a fixed toothed portion 91 constituting a part of the clutch means 96. [ In this embodiment, the bearings 89 and 90 are made of metal bushings so that one end and the other end of the bearings 89 and 90 are prevented from being separated by the stopper metal members 89a and 90a, .

A sliding movement boss member 93 having a sliding moving tooth portion 92 which is opposed to and engageable with the fixed tooth portion 91 is mounted on the main shaft 15, Is provided with each hole 95 in which each axis sliding movement portion 94 provided at a specific position of the main shaft 15 is inserted and slidably moved. The clutch means 96 is constituted by the fixed toothed portion 91 and the sliding moving toothed portion 92 and the clutch lever 97 is moved in the axial direction to turn the clutch means 96 on or off So that rotation and non-rotation of the rope drum 80 can be controlled. 2, the distance d represents a movable distance of the sliding movement boss member 93. [

3 (B), the square shaft sliding portion 94 provided on the main shaft 15 is formed by flattening the cylindrical material 98 indicated by the two-dotted chain line and the solid line to form four surfaces 100 to 103, And the cross section of each of the pivotal sliding movement parts 94 is formed in a square shape with rounded corners. However, the four corners are circular arc sections 105 to 108 having a circular arc section, and a part of the cylindrical material 98 Leaving.

On the other hand, the sliding movement boss member 93 having the respective openings 95 provided with the four sliding movement surfaces 109 to 112 slidingly moved in contact with the four surfaces 100 to 103 of the respective axis sliding movement unit 94, And machining space portions 113 to 116 formed axially in four corners on the inner side of the casing 95. The machining space portions 113 to 116 are radially outward of the arcuate portions 105 to 108 and the sliding movement boss member 93 is not in contact with the arcuate portions 105 to 108. [

The reason why the machining space portions 113 to 116 are provided is that it is difficult to process the four corners of each hole 95 to have substantially the same dimensions along the arcuate portions 105 to 108 as described above, And bladed objects at the time of precisely machining the grooves 109 to 112. [

3 (A), the sliding moving boss member 93 includes two opposing grease injection holes 118 for supplying grease between the respective axis-sliding sliding portions 94 and the respective holes 95, And an annular grease groove 119 is formed in a radially inner end portion of the grease injection hole 118. [ The groove bottom 120 of the annular grease groove 119 is larger than the radius of the arcuate portions 105 to 108.

As shown in Fig. 2, one side of each sliding-axis sliding movement portion 94 is formed in a cylindrical shape on one side of the sliding movement boss member 93 so that the injected grease does not leak in the axial direction, , Oil seal) 121 are provided. The main shaft 15 of the portion where the sealing member 121 is mounted is circular in cross section and the stainless pipe 122 is shrink-fitted in the portion where the sealing member 121 directly contacts and slides. As a result, seawater or the like which intrudes from the sealing member 121 is blocked, and the outflow of the grease from the inside is prevented. The reference numeral 123 designates a sealing presser and is fixed to the sliding movement boss member 93 by a screw so as to prevent the sealing member 121 from falling off.

On the other hand, as shown in Fig. 4 (A), on the other side in the radial direction of the sliding movement boss member 93, at the exit of each hole 95 (the outer side of the angular sliding sliding portion 94) (For example, a scraper plate) 125 that simultaneously covers the other side of the first and second plates 113 to 116 is provided. The cover member 125 is made of a flexible metal plate such as a rubber plate, a plastic plate, or a gun metal. The inner side of the cover material 125 has a large circular hole 126 in a range slightly smaller than the radius of curvature of the arcuate portions 105 to 108 and a plurality of vis holes 127 in the radial outer side, And is fixed to the sliding moving boss member 93 by a screw of a screw. The cover member may be divided in two in the circumferential direction (indicated by the one-dot chain line (k) in FIG. 4 (A)) or in four portions.

Even when the sliding moving boss member 93 moves, the inner side of the cover member 125 comes close to or comes into contact with the constant angular axis sliding moving portion 94 and prevents the inner grease from easily flowing, . Since the sealing member 121 is disposed on one side of the sliding movement boss member 93 and the cover member 125 is provided on the other side of the sliding movement boss member 93, the grease, which has passed through the annular grease groove 119, 113 to 116. The sliding movement boss member 93 also moves the sliding movement boss member 93 to fill the sliding movement surfaces (the surfaces 100 to 103) of the wider angular sliding movement portion 94 with grease .

As shown in Fig. 4B, cover materials 125a to 125d that individually cover the processing space portions 113 to 116 may be provided. In this case, the cover members 125a to 125d are fixed by screws which are screwed to the screw holes 127a and 127b. Inner arc surfaces of the cover materials 125a to 125d are in contact with or close to the arcuate portions 105 to 108.

2, a small-diameter cylinder 130 is provided on the inside of the cylinder forming the body portion 41 of the rope drum 80. As shown in Fig. The small-diameter cylinder 130 is made of a pipe, and both ends of the small-diameter cylinder 130 are fixed to the end portions of the first and second fixed boss members 85 and 86 in a sealed state. The small-diameter cylinder 130 has a space portion 131 for grease staying with a gap of, for example, 2 to 10 mm between itself and the main shaft 15 on the inner side, and the first and second fixed boss members The grease leaking from the first and second exhaust ports 85 and 86 is retained.

The grease injected from the grease injection hole 118 is sealed by the sealing member 121 on one side and the other end is closed by the cover member 125 on the other side. Here, although the grease leaks from between the cover material 125 and the angular shaft sliding portion 94, the leaked grease becomes a lubricant of the sliding moving tooth portion 92. The grease charged into the first and second fixed boss members 85 and 86 from the grease nipple 88 flows through the bearings 89 and 90 and flows out from both sides of the bearings 89 and 90, 89 and 90 and flows into the space portion 131 formed between the small-diameter cylinder 130 and the main shaft 15. In addition,

However, since the volume of the space portion 131 is sufficiently smaller than the volume of the space portion formed between the body portion 41 and the main shaft 15, the space portion 131 is filled with a small amount of grease, Resistance is generated, and the charging condition of the grease can be grasped. In this embodiment, the grease flowing into the space portion 131 passes through the grease inflow path formed by the gaps formed between the bearings 89 and 90 and the main shaft 15, A grease inflow path may be provided. The discharge passage 131c is formed of a pipe 131a communicating with the small diameter cylinder 130 and the body portion 41 and is normally closed by the plug 131b in order to extract the grease contained in the space portion 131. [ (See Fig. 6). It is also possible to provide a cover that covers the fixed toothed portion 91 and the sliding moving tooth portion 92 according to the present embodiment to prevent leakage of grease.

Next, the chain drums 81 and 82 shown in Fig. 1 will be described. Each of the chain drums 81 and 82 includes a chain drum body 138 and 139 having a well-known structure, a bearing housing of the first fixed boss member, and a bearing housing of the second fixed boss member, And is rotatably mounted on the main shaft 15 through a metal bushing 142 which is an example of a bearing housed inside the rotating bodies 140 and 141. [ The metal bushing 142 may be divided into two parts.

Fixed toothed portions 143 and 144 are formed at portions corresponding to the first fixed boss members on one side (one side and the other side in this embodiment) of the rotating bodies 140 and 141, respectively. The sliding movement boss members 148 and 149 provided on the main shaft 15 so as to be able to slide on the respective axis sliding movement portions 146 and 147 of the main shaft 15 are provided with sliding moving teeth portions 143 and 144 engaged with the fixed teeth portions 143 and 144, (150, 151). The clutch means 153 and 154 are formed by the fixed toothed portions 143 and 144 and the sliding moving teeth portions 150 and 151 so that the rotation of the main shaft 15 is controlled by the operation of the clutch levers 155 and 156 To the rotating bodies 140 and 141, respectively. The configuration of the sliding movement boss members 148 and 149 and the angular sliding movement units 146 and 147 is similar to that of the winch apparatus 60 according to the first embodiment in that the sliding movement boss member 93 and the angular axis sliding movement unit 94 ).

It is preferable to provide a receiving container 158 (see Fig. 2) for receiving the overflowing grease when grease flows from the bearing portions 65 to 68 to each of the leg members 61 to 64 .,

The winch device 160 according to the second embodiment of the present invention will be described with reference to Figs. 5 and 6. The winch device 160 includes a rope drum 161 and one chain drum 162, . In the basic structure, the winch device 160 is different from the winch device 60 according to the first embodiment in that, in the winch device 60, a metal bushing (an example of a sliding bearing) The bearing 160 is provided with self-aligning bearings 165 to 168 for the bearings. Therefore, elements substantially the same as those of the winch device 60 are denoted by the same reference numerals, and description thereof may be omitted.

The winch device 160 includes a base mount 60a, four leg members 62 to 64 provided on the base mount 60a, bearing members 170, 171 and 68 mounted on the leg members 62 to 64, And a main shaft 15 rotatably mounted on these. The bearing members 170 and 171 have bearing housings 174 and 175 fixed to the leg members 62 and 63, respectively. Self-aligning bearings 165 and 168 are provided in the bearing housings 174 and 175 and a bearing 76 made of a metal bushing is disposed in the bearing housing 72 of the bearing member 68 However, self-aligning bearings can also be used.

The first and second fixed boss members 177 and 178 use the automatic alignment bearings 166 and 167 instead of the bearings 89 and 90 made of metal bushings. A fixed toothed portion 179 is provided on one side of the first fixed boss member 177 and a sliding moving tooth portion 181 is provided on the other side of the sliding boss member 180. [ The sliding movement boss member 180 is provided with a hole 95 in its inside so as to move the respective axis sliding movement portions 94 in the axial direction and to be movable in the axial direction of the fixed boss member 180. Similarly to the sliding boss member 93 of the winch device 60, And engages and disengages the slider 179 and the sliding moving tooth portion 181. That is, the fixed tooth portion 179 and the sliding moving tooth portion 181 form the clutch means 182 for turning the rope drum 161 on or off.

A sealing member 121 is provided on one side of the sliding movement boss member 180 in the winch device 160 and a stainless pipe 122 is shrink-fitted on the main shaft 15 of the sliding moving part The sealing member 121 is fixed by the sealing presser 123; the cross section of each of the axial sliding movement parts 94 is a square whose cross section is formed in a circular arc shape; And the sliding boss member 180 is provided with a plurality of grease holes 118 and a grease nipple mounted on each of the grease holes 118, A cover member 125 for preventing a smooth outflow of grease from the processing space portions 113 to 116 is formed on the other side of the sliding movement boss member 180, And in the inside of the body portion 41, the first and second Having the forward small-diameter cylinder (130) for connecting the inner side facing the boss member (177, 178) are installed, the same as the winch device 60 according to the first embodiment.

The chain drum 162 has the same structure as the chain drum 82 of the winch unit 60 and operates the clutch means 154 to turn the chain drum 162 on or off.

The clutch means 182 (96, 153, 154) is provided on one side of the rope drum 161 (the same applies to "80") and the chain drum 162 It is preferable to dispose the brake drums 183 and 184 which also serve as a cover for preventing exposure.

Cover plates 186 to 191 provided with sealing members (oil sealing) are provided on both sides of the bearing housings 174 and 175 and on one side of the first and second fixed boss members 177 and 178, The stainless steel pipes 196-201 are shrink-fitted to the circular section of the main shaft 15 so as to be injected from the grease injection holes 192-195 to be inserted into the self-aligning bearings 165-168, Thereby preventing the leakage of the lubricated grease.

The present invention is not limited to the above-described embodiment, and when a winch device 60 according to the first embodiment and a winch device 160 according to the second embodiment are combined to construct a new winch device, do.

In addition, the cross section of each of the pivotal sliding sliding portions and each hole is not limited to a square in which the corner portion is rounded, but may be another polygonal shape.

Further, in the winch device according to the present invention, although grease is used as the lubricant, the present invention is applied to either the case where a part of the grease flows out of the gap or the case where the grease is completely sealed.

It is also possible for the chain drum to be rotatably connected to the main shaft via one side of the chain drum main body through the first fixing boss member and the other side through the second fixing boss member (see Fig. 7). In addition, a small-diameter cylinder is provided on the outer side of the main shaft of the chain drum body with its central axis aligned with the main shaft, and grease injected into the bearings of the first and second fixed boss members is introduced into a grease inflow path (for example, And the space between the main shaft and the small-diameter cylinder through the gap between the main shaft and the bearing, or between the main shaft and the bearing.

10; Wherein the bearing housing is provided with a bearing housing and a bushing in which a rope drum and a chain drum are connected to each other by a chain drum A first fixing boss member 24 and 25 a second fixing boss member 27 a fixed tooth portion 28 a square shaft sliding portion 30 a sliding sliding boss member 32 a sliding moving tooth portion 33, The present invention relates to a clutch lever having a clutch mechanism and a boss hole in which a boss hole is formed. The present invention relates to a bearing device for a bearing device, which comprises a bearing portion, a bearing portion, a bearing portion, and a bearing portion. The present invention relates to a bearing assembly for a bearing assembly and a bearing assembly for a bearing assembly, the bearing assembly comprising: a bearing housing; 73 to 76 bearings; 77: grease filling ball; 78: grease nipple; 80: rope drum; 81; 82; chain drum; 83; 84; 86: second fixing boss member, 87: grease injection hole, Wherein the sliding nipple is a sliding nipple having a sliding contact with the sliding nipple of the sliding nipple. The clutch mechanism according to any one of claims 1 to 3, wherein the clutch lever is a clutch lever, and the clutch lever is a cylindrical member. A sealing groove formed in the annular grease groove so as to surround the annular grease groove of the annular grease groove; A small diameter cylinder 131 a hollow portion 131a a pipe 131b a plug 131c a discharge passage 138 a chain drum body 140 a rotating body 142 a metal bushing 143 and 144 fixed teeth, Wherein the sliding movement of the sliding boss member includes a sliding movement of the sliding boss member and a sliding movement of the sliding boss member. A first fixed boss member, a first fixed boss member, a second fixed boss member, and a second fixed boss member, wherein the first fixed boss member and the second fixed boss member are fixed to each other. 183: 184: brake drum, 186 - 191: cover plate, 192 - 195: grease pouring ball, 184: fixed boss member, 180: sliding sliding boss member, 181: sliding moving tooth portion, 196 to 201: Stainless steel pipe

Claims (9)

1) a first fixed boss member supported by a plurality of bearing members and connected to a rotation drive source, 2) a first fixed boss member having a fixed toothed portion on one side, and a second fixed boss member rotatably mounted on the main shaft And 3) each hole (square hole) slidably movably fitted in a slidable moving part having a rectangular cross-section formed at a specific position of the main shaft, And a sliding moving boss member having a sliding moving tooth portion engaged with the fixed tooth portion on the other side,
Wherein the fixed toothed portion and the sliding moving tooth portion constitute clutch means for turning on or off the rotation of the drum, and the sliding moving boss member constitutes a grease injection hole and a grease injection hole A plurality of annular grease grooves are formed in the corners of the respective holes,
Wherein a sealing member is provided at one side of the sliding moving boss member so as to slide and move in contact with the main shaft having a circular section and the other side of the sliding moving boss member is located outside the respective axis sliding movement portions, With cover material installed,
Winch device. The method according to claim 1,
Wherein the cover member is annular so as to simultaneously block a plurality of the processing space portions. The method according to claim 1,
Wherein the cover material is divided in the circumferential direction. The method according to claim 1,
And the cover material is provided in each of the processing space portions. 5. The method according to any one of claims 1 to 4,
Wherein the drum is a rope drum having a body portion and side plates A and B provided on both sides of the body portion, the side plate A on one side is connected to the side plate B on the other side via the first fixing boss member, And is rotatably mounted on the main shaft via a second fixed boss member. 5. The method according to any one of claims 1 to 4,
Wherein the drum is a chain drum, and one side of the chain drum main body is rotatably connected to the main shaft via the first fixing boss member and the other side through the second fixing boss member. 5. The method according to any one of claims 1 to 4,
Wherein the drum is a chain drum, the chain drum main body, the bearing housing of the first fixed boss member, and the bearing housing of the second fixed boss member are integrally formed, and the drum is rotated Wherein the winch device is mounted as far as possible. 6. The method of claim 5,
Wherein a grease injected into the bearings of the first fixed boss member and the second fixed boss member is supplied to the inside of the cylindrical body forming the body portion, And flows into a space portion formed between the main shaft and the small-diameter cylinder through an inflow path. The method according to claim 6,
Wherein a grease injected into the bearings of the first fixed boss member and the second fixed boss member is applied to the outer periphery of the main shaft via the small-diameter cylinder, And flows into the space portion formed between the main shaft and the small-diameter cylinder through the grease inflow passage.

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