KR101994150B1 - Shaft supporter for floodgate winch with elastic body - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a support for supporting a rotary shaft included in a winch for lifting a sluice gate, and more particularly, to a support for supporting a rotary shaft included in a winch for hoisting a sluice gate, And a resilient body such as a spring provided on the elastic unit to continuously support the lower portion of the rotary shaft by the elastic force of the elastic member.

Description

Technical Field [0001] The present invention relates to a shaft support for floodgate winch with elastic body,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a support for supporting a rotary shaft included in a winch for lifting a sluice gate, and more particularly, to a support for supporting a rotary shaft included in a winch for hoisting a sluice gate, And a roller provided on the rotary shaft support unit by the elastic force of an elastic body such as a spring provided on the elastic unit, to apply the elastic body to continuously support the lower portion of the rotary shaft.

Generally, the water gate is installed in the reservoir, the coast, the agricultural water channel, and is used for the purpose of controlling the fresh water, the flow rate, and preventing the back flow. Such a water gate is made of heavy metal material, Respectively.

In addition, if the water gate is opened or closed by a medium or large water gate or a water pressure is strong, a wire type winch is mainly used. In the prior art of a water gate opening / closing apparatus using such a wire-type winch, a water gate provided on both side banks, a water gate guided at both ends of the water gate, hoisting sheaves installed at the top of the water gate, A wire for lifting and lowering the water gate, a wire drum for winding and unwinding the wire to open and close the water gate, and a winder for rotating the wire drum in normal and reverse directions.

In addition, when the hoist is driven to open the hoistway, the hoistway of the hoistway is rotated forward, and the hoistway coupled to the hoistway is also rotated together with the hoistway. On the other hand, if the user desires to close the gate, the reverse rotation of the win- dow causes the wire drum to be reversed, and the wire is released from the wire drum and the gate descends.

In addition, the driving device for rotationally driving the wire drums in the water gate opening / closing device includes a driving motor provided on one side, a driving rotary shaft rotated in normal and reverse directions by a driving motor, a driven rotary shaft provided on the other side, and a connection rotary shaft connecting the rotary rotary shaft and the rotary rotary shaft Lt; / RTI > At this time, the connection between the driving rotation axis and the connection rotation axis, and the connection between the connection rotation axis and the driven rotation axis are connected by coupling, so that the rotation force of the driving rotation axis is transmitted to the driven rotation axis through the connection rotation axis.

In addition, when a step is generated between the driving rotation axis and the connection rotation axis and the center between the connection rotation axis and the driven rotation axis due to deflection of the connection rotation axis, the rotation of the connection rotation axis does not rotate with respect to the axis center, There is a problem in that the coupling between the driving rotation shaft and the connection rotation shaft and the coupling between the driving rotation shaft and the driven rotation shaft may be damaged due to overload.

Accordingly, conventionally, a rotary shaft support for supporting the lower portion of the connection rotary shaft is installed in the water gate opening / closing device. The following is a typical prior art related to the rotary shaft support of the water gate winch.

Korean Patent Registration No. 10-1574680 relates to a shaft deflection preventing apparatus for a water gate opening and closing apparatus, comprising: a fixed column installed at a predetermined height on a structure under a connection shaft at a position adjacent to a coupling; A pair of rotation supporting portions provided on the upper surface of the fixed post so as to be rotatable laterally through the hinge at regular intervals; A support roller rotatably installed at an upper end of each of the rotary support so as to rotatably support both sides of the lower portion of the outer circumferential surface of the connection shaft; And a support spring elastically supporting the rotary support so that the force acts at all times in a direction opposite to the rotation support.

In the shaft deflection preventing device for a water gate opening / closing according to the related art, when the deflection of the shaft occurs, the shaft center of the connecting shaft and the shaft for opening and closing the water gate are coincided by rotating the outer circumferential surface of the end portion of the connecting shaft, However, the elastic force of the support springs of the rotary support provided with the support rollers is insufficient, and research and development for solving the problems are required.

Korean Registered Patent No. 10-1574680 (November 30, 2015) Korean Utility Model Registration No. 20-0464143 (2012.12.06.) Korean Utility Model Registration No. 20-0395984 (2005.09.08.) Korean Registered Patent No. 10-1475730 (Dec. 17, 2014)

The present invention relates to a rotary shaft support which is incorporated in a water hoist and which has a problem in the prior art, The support roller is supported by the support roller, so that when the rotation shaft is eccentrically rotated, there is a problem that the support roller temporarily separates from the rotation shaft or is over-tightened;

In particular, when the support roller is separated from the rotation shaft as described above, the rotation shaft can not be supported by the support rollers, thereby causing deflection of the rotation shaft. When the support roller is over-tightened with the rotation shaft, There is a problem that a pressing force is formed to cause breakage of an attached device such as a rotating shaft, a bearing unit for supporting the rotating shaft, and a gear unit for connecting the rotating shaft and the driving motor, and a solution to this problem is provided.

The present invention has been made to solve the above-

A support shaft which is disposed at a lower portion of a rotary shaft included in the hydrator winch and supports the rotary shaft, the support shaft being provided at an upper portion of the mount and having at least one roller for supporting a lower portion of the rotary shaft; And an elastic body unit provided at an upper portion of the cradle and engaged with a part of the rotary shaft support unit and moving the roller of the rotary shaft support unit in the vertical direction by the elastic force of the elastic body to bring the roller into close contact with the outer peripheral surface of the rotary shaft. This paper proposes a swivel shaft support for a hydrant hoist.

The elastic body included in the elastic body unit keeps the rollers of the rotary shaft unit in close contact with the outer peripheral surface of the rotary shaft and supports the rotary shaft even when the rotary shaft is eccentrically rotated Effect can be obtained;

As a result, it is possible to prevent a deflection phenomenon of the rotation shaft due to eccentric rotation, and also to provide a rotation shaft that can be generated due to the separation or overfilling of the roller against the eccentrically rotating rotary shaft, a bearing unit for supporting the rotation, It is possible to prevent the breakage of the attached devices such as the gear unit to be connected.

1 is a plan view showing a watercleaning winch provided with a watercourse hoist rotating shaft support according to a preferred embodiment of the present invention;
FIG. 2 is a perspective view showing a watercourse hoist rotary shaft support according to a preferred embodiment of the present invention; FIG.
FIG. 3 is a front view of a watercourse hoist rotary shaft support according to a preferred embodiment of the present invention; FIG.
FIG. 4 is a side view of a watercourse hoist rotary shaft support according to a preferred embodiment of the present invention. FIG.
FIG. 5 is a partial detail front view showing a watercourse hoist rotary shaft support according to a preferred embodiment of the present invention. FIG.
6 and 7 are partially detailed front views illustrating an operation process of a water-jack lift shaft support shaft according to a preferred embodiment of the present invention.

The present invention relates to a support for supporting a rotary shaft (S) included in a winch for lifting a sluice gate, which is disposed at a lower portion of a rotary shaft (S) included in a hoist winch and supports the rotary shaft (S) (30), and at least one roller (11) provided at an upper portion thereof for supporting a lower portion of the rotary shaft (S); The roller 11 of the rotary shaft support unit 10 is vertically moved by the elastic force of the elastic body 21 and is engaged with a portion of the rotary shaft support unit 10, And an elastic body unit (20) for bringing the roller (11) into close contact with the outer circumferential surface of the rotary shaft (S).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

The present invention relates to a support for supporting a rotary shaft S included in a winch for lifting or lowering a sluice gate for opening and closing a sluice gate. The driving force of the drive motor 100 included in the win- (S) that transmits the rotation of the rotary shaft (110).

In this case, if the number of the wire drums 110 is plural, the wire drums 110 may be formed of a single wire or a plurality of wire drums 110, A rotating shaft S is provided between adjacent adjacent wire drums 110 and one side of the rotating shaft S is connected to either one of the wire drums 110 or the driving motor 100 to receive a driving force And the other side of the rotary shaft S is connected to the other one of the wire drums 110 to transmit the driving force of the driving motor 100 to the other one of the wire drums 110.

1, a single drive motor 100 is provided in a winch hoisting machine as shown in FIG. 1, the single drive motor 100 provides a driving force to two wire drums 110, A rotating shaft S (corresponding to a connecting rotary shaft of the related art) for receiving a driving force by the driving motor 100 is disposed between the drums 110 to provide a driving force to the two wire drums 110 The present invention is applied to a hydrant hoist.

In this case, it is preferable that the rotation axis S is formed in a horizontal direction with respect to the paper surface and rotates in a direction perpendicular to the paper surface. And a pair of bearing units 120 supporting the both ends of the rotary shaft S so that the rotary shaft S can be rotated will be described as a preferred embodiment.

Specifically, the rotary shaft support according to the present invention includes a rotary shaft support unit 10 having a roller 11 for supporting a lower portion of a rotary shaft S macroscopically and a roller 11 for supporting the roller 11 continuously on the outer peripheral surface of the rotary shaft S And an elastic body (20) having an elastic body (21) for providing an elastic force (concept including a restoring force).

In addition, the rotary shaft support according to the present invention having the above-described structure is disposed only at the lower center of the rotary shaft S and may support the rotary shaft S, but it is constructed as a pair as shown in FIG. 3, Each of the support rods may be arranged on both sides of the lower center of the rotation axis S about the lower center of the rotation axis S. [

That is, when the pair of rotation axis supporters are configured to support the rotation axis S on both sides of the lower center of the rotation axis S as described above, It is possible to realize an effect of enabling stable support.

The rotary shaft support unit 10 is provided at an upper portion of the mounting table 30 and includes at least one roller 11 for supporting a lower portion of the rotary shaft S at an upper portion thereof. And a roller 11 for continuously supporting the roller.

More specifically, the cradle 30 is configured to fix the rotary shaft support unit 10 to a ground or a constant structure, the lower portion is fixed to a ground or a certain portion of the structure, and the rotary shaft support unit 10 And the load of the rotary shaft S supported by the roller 11 is held and transmitted to the ground or the structure.

At this time, if the support base 30 can support the load of the rotation axis S applied to the rotation shaft support unit 10, it can be formed in various forms by fastening between a plurality of frames or plates, So as to support not only the rotary shaft support unit 10 but also the following elastic unit 20 together.

The rotary shaft support unit 10 has a lower fixed part fixed to the upper part of the cradle 30 and at least one roller 11 is provided on the upper part of the rotary shaft support unit 10. The roller 11 has the following elastic unit 20, It can be configured in various forms as long as it can be moved in the vertical direction by the elastic force of the elastic body 21.

That is, the roller 11 moves the elastic force of the elastic body 21 of the elastic body unit 20 in a vertical direction (a direction perpendicular to the length of the rotation axis S) and is in close contact with the outer peripheral surface of the rotation axis S, S and the rotary shaft support unit 10 transmits a part of the load of the rotary shaft S received from the roller 11 to the cradle 30. [

At this time, the roller 11 may be in various forms, numbers, and materials as long as it is in continuous contact with the outer circumference of the rotation axis S and can support a part of the load of the rotation axis S, The roller 11 may be made of an elastic material such as rubber or urethane so that the entire or outer layer of the roller 11 may be minimized in order to minimize damage to the outer circumferential surface of the rotating shaft S.

The rotary shaft support unit 10 is supported by the cradle 30 and receives the elastic force of the elastic body 21 of the elastic body unit 20 to rotate the roller 11, the roller 11 may be configured to have a state in which the roller 11 is kept in close contact with the outer circumferential surface of the rotary shaft S, and may be configured in various forms. Preferably, the rotary shaft support unit 10 A support frame 12 having a lower portion fastened to the upper portion of the cradle 30 and a height formed at an upper portion thereof; And a support arm 13 which is fastened to an upper portion of the support frame 12 so as to be rotatable so that a center portion thereof is rotatable and the roller 11 is provided at an upper portion and a portion of the elastic unit 20 is fastened at a lower portion thereof . ≪ / RTI >

Specifically, the support frame 12 has a structure in which a lower portion is fastened to the upper portion of the cradle 30 and a height is formed at an upper portion of the cradle 30. The support arm 13 is positioned and fixed to the cradle 30 so as to be rotatable .

That is, the supporting frame 12 may have a length in the upper direction as viewed in FIG. 2, and a lower portion may be bolted to the upper portion of the cradle 30. At this time, a hinge hole is formed in the upper part of the support frame 12 so that the hinge shaft can be inserted, so that the support arm 13 can be coupled to the support frame 12 so as to be rotatable.

The support arm 13 is coupled to the upper portion of the support frame 12 such that a central portion thereof is rotatable. The roller 11 is provided at an upper portion of the support arm 13 and a portion of the elastic unit 20 is fastened at a lower portion thereof. The elastic force transmitting member rotates in the vertical direction about the upper portion of the support frame 12 and continuously adheres the roller 11 to the outer circumferential surface of the rotary shaft S. [

That is, when the hinge hole is formed in the support frame 12, the support arm 13 is coupled with the support arm 13 so that the center portion of the support arm 13 is rotatable on the upper portion of the support frame 12. At this time, A hinge hole may be formed in the center portion and a hinge may be inserted into the hinge hole of the support frame 12 and the hinge hole of the center portion of the support arm 13. [

The support frame 12 may be formed as a pair so that the support arm 13 can be more firmly supported. The support arm 13 is interposed between the pair of support frames 12, It is possible to construct a structure in which the rotor is rotatably engaged.

The roller 11 provided on the upper portion of the support arm 13 has a structure in which the roller 11 is in close contact with the outer peripheral surface of the lower portion of the rotary shaft S as described above, (20) is engaged with a certain portion to receive the elastic force of the elastic body (21) provided on the elastic body unit (20).

More specifically, the rotation shaft S eccentrically rotates so that the roller 11 provided at the upper portion of the support arm 13 moves away from the rotation center axis (virtual rotation center axis) of the rotation axis S or approaches The central portion of the support arm 13 fastened to the support frame 12 is rotated by the vertical movement of the roller 11 to move the position of the lower portion of the support arm 13, A portion of the elastic body unit 20 connected to the lower portion of the supporting shaft 13 is pulled or pushed by the elastic force of the elastic body 21 or the restoring force of the elastic body 21 so that the roller 11 continuously rotates So that it can support the rotation axis S.

3, the supporting arm 13 may be formed in various forms according to the judgment of a person skilled in the art. Preferably, the supporting arm 13 is formed with a center portion of the supporting arm 13 fastened to the supporting frame 12 And may be formed in a bent shape such that the upper part and the lower part are located on the same side.

That is, the support arm 13 of the above-described configuration is formed in a "C" shape, and a central portion thereof is coupled to the upper portion of the support frame 12 so as to be rotatable, When the position of the roller 11 in the vertical direction is changed due to the eccentric rotation of the rotation axis S, the elastic body 21 is elastically deformed by the eccentric rotation of the elastic body 21, The elastic force and the restoring force of the roller 21 are generated (or changed) in the same direction as the roller 11 to buffer the excessive pressing force between the rotation axis S and the roller 11 due to eccentric rotation of the rotation axis S, (Non-contact) between the rotary shaft S and the roller 11 due to eccentric rotation of the roller 11 and the roller 11 can be solved.

The elastic unit 20 is provided on the upper part of the mounting table 30 and is coupled to a part of the rotary shaft support unit 10 and is connected to the roller 11 of the rotary shaft support unit 10 by the elastic force of the elastic body 21. [ And the roller 11 is brought into close contact with the outer peripheral surface of the rotary shaft S so that the roller 11 can be moved in the vertical direction due to eccentric rotation of the rotary shaft S The elasticity of the elastic body 21 is continuously applied to the roller 11 so that the roller 11 can be kept in close contact with the outer circumferential surface of the lower portion of the rotary shaft S. [

That is, the elastic unit 20 has a structure in which a lower fixed part is fixedly connected to the upper part of the mounting table 30, like the rotation shaft supporting unit 10, and the other part is configured to be a part of the rotation shaft supporting unit 10 And the elastic force of the elastic body 21 provided on the elastic body unit 20 is continuously applied to the roller 11 whose position is changed.

More specifically, the elastic unit 20 includes a support frame 22 having a lower portion fastened to the upper portion of the cradle 30 and a height formed at an upper portion thereof; A fixed plate member 23a including a first fixed plate 23a rotatably coupled to an upper portion of the support frame 22 and a second fixed plate 23b spaced apart from the first fixed plate 23a, 23); At least one elastic body (21) provided between the first fixing plate (23a) and the second fixing plate (23b); One end of which is rotatably coupled with a portion of the rotary shaft support unit 10 and the other end of which is fixed to the second fixing plate 23b through an intermediate portion of the first fixing plate 23a, ; ≪ / RTI >

Specifically, the support frame 22 is configured such that a lower portion thereof is fastened to the upper portion of the cradle 30 and a height thereof is formed at an upper portion thereof, and a first fixing plate 23a included in the following fixing plate member 23 And is fixed to the cradle 30 so as to be rotatable.

That is, the support frame 22 may have a length in the upper direction as viewed in FIG. 2, and a lower portion may be bolted to the upper portion of the mount 30. At this time, a hinge hole is formed in the upper part of the support frame 22 so that the hinge shaft can be inserted therein, so that the first fixing plate 23a can be coupled to the support frame 22 so as to be rotatable .

The fixing plate member 23 is fixed to the upper portion of the support frame 22 so that the first fixing plate 23a is rotatable and the second fixing plate 23a is spaced apart from the first fixing plate 23a. And an elastic body (21) such as a spring is provided between the first fixing plate (23a) and the second fixing plate (23b) to support both ends of the elastic body (21) And the rod 24 to which the other side is fixed to the plate 23b can be moved by the elastic force of the elastic body 21. [

Specifically, the fixing plate member 23 includes a first fixing plate 23a and a second fixing plate 23b which are spaced apart from each other, and the first fixing plate 23a has a plate- Or an elastic body (21), and is rotatably coupled to an upper portion of the support frame (22).

A hinge hole is formed in the first fixing plate 23a and the support frame 22 and a hinge is internally fastened to the hinge hole so that the first fixing plate 23a is fixed to the support frame 22 As shown in Fig.

The second fixing plate 23b is configured to support the other side of the elastic body 21 which is located at one side of the first fixing plate 23a and has a distance corresponding to the length of the elastic body 21, 1 fixed plate 23a.

In addition, when the shape of the elastic body 21 is deformed in the longitudinal direction of the elastic body 21, it is preferable that the elastic body 21 is of the same type as that of a spring in order that the elastic force and the restoring force can be sequentially applied. A kind of compression spring, tension spring or the like may be used according to the judgment of a person skilled in the art.

The rod 24 is formed in the shape of a bar having a predetermined length so that one side of the rod 24 is rotatable with a part of the rotary shaft support unit 10 And the other end is fixed to the second fixing plate 23b. The elastic force of the elastic body 21 (the concept including the restoring force) is transmitted to the second fixing plate 23b through the first fixing plate 23a. ) To a part of the rotary shaft supporting unit (10).

At this time, when the rotary shaft support unit 10 is configured to include the support arm 13, one side of the rod 24 is coupled to the lower portion of the support arm 13 so as to be rotatable.

The rod 24 can be moved in the longitudinal direction of the rod 24 by the elastic force and the restoring force of the elastic body 21 while the other side is fixed to the second fixing plate 23b. That is, when the lower portion of the support arm 13 is changed in position by the vertical movement of the roller 11, the longitudinal movement of the rod 24 is caused thereby, So that the roller 11 is buffered by the elastic force of the elastic body 21 and can move in the vertical direction.

Hereinafter, a description will be made of an operation process of the swing shaft supporter using the elastic body according to the preferred embodiment of the present invention.

The rotation shaft S supported by the present invention is arranged between two wire drums 110 included in a win- dow and configured to transmit the driving force of the driving motor 100 to each of the wire drums 110, The rotary shaft support according to the present invention is positioned at the lower portion of the rotary shaft S in a state of being adjacent to the bearing unit 120 provided on both sides of the rotary shaft S and supporting the rotary shaft S to be rotatable.

The rotary shaft supports according to the present invention are formed as a pair and are fixed to the upper part of the base 30, which is fastened to the structure forming the skeleton of the hoist, one by one on both sides of the center of the lower part of the rotary shaft S .

Hereinafter, any one of the pair of rotation axis support rods will be described.

Specifically, the rotary shaft S, which receives the driving force of the driving motor 100 in a state in which both ends are supported by the pair of bearing units 120, is rotated in the normal direction with respect to the rotation center axis of the rotary shaft S Eccentric rotation is induced when an instantaneous torque change occurs on the rotation axis S or when a part of the rotation is caused by the load of the rotation axis S.

At this time, the elastic body 21 provided in the elastic unit 20 is composed of a compression spring, and the compression spring is compressed in a state in which a predetermined restoring force is formed, and the first and second fixing plates 23a, And the rod 24 to which the other end is fixed to the second fixing plate 23b has one side pulling the lower portion of the support arm 13 of the rotary shaft support unit 10 in the right direction of Figure 6 State.

6, when the rotary shaft S eccentrically rotates in the direction away from the roller 11 of the rotary shaft support unit 10 (direction A), the elastic force of the compression spring is continuously received, The roller 11 provided at the upper portion of the support arm 13 is supported at the center portion of the support arm 13 by the pulling force of the rod 24 pulling the lower portion of the support arm 13 in the direction The roller 11 of the rotary shaft supporting unit 10 is continuously brought into close contact with the outer peripheral surface of the rotary shaft S to rotate the rotary shaft S in the direction of the rotary shaft S .

7, when the rotary shaft S is eccentrically rotated in the direction (B direction) approaching the roller 11 of the rotary shaft support unit 10, the outer peripheral surface of the rotary shaft support unit 10 The contact roller 11 is pushed in the direction B so that the lower portion of the support arm 13 is rotated in the vertical direction about the middle portion of the support arm 13 and moves in the left direction , Where the rod 24 can move to the left (D direction) while compressing the compression spring further. In addition, the restoring force of the compression spring in the above state is further increased, the moving force for moving the roller 11 in the A direction is increased, and the roller 11 presses the outer peripheral surface of the rotating shaft S, The eccentric rotation of the rotary shaft S can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to carry out various changes in the present invention.

10: rotation shaft support unit 11: roller
12: Support frame 13: Support arm
20: Elastic body unit 21: Elastic body
22: support frame 23: fixed plate member
23a: first fixing plate 23b: second fixing plate
24: Load 30: Cradle
S: rotation shaft 100: drive motor
110: wire drum 120: bearing unit

Claims (6)

A support for supporting a rotary shaft (S) disposed below a rotary shaft (S) included in a water gate hoist,
A rotary shaft supporting unit 10 provided on the upper part of the holder 30 and having at least one roller 11 made of an elastic material supporting the lower portion of the rotary shaft S at an upper portion thereof;
The roller 11 of the rotary shaft support unit 10 is vertically moved by the elastic force of the elastic body 21 and is engaged with a portion of the rotary shaft support unit 10, And an elastic body unit (20) for bringing the roller (11) into close contact with the outer peripheral surface of the rotary shaft (S)
The rotary shaft support unit (10)
A support frame (12) fastened to an upper portion of the cradle (30) and formed at an upper portion thereof;
A roller 11 is provided at an upper portion thereof and a portion of the elastic unit 20 is coupled to a lower portion of the support frame 12, And a support arm (13) having a bent shape such that the upper and lower portions are positioned on the same side with respect to the fastened central portion,
The elastic unit (20)
A support frame (22) having a lower portion fastened to the upper portion of the cradle (30) and a height formed at an upper portion thereof;
A fixed plate member 23a including a first fixed plate 23a rotatably coupled to an upper portion of the support frame 22 and a second fixed plate 23b spaced apart from the first fixed plate 23a, 23);
At least one elastic body (21) provided between the first fixing plate (23a) and the second fixing plate (23b);
One end of which is rotatably coupled with a portion of the rotary shaft support unit 10 and the other end of which is fixed to the second fixing plate 23b through an intermediate portion of the first fixing plate 23a, Wherein the elastic body is applied to the rotary shaft support. The method according to claim 1,
The rotary shaft support units 10 are formed as a pair,
Wherein each of the pair of rotary shaft support units (10) is configured to be disposed on both sides of a lower center of a rotary shaft (S) with a center of a lower center of the rotary shaft (S) . delete delete delete delete

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