KR20090088065A - A turn-over device using sliding guides and turning-rollers - Google Patents

Abstract

A turnover device using a sliding opening/closing structure and a turning roller is provided to turn with the little power using a turning mode by the weight. A turnover device using a sliding opening/closing structure and a turning roller comprises a frame(110), an assistant frame(120), and a plurality of turning rollers(130). A fixing cone fixing the large construction is formed inside of the frame. The frame is consisting of a top frame(111) and a bottom frame(112). The frame is opened by sliding of the top frame. The assistant frame has a space where the top frame is settled after sliding. A plurality of turning rollers is connected with a drive motor to rotate. A plurality of turning rollers rotates the frame in order to turn the large construction fixed to the frame over.

Description

A turn-over device using sliding guides and turning-rollers}

TECHNICAL FIELD The present invention relates to a turnover device, and more particularly, to a turnover device for overturning a large structure having a hollow-type structure, such as a ship propeller.

In the process of manufacturing large propellers, in general, after the casting of the propeller, machining (press cutting, eye bolt hole work for propeller lifting, boss bottoming, boss top machining, internal boring, forward wing milling, backward wing milling) , Reverse side grinding, reverse side grinding, inspection, etc.) should be flipped approximately 6 to 8 times.

Meanwhile, the turnover operation of inverting the propeller as described above was performed by the following process. ① Tighten the propeller turnover eye bolt to the threaded hole in the center of the propeller boss side. ② Connect the sovereign wire rope to the eye bolts, lift the propeller with the overhead crane and stand it vertically. (3) Level the propellers by winding up the overhead wire rope of the overhead crane on the propeller blades facing downward. ④ Place the horizontal propeller on a pit filled with fine sand.

However, the method using the wire rope as described above is not only difficult to handle because the wire rope is thick and heavy, there is a high risk of damage to the wing during the turnover operation, there was a high risk of safety accidents.

In this regard, the present inventor has invented a turnover device that can more easily and safely perform a turnover operation of a large propeller. Such a turnover device is disclosed in Korean Patent No. 0478248. The configuration of the disclosed turnover device will be described with reference to FIG. 1. The upper frames 22 and 22 ′ are assembled and installed on the upper left and right lower frames 24 and 24 ′, respectively. The main spindle 12 is installed in the main spindle 12, the main boom 10, 10` is installed on the main spindle 12, the hydraulic cylinder for fixing the propeller to the main boom (10, 10`) 40 and the boss table 14 and the boss cone 16, and the upper frame 22 is provided with a hydraulic motor 36 for the rotation of the main spindle 12, the turnover of a large propeller It is configured to make work easy and safe.

However, in the turnover device mentioned through the background art, the main boom must be rotated in the horizontal direction in order to secure a space for placing a heavy object. In this case, the upper main boom has a cantilever structure with respect to the rotary joint. Excessive loads caused frequent failures and shortened device life. In addition, there is a problem that the length of the main boom for positioning the heavy object is excessive, and the main boom and the heavy object are combined to turn over, so that the size of the device and the area required for the work are excessive.

The present invention has been made in consideration of the above problems, and an object of the present invention is a structurally stable sliding opening and closing by moving the upper frame of the frame for the turning operation of a large structure having a hollow structure, such as a propeller by a sliding method It is to provide a turnover device using the structure and the turning roller.

In addition, another object of the present invention is to provide a turn-over device using a sliding opening and closing structure and a turning roller that can perform the turning operation with a smaller power than the conventional turning method by its own weight.

The present invention to achieve the object as described above and to solve the conventional drawbacks are inserted into the hollow portion of the large structure having a hollow structure is provided with a fixing cone for fixing the large structure, respectively, and a semi-circular shape Consists of consisting of an upper frame and a lower frame configured to form a circular structure by mutual coupling, the frame is opened and closed by the sliding movement of the upper frame;

An auxiliary frame disposed at a neighboring position of the frame to provide a space in which the upper frame is separated from the frame by sliding movement; And

It is disposed under the frame to contact the outer peripheral surface of the frame, by using a sliding opening and closing structure and a turning roller consisting of a plurality of turning rollers are connected to the drive motor to rotate the frame to turn over the large structure fixed to the frame A turnover device is featured.

Turnover device of the present invention having the features as described above can be installed in a small area compared to the conventional turnover device can increase the utilization of the space, and is structurally stable because the opening and closing of the frame is made by a sliding method, It is possible to provide turnover devices for large structures with simple functions and excellent workability and safety.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Meanwhile, the large structure having the hollow structure mentioned in the present invention means a large structure in which hollow parts such as holes are processed such that a shaft can be coupled to the center of the structure, such as a propeller.

2 illustrates a perspective view of a turnover apparatus according to a preferred embodiment of the present invention, and FIG. 3 illustrates a front view of FIG. 2. 2 and 3, a turnover apparatus according to a preferred embodiment of the present invention includes a frame 110, an auxiliary frame 120, and a plurality of turning rollers 130. This turnover device is the upper frame 111 and the lower frame 112 constituting the frame 110, the upper frame 111 is a sliding movement to open and close the frame 110 for fixing and detaching the large structure. It is configured to be formed, the frame 110 to form a circular structure by the combination of the upper and lower frames 111 and 112 is rotated by the turning rollers 130 so that the turning work of the large structure fixed to the frame 110 is made It is configured, and each component will be described in detail below.

4 shows a front view of the frame according to the invention. Referring to FIG. 4, the frame 110 provides a space in which a large structure is fixed and rotates while fixing the large structure. The frame 110 includes an upper frame 111 and a lower frame 112, and the upper frame 111. ) And the lower frame 112 are configured to form a circular structure.

On the other hand, the upper frame 111 is made of a semi-circular shape to form a part of the frame 110, the inner center is provided with a fixing cone (111-1) is inserted into the hollow portion of a large structure having a hollow structure and A cylinder 111-2 for moving the fixing cone 111-1 is provided.

Meanwhile, the lower frame 112 has a semicircular shape like the upper frame 111 to constitute the remaining part of the frame 110, and a fixing cone 112-1 inserted into a hollow part of a large structure at an inner center thereof. Is provided, the cylinder 112-2 for moving the fixing cone 112-1 is provided.

The upper frame 111 and the lower frame 112 configured as described above are combined to have a symmetrical structure up and down to form a frame 110 having a circular structure, and the frame 110 by sliding movement of the upper frame 111. ) Will be opened and closed.

In addition, the upper and lower frames 111 and 112 may further include a clamping means 140 for firmly binding the upper and lower frames 111 and 112 when the upper and lower frames 111 and 112 are coupled to each other. The clamping means 140 may include a first flange 141 protruding inwardly from both sides of the upper frame 111, a second flange 142 protruding inwardly from both sides of the lower frame 112, and It may be composed of a bolt 143 is fastened to the nut 144 while passing through the 1,2 flange to bind the upper and lower frames 111 and 112.

Of course, in addition to the method of binding the upper / lower frame (111, 112) using the flange and bolt and nut as described above may be configured to bind the upper / lower frame (111, 112) using a hydraulic fixing clamp.

5 is a perspective view showing a state in which the upper frame is moved on the auxiliary frame according to the present invention. Referring to FIG. 5, the auxiliary frame 120 is configured to provide a space in which the upper frame 111 is disposed at an adjacent position of the frame 110 and separated by sliding movement.

On the other hand, a pair of guide rails (not shown) may be installed on the lower frame 112 and the auxiliary frame 120 to smoothly move the upper frame 111. The guide rails may be coupled to correspond to the plurality of wheels. It may be installed at the lower portion of the 111.

Meanwhile, referring back to FIGS. 2 and 3, the plurality of turning rollers 130 are disposed under the frame 110 to contact the outer circumferential surface of the frame 110, and are connected to the driving motor 131 to rotate the frame ( Configured to rotate 110.

By using the turnover device configured as described above will be described for the turning process of the ship propeller is a large structure having a hollow structure.

6 is a perspective view showing a state in which a large propeller is fixed to the turnover apparatus according to the present invention, and FIG. 7 is a front view showing a turning operation state of the large propeller to the turnover apparatus according to the present invention. 6 and 7, the upper frame 111 is slidably moved to the auxiliary frame 120 to fix the work propeller P to the frame 110. As such, the moved state of the upper frame 111 is illustrated in FIG. 5. Meanwhile, the upper frame 111 may be moved by using a separate crane (not shown) or by installing a cylinder for pushing or pulling the upper frame 111 at an adjacent position of the frame 110 to slide the upper frame 111. The upper frame 111 may be slidably moved by rotating the wheel provided in the upper frame 111 by using hydraulic pressure or electricity as a driving source.

As described above, when the upper frame 111 is slid to move on the auxiliary frame 120, a space for placing the propeller P is secured, and then the propeller P is placed on the lower frame 112. After mounting, the propeller P is positioned on the frame 110 by sliding the upper frame 111 on the auxiliary frame 120 to be positioned on the lower frame 112, and then the upper frame 111 and the upper frame 111. The first and second flanges 141 and 142 provided on the lower frame 112 are fastened as bolts 143 and nuts 144 to tightly bind the upper and lower frames 111 and 112. Of course, when the hydraulic fixing clamp is provided as the clamping means 140, the upper and lower frames 111 and 112 are bound using the hydraulic fixing clamp.

In addition, in order to firmly fix the propeller P placed between the upper and lower frames 111 and 112, the cylinders 111-2 and 112-2 provided in the upper and lower frames 111 and 112, respectively, are operated to fix the cones 111-1 and 112. The propeller P is fixed by allowing -1) to be inserted into the hollow part of the propeller P.

As described above, when the fixing of the propeller P is completed, the turning roller 130 supporting the frame 110 is rotated, and the propeller is rotated by the rotation of the turning roller 130. Turning of (P) is made.

The turnover device of the present invention as described above is driven by a turning roller installed in the lower portion of the frame of the circular structure, the driving force between the frame and the lower turning roller is driven by the frictional force of the entire frame combined with the heavy material For example, the frame having a relatively large radius and the turning roller having a relatively small radius have an advantage of rotating the weight with a smaller power than the conventional turnover device mentioned in the background by acting as a reducer.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a front view showing a conventional large propeller turnover device,

2 is a perspective view of a turnover device according to an embodiment of the present invention,

3 is a front view of FIG. 2;

4 is a front view of the frame according to the present invention;

5 is a perspective view illustrating a state in which an upper frame is moved on an auxiliary frame according to the present invention;

6 is a perspective view showing a state in which a large propeller is fixed to the turnover device according to the present invention;

7 is a front view showing a turning operation state of a large propeller in the turnover device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

110: frame 111-1: fixing cone

(111-2): Cylinder 111: Upper frame

(112): lower frame (112-1): fixing cone

112-2: Cylinder 120: Secondary Frame

130: turning roller 131: drive motor

140: clamping means 141: first flange

142: second flange 143: bolt

144: nut

Claims (3)

The fixing cones 111-1 and 112-1, which are inserted into the hollow part of the large structure having the hollow structure and fixed to the large structure, are respectively provided therein and have a semi-circular shape to form a circular structure by mutual coupling. Frame 110 and the lower frame 112, which is opened and closed by the sliding movement of the upper frame 111; An auxiliary frame (120) disposed at a neighboring position of the frame (110) to provide a space in which the upper frame (111) is separated from the frame (110) by sliding movement; And Is disposed below the frame 110 to contact the outer circumferential surface of the frame 110, is rotated in connection with the drive motor 131 rotates the frame 110 to turn over the large structure fixed to the frame 110 Turnover device using a sliding opening and closing structure and the turning roller, characterized in that consisting of a plurality of turning rollers (130). The method of claim 1, First flanges 141 protruding inwardly from both sides of the upper frame 111; Second flanges 142 protruding inwardly from both sides of the lower frame 112; And And a clamping means (140) formed of a bolt (143) which is connected to the nut (144) and penetrates the upper and lower frames (111, 112) while penetrating the first and second flanges (141, 142). Turnover device using sliding opening and closing structure and turning roller. The method of claim 1, The fixing cone 111-1 of the upper frame 111 and the fixing cone 111-1 of the lower frame 112 are provided in the upper frame 111 and the lower frame 112, respectively. 2, 112-2) a turn-over device using a sliding opening and closing structure and a turning roller, characterized in that configured to move by fixing the large structure.

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