KR20120002175U - Propeller blade supporting device - Google Patents

Abstract

The present invention relates to a propeller blade holding device, and inclined to support the lower portion of the blade in consideration of the blade shape of the propeller for ships; A plurality of supports fixed integrally along a longitudinal direction and a width direction on an upper surface of the pedestal, and having height adjustments; It is provided between the top of the support and the blade is provided with a propeller blade holding device characterized in that it comprises a pad for absorbing and absorbing vibration.
According to the present invention, it is possible to obtain a safer, more efficient and shorter working time through the dedicated equipment used for the propeller processing, and to obtain the effect of improving the processing precision, and to the propeller having various shapes, sizes and weights. It is easy to apply deformation, so it is efficient and the precision of machining is improved, so it is possible to reduce the turnover frequency.

Description

Propeller Blade Holding Device {PROPELLER BLADE SUPPORTING DEVICE}

The present invention relates to a propeller blade holding device, and more particularly, to a propeller blade holding device improved by providing a jig-shaped holding device suitable for the shape of a propeller blade having a three-dimensional shape to increase the processing precision of the propeller. will be.

As is well known, propellers, paddle wheels or jet systems are used as propulsion means for ships.

Of these, the most widespread system in ships with hulls submerged in water is generally a propeller type that is disposed on a stern and is driven in water and submerged entirely in water.

These propellers (screws) propel the ship by the resistance of seawater generated while rotating.

Marine propellers are usually manufactured by casting, pressure cutting, pitch measurement, taper, machining, polishing, polishing, pitch measurement, and class inspection. The lower part will be processed.

By the way, since the six-axis multi-task machine is processed in the vertical direction during the blade processing, if there is no support under the blade, the machining precision drops sharply, resulting in increased turnover, deterioration of quality.

Therefore, in the past, the wood lumber is cut by length and temporarily supported, but such wood lumber is easily damaged due to high loads during work, and it is only one-time work, which increases the cost of installation and removal and decreases work efficiency. And so on.

In addition, since the quantity of wood lumber required varies according to the size and shape of the propeller, it is difficult to secure the consistency of work, and it is difficult to calculate the exact quantity, so it must be installed by measuring and measuring it according to the skill of the operator. There was a lot of inconvenience and problems, such as the wood lumber slipped by the cutting oil and the vibration generated during operation to delay the work.

The present invention was created in view of the above-mentioned problems in the prior art, and has been created to solve this problem. The height can be adjusted to fit the shape of the propeller blade, the installation position and the number can be easily adjusted, and the vibration absorbing and processing surface The main purpose of the present invention is to provide a propeller blade clamping device that can improve the processing efficiency and maximize the processing precision by providing a blade clamping device having a structure that can prevent damage of the tool.

The present invention is a means for achieving the above object, in consideration of the blade shape of the propeller for ships inclined to support the lower portion of the blade; A plurality of supports fixed integrally along a longitudinal direction and a width direction on an upper surface of the pedestal, and having height adjustments; It is provided between the top of the support and the blade is provided with a propeller blade holding device characterized in that it comprises a pad for absorbing and absorbing vibration.

At this time, the pedestal is also characterized in that the support is fixed to a horizontally arranged base plate and a plurality of support plates vertically and inclined to the base plate to form a truss structure.

In addition, the upper surface of the pedestal also has a feature that is provided with a plurality of eye bolts for the hook.

In addition, the base plate is characterized in that the at least one pair of fork insert plate which is an insertion guide for the lift is further provided.

In addition, the support is composed of a housing fixed to the pedestal, a screw screwed to the housing height-adjustable, and an auxiliary fixing nut for fixing the height-adjusted screw screwed to the outer peripheral surface of the screw There is a characteristic.

In addition, the auxiliary fixing nut is characterized in that the grip portion protruding in the form of a projection is further formed.

Furthermore, the pad is also characterized by being formed of MC nylon.

According to the present invention, it is possible to obtain a safer, more efficient and shorter working time through the dedicated equipment used for the propeller processing, and to obtain the effect of improving the processing precision, and to the propeller having various shapes, sizes and weights. It is easy to apply deformation, so it is efficient and the precision of machining is improved, so it is possible to reduce the turnover frequency.

1 is a perspective view showing an installation example of the holding device according to the present invention.
2 is a front view showing an installation example of the holding device according to the present invention.
3 is a perspective view of a holding device according to the present invention.
Figure 4 is a side view of the holding device according to the present invention.
5 is an exemplary view of the support constituting the holding device according to the present invention.
6 is an exemplary view of a pad constituting a pooling device according to the present invention.

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

As shown in Figure 1 and 2, the propeller blade holding device 100 according to the present invention is to support it in the lower portion of the blade 210 in accordance with the shape of the blade 210 of the propeller 200 It consists of an assembly, or unit.

As shown in FIGS. 3 to 4, the holding device 100 is largely divided into a pedestal 110, a support 120, and a pad 130 (see FIG. 6). Will support the bottom.

At this time, the pedestal 110 is arranged inclined at a predetermined angle so as to correspond to the inclined shape of the blade 210, the lower portion of the pedestal 110 to maintain a solid support force and inclined arrangement through weight distribution Support 112 is provided.

In this case, the support 112 preferably has a truss structure, the base plate (112a) to form a horizontal bottom, vertical and inclined fixed to the base plate (112a) for supporting the pedestal 110 It comprises a plurality of support plates (112b).

Particularly, at least two or more fork insert plates 114 are integrally fixed to the upper side of the base plate 112a to be heavy when moving by means such as a forklift, which is a conveying means. It is more preferable that it is configured to be able to easily lift).

In addition, an eye bolt (116) may be further provided at four places on the upper surface of the pedestal 110, preferably in both the upper and lower sides of the pedestal 110, and may be moved by a lifting means such as a crane. .

In addition, the support 120 is fixed to the pedestal 110, as shown in FIG.

Thus, the support 120 has a shape that protrudes in a state inclined by the inclination angle of the pedestal 110.

In addition, the support 120 is a cylindrical housing 122, a screw 124 is screwed to the inner peripheral surface through the upper end of the housing 122, and the screw 124 is screwed at a predetermined point after being fitted Auxiliary fixing nut 126 is included.

At this time, the lower end of the housing 122 is firmly welded to the upper surface of the pedestal 110 via the fixing pin 128.

In addition, the gripping portion 126a protrudes from a part of the outer circumferential surface of the auxiliary fixing nut 126, so that the auxiliary fixing nut 126 can be grasped and rotated when the auxiliary fixing nut 126 is rotated.

As a result, the housing 122 is height-adjusted through the screw 124 in a state in which the housing 122 is integrally fixed to the pedestal 110, and the height-adjusted screw 124 is engaged by the auxiliary fixing nut 126. Since the fastening is fixed to the support 120 is able to firmly support the blade 210 of the propeller 200 in a height-adjusted state.

Finally, as shown in FIG. 6, the pad 130 is formed of mono cast (MC) nylon.

In this case, the MC nylon is a nylon having improved mechanical strength, heat resistance, and chemical properties, and is molded after polymerizing nylon monomo as a raw material under atmospheric pressure, and has excellent physical properties compared to injection molded or extruded molded articles.

That is, the MC nylon is a polymer of crystals prepared by using a chemical component as a catalyst in caprolactam, and thus has excellent mechanical strength and self-lubrication, and has been spotlighted for heat resistance and metal replacement. It is known as a commercial material with excellent physical properties.

In the present invention, the pad 130 is made of MC nylon so as to utilize the physical properties of the MC nylon as it is, the shape is formed in a substantially rectangular shape hollow inside as shown, the end of the support 120 Interposed between the blade 210 and the end of the support 120 in a state spanned to protect the surface of the blade 210 from being damaged through the end of the support 120 during polishing and patterning.

The present invention made of such a configuration has the following operation relationship.

First, because the holding device 100 according to the present invention is made of a steel structure can be used many times, not just a one-time.

In addition, if necessary, by adjusting the number and height of the support 120 to be installed on the upper surface of the pedestal 110, the support structure can be easily modified to match the shape of the blade 210.

In addition, when the blade 210 is determined, the screw 124 of the support 120 to match the shape of the blade 210 in a state in which the present invention is provided with the device 100 in the lower portion of the blade 210 to support it. To adjust the height.

Then, the pad 130 is interposed between the upper end of the support 120 and the blade 210 and then proceeds with the processing necessary for manufacturing the propeller 200.

Then, the smooth propeller 200 can be processed while sufficiently absorbing vibration and the like.

Therefore, it is possible to increase the processing precision when manufacturing the blade 210 to reduce the number of turnover, and the present invention holding apparatus 100 used in the machining is moved to the next work place after use again to produce the propeller 200 It can be used directly as a holding device.

Accordingly, it is possible to reduce the additional cost required for the production of the propeller, it is possible to obtain the advantage that the quality of the product is also improved by improving the processing precision.

100: holding device 110: pedestal
120: support 130: pad
200: propeller 210: blade

Claims (7)

A pedestal 110 inclined to support the lower portion of the blade 210 in consideration of the shape of the blade 210 of the ship propeller 200;
A plurality of supports 120 which are fixed integrally in the longitudinal direction and the width direction on the upper surface of the pedestal 110 and whose height is adjustable;
Propeller blade holding device characterized in that it comprises a pad 130 is interposed between the upper end of the support 120 and the blade 210 to absorb and cushion the vibration.
The method according to claim 1;
The pedestal 110 is a horizontally arranged base plate (112a), and propeller blade scoop characterized in that the support is fixed to a plurality of support plates (112b) forming a truss structure vertically and inclined fixed to the base plate (112a) Device.
The method according to claim 2;
Propeller blade holding device, characterized in that the upper surface of the pedestal 110 is further provided with a plurality of eye bolts for the hook (116).
The method according to claim 2;
Propeller blade holding device, characterized in that the base plate (112a) is further provided with at least a pair of fork insert plate 114 which is an insertion guide for the lift.
The method according to claim 1;
The support 120 has a housing 122 fixed to the pedestal 110, a screw 124 screwed to the housing 122, the height is adjusted, and screwed to the outer peripheral surface of the screw 124 height Propeller blade holding device, characterized in that consisting of an auxiliary fixing nut (126) for fixing the adjusted screw (124) position.
The method of claim 5, further comprising:
Propeller blade holding device, characterized in that the auxiliary fixing nut 126 is further provided with a gripping portion (126a) protruding in the form of a projection.
The method according to claim 1;
The pad 130 is propeller blade holding device, characterized in that formed of MC nylon.

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