KR200396128Y1 - Pin Jigger for supporting Blocks in the Body of a Ship utilizing Elastic Member - Google Patents

Abstract

The present invention relates to a pin jig for supporting each hull block seated for the assembly and manufacture of the hull during the manufacture of the ship, in detail, having an elastic member and the tension and height of each block inside the first pipe By maintaining the balance with the second pipe which is raised and lowered according to the fixed height, it is easy to adjust the lifting and lowering by the elastic force to improve the work efficiency and shorten the time for the block block using the elastic member that can shorten the time It's about the jig.

The present invention has a first pipe (110) fixed to the ground by forming an empty space on the inner peripheral surface; A second pipe 120 having a plurality of through holes 122 formed on the outer circumferential surface at a predetermined interval, and having a lower end inserted into and lowered from the first pipe 110; A fixing member 150 for fixing the height of the second tube 120 by passing through the through-hole 122 of the second tube 120 through the first tube 110; The outer circumferential surface of the first tube 110 is connected to the end of the second tube 120 and the wire 134 by the elastic force generated in the elastic member fixed to the outer circumferential surface of the first tube 110 It characterized in that it comprises a plurality of elastic balancing member 130 for elevating the second pipe 120 by pulling the wire 134.

Description

Pin Jigger for supporting Blocks in the Body of a Ship utilizing Elastic Member}

The present invention relates to a pin jig for supporting each hull block seated for the assembly and manufacture of the hull during the manufacture of the ship, in detail, having an elastic member and the tension and height of each block inside the first pipe By maintaining the balance with the second pipe which is raised and lowered according to the fixed height, it is easy to adjust the lifting and lowering by the elastic force to improve the work efficiency and shorten the time for the block block using the elastic member that can shorten the time It's about the jig.

In general, the ship is composed of a plurality of blocks, the hull block has a variety of sizes and weights, ranging from tons to hundreds of tons, as well as are produced with a variety of curvature for each part. Such a hull block is supported by a pin jig spaced above a predetermined height from the ground and manufactured and assembled through a work such as welding. Such a pin jig is as shown in Figure 1 below.

1 is an exploded perspective view showing a conventional pin jig.

Referring to FIG. 1, the conventional pin jig P includes a supporting rod 1, an auxiliary pressing 2, a second pipe 3, and a first pipe 4. The support rod (1) includes a head (12) in contact with the block and a screw thread (12) for finely adjusting the height of the support rod (1) by being coupled to the auxiliary pressing (2). In addition, the auxiliary pressing (2) to enhance the rigidity of the inner circumferential surface (21) and the second pipe (3) to which the threads 12 of the support rod (1) are coupled at the upper side for fine adjustment of the support rod (1). It includes an outer circumferential surface 22 coupled to the inner circumferential surface 31 of the second tube 3 extending downward. In addition, the second tube 3 has the form of a hollow tube and the pinhole 32 is formed through the outer peripheral surface thereof. The second tube 110 is formed of a hollow tube, a plurality of pin holes 42 are coincided with the pin hole 32 of the second tube 3 on the outer peripheral surface thereof. In addition, the second tube 4 is fixed through a predetermined wire on the upper side of the outer peripheral surface and penetrates through the pinhole 32 of the second tube 3 through the pinhole 42 of the first tube 4. Therefore, it includes a pin 43 for fixing the first tube 3 to the first tube 4, and a support plate 44 formed radially at the lower end to support the first tube 4 in the ground.

2 is a view showing a state in which a plurality of pin jigs are laid apart at regular intervals on the base.

Referring to Figure 2, the conventional pin jig (P) as described above after the auxiliary pressing (2) is inserted into the inner circumferential surface at the upper end of the second pipe (3) and then permanently coupled by welding, etc. The second tube 3, the auxiliary pressing (2), the support rod (1) by coupling the thread 12 of the support rod (1) to the upper inner peripheral surface of the top. The second pipe 3 is inserted into the inner circumferential surface 41 of the first pipe 4 so that the pin 43 has a pinhole of the first pipe 4 and the second pipe 3 at an appropriate height. 32 and 42, so that it is fixed to the first tube (4).

Each pin jig P assembled as described above is arranged at a predetermined interval on the base G, and is set as a different height in consideration of the height of the hull block B to which the supporting rod 1 is in contact, and the block The support plate 44 is welded onto the base G in order to firmly support (B). In this case, the height of the second pipe 3 is adjusted in consideration of the curvature of the hull block B seated as the worker removes and lifts the pin 43 by hand. In addition, the support rod (1) is raised and lowered by the interval as the thread is rotated when a micro-gap that is impossible to adjust the spacing between the pinholes (32, 42) of the second pipe (3) of the entire pin jig (P) You can adjust the height by the set value.

As described above, the pin jig P is set as a predetermined height in consideration of the curvature of each hull block, and when the height setting of the pin jig P is completed, the hull block B seated on the upper side of the support bar 1. Support. Therefore, each worker proceeds the assembly and manufacturing process for each hull block (B) seated.

However, such a conventional pin jig has a variety of sizes and weights, but the length of the longitudinal direction is 1.5m ~ 2.5m, the weight is 20kg, the second tube is more than 10kg in weight alone, one At least tens to hundreds of pin jigs are used to support the hull blocks. As a result, the worker manually raises and lowers the dozens to hundreds of second tubes with a weight of 10 kg and adjusts the height by hand, which requires a great deal of manpower and considerable work time. There is a problem that can come to the human body by adjusting the height, a safety accident may occur in the process.

The present invention is conceived to solve the conventional problems as described above, an object of the present invention is to provide an elastic member in the first tube, and to connect a wire to the second tube and the elastic member, respectively, the tension of the elastic member It is to provide a pin block for hull block support using an elastic member that is easy to adjust the height of the pin jig by raising and lowering the second pipe by using the balance of the second pipe.

Another object of the present invention is to move the wire between the first tube and the second tube to maintain the balance between the tension of the elastic force generated in the elastic member and the second tube, the elastic force is the second force by the wire It is to provide a configuration of the first tube to be evenly delivered to the tube.

The present invention is configured as the following embodiments to achieve the above object.

According to the first embodiment of the present invention, the pin jig of the present invention and the first pipe is fixed to the ground by forming an empty space inside; A second pipe having at least one through hole drilled at a predetermined interval on an outer circumferential surface thereof, and having a lower end inserted into the inner side of the first pipe to move up and down; A fixing member for fixing the height of the second tube by penetrating the through-hole of the second tube through the first tube; And a plurality of elastic balancing members fixed to an outer circumferential surface of the first tube to transmit elastic force to the second tube through a wire connected to an end of the second tube.

According to the second embodiment of the present invention, the pin jig of the present invention, in the first embodiment, the second tube is formed with a predetermined width and depth on both sides thereof, and is formed by the elastic force of the plurality of elastic balancing members. A wire guide groove to which the wire is moved; It is formed with a predetermined plane at the lower end includes a support plate to which the end of the wire is connected along the plurality of wire guide groove is fixed.

According to the third embodiment of the present invention, the pin jig of the present invention, in the second embodiment, the elastic balancing member is fixed inside the housing having a predetermined width and height to form an empty space therein.

According to a fourth embodiment of the present invention, the pin jig of the present invention, in the third embodiment the elastic balancing member is fixed shaft which is penetrated and fixed to both sides of the housing; A spring tension control unit including a sprocket connected to one end of the fixed shaft at an outer side of the housing to rotate the fixed shaft by a predetermined range; Wow; A rotating roller to which the wire is wound; One end is connected to the fixed shaft, the other end is connected to the rotary roller comprises a spring wound or unrolled in accordance with the rotation of the rotation roller about the fixed shaft.

According to a fifth embodiment of the present invention, the pin jig of the present invention, in the fourth embodiment, the elastic balancing member is caught on the sprocket connected to one end of the fixed shaft from the outside of the housing, and the wings of the sprocket It further comprises a spring tension control unit comprising a paw.

According to a sixth embodiment of the present invention, the pin jig of the present invention, in any one of the fourth or fifth embodiment, the fixed shaft is bent in the center direction at the outer peripheral surface is formed spring fixing groove that one end of the spring is fixed It includes.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the hull block support pin jig using an elastic member according to the present invention will be described in detail.

Figure 3 is a perspective view showing a pin jig for supporting the hull block using the elastic member according to the present invention.

Referring to Figure 3, the hull block support pin jig 10 using the elastic member according to the present invention is the first pipe 110 is fixed to the ground, and the first ascending and descending inside the first pipe 110 Two tubes 120, a housing 140 formed on both sides of the first tube 110, and an elastic balancing member 130 (see Fig. 4) to elevate the second tube 120 by the elastic force and It includes a fixing member 150 for fixing the second pipe 120 and the first pipe (110). In addition, the pin jig 10 may be formed with a support rod on the upper side of the second tube 120, which is the same or similar to the prior art and the description thereof will be omitted. In addition, a spring tension control unit 135 including a sprocket 135a and a pole 135b connected to one end of the fixed shaft (see FIG. 4) is installed at an outer side of the housing 140 for long-term use. According to the tension reduction of the elastic balancing member 130 according to the user can arbitrarily adjust the tension of the elastic balancing member 130. Therefore, the wings of the sprocket 135a are normally caught by the pawls 135b fixed to the housing with screws or the like to prevent clockwise or counterclockwise rotation of the sprocket 135a, but the user is fixed for tension adjustment. When the screw is released, the sprocket 135a can be rotated in a clockwise direction to adjust the tension of the elastic balancing member 130, which will be described in detail later.

The first pipe 110 has an opening 112 (see FIG. 5A) formed at an inner side by an empty space and opened at a predetermined width from the left and right sides thereof, and the housing (in the region where the opening 112 is formed). 140) is fixed. In addition, the front and rear of the first tube 110 is formed with a plurality of insertion holes 111 are arranged at a predetermined interval.

In addition, the second pipe 120 has a plurality of through-holes 122 which are fixed to the upper side so that the configuration of the support rod, etc. are movable, the front and rear are arranged at regular intervals to match the insertion hole 111. The wire guide grooves 121 having predetermined widths and depths are formed on left and right sides thereof, respectively. Here, the wire guide groove 121 serves as a moving passage in which the wire 134 connected to the elastic balancing member 130 fixed inside the housing 140 is elevated.

In addition, the fixing member 150 is inserted and formed on the front surface of the first tube 110 when the second tube 120 is controlled to move up and down inside the first tube 110 to maintain a certain height ( The second tube 120 is fixed to the first tube 110 by penetrating the through hole 122 of the second tube 120 through 111.

Alternatively, the first tube 110 does not have an insertion hole 111 formed on the outer circumferential surface of the first tube 110. The first tube 110 is disposed at a predetermined interval only on the outer circumferential surface of the second tube 120 which is lifted up and down inside the first tube 110. At least one through hole 122 is also formed to correspond to the subject matter of the present invention. Therefore, the fixing member 150 is inserted into the through hole 122 of the second tube 120 from the upper side of the first tube 110, and is supported by the upper end surface of the first tube 110, Fix the height of the two pipe (120).

The housing 140 is fixed to a region in which the opening 112 of the first pipe 110 is formed to fix the elastic balancing member 130 (see FIG. 4) inside, and the elastic balancing member 130. ) Raises and lowers the second pipe 120 by elevating the wire 134 connected to the second pipe 120 by the elastic force, the detailed configuration thereof is as shown in Figure 4 below.

Figure 4 is a perspective view showing the elastic balancing member in the hull block support pin jig using the elastic member according to the present invention.

Referring to FIG. 4, the elastic balancing member 130 may include a rotary roller 133 winding or releasing the wire 134, a fixed shaft 131 fixed to the housing 140, and generating an elastic force. It includes an elastic member 132.

Here, the fixed shaft 131 is fixed at both ends through both sides of the housing 140, at which time the sprocket 135a (see Fig. 3) is fixed to the outer peripheral surface of one end, the tool such as a wrench on the cross section The groove is formed so that it can be inserted. In addition, the fixed shaft 131 is bent with a predetermined width and depth in the center direction from the outer peripheral surface is formed with a spring fixing groove 131a is fixed to one end of the elastic member. Here, the elastic member 132 is a spring, and in particular, it is preferable that the spring or a spring having a certain width in order to generate an elastic force when it is wound or released according to the rotation of the rotary roller 133, one end It is fixed to the spring fixing groove 131a of the fixed shaft 131 is wound around the fixed shaft 131, the other end is fixed to the inner peripheral surface of the rotary roller 133. In addition, the rotary roller 133 is rotated by the elastic force of the elastic member 132 as the end of the wire 134 is fixed to wind the wire 134. The pole 135b is usually fixed to the housing 140 by screws or the like, and the sprocket 135a is caught by the pole 135b to prevent rotation in a clockwise and counterclockwise direction. 131 is not rotated even when the rotary roller 133 is rotated.

In the above configuration, since the rotary roller 133 is rotated in one direction when a predetermined force is applied to the wire 134, the wire 134 wound on the outer circumferential surface of the rotary roller 133 is released. At this time, the spring 132 is rotated around the fixed shaft 131 as the rotating roller 133 is rotated in one direction, if the force applied to the wire 134 in the wound state disappears As the spring 132 wound around the fixed shaft 131 is restored, the force is transmitted to the rotating roller 133 so that the rotating roller 133 is rotated in the reverse direction. Accordingly, as the rotary roller 133 is rotated in the reverse direction, the unwinding wire 134 is wound around its outer circumferential surface.

In addition, the spring 132 and the second pipe 120 is arbitrarily set by the operator apart from being wound or unwound about the fixed shaft 131 according to the rotation of the rotary roller 133 as described above. The tension of the spring 132 may be adjusted to achieve balancing.

To describe this in detail, first, in the pin jig as described above, when the elastic balancing member 130 is used for a long time, the elastic force of the spring 132 is lowered so that the second tube 120 and the elastic balancing member 130 are separated. Since balancing does not fit, it is necessary to adjust the tension of the spring 132 separately.

When the user loosens the screw fixing the pool 135b to the housing 140 and rotates the fixed shaft 131 by using a tool such as a wrench, the pool 135b has the sprocket 135a clockwise. Fixed shaft connected to the sprocket 135a without being caught by the sprocket 135a because it is bounced upward by the blade at the time of rotation or when the sprocket 135a is stopped after the clockwise rotation. By preventing the 131 is rotated in the counterclockwise direction can increase the tension of the spring (132).

5A is a cross-sectional view taken along line A-A 'of the hull block support pin jig using the elastic member according to the present invention, and FIG. 5B is a cross-sectional view taken along line B-B' of the hull block support pin jig using the elastic member according to the present invention.

5A and 5B, as described above, the first tube 110 has at least one insertion hole 111 perforated in the outer circumferential surface thereof and fixed to the opening 112 formed at a predetermined portion thereof. Fix the inner elastic balancing member 130.

The second pipe 120 has the through hole 122 formed on the front surface, the wire guide groove having a width corresponding to the transverse length of the rotary roller 133 of the elastic balancing member 130 on the left and right sides. Support plate 123 is formed, the bottom plate is formed in a predetermined plane at the lower end is fixed to both sides of one end of the plurality of wires 134 wound or unwinded by the elastic force of the elastic balancing member 130, respectively ) Is formed. Here, the support plate 123 is formed to be separated from the second pipe (120).

The elastic balancing member 130 is installed in each of the plurality of housings 140 formed on both side surfaces of the first tube 110, and the fixed shaft 131 is provided on the inner side of the housing 140. Each spring is fixed, the spring fixing groove 131a of the fixed shaft 131 and the spring 132, both ends of which are fixed to the inner peripheral surface of the rotary roller 133 is wound around the fixed shaft 131, the rotation The roller 133 is fixed to the end of the wire 134 to a predetermined portion of the outer peripheral surface.

Figure 6 is a cross-sectional view showing a falling state of the first tube in the hull block support pin jig using an elastic member according to the present invention.

Referring to FIG. 6, in order for the worker to set and fix the height of the pin jig 10, first, the first pipe 110 is fixed to the base by welding or the like, and the force is applied to the second pipe 120 to descend. Then, one side is connected to the support plate 123 formed separately from the lower side of the second pipe 120 and the other side of the wire 134 wound on the rotary roller 133 and the one-way rotation of the rotary roller 133 At the same time it is released and discharged along the wire guide groove 121. In addition, the spring 132 is rotated at the same time as the rotary roller 133 is rotated in one direction is wound around the fixed shaft 131. At this time, the spring 132 is wound around the fixed shaft 131 by the force applied at the same time as the rotation of the rotary roller 133, but at the same time rotates the other direction to the rotary roller 133 by its own elastic force Force is applied.

Therefore, the second pipe 120 receives the force applied upward by the downward force applied by the operator and the restoring force by the spring 132 so that the second pipe 120 maintains the equilibrium. If the operator lowers the second tube 120 to a desired height even if the operator does not apply a large force to hold the second tube 120 for a long time to adjust the second tube 120, the second tube 120 The height of the can be adjusted easily.

Therefore, when the second tube 120 reaches the set position, the fixing member 150 is inserted through the insertion hole 111 of the first tube 110 at the corresponding position to penetrate the second tube 120. The second tube 120 is fixed to the first tube 110 by passing through the ball 122.

Alternatively, as described above, in the configuration in which the insertion hole 111 is not formed in the outer circumferential surface of the first tube 110, and the through hole 122 is formed in the outer circumferential surface only in the second tube 120, the fixing member. The height of the second tube 120 is fixed by inserting 150 into the through-hole 122 closest to the upper side of the first tube 110.

7 is a cross-sectional view showing a raised state of the first pipe in the hull block support pin jig using the elastic member according to the present invention.

Referring to FIG. 7, in order to elevate the second pipe 120 again at the lowered position as described above, if the fixing member 150 is inserted, the fixing member 150 may be inserted into the insertion hole ( 111 and the through hole 122 or the through hole 122 is separated. And when the worker lifts up the second pipe 120, the spring 132 is applied to the rotary roller 133 by the elastic force by the self-resilience force the rotary roller 133 is rotated in the reverse direction to the second The wire 134 supporting the support plate 123 of the pipe 120 is wound on the rotary roller 133 so that the second pipe 120 is elevated.

Subsequently, when the second pipe 120 is raised and lowered to a predetermined position, the worker inserts the fixing member 150 into the insertion hole 111 and the through hole 122 to insert the second pipe 120 into the first hole. It can be fixed to one pipe (110).

Alternatively, as described above, in the configuration in which the insertion hole 111 is not formed in the outer circumferential surface of the first tube 110, and the through hole 122 is formed in the outer circumferential surface only in the second tube 120, the fixing member. The height of the second tube 120 is fixed by inserting 150 into the through-hole 122 closest to the upper side of the first tube 110.

In addition, the present invention is to support the hull block through the configuration as described above, in order to replace the second pipe 120 is damaged due to the end of the service life or other causes after lifting the second pipe 120 Departure from Hall 1. In this case, since the second pipe 120 is formed separately from the support plate 123, the second pipe 120 may be immediately detached without the help of another configuration, and the support plate 123 may remain inside the first pipe 110. do. And when the second pipe 120 is completely pulled out from the inside of the first pipe 110, a new second pipe 120 is seated on the support plate 123 in the inside of the first pipe (110). Insertion completes the replacement.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the technical field to which the present invention belongs without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the pin jig for supporting the hull block using the elastic member according to the present invention applies an appropriate force at the time of raising and lowering the second tube through the elastic force by the spring, so that the height of the pin jig is adjusted during the manual operation of the operator. It is easy, and the working time can be shortened, and as the elastic force by the spring is applied, the second pipe has a force that proceeds upward basically, so that excessive force is not consumed even when the operator operates. As the operation is simple, the probability of occurrence of a safety accident is greatly reduced.

In addition, the present invention is provided with a spring tension control unit for arbitrarily adjusting the spring as described above, even if used for a long period of time can adjust the elastic force of the spring to maintain tension balancing between the second pipe and the elastic balancing member can be used for a long time It works.

In addition, the present invention is a configuration that the second pipe is separated from the support plate is supported by the wire is seated on the plane so as to be moved up and down inside the first pipe, a new wire separately during the replacement of the second pipe Since the replacement work is completed by simply seating the second pipe on the support plate without adding or changing any other configuration, the work is easy and time is saved.

1 is an exploded perspective view showing a conventional pin jig,

2 is a view showing a state in which a plurality of pin jigs are laid apart at regular intervals on the base,

Figure 3 is a perspective view showing a pin jig for supporting the hull block using the elastic member according to the present invention,

Figure 4 is a perspective view of the elastic balancing member in the hull block support pin jig using the elastic member according to the present invention,

5A is a cross-sectional view taken along line A-A 'of a hug block supporting pin jig using an elastic member according to the present invention;

Figure 5b is a cross-sectional view B-B 'of the pin jig for supporting the hull block using the elastic member according to the present invention,

6 is a cross-sectional view showing a lower state of the first pipe in the hull block support pin jig using an elastic member according to the present invention,

7 is a cross-sectional view showing a raised state of the first pipe in the hull block support pin jig using the elastic member according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: pin jig 110: the first tube

111: insertion hole 112: opening

120: subsection 2 121: wire guide groove

122: through hole 123: support plate

130: elastic balancing member 131: fixed shaft

131a: spring fixing groove 132: spring

133: rotating roller 134: wire

140 housing 150 fixing member

Claims (6)

A first pipe having an empty space inside and fixed to the ground; A second pipe having at least one through hole drilled at a predetermined interval on an outer circumferential surface thereof, and having a lower end inserted into the inner side of the first pipe to move up and down; A fixing member for fixing the height of the second tube by penetrating the through-hole of the second tube through the first tube; Fixed to the outer circumferential surface of the first tube for supporting the hull block using a plurality of elastic balancing member for transmitting an elastic force to the second tube through a wire connected to the end of the second tube Pin jig. The method of claim 1, wherein the second pipe A wire guide groove formed on both sides with a predetermined width and depth to move the wire by elastic force of the plurality of elastic balancing members; The pin jig for supporting the hull block using an elastic member, characterized in that it comprises a support plate is formed with a predetermined plane at the lower end is fixed to the end of the wire is connected along the plurality of wire guide groove. The method of claim 2, wherein the elastic balancing member Pin jig for supporting the hull block using an elastic member, characterized in that fixed to the inside of the housing having a certain width and height to form a hollow space inside. The method of claim 3, wherein the elastic balancing member A fixed shaft penetrating and fixed to both sides of the housing; A rotating roller to which the wire is wound; Pin jig for supporting the hull block using an elastic member characterized in that the one end is connected to the fixed shaft, the other end is connected to the rotary roller is wound or unrolled in accordance with the rotation of the rotating roller around the fixed shaft. The method of claim 4, wherein the elastic balancing member Pin jig for supporting the hull block using an elastic member, characterized in that it further comprises a spring tension control unit including a sprocket fixed to one end of the fixed shaft on the outside of the housing, and a pole caught on the wing of the sprocket. The method of claim 4, wherein the fixed shaft is Pin jig for supporting the hull block using an elastic member, characterized in that it is bent in the center direction from the outer circumferential surface and includes a spring fixing groove fixed to one end of the spring.