KR101998925B1 - Assembly steel support-beam system having many legs jointed with screw jacks and smart measuring devices - Google Patents

Abstract

 The present invention relates to an apparatus and a method for manufacturing the same, which comprises a base 21 contacting a ground, a screw shaft 22 axially installed at a predetermined height from the upper surface of the base 21, A screw jack 20 and 20a which are respectively formed on both sides of the arm hinge part 25 provided on the upper surface of the support plate 26 and having one shaft hole 23 and opposite to each other and a shaft hole 12 The segmented support member 10b of the segmented support member 10b is connected to the arm hinge unit 25 by the shaft bolt B and the nut N and the segmented support member 10b having the shaft hole 15 at the other end, The other end of the girder section 1 is connected to the hinge section 14 of the segment support member 10a having the shaft hole 12 at its other end. A metal measuring sensor base 30 in contact with the entire top surface of the rigid beam provided in a multitude of the segment supports, A measurement sensor member 50 disposed on the upper surface of the base metal measurement sensor base 30 and having a measuring device for measuring the load on the inner wall of the cavern and transmitting the measurement to the monitor outside the cave, And a sensor protection cover (40) made of a soft material, which is located in the cave and directly receives the load in the cave while transferring the load to the measurement sensor member (50), characterized by comprising a screw type multi- The rigid beam system further comprises a plurality of pin holes (24) formed radially around the shaft hole (23) formed in the arm hinge (25) of the screw shaft (22) and into which the pin (P) is inserted; A plurality of pin holes 13 and a plurality of segment supports 10b formed radially around the shaft hole 12 of the male hinge portion 14 of the segment supports 10b, 10a, 10, into which the pins P are inserted, And a plurality of pin holes 16 formed radially around the shaft hole 15 of the arm hinge portion 17 of the shaft 10a 10 to receive the pin P. The plurality of shaft bolts B may be formed, (10b) (10a) (10) when the segmented support members (10b) (10a) (10) are assembled by a plurality of pins (P) So that they can be connected in an arch shape. Accordingly, it is possible to easily assemble and assemble a plurality of the segment support members according to the cross-sectional characteristics of the irregular natural caves, thereby facilitating easy adhesion, assembly, and installation of the steel beam with the inner surface of the cave, It is effective to secure the safety of visitors in terms of operation management of caves by securing stability. In view of the nature of natural caves, it is possible to preserve and manage caves effectively without damaging the nature in terms of preservation management. It is possible to attract tourists through efficient use of space through the creation of natural aesthetics, thus establishing an effective economic management plan of local governments.

Description

TECHNICAL FIELD [0001] The present invention relates to a multi-joint type steel beam-joining system having a screw jack and a measuring sensor member,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-joint type multi-legged beam system having a screw jack and a measurement sensor member. More particularly, the present invention relates to an artificial cave, And it is located between the inner wall of the cave and the upper surface of the cave so that the load and displacement can be measured while supporting the fallen load, And a sensor device that is installed at the expected location of the fallout in the cave, and a screw jack and a measurement sensor Member type steel girder beam system.

Generally, natural caves or artificial caves are aged according to the time elapsed after cave formation like general structures because of many conditions such as climate, soil condition, physical, chemical, biological and anthropogenic factors, And it affects the structural stability of the cave according to the degree.

In this way, the main factors of fallout and fallout in the cave are biological factors causing loosening of joints according to the growth of vegetation like tree roots, climate change such as changes in temperature and rainfall, and carbon dioxide The physical and chemical factors of the change of atmospheric conditions that promote the relaxation of the ground due to the change of the air component in the cave, the artificial factors due to the load or stress change around the cave due to the expansion and contraction of the structure around the cave, Changes in pressure, temperature and mineral composition at the time of formation of the cave-forming rocks, and geological factors such as cracks, stratification, and foliage already present in the rocks due to re- This is because they work together.

Therefore, in order to secure the safety of the visitors, it is necessary to establish measures to secure the stability of natural caves or artificial caves in preparation for the fallout, to preserve the natural state and to manage the caves efficiently. to be.

Conventionally, the Kangji-Bo system is designed to suppress the ground displacement due to the change of the stress caused by the excavation of the underground ground, to secure the stability of the tunnel, to install the shotcrete after attaching the wire mesh, The reinforcement methods have been mainly used. These reinforcement methods have been mainly used in tunnels. All of these methods have a certain size and shape, and most of them are applied to natural caves having irregular inner walls. There is a problem.

On the other hand, the natural cave is very irregular in size and shape, and the reinforcing method by the rock bolt and the diaphragm net is mainly utilized, The bolt-reinforcing method has the disadvantage that it is not an effective natural conservation management plan because it damages nature. Therefore, there is a need for measures to secure the stability of the cave and secure the safety of visitors without damaging the nature.

As described above, the conventional steel girder beam systems have the following problems.

First, since the conventional steel girder beam system is excavated according to the size and shape of the fixed tunnel, the size and shape of the steel girder beam are constant or equal to each other, It is difficult to apply it to irregular caves. Even if applied, it is necessary to separately manufacture each cave according to the shape of the cave and the cross-sectional size of the cave. Therefore, there is a problem that the cost is low due to high cost.

Second, if the above-mentioned shaped steel beam is installed in a natural cave having an irregular tunnel size and shape, the gap between the support material and the inner wall of the cave becomes too large to transmit or support the load at the expected fall- There is a problem in that it is difficult to formulate a countermeasure plan.

Third, since the shape of the natural cave is too irregular, it is not possible to adhere to the inner wall of the cave and to adjust the height of the steel girder.

Fourth, since the conventional steel girder beam system is installed at regular intervals, there is a problem that it is difficult to install a steel beam in a natural cave where the installation position of each support and the cross section of the tunnel vary.

Fifth, existing conventional steel girder beam system has the problem that it can not consider natural aesthetics because it secures the stability of ground by forming a steel girder beam and forming a lining wall (concrete wall).

Hereinafter, the above-mentioned problems will be discussed in detail in comparison with the prior art.

The Utility Model Registration No. 20-0260614-0000 (Publication Date: Jan. 16, 2002), which is incorporated in the Utility Model Registration Bulletin of the Republic of Korea, proposes a steel pipe support for a tunnel which is easy to carry and install. In this case, the steel supports used to reinforce the section of excavated tunnels are easily transported to the inside of tunnels, and each steel support is hinged so that it can be installed quickly. When it is transported into the tunnel, it is simple So that it can be quickly installed.

That is, the steel support for a tunnel, which is conventionally easy to carry and install, has a first steel support having a curvature equal to the curvature of the upper end of the tunnel and having a pair of first hinges formed on both ends of the tunnel, A pair of second hinges connected to the steel support and formed on the side of the tunnel with a curvature equal to the curvature of the side surface of the tunnel and formed with a second hinge portion connected to the first hinge portion formed at both ends of the first steel support, And a supporting material.

However, since the steel support for a tunnel which is easy to carry and install as described above has a curvature equal to the curvature of the upper end surface of the tunnel and the steel support is uniformly shaped so as to fit the size and shape of the tunnel, It is difficult to apply it to a cave having irregular cross-sectional size and shape like a cave.

Patent Registration No. 10-02709673-0000 (Publication Date: Apr. 19, 2007), which is disclosed in the Korean registered patent publication, proposes a structure for installing a tunnel support material. In this case, the load transfer from the inner circumference of the tunnel to the support is guided, so that a stable support structure is secured even in the step of installing the support, so that the initial deformation of the tunnel can be suppressed.

That is, the tunnel support material installation structure supports the tunnel and has the same shape as the cross section of the tunnel in order to maintain the cross-sectional shape of the tunnel. The tunnel support material has a plurality of spaced- A support plate for supporting the inner circumferential surface of the tunnel, a support plate for supporting the inner circumference of the tunnel, a support box for supporting the inner surface of the connection box, And a support rod inserted into the hollow and fixed to the connection box.

However, in the above-mentioned conventional tunnel support structure, not only the support members are connected with each other but the connection box and the support member are connected to each other to induce the load transfer from the inner surface of the tunnel to the support member, There is a problem in that the support material can not be brought close to the expected fall-off point in the natural cave having the irregular shape, and the height of the steel beam can not be controlled.

In the patent registration No. 10-1286570-0000 (Publication date: 2013.07.22), which is disclosed in Korean Registered Patent Publication, the support connection structure and the tunnel assembly including the support connection structure are formed in an inner space formed by steel bars of different support beams A plurality of connecting portions and connecting portions for connecting the first and second inserting portions to each other are inserted and coupled to each other and a coupling medium Wherein the coupling medium has at least one coupling increasing portion for increasing the coupling force of the different beams by inserting one end of at least one of the steel bars.

However, the conventional ground connection structure and the tunnel assembly including the same are only for facilitating or strengthening the connection between the supports, and since the size and shape of the support are constant or the same, It is difficult to apply it to irregular caves.

The patent application No. 10-1498816-0000 (Publication date: 2015.03.05), which is disclosed in the Korean patent application publication, relates to a steel beam for tunnel construction, which is bent in a straight line or a curve along a tunnel drawing surface, And a fastening portion which is a connecting means for connecting the end portions of the frame and connecting means for extending in the longitudinal direction, have.

However, since the conventional rigid frame for tunnel construction as described above is connected to the flange of the frame facing one frame by a fastener, and the frame is fixed in an arch shape when the frame is formed as a steel girder, it is also shaped like an irregular shape of a natural cave It can not be brought into close contact with the inner wall of the cavern.

On the other hand, Patent Registration No. 10-1360935-0000 (Publication Date: 2014.02.13), which is disclosed in Korean Patent Publication, relates to a telescopic connecting device for a tunnel supporting support.

The conventional telescopic connecting device of the above-mentioned conventional tunnel supporting supporter can easily cope with the change of the length of the lower end portion due to the construction error of the upper end portion of the supporter so that the spacing when the space with the tunnel bottom surface is adjusted, So that the displacement is possible according to the inclination of the bottom surface.

However, since the above-described conventional telescopic connecting device for a tunnel support is configured such that the transfer plate connected to the base and the hinge pin can not be displaced according to the inclination and is automatically made, the pressing force applied to the stretching / There is a disadvantage in that it is not easy to cope with the change in the length of the lower end due to the error.

In addition, Korean Patent Laid-Open Publication No. 10-2014-0131125 (published on Dec. 31, 2014) discloses a tunnel displacement measurement method using a buried displacement gauge, wherein the cancer formed when the tunnel is pushed, A sensing unit is installed on at least one of a reinforcing layer made of at least one shotcrete layer and a reinforcement structure provided on the outside of the arm or in the reinforcement layer so that the sensing unit is embedded in the final reinforcing layer to measure the displacement of the tunnel A method of measuring a tunnel displacement using a buried displacement meter is provided.

However, the conventional tunnel displacement measuring method using the above-mentioned buried displacement gyroscope is a buried type in which a reinforcing layer is buried in a laminated structure and a reinforcing layer is embedded in a reinforcing layer after the reinforcing layer is buried or laminated on one side thereof. However, since it is a buried type, the load on the inner wall of the cave can not be effectively measured.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method of manufacturing a cave having a plurality of segments, The displacement angle is fixed to an irregular arch shape having an arch shape or a displaced pivoting angle by adjusting the position of the segment support material to be connected to the bolt and pin as a pin, Measuring sensor member is installed between the upper surface of the steel beam and the rock to support the fallen load, and the fallen load is measured and transmitted to a monitor provided outside the cave. By this nature of the natural cave, And to manage them.

Further, according to the present invention, since only the steel girder beam can be brought into contact with the irregular collapse avoidance point of the natural cave to secure the stability by supporting the fall-over load, and there is no need for additional concrete pouring or rock bolt work, It is possible to construct an effective economic operation plan of the municipality by attracting tourists by efficiently utilizing the space through the creation of the beauty of the natural cave by making it possible to install the space utilization facilities by assembling and connecting a plurality of the river support materials to each other. .

 The above object is achieved according to the present invention by providing a base 21 contacting the ground and a screw shaft 22 axially installed at a predetermined height from the upper surface of the base 21, A screw jack 20 and an arm hinge portion 25 provided on the upper surface of the support plate 26 and having one shaft hole 23 and facing each other and positioned on both sides, The segment supporting members 14b of the segment supporting members 10b having the shaft supporting portions 12 are connected to the arm hinge portions 25 by the shaft bolts B and the nuts N and the shaft supporting members 15 having the shaft holes 15 at the other end 10b are connected to the male hinge portion 14 of the segment support member 10a having the shaft hole 12 at another end of the female hinge portion 17 of the female screw member 10a, (1), and a metal-based system in which the segmented support members are in contact with the entire upper surface of the steel- A measurement sensor member 50 having a sensor base 30 and a measurement device disposed on the upper surface of the metal measurement sensor base 30 and measuring the load on the inner wall of the cave and transmitting the measurement to a monitor outside the cave; And a sensor protection cover (40) made of a soft material located on the upper surface of the sensor member (50) and directly receiving the load in the cave while transmitting the load to the measurement sensor member (50) Wherein a plurality of pin holes (24) are formed radially around the shaft hole (23) formed in the arm hinge (25) of the screw shaft (22) ); A plurality of pin holes 13 and a plurality of segment supports 10b formed radially around the shaft hole 12 of the male hinge portion 14 of the segment supports 10b, 10a, 10, into which the pins P are inserted, And a plurality of pin holes 16 formed radially around the shaft hole 15 of the arm hinge portion 17 of the shaft 10a 10 to receive the pin P. The plurality of shaft bolts B may be formed, (10b) (10a) (10) when the segmented support members (10b) (10a) (10) are assembled by a plurality of pins (P) Shaped steel girder beam system having a screw jack and a measurement sensor member, which can be connected in an arch shape.

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As described above, according to the present invention, it is possible to easily assemble and assemble a plurality of segment support members according to the cross-sectional characteristics of irregular natural caves, thereby facilitating easy adhesion, assembly, and installation of the deep- It is effective to secure the safety of the visitor in terms of the operation management of the cave by securing the stability of the natural cave. Due to the nature of the natural cave, it is possible to preserve and manage the cave effectively without damaging the nature in terms of preservation management. It is possible to attract tourists with efficient use of space through creation of natural aesthetic beyond the securing level, and it is possible to establish an effective economic management plan of the local government.

Fig. 1 is an exploded perspective view showing a state in which a segmented support forming a steel beam according to the first embodiment of the present invention is disassembled; Fig.
FIG. 2 is a front view showing a state in which an arcuate steel beam is formed by interconnecting the segment backers according to FIG.
FIG. 3 is a front view showing a state in which an arcuate steel beam is formed by interconnecting the segment backers according to the second embodiment of the present invention,
4 is a view showing an example in which the displacement angle of the steel girder beam according to the present invention is changed,
5 is a view showing a state in which a steel beam including a plurality of segment supports according to the present invention is installed in a multi-
6 is a block diagram showing a construction procedure according to a construction method of a multi-joint type multi-legged beam having a screw jack and a metering sensor support according to the present invention.

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

FIG. 1 is an exploded perspective view showing a state in which a segmented support forming a steel beam according to a first embodiment of the present invention is disassembled, FIG. 2 is a front view of a state in which an arc shaped steel beam is formed by interconnecting the segmented support members of FIG. 1 And FIG. 3 is a front view showing a state in which an arcuate steel beam is formed by interconnecting the segment backing members according to the second embodiment of the present invention.

As shown in the drawings, the assembly type multi-joint type steel girder beam system having a screw jack and a measurement sensor member according to the present invention includes a plurality of segment support members 10 (10a) A screw jack 20 and 20a provided at both end portions of the steel girder 1 to adjust the height of the steel girder 1 and an upper surface of the steel girder 1, And a measurement sensor member 50 provided between the metal measurement sensor base 30 and the measurement sensor protection cover 40 made of a soft material.
The number of the segmented support members 10a and 10b may be different from those of the attached drawings and the measurement sensor member 30 may be provided between the metal sensor sensor base 30 and the measurement sensor protective cover 40 made of a soft material. The size and the thickness and shape of each of the first and second electrodes 50 may be different from each other.

The segmented support members 10, 10a and 10b according to the present invention are formed of H-shaped steel covered at both sides by the finishing plates 11 and 11a, and the segmented support members 10, 10a and 10b have a predetermined length And a plurality of pinholes 13 radially formed on the finishing plate 11 at a predetermined distance from the one pinhole 12. The pinholes 14 are formed on the finishing plate 11, Respectively.

The arm support portion 10a and 10b according to the present invention are provided with a plurality of pin holes 16 radially formed at a predetermined distance from one shaft hole 15 formed in the finishing plate 11a at the other end 17 are provided. The male and female hinge portions 14 and 17 of the segmented support members 10a and 10b are connected to each other so as to be rotatable as shaft bolts B and nuts N, As shown in FIG. 4, the pin P serves to fix the rigid beam 1 so that the shape of the rotation angle displaced in an irregular arch shape can be maintained.
In order to maintain the shape of the rotation angle of the Kangji Beam (1) displaced to an irregular arch shape, it is required to firmly support the fall-off load at the expected fall-out point protruding inward from the cave whose size and shape are irregular like a natural cave .

The screw jacks 20 and 20a according to the present invention are provided with a base 21 contacting the ground and a screw shaft 22 axially extended from the upper surface at a predetermined height. And is screwed to a screw tube 27 connected to a foot plate 26 for supporting the arm hinge part 25 having the arm hinge part 25 to adjust the height of the steel girder 1 by rotating operation of the user. ) Completely close to the ceiling of the cave.

The metal measuring sensor support 30 according to the present invention is provided at a predetermined position on one upper surface of the steel girder 1. The steel girder 1 composed of a plurality of the segment supports 10, 10a, As can be seen, it is preferable that the metal measuring sensor base 30 is provided in a multi-piece form. A sensor sensor cover 50 is disposed on the upper surface of the metal measurement sensor receiver 30 and a sensor protection cover 40 made of a soft material is disposed on the upper surface of the measurement sensor member 50. And serves to transmit the load to the measurement sensor member (50) in a hermetic manner and to prevent the measurement sensor member (50) from being damaged by the load of the rock wall.

In the present invention as described above, the reinforcing member 1 forming a regular arch or an irregular arch is formed by connecting a plurality of the segment supporting members 10, 10a, 10b with the bolts B and the pins P In order to maintain the stability of the natural cave and the artificial cave by supporting the load by contacting with the rock wall of the natural cave, especially when holding the shape of the strong steel cave (1) with an irregular arch shape, The holding of the angularly adjusted angle after rotating the grip beam 1 is achieved by selectively fixing the pin P to the plurality of pin holes 13 and 16 formed radially around the shaft holes 12 and 15 It is easy to apply rock wall of irregular size and shape.

Particularly, in the present invention, the load on the inner wall of the cavern is measured through the measurement sensor member 50 and transmitted to the monitor outside the cave, thereby detecting the separation and the like of the rock in advance and evacuating the visitor and the manager, , And it is easy to judge whether the reinforcement work is progressed according to the measurement result when the cave reinforcement work is carried out to secure the stability of the cave.

Detecting separation and separation of rocks in advance to perform safety work, it is easy to secure safety in advance.

FIG. 4 is a block diagram showing a construction procedure according to a construction method of a multi-joint type multi-joint type steel beam having a screw jack and a measurement sensor support according to the present invention.

As shown in the above drawings, the construction method according to the present invention is the same as the following embodiment.

 {Example}

(S10). Then, based on the measured data, a plurality of hinges (14) are formed at one end and an arm hinge (17) is formed at the other end (S20) Then, the segment supporting members 10 (10a0, 10b) are brought into contact with the cave bottoms 10a0 (10b) The height of the grip beam 1 is adjusted by tightening the screw hacks 20 and 20a including the arm hinge 25 and the screw shaft 22 and the screw tube 27 so that the height of the grip beam 1 can be adjusted. (S30).

The male and female hinge parts 14 and 17 of the segmented support members 10a and 10b are connected to the shaft bolts B by a plurality of pins P, (S40). If the cross-sectional shape of the cave is arcuate, the shape of the steel girder 1 is assembled into a regular arch shape, and the cross-sectional shape of the cave (1) is formed into a regular arch shape or an irregular arch shape. 10a and 10b to be assembled are formed in an irregular arch shape with different connecting displacement angles and then the primary supporting member 10a and the secondary supporting member 10b are formed at regular intervals The load is supported by supporting the load of the assembled steel girder beam 1 in conformity with the cave shape and the place where the collapse is anticipated (S50). Here, the girder beam made of a plurality of the segment support materials 10, 10a, 1, as shown in Fig. 5, It is preferable that they are provided on the needles 30 in a multi-piece form.

The measurement sensor member 50 is installed between the metal measurement sensor support 30 provided on the upper surface of the steel girder 1 installed at the expected fall-off point of the cave and the measurement sensor protective cover 40 made of soft material after the above- The load is transferred and measured through the measurement sensor member 50 so that the load on the inner wall of the cavern can be measured and transmitted to the monitor outside the cave.

The steel girder beam 1 connected and assembled with the plurality of the segment supporting members 10a and 10b is rotated by the height adjusting screw 28 placed between the screw shaft 22 and the screw tube 27, (S70). Then, a plurality of steel girders 1 are connected in the longitudinal direction to form a cave aesthetic appearance on the steel girder surface. (S80). ≪ tb > < TABLE >

According to the present invention as described above, a steel beam, which is formed by interconnecting and assembling a plurality of segment support members in accordance with the cross-sectional characteristics of a natural cave having irregular cross-sectional shapes, is brought into contact with an irregular fall- And the measurement of the fallen load is carried out between the upper surface and the rock surface of the steel girder to measure the fallen load and transfer it to the monitor installed outside the cave, In terms of preservation and management of the cave effectively without damaging the nature.

In addition, the present invention can support only a fallowing load by contacting only the strong steel beam formed by interconnecting and assembling a plurality of the segment support materials in accordance with the cross-sectional characteristics of a natural cave having an irregular cross-sectional shape so as to meet irregular fall- Because it does not need to put the concrete beyond the securing level, it does not damage the natural cave, so it can attract the tourists with efficient space utilization through the creation of the beauty of the natural cave, and it is possible to establish an effective economic management plan of the local government.

As used herein, the terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor shall properly define the concept of the term to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the constitutions shown in the drawings are only a preferred embodiment of the present invention, and not all of the technical ideas of the present invention are described. Therefore, various equivalents It should be understood that there may be water and variations

1: Kangji Bo
10, 10a, 10b:
11, 11a: Finishing plate
12, 15: Slippery
13, 16:
14: Suhin Branch
17, 25: arm hinge section
20, 20a: screw jack
21: Base
22: Screw shaft
24:
26:
27: Screw tube
28: Height adjustment screw
30: Measurement sensor base
40: Measuring sensor protection cover
50: Measurement sensor member
B: Axial bolt
N: Nut
P: pin

Claims (2)

A base 21 contacting the ground and a screw shaft 22 axially installed at a predetermined height from the upper surface of the base 21 and a support plate 26 attached to the upper surface of the screw shaft 22, 20 and 20 having a shaft hole 20 and an arm hinge portion 25 provided on the upper surface of the base plate 26 and having a single shaft hole 23 and facing each other, 10b of the segment support member 10b having the shaft hole 15 at the other end are connected to the arm hinge portion 25 by the shaft bolt B and the nut N and the arm hinge portion 17 The girder beam 1 is connected to the hinge portion 14 of the segment supporting member 10a having the shaft hole 12 at an opposite end thereof and is formed in an arch shape, A metal measuring sensor base (30) in contact with the entire upper surface of the rigid beam provided in multi-piece form, A measurement sensor member 50 located on the upper surface of the measurement sensor support 30 and measuring a load on the inner wall of the cave and transmitting the measured load to a monitor outside the cave; And a sensor protection cover (40) made of a soft material for directly receiving a load in the cave while transmitting the load to the measurement sensor member (50). In the system,
Further comprising a plurality of pin holes (24) formed radially around the shaft hole (23) formed in the arm hinge part (25) of the screw shaft (22) and into which the pin (P) is inserted;
A plurality of pin holes 13 and a plurality of segment supports 10b formed radially around the shaft hole 12 of the male hinge portion 14 of the segment supports 10b, 10a, 10, into which the pins P are inserted, And a plurality of pin holes 16 formed radially around the shaft hole 15 of the arm hinge portion 17 of the shaft 10a 10 to receive the pin P. The plurality of shaft bolts B may be formed, (10b) (10a) (10) when the segmented support members (10b) (10a) (10) are assembled by a plurality of pins (P) Wherein said screw member is connected to said screw member in an arcuate shape.
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