KR102119325B1 - binding apparatus - Google Patents

Abstract

The present invention relates to a post binding device for binding a support of a deck road and, more specifically, to a post binding device for binding a support of a deck road, which can provide construction convenience in accordance with height control of a post of the deck road, control forth, back, left and right directions and angles to be used by being variously controlled in a flatland or an inclined land, prevent soil around the post of the deck road from being lost in case of rain to be more rigidly constructed, form a ground excavation fixing structure to be rigidly fixed, and secure rigid fixing support force under the ground.

Description

Deck rod's support binding mechanism {binding apparatus}

The present invention relates to a holding rod for binding the support of the deck rod, more specifically, it is possible to adjust the height of the deck rod supporter, and facilitate the binding according to the adjustment of the front, rear, left, right and angle, It relates to a holding rod for binding the support of the deck rod to ensure the secure support to the ground.

In general, the deck road structure refers to a bridge that is installed on the water surface of a park, river, or lake, or is used as a walkway for viewing the surrounding scenery by being installed on a shore.

In such a normal deck rod structure, a plurality of floor members are arranged with horizontal beams on both sides to form an upper structure, and a plurality of support pillars are connected to a lower portion of the horizontal beam to form a deck rod structure, and the support pillars are ground. It is fixed to a number of ground structures made of concrete formed in the anchor through an anchor or the like.

However, in the conventional deck rod structure as described above, when the deck rod structure is fixed to the ground structure due to the characteristics of the construction of the deck rod structure and the ground structure, the distance between each support column and the ground structure or before, after, and left When there was an error in the right position, there was a hassle such as the need to rebuild the support column or the ground structure.

In addition, since the ground structure constructed on the ground is simply composed of a concrete structure on the ground, it is exposed to the loss of earth and sand during rainy weather, and there is a problem in that the settlement phenomenon frequently occurs.

Korea Patent Application Registration No. 10-1366337.

The present invention was devised to solve the above-mentioned problems, while bringing convenience of construction according to the height adjustment of the deck rod holder, while allowing adjustment of the front, rear, left, right, and angle to make it flat or inclined. It is an object of the present invention to provide a support binding mechanism for binding a support of a deck rod to enable various adjustments such as use.

In addition, it prevents the loss of earth and sand around the deck road propulsion in rainy weather, enabling a more robust construction. In particular, it is possible to secure a firm anchoring force in the ground while ensuring a firm fixation by forming a ground excavation fixing structure. It is an object of the present invention to provide a support tie for binding the support of the rod.

As a specific means for achieving the above object, a plurality of floor members are formed on a horizontal support, and a deck rod formed with a railing is formed on an upper part of the formed floor member, in a fastener for fixing the support to the ground. ,

Consists of a tubular body, is formed by protruding downwards at regular intervals from the lower part of the support through the main support flange portion of the upper end, and a plurality of main supporters having a plurality of bolt holes formed in a vertical direction on the outer circumferential surface. There is a screw hole formed in communication with any one of the bolt hole is fixed with a fixing bolt and the lower end of the holding column of the inner circumferential flange portion is formed;

An excavation pipe in the form of a hollow circular pipe that is excavated on the ground and capable of fixing the support portion; And

It is formed between the inner supporter and the digging pipe to connect the strut portion and the digging pipe, but it is achieved by constructing a position control mechanism that can adjust the position of the strut portion and the digging pipe by adjusting the front, rear, left, right and angle. You can do it.

As described above, the holding rod for binding the support of the deck rod of the present invention is provided with an inner supporter that can be inserted into the main supporter and adjustable in height at the lower part of the main supporter of the tubular type, so that the height can be easily adjusted as needed, and the position can be adjusted. It is possible to control the front, rear, left, right and angle through the means, so that it is possible to respond according to the vertical or inclined angle of the holding part, so that it is possible to obtain an effect of easy correspondence when constructing on flat or inclined land.

In addition, since the structure is excavated and fixed to the ground through an excavation pipe, it is possible to securely fix the construction to the ground. In particular, it is possible to protect the exposed portion of the ground through an earth leakage prevention device to prevent the loss of soil during rainy weather. In particular, it is possible to obtain an effect capable of sturdy drilling, such as the ground fixing force of the excavation pipe is further increased through a sliding portion that is settled in the inside of the excavation pipe and fixed to the ground.

1 is a perspective view of a support tie for binding the support of the deck rod of the present invention.
Figure 2 is an exploded perspective view of the holding rod for binding the support of the present invention deck rod.
Figure 3 is a main portion of the support portion of the support for binding the support rod of the present invention deck rod.
Figure 4 is a main portion of the digging tube of the support for binding the support of the deck rod of the present invention.
Figure 5 is a cross-sectional view of the digging tube of the support for binding the support of the deck rod of the present invention.
Figure 6 is another embodiment of the digging tube of the support rod for binding the support of the deck rod of the present invention.
Figure 7 is another embodiment of the digging tube of the support rod for binding the support of the deck rod of the present invention.
Figure 8 is a main portion of the position adjustment mechanism of the support for binding the support of the deck rod of the present invention.
Figure 9 is another embodiment of a support tie for binding the support of the present invention deck rod.
Figure 10 is a main part of the construction of the deck rod using a support tie for the support of the present invention binding rod deck.
Figure 11 is a state of operation of the fixing member of the holding rod for binding the support of the deck rod of the present invention.
Figure 12 is a state of operation of the support portion of the holding rod for binding the support of the deck rod of the present invention.
13 is a state diagram of the position adjustment mechanism of the holding rod for binding the support of the deck rod of the present invention.
Figure 14 is a state of operation of the earth loss prevention mechanism of the support tie for the support for binding the deck rod of the present invention.

The terms or words used in the specification and claims should not be interpreted as being limited to ordinary or lexical meanings, and the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. Based on the principle that it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, and can replace them at the time of this application. It should be understood that there may be various equivalents and variations.

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

1 is an exploded perspective view of a holding rod for binding a support of the deck rod of the present invention, and FIG. 2 is an exploded perspective view of a holding rod for binding a support of the deck rod of the present invention.

As shown in Figures 1 and 2, in the support rod for the support of the deck rod of the present invention, a plurality of floor members 12 are formed on the upper support 11 on the horizontal, the railing on the upper portion of the formed floor member 12 (13) is formed of a deck rod (10) is formed in the binding tool for constructing the support (11) on the ground, connected to the lower portion of the support (11) and the holding part (100) to be fixed to the ground, It is composed of an excavation pipe 200 and a position adjusting device 300.

Here, the holding part 100, as shown in FIG. 3, is the first main support 110, the main support 110 is composed of a central through square tube body, and the main support flange portion 111 is provided at the top. It is formed is bolted to the lower portion of the support 11 through the main holding flange 111, it is formed a plurality at regular intervals.

In addition, a plurality of bolt holes 112 and 112' are formed on the main circumference 110 in a direction perpendicular to the outer circumferential surface.

In addition, the holding portion 100, the inner holding 120 is configured, the inner holding 120 is inserted from the bottom of each main holding 110, if necessary, through the sliding insertion and removal of the holding portion 100 It is configured to be adjustable in length, and an inner holding flange portion 121 is formed at the bottom.

At this time, the inner support 120, the outer peripheral surface of the bolt hole 112, 112' of the main support 110, any one of the bolt hole 112, 112' to be able to communicate with the screw hole 122 It is composed.

That is, the holding part 100, the screw hole 122 and any one of the bolt holes 112 by the insertion and removal of the inner support 120, the adjustment and fixing bolts 130 to the bolt hole 112 By inserting and fastening to the screw hole 122, it is possible to adjust the length of the main support 110 and the internal support 120, that is, the length of the support 100.

The excavation pipe 200 is constructed to be excavated on the ground to enable the fixed construction of the support portion 100, and is configured in the form of a circular pipe.

At this time, the excavation pipe 200, as shown in Figures 4 and 5, the tip of the excavation pipe 200 is configured to be inclined so that the penetrating through the ground 210, the rear end of the excavation pipe flange portion 201 is configured.

In addition, on the outer circumferential surface of the excavation pipe 200, an excavation wing 220 pivoted in a spiral shape is formed, and the excavation wing 220 is formed at least in one or more places on the outer circumferential surface of the excavation tube 200.

At this time, the excavation wing 220 is configured to be helically rotated from 280 to 650° based on the center of the excavation tube 200, which when the turning angle of the excavation wing 220 is smaller than 280°, the excavation tube 200 This is because the holding force of the pipe is weakened and the turning angle is greater than 650°, which is affected by the earth pressure.

On the other hand, in the embodiment of the present invention is configured to be provided with two excavation blades 220 at intervals, it is formed to be welded to the outer circumferential surface of the excavation pipe 200, and thus the excavation blades 220 are partially installed without being installed on the battlefield. The reason for the installation is to reduce contact friction during drilling and prevent discharge of soil.

In addition, the inside of the excavation pipe 200 at the upper side of the sharpening part 210 is configured to be closed with a closing plate 230 to prevent the excavated soil from entering the inside of the excavation pipe 200.

At this time, in the construction of the finishing plate 230, it is preferable that the center is formed to form a protrusion 231 that protrudes downward, and the earth pressure is distributed to the finishing plate 230 in the process of excavating soil. This is to prevent damage to the finishing plate 230 due to earth pressure.

In addition, in constructing the excavation pipe 200, as another embodiment, as shown in FIG. 6, a plurality of guide grooves 202 and 202' may be radially included on the inner circumferential surface, each guide groove ( 202) (202') is configured in a vertical form from the top to the bottom along the inner circumferential surface of the excavation pipe 200.

In addition, a plurality of through-holes 203 and 203' are formed radially from the center of the excavation pipe 200 on the outer circumferential surface of the excavation pipe 200, wherein each through-hole 203 and 203' is guided. It is formed in the grooves 202 and 202'.

In addition, it is configured to further include a sliding fixing member 240 inserted into the inside of the excavation pipe 200, the sliding fixing member 240 is first opened to the top in the center so that a separate screw rod 245 can be inserted A female screw portion 241 is formed.

In addition, a plurality of sliding pins 242 and 242 ′ having elasticity that are opened at positions corresponding to the through holes 203 and 203 ′ are radially formed on the outer circumferential surface of the sliding fixing member 240.

That is, the sliding fixing member 240 is in a state where the screw pins 242 and 242' are located in the guide grooves 202 and 202' in a state where the screw rod 245 is coupled to the female screw portion 241. It enters into the inside of the excavation pipe 200, and when it is located in the through-hole 203, 203' in the process of entering, the through-hole 203, due to the elasticity of the expansion pins 242, 242' 203').

On the other hand, as shown in the other embodiment in the configuration of the guide groove 202, 202' and through-holes 203, 203' and the sliding fixing member 240 in the excavation pipe 200 as shown above, shown in FIG. As described, the blocking tube 250 is further configured to be included.

At this time, the blocking pipe 250 is composed of a tube body inserted into the inside of the excavation pipe 200, and a plurality of guide protrusions 251 and 251' corresponding to the guide grooves 202 and 202' are formed on the outer circumferential surface. ) Is composed of, while the excavation pipe 200 is excavated while being excavated while being inserted into the excavation pipe 200 in the process of excavating the ground, the soil is internally penetrated through the through holes 203 and 203'. It prevents inflow.

On the other hand, when the sliding fixing member 240 is used, the blocking tube 250 is removed from the excavation tube 200, so that the through-holes 203 and 203' can be exposed.

The position adjusting device 300 is formed between the support portion 100 and the excavation pipe 200 to connect the support portion 100 and the excavation pipe 200, but before, after, left, right and angle By adjustment, it is possible to adjust the position of the holding portion 100 and the excavation pipe 200.

At this time, the position adjusting device 300, as shown in Figure 8, is composed of the adjusting device base 310, the angle adjusting device 320, and the horizontal adjusting device 330.

First, the adjuster base 310, the lower circumference is configured with a control flange portion 311 to enable bolting engagement with the excavation pipe flange portion 201 of the excavation pipe 200.

And the upper portion of the ball housing 312 having a screw shaft 314 is configured, and inside the ball housing 312, a ball 313 having a spherical shape having a screw shaft 314 at the top is inserted and upper It is configured to be exposed.

At this time, the upper portion of the ball housing 312 is formed in an open form to expose the ball 313, the open state is possible as long as it prevents the ball 313 from falling off, depending on the open degree The rotation of the ball 313 is configured to be possible.

The angle adjustment mechanism 320, the nut body 321 is formed in the lower portion is configured to be screwed to the screw shaft 314 of the ball 313, the upper horizontal adjustment guide groove 323 is opened to both sides The formed guide portion 322 is configured.

The horizontal adjustment tool 330 is formed to be bolted to the inner support flange part 121 formed at the lower end of the inner support 120 of the support part 100 by forming a horizontal adjustment flange part 331 on the upper part. , On the lower side, a moving hole 332 is formed with horizontal adjustment guide protrusions 333 on both sides that are slidably coupled to the horizontal adjustment guide groove 323 of the angle adjustment device 320.

On the other hand, the horizontal adjustment guide groove 323 and the horizontal adjustment guide protrusion 333 is configured to form a structure that is coupled to the groove and the projection to prevent departure from the upper portion when coupled to each other, the guide portion 322 It will be natural that the configuration is approximately twice as long as the horizontal adjustment mechanism 330.

That is, the position adjusting device 300 is capable of adjusting the left, right rotation or up and down angle of the ball 313 by the operation of the angle adjusting device 320 coupled to the ball 313, and horizontal adjustment The angle adjustment mechanism 320 of the sphere 330 is configured to be able to adjust the horizontal position through sliding from the horizontal adjustment guide groove 323.

On the other hand, in another embodiment in constructing the support rod for binding the support of the deck rod of the present invention, while surrounding the circumference of the excavation pipe 200 excavated and fixed to the ground, as shown in Figure 9, installed on the ground, sediment To prevent the loss of soil around the excavation pipe 200 may be configured to further include a soil loss prevention device 400.

At this time, the soil loss prevention device 400 is first formed on both sides and is configured to surround the excavation pipe 200 on both sides, which is made possible through a pair of divided bodies 410 and 410'.

At this time, each of the divided bodies 410 and 410', first, a semicircular ring-shaped binding tube 420 surrounding the outer circumference of the excavation tube 200 is configured.

In addition, the divided body 410, 410', is formed to protrude toward the outside from the upper end of the binding tube 420, the ground cover 430 in the form of a plate body covering the ground.

In addition, the dividing bodies 410 and 410 ′ are formed with a buried portion 440 that protrudes downward from the end of the ground cover 430 and is buried in the ground.

That is, each of the divided bodies 410 and 410' wraps the outer circumference of the excavation pipe 200 through each binding pipe 420, while the ground cover is driven into the ground through the buried portion 440. 430) is to close the ground, and in this process, the excavation pipe 200 prevents the loss of soil around the excavated ground.

On the other hand, in the construction of the earth loss prevention device 400 as described above, it can be configured to be able to secure the connection of the partitions 410 and 410' on both sides. There are formed through-hole fixing holes (431, 431') on both sides.

And it is configured to include a "c" bent-type fixing pin 450 to be inserted into the adjacent fixing holes 431, 431' of the adjacent ground cover 430, through the fixing pin 450 By connecting and fixing the ground cover 430 of the neighboring dividers 410 and 410', it is possible to securely fix the binding of the excavation pipe 200.

Hereinafter, with reference to the accompanying drawings, the operation of the support for binding the support of the deck rod of the present invention having the above configuration will be described in detail.

First, with reference to FIGS. 1 to 8, when constructing the deck rod 10 using a support binding mechanism for binding the support of the deck rod of the present invention as shown in FIG. 10, first, the support 11 of the deck rod 10 The lower portion of the plurality of holding portions 100 are coupled at regular intervals, the holding portions 100 can be bolted to the support 11 through the main holding flange 111 formed on the top of the main holding 110 Do.

In addition, a plurality of digging pipes 200 are excavated on the ground for constructing the deck rod 10, wherein the digging pipes 200 are not shown in the figure, but a conventional drill is used for the digging pipe flange portion 201. Heavy equipment such as auger (not shown in the drawing) is applied to the coupling and rotational force to enable excavation through the excavation blade 220 and the sharpening part 210. In this excavation process, the blocking tube 250 ) Is installed in the state inserted into the excavation pipe (200).

That is, the excavation pipe 200 is excavated on the ground for installation of the deck rod 10, but is constructed to correspond to the spacing of the pillars 100 formed on the deck rod 10.

In addition, it is possible to securely fix the excavation pipe 200 to the ground in a state in which the excavation pipe 200 is constructed as described above, which is possible by the lubrication fixing member 240.

At this time, the sliding fixing member 240, as shown in FIG. 11 with reference to FIG. 11, removes the blocking pipe 250 from the excavation pipe 200, and is attached to the female screw portion 241 of the sliding fixing member 240. The coupling rod 245 is inserted into the inside of the excavation pipe 200 so that the coupling pins 242 and 242' are embedded in the guide grooves 202 and 202', and each of the coupling pins 242 in the process of insertion ) (242') is positioned in the through-hole (203, 203') will be projected to the outside of the through-hole (203, 203') by its elasticity, in this process the sliding pin (242) ( 242') is fixed to the ground, and at this time, when the screw rod 245 flows up and down multiple times, the sliding pins 242 and 242' can deeply enter the ground.

That is, since the sliding pins 242 and 242' of the sliding fixing member 240 are fixed to the ground through the through-holes 203 and 203', the excavation pipe 200 is excavated to the ground Since it is fixed to the ground once more, it is possible to fix the solid ground of the excavation pipe 200.

Subsequently, a position adjusting device 300 is formed on an upper portion of the digging pipe 200, and the position adjusting tool 300 is provided with a digging pipe flange portion 201 through an adjusting flange portion 311 of the adjusting element base 310. ).

Subsequently, the horizontal adjustment flange 331 formed in the horizontal adjustment port 330 of the position adjustment port 300 is connected to the internal support 120 through the internal support flange section 121 of the support section 100. , By this combination, the deck rod 10 is to be bound construction.

On the other hand, in the process of the deck rod 10 is constructed as described above, the construction of the support portion 100 and the excavation pipe 200 formed on the support 11 of the deck rod 10 is constructed differently, In the construction of the deck rod 10, a predetermined error occurs. In the present invention, the error can be compensated for and tightly coupled by the adjustment of the holding part 100 and the adjustment of the position adjusting device 300. .

First, referring to FIG. 3, referring to FIG. 12, an adjustment state according to the height will be described, and this is possible by adjusting the height of the pillar 100.

At this time, the holding part 100 is composed of the main holding 110 and the inner holding 120 that is inserted into the main holding 110, the inner holding 120 is inserted and adjusted from the main holding 110 to support It is possible to adjust the length of the housewife 100, and in this process, any one of the bolt holes 112, 112' formed in the main support 110 and the screw holes 122 formed in the internal support 120 It is possible to be fixed by inserting the fixing bolt 130 into the communication and the bolt hole 112 and fastening the screw hole 122.

That is, the height adjustment of the deck rod 10 can be adjusted by adjusting the insertion/detachment of the inner support 120 from the main support 110 of the support part 100.

In addition, when an error in the vertical position between the holding part 100 and the excavation pipe 200 occurs, it can be adjusted by adjusting the position adjusting device 300.

Referring to FIG. 8, as shown in FIG. 13, when an external force is applied to the angle adjusting device 320, the position adjusting device 300 includes the ball 313 accommodated in the ball housing 312 of the adjusting device base 310. Adjustment is possible. First, when an error in the straightness between the prop 100 and the excavation pipe 200 occurs, the horizontal adjuster 330 and the prop 100 by adjusting the up and down angle of the ball 313 ) It is possible to adjust the straightness, and the adjustment of the angle makes it possible to easily respond to the construction of the ted rod 10 on a slope as well as on a flat surface.

In addition, when adjusting the position of the inner circumferential flange portion 121 of the inner circumference 120 and the horizontal adjustment flange 331 of the horizontal adjustment device 330 in a state in which the linearity is adjusted as described above, the ball 313 The horizontal rotation and the horizontal adjustment device 330 are made possible by sliding adjustment from the angle adjustment device 320, and are supported by the position adjustment device 300 by the operation of the position adjustment device 300. Since the close connection between the housewife 100 and the excavation pipe 200 is possible, it is possible to secure the construction of the deck rod 10.

On the other hand, it is possible to prevent the loss of earth and sand in the rain on the ground where the excavation pipe 200 is excavated in the state where the construction of the deck rod 10 is completed, which is possible through the earth and sand prevention device 400.

That is, as illustrated in FIG. 14 with reference to FIG. 14, the earth and sand prevention device 400 uses both the partitions 410 and 410 ′ on both sides to form the outer circumference of the excavation pipe 200 exposed to the ground. Wrapped in, this is to be fixed by being put on the ground through the buried portion 440 of the divided body 410, 410' in the state surrounding the excavation pipe 200 using the binding tube 420, this process In the soil around the excavation pipe 200 is covered with a ground cover (430).

In addition, by inserting the fixing pins 450 into the fixing holes 431 and 431' of the neighboring ground cover 430 in the state in which the partitions 410 and 410' are constructed as described above, the partitions on both sides ( 410) (410') can be unitized so that a close coupling with the excavation pipe 200 is possible.

That is, it is possible to protect the surrounding soil of the excavation pipe 200 using the soil loss prevention device 400 as described above, in the rain, prevent the loss of the surrounding soil of the excavation pipe 200 and the excavation pipe ( 200) can be prevented from settlement.

As described above, the holding rod for binding the support of the deck rod of the present invention brings the convenience of construction in constructing the deck rod at a constant height on the ground, and is very easy on flat and inclined areas, especially on the support of the deck rod. Even if the positions of the excavation pipes installed on the support part and the ground formed are different, easy construction is possible by adjusting the position adjusting device.

100: holding part 110: main holding
120: internal holding
200: excavation pipe 210: sharp part
220: excavation wing 230: finishing plate
240: fixing member 250: blocking tube
300: Position adjustment 310: Adjustment base
320: angle adjuster 330: horizontal adjuster
400: earth and sand loss prevention device 410,410': divided body
420: binding tube 430: ground cover
440: buried part 450: fixing pin

Claims (9)

A plurality of floor members 12 are formed on the horizontal support 11, and a deck rod 10 formed with a railing 13 is formed on an upper portion of the formed floor member 12 to fix the support 11 to the ground. In the binding mechanism for construction,
Consisting of a tube body, a plurality of bolt holes 112, 112' are formed in the vertical direction on the outer circumferential surface downwardly protruding at regular intervals from the lower portion of the support 11 through the upper main flange portion 111. The main support 110 of, and each main support 110 is inserted and removed from the lower end and the outer circumferential surface is formed with a screw hole 122 communicating with any one of the bolt holes 112, 112' to the fixed bolt 130 A holding portion 100 made of an inner holding 120 which is fixed and has an inner holding flange 121 formed at the bottom;
Excavation pipe 200 in the form of a hollow circular pipe capable of being fixedly constructed on the ground and capable of fixed construction of the support portion 100; And
It is formed between the inner support 120 and the digging pipe 200 to connect the strut portion 100 and the digging pipe 200, but excavates with the strut portion 100 by adjusting the front, rear, left, right and angles. It comprises a position adjusting device 300 that can adjust the position of the tube 200,
Excavation pipe 200,
An inclined pointed portion 210 is formed at the front end portion, an excavation pipe flange portion 201 is formed at the rear end portion, and at least one or more excavation blades 220 are spirally rotated on the outer circumferential surface,
On the inner circumferential surface from the upper side of the sharpening part 210, it is configured to be closed with a closing plate 230,
Excavation pipe 200,
Each of the inner circumferential surfaces has a vertical shape, and guide grooves 202 and 202' that form a plurality of rows radially from the center of the excavation pipe 200 are further included, and the guide grooves 202 and 202 in the circumferential direction are formed on the outer circumferential surface. ') to form a through hole (203, 203') that is formed through a plurality,
It is inserted into the inside of the excavation pipe 200, and a female screw portion 241 through which the screw rod 245 is inserted is formed at the center and is opened upward, and a position corresponding to the through hole 203 and 203' on the outer circumferential surface. A holding rod for binding the support of the deck rod, characterized in that it further comprises a plurality of sliding pins 242, 242' having a resilience that is radially formed in the radial fixing member 240. delete According to claim 1,
The excavation wing 220,
The support rod binding hole for the support of the deck rod, characterized in that it consists of a spiral pivoted at 280 ~ 650 ° based on the center of the excavation pipe (200). According to claim 1,
The closing plate 230,
A support for binding the support of the deck rod, characterized in that the center further comprises a protrusion 231 that protrudes downward. delete According to claim 1,
It is inserted into the inside of the excavation pipe 200, and the outer circumferential surface further comprises a blocking pipe 250 formed with a plurality of guide protrusions 251 and 251' corresponding to the guide grooves 202 and 202'. Characterized by the support of the deck rod support tie binding. A plurality of floor members 12 are formed on the horizontal support 11, and a deck rod 10 formed with a railing 13 is formed on an upper portion of the formed floor member 12 to fix the support 11 to the ground. In the binding mechanism for construction,
Consisting of a tube body, a plurality of bolt holes 112 and 112' are formed in the vertical direction on the outer circumferential surface and protruded downward at regular intervals from the lower portion of the support 11 through the upper main flange portion 111. The main support 110 of, and each main support 110 is inserted and removed from the bottom and the outer circumferential surface is formed with a screw hole 122 communicating with any one of the bolt holes 112 and 112' to the fixed bolt 130 A holding portion 100 made of an inner holding 120 which is fixed and has an inner holding flange 121 formed at the bottom;
Excavation pipe 200 in the form of a hollow circular pipe capable of being fixedly constructed on the ground and capable of fixed construction of the support portion 100; And
It is formed between the inner support 120 and the digging pipe 200 to connect the strut portion 100 and the digging pipe 200, but excavates with the strut portion 100 by adjusting the front, rear, left, right and angles. It comprises a position adjusting device 300 that can adjust the position of the tube 200,
Position adjustment device 300,
On the lower circumference, an adjustable flange portion 311 is formed, which can be combined with the drilling pipe flange portion 201 of the drilling pipe 200, and a ball 313 having a spherical shape having a screw shaft 314 is formed on the upper portion. Adjustment base 310 is formed with a ball housing 312 is inserted and exposed to the top;
The lower body is formed with a nut body 321, the screw shaft 314 of the ball 313 is inserted, and the upper part has an angle adjusting device having a guide portion 322 having a horizontal adjustment guide groove 323 open to both sides ( 320); And
A horizontal adjustment flange portion 331 is formed at the upper portion to be coupled with the inner circumferential flange portion 121, and at the lower portion, it is coupled to the horizontal adjustment guide groove 323 of the angle adjusting device 320 so as to be slidable with horizontal adjustment guides on both sides. A holding rod for binding the support of the deck rod, characterized in that it comprises a horizontal adjustment hole 330 is formed with a moving hole 332 having a projection (333). delete A plurality of floor members 12 are formed on the horizontal support 11, and a deck rod 10 formed with a railing 13 is formed on an upper portion of the formed floor member 12 to fix the support 11 to the ground. In the binding mechanism for construction,
Consisting of a tube body, a plurality of bolt holes 112 and 112' are formed in the vertical direction on the outer circumferential surface and protruded downward at regular intervals from the lower portion of the support 11 through the upper main flange portion 111. The main support 110 of, and each main support 110 is inserted and removed from the lower end and the outer circumferential surface is formed with a screw hole 122 communicating with any one of the bolt holes 112, 112' to the fixed bolt 130 A holding portion 100 made of an inner holding 120 which is fixed and has an inner holding flange 121 formed at the bottom;
Excavation pipe 200 in the form of a hollow circular pipe capable of being fixedly constructed on the ground and capable of fixed construction of the support portion 100;
It is formed between the inner support 120 and the digging pipe 200 to connect the strut portion 100 and the digging pipe 200, but excavates with the strut portion 100 by adjusting the front, rear, left, right and angles. Position control device 300 that can adjust the position of the tube 200; And
Comprising a circumference of the excavation pipe 200 and includes a soil loss prevention device 400 installed on the ground,
Soil loss prevention device 400,
It is composed of a pair of divided bodies (410, 410') that are dividedly formed on both sides,
Each partition 410, 410',
A binding tube 420 surrounding the excavation tube 200;
A ground cover 430 protruding outward from an upper end of the binding tube 420; And
It comprises a buried portion 440 is formed to protrude downward from the end of the ground cover 430 is buried in the ground,
On both sides of each ground cover 430, through-hole fixing holes 431, 431' are formed,
It is configured to further include a "c" bent-type fixing pin 450 inserted into the fixing hole 431 (431') formed in the ground cover 430 of the neighboring divided body (410) (410'),
Using the dividing bodies 410 and 410', the fixing pins 450 are inserted into the fixing holes 431 and 431' of the neighboring ground cover 430 while the excavation pipe 200 is wrapped on both sides. The support for binding the support of the deck rod, characterized in that to fix the divided body (410, 410') of.

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