KR20060055268A - A concrete distributor apparatus - Google Patents

Abstract

The present invention relates to a concrete distributor for a high-rise building, the fixing means is installed in the hole formed in the center of the slab; Support means installed in the lower end of the fixing means; A fixing frame installed at an upper portion of the fixing means; Rotating means is installed on the upper portion of the fixed frame; Characterized in that it comprises a distributor installed on the top of the rotating means, the concrete distributor is also moved according to the floor to which the building is expanded, so there is no hassle to release the entire distributor as in the prior art, and to dismantle the distributor The construction period can be prevented due to the delay of the construction period, and the construction cost can be reduced by the reduction of the construction period.

In addition, there is no load applied to the slab when the expansion of the building, and the work range is wide, there is an effect that can increase the efficiency of the work.

Concrete, distributor, high-rise building, pour pipe, support pipe, fixed pipe,

Description

Concrete distributor for high-rise buildings

1 is a front view showing the configuration of a concrete distributor for tall buildings according to the present invention.

Figure 2 is an enlarged view of the main portion showing the configuration of the fixing means and the rotating means of FIG.

3 is an enlarged view illustrating main parts of the base panel and the supporting member of FIG. 1;

4 is a perspective view showing the configuration of the fixing tube and the support tube of FIG.

5 is a plan view showing the configuration of the supporting means of FIG.

FIG. 6 is an enlarged view illustrating main parts of the structure in which the horizontal rods of FIG.

7 is a plan view showing the configuration of the concrete distributor of the present invention.

8 is a plan view showing the configuration of the rotating means of the dispenser according to the present invention.

9 is a perspective view showing an installation state showing a state in which the concrete distributor for high-rise building according to the present invention is installed.

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

1: concrete distributor for high-rise building 100: fixing means

110: fixing tube 111: fixing protrusion

112: fixing hole 113: the first guide protrusion

120: base panel 121: coupling member

122: fixing groove 123: first fixing hole

130: reinforcement panel 200: support means

210: support tube 211: support protrusion

212: support hole 213: second guide protrusion

214: insertion tube 215: ring

220: support frame 221: through hole

222: frame fixing protrusion 230: roller

231: roller fixing protrusion 240: bracket

250: auxiliary frame 260: rod support member

261: horizontal rod seating groove 270: cover

280: side bar 300: fixed frame

310: fixing panel 311: fitting hole

312: reinforcing rod 320: support member

321: coupling support 322: second fixing hole

323: seating projection 400: rotation means

410: fixed body 420: first gear

430: case 431: gear mounting projection

440: bearing 450: second gear

460: motor 470: reducer

480: Chain 500: Splitter

510: support 511: installation worker

512: fastening protrusion 520: housing

530: pouring pipe 531: connector

540: support bar 541: first support bar

542: second support bar 543: third support bar

544: fourth support bar 545: fifth support bar

546: sixth support bar 550: fixed bar

551: first fixing bar 552: second fixing bar

553: third fixing bar 554: fourth fixing bar

560 wire 570 rotation part

The present invention relates to a concrete distributor for a high-rise building, and more particularly, when building a high-rise building, the concrete distributor is installed in the center of the building so that the concrete can be poured into slabs formed between the floors of the building, It relates to a concrete distributor for a high-rise building that allows the concrete distributor to be moved along its height.

Typically, when building a building to form slabs between floors to form slabs, the concrete used to form the slab is transferred to the concrete by a pumping car.

However, in the case of pumping cars that transport concrete to form slabs of buildings, the length of the pouring pipe for transporting concrete is limited. Therefore, in the case of high floors, there is a problem of moving concrete using a separate moving means. have.

In order to solve the above problems, when building a high-rise building using a concrete distributor, the slab was formed by sending concrete to the distributor through a pump car while the concrete distributor was installed on the floor for forming the slab.

However, in the case of the concrete distributor, in order to form the slab in another layer besides the layer forming the slab, after disassembling the distributor and moving the slab to the layer to be formed, the assembled distributor is reassembled and connected to the pump car. Concrete was cast on the floor to form slabs.

Since dismantling and reassembling the distributor as described above only because the movement between floors has a difficult work process, there is a problem that the construction period of the building takes a long time.

In order to solve the problems as described above, in more detail, by installing the support means in the center of the building slab, fixing the support frame formed in the support means to the slab and then placed in the slab while moving to the floor to form the slab concrete construction It is an object to provide a concrete distributor for high-rise buildings to shorten the time due to the concrete pouring, and to facilitate the work between the floors.

Concrete distributor for high-rise buildings according to the present invention for achieving the above object is a distributor for placing concrete by transporting concrete to form a slab of the building, the fixing means is installed in the hole formed in the center of the slab in the building; Support means installed in the lower end of the fixing means; A fixing frame installed at an upper portion of the fixing means; Rotating means is installed on the upper portion of the fixed frame; It provides a concrete distributor for high-rise buildings, characterized in that it comprises a distributor installed on top of the rotating means.

Hereinafter, the concrete distributor for high-rise building according to the present invention will be described with reference to the accompanying drawings.

1 is a front view showing the configuration of a concrete distributor for a high-rise building according to the invention, Figure 2 is an enlarged view of the main portion showing the configuration of the fixing means 100 and the rotating means of Figure 1, Figure 3 is a base panel of Figure 1 And an enlarged view of a main part showing the configuration of the supporting member, FIG. 4 is a perspective view showing the configuration of the fixing tube and the support tube of FIG. 1, FIG. 5 is a flat view showing the configuration of the supporting means of FIG. Fig. 7 is a plan view showing the configuration of the portion of the horizontal bar is installed, Fig. 7 is a plan view showing the configuration of the concrete distributor of the present invention, Fig. 8 is a plan view showing the configuration of the rotating means of the dispenser according to the present invention, Fig. 9 Is a perspective view of the installation state showing a state in which the concrete distributor for high-rise building according to the present invention is installed.

1 to 9, the concrete distributor 1 for a high-rise building according to the present invention has a fixing means 100, a supporting means 200, a fixing frame 300, a rotating means 400, a distributor ( 500).

The fixing means 100 is formed with a base panel 120 at the top, the coupling member 121 having a fixing groove 122 is installed at each corner on the upper portion of the base panel 120, the coupling member 121 The first fixing hole 123 is formed.

The fixing tube 110 in the vertical direction to the lower portion of the base panel 120, the fixing pipe 110 is formed at the bottom of the fixing tube 110, a plurality of fixing holes 112 is formed, the fixing tube 110, the outside of the fixing tube 110 The first guide protrusion 113 protrudes from the left and right sides before and after the circumference.

The reinforcement panel 130 is installed in order to withstand the load applied to the upper portion of the base panel 120 at the portion where the base panel 120 and the fixing tube 110 are connected.

When the support pipe 210 is installed in the downward direction of the fixed pipe 110 to be moved to the floor forming the slab of the building, the support pipe 210 is moved to the upper floor of the building inside the support pipe 210. The ring 215 is formed to be hooked to the wire 560 or the hook.

Support protrusions 211 are formed on the upper and lower portions of the support tube 210 to be fixed by bolts or to be connected to other support tubes 210 in contact with the fixing protrusions 111 formed at the bottom of the fixed tube 110. do.

A second guide protrusion 213 having the same shape and size as the first guide protrusion 113 formed on the fixed tube 110 is formed at the front and rear left directions of the support tube 210, and is located at a predetermined position of the support tube 210. A plurality of insertion pipes 214 are formed at equal intervals.

And the support pipe 210 is fixed to the slab layer of the building support means 200 is installed to support the fixing means 100 installed on the top, the support means 200 is a support pipe 210 Support frame 220 is provided on the upper portion of the slab of the building to be supported.

A through hole 221 is formed in the central portion of the support frame 220 so that the support tube 210 can be inserted, and the fixed tube 110 and the support tube 210 are formed in front, rear, left and right directions of the through hole 221. A plurality of rollers 230 are formed in front, rear, left, and right directions of the support frame 220 to guide the first guide protrusion 113 and the second guide protrusion 213, respectively.

When the roller 230 guides either the first guide protrusion 113 or the second guide protrusion 213, the roller fixing protrusion 231 supporting the roller 230 may support the roller frame 230. 220, front, rear, left and right, respectively.

Brackets 240 are formed on both sides of the roller support protrusion 211 at predetermined intervals, and the brackets 240 may be fixed to the fixed tube 110 and the support tube 210 at a predetermined position. The fixing press 290 is installed so that.

When the fixing chain 290 is fixed tube 110, the support tube 210 is located at a predetermined height, a plurality of fixing tube 110, the outer side of the support tube 210 and the support frame 220 to fix the state It is positioned between the bracket 240 of the support tube 210 and the fixing tube 110 to support.

And the fixing chain 290 is formed in the upper portion is formed to be wider, narrower toward the bottom, and formed on the upper end of the wide width formed by the jaw is formed on the upper portion of the bracket 240.

A plurality of auxiliary frames 250 are formed at the corners of the support frame 220 to support the fixed tube 110 or the support tube 210, and the auxiliary frame 250 has a horizontal rod seating groove 261 and a horizontal rod support. The member 260 is installed.

The transverse rod support member 260 may be fixed to the support frame 220 in which the fixed tube 110 or the support tube 210 is installed on the slab to the inside of the insertion tube 214 installed in the fixed tube 110 or the support tube 210. The horizontal bar 280 is installed so that the fixed bar 110 or the horizontal bar 280 installed in the support tube 210 is fixed to both sides of the horizontal bar support member 260 is located.

In order to prevent the lateral bar 280 installed on the lateral bar support member 260 from being separated from the lateral bar seating groove 261 of the lateral bar support member 260, one side is hinged to an upper portion of the lateral bar support member 260 to be rotatable. The cover 270 is installed.

And the support frame 220 is installed on the upper portion of the slab to support the fixed tube 110 or the support tube 210 is installed a plurality of support frame 220 in accordance with the weight applied to the upper portion of the fixed tube (110) It is preferable to install to withstand the weight, and when the weight applied to the upper portion of the fixed tube 110 is light, the number of the support frame 220 to which the fixed tube 110 or the support tube 210 is installed is small. .

The fixing frame 300 is installed on the upper part of the fixing tube 110, and the fixing frame 300 has a fitting hole 311 on the upper part of the base panel 120 and a fixing panel 310 is installed.

A plurality of support members 320 are installed so that the fixed panel 310 can be spaced apart from the base panel 120 by a predetermined interval, and the coupling member installed at the base panel 120 at the lower end of the support member 320. A coupling support 321 is formed to be coupled to the fixing groove 122 of the 121, and one side of the coupling support 321 is formed with a seating projection 323 to be seated on one side of the coupling member 121. .

The fixing hole 322 is formed in the coupling support 321 in the same size and shape as the first fixing hole 123 formed in the coupling member 121, and the coupling support 321 is installed in the coupling member 121. In the state of coupling to each other through bolts.

In order to prevent the supporting members 320 installed at the corners of the fixing panel 310 from being widened without overcoming the load applied to the upper portion of the fixing panel 310, a plurality of reinforcing bars 312 are provided with the lower portion of the fixing panel 310. It is fixed to one side of the supporting member 320, respectively.

The upper part of the fixed frame 300 is provided with a distributor 500 for placing concrete so that the slab can be formed between the floor and the floor of the building.

Distributor 500 is provided with a support 510, one side is bent and has a predetermined length in one direction, the installation hole 511 is formed, the support 510 to prevent one side of the support 510 is struck. A plurality of fixing bars 550 are installed at an upper portion of the fixing bars 550, and a first fixing bar 551 and a second fixing bar 552 are installed at the center thereof, and one side of the second fixing bar 552 is provided. The third fixing bar 553 and the fourth fixing bar 554 are equally spaced, and the fourth fixing bar 554 is formed at the end of the support 510.

The first fixing bar 551, the second fixing bar 552, and the third fixing bar 553 have a predetermined position of the support 510 by using the wire 560 to prevent the support 510 from being struck. Is fastened to prevent the support 510 from hitting.

The upper portion of the support 510 is provided with a pouring pipe 530 to be transported concrete, one side of the pouring pipe 530 is formed to be rotated 360 degrees, the rotating portion so that the pouring pipe 530 can be rotated 360 degrees 570 is installed.

And the fourth fixing bar 554 is fastened to the end and the central portion of the pouring pipe 530 to prevent the pouring pipe 530 to rotate the 360 degrees, by the fourth fixing bar 554 Rotating pour pipe 530 prevents being hit.

A plurality of support bars 540 are installed on the upper part of the support 510, and the support bars 540 may include the first support bar 541, the second support bar 542, the third support bar 543, and the fourth support bar 540. The pouring pipe 530 is fixed by the support bar 544, the fifth support bar 545, and the sixth support bar 546.

In addition, one side of the pouring pipe 530 is bent and the installation pipe 531 is installed in the fitting hole 311 formed in the fixing panel 310 of the fixing frame 300 through the installation hole 511 formed in the support 510. And, it is installed so that the concrete can be supplied to the pouring pipe 530 through the connection pipe 531.

The outer hole of the connecting pipe 531 that is fitted to the mounting hole 511 and the fitting hole 311 of the support 510 and the mounting hole 511 of the support 510 to prevent the connecting pipe 531 from moving. A housing 520 is formed in the fitting hole 311 formed in the fixing panel 310 so that the other side penetrates each other.

And the rotation means 400 for rotating the distributor 500 is installed between the distributor 500 and the fixed frame 300 so that the concrete is evenly distributed when forming the slab of the building.

Rotating means 400 is installed on the outer periphery of the connecting pipe 531, the fixing body 410 is installed on the outer periphery of the housing 520, the outer periphery of the fixing body 410 The second gear 450 is installed, and the bearing 440 is provided in the downward direction of the second gear 450 to serve to smoothly rotate when the pouring pipe 530 rotates.

One side of the second gear 450 and one side of the bearing 440 is provided with a case 430 connected to the support 510 of the distributor 500, the second gear ( 450 is installed, and the gear mounting protrusion 431 is installed at the position where the second gear 450 is installed so that the second gear 450 and the case 430 can be coupled to each other.

A fastening protrusion 512 is installed at one side of the gear installation protrusion 431 protruding from the outer circumference of the case 430 so as to be connected to the support 510 of the distributor 500 so as to rotate. The one side of the fastening protrusion 512 is bent to the gear mounting protrusion 431, the second gear 450, the bent portion is firmly coupled to each other in close contact with one side of the second gear 450. Fix with a regular bolt so that

Referring to the effect of the concrete distributor for high-rise building according to the present invention configured as described above are as follows.

In order to expand the building, the foundation work of the building is carried out, and the slabs for dividing the floors are formed after the skeleton of the building is formed.

When slabs are formed, concrete is poured to form slabs. When the number of floors is low, slabs are formed between layers by using a pump car or the like.

However, when the height of the building is high, the pump car cannot be used, so that a hole having a predetermined size is formed in the center of the building which is built at the predetermined height.

The fixing means 100 is installed in the hole formed in the building under construction, and the supporting means 200 is installed at the lower end of the fixing means 100.

Looking at the installation of the support means 200 in the building, the support frame 220 of the support means 200 is positioned around the hole formed in the center of the building, wherein the through-hole formed in the center of the support frame 220 ( The support frame 220 is fixed to the slab using a bolt through the frame fixing protrusion 222 installed at equal intervals along the circumference of the support frame 220 in a state that the 221 is in the same position as the hole formed in the building slab. Be sure to

In the state in which the fixed frame 300 is fixed, the support tube 210 is positioned inside the through hole 221 formed in the support frame 220 by using a crane. In this case, the support tube 210 is for convenience of the installer. Accordingly, the support tube 210 is positioned at the center of the support frame 220 by using any one of moving upwards from the bottom of the support frame 220 or moving upwardly from the top.

However, when the support tube 210 is to be connected to the other support tube 210, it is not possible to move from the top to the bottom of the support frame 220 it is preferable to be moved from the bottom of the support frame 220 to the top. .

When the support tube 210 is introduced into the through hole 221 of the support frame 220, guide protrusions formed on the left and right sides of the support tube 210 on the front and rear sides of the support frame 220 abut on the rollers 230 of the support frame 220. In order to move the support tube 210 to the inside of the support frame 220 in the state.

Since the guide protrusion is moved in the state in which the roller 230 of the support frame 220 is in contact, there is an advantage in that the support pipe 210 is prevented from colliding with the support frame 220 at the same time.

When the support tube 210 moved in contact with the roller 230 is positioned at an appropriate height, the operator inserts the horizontal bar 280 through the insertion tube 214 installed in the support tube 210, and the horizontal bar 280. Both sides of the lateral bar support member 260 to be positioned in the horizontal rod seating groove 261.

In the state in which the lateral bar 280 is seated on the lateral bar support member 260, the operator inserts the fixing wedge 290 into the bracket 240, and at this time, is fixed between one side of the support tube 210 and the bracket 240. Wedge 290 is inserted so as to be positioned, and installed in the same number as the number of brackets 240 installed in the support frame 220.

The support tube 210 maintains the state fixed to the support frame 220, the support protrusion 211 formed on the upper portion of the support tube 210 and the fixing protrusion 111 formed on the lower end of the fixed tube 110 abut each other. At this time, in the state that the positions of the fixing hole 112 formed in the fixing protrusion 111 and the supporting hole 212 formed in the supporting protrusion 211 are the same, the worker uses the fixing tube 110 and the supporting tube using bolts. Let 210 be connected.

Another support tube 210 may be further connected to a lower end of the support tube 210, which may be connected to the support tube by vibration generated when concrete is poured through the distributor 500 installed at the upper portion of the fixing means 100. The shaking is generated 210 is to prevent the fixed tube 110, the fixing means 100, the distributor 500 is not stabilized by the shaking generated at this time, the other support tube at the bottom of the support tube 210 In the case of installing 210, the support tube 210 is applied to the process of installing the support tube 210 in the state in which the support frame 220 is installed and the process in which the fixed tube 110 is coupled to the support tube 210 as it is. And the other support tube 210 are connected to each other.

In the state in which the support pipe 210 and the fixed pipe 110 are installed in the center of the building, the fixed frame 300 is installed on the base panel 120 of the support pipe 210, and at this time, the supporting member 320 of the fixed frame 300. ) When the coupling support 321 formed at the bottom is inserted into the fixing groove 122 of the coupling member 121 formed at each corner of the upper portion of the base panel 120, the mounting protrusion 323 formed at one side of the coupling support 321. One side upper portion of the coupling member 121 is seated so that the fixed frame 300 is positioned above the base panel 120.

In the state in which the fixing frame 300 is located in the base panel 120, the first fixing hole 123 and the fixing hole 322 formed in the coupling member 121 and the coupling support 321 are fixed using bolts. At this time, the fixing member 121 formed at each corner is similarly fixed with bolts.

The rotating means 400 is installed so that the distributor 500 can be installed in the state where the fixing frame 300 is installed on the upper part of the base panel 120. The rotating means 400 to be installed is the distributor 100 on the ground. It may be combined in a state installed at the bottom of or may be installed in a state in which the fixed frame 300 is installed.

In the state where the fixing body 410 of the rotating means 400 is installed on the upper part of the fixed frame 300, the bearing 440 is installed at the lower end of the outer circumference thereof, and the first gear 420 is disposed on the upper part of the bearing 440. It is installed, can be rotated in engagement with the first gear 420 and the case 430 is installed, the gear is formed inside the case 430 to be rotated in engagement with the first gear 420. .

The second gear 450 is installed on the gear mounting protrusion 431 protruding from one side of the case 430, and protrudes downward from the support 510 of the distributor 500 at the upper portion of the second gear 450. Fix with a bolt while the fastening protrusion is in position.

A chain 480 is installed at the second gear 450, and a reducer 470 for transmitting rotational force through the chain 480 is connected to the chain 480 so that the second gear 450 can rotate. .

The rotational force output through the reducer 470 is applied by the motor 460, and since the rotation of the motor 460 rotates rapidly, the rotational force is reduced through the reducer 470 so as to control the distributor 500. Rotate

In the state in which the rotation means 400 is installed, the distributor 500 lifts the distributor 500 by using a crane or a crane in the state where the pouring pipe 530 is installed on the support 510, and then fits the fixing panel 310. It is installed in the ball 311.

In the case of the distributor 500, the assembled state is supplied to the construction site by the manufacturer so that the concrete can be poured by simple assembly at the site.

When briefly explaining the assembly process of the distributor 500, one side is provided with a support 510 bent, the support pour so that the pour pipe 530 is installed in a state spaced apart from the support 510 ( 510, the first support bar 541, the second support bar 542, the third support bar 543, the fourth support bar 544, the fifth support bar 545 at predetermined intervals. In the state in which the sixth support bar 546 is installed, a pouring pipe 530 for transferring concrete is installed.

At this time, in order to prevent the pour pipe 530 from shaking, the first support bar 541, the second support bar 542, the third support bar 543, the fourth support bar 544, and the fifth support are clamped. It is installed on the bar 545, the sixth support bar 546 to fix the pour pipe (530).

Before installing the pouring tube 530 or before installing the pouring tube 530, a plurality of fixing bars 550 are respectively installed between the center portion and one end portion and the center portion and one end portion of the support 510. The first fixing bar 551 and the second fixing bar 552 are installed, and the fourth fixing bar 554 is installed at one end, and the third fixing bar 553 is installed between the center and one end. .

In order to prevent both ends of the support 510 from being struck in a state in which the first to fourth fixing bars 551, 552, 553, and 554 are installed, one side end and the central portion of the support 510 are used by using the wire 560. The support 510 is prevented from hitting by being coupled between one side end.

And the housing 520 is installed in the installation hole 511 formed in the support 510, and the connection pipe 531 is installed in the center where the housing 520 is installed.

The connecting pipe 531 is connected to one side of the pouring pipe 530, and the connecting pipe 531 installs the rotating part 570 so that only the pouring pipe 530 can be rotated while maintaining a fixed state, the rotating part Since the configuration of the 570 is typically installed by using the installation in the pouring pipe 530, the description of the configuration is omitted in the present specification.

And the other side of the pour pipe 530, the connection pipe 531 is installed, the pour pipe 530 is spoken to distribute the concrete supplied by the pump car while the pour pipe 530 is rotated, the concrete is A rotator 570 installed between the connecting pipe 531 and the pouring pipe 530 may be installed on one side of the pouring pipe 530 so that the pouring pipe 530 is rotated.

As described above, a concrete distributor 1 for a high-rise building is installed in a center of a building being expanded or expanded, and a pump pipe or concrete is transferred by connecting a transfer pipe capable of transferring concrete to the connection pipe 531 of the distributor 500 installed. The concrete is fed through the transfer pipe through a pumping device used at the time.

The concrete supplied through the transfer pipe is poured to form a slab through the pouring pipe 530 through the connection pipe 531 installed on the fixed frame 300, wherein the concrete supplied through the pouring pipe 530 When the worker rotates while holding one side of the pouring pipe 530, the pouring part 530 is rotated by the rotating part 570 installed in the pouring pipe 530, so that the concrete can be poured evenly. have.

When explaining the effect of the present invention, concrete distributors for high-rise building, according to the floor of the building expansion is also moved according to the concrete distributor, there is no hassle to release the entire distributor as in the prior art, and construction period due to the dismantling of the distributor Because it can prevent the delay of the construction period can be shortened, and the construction cost can be reduced by shortening the construction period.

In addition, there is no effect on the slab when the building is expanded, and the work range is wide, which increases the efficiency of the work.

Claims (9)

In the distributor for placing concrete by transferring concrete to form a slab of the building, Fixing means 100 is installed in the hole formed in the center of the slab in the building; Support means 200 is installed on the lower end of the fixing means 100; A fixing frame 300 installed on an upper portion of the fixing means 100; Rotating means 400 is installed on the upper portion of the fixed frame 300; Distributor 500 is installed on the upper portion of the rotating means 400; concrete distributor for high-rise building, characterized in that comprises a. The method of claim 1, Fixing means 100 is a fixing tube 110 is located in the hole formed in the center of the building slab; A base panel 120 installed on an upper portion of the fixing tube 110 so that the fixing frame 300 can be stably installed; And a coupling member 121 installed with a fixing groove 122 and a first fixing hole 123 at each upper corner of the base panel 120 so that the fixing frame 300 can be fixed. Concrete splitter for high-rise buildings. The method of claim 1, The support means 200 includes a support tube 210 for supporting the fixed tube 110 of the fixing means 100; Concrete distributor for high-rise building, characterized in that it comprises a support frame 220 is installed in the hole formed in the building so that the support pipe 210 is fixed. The method of claim 1, The fixing frame 300 has a fitting hole 311 in the center and the fixing panel 310 is installed on the upper portion of the base panel 120 of the fixing means 100; Support members 320 are installed at each corner of the lower end of the fixing panel 310 to be coupled to the fixing means 100; High floor, characterized in that the lower end of the support member 320 includes a coupling support 321 is installed having a second fixing hole 322 to be coupled to the fixing groove 122 of the coupling member 121 Concrete splitter for buildings. The method of claim 1, Rotating means 400 is a fixed body 410 is installed on the top of the fitting hole 311 formed in the fixed frame 300; A second gear 450 integrally formed on one side of the fixed body 410; A gear mounting protrusion 431 formed integrally with the case 430 installed at the outer circumference of the fixed body 410; A bearing 440 installed between the case 430 and the fixed body 410 so that the case 430 can be rotated in the fixed body 410; A first gear 420 installed on an upper portion of the gear mounting protrusion 431 formed on the case 430; A motor 460 installed at one side of the fixing panel 310 so that the case 430 can be rotated; A reducer 470 coupled to change the rotational force of the motor 460 to a predetermined rotational force; Chain 480 is installed on the motor 460 and the first gear 420; concrete distributor for high-rise building, characterized in that comprises a. The method of claim 1, The distributor 500 includes a support 510 having an installation hole 511 installed on an upper portion of the fixed body 410; A plurality of support bars 540 installed at predetermined intervals on the support 510; A pour pipe 530 installed at one side of the support 510 in a bent state; A connection pipe 531 installed at the bent portion of the pouring pipe 530 and installed at the installation hole 511 of the support 510; A plurality of fixing bars 550 installed on an upper portion of the support 510 to prevent the support 510 from being inclined toward one side; In order to prevent the inclination of the support 510, one side of the wire 560 connected to the fixing bar 550, the other side to the support 510; Concrete distributor for high-rise building, characterized in that it comprises a rotating part 570 is installed at a predetermined position of the distributor 500 so that the pour pipe 530 is rotated. The method of claim 3, The support frame 220 includes a support frame 220 having frame fixing protrusions 222 at equal intervals along the periphery so as to be fixed to the upper portion of the slab; A plurality of rollers 230 supported by the roller fixing protrusion 231 to guide when the fixed tube 110 or the support tube 210 is moved; Bracket 240 protruding inwardly on both sides of the roller 230; A fixing press 290 installed on the bracket 240 to support the fixing tube 110 or the supporting tube 210; Horizontal bar 280 is installed in the insertion tube 214 formed in the fixed tube 110 or the support tube 210; Horizontal bar support members 260 are installed on both side edges of the support frame 220 to support the horizontal bar (280); High-rise building concrete distributor, characterized in that the side bar support member 260 is configured to include an auxiliary frame 250 fixed to the support frame 220 to support the side bar (280). The method of claim 4, wherein One side of the coupling support 321 concrete distributor for high-rise building, characterized in that the mounting protrusions having the same shape (323) is further formed so that the upper portion of the coupling member 121 is seated. The method according to any one of claims 2, 3 and 7, Any one of the first guide protrusion 113 or the second guide protrusion 213 is installed on the front, rear, left, and right sides of the fixed tube 110 and the support tube 210 to be moved while being guided by the roller 230. A concrete distributor for tall buildings.

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