KR100921254B1 - Silo constructing method - Google Patents

Abstract

The present invention relates to a concrete grain silo construction method of two or more groups, the outer form is formed to surround the outer periphery of a plurality of rows of silos to build a continuous silo formed in a longitudinal cross-sectional direction silos formed in a circular cross-section, A plurality of inner foams located inside each of the plurality of rows of silos to build the inner surfaces of the silos, and installed in a star-shaped space formed between the plurality of rows of silos, Slip consisting of a plurality of star bean foams to form an outer surface, and a plurality of end bean foams respectively installed in a triangular space formed between the outer foam and the plurality of rows of silos to build an outer surface of each silo in the triangular space. Foams; In order to separate and construct a plurality of silos, the mortars are installed to support each of the above-mentioned foams to install concrete mortars in a state in which the silos are spaced apart at predetermined intervals inside and outside the silos. After the hardening, in the construction of a group of grain silos, including a yoke device having a hydraulic jack for raising by a certain height,

If you want to build a group of grain silos adjacent to the group of grain silos constructed with the slip foam, first, after completing the process of pouring concrete mortar to the design height of each silo when constructing the group of grain silos, A slip foam raising step of operating a hydraulic jack of the oak device to raise the slim foam higher and raising the slip foam such that its lower end is held at the upper end of each silo within a range of 5 to 20 cm;

Following the slip foam raising process, between the inner and outer vertical members of each of the plurality of yoke devices provided at regular intervals with respect to the entire slip foam, and the upper work bench provided on the upper and inner vertical members, and the inner and outer vertical members. Hydraulic jacks installed on the bottom of the intermediate horizontal member, which are provided on each of the yoke devices installed to disassemble each of the upper working platform, the intermediate horizontal member, and the lower horizontal member that connect the inner and outer vertical members, and raise the slip foam by a predetermined height. And the outer form, inner form, star bean form, and end bean form that make up the slip form are separated from each other by dismantling the lifting guide rod spirally coupled to the upper workbench or the intermediate horizontal member through the center of the hydraulic jack. A slip foam separation process for bringing it into a state;

Separation by reassembly from the foundation floor constructed at the place where two groups of grain silos are to be constructed using a crane according to a predetermined order of external foam, internal foam, star bean foam and end bean foam separated by the slip foam separation process. Conveying and reassembly processes;

The invention is characterized in that the slip foam used when constructing a group 1 grain silo is reused in the construction of a group 2 grain silo.

Concrete grain silo, slip foam, outer foam, inner foam, star bean foam, end bean foam, split foam, yoke device, vertical material, horizontal material, hydraulic jack, lift guide rod

Description

Two-Group Concrete Grain Silo Construction Method

The present invention relates to a concrete grain silo construction method of two or more groups, and more particularly, a plurality of silos constructed in a cylindrical shape are constructed of concrete so that a plurality of silos connected to each other in longitudinal and horizontal rows are adjacent to the adjacent place. In order to build another group, that is, two groups of grain silos, two groups that allow the construction of two groups of grain silos to be newly constructed using the slip foam used to build one group of silos. The above relates to a construction method for constructing concrete grain silos.

In general, a group of grain silos for large-scale storage of grains such as rice, barley, and soybeans have a structure in which a plurality of silos having a circular cross section are arranged in a vertically and horizontally connected state. Grain silos are built using slip foam.

In the prior art, when the first group of grain silos is constructed, and when the second group of grain silos is to be built again at an adjacent position on the site, the slip foam used to construct the first group of grain silos is reused. The second group of grain silos is established.

However, in order to build a grain silo of the second group by using the slip foam used to build the grain silos of the first group, the upper part of each silo was constructed by moving upwards to the top of the grain silos of the first group. After disassembling and disassembling each assembly part of the entire slipform, the disassembly parts of the disassembled slipform are transported to the site where the second group of grain silos are to be built by using a vehicle, etc. Slipform parts dismantled according to the design of the silo must be reassembled. In the process of disassembling the entire assembly of slip foam components used to construct the first group of grain silos, many parts are difficult to reuse. Because the cracks are broken and broken, the grain silos of the first group are conventionally constructed after the grain silos of the first group are established. When it was planned to build a new slip foam without reusing the slip foam used in the construction of the first group of grain silos.

For this reason, in order to build a concrete grain silo of two groups or more conventionally, since each slip foam of the first and second group grain silos must be manufactured separately, the manufacturing cost of the slip foam is doubled, and the grain of the first group is also used. After constructing the silo, slip foam must be produced again when constructing the second group of grain silos. Therefore, the construction air of the grain silo becomes longer and labor costs are increased. Becomes expensive.

The present invention divides the slip foam of the concrete grain silo for each corner structure to be assembled and installed to disassemble the slip foam for constructing the concrete grain silos in consideration of all the problems appearing in the prior art as described above. Concrete grain silo by forming and separating the formwork, split formwork for corner connection, split formwork for curved construction, split formwork for curved connection, inner form formwork, star form formwork, end bean formwork, etc. It is possible to shorten the installation air of the slip foam to build the concrete, and when constructing the second group grain silo, the slip foam used in the construction of the first group grain silo when the concrete grain silo of two or more groups is to be constructed. Two or more groups of concrete grains by allowing them to be used as is The construction of the silo not only reduced the manufacturing cost and installation cost of slip foam, but also shortened the construction air for the second group of grain silos, and also significantly reduced the construction cost of the concrete grain silos of two groups or more. It was invented for the purpose.

The present invention as a means for achieving the above object,

The outer form is formed to surround the outer circumference of the plurality of rows of silos in order to build up the silos continuously formed in a row in the longitudinal and horizontal direction, and the inner surfaces of the silos are located inside each of the plurality of rows of silos. A plurality of inner foams to be constructed and a plurality of star bean foams installed in a star-shaped space formed between the plurality of rows of silos to build an outer surface of each silo in the star-shaped space; The silos of the silos, which are installed in the triangular spaces formed between the silos and the plurality of rows of silos, respectively, to separate and construct the plurality of end bins and the silos of the plurality of rows that construct the outer surfaces of the silos in the triangular spaces. It is installed to face each other with spaced intervals on the outside so that concrete mortar can be poured In what is to build a silo of grain after the addition, the pouring of concrete mortar and also supporting each form the one cured with the slip form that comprises a yoke device, to give rise to a predetermined height by the first group,

If you want to build a group of grain silos adjacent to the group of grain silos constructed with the slip foam, first, after completing the process of pouring concrete mortar to the design height of each silo when constructing the group of grain silos, A slip foam raising step of operating a hydraulic jack of the oak device to raise the slim foam higher and raising the slip foam such that its lower end is held at the upper end of each silo within a range of 5 to 20 cm;

Following the slip foam raising process, each of the upper working platform, the intermediate horizontal member, and the lower horizontal member connecting the inner and outer vertical members of each of the plurality of yoke devices installed at regular intervals with respect to the entire slip foam is dismantled, and the slip foam is further removed. The external foam, inner foam, star bean foam, and end bean foam that make up the slip foam are separated from each other by dismantling the hydraulic jack and the rising guide rod formed in each of the yoke devices which have been operated by a certain height. Slip foam separation process to be in a state;

Separation by reassembly from the foundation floor constructed at the place where two groups of grain silos are to be constructed using a crane according to a predetermined order of external foam, internal foam, star bean foam and end bean foam separated by the slip foam separation process. Conveying and reassembly processes;

It is characterized in that the slip foam used to build a group 1 grain silo is reused in the construction of a group 2 grain silo.

In addition, the outer foam of the slip foam, a plurality of corner forming partitions formed on the square portion of the grain silo is formed in a plurality of rows to facilitate assembly, separation and reassembly, and the corner forming partitions A plurality of corner connecting split forms detachably connected to one end of each foam form, and a plurality of curved building for constructing the outer contour of the silo in a curved direction toward the longitudinal direction of the corner connecting split form A straight line for connecting the splitting form, a plurality of curved connecting portion and the corner forming the splitting form for connecting the divided form for forming the corner and the divided form for forming the curved surface and the divided form for forming the curved line It is characterized by configured to form a grain silo by dividing into a split form for connection.

In addition, both ends of the corner forming splitting form, corner connecting splitting form, curved forming splitting form, curved connecting splitting form, straight connecting splitting form forming the outer form, respectively, are in contact with each other by bolts and nuts. It is characterized in that the upper and lower assembly plate material is formed to be fastened and separated.

According to the present invention, when building two or more groups of grain silos, the slip foam used when building the first group grain silos can be reused as it is when the second group of grain silos is constructed, thereby reducing slip foam manufacturing costs. It can save other manpower and time in the production of slip foam, and can shorten the air required to rebuild the second group grain silo after the first group grain silo is built up, which can drastically reduce the construction cost of two or more groups of concrete grain silos. It has a big advantage.

Detailed examples of concrete grain silo construction methods of two or more groups according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view showing the construction state of the first and second group grain silos for explaining the present invention, Figure 2 is a plan view of the assembled state of the slip foam for constructing the grain silo of the present invention, Figure 3 4 is a cross-sectional view of a silo construction state of the slip foam according to the present invention, and FIGS. 4A and 4B are a plan view and a front view of a split form for corner construction among the outer foam of the slip foam of the present invention, and FIGS. 5A and 5B are 6A and 6B are a plan view and a front view of a split form for curved construction of the present invention, and FIGS. 7A and 7B are views of the present invention. Top and front views of the split form for connecting the curved surface, Figures 8a and 8b is a plan view and a front view of the split form for straight connection of the present invention, Figure 9 is an assembled and separated state of each of the divided forms forming the outer form of the present invention To represent 10A and 10B are a plan view and a front view of an inner foam of the present invention, and FIGS. 11A and 11B are a plan view and a front view of a star bean foam of a slip foam of the present invention, and FIGS. 12A and 12B are views of the present invention. The top view and the front view of the end-form of the slip foam are shown.

As shown in FIG. 1, the first group grain silos 1a and the second group grain silos 1b have a structure in which a plurality of cylindrical silos 11 are continuously connected in a vertical and horizontal row. .

The first and second group grain silos (1a) and (1b) are constructed by a slip foam (2) assembled as shown in FIG.

The slip foam (2) is an outer foam (3) installed to surround the outer periphery of the first group grain silos (1a) constructed in a plurality of rows, and each of the silos (11) of the cylindrical formed in a plurality of rows Installed in a plurality of inner foam (4) to build the inner surface of each silo, and is formed in a star-shaped space formed in the shape of a rhombic star between each of the silos (11) to build the outer surface of each silo (11) A plurality of end bean foams 6 installed in a triangular space formed in a triangular shape between the plurality of stavin foams 5 and the outer foams 3 and the silos 11 to build an outer surface of each silo 11. It is composed of

A feature of the present invention is that the first group grain silos 1a are constructed when the slip foam 2 used to build the first group grain silos 1a is to be constructed with the second group grain silos 1b. After completion, it is separated and dismantled so that it can be reused in the construction of the second group grain silo (1b).

To this end, the outer form (3) is a corner forming split form (3a), corner connecting split form (3b), curved surface forming split form (3c), curved surface connecting form (3d), straight connection It is manufactured by dividing into the dividing foam 3e.

Each of the divided foams includes an outer panel 31 for constructing the outer surface of each silo 11, upper and lower sections 32 and 33 and upper and lower parts for supporting upper and lower surfaces of the rear and outer surfaces thereof. Support members 34 and 35 are attached to the upper and lower support plates 34 and 35, respectively, and upper and lower assembly plates 36 for connecting and assembling the respective divided foams as designed. (37) is welded, respectively. That is, the upper and lower assembly boards 36 and 37 are formed to face each other at the connection portions of the divided foams to be assembled according to the design as shown in FIG. It is configured to be screwed by.

In addition, at the periphery of each of the divided foams 3a to 3e forming the outer foam 3, a support 38 made of a shape steel such as an angle or a channel and a footrest 39 thereon so that an operator can safely perform the work. ) Is installed.

In addition, a plurality of outer vertical members 72 of the yoke device 7 are fixedly attached to the outer side of each of the divided foams at regular intervals, and the outer vertical members 72 are the outer panel 31 and the upper corners 32. It protrudes higher.

Next, the inner foam 4 has a cylindrical inner panel 41 so as to support the entire inner surface of each silo 11 which is constructed in a plurality of rows horizontally, and upper and lower portions supporting upper and lower portions of the inner surface thereof. The wood 42 and 43 are formed, and the upper and lower support members 44 and 45 are attached to the bottom of each of the upper and lower wood.

In addition, a plurality of inner vertical members 71 of the yoke device 7 are fixed to the upper and lower support members 44 and 45 of the inner foam 4 at regular intervals, and the inner vertical members 71 are fixed. ) Is formed at the same height as the outer vertical member 72 (see FIGS. 10A and 10B).

In addition, the inner foam 4 has a structure in which a support 46 is formed of an H beam or the like and a footrest 47 is installed thereon in order to allow a worker to safely work. (See FIG. 3).

Next, the starbin foam (5) is independently installed in each of a plurality of spaces formed in the shape of a rhombus between the silos (11) constructed in a plurality of rows horizontally and vertically, the starbin foam (5) It is configured to support the outer surface of each silo 11, more specifically, to support the outer surface of a total of four silos (11) forming a space in the shape of a star, for this purpose to build the outer surface of the silo (11) In order to support the outer panel 51 and the upper and lower corners 52 are formed to support them, and although not shown in the drawing, the support member is attached to the bottom of the corners 52 formed on the upper and lower sides, The outer vertical member 72 of the yoke device 7 also protrudes at regular intervals in the star bean form 5 (see FIGS. 11A and 11B).

In addition, the inside of the star bean form (5) is installed on the support and the scaffold on the H beam and the like so that the operator can safely perform the work.

Next, the end beam form 6 will be described.

The end bin form 6 is to be installed to build a silo 11 where the split form 3e for straight connection of the outer form 3 is installed, and the end bin form 6 also has an outer surface of the silo 11. An outer panel 61 for supporting the upper surface and a lumber 62 for supporting the upper and lower portions thereof are formed, and although not shown in the drawing, a support member is provided at the bottom of the lumber 62 formed in the upper and lower portions. The outer vertical member 72 of the yoke device 7 also protrudes at regular intervals from the end bean form 6.

On the other hand, the yoke device (7) is the inner foam (4) and the inner foam that is installed in each of the divided foam (3a to 3e) of the outer foam (3) and each of the silos (11) in a plurality of rows Field and star bean form (5), and end bean form (6) is configured to be raised at the same time by a certain height, for this purpose, the inner and outer vertical members (71, 72) that are installed facing each other on each of the above-mentioned forms The intermediate horizontal member 74 and the lower horizontal member 75 including the worktable 73 are detachably assembled as bolts and nuts, and the lower horizontal member 75 has lower ends of the inner and outer panels 41 and 31. Guide pipes 76 protruding downward to the bottom is attached, the bottom of the intermediate horizontal member 74 is equipped with a hydraulic jack (77), the lifting guide rod which is installed to penetrate the center of the hydraulic jack (77) ( 78) is formed to a certain length and threaded upward with the upper workbench and / or the intermediate horizontal member. It has a structure to be assembled.

And the hydraulic jack (77) of the yoke device (7) so as to raise the yoke device (7) by a certain height when the piston rod is in the forward (appearance) operation in the state of asking the rising guide rod 78 Consists of. Therefore, all of the hydraulic jacks 77 of the entire plurality of yoke devices 7 installed at predetermined intervals on the inner and outer foams 4 and 3, the star bean foam 5, and the end bean foam 6 are set in advance. Hydraulics are supplied and recovered by the program, so internal and external foams (4) (3) and stanvin foams (5) to build grain silos. All of the end bean foam (6) will be raised by a certain height at the same time.

The present invention configured as described above will be described the action of building two or more groups of concrete grain silos.

When the first group of grain silos 1a shown in FIG. 1 is to be constructed, the foundation concrete is constructed on the ground of the construction site of the grain silos, and then the inner foam 4 is formed according to the number of silos to be built on the foundation concrete. And the star bean foam (5), the end bean foam (6) and the external foam (3) structure is similar to the prior art. However, the present invention is different from the prior art in that the outer foam 3 of the slip foam 2 for forming a group of grain silos 1a is formed as a unitary divided foam. In other words,

In the present invention, the outer foam 3 is divided into a corner forming split form (3a), corner connecting split form (3b), curved surface forming split form (3c), curved surface connecting split form (3d), straight connection split form (3e) and each of the divided foams are formed by connecting the upper and lower assembly plate members 36 and 37 formed at each of the connecting ends in the assembling order to each other and screwed together with bolts and nuts. The split foams 3a to 3e form the circumference of the first group of grain silos 1a to be constructed, and the slip foam 2 assembled as described above is formed from the bottom of the foundation concrete as in the prior art. After placing the concrete mortar between the inner and outer panels (41) and the outer foam (3), the inner foam (4) and the star bean foam (5), the inner foam (4) and the end bean foam (6), respectively When the pour mortar is hardened, the hydraulic jacks 77 of each of the yoke devices 7 installed on the slip foam 2 are simultaneously programmed according to the program. The first group of grain silos 1a is constructed by repeating the operation of raising the foams to a certain height by moving the same. In this way, the grains of the first group to build the slip foam 2 are constructed. After finishing the construction of the first group of grain silos 1a by pouring concrete mortar in the state of finally raising to the upper end of the silo 1a, the concrete mortar does not need to be poured. 7) The hydraulic jack 77 is stopped in the state where only the lower end portions of the inner and outer panels 41 and 31 of the slip foam 2 are caught by the hydraulic jack 77 by raising the slip foam 2 only. Then, measures are taken to prevent the inner and outer foams (4) (3), the star bean foam (5), the end bean foam (6), etc., which are moved up and down from being lowered. As it is, it is applied as it is. It will be omitted.

After taking measures to prevent the slip foam 2 from falling down as described above, the slip foam 2 is attached to the inner and outer vertical members 71 and 72 of each of the yoke devices 7 installed at regular intervals on the slip foam 2. When the upper working platform 73, the intermediate horizontal member 74 and the lower horizontal member 75 are separated, the outer foam 3, the inner foam 4, and the star bean foam 5 constituting the slip foam 2 are separated. ), Each of the end bean foams 6 are separated from each other, and in the case of the outer foam 3, each of the end foams 6 is assembled so as to surround the outside of the first group grain silo 1 a in a separately manufactured state. When the bolts that fasten the upper and lower assembly plate members 36 and 37 formed at both ends of the divided foams are unscrewed, each of the above divided foams, namely, the corner form split form 3a and the corner connect split form (3b), the curved form splitting form 3c, the curved form splitting form 3d, and the linear form splitting form 3e are in separate states, respectively. The.

As described above, the slip foam 2, in which the first group grain silo 1a is constructed, is divided and transported onto the foundation concrete of the second group grain silo 1b. In this case, the slip separated from the first group grain silo 1a. Since each of the foams of the foam (2) is holding only about 5 to 20cm of the upper portion of the first group of grain silos (1a), each of the separated foams is smoothly lifted by a crane. Accordingly, the second group grain silos 1b are transported and reassembled as they are, without damage to the slip foam 2 that constructed the first group grain silos 1a, onto the foundation concrete of the second group grain silos 1b. You can build it.

1 is a plan view showing a construction state of the first and second group grain silos for explaining the present invention.

Figure 2 is a plan view of the assembled state of the slip foam for building a grain silo of the present invention.

Figure 3 is a cross-sectional view of the silo construction state of the outer foam and inner foam of the slip foam of the present invention.

Figure 4a and Figure 4b is a plan view and a front view of the corner foam splitting foam of the outer foam of the present invention.

5A and 5B are a plan view and a front view of a split form for connecting corners of the outer foam of the slip foam of the present invention.

6A and 6B are a plan view and a front view of the curved foamed partitioning form of the present invention.

7a and 7b is a plan view and a front view of the split form for the curved connection of the present invention.

8A and 8B are a plan view and a front view of a split form for straight connection of the present invention.

Figure 9 is an exploded perspective view for showing the assembly and separation of each of the divided foam forming the outer foam of the present invention.

10A and 10B are a plan view and a front view of the inner foam of the present invention.

11A and 11B are a plan view and a front view of the stavin foam of the slip foam of the present invention.

12A and 12B are a plan view and a front view of the end bean foam of the slip foam of the present invention.

※ Explanation of code for main part of drawing

1a, 1b: Group 1 and 2 grain silos 2: slip foam

3: external foam 3a: split foam for corner construction

3b: Split form for corner connection 3c: Split form for curved surface construction

3d: Split form for surface connection 3e: Split form for straight connection

31, 51, 61: outer panel 32, 33, 42, 43: top and bottom

34,35,44,45: upper and lower support members 36,37: upper and lower assembly plates

4 inner foam 41 inner panel

5: star bean form 52,62

6: end bean form 7: yoke device

71,72: Internal and external vertical material 73: Upper work bench

74: intermediate horizontal member 75: lower horizontal member

76: guide pipe 77: hydraulic jack

78: ascending guide rod

Claims (3)

In order to construct silos having a circular cross section in a row in a longitudinal direction, the outer form is formed to surround the outer periphery of the plurality of rows, and the inner surfaces of the silos are located inside each of the plurality of rows of silos. And a plurality of star bean foams installed in a star-shaped space formed between the plurality of silos of the plurality of rows to build an outer surface of each silo in the star-shaped space, and the outside. A slip foam comprising a plurality of end bin foams respectively installed in a triangular space formed between a foam and a plurality of rows of silos to build an outer surface of each silo in the triangular space; In order to separate and construct a plurality of silos, the mortars are installed to support each of the above-mentioned foams to install concrete mortars in a state in which the silos are spaced apart at predetermined intervals inside and outside the silos. After the hardening, in the construction of a group of grain silos, including a yoke device having a hydraulic jack for raising by a certain height, When constructing two-group grain silos of the same structure adjacent to the one-group grain silos constructed with the slip foam, first, when the first-group grain silos are constructed, the concrete mortar pouring process is completed up to the design height of each silo. After the operation of the hydraulic jack of the yoke device again to increase the slim foam and the upper end of the slip foam to increase the slip foam so that the upper end of each silo is held in the range of 5 ~ 20cm; Following the slip foam raising process, between the inner and outer vertical members of each of the plurality of yoke devices provided at regular intervals with respect to the entire slip foam, and the upper work bench provided on the upper and inner vertical members, and the inner and outer vertical members. A hydraulic jack installed at the bottom of the intermediate horizontal member and formed in each of the yoke devices provided to disassemble the intermediate horizontal member and the lower horizontal member, each of which connects the inner and outer vertical members and raise the slip foam by a predetermined height. By dismantling the rising guide rod spirally coupled to the upper workbench or intermediate horizontal material through the center of the silo wall, the outer foam, inner foam, stavin foam, and end bean foam of the slip foam are separated from each other. Slip foam separation process; Separation by reassembly from the foundation floor constructed at the place where two groups of grain silos are to be constructed using a crane according to a predetermined order of external foam, internal foam, star bean foam and end bean foam separated by the slip foam separation process. Conveying and reassembly processes; Concrete grain silo construction method of two or more groups, characterized in that the reuse of the slip foam used in the construction of the group 1 grain silo consisting of the two groups of grain silos. The method of claim 1, The outer foam of the slip foam is divided into a plurality of corner forming partitions formed on the square portion of the grain silo constructed in a plurality of rows to facilitate assembly, separation and reassembly, and each of the corner forming partitions A plurality of corner connecting splitting forms detachably connected to one end of the curved form, and a plurality of curved building splitting forms for constructing curved outer periphery of each silo in a longitudinal direction of the corner connecting splitting form And a plurality of curved connection splitting forms for connecting the corner forming splitting form and the curved forming splitting form, and a splitting form for straight connection for connecting the corner forming splitting forms in a straight line. Concrete grain silo construction method of two or more groups, characterized in that it is configured to build grain silos. The method of claim 2, Both ends of the corner forming splitting form, corner connecting splitting form, curved forming splitting form, curved connecting splitting form, straight connecting splitting form forming the outer form are fastened by bolts and nuts in contact with each other. Concrete grain silo construction method of two or more groups, characterized in that the upper and lower assembly plate material is separated.

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