KR101044746B1 - Screed and method for constructing concrete build using thereof - Google Patents

Abstract

PURPOSE: A vibrating screed for constructing a road and a gardening structure including a boundary stone pedestal and a side ditch, and a construction method of a structure using the same are provided to form a side ditch and a boundary stone pedestal integrated structure, a boundary stone pedestal, a side ditch connected to one side of a boundary stone, etc. with one process, and to form a structure in the same shape in all sections. CONSTITUTION: A vibrating screed(100) for constructing a road and a gardening structure including a boundary stone pedestal and a side ditch contains: a molding plate(10) forming concrete, which is placed between a pair of forms(1) or a boundary stone and a form, in the shape of a side ditch and a boundary stone pedestal; a handle(20) connected to the molding plate to let a worker move the molding plate; and an aligner(30) supporting the molding plate to the form and aligning to move the molding plate regularly along the form.

Description

Vibration screed for the construction of roads and landscaping structures including boundary seats and sideways and construction method using the same {SCREED AND METHOD FOR CONSTRUCTING CONCRETE BUILD USING THEREOF}

The present invention relates to a vibration screed for the construction of roads and landscape structures including boundary seats and sidewalls, and to a structure construction method using the same. Vibration screed for construction of roads and landscape structures, including sidewall supports and sidewalls, which can be molded in a single process, and the structure can be formed into the same shape in all sections when forming the structure. It relates to a structure construction method.

In general, a boundary stone is installed and partitioned on the side of the road to partition a roadway in which a vehicle is driven and a sidewalk for pedestrians to pass through, and a side hole is installed at the side of the roadway that is in contact with the boundary stone so that drainage is provided to smoothly drain.

As described above, the conventional boundary stone and side openings installed to partition roads and sidewalks on the side of the road are first manufactured separately by a conventional manufacturing method so as to have a constant size and then transported to an area to be constructed or constructed by the side gate and The construction is carried out together, the side opening is made in a conventional manner by using a formwork or the like to have a flatness while having a certain width on the ground. On the other hand, the side opening is constructed on one side of the boundary stone or is constructed in a structure in which the boundary stone is seated from the top.

In this way, the side opening having a conventional boundary stone support installed on the side of the road, the side of the boundary stone support, the side hole connected to one side of the boundary stone is constructed through a separate manufacturing process and each construction work, that is, to construct the operation and side holes for the construction of the boundary stone Because the work was done separately, the efficiency of the work was significantly lowered, and the economic loss was also a significant problem.

On the other hand, when constructing the above structure is usually constructed so that the flat surface is maintained, after the concrete mixed in the concrete mixer car (mixed concrete) or cast concrete discharged through the concrete pump car to the desired position after several workers The poured concrete was constructed using a harrow made of wooden boards or metal plates.

As described above, when a large number of workers use the harrow, a long construction period or time is required depending on a long working time, and a large number of workers are required, thus reducing construction cost, and harrowing the concrete after the concrete flat work In case of management, concrete residues that are corroded or hardened on the surface are inconvenient to be removed when reused, and the surface is roughened due to the removal of residues. Constructed, there was a problem that frequently occurs when the construction such as gravel exposed on the surface.

Therefore, in recent years, screeds that use the power of the prime mover to generate vibrations of a set amount to generate vibrations on a vibration plate made of a set shape and to work on the poured concrete are used a lot. .

However, since the conventional screed is only flattening the concrete and cannot form structures of various structures, the construction method of the conventional structure is formed by first forming concrete into various structures and then compacting through the screed. There is a problem that the air is long and expensive.

In addition, because the screed is operated only by the operator, not in connection with the formwork, there is a problem in that all sections of the structure cannot be equalized even if the operator pays attention.

The present invention is to solve the problems as described above, and can be molded (flattening, compacting, molding) in one step of the side opening and the boundary stone support integrated structure, the boundary stone support, the side opening linked to one side of the boundary stone, etc. It is an object of the present invention to provide a screed for constructing roads and landscape structures including boundary seats and side openings capable of forming the structure in the same shape in all sections during the molding of the structure.

Vibration screed for the construction of roads and landscaping structures comprising the boundary stone support and side openings according to the present invention for achieving the object as described above, screed for the construction of roads and landscape structures comprising the boundary stone support and side openings, A forming plate for molding the concrete cast between a pair of formwork or boundary stone and formwork in the form of side openings and boundary stone supports or boundary stone supports (4) or side openings; A handle connected to the molding plate; It characterized in that it comprises an aligner for supporting the forming plate on the formwork to align the forming plate to move constantly along the formwork.

The aligner is preferably a roller type moving along the outer surface of the formwork, a cap type fitted to the top of the formwork.

According to the vibration screed for the construction of roads and landscaping structures including boundary seats and sidewalls according to the present invention, and the structure construction method using the same, the one side of the sidewalls and boundarystone feet integrated structure, boundarystone feet, and boundary stones by replacement of the molding plate The side holes to be connected can be molded in one process. At this time, not only the forming of the structure but also the flattening compact can be performed at the same time, so that the air can be shortened through a single process, and the construction cost can be reduced. By consistently moving along the formwork in conjunction with the and can form the same shape in all sections can improve the reliability of the product.

In addition, since various angles can be formed through one screed by freely changing the angle of the side portion for forming the side mouth, there is a great advantage in cost and handling (storage, etc.) through the common use of the equipment.

1 is a perspective view of a vibrating screed for the construction of roads and landscape structures including the boundary stone support and side opening according to the present invention.
Figure 2a is a front view of a vibrating screed for the construction of roads and landscape structures including the boundary stone support and side opening according to the present invention.
Figure 2b is another illustration of the aligner applied to the vibrating screed for the construction of roads and landscape structures comprising the boundary stone support and side opening according to the present invention.
3 and 4 is another exemplary view of the forming plate applied to the vibration screed for the construction of roads and landscaping structures including the boundary stone support and the side opening according to the present invention, respectively,
3 is a molded plate for the boundary stone support,
4 is a molded plate for side mouth.
Figure 5 is another illustration of the aligner applied to the vibrating screed for the construction of roads and landscape structures including the boundary stone support and side opening according to the present invention.
6 is another example of the vibration screed for the construction of roads and landscape structures including the boundary stone support and the side opening according to the present invention, is an exemplary view that the angle of the forming plate is adjusted.

As shown in Fig. 1 and Fig. 2a, the vibrating screed for the construction of roads and landscaping structures comprising the boundary stone support and the side opening according to the present invention is a formwork 1 (a pair of formwork 1) (see Fig. 2) or Molding plate for molding concrete placed inside the boundary stone (2) and one formwork (1) (see Fig. 4) into a certain shape (side opening and boundary stone support (3), boundary stone support (4), side opening (5)) 10; A handle 20 connected to the forming plate 10 so that an operator moves the forming plate 10; It is configured to include an aligner 30 which allows the forming plate 10 to be supported by the formwork 1 (or the boundary stone 2 already installed).

Molding plate 10 is for molding the concrete in the form of the side opening and the boundary stone support (3), the boundary stone support (4), the side opening (5), as shown in Figure 2a the side opening portion 11 and the boundary stone support portion (12) It is divided into a form having a form, having only the boundary stone receiving portion 13, a form having only the side opening 14 to be constructed next to the boundary stone (2). In more detail, the shaping plate 10 having the side opening 11 and the boundary stone support 12 is formed to extend on one side of the flat side opening 11 and the side opening 11, and the boundary seat is seated. Consists of the boundary stone support portion 12 is formed in a groove shape so as to be, and as shown in Figure 3, the forming plate 10 having only the boundary stone support portion 13 is a shape having a groove in which the boundary stone is seated, as shown in Figure 4, The forming plate 10 having the side openings 14 has a shape in which a supporting portion 14a is supported on one side of the side opening 14 to support the corners of the upper and side surfaces of the boundary stone 2. The support part 14a may be point contacted (a large number of protrusions) without surface contact, or may be equipped with a roller so that a scratch does not occur on the surface of the boundary stone 2 when moving along the boundary stone 2.

The handle 20 is connected to the forming plate 10 through a hinge means 21 such as a hinge or a pivot so that the angle can be adjusted, and moves the forming plate 10 by a user's manipulation. In addition, the vibrator 22 may be mounted to vibrate the forming plate 10. The vibrator 22 may be mounted to the forming plate 10 instead of the handle 20.

The aligner 30 allows the molding plate 10 to maintain a constant position with respect to the formwork 1 (or the formwork 1 and the boundary stone 2), and may be, for example, a roller.

As shown in FIG. 2A, the aligner 30 is installed on at least one side of the forming plate 10 (shown on both sides in the drawing) so that the outer surface of the formwork 1 (preferably not causing interference with concrete) is provided. Rolled along the outer surface of the support and formwork (1). At this time, when the aligner 30 is installed on both sides, the distance between the pair of formwork 1 may be different, and in view of this, the aligner 30 may be installed to be adjustable in position with respect to the formwork 1. have. For example, the aligner 30 is connected via the positioning tool 31. Positioning tool 31 may be in the form of a bolt, it is screwed to the boss (10a) formed from the forming plate 10 to adjust the position of the aligner (30). Here, the positioning device 31 may be a structure in which the end is screwed to the boss (10a) and the end is rotatably connected to the aligner (30).

According to the screed 100 according to the present invention, after pouring concrete between a pair of formwork 1, the forming plate 10 of the screed 100 is placed on the concrete. At this time, the alignment plate 30 is brought into close contact with the formwork 1 by operating the positioning mechanism 31 so that the forming plate 10 maintains a constant position with respect to the formwork 1.

When the plate 20 is pushed or pulled while the handle 20 is held and the vibrator 22 is operated, a shape suitable for the structure of the plate 10 is molded in concrete. The forming plate 10 does not deviate from the formwork 1 because the aligner 30 is supported on the outer surface of the formwork 1 when the forming plate 10 moves along the formwork 1, and therefore, the same in all sections. You can create a structure of shape.

FIG. 2B is another example of the aligner 30, and may be elastically supported by the forming plate 10 through an elastic member such as a coil spring 32. As shown in FIG. 2B, the aligner 30 is movably installed on the forming plate 10 through the guide rod 33, and the coil spring 32 is installed between the aligner 30 and the forming plate 10. And elastically supports the aligner 30 based on the forming plate 10. That is, the sorter 30 moves along the formwork 1 without any additional position adjustment work.

5 shows another example of the aligner, the aligner having a cap structure fitted to the top of the formwork 1. Taking a pair of formwork as an example, the cap type first and second sorters 40 and 50 are installed at the bottom of the forming plate 10 and are respectively fitted to the top of the formwork 1. However, the first and second sorters 40 and 50 are preferably configured to have a low frictional resistance when sliding along the formwork 1.

In addition, for example, the first sorter 40 is fixed to the forming plate 10 so that the first and second sorters 40 and 50 are not damaged when the pair of formwork 1 varies. The aligner 50 is installed to be movable. A guide long hole 10b is formed in the forming plate 10, and the second sorter 50 is movably connected to the guide long hole 10b through the guide rod 51. That is, the second sorter 50 moves along the guide slot 10b through the guide rod 51 when the distance between the dies 1 varies. The guide rod 51 is fixed to the second sorter 50, and the guide long hole 10b is formed to have a length longer than the thickness of the guide bar 51, and the guide rod 51 penetrates the guide long hole 10b. The nut 52 is fastened. Of course, the nut 52 is made of a size that the guide rod 51 does not fall out of the guide hole (10b).

FIG. 6 is a side mouth portion when the forming plate 10 of the screed 100 according to the present invention has a side mouth portion 11 and a boundary stone support portion 12 (or a structure having only the side mouth portion 14). It is configured so that the angle of (11) can be changed by itself.

The side opening 11 is connected to the boundary stone support 12 through a hinge 15 so that the angle can be changed, an angle adjusting means is applied to adjust the angle of the side opening (11).

The angle adjusting means may be an angle adjusting rod 60 connected between the side opening 11 and the handle 20. The angle adjusting rod 60 is elastically connected so that two support tubes 61 and 62 (or two support plates) having different diameters can be fixed in multiple stages, and end portions 11 and handles 20 are respectively end portions thereof. It is connected by hinge pins and the like so that it can rotate.

6 (A) is a state in which the side opening 11 is horizontal with respect to the ground or the boundary stone support 12, (B) is an angle so that the side opening 11 is inclined downward toward the boundary stone support 12. The state has changed.

Although the above-described sorter is not illustrated in FIG. 6, the sorters 30, 40, and 50 are equally applied.

That is, since the structure of the various gradients can be made by changing the angle of the side opening 11, it does not use the screed of various gradients, thereby reducing the cost.

1 formwork 2 boundary stone
3: side mouth and boundary stone support, 4: boundary stone support
5: side mouth,
10: forming plate, 11: side opening
12: boundary stone support,
20: handle,
30: aligner, 31: position adjustment
32: coil spring,
40, 50: first and second cap type aligner

Claims (8)

delete delete delete Forming plate (10) for shaping the concrete cast between a pair of formwork (1) or boundary stone (2) and formwork (1) in the form of side openings and boundary stone supports (3) or boundary stone supports (4) or side openings (5) )and; A handle 20 connected to the molding plate; And a aligner supporting the forming plate on the formwork to align the forming plate to move constantly along the formwork.
The aligner is a cap shape that is fitted to the upper portion of the formwork, through the guide rods (10b) formed in the forming plate through the guide rods 51 fixed to the nut 52 while moving through the left and right to move the formwork. Vibrating screed for the construction of roads and landscaping structures, including boundary seats and sideways, characterized by moving along. delete The method according to claim 4, wherein the shaping plate is composed of a boundary stone support portion 12 and the side mouth portion 11 is connected to the boundary stone support portion so that the angle is changeable, the angle of the side mouth portion with respect to the boundary stone base portion Vibrating screed for the construction of roads and landscaping structures comprising a boundary stone support and a side opening, characterized in that it comprises an angle adjusting means for supporting. A first step of placing concrete between a pair of formwork or boundary stone and the formwork;
The concrete poured by the first step using the vibration screed according to claim 6 having the side opening 11 and the boundary stone support 12, the form having only the boundary stone support 13, the boundary stone (2) It comprises a second step of forming a shape having only the side portion 14 to be constructed next to,
In the second step, after supporting the molded plate on one surface of the formwork through the alignment of the vibrating screed, the forming plate is moved so that the forming plate moves along the aligner, the side portion of the screed After adjusting the angle, the building construction method using the vibration screed for the construction of roads and landscaping structure comprising the boundary stone support and the side sphere, characterized in that for forming the side portions of the different gradient by moving the forming plate. delete

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