KR102197816B1 - A crossbeam mold with the bracket fixing stirrup - Google Patents

Abstract

The present invention relates to a beam mold with a stirrup fixing bracket, which includes: a mold main body including a lower plate and side plates formed to be extended from opposite sides of the lower plate to the top; a stirrup fixing bracket coupled to the side plates to be extended in an inner direction of the mold main body; and a stirrup inserted into the stirrup fixing bracket, wherein the stirrup is positioned to be spaced apart from the side plates by a predetermined interval as the stirrup fixing bracket is positioned. Therefore, the beam mold with the stirrup fixing bracket can increase work efficiency.

Description

A crossbeam mold with the bracket fixing stirrup

The present invention relates to a beam formwork having a rib fixing bracket, and unlike the prior art in which the ribs are joined by welding on the inside of the formwork body, the ribs are attached to the inside of the formwork body by the ribs fixing bracket for the efficiency of work It relates to a beam formwork in which the ribs are positioned at regular intervals as a side plate while being fixed.

In general, a beam protruding below the ceiling is formed on the ceiling of a building in order to increase the bearing capacity, and a formwork capable of pouring concrete is installed to form the beam.

In general, the ribs are bonded to the inside of the formwork body by welding, maintain the shape of the formwork body during the process of pouring concrete into the interior of the formwork body, and resist shear force and distortion applied to the concrete after the concrete is placed. Reinforce.

Take a look at the prior art Patent Registration No. 10-2034141.

The prior art relates to a beam formwork and a method of constructing a beam formwork for easy fixing of the ribs, and a formwork main body comprising a lower plate and a plurality of side plates vertically connected to the lower plate, and a plurality of ribs formed inside the formwork main body. It includes a fixed portion, and a plurality of ribs that are coupled to the ribs fixing portion and for reinforcing concrete poured into the formwork body portion, and thus the ribs are simply positioned on the ribs fixing portion formed inside the formwork body portion. It is possible to fix the ribs just by making it easy to weld and join the ribs, greatly reducing labor costs and working time, and improving quality, strength and rigidity since the ribs can always be placed in the correct position. There is.

However, in the non-destructive formwork method, welding work must be performed on all parts where ribs are to be joined inside the formwork body, and thus, there is a problem that a lot of manpower and work time are required.

Furthermore, welding work is necessary to join these ribs in the lower plate as well as the side plate of the formwork. However, the welding operation in the lower plate located at a certain depth is more inefficient than the welding operation in the side plate.

Since the ribs are joined to the side plate by welding, etc., it can only be applied to the non-destructive formwork method, and there is a limit to the application of the dismantled formwork method.

Therefore, as a coupling means other than welding to fix the ribs to the inside of the formwork, it can be applied to both the disassembled or non-disassembled formwork, and less manpower, cost, and working time are required, thereby increasing the efficiency of work. There is an urgent need for technical features that can be used.

In order to solve the above-described problems according to the prior art, in coupling the ribs to the inner side of the formwork body, the efficiency of work can be increased more than that by welding, and can be applied to both the dismantled or non-decomposed stone formwork method. We would like to propose the technical features of fixing the ribs.

Specifically, in fixing the ribs to the inside of the formwork body, it is possible to fix the ribs to the formwork body with a certain distance from the side plate, rather than by welding, which takes a lot of manpower, cost and work time. I would like to propose a technical feature.

In order to solve the above-described problems according to the prior art, the beam formwork provided with the ribs fixing bracket according to the present invention includes a lower plate 120 and side plates 140 formed extending upward from both sides of the lower plate 120 Main body 100; A rib fixing bracket 300 coupled to the side plate 140 and extending in the inner direction of the formwork body 100; And a rib muscle 200 inserted into the rib muscle fixing bracket 300,

As the ribs fixing bracket 300 is positioned, the ribs 200 may be positioned at regular intervals from the side plate 140.

Preferably, the ribs fixing bracket 300 includes a contact surface portion 320 that is in close contact with the side plate 140; And a body portion 340 extending in the inner direction of the formwork body 100 from one side of the contact surface portion 320,

The ribs 200 may be inserted into and fixed to the body part 340.

Preferably, the body part 340 includes a costal muscle insertion part 344 into which the costal muscle 200 is inserted; And a costal muscle fixing part 346 formed at regular intervals in the inner direction of the formwork body 100 in the costal muscle insertion part 344 in a state in communication with the costal muscle insertion part 344,

After the costal muscle 200 is inserted into the costal muscle insertion part 344, it is moved to the costal muscle fixing part 346, and the costal muscle 200 is moved to the costal muscle fixing part 346 by rotation of the body part 340. It can be seated and fixed.

Preferably, the ribs fixing portion 346 is formed to extend from a portion forming the ribs insertion portion 344, the first ribs support (346-1) formed in a convex shape in either direction; And a second rib support (346-2) formed at regular intervals in the first rib support (346-1), and formed in a convex shape in a direction opposite to the convex direction of the first rib support (346-1). Including,

After the costal muscle 200 is moved to the costal muscle fixing part 346, the outer surface of any one part of the costal muscle 200 by rotation of the body part 340 is the first costal muscle support (346-1) In close contact with, the outer surface of the other portion of the ribs 200 may be seated and fixed in a state in close contact with the second ribs support 346-2.

Preferably, in a state in which the contact surface engaging hole 322 formed in the contact surface portion 320 is in communication with the side plate engaging hole 142 formed in the side plate 140, the engaging member B is the contact surface engaging hole As the 322 and the side plate coupling hole 142 are passed through, the contact surface portion 320 is coupled to the side plate 140,

The ribs fixing bracket 300 further includes a side pressure prevention reinforcement fixing part 360 connecting one end of the first rib support 346-1 and one end of the second rib support 346-2,

The lateral pressure prevention reinforcement fixing part 360 includes a lateral pressure prevention reinforcement fixing body part 362 formed by connecting one end of the first rib support 346-1 and one end of the second rib support 346-2; Side pressure preventing reinforcing bar insertion portions 364 formed while being bent at a predetermined angle at both ends of the lateral pressure preventing reinforcing bar fixing body portion 362; And a reinforcing bar insertion hole 366 formed in the lateral pressure prevention reinforcing bar insertion portion 364,

The longitudinal direction of the ribs 200 supported by the first rib support (346-1) and the second rib support (346-2) and the lateral pressure prevention reinforcing bar inserted into the reinforcing bar insertion hole 366 ( 250) may have the same lengthwise direction.

Due to the above-described problem solving means, the ribs can be fixed only with the ribs fixing bracket when fixing the ribs to the inside of the formwork body. Unlike the prior art, which is combined by welding to increase the inefficiency of work, It increases the efficiency of the work by fixing the ribs on the inside of the formwork body within time.

Further, as the ribs fixing bracket of a certain length is located between the side plates and the ribs, a certain distance necessary between the side plates and the ribs can be maintained with these ribs fixing brackets.

Furthermore, the beam formwork according to the present invention can be simultaneously applied to a disassembled formwork or a non-decomposed formwork. Specifically, when concrete is poured in a state in which the ribs fixing bracket coupled to the side plate as a coupling member is located inside the formwork body, if the coupling member is not separated from the side plate, it may be a non-decomposable formwork. When the curing of the concrete is completed, in the case of disassembling the beam form for recycling, the beam form can be disassembled simply by separating the coupling member from the side plate and the rib fixing bracket.

1 schematically shows a beam formwork according to the present invention.
Figure 2 is an exploded perspective view showing a state in which the ribs fixing bracket, ribs and side plates are combined.
3 is a view showing a process of fixing the ribs and the lateral pressure prevention reinforcement to the ribs fixing bracket.

Hereinafter, preferred embodiments of the method according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the materials shown in the drawings or the size of components may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

It will be described with reference to FIGS. 1 to 3.

The beam formwork according to the present invention includes a formwork body 100 including a side plate 140 and a lower plate 120, a costal muscle 200 and a costal muscle 200 fixed to the inner side of the formwork body 100, and the formwork body 100 It includes a ribbed fixing bracket 300 fixed to the inside of the.

The formwork body 100 includes a lower plate 120 and a side plate 140 formed extending upward from both sides of the lower plate 120.

The ribs 200 are fixed to the inside of the formwork body 100 to maintain the shape of the formwork body 100 in the process of pouring the concrete, and reinforce the concrete while resisting shear force and distortion applied to the concrete after the concrete is poured. do. The ribs 200 may be of any shape that performs this function, but may preferably be the ribs 200 having an annular outer surface.

The ribs fixing bracket 300 is formed by extending in the inner direction of the formwork body 100 in a state in which one side is coupled to the side plate 120. That is, one side of the ribs fixing bracket 300 is coupled in close contact with the side plate 120, and the ribs 200 are inserted and fixed to the other side.

These ribs fixing brackets 300 may be coupled to the side plate 140 at regular intervals vertically, left and right. The ribs 200 are fixed to a plurality of ribs fixing brackets 300 inside the formwork body 100.

As the ribs fixing bracket 300 is located between the side plate 120 and the ribs 200, a regular gap is formed between the side plate 120 and the ribs 200 due to the ribs fixing bracket 300 of a certain length.

As described above, the ribs reinforce the concrete while opposing the shear force and warping applied to the concrete, but when the ribs of the reinforcing bar are exposed to the outside of the concrete, oxidation may occur and corrosion may occur. In order to do so, further aesthetically, the ribs must be located inside the concrete.

When concrete is poured into the inside of the formwork body 100, the poured concrete is cured while being in close contact with the inner side of the side plate 120, and the ribs 200 are formed at a regular interval from the side plate 120. It is located in the inner direction of (100), and eventually the ribs 200 are located inside the concrete.

A certain distance required between the side plate 120 and the ribs 200 is maintained by the ribs fixing bracket 300.

The lower plate 120 also maintains a constant distance from the ribs 200 as the ribs fixing bracket 300 is positioned. In the lower plate 120, the ribs fixing bracket 300, and the ribs 200, an organic coupling relationship between the side plates 140, the ribs fixing brackets 300, and the ribs 200 is applied.

The ribs fixing bracket 300 includes a close contact surface portion 320, a body portion 340, and a side pressure prevention reinforcement fixing portion 360.

The contact surface portion 320 is in close contact with the inner surface of the side plate 140. A contact surface coupling hole 322 is formed in the contact surface portion 320. The side plate coupling hole 142 formed in the side plate 140 communicates with the contact surface coupling hole 322. As the coupling member (B) penetrates through the side plate coupling hole 142 and the close contact surface coupling hole 322, the close contact surface portion 320 is in close contact with the side plate 140 and is coupled. Such a coupling member (B) can be any coupling means, but preferably the coupling member (B) is a bolt and the bolt can be coupled to the screw thread in a state in which a thread is formed on the inner side of the contact surface coupling hole 322. have.

The body part 320 is formed to extend from one side of the contact surface part 320 in the inner direction of the formwork body 100. Preferably, it may be formed to extend from one end of the contact surface portion 320.

The body part 340 is in communication with the rib muscle insertion part 344 and the rib muscle insertion part 344 formed in a shape of a cut from one side of the body support 342 so that the body support 342 and the ribs 200 are inserted In the costal insertion portion 344 in the inward direction of the formwork body 100 includes a ribbed fixing portion 346 formed at regular intervals.

After the ribs 200 are inserted into the ribs insertion portion 344, they are moved in the inner direction of the formwork body 100, and are seated and fixed in the ribs fixing portion 346 by rotation of the body portion 340.

The regular interval between the above-described side plate 140 and the ribs 200 corresponds to the length of the body part 340 formed by extending in the inner direction of the formwork body 100.

The ribs fixing portion 346 is a first rib muscle support formed by extending in the inward direction of the formwork body 100 from a portion of the body support 342 forming the ribs insertion portion 344 of the body portion 340. 1), between the second rib support (346-2) and the first rib support (346-1) and the second rib support (346-2) formed at regular intervals from the first rib support (346-2). It includes the costal muscle movement space (346-3).

The rib muscle movement space 346-3 is in communication with the aforementioned rib muscle insertion part 344, and after the rib muscle 200 is inserted into the rib muscle insertion part 344, the rib muscle movement space ( 346-3).

The first rib muscle support (346-1) is formed to extend in the inner direction of the formwork body 100 in the portion forming the rib muscle insertion portion 344, is formed in a convex shape in either direction, and the second rib muscle support ( 346-2) is formed in a convex shape in a direction opposite to the convex direction of the first rib support 346-1. For example, based on the vertical length direction in which the ribs 200 are located, the first ribs support 346-1 may be convex in the right direction and the second ribs support 3462 may be convex in the left direction. . In this example, the front direction of the costal movement space 346-3 is blocked by the lateral pressure prevention reinforcement fixing body 362 to be described later, and the rear direction of the costal muscle movement space 346-3 is inserted as described above. This is the direction in which the part 344 is located.

After the ribs 200 are moved to the ribs moving space 346-3, as the body portion 340 is rotated at a certain angle, the outer surface of any one of the ribs 200 becomes the first rib support 346-1. ), and the outer surface of the other part of the ribs 200 is seated and fixed in close contact with the second ribs support 346-2. The interval between one portion of the ribs 200 and the other portion may be a distance corresponding to the interval between the first ribs support 346-1 and the second ribs support 346-2.

In a state where the ribs 200 are seated and fixed on the first rib support (346-1) and the second rib support (346-2), the first rib support (346-1) and the second rib support ( When seated on the inner side of 346-2), the movement of the ribs 200 is limited and fixed at that position.

The ribs fixing bracket 300 according to the present invention may further include a side pressure preventing reinforcing bar fixing part 360 connecting one end of the first rib support 346-1 and one end of the second rib support 346-2. have.

This lateral pressure prevention reinforcing bar fixing part 360 is formed by connecting one end of the first rib support 346-1 and one end of the second rib support 346-2 to form a lateral pressure prevention reinforcing bar fixing body part 362, It may include a reinforcing bar insertion hole 366 formed in the side pressure prevention reinforcing bar insertion portion 364 and the side pressure prevention reinforcing bar insertion portion 364 formed while being bent at a predetermined angle at both ends of the fixed body portion 362.

Therefore, the front direction of the above-described rib muscle moving space (346-3) is in a state that is blocked by the side pressure prevention reinforcement fixing body 362.

As long as one end of the side pressure prevention reinforcement 250 is inserted and fixed in the reinforcing bar insertion hole 366 of the rib fixing bracket 300 coupled to either side plate 140, the other end of the side pressure prevention reinforcement 250 is different. Since it is inserted into the reinforcing bar insertion hole 366 of the rib fixing bracket 300 coupled to the side plate 140 of the side plate and is fixed, the lateral pressure prevention reinforcing bar 250 is positioned in a fixed state inside the formwork body 100.

Accordingly, the longitudinal direction of the ribs 200 supported by the first rib support (346-1) and the second rib support (346-2) and the lateral pressure prevention reinforcing bar 250 inserted into the reinforcing bar insertion hole 366 and positioned. ) May have the same lengthwise direction.

Concrete is poured and cured while the ribs 200 and the lateral pressure prevention reinforcement 250 are fixed to the ribs fixing bracket 300 coupled to the side plate 140, so that the ribs 200 and the lateral pressure prevention reinforcement 250 are It is located inside the cured concrete.

In the case of a non-destructive formwork method, the beam is formed without dismantling the formwork body 100. In the case of the dismantled formwork method, the coupling member (B) is separated from the contact surface coupling hole 322 to release the coupling between the rib fixing bracket 300 and the side plate 140, and the formwork body 100 is removed from the cured concrete. Separate and disassemble.

Referring to FIG. 3, a process in which the ribs 200 and the lateral pressure prevention reinforcement 250 are fixed to the ribs fixing bracket 300 in the beam formwork according to the present invention will be described.

As the ribs 200 are inserted into the ribs insertion part 344 of the ribs fixing bracket 300, and then the ribs 200 are moved in the direction in which the side plates 140 are located. Moved to (346-3).

A direction in which the ribs 200 are inserted into the ribs insertion portion 344 may be a vertical direction with respect to the longitudinal direction of the ribs 200. The direction in which the first ribs support 346-1 and the second ribs support 346-2 communicate may be the same as the direction in which the ribs are inserted into the ribs insertion unit 344. therefore. The direction in which the first ribs support (346-1) and the second ribs support (346-2) communicate with the ribs 200 moved to the ribs moving space (346-3) is in the longitudinal direction of the ribs (200). It may be in a vertical direction.

In this state, as the ribs fixing bracket 300 is rotated at a certain angle (approximately 90 degrees), the ribs 200 are positioned in the ribs moving space 346-3 and at the same time the first ribs support 346-1 and It is seated and fixed on the second rib support (346-2). That is, the longitudinal direction of the ribs 200 and the direction in which the first ribs support 346-1 and the second ribs support 346-2 are communicated are the same.

Both ends of the side pressure prevention reinforcement 250 are inserted into the reinforcement insertion hole 366 and fixed.

In a state in which the contact surface part 320 of the ribs fixing bracket 300 is in close contact with the side plate 140, the coupling member B penetrates through the contact surface connection hole 322 and the side plate connection hole 142, and the ribs fixing bracket 300 ) Is coupled to the side plate 140.

In the above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but this is only exemplary, and those skilled in the art can use various modifications and equivalents from the embodiments of the present invention. It will be appreciated that embodiments are possible. Therefore, the scope of protection of the present invention should be determined by the claims.

100: formwork body
120: lower plate 140: side plate 142: side plate coupling hole
200: ribs 250: lateral pressure prevention reinforcement
300: ribs fixing bracket
320: contact surface portion 322: contact surface coupling hole
340: body part
342: body support 344: rib insertion portion 346-1: first rib support
346-2: second rib support 346-3: rib movement space
360: side pressure prevention rebar fixing unit
362: lateral pressure prevention rebar fixing body 364: reinforcing bar insertion part 366: reinforcing bar insertion hole

Claims (5)

A form body 100 including a lower plate 120 and side plates 140 extending upward from both sides of the lower plate 120;
A ribbed fixing bracket 300 coupled to the side plate 140 and extending in the inner direction of the formwork body 100; And
Including ribs 200 inserted into the ribs fixing bracket 300,
As the ribs fixing bracket 300 is positioned, the ribs 200 are positioned at regular intervals from the side plate 140,
The ribs fixing bracket 300,
A contact surface portion 320 in close contact with the side plate 140; And
It includes a body portion 340 extending in the inner direction of the formwork body 100 from one side of the contact surface portion 320,
The ribs 200 are inserted into and fixed to the body portion 340,
The body part 340 includes a costal muscle insertion part 344 into which the costal muscle 200 is inserted; And a costal muscle fixing part 346 formed at regular intervals in the inner direction of the formwork body 100 in the costal muscle insertion part 344 in a state in communication with the costal muscle insertion part 344,
After the costal muscle 200 is inserted into the costal muscle insertion part 344, it is moved to the costal muscle fixing part 346, and the costal muscle 200 is moved to the costal muscle fixing part 346 by rotation of the body part 340. The beam formwork that is seated and fixed in the.
delete delete The method of claim 1,
The ribs fixing portion 346 is formed to extend from a portion forming the ribs insertion portion 344, the first ribs support (346-1) formed in a convex shape in one direction; And a second rib support (346-2) formed at regular intervals in the first rib support (346-1), and formed in a convex shape in a direction opposite to the convex direction of the first rib support (346-1). Including,
After the costal muscle 200 is moved to the costal muscle fixing part 346, the outer surface of any one part of the costal muscle 200 by rotation of the body part 340 is the first costal muscle support (346-1) The beam formwork in which the outer surface of the other part of the ribs 200 is seated and fixed in close contact with the second ribs support 346-2.
The method of claim 4,
In a state in which the contact surface coupling hole 322 formed in the contact surface portion 320 is in communication with the side plate coupling hole 142 formed in the side plate 140, the coupling member (B) and the contact surface coupling hole 322 As the side plate coupling hole 142 is passed through, the contact surface portion 320 is coupled to the side plate 140,
The ribs fixing bracket 300 further includes a side pressure prevention reinforcement fixing part 360 connecting one end of the first rib support 346-1 and one end of the second rib support 346-2,
The lateral pressure prevention reinforcement fixing part 360 includes a lateral pressure prevention reinforcement fixing body part 362 formed by connecting one end of the first rib support 346-1 and one end of the second rib support 346-2; Side pressure preventing reinforcing bar insertion portions 364 formed while being bent at a predetermined angle at both ends of the lateral pressure preventing reinforcing bar fixing body portion 362; And a reinforcing bar insertion hole 366 formed in the lateral pressure preventing reinforcing bar insertion portion 364,
The longitudinal direction of the ribs 200 supported by the first rib support (346-1) and the second rib support (346-2) and the lateral pressure prevention reinforcing bar inserted into the reinforcing bar insertion hole 366 ( 250) of the same beam form

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