KR102008724B1 - Permanent beam form and construction method thereof - Google Patents

Abstract

The present invention relates to a slope type beam mold which can be manufactured in various sizes and a construction method thereof. The slope type beam mold comprises: a mold body comprising a lower plate and a plurality of side plates formed to be vertically connected to the lower plate; and a stirrup coupled to the inside of the mold body to reinforce concrete poured into the mold body.

Description

Permanent beam form and construction method

The present invention relates to a sloped formwork and sloped formwork construction method, and more particularly to a sloped formwork and slope type formwork construction method that can be manufactured in a variety of specifications.

In the formwork process at the construction site, reinforcing bars on the floor and placing the foundation concrete on them, connecting them to the reinforcing bars and placing vertical horizontal bars in a grid, and crossing the bars with thin wires Bind on and install the formwork.

Such formwork should maintain a spacing of about 3 cm from the reinforcing bars, and supports are installed at predetermined intervals to withstand the lateral pressure of the concrete on which the formwork is placed.

Korean Patent No. 10-1009753 (registered on Jan. 13, 2011) describes a formwork for beam structure. According to the disclosed technology, the lower plate formed in a rectangular shape having a length corresponding to the length of the beam structure to be constructed; It has a length corresponding to the length of the lower plate, the lower end is fixed to one side of the lower plate is erected on one side of the lower plate, one or a plurality of first beads formed in the longitudinal direction inward each other along the width direction First side plates spaced apart from each other; It has a length corresponding to the length of the lower plate, the lower end is fixed to the other side of the lower plate, standing on the other side of the lower plate, formed in the longitudinal direction inward and corresponding to the position of the first bead facing or A second side plate on which a plurality of second beads are arranged to be spaced apart from each other along the width direction; And one or a plurality of side plate support members arranged horizontally spaced apart from each other along a length direction of the first bead and the second bead, and coupled to both the first bead and the second bead corresponding to both ends thereof in a horizontal direction. And the first bead and the second bead extend toward the inner horizontal direction and end bend upward to form a first seating groove, and the side plate support member has both ends corresponding to the first seating groove. After being bent downward in the shape to be extended to the horizontal direction is characterized in that the insert is inserted into the first seating groove.

Korean Patent No. 10-1384609 (registered on Apr. 07, 2014) relates to a prefabricated beam formwork reinforced with side plate stiffness, and in the formwork made of concrete for reinforcement of reinforced concrete beams or steel composite beams, The bottom plate is bent in a shape and protruded horizontal bead is formed on the iron plate at a predetermined interval, and one side of the iron plate is bent vertically bent in a B-shape to protrude vertical beads formed on the iron plate at the first and second side plates It is installed at both ends of the bottom plate, the horizontal bead of the bottom plate is disposed on the front surface of the vertical bead of the first and second side plates, the vertical bead upper side of the first and second side plates are perforated to penetrate the c-shaped foam tie The first and second side plates and the foam tie are integrally coupled to each other, and the joint portions where the vertical bead lower portions of the first and second side plates meet the horizontal bead lower portions of the bottom plate respectively. The ball being installed so the through-connection rod is characterized in that the first and second side plates and the bottom plate is configured by integrally bonding.

As described above, since the conventional formwork is designed according to the existing formwork, the height and width of the formwork are designed to be spaced at 50mm intervals, so that the size of the formwork has a limited problem.

Korean Patent Registration No. 10-1009753 Korea Patent Registration No. 10-1384609

The technical problem to be achieved by the present invention is to solve the problems as described above, to provide a slope-shaped formwork to be manufactured in various standards.

In order to solve this problem, according to one feature of the present invention, the formwork body consisting of a lower plate and a plurality of side plates connected to the lower plate perpendicularly; And coupled to the interior of the formwork body, provides a slope type formwork comprising a frame for reinforcing the concrete to be poured into the interior of the formwork body.

In one embodiment, the side plate, the base side plate; An upper side plate coupled to an upper portion of the base side plate; A lower side plate coupled to a lower portion of the base side plate; And is coupled to the upper end of the upper side plate, characterized in that it comprises a locking plate for hanging the end of the deck.

In one embodiment, the upper side plate, the upper plate member made of a cross-section '1' shape; A first coupling member formed at an upper end of the upper plate member to extend in a '-' shape, and coupled to the locking plate; A bead member which is bent inwardly in a central portion of the upper plate member and has a cross section at one end in a triangular shape to weld with the root; And a second coupling member extending inwardly at a lower end of the upper plate member to couple with the base side plate.

In one embodiment, the locking plate, the cross section is formed of a 'b' shape, the third coupling member is coupled to the first coupling member; A hooking member which is formed upwardly bent at one end of the third coupling member to hook the end of the deck; A first extension member bent horizontally on an upper end of the locking jaw member; A leakage preventing tape member formed to be adhered to the first extension member to prevent leakage of concrete solution; And a second extension member which is formed downwardly bent vertically to the first extension member so that the concrete liquid falls vertically.

According to another feature of the invention, the formwork body installation step of installing the formwork body in the construction position; And it provides a slope-shaped formwork construction method comprising a frame installation step of installing the frame inside the formwork body.

According to the present invention, by combining the bottom plate and the side plate consisting of a plurality of plates can be made of various standard formwork, and increase the rigidity to increase the resistance to the concrete placing pressure and concrete load generated during the concrete casting stability in construction There is an effect to improve.

1 is a perspective view illustrating a slope type formwork according to an embodiment of the present invention.
2 is a cross-sectional view illustrating a sloped formwork according to an embodiment of the present invention.
3 is a view for explaining the side plate of the formwork body in FIG.
4 is a view for explaining the upper side plate in FIG.
5 is a view for explaining the locking plate in FIG.
FIG. 6 is a view for explaining the basic side plate in FIG. 3. FIG.
FIG. 7 is a view for explaining the lower side plate in FIG. 3. FIG.
8 is a view for explaining the lower plate of the formwork body in FIG.
FIG. 9 is a view for explaining a lower left plate in FIG. 8.
FIG. 10 is a diagram illustrating a basic lower plate in FIG. 8.
FIG. 11 is a view for explaining the lower right plate in FIG. 8.
12 is a view illustrating a construction method of the slope type formwork according to an embodiment of the present invention as a first example.
13 is a view illustrating a construction method of the slope type formwork according to an embodiment of the present invention as a second example.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, since the description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments may be variously modified and may have various forms, and thus, the scope of the present invention should be understood to include equivalents for realizing the technical idea. In addition, the objects or effects presented in the present invention does not mean that a specific embodiment should include all or only such effects, the scope of the present invention should not be understood as being limited thereby.

On the other hand, the meaning of the terms described in the present invention will be understood as follows.

Terms such as "first" and "second" are intended to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is referred to as being "connected" to another component, it should be understood that there may be other components in between, although it may be directly connected to the other component. On the other hand, when a component is said to be "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions describing the relationship between the components, such as "between" and "immediately between" or "neighboring to" and "directly neighboring to", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "include" or "have" refer to features, numbers, steps, operations, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Generally, the terms defined in the dictionary used are to be interpreted as being consistent with the meanings in the context of the related art, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the present invention.

Now with reference to the drawings with respect to the slope type formwork according to an embodiment of the present invention will be described in detail.

1 is a perspective view illustrating a sloped formwork according to an embodiment of the present invention, Figure 2 is a cross-sectional view illustrating a sloped formwork according to an embodiment of the present invention.

1 and 2, the sloped formwork 10 includes a formwork body 300 and a frame 400.

The formwork body 300 is composed of a plurality of side plates 200 which are vertically connected to the lower plate 100 and the lower plate 100, so as to pour concrete into the interior.

In an embodiment, the form body 300 may be formed of various materials such as plywood or iron plate.

In an embodiment, the form body 300 may be formed so that the two side plates 200 face each other on the lower plate 100, and form four side plates 200 on each of edge portions of the lower plate 100. You may.

In one embodiment, the form body 300 may be coupled to one side of the root 400 by welding.

In one embodiment, the lower plate 100 or the side plate 200 is formed with a plurality of length grooves having a predetermined depth in the inner direction at regular intervals, improving the reinforcement so that the shape is not deformed by the load strength of the concrete You can.

The root frame 400 is installed inside the formwork body 300, and is provided in plurality in a longitudinal direction (for example, 75 mm to 300 mm) in the longitudinal direction of the formwork body 300, Reinforce the concrete being poured inside.

In an embodiment, the root 400 may be formed in a “∪” shape and both upper ends may be bent at a predetermined angle (eg, 90 ° to 150 °) toward the inside.

The slope type formwork 10 having the configuration as described above may further include a lower root (not shown).

The lower muscles are formed in plural on the lower inner surface of the ribs 400, and supplement the concrete which is poured into the form body 300 together with the ribs 400.

In one embodiment, the lower root may be welded to the lower inner surface of the root 400 by welding.

In one embodiment, the lower bar 400 may be a rebar having a circular cross section, the shape and length of the lower bar 400 may vary depending on the construction scale.

3 is a view for explaining the side plate of the formwork body in FIG.

Referring to FIG. 3, the side plate 200 includes a basic side plate 210, an upper side plate 220, a lower side plate 230, and a locking plate 240.

The base side plate 210, the upper side plate 220 is coupled to the top, the lower side plate 230 is coupled to the bottom.

In one embodiment, the base side plate 210 may be used in combination with one or more, depending on the construction scale.

The upper side plate 220 is coupled to the upper portion of the base side plate 210 to form the side plate 200.

The lower side plate 230 is coupled to the lower side of the base side plate 210 to form the side plate 200.

Hanging plate 240 is coupled to the upper end of the upper side plate 220, so that the end of the deck can be fixed by hanging.

The sloped formwork 10 having the configuration as described above, by combining the standard of the side plate 210, the upper side plate 220, the lower side plate 230 to produce a variety of standard formwork in 1mm units. In addition, it is possible to improve the construction stability by increasing the rigidity and increasing the resistance to the concrete placing pressure and the concrete load generated during the concrete placing. At this time, the upper side plate 220, the lower side plate 230 is fixed to a certain standard, it is preferable to produce the base side plate 210 in various standards.

4 is a view for explaining the upper side plate in FIG.

Referring to FIG. 4, the upper side plate 220 includes an upper plate member 221, a first coupling member 222, a bead member 223, and a second coupling member 224.

The upper plate member 221 has a cross section of a '1' shape.

The first coupling member 222 has a cross section formed at an upper end of the upper plate member 221 in a '-' shape and is welded to the third coupling member 241 of the locking plate 240.

The bead member 223 is bent inward to the inner surface center portion of the upper plate member 221, the cross section of one end is formed in a triangular shape, to ensure the welding area and the welding area 400 and easy welding work To be able.

In one embodiment, the bead member 223 has a triangular shape in the first bending member 223a and the first bending member 223a which are horizontally bent inwardly in a central portion of the inner surface of the upper plate member 221. The second bending member 223b is bent and horizontally bent again in the outward direction. At this time, the first bending member 223a and the second bending member 223b are welded by overlapping portions of the first bending member 223a and the second bending member 223b by the concrete placing pressure and the concrete load generated when the concrete is placed. ), Do not open the space between.

The second coupling member 224 is formed to extend horizontally inward at the lower end of the upper plate member 221 and is coupled to the fourth coupling member 212 of the base side plate 210 by welding.

The upper side plate 220 having the configuration as described above is bent one plate to form the upper plate member 221, the first coupling member 222, the bead member 223, the second coupling member 224. Characterized in that.

5 is a view for explaining the locking plate in FIG.

Referring to FIG. 5, the locking plate 240 may include a third coupling member 241, a locking jaw member 242, a first extension member 243, a leakage preventing tape member (not shown), and a second extension member ( 245).

The third coupling member 241 is formed in a '-' shape, the cross section is coupled to the first coupling member 222 by welding.

The locking jaw member 242 is bent upwardly perpendicular to one end of the third coupling member 241 to hang the end of the deck.

The first extension member 243 is bent horizontally on the upper end of the locking jaw member 242.

The leakage preventing tape member is adhesively formed on the first extension member 243 to prevent leakage of the concrete liquid.

The second extension member 245 is bent downwardly perpendicular to the first extension member 243, so that when the concrete liquid overflows during concrete pouring, the concrete liquid falls directly on the outer surface of the side plate 200 without falling down. It is easy for cleaning and surface work after construction.

FIG. 6 is a view for explaining the basic side plate in FIG. 3. FIG.

Referring to FIG. 6, the base side plate 210 includes a base plate member 211, a fourth coupling member 212, and a fifth coupling member 213.

The base plate member 211 has a cross section having a '1' shape, and a fourth coupling member 212 and a fifth coupling member 213 are provided at the top and the bottom thereof, respectively.

The fourth coupling member 212 is formed to extend on the upper end of the base plate member 211 and is welded to the second coupling member 224 of the upper side plate 220.

In one embodiment, the fourth coupling member 212, the cross section is extended in the 'b' shape on the top of the base plate member 211, so that the root 400 can be welded to the vertically bent portion Area can be secured.

The fifth coupling member 213 may secure an area in which the root plane 400 may be welded to a portion that is bent vertically by extending in a 'b' shape at a lower end of the base plate member 211.

The base side plate 210 having the configuration as described above may be formed symmetrically to each other in the shape of rib channel steel (rib channel steel).

FIG. 7 is a view for explaining the lower side plate in FIG. 3. FIG.

Referring to FIG. 7, the lower side plate 230 includes a lower plate member 231, a sixth coupling member 232, a lower bead member 233, and a seventh coupling member 234.

The lower plate member 231 has a cross section of a '1' shape.

The sixth coupling member 232 is formed to extend horizontally inward on the upper end of the lower plate member 231 and is welded to the fifth coupling member 213 of the base side plate 210.

The lower bead member 233 is bent in the inner direction at the center of the inner surface of the lower plate member 231, the cross section of one end is formed in a triangular shape, to ensure the welding area 400 and the welding area to easily weld work To be able.

In one embodiment, the lower bead member 233 has a triangular shape in the third bending member 233a and the third bending member 233a which are bent horizontally inward to the center portion of the inner surface of the lower plate member 231. It may be formed to include a fourth bending member 233b that is bent again horizontally in the outward direction. At this time, the third bending member 233a and the fourth bending member 233b are welded by overlapping portions of the third bending member 233a and the fourth bending member 233b by the concrete placing pressure and the concrete load generated when the concrete is placed. ), Do not open the space between.

The seventh coupling member 234 is formed to extend horizontally inward at the lower end of the lower plate member 231 and is coupled to the lower plate 100.

In one embodiment, the seventh coupling member 234 may be coupled by welding in a state overlapping with the left end of the lower left plate 120.

The lower side plate 230 having the configuration as described above is bent one plate to form the lower plate member 231, the sixth coupling member 232, the lower bead member 233, and the seventh coupling member 234. Characterized in that.

8 is a view for explaining the lower plate of the formwork body in FIG.

Referring to FIG. 8, the lower plate 100 includes a basic lower plate 110, a lower left plate 120, and a lower right plate 130.

The base lower plate 110, the left lower plate 120 is coupled to the left side, the right lower plate 130 is coupled to the right side.

In one embodiment, the base lower plate 110 may be used in combination with one or a plurality depending on the construction scale.

The lower left plate 120 is coupled to the left side of the base lower plate 110 to form the lower plate 100.

The lower right plate 130 is coupled to the right side of the base lower plate 110 to form the lower plate 100.

The slope type beam formwork 10 having the configuration as described above, by combining the standard lower plate 110, the lower left plate 120, the right lower plate 130 by combining the standard of various sizes in 1mm units. In addition, it is possible to improve the construction stability by increasing the rigidity and increasing the resistance to the concrete placing pressure and the concrete load generated during the concrete placing. At this time, the lower left plate 120, the right lower plate 130 is fixed to a certain standard, it is preferable to produce the basic lower plate 110 in various standards.

FIG. 9 is a view for explaining a lower left plate in FIG. 8.

Referring to FIG. 9, the lower left plate 120 includes a lower left plate member 121, a left plate bead member 122, a first lower plate coupling member 123, and a first vertical extension member 124.

The lower left plate member 121 is formed in a cross-section of '-' shape, and is coupled to the lower end of the side plate 200.

In one embodiment, the left lower plate member 121 may be joined by welding in a state in which a part of the left side is in close contact with the lower surface of the seventh coupling member 234 of the lower side plate 230.

The left plate bead member 122 is bent in a triangular shape from the first lower plate bending member 122a and the first lower plate bending member 122a that are bent vertically inward to a central portion of the inner surface of the left lower plate member 121. The second lower plate bending member 122b may be horizontally bent again in the outward direction. In this case, the first lower plate bending member 122a and the second lower plate are welded by the concrete placing pressure and the concrete load generated when the concrete is placed by welding the overlapping portions of the first lower plate bending member 122a and the second lower plate bending member 122b. The gap between the bending members 122b is prevented.

The first lower plate coupling member 123 is formed to extend vertically inward to the right end of the left lower plate member 121 and is coupled to the second lower plate coupling member 112 of the basic lower plate 110 by welding.

The first vertical extension member 124 is formed to extend vertically inward to the left end of the left lower plate member 121, and is joined by welding in close contact with the bottom outer surface of the lower plate member 231.

The left lower plate member 121 having the above-described configuration is characterized by bending one plate to form a left lower plate member 121, a left plate bead member 122, and a first lower plate coupling member 123. do.

FIG. 10 is a diagram illustrating a basic lower plate in FIG. 8.

Referring to FIG. 10, the base lower plate 110 includes a base lower plate member 111, a second lower plate coupling member 112, and a third lower plate coupling member 113.

The basic lower plate member 111 has a cross-section having a '-' shape, and a second lower plate coupling member 112 and a third lower plate coupling member 113 are provided at left and right ends, respectively.

The second lower plate coupling member 112 is formed to extend to the left end of the basic lower plate member 111, and is coupled to the first lower plate coupling member 123 of the left lower plate 120 by welding.

In one embodiment, the second lower plate coupling member 112, the cross section is extended to the 'b' shape on the left end of the base lower plate member 111, the root 400 is welded to the portion formed horizontally bent at the top The area can be secured.

The third lower plate coupling member 113 is formed to extend at the right end of the basic lower plate member 111 and is welded to the fourth lower plate coupling member 133 of the lower right plate 130.

In an embodiment, the third lower plate coupling member 113 may have an area where the root 400 may be welded to a portion which is bent horizontally by extending in a 'b' shape at the right end of the base lower plate member 111. Can be secured.

The base lower plate 110 having the configuration as described above may be formed symmetrically with each other in the shape of rib channel steel.

The base lower plate 110 having the above-described configuration may be formed in the same size and shape as the base side plate 210, and may also use the base side plate 210 instead of the base lower plate 110.

FIG. 11 is a view for explaining the lower right plate in FIG. 8.

Referring to FIG. 11, the lower right plate 130 includes a lower right plate member 131, a right plate bead member 132, a fourth lower plate coupling member 133, and a second vertical extension member 134.

The lower right plate member 131, the cross section is made of a '-' shape, is coupled to the lower end of the other side plate (200).

In one embodiment, the lower left plate member 131 may be joined by welding in a state in which a part of the right side is in close contact with the lower surface of the seventh coupling member 234 of the other lower side plate 230.

The right plate bead member 132 is bent in a triangular shape from the third lower plate bending member 132a and the third lower plate bending member 132a which are bent vertically inward to the inner surface center portion of the right lower plate member 131. And a fourth lower plate bending member 132b that is bent horizontally in the outer direction again. At this time, the third lower plate bending member 132a and the fourth lower plate bending member 132b overlap with each other by welding the portion where the concrete placing pressure and the concrete load generated when the concrete lowers the third lower plate bending member 132a and the fourth lower plate. The gap between the bending members 132b is prevented.

The fourth lower plate coupling member 133 is formed to extend vertically inward to the left end of the right lower plate member 131 and is welded to the third lower plate coupling member 113 of the basic lower plate 110.

The second vertical extension member 134 is formed to extend vertically inward to the right end of the lower right plate member 131, and is joined by welding in close contact with the bottom outer surface of the other lower plate member 231.

The lower right plate 130 having the configuration as described above may be formed in the same size and shape as the lower left plate 120, and may be used by rotating the direction of the lower left plate 120 instead of the right lower plate 130.

12 is a view illustrating a construction method of the slope type formwork according to an embodiment of the present invention as a first example.

Referring to FIG. 12, first, a plurality of side plates 200 are vertically connected to the lower plate 100 to form a form body 300, and the formed form body 300 is installed at a construction position (S100). .

In step S100 described above, the formwork body 300 may be formed of various materials such as plywood or iron plate.

In the above-described step S100, the two side plates 200 may be connected to each other on both sides of the lower plate 100 so as to face each other, and four side plates 200 may be connected to each of the edge portions of the lower plate 100.

The root frame 400 is welded and installed in the formwork body 300 formed in the above-described step S100 (S200).

In the above-described step S200, the root 400 is installed in a plurality of spaced apart (for example, 75mm ~ 300mm) in the longitudinal direction of the formwork body 300, is poured into the formwork body 300 Can reinforce concrete

In the above-described step S200, the root 400 may be formed in a "∪" shape and bent at a predetermined angle (for example, 90 ° ~ 150 °) with both upper ends facing inward.

After the above-described step S200, by installing a plurality of lower roots on the lower inner surface of the roots 400, the concrete poured into the interior of the formwork body 300 can be supplemented with the roots 400 auxiliary.

In one embodiment, the lower root may be welded to the lower inner surface of the root 400 by welding.

In one embodiment, the lower bar 400 may be a rebar having a circular cross section, the shape and length of the lower bar 400 may vary depending on the construction scale.

After the above-described step S200, the concrete is poured into the form body 300 to cure.

13 is a view illustrating a construction method of the slope type formwork according to an embodiment of the present invention as a second example.

Referring to FIG. 13, before the above-described step S100, the side plate 200 is formed by combining the base side plate 210, the upper side plate 220, the lower side plate 230, and the stopping plate 240 (S300).

In the above-described step S300, the base side plate 210, the upper side plate 220 may be coupled to the top, the lower side plate 230 may be coupled to the bottom.

In an embodiment, the base side plate 210 may include a base plate member 211, a fourth coupling member 212, and a fifth coupling member 213.

In one embodiment, the base plate member 211, the cross section is made of a '1' shape, the fourth coupling member 212, the fifth coupling member 213 may be provided at the top and bottom, respectively.

In one embodiment, the fourth coupling member 212 is formed to extend on the upper end of the base plate member 211, it may be coupled to the second coupling member 224 of the upper side plate 220 by welding.

In one embodiment, the fourth coupling member 212, the cross section is extended in the 'b' shape on the top of the base plate member 211, so that the root 400 can be welded to the vertically bent portion Area can be secured.

In one embodiment, the fifth coupling member 213 has a cross section at the bottom of the base plate member 211 extending in a '-' shape to the area where the root 400 can be welded to the vertically bent portion is formed. It can be secured.

In one embodiment, the base side plate 210 may be formed symmetrically with each other in the shape of rib channel steel (rib channel steel).

In the above-described step S300, the upper side plate 220 may be joined to the upper portion of the base side plate 210 by welding to form the side plate 200.

In an embodiment, the upper side plate 220 may include an upper plate member 221, a first coupling member 222, a bead member 223, and a second coupling member 224.

In one embodiment, the upper plate member 221, the cross section may be made of '1' shape.

In one embodiment, the first coupling member 222, the cross section is formed in the upper end of the upper plate member 221 in a '-' shape, welding with the third coupling member 241 of the locking plate 240 Can be combined.

In one embodiment, the bead member 223 is bent in the inner direction on the inner surface of the upper plate member 221, the cross section of one end is formed in a triangular shape, to secure the welding area and the root 400 Make it easy to weld.

In one embodiment, the bead member 223 has a triangular shape in the first bending member 223a and the first bending member 223a which are horizontally bent inwardly in a central portion of the inner surface of the upper plate member 221. The second bending member 223b is bent and horizontally bent again in the outward direction. At this time, the first bending member 223a and the second bending member 223b are welded by overlapping portions of the first bending member 223a and the second bending member 223b by the concrete placing pressure and the concrete load generated when the concrete is placed. ), Do not open the space between.

In one embodiment, the second coupling member 224 is formed to extend horizontally inward to the lower end of the upper plate member 221, it can be coupled by welding with the fourth coupling member 212 of the base side plate 210. have.

In an embodiment, the upper side plate 220 may be bent one plate to form the upper plate member 221, the first coupling member 222, the bead member 223, and the second coupling member 224. have.

In the above-described step S300, the lower side plate 230 may be joined to the lower portion of the base side plate 210 by welding to form the side plate 200.

In one embodiment, the lower side plate 230 may include a lower plate member 231, a sixth coupling member 232, a lower bead member 233, and a seventh coupling member 234.

In one embodiment, the lower plate member 231, the cross section may be made of '1' shape.

In one embodiment, the sixth coupling member 232 is formed to extend horizontally inward on the upper end of the lower plate member 231, and may be welded to the fifth coupling member 213 of the base side plate 210 by welding. .

In one embodiment, the lower bead member 233 is bent in the inner direction on the inner surface of the lower plate member 231, the cross section of one end is formed in a triangular shape, to secure the welding area and the root 400 Make it easy to weld.

In one embodiment, the lower bead member 233 has a triangular shape in the third bending member 233a and the third bending member 233a which are bent horizontally inward to the center portion of the inner surface of the lower plate member 231. It may be formed to include a fourth bending member 233b that is bent again horizontally in the outward direction. At this time, the third bending member 233a and the fourth bending member 233b are welded by overlapping portions of the third bending member 233a and the fourth bending member 233b by the concrete placing pressure and the concrete load generated when the concrete is placed. ), Do not open the space between.

In one embodiment, the seventh coupling member 234 is formed to extend horizontally inward at the lower end of the lower plate member 231, and may be coupled to the lower plate 100.

In one embodiment, the seventh coupling member 234 may be coupled by welding in a state overlapping with the left end of the lower left plate 120.

In one embodiment, the lower side plate 230 may be bent one plate to form the lower plate member 231, the sixth coupling member 232, the lower bead member 233, and the seventh coupling member 234. have.

In the above-described step S300, the engaging plate 240 is coupled to the upper end of the upper side plate 220 by welding, so as to hang the end of the deck to be fixed.

In one embodiment, the locking plate 240, the third coupling member 241, the locking jaw member 242, the first extension member 243, the leakage preventing tape member (not shown), the second extension member 245 ) May be included.

In one embodiment, the third coupling member 241 is formed in the shape of the letter 'b', it may be coupled to the first coupling member 222 by welding.

In one embodiment, the locking jaw member 242 is bent upwardly perpendicular to one end of the third coupling member 241 to hang the end of the deck.

In one embodiment, the first extension member 243 may be formed horizontally bent on the upper end of the locking jaw member 242.

In an embodiment, the leakage preventing tape member may be adhesively formed on the first extension member 243 to prevent leakage of the concrete liquid.

In one embodiment, the second extension member 245 is bent downwardly perpendicular to the first extension member 243, so that when the concrete liquid overflows during concrete pouring, the concrete liquid rides on the outer surface of the side plate 200. It is easy to clean after installation and surface after work because it falls without falling down.

Before the above-described step S100, the lower plate 100 is formed by combining the basic lower plate 110, the lower left plate 120, and the lower right plate 130 (S400).

In the above-described step S400, the base lower plate 110, the left lower plate 120 is coupled to the left side, the right lower plate 130 is coupled to the right side.

In one embodiment, the base lower plate 110 may include a base lower plate member 111, a second lower plate coupling member 112, and a third lower plate coupling member 113.

In one embodiment, the basic lower plate member 111, the cross section is made of '-' shape, the second lower plate coupling member 112, the third lower plate coupling member 113 may be provided at the left and right ends, respectively. have.

In one embodiment, the second lower plate coupling member 112 may be extended to the left end of the base lower plate member 111 to be welded to the first lower plate coupling member 123 of the lower left plate 120.

In one embodiment, the second lower plate coupling member 112, the cross section is extended to the 'b' shape on the left end of the base lower plate member 111, the root 400 is welded to the portion formed horizontally bent at the top The area can be secured.

In one embodiment, the third lower plate coupling member 113 is formed to extend to the right end of the base lower plate member 111, it may be coupled to the fourth lower plate coupling member 133 of the right lower plate 130 by welding.

In an embodiment, the third lower plate coupling member 113 may have an area where the root 400 may be welded to a portion which is bent horizontally by extending in a 'b' shape at the right end of the base lower plate member 111. Can be secured.

In one embodiment, the base lower plate 110 may be formed symmetrically with each other in the shape of rib channel steel (rib channel steel).

In one embodiment, the base lower plate 110 may be made of the same size and shape as the base side plate 210, it may be used instead of the base lower plate (110).

In the above-described step S400, the lower left plate 120 is joined to the left side of the base lower plate 110 by welding to form the lower plate 100.

In one embodiment, the lower left plate 120 may include a lower left plate member 121, a left plate bead member 122, a first lower plate coupling member 123, and a first vertical extension member 124.

In one embodiment, the lower left plate member 121, the cross section is made of a '-' shape, it may be combined with the bottom of the side plate 200.

In one embodiment, the left lower plate member 121 may be joined by welding in a state in which a part of the left side is in close contact with the lower surface of the seventh coupling member 234 of the lower side plate 230.

In an embodiment, the left plate bead member 122 includes a first lower plate bending member 122a and a first lower plate bending member 122a that are bent vertically inward to a central portion of an inner surface of the left lower plate member 121. The second lower plate bending member 122b is bent in a triangular shape and horizontally bent again in an outward direction. In this case, the first lower plate bending member 122a and the second lower plate are welded by the concrete placing pressure and the concrete load generated when the concrete is placed by welding the overlapping portions of the first lower plate bending member 122a and the second lower plate bending member 122b. The gap between the bending members 122b is prevented.

In one embodiment, the first lower plate coupling member 123 is formed to extend vertically inwardly at the right end of the left lower plate member 121 to be coupled to the second lower plate coupling member 112 of the base lower plate 110 by welding. Can be.

In one embodiment, the first vertical extension member 124 is formed to extend vertically inward to the left end of the lower left plate member 121 to be joined by welding in close contact with the bottom outer surface of the lower plate member 231. Can be.

In one embodiment, the lower left plate member 121 may be bent one plate to form a left lower plate member 121, a left plate bead member 122, and a first lower plate coupling member 123.

In the above-described step S400, the lower right side plate 130 is joined to the right side of the base lower plate 110 by welding to form the lower plate 100.

In an embodiment, the lower right plate 130 may include a lower right plate member 131, a right plate bead member 132, a fourth lower plate coupling member 133, and a second vertical extension member 134.

In one embodiment, the lower right plate member 131, the cross section is made of a '-' shape, it may be combined with the lower end of the other side plate 200.

In one embodiment, the lower left plate member 131 may be joined by welding in a state in which a part of the right side is in close contact with the lower surface of the seventh coupling member 234 of the other lower side plate 230.

In one embodiment, the right plate bead member 132 is a third lower plate bending member 132a which is bent vertically in an inward direction to a central portion of the inner surface of the right lower plate member 131, and the third lower plate bending member 132a. It is bent in a triangular shape in, may be made to include a fourth lower plate bending member 132b that is horizontally bent in the outward direction again. At this time, the third lower plate bending member 132a and the fourth lower plate bending member 132b overlap with each other by welding the portion where the concrete placing pressure and the concrete load generated when the concrete lowers the third lower plate bending member 132a and the fourth lower plate. The gap between the bending members 132b is prevented.

In one embodiment, the fourth lower plate coupling member 133 is formed to extend vertically inward to the left end of the right lower plate member 131 to be welded to the third lower plate coupling member 113 of the base lower plate 110 by welding. Can be.

In one embodiment, the second vertical extension member 134 is formed to extend vertically inward to the right end of the lower right plate member 131, and is joined by welding in close contact with the bottom outer surface of the other lower plate member 231. Can be.

In one embodiment, the lower right plate 130 may be formed in the same size and shape as the lower left plate 120, and may be used by rotating the direction of the lower left plate 120 instead of the right lower plate 130.

In the construction method of the slope type formwork having the steps as described above, the side plate coupling step (S300) in the drawing is shown as proceeding before the lower plate coupling step (S400), but their order may be changed or may proceed simultaneously.

As described above, the embodiment of the present invention is not implemented only through the above-described apparatus and / or operation method, but through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded, and the like. The implementation may be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

10: sloped formwork
100: lower plate
110: basic bottom plate
120: lower left plate
130: lower right
200: side plate
210: base plate
220: upper side plate
230: lower side plate
240: the stopping plate
300: formwork body
400: weight

Claims (5)

Formwork body consisting of a lower plate and a plurality of side plates connected to the lower plate perpendicularly; And
Is coupled to the interior of the formwork body, including the ribs for reinforcing concrete poured into the formwork body,
The side plate,
Base shroud;
An upper side plate coupled to an upper portion of the base side plate;
A lower side plate coupled to a lower portion of the base side plate; And
It is coupled to the upper end of the upper side plate, and includes a stopping plate for hanging the end of the deck,
The upper side plate,
An upper plate member whose cross section has a '1'shape;
A first coupling member formed at an upper end of the upper plate member to extend in a '-' shape, and coupled to the locking plate;
A bead member which is bent inwardly in a central portion of the upper plate member and has a cross section at one end in a triangular shape to weld with the root; And
Is formed to extend in the lower end of the upper plate member, and includes a second coupling member for coupling with the base side plate,
The bead member,
The first bending member is bent horizontally in the inner direction on the inner surface of the upper plate member, and the second bending member is bent in a triangular shape from the first bending member again horizontally bent in the outward direction. The overlapping portion of the first bending member and the second bending member is joined by welding.
The stopping plate is,
A third coupling member having a cross section having a '-' shape and coupled to the first coupling member;
A hooking member which is formed upwardly bent at one end of the third coupling member to hook the end of the deck;
A first extension member bent horizontally on an upper end of the locking jaw member;
A leakage preventing tape member formed to be adhered to the first extension member to prevent leakage of concrete solution; And
A second extension member bent downwardly perpendicular to the first extension member to allow the concrete liquid to fall vertically;
The lower plate,
Basic bottom plate;
A lower left plate coupled to the left side of the base lower plate; And
It includes a lower right plate coupled to the right side of the base lower plate,
The lower left plate,
A lower left plate member having a cross section of a '-'shape;
The first lower plate bending member is bent vertically in an inner direction to the inner surface center portion of the left lower plate member, and the second lower plate bending member is bent in a triangular shape from the first lower plate bending member and bent horizontally outward again. A left plate bead member welded to a portion where the first lower plate bending member and the second lower plate bending member overlap each other;
A first lower plate coupling member extending vertically inward to the right end of the lower left plate member and coupled to the base lower plate; And
Sloped formwork, characterized in that it comprises a first vertical extension member which is formed to extend inwardly in the left end of the lower left plate member coupled to the lower end of the lower side plate.
delete delete delete Formwork body installation step of installing the formwork body in the construction position; And
Including the frame installation step of installing the frame inside the formwork body,
Before the form body installation step, the side plate coupling step of forming a side plate by combining the base side plate, the upper side plate, the lower side plate, the locking plate;
Before the form body installation step, further comprising a lower plate coupling step of forming a lower plate by combining the lower plate, the lower left plate, the lower right plate,
The upper side plate,
An upper plate member whose cross section has a '1'shape;
A first coupling member formed at an upper end of the upper plate member to extend in a '-' shape, and coupled to the locking plate;
A bead member which is bent inwardly in a central portion of the upper plate member and has a cross section at one end in a triangular shape to weld with the root; And
Is formed to extend in the lower end of the upper plate member, and includes a second coupling member for coupling with the base side plate,
The bead member,
The first bending member is bent horizontally in the inner direction on the inner surface of the upper plate member, and the second bending member is bent in a triangular shape from the first bending member again horizontally bent in the outward direction. The overlapping portion of the first bending member and the second bending member is joined by welding.
The stopping plate is,
A third coupling member having a cross section having a '-' shape and coupled to the first coupling member;
A hooking member which is formed upwardly bent at one end of the third coupling member to hook the end of the deck;
A first extension member bent horizontally on an upper end of the locking jaw member;
A leakage preventing tape member formed to be adhered to the first extension member to prevent leakage of concrete solution; And
A second extension member bent downwardly perpendicular to the first extension member to allow the concrete liquid to fall vertically;
The lower plate,
Basic bottom plate;
A lower left plate coupled to the left side of the base lower plate; And
It includes a lower right plate coupled to the right side of the base lower plate,
The lower left plate,
A lower left plate member having a cross section of a '-'shape;
The first lower plate bending member is bent vertically in an inner direction to the inner surface center portion of the left lower plate member, and the second lower plate bending member is bent in a triangular shape from the first lower plate bending member and bent horizontally outward again. A left plate bead member welded to a portion where the first lower plate bending member and the second lower plate bending member overlap each other;
A first lower plate coupling member extending vertically inward to the right end of the lower left plate member and coupled to the base lower plate; And
Sloped formwork construction method characterized in that it is formed to extend vertically inward to the left end of the lower left plate member, the first vertical extension member coupled to the lower end of the lower side plate.

Images