KR102189419B1 - Angle adjuster for side formwork and assembly thereof - Google Patents

Abstract

The present invention relates to an angle adjusting device for a side mold, which is configured to manufacture atypical panels and, more specifically, to an angle adjusting device for a side mold and an assembly thereof, wherein the angle adjusting device for a side mold is contained in atypical concrete panel manufacturing equipment for manufacturing atypical panels to support the side mold for forming a side of the atypical panels. The angle adjusting device for a side mold provides a shape change of the side mold so as to manufacture the atypical panels of various shapes by moving rods in forth, back, upper and lower directions and freely changing a curvature and an inclined angle of the side mold through a plurality of length-adjustable rods.

Description

TECHNICAL FIELD [Angle adjuster for side formwork and assembly thereof]

The present invention relates to an angle adjusting device capable of adjusting the angle of a side formwork for manufacturing an atypical concrete panel, and more specifically described, a plurality of side rods supporting the side formwork are arranged in the vertical direction, It relates to an angle adjusting device of a side formwork and an assembly thereof capable of implementing a side angle of a design shape by changing the slope and curvature of the side formwork by adjusting the length and position.

In order to manufacture a concrete panel used for building a building, a frame is formed using a formwork in the form to be produced, and concrete is placed inside the formwork to construct a concrete panel. The formwork used at this time generally uses a large amount of standardized products, and such conventional formwork is a standardized form using a formwork made of a straight line, which is a form of producing concrete panels for constructing a flat ceiling or vertical wall. To produce and use panels of

In recent years, the demand for irregularly shaped buildings in which the shape of the building is freely curved is increasing, and the demand for irregularly shaped concrete panels having curves used not only outside the building but also inside the building, structures, and decoration is gradually increasing. Atypical construction technology requires a lot of research. An atypical building means a building constructed in a geometric shape away from a regular shape, and to produce such an atypical structure, atypical concrete panels having a number of shapes are required.

For irregular buildings, panels including various curvatures and slopes must be manufactured, and irregular concrete panels used for irregular buildings must have different shapes depending on the appearance of the building. In the conventional case, in order to form an atypical shape, a new formwork has to be manufactured for each shape of the panel, and there are technical limitations in forming the designed curvature, so it is often difficult for the manufactured panel to realize the design shape.

In general, the formwork used to manufacture a curved concrete panel is to manufacture and use a concrete girder using a unit segment steel formwork with a fixed curvature value of the concrete girder. However, such a unit-segment steel formwork must be made of a plurality of separate segments according to the curvature value of each concrete panel, and since these segments are manufactured so that the curvature is fixed, it cannot be reused for panels having different shapes. Therefore, the construction cost and construction period for manufacturing the atypical panel increase, and a large amount of construction waste is generated accordingly, and thus, there is a problem that the cost and time for processing the same are separately generated. In addition, there is a problem in that there is a limitation in realizing an atypical panel having a designed curvature and inclination because a plurality of segments having each fixed curvature value of the girder must be assembled and used.

Korean Patent Registration No. 20-0213267 "Angle-adjustable formwork (2000.11.30.)"

The present invention was conceived to solve the above problems, and an object of the present invention is to form the side angle and curvature of a formwork for manufacturing various types of atypical panels required for constructing an atypical building, and can be reused. A plurality of rods provided to surround and support the side formwork that can be freely changed in shape are formed in one or more at each position and arranged in the vertical direction, and are formed so that the length of each rod is adjusted, so that the slope of the side formwork is increased. It can be formed in various ways, and it is configured to freely form the curvature of the side formwork as the rod can move in the vertical direction, so that the side angle and shape of the designed panel can be completely realized when producing atypical concrete panels. It is to provide a device for adjusting the angle of the formwork.

The angle adjusting device of the side formwork of the present invention is included in the equipment for producing an atypical concrete panel for producing an atypical panel, and in the angle adjusting device of the side formwork formed by arranging a plurality of square plates in a plane direction, the length is adjusted in a rod shape A side rod configured in a plurality and disposed in a direction perpendicular to the plane of the side formwork; A support part formed at one end of the side rod so as to contact the side formwork to support the side formwork; A first step motor provided at the other end of the plurality of side rods, respectively, to adjust the length of the side rod to move the support portion in the front and rear direction; And one or more second step motors provided under the side rods to move the side rods in an up-down direction, wherein the support part comprises: a connection ball coupled to one end of the side rods; And a connection support portion including a flat surface supporting the side formwork on the other side and having a groove formed therein so that the connection ball is inserted thereinto.

In this case, the plurality of side rods are arranged in a direction perpendicular to a direction in which the side formwork is arranged.

delete

In addition, the support portion comprises a magnet and is characterized in that it is bonded to the side mold made of a steel plate.

In addition, a frame for connecting the plurality of side rods and the first step motor in the vertical direction; includes, wherein the frame is connected to the second step motor, so that the second step motor increases the height of the frame from the ground. It is characterized in that by adjusting the side rod to move in the vertical direction.

In this case, the frame includes one or more pillars, and the frame is characterized in that it moves in a vertical direction along the pillar.

In the assembly in which the plurality of angle adjusting devices of the side formwork are connected, the angle adjusting devices of the plurality of side formwork are arranged in the same direction as the direction in which the plate of the side formwork is arranged.

At this time, the device for adjusting the angle of the plurality of side formwork is characterized in that the support portion is arranged radially so as to be located at the center.

The angle adjusting device of the side formwork of the present invention and its assembly according to the configuration as described above, a plurality of rods capable of adjusting the length are arranged in the vertical direction to each adjust the length, so that the inclination angle of the side formwork can be easily realized. In addition, since the rod is formed to move in the vertical direction so that the curvature of the side formwork can be freely formed by the vertical movement, there is an advantage that a panel of various angles and shapes can be manufactured.

In addition, by using the technology of the side shape implementation device, the rod is automatically moved according to the design shape and can be formed to move the shape of the side formwork, making it possible to manufacture a concrete panel with very high accuracy with the designed shape panel. Since it has high manufacturing efficiency and can provide a reusable formwork that can continuously transform its shape and produce various panels, it is possible to reduce construction cost and construction period and minimize construction waste in constructing a structured building, thereby enhancing market competitiveness. In addition, since it is possible to solve the problem of inefficiency that occurs during the division and construction of panels, there is an effect of securing competitiveness by producing more free and sophisticated panels at low cost.

1 is a perspective view, one side view and the other side view of an atypical panel
2 is a perspective view of an angle adjusting device
3 is an exploded perspective view of the support
Figure 4 is a side view of the angle adjustment device
5 is a front view of the angle adjusting device
6 is a perspective view of an angle adjusting device to which a body frame is added according to an embodiment of the present invention
7 is a side view according to an embodiment of the angle adjusting device
8 is a front view according to an embodiment of the angle adjusting device
9 is a perspective view of one embodiment of an assembly including a plurality of angle adjustment devices
10 is a perspective view of an embodiment of an assembly in which a plurality of angle adjusting devices are arranged radially

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention, and thus various alternatives that can be substituted for them at the time of application It should be understood that there may be variations.

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. The accompanying drawings are only an example shown to describe the technical idea of the present invention in more detail, so the technical idea of the present invention is not limited to the form of the accompanying drawings.

The present invention is an angle adjusting device 1000 of the side formwork 10, which is a device included in the equipment for producing an atypical concrete panel for producing an atypical panel, and supports the side part of the formwork for producing the atypical panel 1 By changing the shape of the supporting side formwork 10, the curvature of the side portion of the atypical panel 1 to be manufactured and the inclination angles of both ends are realized, and a sophisticated atypical panel 1 is formed according to the design shape. It is equipped to produce.

1(a) shows a perspective view of an atypical panel 1 to be manufactured in the present invention, and when described with reference to this, the atypical panel 1 is formed including various curvatures, and thus one of the above In the atypical panel 1, the shape of the side portions may be formed differently. As an example, looking at the side shape of the atypical panel 1 in various plane directions, (b) of FIG. 1 shows the side of the atypical panel 1 in the XZ plane, and (c) of FIG. Is a side view of the atypical panel 1 in the YZ plane. As shown in (b) and (c) of FIG. 1, side shapes in different plane directions for one of the atypical panels 1 may have different shapes of curvature according to the plane direction, respectively, Inclination angles of both ends of the atypical panel 1 may also be formed differently depending on the planar direction.

Therefore, the present invention is characterized in that when producing such an atypical panel 1, the side shape of various angles can be simultaneously implemented, but the shape can be more freely implemented and the atypical panel is designed to have an elaborate shape according to the design shape. It is characterized by implementing the side shape of (1). In addition, at the same time, it adds support to withstand the internal pressure of concrete poured into the formwork, and it is characterized by providing a versatile device that is easy to manufacture due to the simple components of the device, and can be applied to various fields.

Referring to FIG. 2, in the angle adjusting device 1000 (hereinafter referred to as'angle adjusting device 1000') of the side formwork 10 in which a plurality of square plates of the present invention are extended and arranged in a plane direction, the length Is a rod shape that is adjusted, and consists of a plurality of side rods 100 arranged in a direction perpendicular to the plane of the side formwork 10, one end of the side rod 100 so as to contact the side formwork 10 It is formed in, is provided at each of the support portion 200 for supporting the side formwork 10 and the other end of the plurality of side rods 100, the support portion 200 by adjusting the length of the side rod 100 Including a first step motor 300 moving in the front and rear direction and at least one second step motor 400 provided under the side rod 100 and moving the side rod 100 in the vertical direction. It characterized in that it is configured.

2 and 10, the side formwork 10 supports the side surface of the atypical panel 1 to be manufactured and implements the side shape of the atypical panel 1, the In one embodiment of the side formwork 10, the side formwork 10 is composed of a plurality of rectangular plates, the plurality of the plates are arranged in a planar direction, it is preferable that the plate is arranged to extend the length in the horizontal direction. . In addition, since the side formwork 10 supports the side surface of the atypical panel 1, it is preferable that a plurality of the plates are erected vertically with respect to the ground. At this time, the side formwork 10 has a rigidity capable of withstanding the supporting force when the support part 200 supports the side formwork 10 by allowing the adjacent plates to be disposed to share a predetermined area with each other. It is preferable to be formed so as to be.

Referring to FIG. 2, the side rod 100 is characterized in that it has a rod shape, and the side rod 100 has a shape of a cross section such as a circle, a triangle, a square, a polygon, etc. Can be used. The side rod 100 is characterized in that the length is formed to be adjusted, the side rod 100 is preferably made of a plurality of rods for length adjustment. The side rod 100 may be formed such that a length of the plurality of rods extends in one direction by any coupling means, so that the coupling means is detachable and the length of the side rod 100 is adjusted. In addition, the side rod 100 is formed of a plurality of rods in which the plurality of rods gradually increase or decrease in diameter, so that a rod having a small diameter is inserted or discharged into a rod having a large diameter. It can be formed to adjust the length.

The side rod 100 is preferably configured in a plurality in the angle adjusting device 1000, and the plurality of side rods 100 are arranged in a direction perpendicular to the plane of the side formwork 10 do. This is a form in which the plurality of side rods 100 support the plane of the side formwork 10 from the outside, and accordingly, the side formwork 10 that withstands the internal pressure of the concrete poured into the side formwork 10 ), by supporting the plurality of side rods 100 from the outside, it is characterized in that it is possible to secure a supporting force for the concrete to be poured. In addition, the side rod 100 is moved in the vertical direction and/or in the front-rear direction, and the side shape of the atypical panel 1 by changing the shape of the side formwork 10 supported by the side rod 100 Characterized in that to implement.

The number of the side rods 100 is not limited as long as more than one is provided, but the plurality of side rods 100 is a direction perpendicular to the direction in which the side formwork 10 is extended and arranged, that is, vertically. It is preferable to be aligned in the direction. The side formwork 10 is characterized in that a plurality of the plates are arranged in a horizontal direction, that is, in a horizontal direction, wherein the plurality of side rods 100 are arranged side by side in a horizontal direction in which the side formwork 10 is arranged. , In order to adjust the side inclination angle of the atypical panel 1, another external force or any device should be further provided. However, when a plurality of the side rods 100 are arranged in the vertical direction of the side formwork 10, the support pressure of each of the side rods 100 or the side rods supporting the side formwork 10 ( By changing the position of 100), since the side inclination angle of the atypical panel 1 can be adjusted, a plurality of the side formwork 10 is preferably arranged in the vertical direction on the plane of the side formwork 10 Do.

Referring to FIG. 2, the support part 200 is formed on the side rod 100, and is at one end of the side rod 100 where the side rod 100 and the side formwork 10 contact each other. It is formed, by supporting the side formwork 10, it is characterized in that it is possible to secure a support force to the side formwork 10 after concrete pouring later. When the side rod 100 supports the side formwork 10, the support part 200 is in direct contact with the side formwork 10 in order to support more stably through the support part 200 ( It is preferable that the portion of 200) is formed in a plane. In addition, when the support part 200 forms the inclination angle of the side formwork 10, the angle between the side rod 100 and the support part 200 can be changed so that the angle can be more freely and precisely controlled. It is desirable to be formed including joints.

As shown in FIG. 3, in an embodiment of the present invention, the support part 200 is preferably formed in a ball bearing structure, and the support part 200 is coupled to one end of the side rod 100 It characterized in that it comprises a connection support portion 220 including a flat surface for supporting the side formwork 10, and a groove in which the connection ball 210 is inserted is formed on the other side. . This, the support part 200 is to be coupled to the side rod 100 by the connection ball 210, the connection support part 200 supports the side formwork 10 on one side, and the other side It characterized in that the connection ball 210 is coupled to a groove that matches the shape of the formed connection ball 210. Accordingly, the support part 200 is formed in a ball bearing structure by the connection ball 210 and the groove, so that the support part 200 can rotate at various angles with minimal friction, the support part 200 is It is characterized in that the support force is secured and the angle and inclination desired by the side support part 200 can be implemented.

In addition, the support part 200 may be provided on a plane of the support part 200 in contact with the side formwork 10, further including a magnet 230, wherein the side formwork 10 is a steel plate It is preferably formed of. In more detail, the support part 200 may be formed such that the entire connection support part 220 is formed of a magnet 230, or a magnet 230 is included in a part of the plane of the connection support part 220, and the The connection support 220 may be bonded by the side formwork 10 formed of a steel plate and the magnet 230. Accordingly, even if the angle between the support part 200 and the side formwork 10 is changed using a ball bearing structure to form an inclination angle of the side formwork 10, the support part 200 and the side formwork 10 ) It is characterized in that it can form a more stable curve and inclination angle of the atypical panel (1) is not dropped out.

4 and 5, the first step motor 300 is provided at the other end of the side rod 100, and is formed in a plurality and provided in each of the plurality of side rods 100. It characterized in that it is possible to form an inclination angle of the side formwork 10 by moving the support part 200 connected to the side rod 100 in the front and rear direction. Since the first step motor 300 must be provided on the plurality of side rods 100, it is appropriate to be formed equal to the number of the side rods 100. In addition, the first step motor 300 is characterized in that the length of the side rod 100 is adjusted, and by adjusting the length of the side rod 100 by the first step motor 300, the It is characterized in that the front-rear position of the support part 200 provided at one end of the side rod 100 is changed. In more detail, when the length of the side rod 100 is shortened by the first step motor 300, the position of the support part 200 connected to the side rod 100 is moved backward, and the first 1 When the length of the side rod 100 is increased by the step motor 300, the position of the support part 200 is moved forward, and the position of the support part 200 in the front and rear direction is changed.

Referring to FIGS. 4 and 5, the second step motor 400 is provided under the side rod 100, and moves the side rod 100 in the vertical direction, so that the side formwork ( It is characterized in that it can form a curvature of 10). The second step motor 400 is characterized in that the height between the side rod 100 is adjusted in the vertical direction, that is, from the ground, and the second step motor 400 is formed in a plurality of It is provided under the rod 100 and may be formed to adjust the height of each of the side rods 100. In addition, since the side formwork 10 supported by the support part 200 has a predetermined width, one or more of the second step motors 400 are provided to hold the plurality of side rods 100 together in the vertical direction. It can be formed to move together. In one embodiment, the second step motor 400 is preferably formed of one or more, and the side mold so that the plurality of side rods 100 can be moved together by the second step motor 400 (10) It may be configured to further include a connecting means for connecting the plurality of side rods 100 arranged in the vertical direction to each other in the vertical direction. The connecting means is to connect the plurality of side rods 100 to each other at the rest of the side rods 100 except for the front and rear portions of the side rods 100 so as not to interfere with the movement of each side rod 100 in the front and rear direction. desirable.

The first step motor 300 and the second step motor 400 may operate by receiving information from an external device, and each of the first step motor 300 and the second step motor 400 ) Is characterized in that different actions can be individually performed. Since the first step motor 300 and the second step motor 400 can be individually numerically controlled and operated, the movement of the side rod 100 is also very precise, and the movement of the side rod 100 Accordingly, there is an advantage that the shape of the side formwork 10 forming a curvature and an inclination angle can also be precisely formed. Accordingly, the atypical panel 1 formed by the present invention has the advantage that it can be manufactured while maximizing the design shape, and the atypical panel 1 including various curvatures and inclination angles can be produced.

2, 4 and 5, in an embodiment of the present invention, the connecting means includes a plurality of members, and the plurality of members are coupled to the plurality of side rods 100, respectively. , Another member may be formed in a structure of a frame 500 in which a plurality of members are all connected in a vertical direction in a part, and the side rods 100 are all vertically connected by the frame 500 It is characterized by being connected. At this time, at least one second step motor 400 is connected to a predetermined portion of the frame 500, and by the second step motor 400, the second step motor 400 and the frame 500 ), the length between them is reduced or increased, and the height of the side rod 100 from the ground is adjusted so that the side rod 100 is moved vertically. In more detail, when the length between the side rod 100 and the frame 500 is shortened by the second step motor 400, the side rod 100 is moved downward, and the second When the length between the side rod 100 and the frame 500 is increased by the step motor 400, the position of the side rod 100 is moved upward.

In addition, when the frame 500 is moved in the vertical direction by the second step motor 400, the frame 500 may be formed to include one or more pillars 510 that can be guided in one direction. have. It is preferable that the pillar 510 is erected in the vertical direction in which the side rod 100 moves, and at least one pillar 510 is fitted to the frame 500 so that the frame 500 is attached to the pillar ( It is appropriate to be formed to move in the vertical direction along the 510).

In addition, referring to FIG. 6, the present invention may further include a main frame 600 capable of fixing the pillar 510, and the main frame 600 is for embedding the above-described components. As long as it is formed so as to include at least one of the side rod 100, the support part 200, the first and second step motors 300 and 400, and the frame 500, it does not matter. The body frame 600 shown in FIG. 6 is an embodiment of the present invention, and when the present invention is configured to include a plurality of the pillars 510, it may be combined with the upper and lower sides of the pillars 510. It is preferable to include upper and lower members having a height. However, the main frame 600 is at one side of the main frame 600 where the main frame 600 and the side frame 600 meet so as not to obstruct the front and rear movement of the side rod 100 The body frame 600 is not formed, or when formed, it is preferable that the body frame 600 on one side is formed with a through hole in the vertical direction so that the side rod 100 is positioned in the through hole Do. The body frame 600 is preferably configured to have a size that can accommodate all of the side rod 100, the first step motor 300, the frame 500, and the pillar 510, in this case It is appropriate that the side rod 100 is formed so that only a part of the other side of the side rod 100 excluding the support part 200 is embedded in the longitudinal direction of the side rod 100. In addition, the main frame 600 may be formed to contain the second step motor 400, but the second step motor 400 may be configured to be coupled to an outer lower side of the main frame.

Hereinafter, the angle adjusting device 1000 including the above-described components will be described in more detail through an embodiment of the present invention.

6 is the angle adjusting device 1000 including the main frame 600, and in an embodiment of the present invention, it includes a plurality of the side rods 100 disposed in the vertical direction. In one embodiment, the side rod 100 is formed in two, and the support part 200 in the form of a ball bearing is attached to one end of each side rod 100, and the support part 200 at this time is a steel plate It characterized in that it comprises a magnet 230 that can be bonded with the side formwork (10). In addition, the first step motor 300 is provided at the other end of the two side rods 100, respectively, so as to adjust the length of the side rod 100.

The frame 500 is formed by attaching a support plate having a predetermined width to the lower side of the first step motor 300 on the upper side and the lower side of the first step motor 300 on the upper side. The other side of the frame 500, that is, from the rear of the first step motors 300, is formed by adding a support plate having a predetermined width that is connected in the vertical direction.

One or more of the second step motors 400 are provided in the frame 500, and the one or more second step motors 400 are coupled to the lower side of the frame 500, and the second step motor 400 ) Moves the side rods 100 in the vertical direction by adjusting the distance between the frame 500 on the lower side and the main frame 600 on the lower side. One or more of the second step motors 400 may be disposed side by side, and may be disposed at an oblique angle as shown in an embodiment. In addition, the main body of the second step motor 400 may be provided outside the main frame 600 and may be formed to be coupled to the lower side of the main frame 600 as shown.

When the frame 500 is moved in the vertical direction by the operation of the second step motor 400, the four pillars 510 are formed through the frame 500 so that it can only be moved in one direction. The frame 500 may be stably moved along the pillar 510. A cap is provided at a portion where the pillar 510 and the frame 500 come into contact, so that the gap between the upper frame 500 and the lower frame 500 may be kept constant. The pillar 510 may be supported by having an upper side and a lower side coupled to the upper side and the lower side of the inner side of the body frame 600, respectively.

7 shows that the side rod 100 is moved in the front and rear direction by the operation of the first step motor 300 to form an inclination angle of the side formwork 10. In more detail, in order to form the angle in which the side formwork 10 is shown, first, the length of the side rod 100 is adjusted. This may be that the length of the upper side rod 100 is lengthened by the operation of the upper first step motor 300 and the upper support part 200 moves forward, and also the lower first step motor ( By the operation of 300), the length of the side rod 100 on the lower side is shortened, and the support part 200 on the lower side may be moved backward. Due to the operation of the first step motor 300 on the upper side and/or the upper side, the support part 200 is moved in the front and rear direction, and according to the angle change of the side formwork 10, the support part 200 Through the connection ball 210 of, the support part 200 is bent downward with minimal friction, and the support part 200 supports the side formwork 10 at a changed inclination angle of the side rod 100 do.

FIG. 8 shows that the side rod 100 is moved vertically by the operation of the second step motor 400 to form a curvature of the side mold 10. In order to form the curvature of the side formwork 10, the side rod 100 moves up and down and adjusts the position of the side formwork 10 attached to the support part 200 in the vertical direction. At this time, a plurality of the plates constituting the side formwork 10 are connected to each other so as to be deformed into different vertical positions. It may be formed by adjusting the distance between the second step motor 400 and the lower frame 500 connected to the second step motor 400 through the operation of the second step motor 400. . In more detail, when the gap between the frame 500 and the second step motor 400 on the lower side increases due to the operation of the second step motor 400, the side mold supported by the side rod 100 ( 10) moves upward and forms a curvature due to a positional difference with the adjacent side formwork 10, and the frame 500 and the second lower side by the operation of the second step motor 400 When the gap between the step motors 400 is narrowed, the side formwork 10 supported by the side rod 100 moves downward and forms a curvature. According to the operation shown in FIG. 8, the side formwork 10 gradually forms a downwardly inclined curvature by the second step motor 400 and the side rod 100.

In the present invention, since the plurality of first step motors 300 and the second step motors 400 can be configured to have different movements but operate simultaneously, various aspects can be implemented, and changes to the operation Since this is easily formed, there is an advantage that it is suitable for making the above-described irregular panel 1 of various shapes. In addition, by changing the operation of the first step motor 300 and the second step motor 400, the shape of the side formwork 10 can be changed, so that reuse is possible, and individual numerical control can be precisely controlled. Thus, there is an advantage in that it is possible to manufacture the atypical panel 1 having a shape very similar to that of the designed atypical panel 1.

9, the present invention may be formed as an assembly in which the angle adjusting device 1000 is connected in plurality, and the assembly 2000 is an angle adjusting device 1000 of the plurality of side molds 10. ) May be formed to be disposed in the same direction as the direction in which the plate of the side formwork 10 is disposed. In addition, as shown in FIG. 10, the assembly 2000 is formed such that the angle adjusting device 1000 of the plurality of side formwork 10 is disposed radially so that the support part 200 is located at the center. I can.

The assembly 2000 may manufacture the atypical panel 1 having a polygonal shape such as a triangle or a quadrangle according to the shape in which the angle adjusting device 1000 is arranged and the side formwork 10, and the side rod It is characterized in that it is possible to form an atypical panel 1 having a different curvature and inclination angle for each side by the side formwork 10 on which 100 is mounted. In addition, since all the first step motors 300 and the second step motors 400 provided in the assembly 2000 can be moved individually to change their shape freely, all possible shapes of atypical panels 1 ) Can be manufactured and used in various fields, and by continuously changing the position of the side rod 100, the side formwork 10 of a different shape can be formed, so that it is economical and environmentally possible because it can be reused. There is an advantage that efficiency is greatly improved.

As described above, in the present invention, specific matters such as specific components, etc. and limited embodiments have been described, but this is provided only to aid in a more general understanding of the present invention, and the present invention is limited to the above-described embodiment. It is not, and those of ordinary skill in the field to which the present invention belongs can make various modifications and variations from this description.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be determined, and all things equivalent or equivalent to the claims as well as the claims to be described later belong to the scope of the spirit of the present invention. .

1: ragged panel 10: side formwork
100: side rod
200: support 210: connecting ball
220: connection support 230: magnet
300: first step motor
400: second step motor
500: frame 510: pillar
600: main frame
1000: angle adjusting device 2000: assembly

Claims (8)

In the device for adjusting the angle of the side formwork, which is included in the equipment for producing an atypical concrete panel for producing an atypical panel, and wherein a plurality of square plates are arranged in a plane direction
A side rod having a length-adjustable rod shape and configured as a plurality of side rods disposed in a direction perpendicular to the plane of the side formwork;
A support part formed at one end of the side rod so as to contact the side formwork to support the side formwork;
A first step motor provided at the other end of the plurality of side rods, respectively, to adjust the length of the side rod to move the support portion in the front and rear direction; And
One or more second step motors provided under the side rods and moving the side rods in an up-down direction;
Including,
The support part,
A connection ball coupled to one end of the side rod; And a connection support part including a flat surface supporting the side formwork on the other side and having a groove formed therein so that the connection ball is inserted therein.
The method of claim 1,
The plurality of side rods,
The angle adjusting device of the side formwork, characterized in that aligned in a direction perpendicular to the direction in which the side formwork is arranged.
delete The method of claim 1,
The support includes a magnet,
The angle adjusting device of the side formwork, characterized in that bonded to the side formwork formed of a steel plate.
The method of claim 1,
Including; a frame for connecting the plurality of side rods and the first step motor in the vertical direction,
The frame is connected to the second step motor,
The second step motor adjusts the height of the frame from the ground to move the side rod in the vertical direction.
The method of claim 5,
The frame,
Contains one or more pillars,
The frame, the angle adjusting device of the side formwork, characterized in that the vertical movement along the column.
In an assembly in which a plurality of angle adjusting devices of the side formwork of claim 1 are connected,
The angle adjusting device of the plurality of side formwork,
The angle adjusting device assembly of the side formwork, characterized in that disposed in the same direction as the plate of the side formwork.
The method of claim 7,
The angle adjusting device of the plurality of side formwork,
The angle adjusting device assembly of the side formwork, characterized in that the support is arranged radially so as to be located in the center.

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