CN210551972U - Concrete beam and decorative layer integrated into one piece device - Google Patents

Abstract

The utility model provides a concrete beam and decorative layer integrated forming device, which relates to the technical field of concrete beam forming devices and comprises a fixed die shell component and a movable die shell component; because the movable mould shell assembly is connected with the fixed mould shell assembly, the first forming cavity is formed in the movable mould shell assembly and the fixed mould shell assembly, the decorative layer can be formed in the first forming cavity in a pouring mode, and a second forming cavity for forming a concrete beam in a pouring mode is formed between the fixed mould shell assembly and the movable mould shell assembly in a surrounding mode.

Description

Concrete beam and decorative layer integrated into one piece device

Technical Field

The utility model belongs to the technical field of the concrete beam forming device technique and specifically relates to a concrete beam and decorative layer integrated into one piece device is related to.

Background

The concrete beam or the concrete column is an indispensable main supporting structure in projects such as buildings, roads and bridges, the concrete beam is formed by casting a formwork integrally, and after the buildings or the bridges are built, the outer surface of the concrete beam can be beautified and decorated in order to achieve a good aesthetic effect.

The existing means for decorating the concrete beam is mainly to paste ceramic tiles or other composite material plates with better aesthetic property on the outer surface of the concrete beam so as to form a decorative layer on the outer surface of the concrete beam, but the subsequent process for adding the decorative layer to the concrete beam is complex, the manufacturing cost is higher, and the construction period is long.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art that is known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete beam and decorative layer integrated into one piece device to the technical problem that the work of adding the decorative layer to the concrete beam among the prior art is comparatively difficult has been alleviated.

In order to solve the technical problem, the utility model provides a technical scheme lies in:

the utility model provides a concrete beam and decorative layer integrated forming device, which comprises a fixed mould shell component and a movable mould shell component;

the movable mold shell assembly is connected with the fixed mold shell assembly, and a first molding cavity for casting and molding the decorative layer is arranged on the movable mold shell assembly and the fixed mold shell assembly;

and a second molding cavity for concrete beam casting is formed between the fixed mold shell assembly and the movable mold shell assembly in an enclosing manner, and a casting material is poured into the second molding cavity so that the decorative layer is naturally molded outside the concrete beam.

Further, the mobile formwork assembly comprises a first folding formwork and a second folding formwork;

the first folding mould shell and the second folding mould shell are both provided with the first forming cavity, the first folding mould shell is rotatably connected with the fixed mould shell assembly, the second folding mould shell is rotatably connected with one side, far away from the first folding mould shell, of the fixed mould shell assembly, and the first folding mould shell and the second folding mould shell are used for rotating relative to the fixed mould shell so as to form the second forming cavity by enclosing among the first folding mould shell, the second folding mould shell and the fixed mould shell assembly.

Further, the first folding formwork comprises a first formwork body and a first enclosing and blocking part;

the first formwork body is rotatably connected with the fixed formwork component, the first enclosing part is arranged on the first formwork body, and the first forming cavity is formed by enclosing the first enclosing part and the first formwork body.

Further, the fixed mould shell assembly comprises a fixed mould shell body and a second surrounding stopper;

the movable mould shell component is rotatably connected with the fixed mould shell body, the second enclosing and blocking piece is arranged on the fixed mould shell body, and the first forming cavity is formed between the second enclosing and blocking piece and the fixed mould shell body.

Further, the fixed die shell assembly also comprises a first limit part, a second limit part and a connecting part;

the first limiting part and the second limiting part are both arranged on the second enclosing and blocking part, the connecting part is arranged between the first limiting part and the second limiting part, one end of the connecting part is connected with the first limiting part, and the other end of the connecting part is connected with the second limiting part.

Further, the concrete beam and decorative layer integrated forming device further comprises a first reinforcing part;

the first reinforcing part is arranged in the first molding cavity and used for improving the molding strength of the decorative layer.

Further, the first reinforcing part includes a first reinforcing member and a second reinforcing member;

the first reinforcing part is arranged in the first molding cavity, one end of the second reinforcing part is connected with the first reinforcing part, and the other end of the second reinforcing part extends into the second molding cavity.

Further, the concrete beam and decorative layer integrated forming device further comprises a second reinforcing part;

the second reinforcing part is arranged in the second forming cavity, and the second reinforcing part is connected with one end, far away from the first reinforcing part, of the second reinforcing part.

Furthermore, the second reinforcing parts are arranged in a plurality of numbers, and the second reinforcing parts are connected into an integral structure through connecting pieces.

Further, the concrete beam and decorative layer integrated forming device further comprises a fixing piece;

the fixing piece is connected with the movable mold shell assembly, and the fixing piece is used for fixing the second reinforcing part on the movable mold shell assembly.

Technical scheme more than combining, the utility model discloses the beneficial effect who reaches lies in:

the utility model provides a concrete beam and decorative layer integrated forming device, which comprises a fixed mould shell component and a movable mould shell component; because the movable mould shell assembly is connected with the fixed mould shell assembly, the first forming cavity is formed in the movable mould shell assembly and the fixed mould shell assembly, the decorative layer can be formed in the first forming cavity in a pouring mode, and a second forming cavity for forming a concrete beam in a pouring mode is formed between the fixed mould shell assembly and the movable mould shell assembly in a surrounding mode.

Drawings

For a clear explanation of the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of an integrated forming device for a concrete beam and a decorative layer according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a concrete beam and decorative layer integrated forming device provided with a decorative layer according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a folded state of the concrete beam and decorative layer integrated forming device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a first folding formwork in an integrated forming device of a concrete beam and a decorative layer according to an embodiment of the present invention;

fig. 5 is a schematic structural view illustrating a connection between a first folding formwork and a second reinforcing portion in an integrated concrete beam and decorative layer forming apparatus according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a fixed formwork body in the concrete beam and decorative layer integrated forming device according to the embodiment of the present invention.

Icon: 100-a fixed mould shell assembly; 110-fixing the formwork body; 120-a second fence; 130-a first limiting part; 140-a second limiting part; 150-a connecting portion; 200-moving the mold shell assembly; 210-a first folding form; 211-a first formwork body; 212-first fence; 220-a second folding form; 300-decorating layer; 400-a first molding cavity; 500-a second mold cavity; 600-a first reinforcement; 610-a first stiffener; 620-a second stiffener; 700-a second reinforcement; 800-a connector; 900-fixing element.

Detailed Description

The technical solution of the present invention will be described in detail and fully with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, the indicated orientation or positional relationship thereof is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" as appearing herein are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may for example be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, 2 and 3, the present embodiment provides an apparatus for integrally molding a concrete beam with a decorative layer 300, which includes a fixed mold shell assembly 100 and a movable mold shell assembly 200; the movable mold shell assembly 200 is connected with the fixed mold shell assembly 100, and a first molding cavity 400 for molding the decorative layer 300 by casting is arranged on the movable mold shell assembly 200 and the fixed mold shell assembly 100; a second cavity 500 for forming a concrete beam is defined between the fixed mold shell assembly 100 and the movable mold shell assembly 200, and a casting material is poured into the second cavity 500, so that the decorative layer 300 is naturally formed outside the concrete beam.

Specifically, the movable mold shell assembly 200 is provided with a first molding cavity 400, the fixed mold shell assembly 100 is also provided with the first molding cavity 400, the first molding cavity 400 is used for casting molding of device materials or paving molding of decorative materials, as an optional embodiment of the embodiment, preferably, the decorative layer 300 is provided with high-strength fiber composite materials, specifically, pre-cast glass fiber reinforced gypsum boards, the glass fiber reinforced gypsum boards are special modified fiber gypsum decorative materials, the molding randomness is good, and the unique material composition mode enables the decorative layer to well resist damage, deformation and cracking caused by external environments.

The decoration layer 300 is pre-cast in the first molding cavity 400, and is specifically molded by the following process: the first layer is laid with alkali-resistant glass fiber felt soaked by gypsum slurry and used for controlling the surface effect, strength and flatness of the product; a second layer, which is used for controlling the thickness of the product by spraying a material with gypsum slurry and alkali-resistant glass fiber by a coaxial spray gun, wherein the content of the glass fiber is not less than 5 percent of the mixed slurry; a third layer, laying a layer of alkali-resistant glass fiber mesh cloth for controlling the strength and the flatness of the product; a fourth layer, laying alkali-resistant glass fiber felt soaked by gypsum slurry; a fifth layer, spraying the materials with the gypsum slurry and the alkali-resistant glass fiber by a coaxial spray gun; a sixth layer, laying a layer of alkali-resistant glass fiber mesh cloth; each layer is compacted by a roller, the strength of the decoration layer 300 can be obviously improved through the arrangement of six layers in a stacking mode, the service life is further prolonged, the formed decoration layer 300 is lighter than concrete, the strength is equal to that of the concrete, the setting time is short, the demolding can be rapidly carried out within 1-2 hours, and the forming of the concrete beam is not influenced.

The second molding cavity 500 is formed by enclosing among the decoration layer 300, the fixed mold shell assembly 100 and the movable mold shell assembly 200, the first molding cavity 400 is communicated with the second molding cavity 500, and after the decoration layer 300 is molded, concrete is poured into the second molding cavity 500, so that the decoration layer 300 is naturally bonded outside the concrete beam, the decoration layer 300 and the concrete beam are integrally molded, the subsequent construction period of adhering the decoration layer 300 on the concrete beam is greatly shortened, the molding process is simple, and the cost is lower.

In the concrete beam and decoration layer 300 integrated forming device provided by the embodiment, because the movable mold shell assembly 200 is connected with the fixed mold shell assembly 100, the first molding cavity 400 is formed in the movable mold shell assembly 200 and the fixed mold shell assembly 100, the decoration layer 300 can be molded in the first molding cavity 400 by casting, and because the second molding cavity 500 for molding the concrete beam is formed between the fixed mold shell assembly 100 and the movable mold shell assembly 200 by enclosing, after the decoration layer 300 is molded in the first molding cavity 400 by casting, a casting material is poured in the second molding cavity 500, the decoration layer 300 can be naturally molded outside the concrete beam, the technical problem that the operation of adding the decoration layer 300 to the concrete beam in the prior art is difficult is solved, the integrated molding of the decoration layer 300 and the concrete beam is realized, the implementation is easy, and the construction period is short.

On the basis of the above embodiments, further, the mobile formwork assembly 200 in the concrete beam and decoration layer 300 integrated forming device provided by the present embodiment includes a first folding formwork 210 and a second folding formwork 220; the first folding mold shell 210 and the second folding mold shell 220 are both provided with a first molding cavity 400, the first folding mold shell 210 is rotatably connected with the fixed mold shell assembly 100, the second folding mold shell 220 is rotatably connected with one side of the fixed mold shell assembly 100 far away from the first folding mold shell 210, and the first folding mold shell 210 and the second folding mold shell 220 are used for rotating relative to the fixed mold shell so as to enclose and form a second molding cavity 500 among the first folding mold shell 210, the second folding mold shell 220 and the fixed mold shell assembly 100.

Specifically, the first and second folded mold shells 210 and 220 have the same structure, and are respectively disposed at the left and right sides of the fixed mold shell assembly 100, and the first folding form 210 and the second folding form 220 are both pivotally connected to the fixed form assembly 100, for example, rotating shafts are arranged at two ends of the first folding mould shell 210, taking the rotating shaft at one end of the first folding mould shell 210 as an example, one end of the rotating shaft is fixedly connected with the first folding mould shell 210, a shaft hole matched with the rotating shaft is arranged on the fixed mould shell assembly 100, one end of the rotating shaft far away from the first folding mould shell 210 extends into the shaft hole, the connecting structure between the second folding mould shell 220 and the fixed mould shell assembly 100 is the same as the connecting structure between the first folding mould shell 210 and the fixed mould shell assembly 100, such that both the first folding form 210 and the second folding form 220 can rotate relative to the stationary form assembly 100.

The first folding mold shell 210, the second folding mold shell 220 and the fixed mold shell assembly 100 are all provided with a first molding cavity 400, before or during molding of the decoration layer 300, the first folding mold shell 210, the second folding mold shell 220 and the fixed mold shell assembly 100 are integrally and flatly placed on a supporting plane, and the plane of the first folding mold shell 210, the plane of the second folding mold shell 220 and the plane of the fixed mold shell assembly 100 are coplanar; after the decoration layer 300 is formed in the first forming cavity 400, the first folding mold 210 and the second folding mold 220 are rotated relative to the fixed mold assembly 100, and more vividly, the first folding mold 210 and the second folding mold 220 are folded relative to the fixed mold assembly 100, so as to form the second forming cavity 500 enclosed among the first folding mold 210, the decoration layer 300, the second folding mold 220 and the fixed mold assembly 100, and at this time, it is preferable that the plane of the first folding mold 210 and the plane of the second folding mold 220 are both perpendicular to the plane of the fixed mold.

Further, the first folding formwork 210 includes a first formwork body 211 and a first surrounding stopper 212; the first mold shell body 211 is rotatably connected with the fixed mold shell assembly 100, the first surrounding stopper 212 is disposed on the first mold shell body, and a first molding cavity 400 is formed between the first surrounding stopper 212 and the first mold shell body 211.

Specifically, the first mold shell body 211 is made of a high-strength composite material or a metal material, both ends of the first mold shell body 211 are provided with rotating shafts rotatably connected with the fixed mold shell assembly 100, the first surrounding and blocking member 212 is configured as a strip-shaped surrounding and blocking structure, the first surrounding and blocking member 212 is disposed on the first mold shell body 211, the first surrounding and blocking member 212 is connected with the first mold shell body 211 in a welding manner, and the height of the first surrounding and blocking member 212 corresponds to the thickness of the decoration layer 300.

As shown in fig. 4, the first enclosing and blocking member 212 is enclosed to be a rectangle with a gap on one side, and the gap is located on one side of the rectangle close to the fixed mold shell assembly 100, so that the first forming cavity 400 enclosed between the first enclosing and blocking member 212 and the first mold shell 211 is communicated with the first forming cavity 400 arranged on the fixed mold shell assembly 100, and similarly, the first forming cavity 400 arranged on the second folded mold shell 220 is also communicated with the first forming cavity 400 arranged on the fixed mold shell assembly 100, so that the decorative layer 300 is formed as a complete decorative layer on the concrete beam and decorative layer 300 integrated forming device provided in this embodiment, and then the complete decorative layer can be cut according to requirements, for example, the complete decorative layer is cut into three pieces, and the cutting position is located at the boundary line between the first folded mold shell 210, the second folded mold shell 220 and the fixed mold shell assembly 100. The second folding form 220 is identical to the first folding form 210, and the description thereof is omitted.

As another embodiment of this embodiment, the first enclosing member 212 is enclosed to form a closed rectangle, so that the first forming cavity 400 enclosed between the first enclosing member 212 and the first formwork body 211 is not communicated with the first forming cavity 400 provided on the fixed formwork assembly 100, and similarly, the first forming cavity 400 provided on the second folding formwork 220 is not communicated with the first forming cavity 400 provided on the fixed formwork assembly 100, so that the decorative layer 300 is formed as three independent decorative plates on the concrete beam and decorative layer 300 integrated forming device provided in this embodiment.

The concrete beam and the decorative layer 300 integrated into one piece device that this embodiment provided, the second folding die shell 220 and the first folding die shell 210 are in when keeping flat, easily the decorative layer 300 shaping, and the second folding die shell 220 and the first folding die shell 210 can be to the fixed die shell subassembly 100 when folding, the pouring of easy concrete beam, simple structure, convenient to use.

On the basis of the above embodiment, further, the fixed formwork assembly 100 in the concrete beam and decoration layer 300 integrated forming device provided by the present embodiment includes a fixed formwork body 110 and a second surrounding stopper 120; the movable mold shell assembly 200 is rotatably connected to the fixed mold shell body 110, the second surrounding stopper 120 is disposed on the fixed mold shell body 110, and a first molding cavity 400 is formed between the second surrounding stopper 120 and the fixed mold shell body 110.

Specifically, the fixed formwork body 110 is made of a high-strength composite material or a metal material, the first folding formwork 210 and the second folding formwork 220 are rotatably connected to the fixed formwork body 110 through a rotating shaft, and the structure of the second surrounding blocking member 120 is the same as that of the first surrounding blocking member 212, which is not described herein again.

Further, the fixed mold shell assembly 100 further includes a first stopper portion 130, a second stopper portion 140, and a connecting portion 150; the first position-limiting portion 130 and the second position-limiting portion 140 are both disposed on the second surrounding stopper 120, the connecting portion 150 is disposed between the first position-limiting portion 130 and the second position-limiting portion 140, one end of the connecting portion 150 is connected to the first position-limiting portion 130, and the other end is connected to the second position-limiting portion 140.

Specifically, as shown in fig. 6, the first limiting portion 130 and the second limiting portion 140 are both configured as limiting plates, the connecting portion 150 is configured as a connecting plate, the connecting portion 150 is configured as two, the two connecting portions 150 are respectively disposed at two ends of the first limiting portion 130 or the second limiting portion 140, and the two connecting portions 150 are both clamped between the first limiting portion 130 and the second limiting portion 140, taking one of the connecting portions 150 as an example, the connecting screw sequentially passes through the first limiting portion 130, the connecting portion 150 and the second limiting portion 140, two ends of the connecting screw are respectively provided with a nut to connect the first limiting portion 130, the connecting portion 150 and the second limiting portion 140 into an integral structure, and the first limiting portion 130, the connecting portion 150 and the second limiting portion 140 are integrally disposed on the second surrounding and blocking member 120; the first folding formwork 210 is folded relative to the fixed formwork body 110, so that one side surface of the first folding film casing is attached to the first limiting portion 130, the second folding formwork 220 is folded relative to the fixed formwork body 110, so that one side surface of the second folding film casing is attached to the second limiting portion 140, the first limiting portion 130 plays a role in limiting the first folding film casing, and equivalently, the second limiting portion 140 plays a role in limiting the second folding film casing; in addition, after the concrete beam is formed, the nuts at the two ends of the connecting screw rod are unscrewed, so that the decomposition among the first limiting part 130, the connecting part 150 and the second limiting part 140 can be realized, and the rapid demoulding of the concrete beam is facilitated.

The concrete beam and decorative layer 300 integrated into one piece device that this embodiment provided carries on spacingly to first folding membrane shell through first spacing portion 130, and spacing portion 140 of second carries on spacingly to the folding membrane shell of second for the concrete beam that this embodiment provided is more convenient with the use of decorative layer 300 integrated into one piece device, through disassembling first spacing portion 130 and the spacing portion 140 of second, has improved the drawing of patterns efficiency of concrete beam.

On the basis of the above embodiment, further, the concrete beam and decoration layer 300 integrated forming apparatus provided in this embodiment further includes a first reinforcement portion 600; the first reinforcement part 600 is disposed in the first molding cavity 400, and the first reinforcement part 600 is used to improve the molding strength of the decoration layer 300.

Specifically, since the first reinforcement part 600 is disposed in the first molding cavity 400, the first reinforcement part 600 is embedded in the decoration layer 300 during the casting or pre-casting process of the decoration layer 300, so as to improve the overall strength of the decoration layer 300.

Further, the first reinforcement portion 600 includes a first reinforcement 610 and a second reinforcement 620; the first reinforcing member 610 is disposed in the first molding cavity 400, and one end of the second reinforcing member 620 is connected to the first reinforcing member 610 and the other end thereof extends into the second molding cavity 500.

Specifically, the first reinforcement part 600 is configured as a reinforcement cage or a reinforcement mesh, as an alternative embodiment of the embodiment, preferably, as shown in fig. 5, the first reinforcement part 600 includes a first reinforcement member 610 and a second reinforcement member 620, the first reinforcement member 610 and the second reinforcement member 620 are configured as reinforcement reinforcing bars, the first reinforcement member 610 is disposed in the first molding cavity 400, the first reinforcement member 610 is configured in a plurality, the plurality of first reinforcement members 610 are sequentially and uniformly spaced in a horizontal plane, each first reinforcement member 610 is provided with a plurality of second reinforcement members 620, an axis of each second reinforcement member 620 is perpendicular to an axis of the first reinforcement member 610, and the first reinforcement member 610 is welded to the first reinforcement member 610.

Further, the concrete beam and decoration layer 300 integrally forming device further includes a second reinforcement 700; the second reinforcement part 700 is disposed in the second molding cavity 500, and the second reinforcement part 700 is connected to an end of the second reinforcement member 620 remote from the first reinforcement member 610.

Specifically, the second reinforcement part 700 is configured as a steel bar cage or a steel bar mesh, and as an optional implementation manner of the embodiment, preferably, the second reinforcement part 620 is configured as a steel bar truss structure, the steel bar truss structure is formed by welding a plurality of steel bars, and the cross section of the steel bar truss is configured as a triangle; the steel bar truss structure is placed in the second molding cavity 500, and concrete is poured in the second molding cavity 500, so that the second reinforcement 700 is buried in the concrete beam to increase the strength of the concrete beam; the end of the second reinforcement 620 protruding out of the first molding cavity 400 is welded to the second reinforcement 700, so that the coupling between the concrete beam and the decoration layer 300 is more secure, while increasing the overall strength between the decoration layer 300 and the concrete beam.

Further, the second reinforcing part 700 is provided in plurality, and the plurality of second reinforcing parts 700 are connected to form an integral structure by the connecting member 800.

Specifically, as shown in fig. 3, the connecting members 800 are U-shaped steel bars, the second reinforcing portions 700 are disposed on the upper portions of the first folding form 210, the second folding form 220 and the fixed form 110, so that the first folding form 210 and the second folding form 220 are folded with respect to the fixed form 110, the first folding form 210 abuts against the first limiting portion 130, the second folding form abuts against the second limiting member, the connecting members 800 are connected to the first folding form 210, the second folding form 220 and the second reinforcing portion 700 on the upper portion of the fixed form 110, preferably, the connecting members 800 are welded to the first folding form 210, the second folding form 220 and the second reinforcing portion 700 on the upper portion of the fixed form 110, the connecting members 800 are also disposed in plural, the connecting members 800 are uniformly spaced along the axial direction of the second reinforcing portion 700, and each connecting member 800 is welded to the first folding form 210, the second folding form 220 and the second reinforcing portion 700 on the upper portion of the fixed form 110 at the same time, The second folding mold shell 220 and the second reinforcing part 700 fixed on the upper part of the mold shell body 110 are connected to form an integral structure between the second reinforcing parts 700 in the second molding cavity 500.

Further, the concrete beam and decoration layer 300 integrally forming apparatus further includes a fixing member 900; the fixing member 900 is connected to the movable mold shell assembly 200, and the fixing member 900 is used to fix the second reinforcement part 700 to the movable mold shell assembly 200.

Specifically, the fixing members 900 are disposed on the first folding form 210 and the second folding form 220, and the fixing members 900 are disposed at two ends of the second reinforcing portion 700, the fixing members 900 include a flexible fixing band and a fixing bolt, the flexible fixing band can be bent at will, a through hole matched with the fixing bolt is disposed on the flexible fixing band, a part of the steel bar at the end of the second reinforcing portion 700 is disposed between the flexible fixing band and the first folding form 210, or disposed between the flexible fixing band and the second folding form 220, the fixing bolt penetrates through the flexible fixing band and is connected with the first folding form 210 or the second folding form 220, so as to compress the second reinforcing portion 700 onto the first folding form 210 or the second folding form 220, and prevent the first folding form 210 and the second fixing form from moving in the process of folding relative to the fixing form body 110.

In the concrete beam and decoration layer 300 integrated forming device provided by the embodiment, the strength of the decoration layer 300 is improved by arranging the first reinforcing part 600; the overall strength of the concrete beam and the decorative layer 300 is improved by providing the second reinforcement 700; the fixing member 900 fixes the second reinforcing part 700 on the first folding form 210 or the second folding form 220, so that the position of the second reinforcing part 700 in the second molding cavity 500 is not easily moved, which is beneficial to the cast molding of the concrete beam.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a concrete beam and decorative layer integrated into one piece device which characterized in that includes: a fixed mold shell assembly (100) and a movable mold shell assembly (200);

the movable die shell assembly (200) is connected with the fixed die shell assembly (100), and a first molding cavity for molding a decorative layer by casting is arranged on the movable die shell assembly (200) and the fixed die shell assembly (100);

a second forming cavity for concrete beam pouring is formed between the fixed die shell assembly (100) and the movable die shell assembly (200) in an enclosing mode, and pouring materials are poured into the second forming cavity, so that the decorative layer is naturally formed outside the concrete beam.

2. The concrete beam and trim layer integrated molding apparatus of claim 1, wherein the movable formwork assembly (200) comprises a first folding formwork (210) and a second folding formwork (220);

the first folding formwork (210) and the second folding formwork (220) are both provided with the first molding cavities, the first folding formwork (210) is rotatably connected with the fixed formwork assembly (100), the second folding formwork (220) is rotatably connected with one side, away from the first folding formwork (210), of the fixed formwork assembly (100), and the first folding formwork (210) and the second folding formwork (220) are used for rotating relative to the fixed formwork so as to enclose the second molding cavities among the first folding formwork (210), the second folding formwork (220) and the fixed formwork assembly (100).

3. A concrete beam and trim layer integrated unit as claimed in claim 2, wherein said first folding formwork (210) comprises a first formwork body (211) and a first fence (212);

the first formwork body (211) is rotatably connected with the fixed formwork assembly (100), the first surrounding and blocking piece (212) is arranged on the first formwork body, and the first forming cavity is formed by surrounding the first surrounding and blocking piece (212) and the first formwork body (211).

4. The concrete beam and decorative layer integrated molding apparatus as claimed in claim 1, wherein the fixed formwork assembly (100) comprises a fixed formwork body (110) and a second surrounding stopper (120);

the movable mould shell assembly (200) is rotatably connected with the fixed mould shell body (110), the second enclosing and blocking piece (120) is arranged on the fixed mould shell body (110), and the first forming cavity is formed between the second enclosing and blocking piece (120) and the fixed mould shell body (110).

5. The concrete beam and decorative layer integrated molding device according to claim 4, wherein the fixed mold shell assembly (100) further comprises a first limit portion (130), a second limit portion (140) and a connecting portion (150);

the first limiting part (130) and the second limiting part (140) are arranged on the second enclosing and blocking part (120), the connecting part (150) is arranged between the first limiting part (130) and the second limiting part (140), one end of the connecting part (150) is connected with the first limiting part (130), and the other end of the connecting part is connected with the second limiting part (140).

6. The concrete beam and decorative layer integrated molding apparatus as claimed in claim 1, further comprising a first reinforcement (600);

the first reinforcing part (600) is arranged in the first forming cavity, and the first reinforcing part (600) is used for improving the forming strength of the decorative layer.

7. The concrete beam and trim layer integrated molding apparatus of claim 6, wherein the first reinforcement (600) includes a first reinforcement (610) and a second reinforcement (620);

the first reinforcing piece (610) is arranged in the first forming cavity, one end of the second reinforcing piece (620) is connected with the first reinforcing piece (610), and the other end of the second reinforcing piece extends into the second forming cavity.

8. The concrete beam and decorative layer integrated molding apparatus as claimed in claim 7, further comprising a second reinforcement (700);

the second reinforcing part (700) is arranged in the second forming cavity, and the second reinforcing part (700) is connected with one end, far away from the first reinforcing part (610), of the second reinforcing part (620).

9. The concrete beam and decorative layer integrated molding device as claimed in claim 8, wherein the second reinforcement part (700) is provided in plurality, and the plurality of second reinforcement parts (700) are connected into an integrated structure by a connection member (800).

10. The concrete beam and decorative layer integrated molding apparatus as claimed in claim 8, further comprising a fixing member (900);

the fixing member (900) is connected with the movable mold shell assembly (200), and the fixing member (900) is used for fixing the second reinforcing part (700) on the movable mold shell assembly (200).

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