CN215926703U - Bottom angle aluminum structure and aluminum alloy building template system - Google Patents

Abstract

The application provides a base angle aluminum structure and aluminum alloy building template system, relates to building construction technical field. The base angle aluminum structure includes: the bottom angle aluminum profile comprises a transverse sealing plate, a first vertical sealing plate and a second vertical sealing plate, wherein the transverse sealing plate is used for connecting the bottom of the aluminum mould wallboard, and a distance is reserved between the first vertical sealing plate and the second vertical sealing plate and is connected to the lower side of the transverse sealing plate; and the flexible plugging member comprises a plugging part and a connecting part, the plugging part is connected with the first vertical sealing plate and the second vertical sealing plate through the connecting part, and the plugging part is positioned at the lower side of the first vertical sealing plate and used for plugging a gap between the first vertical sealing plate and the floor. The base angle aluminum structure can block the gap between the base angle aluminum profile and the floor, mortar joint filling is not needed to be carried out manually, manpower can be saved, and mortar leakage from the position of the base angle aluminum structure can be avoided in the subsequent pouring process. The aluminum alloy building template system can save labor cost during construction by applying the bottom angle aluminum structure.

Description

Bottom angle aluminum structure and aluminum alloy building template system

Technical Field

The application relates to the technical field of building construction, in particular to a base angle aluminum structure and an aluminum alloy building template system.

Background

Aluminum alloy quick-release formwork systems have been used for nearly 50 years as a new formwork system.

The aluminum alloy building template system is processed by adopting an integrally extruded aluminum profile, is a new generation of green construction technology, mainly comprises a template system, a supporting system, a fastening system and an accessory system, and can be widely applied to various fields of reinforced concrete building structures. The whole system has the advantages of high standardization degree, light weight, strong bearing capacity, high matching precision, convenience in disassembly and assembly, large board surface, few abutted seams, good stability, long service life of the template, multiple turnover times, recycling, good economic benefit, high recovery value and safety and tidiness in construction site. The construction process does not need mechanical equipment assistance, has short construction period, no construction building rubbish and noise pollution, and smooth and flat surface after concrete pouring, and meets the national low-carbon emission reduction and the like.

In the aluminum alloy building template system, the base angle aluminum is mainly used for connecting the wall panel, so that the wall panel is convenient to disassemble, and the base angle aluminum can be fixed by nuts at the bottom end of the panel during installation. However, the existing bottom angle aluminum is generally fixed in length, a certain gap exists between the bottom angle aluminum and a floor, the common method is to splice the aluminum die and then joint the gap with mortar, and the joint filling is troublesome and consumes labor.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a base angle aluminum structure, it can improve the current base angle aluminum construction and need the manual work of costing of filling a seam to consume artifical problem.

It is another object of the present application to provide an aluminum alloy building formwork system including the above-described bottom angle aluminum structure having all of the characteristics of the bottom angle aluminum structure.

The embodiment of the application is realized as follows:

an embodiment of the present application provides a base angle aluminum structure, including:

the bottom angle aluminum profile comprises a transverse sealing plate, a first vertical sealing plate and a second vertical sealing plate, wherein the transverse sealing plate is used for connecting the bottom of the aluminum mould wallboard, and a distance is reserved between the first vertical sealing plate and the second vertical sealing plate and is connected to the lower side of the transverse sealing plate; and the flexible plugging member comprises a plugging part and a connecting part, the plugging part is connected with the first vertical sealing plate and the second vertical sealing plate through the connecting part, and the plugging part is positioned at the lower side of the first vertical sealing plate and used for plugging a gap between the first vertical sealing plate and a floor.

The horizontal sealing plate is after connecting the aluminium mould wallboard, and the flexible shutoff component of first perpendicular sealing plate below can lean on the shutoff portion to leak thick liquid from the clearance shutoff between first perpendicular sealing plate and the floor, when avoiding pouring. And the gap is not required to be subjected to gap filling treatment manually, so that the labor is saved.

In addition, the bottom corner aluminum structure provided by the embodiment of the application can also have the following additional technical characteristics:

in an optional embodiment of the present application, the first vertical sealing plate and the second vertical sealing plate are arranged side by side, a connecting groove is formed between the first vertical sealing plate and the second vertical sealing plate, and the connecting portion is located in the connecting groove.

The connecting portion can be established to the spread groove card, prevents that flexible shutoff component is whole to take place great translation, avoids influencing the shutoff effect because the amount of movement of flexible shutoff component is too big.

In an optional embodiment of the present application, the connecting portion is connected to the first vertical sealing plate and the second vertical sealing plate through screw and nut assemblies.

Screw nut subassembly convenient to use just connects reliably, can make flexible shutoff component and first perpendicular shrouding, the perpendicular closed relation of keeping reliable and stable between the second, vibration when avoiding installing aluminium mould wallboard leads to flexible shutoff component to drop.

In an alternative embodiment of the present application, the connecting portion has a kidney-shaped hole along the width direction, and the screw of the screw-nut assembly passes through the kidney-shaped hole.

The waist type hole can conveniently adjust the depth of insertion of connecting portion in the spread groove, and the height that obtains the shutoff portion obtains the adjustment, to the operating mode of floor unevenness, also can ensure the shutoff effect.

In an alternative embodiment of the present application, the width of the connecting groove is the same as the thickness of the connecting portion.

Connecting portion and spread groove just agree with, can further avoid connecting portion to take place the displacement in transversely, and guarantee shutoff portion can keep the gesture, avoids the shutoff effect to receive the influence.

In an optional embodiment of the application, one side of the connecting portion, which is far away from the blocking portion, is a blocking surface, the first vertical sealing plate is closer to the wall body to be poured than the second vertical sealing plate, one side of the first vertical sealing plate, which is far away from the second vertical sealing plate, is a wall surface, and the blocking surface is coplanar with the wall surface.

Because the plugging surface and the wall surface are coplanar, the flatness of the surface of the wall body formed by pouring can be ensured to meet the requirement.

In an alternative embodiment of the present application, the blocking portion and the connecting portion have an L-shaped cross section.

The plugging portion and the connecting portion with the L-shaped cross section can be matched with the structures of the first vertical sealing plate and the second vertical sealing plate, so that the bottom corner aluminum profile and the flexible plugging member are combined more tightly after installation.

In an alternative embodiment of the present application, the cross sealing plate and the first and second vertical sealing plates are F-shaped in cross-section.

The bottom angle aluminum profile of F shape can have better support intensity, avoids taking place to buckle behind the connection aluminium mould wallboard.

In an alternative embodiment of the present application, the bottom surface of the first vertical sealing plate is flush with the bottom surface of the second vertical sealing plate and parallel to the horizontal plane.

Because the bottom surface of first vertical shrouding and the vertical shrouding of second flushes and all is parallel with the horizontal plane, through observing the position relation of flexible shutoff component and the vertical shrouding of second in vertical direction, can learn the position relation in vertical direction between flexible shutoff component and the first vertical shrouding to whether enough clearance between first vertical shrouding of shutoff portion in vertical direction for the position of first vertical shrouding and floor is confirmed to the convenience.

The embodiment of the application provides an aluminum alloy building template system, including aluminium mould wallboard and above-mentioned any base angle aluminium structure, the horizontal closing plate of base angle aluminium structure connect in the bottom of aluminium mould wallboard.

By using the base angle aluminum structure, after formwork erecting, the aluminum alloy building formwork system does not need to depend on manpower to joint gaps between the base angle aluminum profiles and the floor one by one, so that the labor cost is saved, and the labor intensity is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic illustration of a bottom corner aluminum structure provided by an embodiment of the present application;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a schematic view of a bottom corner aluminum profile;

fig. 4 is a schematic view of a flexible occluding member.

Icon: 100-base angle aluminum configuration; 10-bottom corner aluminum profile; 11-a transverse sealing plate; 111-mounting holes; 12-a first vertical sealing plate; 121-against the wall surface; 13-a second vertical sealing plate; 20-a flexible occluding member; 21-a blocking part; 211-plugging surface; 22-a connecting part; 23-connecting grooves; 30-screw and nut assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the product conventionally places when used, and are only used for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either 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 application can be understood in a specific case by those of ordinary skill in the art.

Examples

Referring to fig. 1, an embodiment of the present application provides a bottom corner aluminum structure 100, including:

the bottom angle aluminum profile 10 comprises a transverse sealing plate 11, a first vertical sealing plate 12 and a second vertical sealing plate 13, wherein the transverse sealing plate 11 is used for connecting the bottom of the aluminum mould wallboard, and a space is formed between the first vertical sealing plate 12 and the second vertical sealing plate 13 and is connected to the lower side of the transverse sealing plate 11; and the flexible plugging member 20, the flexible plugging member 20 comprises a plugging portion 21 and a connecting portion 22, the plugging portion 21 is connected with the first vertical sealing plate 12 and the second vertical sealing plate 13 through the connecting portion 22, and the plugging portion 21 is located at the lower side of the first vertical sealing plate 12 and is used for plugging a gap between the first vertical sealing plate 12 and a floor.

The flexible plugging member 20 may be made of flexible rubber, and may be deformed to adapt to gaps with different widths, or deformed to seal the gaps, thereby preventing slurry leakage.

In brief, after the transverse sealing plate 11 is connected to the aluminum formwork panel, the flexible sealing member 20 below the first vertical sealing plate 12 can seal the gap between the first vertical sealing plate 12 and the floor by the sealing portion 21, so as to avoid slurry leakage from the gap during pouring. And the gap is not required to be subjected to gap filling treatment manually, so that the labor is saved.

Referring to fig. 2 and 3, in particular, the first vertical sealing plate 12 and the second vertical sealing plate 13 of the present application are disposed side by side, a connecting groove 23 is disposed between the first vertical sealing plate 12 and the second vertical sealing plate 13, and the connecting portion 22 is located in the connecting groove 23. The connecting groove 23 can be clamped with the connecting part 22, so that the whole flexible plugging member 20 is prevented from generating large translation, and the plugging effect is prevented from being influenced by the overlarge movement amount of the flexible plugging member 20. The width of the transverse sealing plate 11 in this embodiment is 65mm, the width of the connecting groove 23 is 8mm, and the thickness of the blocking portion 21 is 10 mm. In the prior art, the existing bottom angle aluminum length of actual scene has 40mm, 42mm, 45mm, the corresponding clearance that produces is 10mm promptly, 8mm, 5mm, so the thickness of shutoff portion 21 can satisfy current clearance requirement, and the width of aluminium mould wallboard is then satisfied to the width of horizontal shrouding 11, the width of connecting groove 23 can be adjusted according to the thickness of the connecting portion 22 that will match, the width of the connecting groove 23 of this embodiment makes first vertical shrouding 12 and second vertical shrouding 13 can provide sufficient support for horizontal shrouding 11, when the width of connecting groove 23 is different, also can correspond the width of adjustment connecting portion 22, in order to realize agreeing with.

Further, the connecting portion 22 of the present embodiment is connected to the first vertical sealing plate 12 and the second vertical sealing plate 13 through the screw-nut assembly 30. The screw and nut assembly 30 is convenient to use and reliable in connection, stable and reliable connection relation between the flexible plugging member 20 and the first vertical sealing plate 12 and the second vertical sealing plate 13 can be kept, and the flexible plugging member 20 is prevented from falling off due to vibration when the aluminum formwork wall panel is installed. Of course, the connecting portion 22 may be connected to the first vertical sealing plate 12 and the second vertical sealing plate 13 by caulking, and the thickness of the sealing portion 21 may be sufficient to seal the gap between the lower side of the first vertical sealing plate 12 and the floor.

Further, the connecting portion 22 is provided with a kidney-shaped hole (not shown) along the width direction, and the screw of the screw-nut assembly 30 passes through the kidney-shaped hole. The waist type hole can conveniently adjust the depth of insertion of connecting portion 22 in spread groove 23 for the position of shutoff portion 21 obtains adjusting, to the operating mode of floor unevenness, also can ensure the shutoff effect. Of course, it is also conceivable to form waist holes in the first vertical sealing plate 12 and the second vertical sealing plate 13, fill the connecting groove 23 with a filler after confirming the depth of the connecting portion 22 to be inserted into the connecting groove 23, so that there is no gap between the top of the connecting portion 22 and the lateral sealing plate 11, and then connect the connecting portion 22 to the first vertical sealing plate 12 and the second vertical sealing plate 13 by using the screw-nut assembly 30. In the present embodiment, the waist-shaped hole of the connecting portion 22 is formed at a position 25mm away from the bottom of the entire flexible blocking member 20, and the hole size is 16.5 × 22 mm.

In the present embodiment, the groove width of the coupling groove 23 is the same as the thickness of the coupling portion 22. Connecting portion 22 and spread groove 23 just agree with, can further avoid connecting portion 22 to take place the displacement in the horizontal, and guarantee shutoff portion 21 can keep the gesture, avoids the shutoff effect to receive the influence. It should be noted that, in fig. 2, in order to show the positional relationship between the flexible blocking member 20 and the bottom-angle aluminum profile 10, the connecting portion 22 is not completely filled with the connecting groove 23, and it is not to be understood that the connecting groove 23 is not in a matching pattern or cannot be filled with the connecting groove 23 in actual use.

Referring to fig. 2 and 3, the cross-section of the transverse sealing plate 11, the first vertical sealing plate 12 and the second vertical sealing plate 13 of the present embodiment is F-shaped. The bottom corner aluminum profile 10 in the F shape has better supporting strength, and is prevented from being bent after being connected with the aluminum template. That is to say, after the top of horizontal shrouding 11 is connected with the aluminium mould wallboard, the pressure of aluminium mould wallboard can be shared by first perpendicular shrouding 12 and the perpendicular shrouding 13 of second together, avoids producing great deformation between horizontal shrouding 11 and first perpendicular shrouding 12, the perpendicular shrouding 13 of second and makes the aluminium mould wallboard take place the position change, ensures that final pouring process is not influenced, and the wall body after the shaping also can meet the requirements.

Further, the bottom surface of the first vertical sealing plate 12 and the bottom surface of the second vertical sealing plate 13 of the present embodiment are flush and parallel to the horizontal plane. Because the bottom surfaces of the first vertical sealing plate 12 and the second vertical sealing plate 13 are flush and parallel to the horizontal plane, the position relation between the flexible sealing member 20 and the first vertical sealing plate 12 in the vertical direction can be known by observing the position relation between the flexible sealing member 20 and the second vertical sealing plate 13 in the vertical direction, so that whether the gap between the first vertical sealing plate 12 and the floor surface is sealed enough in the vertical direction relative to the position of the first vertical sealing plate 12 by the sealing part 21 can be conveniently confirmed. For example, before the aluminum formwork panel is installed, the flexible blocking member 20 may be directly connected to the bottom corner aluminum profile 10 and assembled with the aluminum formwork panel, and before the assembly, the gap width between the aluminum formwork panel and the floor after the bottom corner aluminum profile 10 is installed may be measured, and then the depth of the connecting portion 22 of the flexible blocking member 20 that needs to be inserted into the connecting groove 23, or how much distance the blocking portion 21 needs to be kept from the lower side of the first vertical sealing plate 12, may be determined, and the assembly may be performed. In the assembling process, the bottom corner aluminum profile 10 may not be detached from the aluminum formwork panel, the aluminum formwork panel may also maintain the posture of the formwork (at this time, the relative position between the first vertical sealing plate 12 and the flexible sealing member 20 cannot be seen from the outside of the second vertical sealing plate 13), then the flexible sealing member 20 is directly assembled on the bottom corner aluminum profile 10, and the position relation between the first vertical sealing plate 12 is known by referring to the position relation between the second vertical sealing plate 13, so as to confirm whether the assembly is in place.

Referring to fig. 2 and 4, a side of the blocking portion 21 away from the connecting portion 22 is a blocking surface 211, the first vertical sealing plate 12 is closer to the wall to be poured than the second vertical sealing plate 13, a side of the first vertical sealing plate 12 away from the second vertical sealing plate 13 is a wall surface 121, and the blocking surface 211 is coplanar with the wall surface 121. Because the plugging surface 211 is coplanar with the wall surface 121, the flatness of the surface of the wall body formed by pouring can be ensured to meet the requirement. Of course, if the bottom wall surface of the wall to be poured is required to be not flush with the wall surface above, the blocking surface 211 of the blocking portion 21 is not required to be flush with the wall surface 121 of the first vertical sealing plate 12.

The blocking portion 21 and the connecting portion 22 have an L-shaped cross section. The blocking part 21 and the connecting part 22 with the L-shaped cross section can be matched with the structures of the first vertical sealing plate 12 and the second vertical sealing plate 13, so that the bottom corner aluminum profile 10 and the flexible blocking member 20 are combined more tightly after installation. In addition, the cross-sectional shape of the connecting portion 22 is matched with the shape of the connecting groove 23, and when the profile of the connecting groove 23 is changed, the cross-sectional shape of the connecting portion 22 can be adjusted to match with the connecting groove 23, and it is not required to form an L-shaped structure with the blocking portion 21.

Based on above-mentioned base angle aluminum structure 100, the embodiment of this application provides an aluminum alloy building templates system, including aluminium mould wallboard and base angle aluminum structure 100, base angle aluminum structure 100's horizontal shrouding 11 connects in the bottom of aluminium mould wallboard. By using the base angle aluminum structure 100, gaps between the base angle aluminum profiles 10 and the floor do not need to be filled one by one manually after formwork erecting, labor cost is saved, and labor intensity is reduced.

The principle of the embodiment is as follows:

at present, as an aluminum formwork system is widely applied to building projects, the construction process is relatively mature, but due to certain uncontrollable property existing on site, when workers pour floor concrete, the floor is not smooth enough, and the situations of integral deviation, wall surface verticality deviation and the like occur after later-stage aluminum formwork assembly. In order to solve the problem of on-site leveling, an aluminum die manufacturer adds base angle aluminum to the bottom of an aluminum die wallboard, considers that the wallboard is in a suspended state in a design stage in advance, and reserves a construction gap at the bottom of the base angle aluminum for leveling when an on-site construction error occurs. The existing bottom angle aluminum in actual sites has the lengths of 40mm, 42mm and 45mm, the correspondingly generated gaps are 10mm, 8mm and 5mm, and after the aluminum die is assembled on each layer of the construction site and leveled, mortar needs to be manually adopted to fill up each gap, so that time and labor are consumed.

In the embodiment, a specially-made bottom corner aluminum profile 10 is used, a first vertical sealing plate 12 and a second vertical sealing plate 13 are arranged on the lower side of a transverse sealing plate 11, a connecting groove 23 is further arranged between the first vertical sealing plate 12 and the second vertical sealing plate 13, a connecting part 22 can be inserted into the connecting groove 23 by a flexible sealing member 20, the whole flexible sealing member 20 is fixed on the first vertical sealing plate 12 and the second vertical sealing plate 13 by a screw and nut assembly 30, a blocking part 21 can form a blocking part below the first vertical sealing plate 12, after the flexible sealing member is installed on an aluminum template through an installation hole 111 of the transverse sealing plate 11, a gap can be prevented from being generated between the first vertical sealing plate 12 and a floor, the connecting part 22 has the characteristic of a kidney-shaped hole, after the field template is assembled, the normal leveling can be realized, the corresponding deformation amount can be made by soft rubber, and the effect of completely blocking the construction gap of the bottom corner aluminum profile 10 can be realized, and the slurry is not easy to leak when the concrete is cast in situ.

To sum up, the base angle aluminum structure 100 of this application integrates flexible shutoff component 20 in base angle aluminium alloy 10, after this base angle aluminum structure 100 has been installed to the aluminium mould wallboard, the flexible shutoff component 20 of in-process of formwork can come the clearance between shutoff base angle aluminium alloy 10 and the floor through the deformation of self, need not rely on the manual work to carry out the mortar to joint a seam, can save manual work and man-hour to also can not follow base angle aluminum structure 100 place and leak thick liquid at follow-up pouring in-process. By applying the base angle aluminum structure 100, the aluminum alloy building template system can greatly reduce the labor intensity of workers during construction, and save labor cost.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A corner aluminum structure, comprising:

the bottom angle aluminum profile comprises a transverse sealing plate, a first vertical sealing plate and a second vertical sealing plate, wherein the transverse sealing plate is used for connecting the bottom of the aluminum mould wallboard, and a distance is reserved between the first vertical sealing plate and the second vertical sealing plate and is connected to the lower side of the transverse sealing plate; and

the flexible plugging member comprises a plugging portion and a connecting portion, the plugging portion is connected with the first vertical sealing plate and the second vertical sealing plate through the connecting portion, and the plugging portion is located on the lower side of the first vertical sealing plate and used for plugging a gap between the first vertical sealing plate and a floor.

2. The aluminum bottom corner structure of claim 1, wherein the first vertical sealing plate and the second vertical sealing plate are arranged side by side, and a connecting groove is arranged between the first vertical sealing plate and the second vertical sealing plate, and the connecting part is located in the connecting groove.

3. The aluminum bottom corner structure of claim 2, wherein the connecting portion is connected to the first vertical sealing plate and the second vertical sealing plate by screw and nut assemblies.

4. The aluminum bottom corner structure according to claim 3, wherein the connecting portion has a waist-shaped hole along the width direction, and the screw of the screw-nut assembly passes through the waist-shaped hole.

5. The aluminum bottom corner structure according to claim 2, wherein the connecting groove has a groove width equal to a thickness of the connecting portion.

6. The aluminum bottom corner structure according to claim 1, wherein a side of the blocking portion away from the connecting portion is a blocking surface, the first vertical sealing plate is closer to a wall to be poured than the second vertical sealing plate, a side of the first vertical sealing plate away from the second vertical sealing plate is a wall surface, and the blocking surface is coplanar with the wall surface.

7. The aluminum bottom corner structure according to claim 1 or 6, wherein the blocking portion and the connecting portion have an L-shaped cross section.

8. The aluminum bottom corner structure of claim 1, wherein the cross sealing plate and the first and second vertical sealing plates are F-shaped in cross section.

9. The aluminum bottom corner structure of claim 1, wherein the bottom surface of the first vertical sealing plate is flush with the bottom surface of the second vertical sealing plate and parallel to a horizontal plane.

10. An aluminum alloy building formwork system comprising aluminum formwork panels and the corner aluminum structure of any of claims 1-9, wherein the transverse seal of the corner aluminum structure is attached to the bottom of the aluminum formwork panels.

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