CN219974245U - Prefabricated frame assembly and prefabricated wall structural member - Google Patents

Abstract

The utility model relates to a prefabricated frame component and a prefabricated wall structural member, wherein the prefabricated frame component comprises: an aluminum frame structure main body; the aluminum frame connecting piece is arranged on the aluminum frame structural main body and is positioned at one side of the aluminum frame structural main body; the aluminum frame edge sealing piece is arranged on the aluminum frame structural main body and is positioned on the other side of the aluminum frame structural main body; the aluminum frame connecting piece and the aluminum frame edge sealing piece are oppositely arranged and are used for jointly bearing the wall panel, so that the wall panel is located on the aluminum frame structural body and limited between the aluminum frame connecting piece and the aluminum frame edge sealing piece. The prefabricated frame component is produced by concentrating main materials on a factory side, can be used for quickly installing a wall panel, does not need a complexity tool, can be installed by hands by common workers, and can be matched with each other by adopting an outer frame or a locking screw due to an aluminum frame structure; the light transportation and freehand installation mode can be realized, the manpower resources of skilled workers are saved, and the light transportation and freehand installation method is also suitable for areas with complex terrains.

Description

Prefabricated frame assembly and prefabricated wall structural member

Technical Field

The utility model relates to the field of building prefabricated parts, in particular to a prefabricated frame assembly and a prefabricated wall structural member.

Background

The prefabricated building member includes aluminum door and window frames, cement precast wall bodies, metal precast wall bodies and the like, and is widely used as a rapid construction method by adopting a combined structure such as the combination of precast wall bodies for reducing the environmental pollution problems such as noise and the like.

However, most of precast walls are made of cement products, metal products or Fiber Reinforced Plastic (FRP) and the like, and the subsequent decoration of the inner wall surface still takes time and labor.

In addition, cement and concrete have large weight, and in complex ground, heavy equipment is needed to assist in hanging and mounting, so that the installation is difficult and the safety risk is high for areas with complex terrains. In addition, the traditional precast wall is usually an outer wall, the inner wall surface needs to be decorated, and noise and pollutants, such as glue, leftover materials, paint brushing and other environmental pollution problems can be generated on site.

In addition, the technical cost is increased and the manpower resource is in a reduced situation.

Disclosure of Invention

Based on this, it is necessary to provide a prefabricated frame assembly and prefabricated wall structures.

In one embodiment, a prefabricated frame assembly, comprising:

an aluminum frame structure main body;

the aluminum frame connecting piece is arranged on the aluminum frame structural main body and is positioned at one side of the aluminum frame structural main body; a kind of electronic device with high-pressure air-conditioning system

The aluminum frame edge sealing piece is arranged on the aluminum frame structural main body and is positioned on the other side of the aluminum frame structural main body;

the aluminum frame connecting piece and the aluminum frame edge sealing piece are oppositely arranged and are used for jointly receiving a wall panel, so that the wall panel is located on the aluminum frame structural body and limited between the aluminum frame connecting piece and the aluminum frame edge sealing piece.

The prefabricated frame component is produced by concentrating main materials on a factory side, can be used for quickly installing a wall panel, does not need a complexity tool, can be installed by hands by common workers, and can be matched with each other by adopting an outer frame or a locking screw due to an aluminum frame structure; the light transportation and freehand installation mode can be realized, the manpower resources of skilled workers are saved, and the light transportation and freehand installation method is also suitable for areas with complex terrains.

In one embodiment, the aluminum frame structural body has a bottom surface and a side surface;

the aluminum frame connecting piece is arranged on the bottom surface, and the aluminum frame edge sealing piece is arranged on the side surface.

In one embodiment, the aluminum frame structure body is provided with a fastening position on the bottom surface;

the aluminum frame connecting piece is arranged on the clamping position in a clamping and fixing mode, and the clamping and fixing directions are the same in the installation direction of the wall panel, so that the aluminum frame connecting piece is in a clamping and fixing state and is held in a clamping and fixing state by the supporting force of the wall panel; wherein,

the aluminum frame connecting piece comprises a main body, a first buckling part, a second buckling part, a third abutting part, a fourth abutting part and a fifth abutting part which are respectively connected with the main body;

the first fastening portion and the second fastening portion are respectively installed on the fastening position in a fastening fixing mode, in a fastening fixing state, the third abutting portion abuts against the abutting position of the aluminum frame structure main body, the fourth abutting portion and the fifth abutting portion abut against the wall panel respectively, the direction in which the fourth abutting portion and the fifth abutting portion are abutted against the wall panel is the direction in which the fastening position is applied, and a lever structure for applying force to the fastening position is formed by the direction in which the third abutting portion applies force to the abutting position.

In one embodiment, the aluminum frame structural body is provided with a connecting position on the side surface;

and the aluminum frame edge sealing piece is arranged on the side face in a limiting and fixing mode on the connecting position.

In one embodiment, the connecting position comprises a tooth groove part or a corrugated part, the aluminum frame edge sealing member also comprises the tooth groove part or the corrugated part, and the aluminum frame edge sealing member is mounted on the connecting position in a jogged manner; or,

the connecting position comprises a mounting groove, and the aluminum frame edge sealing piece is mounted on the mounting groove in an interference fit manner; or,

the aluminum frame edge sealing piece comprises an abutting plate and an installation part, wherein the installation part is fixed on one side of the abutting plate, the abutting plate is divided into a first area and a second area which are respectively positioned on two sides of the installation part, the installation part is installed on the connecting position in a limiting and fixing mode, the first area and the second area are respectively abutted to the aluminum frame structural body on the same surface, the first area is used for being abutted to the wall panel, and the installation part is used for applying pressure towards the aluminum frame structural body to the installation part and the second area when the wall panel is abutted to the wall panel to receive acting force.

In one embodiment, the aluminum frame structural body, the aluminum frame connecting piece and the aluminum frame edge sealing piece are integrally formed respectively; or,

the aluminum frame structure main body is of an integral structure or a combined structure; or,

the aluminum frame connecting piece is of an integral structure or a combined structure; or,

the aluminum frame edge sealing piece is of an integral structure or a combined structure; or,

the aluminum frame connecting piece is provided with a hollow area; or,

the aluminum frame edge sealing piece is provided with a hollow area; or,

the number of the aluminum frame connecting pieces is two, the two aluminum frame connecting pieces are respectively arranged on the aluminum frame structural main body and are positioned on two mounting surfaces of the aluminum frame structural main body, and each aluminum frame connecting piece is arranged opposite to the aluminum frame edge sealing piece and is used for jointly bearing one wall panel; or,

the aluminum frame connecting piece and the aluminum frame edge sealing piece are used for clamping and fixing the wall panel together; or,

the aluminum frame structure main body, the aluminum frame connecting piece and the aluminum frame edge sealing piece are used for jointly abutting and fixing the wall panel.

In one embodiment, the aluminum frame structure body is provided with a hollow area.

In one embodiment, a prefabricated wall structure comprising a wall panel and the prefabricated framing assembly of any embodiment;

the wall panel is arranged on the prefabricated frame assembly in a limiting mode.

In one embodiment, the prefabricated wall structure further comprises an outer aluminum frame member;

the wall panel and the prefabricated frame component form an integral structural member together, and the outer aluminum frame component clamps two opposite surfaces of the integral structural member at the outer side of the integral structural member to serve as four frames of the integral structural member; and/or the number of the groups of groups,

the wall panel is provided with a wall surface area protruding out of the prefabricated frame assembly, so that the integral structural member is externally provided with an integral wall surface area.

In one embodiment, the prefabricated wall structure further comprises an aluminum frame beading;

and on one surface of the integral structural member, the aluminum frame blank holder seals the outer aluminum frame member and part of the surface.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments or the conventional techniques of the present utility model, the drawings required for the descriptions of the embodiments or the conventional techniques will be briefly described below, and it is apparent that the drawings in the following descriptions are only some embodiments of the present utility model, and other drawings may be obtained according to the drawings without inventive effort for those skilled in the art.

FIG. 1 is a schematic view of an embodiment of a prefabricated frame assembly according to the present utility model.

Fig. 2 is an exploded view of the embodiment of fig. 1.

Fig. 3 is a schematic structural view of an embodiment of the prefabricated wall structural member according to the present utility model.

Fig. 4 is a schematic view of another embodiment of the prefabricated frame assembly according to the present utility model.

Fig. 5 is an exploded view of the embodiment of fig. 4.

Fig. 6 is an enlarged schematic view of the aluminum frame connector of the embodiment shown in fig. 4.

Fig. 7 is an enlarged schematic view of the aluminum frame seal of the embodiment of fig. 4.

Fig. 8 is a schematic structural view of another embodiment of the prefabricated wall structural member according to the present utility model.

Fig. 9 is a schematic view of another embodiment of the prefabricated frame assembly according to the present utility model.

Fig. 10 is an enlarged schematic view of the aluminum frame seal of the embodiment of fig. 9.

Fig. 11 is a schematic structural view of another embodiment of the prefabricated wall structural member according to the present utility model.

Fig. 12 is a schematic view of another embodiment of the prefabricated wall structure according to the present utility model.

Fig. 13 is a schematic structural view of another embodiment of the prefabricated wall structural member according to the present utility model.

Fig. 14 is another schematic view of the embodiment of fig. 13.

Fig. 15 is a schematic structural view of the embodiment shown in fig. 14 with the aluminum frame blank holder removed.

Reference numerals:

prefabricated framing assembly 100, wall panel 200, integral structural member 300, prefabricated wall structural member 400;

the aluminum frame structure comprises an aluminum frame structure main body 110, an aluminum frame connecting piece 120, an aluminum frame edge sealing piece 130, an outer aluminum frame piece 140 and an aluminum frame edge pressing strip 150;

a bottom surface 111, a side surface 112, a fastening position 113, a connection position 114, a tooth groove portion 115, a hollow region 116, an abutment position 117, a first mounting surface 118, and a second mounting surface 119;

the first fastening portion 121, the second fastening portion 122, the third abutting portion 123, the fourth abutting portion 124, the fifth abutting portion 125, the main body 126, the first aluminum frame connector 127, and the second aluminum frame connector 128;

an abutting plate 131, a mounting portion 132, a first region 133, a second region 134;

a first wall panel 210, a second wall panel 220, a wall area 230, an outer side 310, a surface 320;

the first abutment force F1, the second pressure force F2, the third snap force F3, the fourth abutment force F4, the acting force F5, and the pressing force F6.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. The terms "vertical", "horizontal", "upper", "lower", "left", "right" and the like are used in the description of the present utility model for the purpose of illustration only and do not represent the only embodiment.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" on a second feature may be that the first feature is in direct contact with the second feature, or that the first feature and the second feature are in indirect contact through intermedial media. Moreover, a first feature "above," "over" and "on" a second feature may be a first feature directly above or obliquely above the second feature, or simply indicate that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely under the second feature, or simply indicating that the first feature is less level than the second feature.

Unless defined otherwise, all technical and scientific terms used in the specification of the present utility model have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used in the description of the present utility model includes any and all combinations of one or more of the associated listed items.

The utility model discloses a prefabricated frame component and a prefabricated wall structural member, which comprise part of or all of the structures of the following embodiments; namely, the prefabricated frame component and the prefabricated wall structural component comprise part of or all of the following technical characteristics. In one embodiment of the utility model, a prefabricated frame assembly includes: an aluminum frame structure main body; the aluminum frame connecting piece is arranged on the aluminum frame structural main body and is positioned at one side of the aluminum frame structural main body; the aluminum frame edge sealing piece is arranged on the aluminum frame structural main body and is positioned on the other side of the aluminum frame structural main body; the aluminum frame connecting piece and the aluminum frame edge sealing piece are oppositely arranged and are used for jointly receiving a wall panel, so that the wall panel is located on the aluminum frame structural body and limited between the aluminum frame connecting piece and the aluminum frame edge sealing piece. The prefabricated frame component is produced by concentrating main materials on a factory side, can be used for quickly installing a wall panel, does not need a complexity tool, can be installed by hands by common workers, and can be matched with each other by adopting an outer frame or a locking screw due to an aluminum frame structure; the light transportation and freehand installation mode can be realized, the manpower resources of skilled workers are saved, and the light transportation and freehand installation method is also suitable for areas with complex terrains.

In one embodiment, a prefabricated frame assembly 100 is shown in fig. 1, and includes an aluminum frame structural body 110, an aluminum frame connecting member 120, and an aluminum frame edge sealing member 130; the aluminum frame connecting piece 120 is mounted on the aluminum frame structural body 110 and is positioned at one side of the aluminum frame structural body 110; the aluminum frame edge sealing member 130 is mounted on the aluminum frame structural body 110 and located at the other side of the aluminum frame structural body 110; namely, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 are respectively located at two sides of the aluminum frame structural body 110.

Referring to fig. 2, the aluminum frame main body 110 has a bottom 111 and a side 112; the aluminum frame connecting piece 120 is installed on the bottom surface 111, and the aluminum frame edge sealing piece 130 is installed on the side surface 112. In one embodiment, the aluminum frame main body 110 is a monolithic structure or a combined structure; alternatively, the aluminum frame connecting member 120 may be a unitary structure or a combined structure; alternatively, the aluminum frame edge sealing member 130 may be a unitary structure or a combined structure; the integral structure is integrally arranged, such as integrally die-cast. In one embodiment, the aluminum frame structural body 110, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 are integrally formed respectively, so that the production efficiency of each component of the prefabricated frame component 100 is improved, each component can be produced at the factory side in a centralized manner, the components can be quickly assembled on the installation site, the components can be quickly installed on the wall panel, and the components can be manually installed without complexity tools by a general worker, and due to the aluminum frame structure, an outer frame or a locking screw can be adopted during mutual matching; the light transportation and freehand installation mode can be realized, the manpower resources of skilled workers are saved, and the light transportation and freehand installation method is also suitable for areas with complex terrains.

In one embodiment, a prefabricated wall structure 400 is shown in FIG. 3, comprising a wall panel 200 and a prefabricated framing assembly 100; the wall panel 200 is mounted on the prefabricated frame assembly 100 in a limited position. In one embodiment, the aluminum frame connector 120 and the aluminum frame edge sealing member 130 are used for clamping and fixing the wall panel 200 together; i.e. the wall panel 200 is clip-mounted to the pre-fabricated frame assembly 100. In other embodiments, the aluminum frame main body 110, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 are used for jointly abutting and fixing the wall panel 200. For the prefabricated wall structure 400, the prefabricated frame assembly 100 may be any embodiment of the prefabricated frame assembly 100. The prefabricated wall structure 400 can be used as an inner wall or an outer wall, so that the prefabricated wall structure 400 can be used as a structural design for quickly combining the inner wall and the outer wall into an integral molding, and is quickly installed by hands without special tools; the interior and exterior walls can be finished in advance by adopting wood or wood-like materials as the wall panel 200, and the wall panel can replace precast products of cement or metal walls, so that the wood texture is maintained, the environmental pollution of construction sites is avoided, and meanwhile, the manpower resource requirements of technical work are greatly reduced.

In this embodiment, as described above, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 are respectively located at two sides of the aluminum frame structural body 110, that is, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 are disposed opposite to each other, so as to jointly receive the wall panel 200, so that the wall panel 200 is located on the aluminum frame structural body 110 and limited between the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130. Such a design is advantageous in limiting the location of the wall panel 200.

Further, in one embodiment, the prefabricated frame assembly 100 may include two sets of assemblies, each set including one aluminum frame connecting member 120 and the aluminum frame sealing member 130, where the aluminum frame connecting member 120 is disposed opposite to the aluminum frame sealing member 130; in the two sets of assemblies, the aluminum frame connecting piece 120 of one assembly is adjacent to the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 of the other assembly, and similarly, the aluminum frame edge sealing piece 130 of one assembly is adjacent to the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 of the other assembly, so that the design is suitable for the rectangular prefabricated frame assembly 100 or the rectangular prefabricated wall structural member 400, and the position of the wall panel 200 is more stable and reliable.

In one embodiment, a prefabricated frame assembly 100 is shown in fig. 4, and the structure of the aluminum frame connector 120 is changed, unlike the embodiment shown in fig. 1. In order to reduce the weight of the prefabricated frame assembly 100 and the prefabricated wall structure 400, in various embodiments, the aluminum frame structural body 110 is provided with a hollow area 116. In other embodiments, the hollow region 116 may be formed by the aluminum frame connecting member 120 or the aluminum frame sealing member 130. Such a design facilitates a lightweight prefabricated framing assembly 100 and/or prefabricated wall structure 400 with stability.

In one embodiment, as shown in fig. 4 and 5, the aluminum frame main body 110 is provided with a connection site 114 on the side surface 112; on the side surface 112, the aluminum frame sealing member 130 is mounted on the connecting position 114 in a limiting and fixing manner. In this embodiment, the connection location 114 includes a tooth groove portion 115, the aluminum frame sealing member 130 also includes the tooth groove portion 115, and the aluminum frame sealing member 130 is mounted on the connection location 114 in a fitting manner by matching the tooth groove portion and the tooth groove portion. In other embodiments, the connection location 114 includes a corrugated portion, the aluminum frame sealing member 130 also includes the corrugated portion, and the aluminum frame sealing member 130 is mounted on the connection location 114 in a jogged manner by matching the corrugated portion and the corrugated portion; alternatively, the connection location 114 includes a mounting groove, and the aluminum frame sealing member 130 is mounted on the mounting groove in an interference fit manner.

In one embodiment, as shown in fig. 5 and 6, the aluminum frame main body 110 is provided with a fastening position 113 on the bottom surface 111; on the bottom surface 111, the aluminum frame connecting piece 120 is mounted on the fastening position 113 in a fastening and fixing manner, and the fastening and fixing direction is the same as the mounting direction of the wall panel 200, so that the aluminum frame connecting piece 120 is in a fastening and fixing state, and is held in a fastening and fixing state by the supporting force of the wall panel 200; in one embodiment, the aluminum frame connector 120 includes a main body 126, and a first fastening portion 121, a second fastening portion 122, a third abutting portion 123, a fourth abutting portion 124, and a fifth abutting portion 125 connected to the main body 126 respectively; the first fastening portion 121 and the second fastening portion 122 are respectively mounted on the fastening portion 113 in a fastening manner, in a fastening state, the third abutting portion 123 abuts against the abutting portion 117 of the aluminum frame structural body 110, the fourth abutting portion 124 and the fifth abutting portion 125 abut against the wall panel 200, the direction in which the fourth abutting portion 124 and the fifth abutting portion 125 receive the abutting force of the wall panel 200 is the direction in which the fastening portion 113 is biased, and a lever structure for biasing the fastening portion 113 is formed by the direction in which the third abutting portion 123 biases the abutting portion 117, that is, the fourth abutting portion 124 forms the lever structure with the second fastening portion 122 with the third abutting portion 123 as a fulcrum.

Specifically, in the state that the aluminum frame connector 120 and the aluminum frame edge sealing member 130 clamp the wall panel 200, the aluminum frame connector 120 receives the first leftward abutting force F1 at the fourth abutting portion 124, and due to the design of the lever structure, the third abutting portion 123 receives the second downward pressure F2 and is transferred to the second fastening portion 122 to receive the third fastening force F3 obliquely upward, so that the more tightly the aluminum frame connector 120 and the aluminum frame edge sealing member 130 clamp the wall panel 200, the more firmly the fastening is, and the fourth abutting force F4 is formed on the wall panel 200 at the fifth abutting portion 125 to support the wall surface so as to avoid the recess.

In one embodiment, as shown in fig. 7 and 8, the aluminum frame edge sealing member 130 includes an abutting plate 131 and an installation portion 132, wherein the installation portion 132 is fixed to one side of the abutting plate 131, and divides the abutting plate 131 into a first area 133 and a second area 134 respectively located at two sides of the installation portion 132, the installation portion 132 is mounted on the connection position 114 in a limited and fixed manner, the first area 133 and the second area 134 are respectively abutted to the aluminum frame structural body 110 on the same surface, the first area 133 is used for abutting the wall panel 200, and is further used for applying a leftward pressing force F6 towards the aluminum frame structural body 110 to the installation portion 132 and the second area 134 when receiving a rightward acting force F5 in a state of abutting the wall panel 200. It can be seen that the first section 133 and the second section 134 also form another lever structure with the mounting portion 132 as a fulcrum. Therefore, similarly, the more tightly the aluminum frame connector 120 and the aluminum frame sealing member 130 clamp the wall panel 200, the more firmly the aluminum frame sealing member 130 is connected to the aluminum frame structural body 110.

In one embodiment, as shown in fig. 9 and 10, the number of the aluminum frame connectors 120 is two, the two aluminum frame connectors 120 are respectively mounted on the aluminum frame structural body 110 and are located on two mounting surfaces of the aluminum frame structural body 110, in this embodiment, the two aluminum frame connectors 120 are a first aluminum frame connector 127 and a second aluminum frame connector 128, that is, the first aluminum frame connector 127 is located on the first mounting surface 118 of the aluminum frame structural body 110, and the second aluminum frame connector 128 is located on the second mounting surface 119 of the aluminum frame structural body 110; the aluminum frame edge sealing member 130 has a symmetrical structure. Each aluminum frame connector 120 is disposed opposite to the aluminum frame edge sealing member 130, and is configured to jointly receive one of the wall panels 200 as shown in fig. 11, the first aluminum frame connector 127 is disposed opposite to the aluminum frame edge sealing member 130, and is configured to jointly receive a first wall panel 210, for example, to jointly clamp the first wall panel 210, and the second aluminum frame connector 128 is disposed opposite to the aluminum frame edge sealing member 130, and is configured to jointly receive a second wall panel 220, for example, to jointly clamp the second wall panel 220.

To achieve wall leveling, in one embodiment, as shown in fig. 12, the wall panel 200 has a wall area 230 protruding from the prefabricated frame assembly 100 such that the integral structural member 300 has an integral wall area 230 from the outside. In this embodiment, the wall panel 200 and the prefabricated frame assembly 100 together form a monolithic structure 300, and the monolithic structure 300 has two opposite surfaces 320 and an outer side 310 surrounding the two surfaces 320.

Referring to fig. 13, the prefabricated wall structure 400 further includes an outer aluminum frame member 140, the wall panel 200 and the prefabricated frame assembly 100 together form a monolithic structure 300, and on the outer side 310 of the monolithic structure 300, the outer aluminum frame member 140 clamps two opposite surfaces 320 of the monolithic structure 300, and serves as four frames of the monolithic structure 300 as shown in fig. 15.

In one embodiment, as shown in fig. 13 and 14, the prefabricated wall structure 400 further includes an aluminum frame molding strip 150; the aluminum frame molding 150 covers the outer aluminum frame member 140 and a portion of the surface 320 on a surface 320 of the integral structure 300. The structural design is beneficial to obtaining the standard prefabricated wall structural member 400 with consistent appearance, and has a certain protection effect on corner positions; the prefabricated frame assembly 100 can be made into a frame structure with 90% or even higher size in advance, can be used as an internal and external wall, is painted on the two sides of the wall panel 200 or is pasted with wood veneer, is assembled and completed by bare hands on a construction site, is embedded with the aluminum frame blank holder 150 with the same property to form an integral frame, and can achieve the effects of rapid installation of sound insulation, heat insulation and rainwater prevention without auxiliary materials such as glue, adhesive tapes, screws and the like on site.

As shown in fig. 13 and 14, the aluminum frame structural body 110, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130 may be first made into an integral structural member 300, one integral structural member 300 is matched with four outer aluminum frame pieces 140 and four aluminum frame edge pressing pieces 150 to obtain a complete prefabricated wall structural member 400, two adjacent outer aluminum frame pieces 140 may be connected by adopting corner brackets and screws, and may be shipped by adopting the prefabricated frame assembly 100, and the prefabricated frame assembly 100 may be reassembled by adopting the aluminum frame structural body 110, the aluminum frame connecting piece 120 and the aluminum frame edge sealing piece 130, and may be shipped by adopting the integral structural member 300 to reassemble the prefabricated wall structural member 400 on site, or may be shipped by directly adopting the prefabricated wall structural member 400. The structural design realizes the advantages that key procedures and difficult procedures are prefabricated by factories and combined by standard components, and only simple installation is needed on site. The method has no potential safety hazard caused by site open fire construction, no site welding, cement stirring and environmental pollution problem of leftover material treatment. And the semi-finished product leaves the factory, has small volume and is convenient to transport.

An embodiment of a specific construction is given below, wherein the frame is prefabricated in a factory, the welding process is omitted, and the outer frame is preassembled by using screws according to the size of standard components and the hardware corner connectors. Then, the finished product is assembled on site, firstly, the hardware diagonal bracing piece and the prefabricated screw hole site are used for fixing the good frame, the top frame and the outer aluminum frame piece 140 by screws. A wall body, such as the integral structural member 300, which combines the inner and outer walls, is then placed within the outer aluminum frame member 140. The aluminum frame blank holder 150 is then inserted into the outer aluminum frame member 140 to fix the wall according to the pre-programmed dimensions. When the aluminum frame blank holder 150 is removed, the flatness and appearance of the aluminum frame blank holder 150 are damaged, so that the inner and outer wall bodies can be taken out. After the frame is capped, self-tapping screws can be driven into the connection positions between the specific frames to increase the firmness and reliability of the integral structure, and glass or other decorative plates for replacing the glass can be further installed. For the outer wall or the wet area, waterproof sealant can be further arranged in the glue-coating groove of the outer aluminum frame member 140 and/or the aluminum frame blank holder 150 so as to avoid water leakage and water seepage in the use process.

It should be noted that, other embodiments of the present utility model further include prefabricated frame assemblies and prefabricated wall structures that are formed by combining the technical features of the foregoing embodiments.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the claims. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of the utility model should be determined from the following claims.

Claims (10)

1. A prefabricated frame assembly (100), comprising:

an aluminum frame structure main body (110);

the aluminum frame connecting piece (120) is arranged on the aluminum frame structural body (110) and is positioned at one side of the aluminum frame structural body (110); a kind of electronic device with high-pressure air-conditioning system

The aluminum frame edge sealing piece (130) is arranged on the aluminum frame structural body (110) and is positioned on the other side of the aluminum frame structural body (110);

the aluminum frame connecting piece (120) and the aluminum frame edge sealing piece (130) are oppositely arranged and are used for jointly receiving the wall panel (200), so that the wall panel (200) is located on the aluminum frame structural main body (110) and limited between the aluminum frame connecting piece (120) and the aluminum frame edge sealing piece (130).

2. The prefabricated frame assembly (100) of claim 1, wherein the aluminum frame structural body (110) has a bottom face (111) and side faces (112);

the aluminum frame connecting piece (120) is installed on the bottom surface (111), and the aluminum frame edge sealing piece (130) is installed on the side surface (112).

3. The prefabricated frame assembly (100) of claim 2, wherein the aluminum frame structural body (110) is provided with a snap-fit location (113) on the bottom surface (111);

on the bottom surface (111), the aluminum frame connecting piece (120) is installed on the buckling position (113) in a buckling and fixing mode, and the buckling and fixing directions are the same as the installation directions of the wall panel (200), so that the aluminum frame connecting piece (120) is in a buckling and fixing state and is kept in a buckling and fixing state under the abutting force of the wall panel (200); wherein,

the aluminum frame connecting piece (120) comprises a main body (126), a first buckling part (121), a second buckling part (122), a third abutting part (123), a fourth abutting part (124) and a fifth abutting part (125), wherein the first buckling part (121), the second buckling part (122), the third abutting part (123), the fourth abutting part (124) and the fifth abutting part (125) are respectively connected with the main body (126);

the first fastening portion (121) and the second fastening portion (122) are respectively mounted on the fastening position (113) in a fastening and fixing manner, in a fastening and fixing state, the third abutting portion (123) abuts against the abutting position (117) of the aluminum frame structure main body (110), the fourth abutting portion (124) and the fifth abutting portion (125) abut against the wall panel (200), the direction in which the fourth abutting portion (124) and the fifth abutting portion (125) are abutted against the wall panel (200) is the direction in which the fastening position (113) is applied, and a lever structure in which the third abutting portion (123) applies force to the abutting position (117) is formed in the direction in which the fastening position (113) is applied.

4. The prefabricated frame assembly (100) of claim 2, wherein the aluminum frame structural body (110) is provided with connection locations (114) on the side surfaces (112);

on the side surface (112), the aluminum frame edge sealing member (130) is arranged on the connecting position (114) in a limiting and fixing mode.

5. The prefabricated frame assembly (100) according to claim 4, wherein the connection location (114) comprises a spline portion (115) or a corrugated portion, the aluminum frame sealing member (130) also has the spline portion (115) or the corrugated portion, and the aluminum frame sealing member (130) is mounted on the connection location (114) in a fitting manner; or,

the connecting position (114) comprises a mounting groove, and the aluminum frame edge sealing piece (130) is mounted on the mounting groove in an interference fit manner; or,

the aluminum frame edge sealing piece (130) comprises an abutting plate (131) and an installation part (132), the installation part (132) is fixed on one side of the abutting plate (131), the abutting plate (131) is divided into a first area (133) and a second area (134) which are respectively positioned on two sides of the installation part (132), the installation part (132) is installed on the connecting position (114) in a limiting and fixing mode, the first area (133) and the second area (134) are respectively abutted to the aluminum frame structural body (110) on the same surface, the first area (133) is used for being abutted to the wall panel (200), and the aluminum frame edge sealing piece is also used for applying a pressing force towards the aluminum frame structural body (110) to the installation part (132) and the second area (134) when being abutted to the wall panel (200) under the action of force.

6. The prefabricated frame assembly (100) of claim 1, wherein the aluminum frame structural body (110), the aluminum frame connector (120), and the aluminum frame edge seal (130) are integrally formed; or,

the aluminum frame structure main body (110) is of an integral structure or a combined structure; or,

the aluminum frame connecting piece (120) is of an integral structure or a combined structure; or,

the aluminum frame edge sealing piece (130) is of an integral structure or a combined structure; or,

the aluminum frame connecting piece (120) is provided with a hollow area (116); or,

the aluminum frame edge sealing piece (130) is provided with a hollow area (116); or,

the number of the aluminum frame connecting pieces (120) is two, the two aluminum frame connecting pieces (120) are respectively arranged on the aluminum frame structural body (110) and are positioned on two mounting surfaces of the aluminum frame structural body (110), and each aluminum frame connecting piece (120) and the aluminum frame edge sealing piece (130) are oppositely arranged and are used for jointly bearing one wall panel (200); or,

the aluminum frame connecting piece (120) and the aluminum frame edge sealing piece (130) are used for clamping and fixing the wall panel (200) together; or,

the aluminum frame structure main body (110), the aluminum frame connecting piece (120) and the aluminum frame edge sealing piece (130) are used for jointly abutting and fixing the wall panel (200).

7. The prefabricated frame assembly (100) of any of claims 1 to 6, wherein the aluminum frame structural body (110) is open with a hollow region (116).

8. A prefabricated wall structure (400) comprising a wall panel (200) and the prefabricated framing assembly (100) of any one of claims 1 to 7;

the wall panel (200) is mounted on the prefabricated frame assembly (100) in a limiting mode.

9. The prefabricated wall structure (400) according to claim 8, further comprising an outer aluminum frame member (140);

the wall panel (200) and the prefabricated frame assembly (100) together form an integral structural member (300), and the outer aluminum frame member (140) clamps two opposite surfaces (320) of the integral structural member (300) on the outer side (310) of the integral structural member (300) to serve as four frames of the integral structural member (300); and/or the number of the groups of groups,

the wall panel (200) has a wall area (230) protruding above the pre-fabricated frame assembly (100) such that the integral structural member (300) has an integral wall area (230) externally.

10. The prefabricated wall structure (400) according to claim 9, further comprising an aluminum frame bead (150);

the aluminum frame bead (150) covers the outer aluminum frame member (140) and a portion of the surface (320) on one surface (320) of the integral structural member (300).