CN110284629B - Partition wall and installation method thereof - Google Patents

Abstract

The invention relates to a partition wall comprising: a frame; one or more mounts mounted on the frame; and a plurality of locks configured to secure the mount; wherein the frame is detachably mounted between environmental objects. The partition wall has a simple structure, and can be quickly disassembled and assembled, so that the decoration time can be greatly shortened, the decoration cost is saved, and the use of manpower and material resources is reduced.

Description

Partition wall and installation method thereof

Technical Field

The invention relates to the field of building industrialization, in particular to a partition wall and an installation method thereof.

Background

In the field of architectural decoration, changing the layout of a house has been very challenging. However, in many cases, the change of the house pattern is unavoidable, for example, the original house pattern has design defects, and the situation of replacing an operator in a restaurant or a hotel, replacing a tenant in an office, setting up a temporary exhibition space, and the like. With the development of the age, the design concept, aesthetic requirements, human living environment and the like of the house are changed. People will therefore also create a need to change the house pattern. However, changes in house patterns have meant complex construction, dirty environments, prolonged time and increased costs due to the involvement of demolishing the original wall and re-building a new wall. Accordingly, there is a strong need in the art for a movable wall that can be quickly removed and installed.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides a partition wall, which comprises: a frame; one or more mounts mounted on the frame; and a plurality of locks configured to secure the mount; wherein the frame is detachably mounted between environmental objects.

A partition wall as described above wherein said frame is not in contact with a wall.

The partition wall as described above, wherein the mount is mounted on one side of the frame.

The partition wall as described above, wherein the mount is mounted on both sides of the frame.

The partition wall as described above, wherein the mount further comprises a filler therebetween.

A partition wall as described above, wherein the frame further comprises: a transversely arranged bottom beam; a transversely arranged top beam; and a main beam detachably disposed between the environmental objects through the bottom beam and the top beam.

The partition wall as described above, wherein the main girder includes a main girder body and a telescopic portion; wherein the telescoping portions are controllable to extend or retract such that the main beams are urged against or away from the environmental object.

The partition wall as described above, wherein when the main beam abuts between the environmental objects, the abutting force between the main beam and the environmental objects is 10-75KG, preferably 15-55KG, and most preferably 20-30KG.

The partition wall as described above, wherein the main beams can withstand an impact force of more than 100 KG/cm, an impact force of 120 KG/cm, an impact force of 130 KG/cm, an impact force of 160 KG/cm, an impact force of 200 KG/cm when the main beams are abutted against between the environmental objects.

The partition wall as described above, wherein the frame comprises a plurality of main beams, and when the plurality of main beams are propped against the environmental objects, the frame can bear an impact force of more than 150 KG/square centimeter, an impact force of 180 KG/square centimeter, an impact force of 200 KG/square centimeter, an impact force of 250 KG/square centimeter and an impact force of 300 KG/square centimeter.

The partition wall as described above, wherein the retractable portion includes a screw and a chassis provided at one end of the main girder body, the screw being mounted on the chassis and rotatable to extend or retract with respect to the main girder body.

The partition wall as described above, wherein the screw includes an adjusting nut thereon.

A partition wall as described above, wherein the telescopic portion includes an adjusting screw, the screw thread of the adjusting screw being engaged with the screw thread of the screw; the horizontal rotation of the adjustment screw causes the screw to rotate.

The partition wall as described above, wherein the telescopic portion includes a cylinder or a hydraulic cylinder provided at one end of the main girder body and a push rod, the cylinder or the hydraulic cylinder being pressurized to push the push rod to be outwardly extended or depressurized to release the push rod to be retracted.

The partition wall as described above, wherein the mount includes one or more hooks that cooperate with one or more latches to secure the mount to the main beam.

The partition wall as recited above, wherein the first face of the locking member comprises a plurality of pegs and the second face comprises a securing member; the hanging nail is suitable for being accommodated in the hook; the fixing piece is suitable for being accommodated in the main beam.

A partition as recited above, wherein said hanger includes a hanger opening and a first slot within said hanger opening; the first peg of the lock enters the first slot from the hanger opening and causes the lock to slide along the first slot on the main beam.

A partition as recited in above wherein said hanger further includes a second slot in said hanger opening, said latch being adapted to rotate such that a second peg enters said second slot from said hanger opening after a first peg of said latch enters said first slot from said hanger opening.

The partition wall as described above wherein said second peg snaps into a second slot in said hanger opening.

The partition wall as described above, wherein the third peg of the lock is adapted to mount another mount opposite to the mount.

The partition wall as described above, wherein the fixing member corresponds to a position of the first peg of the locking member, and the fixing member is fixed with the main girder when the locking member is rotated until the second peg enters the second groove.

The partition wall as described above, wherein the locking member includes a locking notch, wherein the removable peg is adapted to pass through the locking notch of the locking member into the main beam and lock the locking member to the main beam.

The partition wall as described above, wherein the mount further comprises: a frame; and (3) hanging pieces; wherein the frame is arranged around the pendant; the one or more hooks are disposed on the bezel.

The partition wall as described above, wherein the hanger is glass.

The partition wall as described above, further comprising a spacer disposed between the environmental object and the header and/or between the environmental object and the footer.

According to another aspect of the present application, there is provided a partition wall installation method including: mounting the frame between environmental objects; the first mount is mounted on one side of the frame; and hanging the second hanging object on the other side of the frame.

A method as described above, wherein the frame comprises a main beam; the method further comprises: and locking the first mount on the main beam of the frame by using a locking piece.

A method as described above, wherein the lock comprises a plurality of pegs and a fixture, the mount comprises a plurality of hooks, the method further comprising: placing the mount between a top beam and a bottom beam of the frame; the fixing piece of the locking piece stretches into the main beam, and the first hanging nail of the locking piece stretches into the hanging hook of the mount; and moving the locking piece to enable the first hanging nail to penetrate into the hook, and rotating to lock the fixing piece on the main beam.

The method as described above, wherein after the first peg penetrates into the hook and the locking element is rotated, the second peg also extends into the hook.

The method as described above wherein the removable peg is inserted into the main beam through the lock.

The method as described above, further comprising: and the second mount is mounted on a third hanging nail of the lock piece.

The partition wall has a simple structure, and can be quickly disassembled and assembled, so that the decoration time can be greatly shortened, the decoration cost is saved, and the use of manpower and material resources is reduced.

Drawings

Preferred embodiments of the present invention will be described in further detail below with reference to the attached drawing figures, wherein:

FIGS. 1A-1C are schematic views of a wall structure according to one embodiment of the invention;

FIG. 2 is an exploded view of a wall according to one embodiment of the present invention;

FIG. 3 is a schematic diagram of a frame according to one embodiment of the invention;

FIGS. 4A-4E are schematic views of a bottom beam according to one embodiment of the invention;

FIGS. 5A-5D are schematic views of a header according to one embodiment of the invention;

FIGS. 6A-6D are schematic views of a main beam according to one embodiment of the invention;

FIGS. 7A-7E are schematic views of a main beam body according to one embodiment of the present invention;

FIGS. 8A and 8B are exploded views of a main beam according to one embodiment of the present invention

FIGS. 9A-9G are schematic views of a mount according to one embodiment of the present invention;

FIGS. 10A-10D are schematic views of a lock according to one embodiment of the invention;

FIGS. 11A-11D are schematic views of a mount according to one embodiment of the present invention;

FIG. 12 is a flow chart of a method for installing a double-sided partition according to one embodiment of the invention

FIGS. 13A-13H are schematic views of a wall structure according to another embodiment of the invention;

FIGS. 14A and 14B are exploded views of a wall according to another embodiment of the present invention;

FIGS. 15A and 15B are schematic diagrams of a frame according to one embodiment of the invention;

FIGS. 16A-16F are schematic views of a bottom beam according to one embodiment of the invention;

17A-17H are schematic views of a main beam according to one embodiment of the invention;

18A-18G are corner beam schematic diagrams according to one embodiment of the invention;

19A-19D are schematic cross-bar views according to one embodiment of the invention;

FIGS. 20A-20K are schematic views of a mount according to one embodiment of the present invention;

FIGS. 21A and 21B are schematic views of a mount according to one embodiment of the invention;

FIG. 22 is a flow chart of a single wall installation method according to one embodiment of the invention;

FIG. 23 is a schematic view of a wall construction according to another embodiment of the invention;

FIG. 24 is a schematic view of a body portion according to one embodiment of the invention;

FIG. 25 is an exploded view of a main body portion according to one embodiment of the present invention

FIG. 26 is a schematic view of a support bar according to one embodiment of the present invention; and

Fig. 27 is an exploded view of a support bar according to one embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the following detailed description, reference is made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration specific embodiments of the application. In the drawings, like reference numerals describe substantially similar components throughout the different views. Various specific embodiments of the application are described in sufficient detail below to enable those skilled in the art to practice the teachings of the application. It is to be understood that other embodiments may be utilized or structural, logical, or electrical changes may be made to embodiments of the present application.

Along with the development of the times, the requirements of people on decoration are also higher and higher. Whether it be a residence, office, or store, hotel, guests' room at an airport, or even a display area at an exhibition, people want the decoration to be capable of having a personalized style, exhibiting a distinctive unique gas quality. One problem with the lifting of the finishing requirements is that refinishing becomes very frequent. However, the layout of the repair is often different before and after the repair, and it is necessary to disassemble or arrange some of the partition walls. In the existing design, the partition wall is difficult to realize quick disassembly and assembly, so that the decoration time can be prolonged, the decoration cost is increased, and more importantly, a great deal of manpower can be wasted. Accordingly, there is a strong need in the art for a partition wall that can be quickly assembled and disassembled.

The invention provides a solution of partition walls, which can quickly assemble and disassemble the partition walls in a time-limited manner, greatly reduce decoration time, save manpower and material resources and reduce decoration cost.

The environmental object proposed in the present invention is a combination of one or more of a ceiling, a floor, a wall.

The technical scheme of the invention is further described by specific examples. It should be understood by those skilled in the art that the following descriptions are only for convenience in understanding the technical solutions of the present invention and should not be used to limit the scope of the present invention.

Fig. 1A-1C are schematic structural views of a wall according to one embodiment of the invention. Wherein fig. 1A is a perspective view of a wall, showing the overall shape thereof; FIG. 1B is an enlarged view of a portion of wall A showing one corner of the wall; fig. 1C is a partial enlarged view at wall B, showing another corner of the wall. Fig. 2 is an exploded view of a wall according to one embodiment of the present invention. The mounting relationship of the respective components thereof is shown in fig. 2.

As shown, the wall 100 is generally rectangular in shape. Wall 100 includes a frame 101 and a plurality of mounts 102 mounted to frame 101. The height of the frame 101 is approximately equivalent to the height of a room, and is adapted to be removably mounted between environmental objects. The plurality of mounts 102 are respectively mounted on both sides of the frame 101. In some embodiments, multiple mounts 102 may be mounted on only one side of frame 101. According to one embodiment of the invention, the frame may not be in contact with the existing walls of the room. For example: the frame is only in contact with the ceiling or floor, or only the sides of one side of the frame are in contact with the existing walls of the room, or the sides of both sides of the frame are in contact with the existing walls of the room.

According to one embodiment of the invention, frame 101 includes a telescoping portion. The telescoping portions may be controlled to extend such that the frame 101 is abutted between environmental objects when the frame is installed. Upon removal, the telescoping portions may be controlled to retract so that the frame 101 is out of abutment with the environmental objects, and the frame 101 may be removed from between the environmental objects. In some embodiments, the telescoping sections may also be controlled to extend so that the frame is abutted between existing two opposing walls of the room, or controlled to retract so that the frame is out of abutment between the two walls. According to one embodiment of the invention, the telescoping portion is a telescoping rod, a telescoping head, a hydraulic rod, or the like. By means of the telescopic parts, the frame 101 can be firmly supported between environmental objects, and can withstand strong impact forces.

Mount 102 may be an integral piece or comprise multiple component parts according to one embodiment of the invention. For example, mount 102 may be a sheet of one or a combination of glass, plastic, wood, rubber, resin, etc.; or a combination of a plurality of such plates.

According to a preferred embodiment of the invention, the mount comprises one or more glass parts. The properties of glass are beneficial for increased wall applications. For example, the glass portion may be fabricated as an LED display screen, thereby functioning as a display device; the glass part may be made as a light emitting part so as to serve as a lighting device; the glass part may be made as a touch screen so as to serve as a control device; and the glass portion may be subjected to an electroplating treatment so as to function as a mirror.

According to some embodiments of the invention, the mount may include, but is not limited to: decorative panels such as wood grain board, cardboard, stone board, glazed tile, etc., or panels coated with wall paint, wallpaper, wall cloth, wall mud, wall paste, etc.; decorations, such as decorative drawings, photographs, artwork, textiles, collectibles, flower artwork, and the like; practical objects, such as racks, hooks, flowerpots, bookshelf, curtains, clothes hangers and the like; lamps such as wall lamps, desk lamps, pendant lamps, reading lamps, small night lamps, etc.; and household appliances such as televisions, electronic photo frames, speakers, communications devices, charging stands, and the like.

According to one embodiment of the present invention, the mount 102 on both sides of the frame 101 forms an inner space of the wall. The interior space may include a filler. As will be appreciated by those skilled in the art, depending on factors such as the environment, conditions, effects, etc. of the wall application, the mountings 102 may be filled differently. For example: one or more of foam, sponge, soundproof cotton, plastic filler, foaming material, and the like. In some embodiments, the interior space may be used to house the controller and communication components of the wall and corresponding circuitry or cables. In some embodiments, the interior space may be used to house electrical cables for power, air ducts for providing air, water pipes for providing or draining water, and auxiliary equipment such as air conditioners, compressors, water purifiers, filters, and the like. In some embodiments, the interior space may also be used to house household appliances. These household appliances can interact with the user through the mount or an opening in the mount, or directly in a contactless manner.

As will be appreciated by those skilled in the art, the mount may be mounted to the frame in a variety of mounting ways. For example: the edge of the object to be mounted comprises a plurality of hooks, and the corresponding position on the frame comprises a plurality of columns. The mounting of the mount to the frame is achieved by mounting a plurality of hooks to a plurality of columns. Or the frame is provided with a clamping piece, the edge of the mount is provided with an insert, and the insert on the mount is inserted into the clamping piece on the frame to realize that the mount is mounted on the frame. Or the frame comprises a plurality of sliding grooves, the mount comprises a plurality of hooks, and the mount is mounted on the frame by inserting the hooks into the sliding grooves and sliding into the tail ends of the sliding grooves. As will be appreciated by those skilled in the art, other mounting methods in the prior art may also be applied to the present solution.

According to one embodiment of the invention, mount 102 is mounted to frame 101 by a lock. The lock is an assembly independent of the frame 101 and mount 102. One part of the lock is connected to mount 102 and the other part is connected to frame 101, thereby locking mount 102 to frame 101. In some embodiments, the lock includes a first position, i.e., a locked position; and a second position, i.e., a free position. The lock is movable between a first position and a second position. When the lock is in the first position, mount 102 is locked to frame 101. When the lock is in the second position, mount 102 is not locked to frame 101. When the locking member is in the second position, the locking member may be released from the frame 101 and the mount 102, or may not be released from the frame 101 and the mount 102, and still be in a non-locked connection state. In some embodiments, the lock may be a clamp, a gripper, a collet, or the like.

As shown in fig. 2, the mount may be mounted to the frame from both sides. A mount is arranged between the two main beams. Those skilled in the art will appreciate that other means are also present. For example, the mount may correspond to more than two main beams.

Fig. 3 is a schematic diagram of a frame according to one embodiment of the present invention, showing its overall appearance. As shown, the frame 101 includes a bottom beam 301, a top beam 302, and a plurality of main beams 303. Wherein a plurality of main beams 303 are arranged between the bottom beams 301 and the top beams 302, the top beams 301 and the bottom beams 301 being arranged laterally. In some embodiments, the main beams 303 may pass through the bottom beams 301 and the top beams 301 so as to directly contact and be supported between environmental objects. According to one embodiment of the invention, when the frame is propped between environmental objects through a plurality of main beams, the frame can bear impact force of more than 150 KG/square centimeter, 180 KG/square centimeter, 200 KG/square centimeter, 250 KG/square centimeter and 300 KG/square centimeter, which is far more than the bearing force of a common reinforced cement wall.

The bottom beam 301 or the top beam 302 may be a single profile or may include a plurality of profiles. The bottom beam 301 is used to carry the weight of the load. The bottom beam 301 and the top beam 302 define the position of the mount, and can limit the mount. In some embodiments, the bottom beams 301 and top beams 302 may also be used to limit the main beams, preventing movement of the main beams 303.

As shown, the plurality of main beams 303 divide the frame 101 into a plurality of sections. The mount 102 can be mounted on an area defined between the bottom beam 301, the top beam 302 and the two main beams 303. As will be appreciated by those skilled in the art, the mount 102 may also be mounted directly to the bottom beam 301, top beam 302 and plurality of main beams 303 as a whole. According to one embodiment of the invention, the main beams 303 are arranged at equal or unequal intervals. In other embodiments, the frame may also include no bottom beams, no top beams, or neither. The girders 303 are mounted between environmental objects and the mount is mounted directly between the two girders 303.

According to one embodiment of the invention, the frame 101 may be an aluminum profile, or other profile or material. The profile is a preferred embodiment. Due to standardization of the section bars, the section bars with different lengths can be cut according to the requirements of use. According to one embodiment of the present invention, the bottom beam 301, the top beam 302 and the main beam 303 are respectively made of different profiles.

According to one embodiment of the present invention, the bottom beam 301, the top beam 302, and the main beam 303 are all special profiles to facilitate the mounting of the mount 102 to the frame 101.

The profile selected for the bottom beam, top beam and main beam of the present invention will be described.

Fig. 4A-4E are schematic views of a bottom beam according to one embodiment of the invention. FIG. 4A is a front view of a sill showing the specific shape of its front face; FIG. 4B is a cross-sectional view of the bottom beam, showing the specific shape of its cross-section; FIG. 4C is a perspective view of the bottom beam, showing the overall shape thereof; FIG. 4D is an enlarged view of a portion of the end face of the bottom beam A, showing the particular shape of the end face of the bottom beam; fig. 4E is an enlarged view of a portion of the bottom beam B showing the specific shape of other structures on the bottom beam.

According to one embodiment of the present invention, the bottom beam 301 has an internal hollow structure, which is advantageous in reducing the use of materials, reducing the weight of the beam, and facilitating installation and transportation. Which includes a top plate 401, a bottom plate 402 and side plates 403, 404. Wherein one side of the side panels 403 and 404 are connected to two sides of the top panel 401 and the other side extends outwardly beyond the bottom panel 402. As shown, a gap may be formed between the base plate 402 and the environmental object. According to one embodiment of the invention, a gasket can be included between the bottom beam and the environmental object to facilitate sealing or backing between the bottom beam and the environmental object, and the influence of the flatness of the environmental object on the frame can be eliminated. The portions of the side panels 403, 404 that extend beyond the bottom panel 402 may provide a positive stop for the gasket. In other embodiments, both sides of the side panels may be connected to the top and bottom panels, respectively, but no longer extend outwardly from the bottom panel. According to one embodiment of the invention, the gasket may be rubber, silicone, plastic, asbestos board, or the like.

According to one embodiment of the invention, the bottom beam 301 further comprises reinforcing plates 405-407 equally spaced between the top plate 401 and the bottom plate 402 for reinforcing the load carrying capacity of the bottom beam. Other numbers and positional relationships of the stiffening webs are possible as will be appreciated by those skilled in the art. As shown, the reinforcing plates 405-407 cut the bottom beam 301 into a plurality of square holes 408-411. According to one embodiment of the invention, square holes 408, 411 may be used to receive cables and/or communication cables inside the wall.

According to an embodiment of the present invention, the bottom beam 301 may further include a plurality of positioning holes 412 penetrating the bottom beam 301 for receiving the main beam therethrough to limit the main beam. According to one embodiment of the invention, the positioning holes are distributed in the space defined by the square holes 409 and 410 at equal intervals and tangential to the reinforcing plates 405 and 407, which is beneficial for the main beams to pass through the center line of the bottom beams, and is convenient for balancing the stress when the frames mount the objects on both sides. As shown, the square holes 409, 410 of the bottom beam ends are arc-shaped. As will be appreciated by those skilled in the art, the two bottom beams 301 may be used in combination to form a locating hole to limit the main beam.

According to one embodiment of the invention, the bottom beam 301 further comprises ribs 413, 414 provided on the top plate 401 near the edges. The ribs 413, 414 define a recess to accommodate the mount and prevent the mount from falling off the bottom beam 301. According to one embodiment of the invention, the ribs 413, 414 may be integrally formed with the bottom beam 301. The ribs 413, 414 may also be arranged in segments according to one embodiment of the invention. For example, one or more sections of ribs 413, 414 may be provided between the alignment holes.

Fig. 5A-5D are schematic views of a header according to one embodiment of the invention. FIG. 5A is a front view of the header showing the specific shape of its front face; FIG. 5B is a cross-sectional view of the roof rail, showing the specific shape of its cross-section; FIG. 5C is a perspective view of the header showing its overall shape; fig. 5D is an enlarged view of a portion of the top beam a showing the specific shape of its end face.

According to one embodiment of the present invention, the top beam 302 is of an internal hollow structure, which is beneficial to reducing the use of materials, reducing the weight of the beam and facilitating installation and transportation. The header 302 includes a top plate 501, a bottom plate 502, and side plates 503, 504. Wherein one side of the side plates 503 and 504 is connected to the top plate 501 and the other side is connected to the bottom plate 502. In some embodiments, the length of bottom panel 502 is less than the distance between side panels 503 and 504. The length of the top plate 501 is greater than the distance between the side plates 503 and 504.

In accordance with one embodiment of the invention, the side panels 503, 504 are folded inwardly near the junction of the side panels and the bottom panel for receiving a sealing strip to seal the connection between the mount and the header. According to one embodiment of the present invention, the side walls where the side plates 503 and 504 are bent further comprise snap protrusions 505 and 506 for snap-engaging the sealing strip. As will be appreciated by those skilled in the art, the snap-in of the sealing strip is only one embodiment of the present invention, and other embodiments already known in the art may be applied to the technical solution of the present invention. For example: by gluing, riveting, welding or by bolting etc. According to one embodiment of the invention the sealing strip may be rubber, silica gel, plastic, asbestos board or the like.

The header 302 also includes stiffening plates 507-509 for stiffening the header according to one embodiment of the invention. Other numbers and positional relationships of the stiffening webs are possible as will be appreciated by those skilled in the art. As shown, the stiffening webs 507-509 cut the header 302 into a plurality of square holes 510-513. According to one embodiment of the invention, square holes 510, 513 may be used to receive power and/or communication cables inside the wall. According to one embodiment of the invention, the reinforcing plates 507 and 509 are distributed between the top plate 501 and the bottom plate 502 at equal intervals, so that the top beam is uniformly stressed, and local overstress can be avoided. The reinforcing plate 508 is disposed between the reinforcing plate 507 and the reinforcing plate 509.

According to one embodiment of the invention, the header 302 further includes stops 514, 515 for forming a space with the header to accommodate the gasket. According to one embodiment of the invention, a gasket can be included between the top beam and the environmental object, which is beneficial to sealing or supporting the top beam and the environmental object, and the influence of the flatness of the environmental object on the frame can be eliminated. The stops 514, 515 may provide barrier protection to the gasket against sideslip or displacement changes, according to one embodiment of the invention. According to one embodiment of the invention, the gasket may be rubber, silicone, plastic, asbestos board, or the like. According to one embodiment of the invention, the stops 514, 515 may be "L" shaped webs. Wherein, the diaphragm that "L" type check kept off links to each other with the lateral wall of curb plate, and roof 501 links to each other with the lateral wall that "L" type check kept off the riser, and check kept off and roof and curb plate connection formation square hole are favorable to strengthening the connection between check kept off and the back timber. The stops may also be directly connected to the top plate, as will be appreciated by those skilled in the art. According to one embodiment of the invention, the rails and the header may be integrally formed.

Further, the header 302 also includes a locating portion for defining the location of the main beam. For example, as shown, the two ends of the header include semi-circles 516, 517. As will be appreciated by those skilled in the art, the two top beams cooperate to form locating holes for locating the main beams. The locating holes may also be located at other locations on the header according to one embodiment of the invention.

Fig. 6A-6D are schematic views of a main beam according to one embodiment of the invention. Fig. 7A-7E are schematic views of a main beam body according to an embodiment of the invention. Fig. 8A and 8B are exploded views of a main beam according to one embodiment of the present invention. Fig. 6A and 6B are perspective views of the main beam in different directions, showing the overall shape thereof; FIG. 6C is an enlarged view of a portion of main beam A, showing one end of the main beam; fig. 6D is a partial enlarged view at the main beam B, showing the other end of the main beam.

Fig. 7A, 7B and 7C are front, top and cross-sectional views, respectively, of a main beam body, showing the specific shape of each face thereof; fig. 7D is a perspective view of the main beam body, showing its overall shape; fig. 7E is an enlarged view of a portion of the main beam body a, showing one end of the main beam body. Fig. 8A and 8B then show the mounting locations of the various components on the main beam. As shown, the main beam 303 includes a main beam body 600 and mating fittings that cooperate to provide a supporting force to support the mount.

Referring to fig. 7A-7E, the main girder body 600 has a substantially rectangular cross section and is hollow inside, which is advantageous in reducing the use of materials, reducing the weight of the girder, and facilitating installation and transportation. The main beam body 600 further includes long side plates 701, 702 and short side plates 703, 704; and the long side plate and the short side plate are connected by connecting plates 705-708 and connecting plates 709-712. Wherein, the connection plates 705-708 are L-shaped connection plates, and the connection plates 709-712 are Z-shaped connection plates. The long side plate or the short side plate is connected with the connecting plate and/or the connecting plates are connected with the side wall at a certain distance from the edge. As shown in the figure, the long side plate, an L-shaped connecting plate and a Z-shaped connecting plate are connected to form a T-shaped guide groove. The short side plate, an L-shaped connecting plate and a Z-shaped connecting plate are connected to form an L-shaped guide groove. According to one embodiment of the invention, the connection plates 905-908 may further comprise a clamping protrusion 713-716 for clamping the sealing strip to the mount in a sealing manner.

According to one embodiment of the invention, arcuate slots 717-720 are included at the cross-connection of the webs 705-708 and webs 709-712 for the main beam body 600 to be coupled to other components. According to one embodiment of the invention, the inner surface of the circular arc groove may further comprise a thread. According to one embodiment of the invention, the central angle of the opening of the circular arc groove may be 0 ° < θ <45 °. According to one embodiment of the invention, the circular arc groove may also be a through hole.

The main beam body 600 also includes stiffening plates 721-724 for stiffening the main beam against stress deformation, according to one embodiment of the invention. Wherein the reinforcing plates 721, 722 are connected to the connection plates 705 and 708 and the connection plates 706 and 707, respectively. Reinforcing plates 723, 724 are connected to connection plates 709 and 712 and connection plates 710 and 711, respectively, and square holes 725, 726 are formed with the short side plates.

According to one embodiment of the present invention, the main beam body 600 further includes connection portions 727 and 728 for connecting the fillers to fill the gap between the mounts on the frame or to buffer the force applied during mounting between the mounts. As shown, a plurality of openings are included in the short side panels of the main beam body 600 for securing padding. The padding may extend into the square holes 725, 726, which may protect it. According to an embodiment of the present invention, the connection portion may be a through slot, and may form a "T" slot with the square hole 725 and the square hole 726, and the filling material may be clamped by the "T" slot.

Further, referring to fig. 8A and 8B, in accordance with one embodiment of the present invention, the fittings of the main beam 303 include end connection plates 801, which are connected to the end surfaces of the main beam body 600, to provide closed protection to the internal structure of the main beam, while providing connection locations for other fittings. According to one embodiment of the invention, the material of the end connection plate 801 may be chrome plated steel or aluminum alloy, etc.

As shown, the end connection plate 801 includes a plate body 811 and a cylinder 812. The plate 811 is substantially rectangular, and has an area equal to or slightly smaller than the area of the rectangle circumscribed by the end surface of the main beam body 600, and the cylinder 812 is provided on the plate 811. According to one embodiment of the invention, the cylinder 812 is disposed at the center of the plate 811 to facilitate the balance of the girder stress. According to one embodiment of the present invention, the plate 811 and the cylinder 812 may be integrally formed. According to one embodiment of the invention, the cylinder 812 may also include internal threads that may be directly coupled to the shoe. The end connection plate 801 further includes a plurality of connection holes 813 positioned to correspond to the circular arc grooves of the girder body 600 according to one embodiment of the present invention. The end face connecting plate and the main beam body can be connected and fixed through bolts. As understood by those skilled in the art, the reserved connection hole is only one embodiment of connection and fixation through the bolt connection, and other embodiments existing in the art can be applied to the technical scheme of the present invention. For example: glue bonding, rivet connection or welding, etc. The end connection plate 801 may not include the cylinder 812 according to one embodiment of the present invention.

The fittings of the main beam 303 also include telescoping portions that can be controlled to extend so that the main beam is held against between environmental objects, or to retract so that the main beam is clear of environmental objects, according to one embodiment of the invention. According to one embodiment of the invention, the abutment force between the main beam and the environmental object is 10-75KG, preferably 15-55KG, most preferably 20-30KG, when the main beam abuts between the environmental objects. According to one embodiment of the invention, the girder can bear an impact force of more than 100 KG/cm, 120 KG/cm, 130 KG/cm, 160 KG/cm, 200 KG/cm when the girder is propped against an environmental object.

According to one embodiment of the invention, the telescoping portion may include shoes 802 disposed at both ends of the main beam body 600 to contact the environmental object. As shown, shoe 802 further includes a chassis 821 and a screw 822. The chassis 821 is disposed at two ends of the main beam body, so that the contact area with the environmental object can be increased. The screw 822 is mounted to the chassis and can be rotated to extend or retract relative to the main beam body. According to one embodiment of the invention, the chassis 821 and the screw 822 may be integrally formed. According to one embodiment of the invention, the material of the chassis may be galvanized steel, stainless steel, reinforced nylon or rubber, or the like. According to one embodiment of the invention, the screw may be a galvanized steel screw, a stainless steel screw, a reinforced nylon screw, a nickel plated screw, or the like.

According to one embodiment of the present invention, the telescoping section may further include a sleeve 803 for the shoe 802 to connect with the end connection plate 801 to avoid rotation of the main beam body due to rotation of the shoe screw. As shown, the sleeve 803 is stepped and includes a larger diameter end 831 that can be coupled to the shoe screw. Also included is a smaller diameter end 832 that may extend into the barrel of the end connection plate 801. Wherein the larger diameter end and the smaller diameter end form a pipe shoulder 833 which can be clamped at the end face connecting plate to play a role in limiting the position of the sleeve. According to one embodiment of the present invention, the larger end 831 between the sleeves may also include threads inside it to allow direct connection with the shoe screw.

The telescoping section may also include an adjustment member 804 for adjusting the length of the main beam for generating a pre-stress to provide support in accordance with one embodiment of the present invention. As shown in the figure, the adjusting part can be an adjusting nut which is arranged on the screw rod of the shoe, and the length of the screw rod of the shoe extending into the sleeve can be adjusted by screwing the adjusting nut, so that the purpose of adjusting the length of the main beam is achieved. According to one embodiment of the invention, the adjustment member may be integrated with the sleeve. According to another embodiment of the invention, the adjusting component may be an adjusting screw, the threads of which are engaged with the threads of the shoe screw, and may be fixed to the main beam body or other parts of the main beam in parallel with the shoe screw, and the shoe screw may be rotated by horizontally rotating the adjusting screw, so that the length of the main beam may be adjusted.

Accordingly, the telescoping section may also include a locking structure 805 for locking the adjustment member to prevent changes in the length of the main beam due to loosening of the adjustment member, affecting the support force and thus affecting the stability of the wall. According to one embodiment of the invention, the locking structure may be a lock nut.

According to another embodiment of the invention, the telescopic part may also be a pneumatic or hydraulic cylinder and a push rod. The cylinder or the hydraulic cylinder can be arranged at one end of the main beam body, and the push rod is pushed to extend outwards by pressurization or is released by depressurization to retract. In some embodiments, the telescoping portion may also be a spring structure, a rack and pinion structure, a worm and gear structure, a ball screw structure, or an expanding material, among others.

According to one embodiment of the present invention, the contact portion of the chassis of the shoe 802 with environmental objects may further include a slip prevention detection pad 806, which may prevent the side slip during the adjustment of the main beam, and may detect whether the pre-stress of the main beam is such that the mount may be supported by the self-deformation amount. According to one embodiment of the present invention, the non-slip detection pad 806 may be rubber, silicone, plastic, metal, or the like.

The length of the main beam is adjusted through the adjusting part, and after the frame is formed, the main beam can generate a certain space difference, so that the structure inside the frame is exposed. According to one embodiment of the invention, a shim 807 may be added to the main beam to compensate for the differences in space created by the main beam, and according to one embodiment of the invention, the shim may be made of rubber, silicone, foam, metal, or the like. According to one embodiment of the invention, the cross-sectional shape of the filling member is similar to that of the main beam, so that the unification of the whole wall and the attractive appearance are facilitated. As shown in the figure, the filling piece consists of two parts, and the filling space is poor by two sides of the main beam. The padding elements may also be divided into other numbers and the differences in the space of the main beams may be filled using other filling means, as will be appreciated by those skilled in the art.

Further, the main beam 303 is connected with the mount to reduce the mounting force between the main beam and the mount. The fittings of the main beam 303 may also include a plurality of sealing strips 808 that seal the mount and cushion the mounting forces. According to one embodiment of the invention, the sealing strips 808 are respectively clamped with the clamping protrusions 713-716 on the main beam body 600, and the end face connecting plates can also block the sealing strips from falling. According to one embodiment of the invention the sealing strip may be rubber, silica gel, plastic, asbestos board or the like.

Further, the accessory of the main beam 303 may further include one or more spacers 809, which are inserted into the connection portion of the main beam body 600, to buffer the acting force of the hanging object, so as to prevent the hanging object from collision during the hanging process. According to other embodiments of the present invention, the spacer 809 may also be a sealing strip that is inserted into the connection portion of the main beam body 600 to seal the gap between the mounts. As shown in the figure, the baffle can be additionally provided with a spring hook at the bottom and is clamped into the opening through elastic deformation. According to one embodiment of the invention, the spacer may be rubber, silicone, plastic, foam, or the like.

Fig. 9A-9G are schematic views of a mount according to one embodiment of the present invention. FIG. 9A is a view of the mount from the front, showing the specific shape of its front face; FIG. 9B is a side view of the mount showing the specific shape of its sides; FIG. 9C is a partial enlarged view at mount A, showing one edge thereof; FIG. 9D is an enlarged view of a portion of mount B, showing one corner thereof; FIG. 9E is a perspective view of the mount showing the overall shape thereof; FIG. 9F is a partial enlarged view at mount C, showing one corner thereof; fig. 9G is a partial enlarged view at mount D, showing one side thereof.

As shown, mount 102 includes a hanger 901 and a bezel 902. The frame 902 is used for fixing the hanging piece 901 and is connected with the frame 101 in a mounting manner. According to one embodiment of the invention, the bezel 902 and the suspension member 901 may be glued together by glue. As will be appreciated by those skilled in the art, glue bonding is but one embodiment of attachment. Other embodiments known in the art may be applied to the connection between the bezel and the pendant. For example: through bolted connection, rivet riveting or the edge of frame set up the joint spare, the edge of pendant sets up the inserts, and the inserts of pendant inserts the joint spare of frame, realizes fixed connection etc. between.

As shown, the hanging member 901 may be a rectangular whole plate, and as understood by those skilled in the art, the hanging member may have different shapes according to specific use requirements, or may be formed by splicing multiple pieces. For example: the hanger may include a plurality of strip plates, a plurality of rectangular plates, or a plurality of irregular plates. According to a preferred embodiment of the present invention, the hanger may be glass, a decorative plate, a decoration, a utility, a lamp, a household appliance, or the like.

As shown, the frame 902 is a rectangular skeleton and is disposed around the hanger. As will be appreciated by those skilled in the art, the shape of the bezel is similar to the shape of the pendant, and changes according to the change in shape of the pendant, and the area enclosed by the bezel is the same as or slightly smaller than the area of the pendant. According to one embodiment of the invention, the bezel 902 may be a plurality of portions that are spliced together. As shown, bezel 902 includes a top edge 903, a bottom edge 904, and side edges 905, 906. Wherein, during mounting, the top edge 903 contacts the top beam 302, the bottom edge 904 contacts the bottom beam 301, and the side edges 905, 906 contact the main beam 303.

Further, top edge 903 and bottom edge 904 include outwardly extending bends 907, 908. It forms a recess, and convenient fixed pendant 901 also can protect pendant 901 simultaneously. According to one embodiment of the invention, bottom edge 904 also includes a hitch plate 909 for attachment to a hitch bar on the bottom beam. As shown, the hanging plate 909 may be a one-piece bent plate. According to one embodiment of the invention, the hitch plate may be integrally formed with the bottom edge.

Further, the sides 905, 906 include risers 910, 911. The vertical plate and the side edges form an L shape, and the right angle formed by the vertical plate can be directly contacted with two sides of one angle of the main beam, and is tightly connected with the sealing strip on the main beam. According to one embodiment of the invention, the risers can be integrally formed with the sides.

Further, mount 102 may also include a plurality of hooks 912 disposed on a side of frame 902 and coupled to the side risers for connection between the mount and the main beam. For example, the hooks may be bolted to the riser. As will be appreciated by those skilled in the art, the bolt is but one embodiment of a connection and other embodiments known in the art may be applied to the connection of a hanger to a riser. For example: riveting, welding, etc. According to one embodiment of the invention, the hooks may also be integrally formed with the rim.

As shown, the hook 912 includes a cross plate 913 and a riser 914. Wherein, the cross plate 913 and the vertical plate 914 form an L shape, which can be directly attached to the vertical plate and the hanging piece on the upper side of the frame. Riser 914 is generally rectangular and includes an opening 915 therein, as well as a longer first slot and a shorter second slot within opening 915. The mount may be mounted to the main beam or to the frame by mounting the mount to the connection point of the lock through opening 915. In some embodiments, the hanger may also be directly connected to the hanger, or integrally formed, and the hanger may be directly mounted to the frame or to the main beam.

Fig. 10A-10D are schematic views of a lock according to an embodiment of the invention. FIGS. 10A and 10B are perspective views of the locking element in different directions, showing the overall shape thereof; fig. 10C and 10D are exploded views of the lock, showing the installed positions of its various components.

As shown, lock 1000 includes a carrier plate 1001 and one or more staples 1002. Wherein, the carrier 1001 is cross, all smooth connection between its each end, can guarantee the intensity of lock 1000, can also reduce the use of material, lighten the weight of lock, practice thrift the cost and easy to assemble. The hanging nails 1002 are fixed at all corners of the first surface of the carrier plate 1001, so that the hanging hooks on the carrying objects can be conveniently hung.

According to one embodiment of the invention, the lock 1000 further comprises a peg screw 1003 fixedly connected to the peg 1002 by a second side of the carrier plate passing through the carrier plate 1001, fixing the peg 1002 to the first side of the carrier plate 1001. According to one embodiment of the invention, screw 1003 may be a square-head female end screw, a square-head flat end screw, a square-head short cylindrical tapered end screw, a square-head long cylindrical spherical end screw, or a square-head long cylindrical end screw, or the like. As will be appreciated by those skilled in the art, screws are only one embodiment of a fixed connection, and other connection means known in the art may be applied to the connection of the peg to the carrier plate. For example: pinning, keying, rivet or welding, bonding, and the like. As shown, each corner of the carrier plate includes a locking notch 1004, which may be a square hole. And the end of the screw comprises a cube structure matched with the screw. The two mutually matched can prevent the connection of the screw and the hook from rotating, and the hook is prevented from loosening due to rotation to influence the mounting. The locking aperture may also be shaped in other ways, as will be appreciated by those skilled in the art. For example: round, hexagonal, etc.

According to one embodiment of the invention, the lock 1000 may further include a "T" shaped slider 1005, which may be disposed on an end surface of any of the screws 1003, on the second surface of the carrier plate, for connection between the lock 1000 and the main beam. According to one embodiment of the invention, the "T" shaped slider may be integrally formed with the screw.

According to one embodiment of the present invention, the locking member 1000 further includes a locking member, which may be a connector 1006, disposed in one of the locking openings 1004 of the carrier 1001 for securing the locking member 1000 to the main beam. As shown, the connector link may pass through the locking notch 1004 of the carrier plate 1001 by squeezing its own opening. The movable links may also be of other kinds according to one embodiment of the invention. For example: the connecting buckle does not comprise an opening, and achieves the purpose of fixation through interference installation between the connecting buckle and the square hole. In some embodiments, the lower end of the connector link may include a T-shaped slider that, when inserted into the main beam through the aperture in the carrier plate, the rotational connector link may secure the locking element to the main beam, facilitating further strengthening of the secure connection between the locking element and the main beam. In some embodiments, the connector link may also be a removable peg, which may be used for mounting other items.

Fig. 11A-11D are schematic views of a mount according to an embodiment of the present invention. FIG. 11A is a schematic view of a mount mounted to a frame, showing its overall shape; fig. 11B to 11D are partial enlarged views of A, B, C of the mount, respectively, showing a specific process of fixing the mount. As will be appreciated by those skilled in the art, the mounting process of a piece of mounting object is only schematically shown in the drawings, so as to illustrate the manner in which the locking element of the present invention secures the mounting object.

As shown, the mount 102 is mounted between the bottom beam, the top beam and the two main beams of the frame 101, and the rims of the mount are respectively in contact with the beams. Referring to fig. 11A, one end of the lock 1000 with a "T" shaped slider extends into a "T" shaped guide slot in the side of the main beam. The sliding block is parallel to the guide groove, the sliding block can move up and down in the guide groove, and correspondingly, the hanging nail at the position corresponding to the T-shaped sliding block can enter from the opening of the hook and slide in the first groove. Referring to fig. 11B, the peg of the lock 1000 is moved to and in contact with the top end of the hook first groove. The lock is rotated by 90 degrees, and the other peg to the lock enters the hook opening and contacts the second slot. The T-shaped sliding block is vertically fixed with the T-shaped guide groove, and the locking piece is fixed on the main beam. And then installing a movable connecting buckle to finish the fixed mounting of the locking piece. The movable connecting buckle can be inserted into the other T-shaped guide groove of the main beam through the locking piece, and the locking piece can be prevented from reversely rotating and falling. According to one embodiment of the invention, when the lock is rotated by 90 degrees, the other hanging nail of the lock can be clamped into the second groove, so that the hanging of the hanging object can be reinforced.

According to one embodiment of the invention, the movable connecting buckle can be connected with a hanging nail, so that the lock piece is convenient for hanging other hanging objects. As shown in fig. 11C, two hanging nails on one side of the lock are used for hanging the object on one side of the wall, and two hanging nails are reserved on the other side of the lock, so that the object on the other side of the wall can be directly hung.

Fig. 12 is a flow chart of a method of installing a double-sided partition according to one embodiment of the invention. As shown, the method 1200 of installing a double-sided partition includes: in step 1210, the frame is assembled in a location where the partition is installed and between environmental objects. The prestress which can support the mount can also be achieved by adjusting the telescopic part of the main beam. In step 1220, one side mount is mounted to the frame. In step 1230, the mount is directly mounted on the other side of the frame, completing the installation of the partition wall. According to one embodiment of the invention, the mount on one side can be locked to the main beam of the frame by a lock and the mount on the other side can be mounted. See in particular the description of fig. 11A-11D.

In the embodiment of the invention, the mounting objects are arranged on two sides of the frame to form a double-sided wall, and the double-sided wall can be applied to partition walls, house outer walls and the like.

Fig. 13A-13H are schematic views of a wall structure according to another embodiment of the invention. FIG. 13A is a front perspective view of a wall showing its overall shape; fig. 13B-13D are partial enlarged front views of the wall A, B, C. FIG. 13E is a perspective view of the back of a wall showing its overall shape; fig. 13F-13H are enlarged rear partial views of the wall A, B, C. Fig. 14A and 14B are exploded views of a wall according to another embodiment of the present invention. FIG. 14A is a front exploded view of a wall; FIG. 14B is an exploded view of the back of the wall; the mounting relationship of the respective components thereof is shown in fig. 14A and 14B.

As shown, wall 1300 includes a plurality of walls, each wall having a generally rectangular overall shape. Wall 1300 includes a frame 1301 and a plurality of mounts 1302 mounted on frame 1301. The height of the frame 1301 is approximately equal to the height of a room, and is adapted to be removably mounted between environmental objects, with a plurality of mounts 1302 mounted on one side of the frame and the other side in contact with an existing wall. In some embodiments, multiple mounts may also be mounted on both sides of the frame, respectively.

According to one embodiment of the invention, frame 1301 includes a telescoping portion. The telescoping portions may be controlled to extend so that the frame 1301 abuts between environmental objects when the frame is installed. Upon disassembly, the telescoping sections may be controlled to retract so that the frame 1301 is out of abutment between the environmental objects, and the frame 1301 may be removed from between the environmental objects. According to one embodiment of the invention, the telescoping portion is a telescoping rod, a telescoping head, a hydraulic rod, or the like.

Mount 1302 may be an integral piece or comprise multiple component parts, according to one embodiment of the invention. For example, mount 1302 may be a sheet of one or a combination of glass, plastic, wood, rubber, resin, etc.; or a combination of a plurality of such plates.

In accordance with a preferred embodiment of the present invention, mount 1302 includes one or more glass portions. The properties of glass are beneficial for increased wall applications. For example, the glass portion may be fabricated as an LED display screen, thereby functioning as a display device; the glass part may be made as a light emitting part so as to serve as a lighting device; the glass part may be made as a touch screen so as to serve as a control device; and the glass portion may be subjected to an electroplating treatment so as to function as a mirror. According to some embodiments of the invention, the mount may include, but is not limited to: decorative panels, ornaments, utilities, lights, household appliances, and the like.

According to one embodiment of the present invention, an internal cavity of the wall may be formed between the mount 1302 on the frame 1301 and the existing wall, and the internal cavity may further include a filler. As will be appreciated by those skilled in the art, depending on factors such as the environment, conditions, effects, etc. of the wall application, the mount 1302 may be a different filler than an existing wall. For example: one or more of foam, sponge, soundproof cotton, plastic filler, foaming material, and the like. In some embodiments, the internal cavity may be used to house the controller and communication components of the wall and corresponding circuitry or cables. In some embodiments, the internal cavity may be used to house electrical cables for power, air ducts for providing air, water pipes for providing or draining water, and auxiliary equipment such as air conditioners, compressors, water purifiers, filters, and the like. In some embodiments, the internal cavity may also be used to house household appliances. These household appliances can interact with the user through the mount or an opening in the mount, or directly in a contactless manner.

As will be appreciated by those skilled in the art, the mount may be mounted to the frame in a variety of mounting ways. For example: the edge of the object to be mounted comprises a plurality of hooks, and the corresponding position on the frame comprises a plurality of columns. The mounting of the mount to the frame is achieved by mounting a plurality of hooks to a plurality of columns. Or the frame is provided with a clamping piece, the edge of the mount is provided with an insert, and the insert on the mount is inserted into the clamping piece on the frame to realize that the mount is mounted on the frame. As will be appreciated by those skilled in the art, other mounting methods in the prior art may also be applied to the present solution.

According to one embodiment of the invention, the frame comprises a plurality of sliding grooves, the mount comprises a plurality of hooks, the mount is mounted on the frame by inserting the hooks into the sliding grooves and sliding the hooks into the tail ends of the sliding grooves, and the joint of the mount and the frame is convenient to clean.

The technical scheme of the invention is described in detail below through specific examples. It will be appreciated by those skilled in the art that these examples are for illustration only and not for limitation of the scope of the invention.

Fig. 15A and 15B are schematic diagrams of a frame according to an embodiment of the present invention. Fig. 15A is a front perspective view of the frame showing the shape of the front face thereof; fig. 15B is a schematic perspective view of the back of the frame, showing the shape of the back thereof.

As shown, frame 1301 includes a bottom beam 1501, a plurality of main beams 1502, and one or more corner beams 1503. Wherein a plurality of main beams 1502 and one or more corner beams 1503 are arranged between the bottom beams 1501 and the environmental object, the corner beams being arranged between two bottom beams at an angle or at a bottom beam corner. In some embodiments, main beams 1502 and/or corner beams 1503 may pass through bottom beams 1501 to directly contact and support between environmental objects. According to one embodiment of the invention, when the frame is propped between environmental objects through a plurality of main beams and/or a plurality of corner beams, the frame can bear impact force of more than 150 KG/square centimeter, 180 KG/square centimeter, 200 KG/square centimeter, 250 KG/square centimeter and 300 KG/square centimeter, which are far more than the bearing force of a common reinforced cement wall.

The bottom beam 1501 may be a single profile or may include multiple profiles. The bottom beams 1501 are used to carry the weight of the load. The bottom beams 1501 may define the locations of the mounts, which may be limited. In some embodiments, bottom beam 1501 may also limit main beam 1502 and corner beam 1503, preventing main beam 1502 and corner beam 1503 from moving.

As shown, a plurality of main beams 1502 and corner beams 1503 divide the frame 1301 into a plurality of sections. Mount 1302 can be mounted on bottom beam 1501 and two main beams 1502 or bottom beam 1501 and areas defined by main beams 1502 and corner beams 1503. As will be appreciated by those skilled in the art, mount 1302 may also be mounted directly on bottom beam 1501, main beam 1502 or on bottom beam 1501, main beam 1502 and corner beam 1503 as a whole. The main beams 1502 may be arranged at equal or unequal intervals according to one embodiment of the present invention. Corner beam 1503 is disposed at a wall corner according to one embodiment of the invention. According to one embodiment of the invention, the frame may also not include a bottom beam. The main beams 1502 and corner beams 1503 are mounted between environmental objects and the mount is mounted directly between two main beams 1502 or between a main beam 1502 and a corner beam 1503. According to one embodiment of the invention, the frame may further include one or more cross bars 1504 connected between the two girders or between the girders and the corner girders for reinforcing the girders and thus the frame.

According to one embodiment of the invention, frame 1301 may be an aluminum profile, or other profile or material. The profile is a preferred embodiment. Due to standardization of the section bars, the section bars with different lengths can be cut according to the requirements of use. According to one embodiment of the invention, bottom beam 1501, main beam 1502, corner beam 1503 and cross bar 1504 are each of different profiles.

According to one embodiment of the present invention, special profiles are selected for bottom beams 1501, main beams 1502, corner beams 1503 and cross bars 1504 to facilitate mounting of mount 1302 to frame 1301. The sectional materials selected for the bottom beam, the main beam, the corner beam and the cross bar of the invention will be described below.

Fig. 16A-16F are schematic views of a bottom beam according to one embodiment of the invention. FIG. 16A is a front view of a sill showing its frontal shape; FIG. 16B is a cross-sectional view of the bottom beam A-A, showing its cross-sectional shape; FIG. 16C is a cross-sectional view of the bottom beam B-B, showing the shape of its cross-section; FIG. 16D is a perspective view of the sill showing its overall shape; FIG. 16E is an enlarged view of a portion of the sill C showing one corner thereof; fig. 16F is a partial enlarged view of the bottom beam D, showing one side thereof.

According to one embodiment of the invention, the bottom beam 1501 is of hollow structure, which is beneficial to reducing the use of materials, reducing the weight of the beam and facilitating installation and transportation. It includes top panel 1601, bottom panel 1602, and side panels 1603 and 1604. Wherein one side of side panels 1603 and 1604 are connected to two sides of top panel 1601 and the other side is passed over bottom panel 1602, bottom panel 1602 is connected to the side walls of side panels 1603 and 1604. As shown, the bottom plate 1602 may form a gap with an environmental object. According to one embodiment of the invention, a gasket can be included between the bottom beam and the environmental object, which is beneficial to sealing or backing between the bottom beam and the environmental object, is convenient for installing the frame, and can avoid the influence of the flatness of the environmental object on the frame in the assembly process. The side plates 1603 and 1604 are over the bottom plate 1602 to limit the sealing band to prevent sideslip during installation and to affect the stability of the frame. According to one embodiment of the invention, the side panels may also be connected directly to the bottom panel without crossing the bottom panel. According to one embodiment of the invention, the gasket may be rubber, silicone, plastic, asbestos board, or the like.

According to one embodiment of the invention, the side panels, top panel and floor of the bottom beam 1501 may form square holes 1605 that may be used to receive power and/or communication cables inside the wall. Of course, according to one embodiment of the present invention, one or more reinforcing plates may be further included between the top plate and the bottom plate of the bottom beam in order to reinforce the strength of the bottom beam. The bottom beam 1501 may also be cut from the bottom beam 301 of the previous embodiment according to one embodiment of the present invention. For example, along the midline of the bottom beam 301 or along the reinforcing plate of the bottom beam 301.

The bottom beam 1501 may also include a plurality of positioning holes 1606 extending through the bottom beam 1501 for determining the mounting location of the main beam for precise positioning of the main beam, in accordance with one embodiment of the present invention. According to one embodiment of the present invention, the positioning holes 1606 may be distributed at equal intervals on the side of the bottom beam 1501, which is offset from the side plate 1604, so as to facilitate the stress balance when the frame mounts the object. As shown, the side plates 1604 at the end of the bottom beam are slightly longer than the side plates 1603, so that the bottom beam 1501 is positioned at the corners, which is beneficial to the installation of the frame, and the corners can be fully covered, so that the exposure of the internal structure of the wall is avoided. Specifically, when the corner is an inner corner, the side plates 1604 of the two bottom beams are opposite, so that the corner can be fully shielded; when the corner is an outer corner, the side plates 1604 of the bottom beams on two sides are opposite, so that the corner can be comprehensively shielded, and the side plates 1603 of the two bottom beams can be opposite or leave gaps, so that the installation of the frame is not affected.

The girder and the mounting piece are all borne on the bottom girder, and the stress at the joint of the girder and the bottom girder is larger, which may cause uneven stress of the bottom girder. Also included in the locating hole 1606 is a sleeve 1607 for receiving the main beam therethrough, limiting the main beam, according to one embodiment of the present invention. The sleeve 1607 and the positioning hole 1606 can move up and down so that the force of the main beam can be directly applied to the environmental object. According to one embodiment of the invention, a gasket can be further arranged between the sleeve and the environmental object, so that sealing or lining supporting between the sleeve and the environmental object is facilitated, and influence of the environmental object on the installation of the main beam is avoided. According to one embodiment of the invention, the gasket between the sleeve and the environmental object is integrally formed with the gasket between the sill and the environmental object. According to one embodiment of the invention, the gasket may be rubber, silicone, plastic, asbestos board, or the like.

The sill 1501 further includes a plurality of ribs 1608 arranged in a segment in line above the sill top panel 1601, adjacent to the side panels 1604 side, in accordance with one embodiment of the present invention. The protruding strips 1608 are used for being clamped with the mounted objects to prevent the mounted objects from falling off the bottom beams 1501. According to one embodiment of the present invention, one protrusion 1608 may be included between each two positioning holes 1606. The ribs 1608 may be integrally formed with the bottom beam 1501 in accordance with one embodiment of the invention. The rib 1608 may also be an integral strip according to one embodiment of the present invention.

Fig. 17A-17H are schematic views of a main beam according to one embodiment of the invention. FIG. 17A is a front view of the main beam, showing its front view; FIG. 17B is an enlarged view of a portion of main beam A, showing one corner thereof; FIG. 17C is a cross-sectional view of the main beam body, showing the shape of its cross-section; FIGS. 17D and 17E are perspective views of the main beam in different directions, showing the overall shape thereof; fig. 17F to 17H are partial enlarged views of the main beam B, C, D, showing the specific shape of each portion. As shown, the main beam 1502 includes a main beam body 1700 and mating fittings that cooperate to provide a supporting force to support the mount.

Referring to fig. 17C, the main beam body 1700 has a generally "convex" shape in cross section and is hollow in the interior, which is advantageous in reducing the use of materials, reducing the weight of the beam, and facilitating installation and transportation. Wherein the "male" side panels 1702 and 1703 continue from the bottom panel 1701 toward the top panel 1704 and form grooves 1707 and 1708 with the upper side panels 1705 and 1706, respectively. According to one embodiment of the invention, snap tabs 1709 and 1710 may be included on either side of the top plate 1704 for snap-fitting the seal strip into sealing engagement with the mount.

According to one embodiment of the invention, the main beam body 1700 includes stiffening plates 1711 and 1712 for stiffening the main beam to prevent it from being deformed under force. Wherein, the reinforcing plates 1711 and 1712 are arc-shaped, are connected between the bottom plate 1701 and the upper side plates 1705 and 1706, and form a round hole 1713 with the upper side plates 1705 and 1706.

According to one embodiment of the invention, arcuate slots 1714-1717 are included at the junction of the bottom panel 1701 with the side panels 1702 and 1703 and the junction of the reinforcing panels 1711 and 1712 with the upper side panels for connecting the main beam body 1700 with other components. According to one embodiment of the invention, the inner surface of the circular arc groove may further comprise a thread. According to one embodiment of the invention, the central angle of the opening of the circular arc groove may be 0.ltoreq.θ <45 °. According to one embodiment of the invention, the circular arc groove may also be a threaded hole.

Referring to fig. 17B, the bottom of recesses 1707 and 1708 may include a plurality of openings 1718 that may be used to secure hanging mounts, according to one embodiment of the invention. According to one embodiment of the invention, the mount may include a hook that may extend into the opening 1718 so as to be suspended from the main beam. According to one embodiment of the invention, the main beam body further comprises a connecting part for connecting the filling objects, filling gaps between the mounting objects on the frame or buffering acting force during mounting between the mounting objects. As shown, the midline of the top plate 1704 includes a plurality of apertures 1719 for securing the refill. The padding can extend into the circular hole 1713, which can protect it. According to an embodiment of the present invention, the connection portion may be a through slot, such as a "T" slot, through which the filling is clamped.

Further, referring to fig. 17D-17H, in accordance with one embodiment of the present invention, the fittings of the main beam 1502 may include end connection plates 1720 that may be connected by screws or the like fastening means to the end of the main beam body 1700 to provide a closed protection to the internal structure of the main beam while providing connection locations for other fittings. According to one embodiment of the invention, the material of the end connection plate 1720 may be chrome plated steel or aluminum alloy, or the like.

As shown, end connection plate 1720 includes a plate body 1721 and a cylinder 1722. Wherein, the plate 1721 is rectangular, its area is the same as or slightly smaller than the area of the rectangle circumscribed by the end face of the main beam body 1700, and the cylinder 1722 is disposed on the plate 1721. According to one embodiment of the invention, the cylinder 1722 is disposed at the center of the plate 1721 to facilitate the balance of the girder forces. According to one embodiment of the invention, plate 1721 and cylinder 1722 may be integrally formed and may be directly mated with the sleeve of the bottom beam. According to one embodiment of the invention, the inner surface of barrel 1722 may also include threads that can be directly coupled to the shoe. According to one embodiment of the invention, the end connection plate 1720 further includes a plurality of connection holes 1723 positioned to correspond to the circular arc slots on the main beam body 1700. The end face connecting plate and the main beam body can be fixedly connected through screws. As will be appreciated by those skilled in the art, the screw-fastening is only one embodiment, and other embodiments known in the art can be applied to the technical solution of the present invention. For example: glue bonding, rivet connection or welding, etc.

In accordance with one embodiment of the invention, the fittings of the main beam 1502 may also include telescoping portions that are controlled to extend so that the main beam is against an environmental object, or to retract so that the main beam is clear of an environmental object. According to one embodiment of the invention, the abutment force between the main beam and the environmental object is 10-75KG, preferably 15-55KG, most preferably 20-30KG, when the main beam abuts between the environmental objects. According to one embodiment of the invention, the main beam can withstand an impact force of more than 100 KG/cm, 120 KG/cm, 130 KG/cm, 160 KG/cm, 200 KG/cm when the main beam is abutted between environmental objects.

According to one embodiment of the present invention, the telescoping portion may include a shoe 1730 provided at one end of the main beam body to contact the environmental object, the main beam and the bottom beam being directly connectable by an end connection plate. As shown, shoe 1730 further includes a base 1731 and a screw 1732. The chassis 1731 is disposed at two ends of the main beam body, so that the contact area with the environmental object can be increased. Screw 1732 is mounted to the chassis and can be rotated to extend or retract relative to the main beam body. According to one embodiment of the invention, the chassis 1731 and the screw 1732 may be integrally formed. According to one embodiment of the invention, the material of the chassis may be galvanized steel, stainless steel, reinforced nylon or rubber, etc. According to one embodiment of the invention, the screw may be a galvanized steel screw, a stainless steel screw, a reinforced nylon screw, a nickel plated screw, or the like.

In accordance with one embodiment of the present invention, the telescoping section may further include a sleeve 1733 for connection between shoe 1730 and end connection plate 1720 to prevent rotation of the main beam due to rotation of the shoe screw, thereby affecting the mounting of the mount. As shown, the sleeve 1733 is directly sleeved on the cylinder of the end-face connection plate, and may include a nut 1734 disposed on the shoe screw for controlling the screw to rise or fall, thereby adjusting the length of the girder. According to one embodiment of the invention, the nut 1734 and the sleeve 1733 may be integrally formed. According to another embodiment of the invention, the length of the adjusting girder can also be an adjusting screw, the threads of the adjusting screw are meshed with the threads of the shoe screw, the adjusting screw is parallel to the shoe screw and fixed on the girder body or other accessories of the girder, and the shoe screw can be rotated by horizontally rotating the adjusting screw, so that the length of the girder can be adjusted.

According to one embodiment of the present invention, the telescopic portion may further include a locking structure (not shown) for locking the adjusting member, preventing the change in the length of the girder due to the loosening of the adjusting member, affecting the supporting force, and thus affecting the stability of the partition wall. According to one embodiment of the invention, the locking structure may be a lock nut.

According to another embodiment of the invention, the telescopic part may also be a pneumatic cylinder or a hydraulic cylinder and a push rod. The cylinder or the hydraulic cylinder is arranged at one end of the main beam body, and the push rod is pushed to extend outwards by pressurization or is released by depressurization to retract, and in some embodiments, the telescopic part can also be a spring structure, a gear rack structure, a turbine worm structure, a ball screw structure or an expansion material.

According to one embodiment of the present invention, the portion of the chassis of the hoof 1730 that contacts environmental objects may also include anti-slip detection pads 1735 that may prevent sideslip during adjustment of the main beam, while also detecting whether the pre-stress of the main beam has reached the support mount by itself. According to one embodiment of the present invention, the non-slip detection pad 1735 may be rubber, silicone, plastic, metal, or the like.

Further, the main beam is connected with the mount object in order to reduce the mounting acting force between the main beam and the mount object. The main beam fittings may also include sealing strips 1740 and 1741 that seal the mount and cushion the forces during mounting. According to one embodiment of the invention, the sealing strips 1740 and 1741 are snapped into place with the snap tabs 1709 and 1710 on the main beam body 1700, respectively, and the end connection plates also block it from falling out. According to one embodiment of the invention the sealing strip may be rubber, silica gel, plastic or asbestos board or the like.

In accordance with one embodiment of the present invention, the main beam assembly may further include one or more spacers (not shown) that are inserted into the connection portion of the main beam body 1700 to buffer the force applied during the mounting of the mount or to seal the gap between the mounts. According to one embodiment of the invention, the spacer may be a sealing strip, which may be inserted into the connection of the bottom beam. Specifically, the spacer can be additionally provided with a spring hook through the bottom and is clamped into the opening through elastic deformation. According to one embodiment of the invention, the spacer may be rubber, silicone, metal, plastic or foam, or the like.

The main beams need to be supported between the bottom beams and the environmental objects, and the main beams with different lengths can be intercepted according to the heights of different houses. As will be appreciated by those skilled in the art, the longer the main beam, the greater the moment it is subjected to, and the more easily the main beam will bend and deform. In accordance with one embodiment of the invention, the girder attachment may include reinforcement 1750 attached to the girder and the wall for reinforcing the girder to prevent bending deformation thereof. Wherein the reinforcement 1750 resembles a "zig-zag" shape that includes a top plate 1751, side edges 1752, and bottom edges 1753. In accordance with one embodiment of the invention, the top plate 1751 includes hooks 1754 by which stiffeners may be attached to the side plates 1702 and 1703 of the main beam body. According to one embodiment of the invention, the width of the hook 1754 is the same as or slightly greater than the thickness of the main beam body side plate. According to one embodiment of the invention, side 1752 is the same or slightly longer than side panels 1702 and 1703 to ensure that the bottom edge fits the wall. According to one embodiment of the invention, the bottom edge may include openings that may be used to attach the stiffener to the wall, and fasteners such as bolts may be used to tightly attach the main beam to the original wall to strengthen the frame. According to one embodiment of the invention, the number and location of the stiffeners may be determined according to the actual situation.

Fig. 18A-18G are corner beam schematic diagrams according to one embodiment of the invention. FIG. 18A is a front view of a corner beam, showing its frontal shape; FIG. 18B is a corner beam cross-sectional view showing the shape of its cross-section; fig. 18C and 18D are perspective views of the corner beam in different directions, showing the overall shape thereof. Fig. 18E to 18G are partial enlarged views of corner beam A, B, C, showing the specific shape of each portion thereof. As shown, corner beam 1503 includes a corner beam body 1800 and fittings that cooperate therewith to collectively provide a supporting force to support a mount.

Referring to fig. 18B, the corner beam body 1800 is generally "L" shaped in cross section and hollow inside, which is advantageous for reducing the use of materials, reducing the weight of the beam, and facilitating installation and transportation. Wherein the two sides of the "L" shaped cross section are symmetrical to each other, and one side is taken as an example, which comprises an outer side plate 1801 and an inner side plate 1802, wherein the outer side plate 1801 is an "L" shaped plate, and the inner side plate 1802 is a "Z" shaped plate. Wherein the outer plate can include a first plate 1803 and a second plate 1804 and the inner plate includes a first plate 1805, a second plate 1806, and a third plate 1807. One end of the third plate 1807 of the inner plate is attached to and secured to the side wall of the second plate 1804 of the outer plate. According to one embodiment of the invention, the second plate of the inner side plate may include outwardly protruding snap tabs 1808 for sealing connection of the snap seal to the mount.

According to one embodiment of the invention, the cross section of the corner beam includes arcuate slots 1809-1811 at the junction of the outer side plate first plate and the junction of the inner side plate second and third plates for connecting the corner beam body 1800 to other components. According to one embodiment of the invention, the inner surface of the circular arc groove may comprise a thread. According to one embodiment of the present invention, the central angle of the opening of the circular arc groove may be 0 ° < θ <45 °. According to one embodiment of the invention, the circular arc groove may also be a hole.

The corner beam body 1800 also includes a reinforcing plate 1812, which is rounded in shape, for reinforcing the corner beam strength against stress deformation, in accordance with one embodiment of the present invention. Wherein, the reinforcing plate is respectively connected with two ends of the inner side plate with the L-shaped section. In accordance with one embodiment of the present invention, to avoid the circular arc groove of the corner beam body, the corner beam body may further include connection plates 1813 and 1814 connected between the first plate of the outer side plate of the "L" -shaped section and the reinforcing plate. The reinforcement plate may also be of other shapes according to one embodiment of the invention. For example: rectangular or other irregular patterns, etc.

According to one embodiment of the present invention, the connection between the reinforcing plate and the inner side plate of the corner beam may further include a connection portion 1815 for connecting the filler, filling the gap between the mounts on the frame or buffering the force applied during mounting between the mounts. In particular, a plurality of openings may be included in the reinforcing plate between the inner side plates along the center cut line for securing the padding. The filling can be inserted into the opening for fixing. According to an embodiment of the present invention, the connection portion may be a through slot, for example, a "T" slot, through which the filling is clamped.

Further, referring to fig. 18C-18G, the fittings of the corner beam 1503 are the same as those of the main beam 1502 in the above embodiment according to an embodiment of the present invention, wherein the fitting or connection relationship of the fittings is similar, and thus, the description thereof is omitted herein. When the corner beam is propped against the environmental object, the propping force between the corner beam and the environmental object is 10-75KG, preferably 15-55KG, and most preferably 20-30KG, and the corner beam can bear the impact force of more than 100 KG/square centimeter, 120 KG/square centimeter, 130 KG/square centimeter, 160 KG/square centimeter and 200 KG/square centimeter.

Fig. 19A-19D are schematic cross bar diagrams according to one embodiment of the invention. Fig. 19A is a front view of the cross bar, showing the shape of the front face thereof; FIG. 19B is a cross-bar top view, showing its top view shape; FIG. 19C is a side view of the cross bar showing its side shape; fig. 19D is a cross-bar cross-sectional view showing a specific shape of its cross-section. As shown, the rail 1504 includes a rail body 1900 and mating fittings that are commonly secured between the main beams or between the main beams and the corner beams to strengthen the frame.

Referring to fig. 19D, the cross-section of the crossbar body 1900 is generally rectangular and hollow in the interior, which is advantageous in reducing the use of materials, reducing the weight of the crossbar, and facilitating installation and transportation. According to one embodiment of the invention, each corner of the rail body includes a circular arc slot 1901-1904 for connecting the rail body to other components. According to one embodiment of the invention, the inner surface of the circular arc groove may further comprise a thread. According to one embodiment of the invention, the central angle of the opening of the circular arc groove may be 0 ° < θ <45 °. According to one embodiment of the invention, the circular arc grooves may also be holes.

Further, referring to fig. 19A-19C, in accordance with one embodiment of the present invention, the fitting of the cross bar 1504 includes a connector 1910 that connects to the end of the cross bar and may also be connected to the main beam and/or corner beam. According to one embodiment of the invention, the material of the connector 1910 may be chrome plated steel or aluminum alloy, etc.

As shown, the connector 1910 is generally "n" shaped and may include a first edge 1911, a second edge 1912, and a third edge 1913, wherein each end of the second edge is connected to the first edge and the third edge, respectively. According to one embodiment of the present invention, the third side may include a plurality of holes positioned corresponding to the circular arc grooves of the rail body 1900, and the connecting member may be connected and fixed to the rail body by fastening means such as bolts. As will be appreciated by those skilled in the art, bolting is only one embodiment of a fixed connection, and other embodiments known in the art may be applied to the solution of the present invention. For example: glue bonding, rivet connection or welding, etc. According to one embodiment of the invention, the length between the first edge 1911 and the third edge 1913 or the second edge 1912 is the same as or slightly greater than the outside plate thickness of the main beam side plate or corner beam. According to one embodiment of the invention, the length of the third side may be the same as or slightly less than the length of the first plate of the main beam side plate or corner beam outer side plate.

Fig. 20A-20K are schematic views of a mount according to an embodiment of the present invention. FIG. 20A is a view of the mount from the front, showing the shape of the front; FIG. 20B is a side view of the mount showing the shape of its side; FIGS. 20C-20E are partial enlarged views of mount A, B, C showing the shape of each portion thereof; fig. 20F and 20G are perspective views of the mount in different directions, respectively, showing the overall shape thereof; fig. 20H to 20K are partial enlarged views of the mount D, E, F, G, showing the shape of each portion thereof. Fig. 21A and 21B are schematic views of a mount according to an embodiment of the present invention. FIG. 21A is a schematic view of a mount mounted to a frame, showing its overall shape; fig. 21B is a partial enlarged view of mount a showing one side of the mount. As will be appreciated by those skilled in the art, the mounting process of a piece of mounted object is only schematically shown in the drawings, so as to illustrate the mounting manner of the mounted object of the present invention.

As shown, mount 1302 includes a pendant 2001 and a bezel 2002. The frame 2002 is used for fixing the hanging member 2001 and is connected with the frame 1301 in a mounting manner. According to one embodiment of the invention, the bezel 2002 and the pendant 2001 may be glued together by glue. As will be appreciated by those skilled in the art, glue bonding is but one embodiment of a connection, and other embodiments known in the art may be applied to the connection between the bezel and the hanger. For example: through bolted connection, rivet connection or the edge setting joint spare of frame, the edge setting inserts of pendant, the joint spare of frame is inserted to the inserts of pendant, realizes the connection etc. between the two.

As shown, the hanger 2001 may be a rectangular plate, as will be appreciated by those skilled in the art, and the hanger may have different shapes or may be a plurality of pieces joined together according to the particular application. For example: the hanger may include a plurality of strip plates, a plurality of rectangular plates, or a plurality of irregular plates. According to a preferred embodiment of the present invention, the hanger may be glass, a decorative plate, a decoration, a utility, a lamp, a household appliance, etc.

According to one embodiment of the present invention, the frame 2002 is a rectangular skeleton and is disposed around the hanger. As will be appreciated by those skilled in the art, the shape of the bezel is similar to the shape of the pendant, and changes according to changes in the shape of the pendant, and the area enclosed by the bezel is the same as or slightly smaller than the area of the pendant. According to one embodiment of the invention, the bezel 2002 may be formed by stitching multiple portions. As shown, bezel 2002 includes top edge 2003, bottom edge 2004, and side edges 2005 and 2006. Wherein, during mounting, bottom edge 2004 is in contact with the bottom beam and sides 2005 and 2006 are in contact with the main beam or corner beam.

Further, top and bottom edges 2003 and 2004 include outwardly extending bends 2007 and 2008. It forms a recess, and convenient fixed pendant 2001 also can protect pendant 2001 simultaneously. According to one embodiment of the invention, bottom edge 2004 may also include a hitch plate 2009 for attachment of a mount to a hitch bar on the bottom beam. As shown. The hooking plate 2009 may be a single piece of "L" shaped bent plate. According to one embodiment of the invention, the hitch plate may be integrally formed with the base plate.

Further, sides 2005 and 2006 include risers 2010 and 2011. Wherein the vertical plate and the side edges form an L shape, the right angle formed by the vertical plate can be directly contacted with two sides of one angle of the main beam, and the vertical plate and the side edges can be tightly connected with the sealing strip on the main beam. According to one embodiment of the invention, the risers can be integrally formed with the sides.

Further, mount 1302 may also include a plurality of hooks 2012, generally "h" shaped plates, disposed on the side inward of frame 2002 for connection between the mount and the main or corner beams. The hook comprises a long side plate 2013 and a bent hook 2014, and the long side plate can be tightly attached to a vertical plate on the upper side edge of the frame. According to one embodiment of the invention, the long side plate 2013 includes a plurality of holes 2015 for connection between the hooks and the rim. For example, the hanger may be attached to the riser by fastening means such as bolts. According to one embodiment of the invention, the width of the long side plate is the same as or slightly smaller than the width of the vertical plate on the side edge of the frame, so that the long side plate is convenient to position when the hook is installed. According to one embodiment of the invention, the hooks may also be integrally formed with the rim.

Referring to fig. 21A and 21B, according to an embodiment of the present invention, a plurality of hooks may extend into holes of grooves of a main beam body or a corner beam body to mount a mount, and a riser connected to the hooks may be hidden in the grooves of the main beam body or the corner beam body, which is advantageous for the neatness of the mount and the main beam after the mount. According to one embodiment of the invention, one side of the side plate (and the upper part of the object to be mounted) close to the environmental object can not comprise a vertical plate, so that a mounting space is reserved for the object to be mounted, and the object to be mounted can be conveniently mounted on the main beam or the corner beam. According to one embodiment of the invention, openings can also be added to the end connection plates of the main beams or corner beams. The shape and the size of the opening can be the same as those of the groove on the main beam body or the corner beam body, and the vertical plates on the side edges of the frame can be accommodated to pass through, so that the vertical plates on the side edges of the frame are prevented from interfering with the end face connecting plates of the main beam or the corner beam, and the object is conveniently mounted.

According to an embodiment of the present invention, the frame of the mount may further integrate other structures (such as a ceiling structure, a corner decoration structure of a house, etc.), as shown in the figure, a part of the top edge bending 2007 is used for fixing the hanging member, and the other part is slightly away from the hanging member, and an opening 2021 is formed between the top edge bending 2007 and the hanging member, which is convenient for accommodating other structures and is beneficial for integrating the mount with other structures. According to one embodiment of the invention, the top edge fold 2007 may also include an external protrusion 2022 that may be used to engage and secure the bezel to other structures. As will be appreciated by those skilled in the art, other connection means known in the art may be applied to the technical solution of the present invention. For example: bonding, bolting or welding, etc.

Fig. 22 is a flow chart of a single wall installation method according to one embodiment of the invention. As shown, at step 2201, a frame is installed between environmental objects along an existing wall. According to one embodiment of the invention, one side of the frame may be in close proximity to the existing wall or may be spaced a short distance from the existing wall. At step 2202, the mount is mounted to a side of the frame remote from the existing wall. The specific mounting method can be described in detail in fig. 21A and 21B.

In the embodiment of the invention, the single side of the frame is provided with the mount as a single wall, and the mount can be applied to the existing wall structure of a room.

Fig. 23 is a schematic view of a wall structure according to another embodiment of the invention.

As shown, wall 2300 is generally rectangular in shape. Wall 2300 includes one or more body portions 2301 and tension members. The tension component comprises two states, wherein in a first state, an abutting force exists between the tension component and an environmental object, and in a second state, an abutting force does not exist between the tension component and the environmental object. According to one embodiment of the invention, the plurality of body portions stand side by side in an environmental object. According to one embodiment of the invention, the body portion may not be in contact with an existing wall of the room. For example: the main body portion is only in contact with the ceiling and the floor, or only the side edges of one side of the main body portion are in contact with the existing wall of the room, or the side edges of both sides of the main body portion are in contact with the existing wall of the room.

According to a preferred embodiment of the invention, the tension members may be support rods 2302, one or both of which may include telescoping portions that are controlled to extend so that the support rods 2302 bear against and secure the body portion between the environmental objects when the partition is installed. Upon removal, the telescoping sections may be controlled to retract so that the support rods 2302 are out of abutment between the environmental objects, and the support rods 2302 may be removed from between the environmental objects. According to one embodiment of the invention, the telescoping portion is a telescoping rod, a telescoping head, a hydraulic rod, or the like. The support bar 2302 can be firmly supported between environmental objects by the telescopic portion, and can withstand strong impact force. In some embodiments, telescoping rods, pneumatic or hydraulic pushrods, springs, etc. may be included between the wall blocks and the environmental object. In some embodiments, the tension members may also be an intumescent material between the wall blocks and the environmental object, with the intumescent material expanding outwardly to secure the body portion between the environmental objects.

The body portion may be connected to the support bar in a variety of ways, as will be appreciated by those skilled in the art. For example: the edge of the main body part comprises a plurality of hooks, and the corresponding position on the supporting rod comprises a plurality of columns. The mounting of the body portion to the frame is accomplished by hooking a plurality of hooks onto a plurality of posts. Or the support rod is provided with a clamping piece, the edge of the main body part is provided with an inserting piece, and the clamping piece inserted into the support rod by the inserting piece on the main body part realizes that the main body part is mounted on the support rod. Or the supporting rod comprises a plurality of sliding grooves, the main body part comprises a plurality of hooks, and the main body part is mounted on the supporting rod by inserting the hooks into the sliding grooves and sliding into the tail ends of the sliding grooves. As will be appreciated by those skilled in the art, other mounting methods in the prior art may also be applied to the present solution.

According to one embodiment of the present invention, the body portion 2301 may include a through hole, and the support rod 2302 may be supported between the environmental objects directly through the through hole in the body portion, thereby securing the body portion between the environmental objects. According to other embodiments of the present invention, the sides of the body portion 2301 may also include grooves, and a portion of the support rod 2302 is received in the grooves of the body portion and supported between the environmental objects so that the body portion may be secured between the environmental objects.

The main body portion and the support bar of the present invention will be described in detail below.

Fig. 24 is a schematic view of a main body portion showing its overall shape according to an embodiment of the present invention. Fig. 25 is an exploded view of a body portion showing various component mounting locations, according to one embodiment of the present invention.

As shown, the body portion 2301 is generally rectangular. The body portion includes a frame 2401 and a mount 2402 mounted on the frame. Wherein, the mount 2402 is respectively mounted on two sides of the frame 2401. In some embodiments, mount 2402 may be mounted on only one side of frame 2401.

Mount 2402 may be one integral or multiple composite parts according to one embodiment of the invention. For example, mount 2402 may be a sheet of one or a combination of glass, plastic, wood, rubber, resin, etc.; or a combination of a plurality of such plates.

According to a preferred embodiment of the invention mount 2402 includes one or more glass portions. The properties of glass are beneficial for increased wall applications. For example, the glass portion may be fabricated as an LED display screen, thereby functioning as a display device; the glass part may be made as a light emitting part, so that it may be used as a lighting device; the glass part can also be made as a touch screen, thereby acting as a control device; and the glass portion may be subjected to an electroplating treatment so as to function as a mirror.

According to some embodiments of the invention, mounts 2402 may include, but are not limited to: decorative panels such as wood grain board, cardboard, stone board, glazed tile, etc., or panels coated with wall paint, wallpaper, wall cloth, wall mud, wall paste, etc.; decorations, such as decorative drawings, photographs, artwork, textiles, collectibles, flower artwork, and the like; practical objects, such as racks, hooks, flowerpots, bookshelf, curtains, clothes hangers and the like; lamps such as wall lamps, desk lamps, pendant lamps, reading lamps, small night lamps, etc.; and household appliances such as televisions, electronic photo frames, speakers, communications devices, charging stands, and the like.

According to one embodiment of the invention, a partition wall interior space may be formed between mounts 2402 on both sides of frame 2401, and the interior space may include a filler (as shown by the dashed lines in fig. 25). As will be appreciated by those skilled in the art, depending on factors such as the environment, conditions, effects, etc. of the wall application, the mountings 3402 may be of different fillings. For example: one or more of foam, sponge, soundproof cotton, plastic filler, foaming material, and the like. In some embodiments, the interior space may be used to house the controller and communication components of the smart wall and corresponding circuitry or cables. In some embodiments, the interior space may be used to house electrical cables for power, air ducts for providing air, water pipes for providing or draining water, and auxiliary equipment such as air conditioners, compressors, water purifiers, filters, and the like. In some embodiments, the interior space may also be used to house household appliances. These household appliances can interact with the user through the mount or an opening in the mount, or directly in a contactless manner.

As will be appreciated by those skilled in the art, the mount may also be mounted to the frame in a variety of mounting ways. For example: the edge of the object to be mounted comprises a plurality of hooks, and the corresponding position on the frame comprises a plurality of columns. The mounting of the mount to the frame is achieved by mounting a plurality of hooks to a plurality of columns. Or the frame is provided with a clamping piece, the edge of the mount is provided with an insert, and the insert on the mount is inserted into the clamping piece on the frame to realize that the mount is mounted on the frame. Or the frame comprises a plurality of sliding grooves, the mount comprises a plurality of hooks, and the mount is mounted on the frame by inserting the hooks into the sliding grooves and sliding into the tail ends of the sliding grooves. Or the edge of the mount comprises a plurality of connecting holes, and the corresponding positions on the frame also comprise connecting holes, so that the mount is connected to the frame through screws. As will be appreciated by those skilled in the art, other mounting methods in the prior art may also be applied to the present solution.

According to one embodiment of the invention, the upper side and the lower side of the mount are inserted into the clamping piece on the frame through the insert piece on the mount to realize the mount to be mounted on the frame, and the left side and the right side are reserved with connecting holes through the mount and are clamped with the frame through bolts.

According to one embodiment of the invention, the body portion 2301 may also include a plurality of latches (not shown) that may connect two adjacent frames together to increase the strength and stability of the wall. According to one embodiment of the invention, the locking element may be a bolt, a screw or the like, or a connecting piece. A connecting rod, etc., or a "U" shaped insert, etc.

According to another embodiment of the present invention, the body portion 2301 may not include a frame or mount, and the body portion 2301 is a unitary body. For example: may be a box with a hollow interior. According to one embodiment of the invention, at least one side of the body portion may be openable to facilitate application within the partition.

According to one embodiment of the invention, the body portion may further comprise a retractable locking element and a receiving portion. Wherein the locking member and the receiving portion are provided at opposite sides of the body portions, and the locking members of adjacent two of the body portions can enter the receiving portion in a first direction and be locked into the receiving portion in a second direction different from the first direction, thereby fixing the two body portions. For example: the locking piece is a T-shaped pin, the accommodating part is a T-shaped groove, and the T-shaped pin can firstly extend into the T-shaped groove and then rotate 90 degrees to be locked into the T-shaped groove.

According to one embodiment of the invention, the body portion may further comprise an operating mechanism which may control the transition of the locking member between the locked and unlocked state. For example, the operating mechanism is a first gear, the locking member is terminated by a second gear, and the first gear and the second gear are vertically engaged with each other. When the partition is installed, the locking member may also be rotated by inserting an installation tool (e.g., a screwdriver, wrench, or special tool) into the body portion to rotate the first gear, and in some embodiments the operating mechanism may also be a first bevel gear and the locking member may be terminated with a second bevel gear. Wherein the first bevel gear and the second bevel gear are intermeshed. When the main body is detached, the locking between the adjacent main body parts can be released by rotating the operating mechanism in the opposite direction only by using the mounting tool, so that the main body parts are conveniently detached.

According to another embodiment of the invention, the operating mechanism may also control the extension of the locking element into the body portion or the retraction of the locking element into the body portion. For example: when the locking piece rotates, the operating mechanism controls the locking piece to extend out of the main body part and extend out of the accommodating part of the other main body part, and then controls the locking piece to rotate and lock. When the locking piece is detached, only the installation tool is needed, the locking state of the locking piece is released firstly (namely, the locking piece is unlocked by the reverse rotation operation mechanism), and then the operation mechanism is controlled to enable the locking piece to retract into the main body part, so that the whole tidy main body part is facilitated, and the installation and the transportation of the main body part are facilitated. In some embodiments, the operating mechanism may be a rack and pinion, worm and gear, ball screw, or the like. In some embodiments, the operating mechanism may also be a hydraulic or pneumatic cylinder, a spring, or the like.

According to another embodiment of the invention, the opposite sides of the body portions may further comprise a protrusion and an indent, respectively, into which the protrusion may be snapped, embedded or inserted to form a locking structure, which may be used for locking between adjacent body portions.

Fig. 26 is a schematic view of a support bar according to an embodiment of the present invention, showing its overall shape. Fig. 27 is an exploded view of the support bar according to one embodiment of the present invention, showing its installed position.

As shown, the support bar 2600 includes a support bar body 2601 and a support bar fitting. Wherein the support bar body 2601 may include one or more segments of reinforcing tubing 2602 and one or more connectors 2603. Wherein, the reinforcing pipe 2602 is a hollow circular pipe, the diameter of which is the same as or slightly smaller than the diameter of the through hole of the main body part, and the reinforcing pipe is divided into a plurality of sections, thereby being beneficial to the installation of the main body part. The connector 2603 may include connection portions 2604 and 2605 and a clamping portion 2606, wherein the connection portions 2604 and 2605 are used for connecting two reinforcing pipes, and the clamping portion 2606 is used for clamping the two reinforcing pipes. According to one embodiment of the invention, the diameter of the connecting portion of the connector 2603 is the same as or slightly smaller than the inner diameter of the reinforcing tube, and the diameter of the clamping portion is larger than the inner diameter of the reinforcing tube and smaller than the outer diameter of the reinforcing tube.

According to one embodiment of the invention, the support bar assembly may include a foot 2630 disposed with the bottom of the support bar, including an insertion portion 2631, a clamping portion 2632, and a contact portion 2633. Wherein, the insertion portion 2631 may be inserted into the reinforcing pipe 2602, the clamping portion 2632 is used for clamping the reinforcing pipe 2602, and the contact portion 2633 is used for contacting with an environmental object. According to an embodiment of the present invention, the diameter of the insertion portion 2631 is the same as or slightly smaller than the reinforcing tube 2602, and the clamping portion 2632 is similar to the clamping portion 2606, so that the description thereof will not be repeated. The diameter of the contact portion 2633 may be larger than the diameter of the reinforcing tube, which is advantageous for increasing the contact area of the ground foot with the environmental object. According to one embodiment of the present invention, the contact portion of the ground leg and the environmental object may further include a gasket (not shown), which facilitates sealing between the ground leg and the environmental object, and does not consider the influence of the leveling of the environmental object on the support bar.

According to one embodiment of the invention, the support rod assembly may further include an end connector 2640 for connecting the support rod to other assemblies, including two parts, namely a first part 2641 for connecting to the reinforcing tube 2602, insertable into the reinforcing tube 2602, and a second part 2642 for connecting to other assemblies, wherein the second part may have a larger diameter than the first part, to facilitate the clamping of the end connector 2640 to the reinforcing tube. According to one embodiment of the invention, the end connection may be a sleeve or the like. According to one embodiment of the invention, the end connector may be a pipe, which may include internal threads inside to facilitate connection with other fittings.

According to one embodiment of the invention, the support bar assembly may further include a shoe 2650 disposed on top of the support bar for connection between the support bar and environmental objects, including a chassis 2651 and a screw 2652. Wherein, chassis 2651 is used for contacting with the environment object, is favorable to increasing the area of contact between bracing piece and the environment object, and screw 2652 is used for being connected with the terminal surface connecting piece. According to one embodiment of the invention, the chassis 2651 and the screw 2652 may be integrally formed. According to one embodiment of the invention, the material of the chassis may be galvanized steel, stainless steel, reinforced nylon or rubber, or the like. According to one embodiment of the invention, the screw may be a galvanized steel screw, a stainless steel screw, a reinforced nylon screw, a nickel plated screw, or the like.

The support bar assembly may also include an adjustment structure 2653 for adjusting the length of the support bar for generating a pre-stress to provide an energizing force, in accordance with one embodiment of the present invention. As shown in the figure, the adjusting part can be an adjusting nut which is arranged on the screw rod of the shoe, and the length of the screw rod of the shoe extending into the end surface connecting piece can be adjusted by screwing the adjusting nut, so that the purpose of adjusting the length of the supporting rod is achieved. According to one embodiment of the invention, the adjusting member may be integrated with the end face connection. According to one embodiment of the present invention, the support bar assembly may further include a locking structure (not shown) for locking the adjustment member, preventing the change in the length of the main beam due to the loosening of the adjustment member, affecting the supporting force, and thus affecting the stability of the wall. According to one embodiment of the invention, the locking structure may be a lock nut.

According to one embodiment of the present invention, the contact portion of the chassis of the hoof 2650 with the environmental object further includes an anti-slip detection pad 2660, which can prevent the side slip during the adjustment of the support bar, and can detect whether the prestress of the support bar reaches the reinforcement wall by the self-deformation amount. According to one embodiment of the present invention, the anti-slip test pad 2660 may be rubber, silicone, plastic, metal, or the like.

In some embodiments, when the support rod is propped between the environmental objects, the propping force between the support rod and the environmental objects is 10-75KG, preferably 15-55KG, and most preferably 20-30KG; can bear the impact force of more than 100 KG/square centimeter, 120 KG/square centimeter, 130 KG/square centimeter, 160 KG/square centimeter and 200 KG/square centimeter. When the supporting rods are propped against the environmental objects, the partition wall can bear the impact force of more than 150 KG/square centimeter, 180 KG/square centimeter, 200 KG/square centimeter, 250 KG/square centimeter and 300 KG/square centimeter.

In the embodiment of the invention, the integral wall blocks are directly erected between environmental objects, and can be applied to the partition walls of rooms and the outer walls of houses. The existence of the supporting rods enables the wall provided by the embodiment of the invention to have very high strength, is quite better than that of a common brick-tile cement wall, and can completely meet the needs of daily life.

The partition wall has a simple structure, and can be quickly disassembled and assembled, so that the decoration time can be greatly shortened, the decoration cost is saved, and the use of manpower and material resources is reduced.

The above embodiments are provided for illustrating the present application and not for limiting the present application, and various changes and modifications may be made by one skilled in the relevant art without departing from the scope of the present application, therefore, all equivalent technical solutions shall fall within the scope of the present disclosure.

Claims (32)

1. A partition wall, comprising:

A frame;

one or more mounts mounted on the frame; and

A plurality of locks configured to secure the mount;

wherein the frame is detachably mounted between environmental objects;

the frame further comprises: a transversely arranged bottom beam; a transversely arranged top beam; and a main beam detachably disposed between environmental objects passing through the bottom beam and the top beam; wherein the main beam comprises a main beam body and a telescopic part; wherein the telescoping portion is controllable to extend or retract such that the main beam abuts between or disengages from the environmental objects;

The mounting object comprises one or more hooks, and the one or more hooks are matched with one or more locking pieces to fix the mounting object on the main beam;

Wherein the hook comprises a transverse plate and a vertical plate; wherein the cross plate and the vertical plate are L-shaped, the vertical plate is approximately rectangular and comprises an opening, a longer first groove and a shorter second groove in the opening;

the lock piece comprises a carrier plate and one or more hanging nails; the locking piece also comprises screws of the hanging nails, wherein the hanging nails are fixed on all corners of the first surface of the carrier plate, and the second surface of the carrier plate penetrates through the carrier plate to be fixedly connected with the hanging nails so as to fix the hanging nails on the first surface of the carrier plate; the locking piece also comprises a T-shaped sliding block which is arranged on the end surface of the screw connected with the first hanging nail and is positioned on the second surface of the carrier plate and used for connecting the locking piece with the main beam; the locking piece also comprises a locking piece which is arranged in one locking opening of the carrier plate and is used for being fixed on the main beam;

When the mount is hung between the bottom beam, the top beam and the two main beams of the frame, one end of the lock piece with the T-shaped sliding block stretches into the T-shaped guide groove on the side surface of the main beam; the sliding block is parallel to the guide groove, moves up and down in the guide groove, and a first hanging nail at a position corresponding to the T-shaped sliding block enters from an opening of the hook and slides in the first groove; the first hanging nail of the movable lock piece is arranged at the top end of the first groove of the hook and is contacted with the top end of the first groove of the hook; rotating the locking piece by 90 degrees, wherein a second hanging nail which is connected with the locking piece enters the opening of the hook and contacts with the second groove; the T-shaped sliding block is vertically fixed with the T-shaped guide groove, and the locking piece is fixed on the main beam; and installing a locking piece to finish the fixing and mounting of the locking piece.

2. The partition wall of claim 1, wherein the frame is not in contact with a wall.

3. The partition wall of claim 1, wherein the mount is mounted on one side of the frame.

4. The partition of claim 1 wherein the mount is mounted on both sides of the frame.

5. The partition wall of claim 4 wherein the mount further comprises a filler therebetween.

6. The partition of claim 1 wherein the abutment force between the main beams and the environmental objects is 10-75KG when the main beams are abutted between the environmental objects.

7. The partition wall of claim 1, wherein an abutment force between the main beams and the environmental objects is 15-55KG when the main beams are abutted between the environmental objects.

8. The partition wall of claim 1, wherein an abutment force between the main beams and the environmental objects is 20-30KG when the main beams are abutted between the environmental objects.

9. The partition of claim 1 wherein the girders are subjected to an impact force of greater than 100 KG/cm when the girders are abutted between the environmental objects.

10. The partition of claim 1 wherein the girders are subjected to an impact force of greater than 120 KG/cm when the girders are abutted between the environmental objects.

11. The partition of claim 1 wherein the girders are subjected to an impact force of greater than 130 KG/cm when the girders are abutted between the environmental objects.

12. The partition of claim 1 wherein the girders are subjected to an impact force of greater than 160 KG/cm when the girders are abutted between the environmental objects.

13. The partition of claim 1 wherein the girders are subjected to an impact force of greater than 200 KG/cm when the girders are abutted between the environmental objects.

14. The partition of claim 1 wherein the frame includes a plurality of main beams that can withstand impact forces greater than 150 KG/cm when the plurality of main beams are abutted between the environmental objects.

15. The partition of claim 1 wherein the frame includes a plurality of main beams that can withstand impact forces greater than 180 KG/cm when the plurality of main beams are abutted between the environmental objects.

16. The partition of claim 1 wherein the frame includes a plurality of main beams that can withstand impact forces greater than 200 KG/cm when the plurality of main beams are abutted between the environmental objects.

17. The partition of claim 1 wherein the frame includes a plurality of main beams that can withstand impact forces greater than 250 KG/cm when the plurality of main beams are abutted between the environmental objects.

18. The partition of claim 1 wherein the frame includes a plurality of main beams that can withstand impact forces greater than 300 KG/cm when the plurality of main beams are abutted between the environmental objects.

19. The partition of claim 1, wherein the telescoping portion includes a screw and a chassis disposed at one end of the main girder body, the screw being mounted on the chassis and rotated to extend or retract with respect to the main girder body.

20. The partition of claim 19 wherein the screw includes an adjustment nut thereon.

21. The partition of claim 19 wherein the telescoping section includes an adjustment screw having threads that engage threads of the screw; the horizontal rotation of the adjustment screw causes the screw to rotate.

22. The partition of claim 1, wherein the telescoping section includes a cylinder or cylinder and a pushrod, the cylinder or cylinder being disposed at one end of the main beam body, the cylinder or cylinder being pressurized to push the pushrod to extend outward or depressurize to release the pushrod retraction.

23. The partition of claim 1 wherein the third peg of the lock is adapted to mount another mount opposite the mount.

24. The partition wall of claim 1, wherein the mount further comprises: a frame; and (3) hanging pieces; wherein the frame is arranged around the pendant; the one or more hooks are disposed on the bezel.

25. The partition wall of claim 24, wherein the hanger is glass.

26. The partition of claim 1, further comprising a gasket disposed between the environmental object and the header and/or between the environmental object and the footer.

27. A method of installing a partition wall as recited in claim 1, comprising:

mounting the frame between environmental objects;

The first mount is mounted on one side of the frame; and

And the second mount is mounted on the other side of the frame.

28. The method of claim 27, wherein the frame comprises a main beam; the method further comprises: and locking the first mount on the main beam of the frame by using a locking piece.

29. The method of claim 28, wherein the lock comprises a plurality of pegs and a fixture, the mount comprises a plurality of hooks, the method further comprising: placing the mount between a top beam and a bottom beam of the frame; the fixing piece of the locking piece stretches into the main beam, and the first hanging nail of the locking piece stretches into the hanging hook of the mount; and moving the locking piece to enable the first hanging nail to penetrate into the hook, and rotating to lock the fixing piece on the main beam.

30. The method of claim 29, wherein after the first peg penetrates into the hook and rotates the lock, a second peg also extends into the hook.

31. The method of claim 29, wherein a removable peg is inserted through the lock into the main beam.

32. The method of claim 29, further comprising: and the second mount is mounted on a third hanging nail of the lock piece.