CN217999398U - Quick detach formula aluminum alloy window frame - Google Patents

Abstract

The utility model relates to a quick detach formula aluminum alloy window frame, it includes horizontal roof beam structure, vertical roof beam structure and curtain subassembly, curtain subassembly and vertical roof beam structure sliding connection, it still includes beam structure connecting piece, and beam structure connecting piece is L shape, and its both ends are horizontal end and vertical end respectively, and beam structure connecting piece pegs graft respectively to horizontal roof beam structure and vertical roof beam structure in through its horizontal end and vertical end, makes horizontal roof beam structure and vertical roof beam structure fixed. This technical scheme's aluminum alloy window frame installation, concatenation flow are concise, and the convenient to use person accomplishes fast, and the tip direct exposure of horizontal roof beam structure, vertical roof beam structure in the exterior space, very big reduction the installation degree of difficulty of roof beam structure connecting piece, simultaneously, can audio-visual whole installation, the flow of concatenation be observed through naked eye, and then make the reduction that the degree of difficulty of installation, concatenation can be further.

Description

Quick detach formula aluminum alloy window frame

Technical Field

The utility model relates to a door and window frame technical field, more specifically say that a quick detach formula aluminum alloy window frame

Background

The aluminum alloy window frame adopts the aluminum alloy extruded section as the main body structure of the frame, and as the aluminum alloy section has the characteristics of small density and light weight, the aluminum alloy section can be used as the suspension frame of the curtain without considering the self-bearing capacity, has stronger corrosion resistance and can be well adapted to various climatic environments, therefore, the aluminum alloy window frame is widely applied to a plurality of fields such as home decoration and the like.

The aluminum alloy window frame is generally a frame-shaped structure formed by splicing a plurality of beam frames, the splicing difficulty of the traditional aluminum alloy window frame is large, time and labor are wasted in the whole splicing process, the structural strength of the traditional aluminum alloy window frame formed by splicing is low, and aiming at the problems existing in the traditional aluminum alloy window frame, a novel aluminum alloy window frame which optimizes the structure on the basis of the traditional aluminum alloy window frame appears on the market, as shown in Chinese patent with the publication number of CN216197601U and the patent name of 'a spliced aluminum alloy shutter window frame', the aluminum alloy window frame recorded in the aluminum alloy window frame comprises side frames, top frames are arranged on the inner sides of the upper ends of the side frames, bottom frames are arranged under the top frames, the top frames and the bottom frames are arranged in an up-and-down symmetrical mode relative to the central axes of the side frames, and connecting plates are arranged at the left end and the right end of the top frames, the locating hole has been seted up with the position of inserted bar contact to the side frame, the middle part top of top frame is connected with the top bolt, the bottom of top bolt is provided with the stripper bar, the terminal outside of stripper bar is equipped with the movable rod, be formed with the inclined plane relative with the stripper bar on the movable rod, the movable rod still welds with the inserted bar, the outside of movable rod is provided with the connection chamber, both ends are equipped with reset spring about the movable rod, when the concatenation, side frame and top frame are at first tentatively fixed through forked tail shape structure grafting cooperation, afterwards, use instruments such as common screw spanner on the market to pull the top bolt, it is rotatory to drive the stripper bar with top bolt fixed connection, the inclined plane of stripper bar moves down and extrusion movable rod when rotatory, make the movable rod drive the inserted bar slide and stretch out the connecting plate and with the locating hole block of side frame, thereby can make the concatenation between the frame more stable.

The aluminum alloy window frame optimizes the structures of the side frame, the top frame and the bottom frame, the side frame, the top frame and the bottom frame are preliminarily fixed in an inserting and matching mode through the connecting plate, and then the inserting rod is driven to be inserted into the positioning hole of the side frame through the top bolt to be fixed so as to enable the frame to be fixed stably, wherein the extrusion rod, the movable rod, the inserting rod and the reset spring are all installed inside the top plate frame and the bottom frame, but the top frame and the bottom frame are of a strip structure and are narrow in inner space, so that the installation of the extrusion rod, the movable rod, the inserting rod and the reset spring is not facilitated, meanwhile, in the installation process, the inserting rod needs to be aligned with a hole position on the connecting plate, the insertion rod can be ensured to extend out of the connecting plate, the installation process is more complicated, the problem that the traditional window frame is complicated to splice is solved, due to numerous components, the overall manufacturing cost is high, the installation space is small, and the installation difficulty of the frame is greatly increased, so that the window frame capable of solving the problems is urgently needed.

SUMMERY OF THE UTILITY MODEL

To above circumstances, there is the structure complicacy for overcoming the aluminum alloy window frame among the above-mentioned prior art after improving traditional aluminum alloy window frame, and manufacturing cost is high, and the installation flow is loaded down with trivial details, the great problem of the installation degree of difficulty, the utility model aims at providing a structure connects single, and low in manufacturing cost, and installation and concatenation flow are simple, the ready-package aluminum alloy window frame that the degree of difficulty is all lower.

In order to achieve the above object, the technical solution of the present invention is:

the utility model provides a quick detach formula aluminum alloy window frame, it includes horizontal roof beam structure, vertical roof beam structure and curtain subassembly, curtain subassembly and vertical roof beam structure sliding connection, it still includes roof beam structure connecting piece, and roof beam structure connecting piece is the L shape, and its both ends are horizontal end and vertical end respectively, and the roof beam structure connecting piece is pegged graft respectively to horizontal roof beam structure and vertical roof beam structure in through its horizontal end and vertical end, makes horizontal roof beam structure and vertical roof beam structure fixed.

Preferably, a transverse convex rib and a longitudinal convex rib are respectively formed in the transverse beam frame and the longitudinal beam frame along the respective length directions, clamping grooves are formed among the transverse convex rib and the longitudinal convex rib, the transverse beam frame and the longitudinal beam frame, and the horizontal end and the vertical end of the beam frame connecting piece are respectively inserted into the clamping grooves of the transverse beam frame and the longitudinal beam frame.

Preferably, the beam connecting member has first and second guide blocks formed at horizontal and vertical ends thereof to be opposed to the lateral and longitudinal ribs, respectively.

Preferably, the opposite outer walls of the horizontal and vertical ends of the beam connecting element are beveled.

Preferably, the transverse beam frame and the longitudinal beam frame are respectively formed with a transverse reinforcing rib and a longitudinal reinforcing rib in the length direction.

Preferably, the butt joint surface of the transverse beam frame and the longitudinal beam frame is a bevel.

Preferably, the transverse beam frames are embedded with baffles, and both ends of each baffle extend out of the end bevels of the transverse beam frames and are inserted into the longitudinal beam frames.

Preferably, the baffle is in a door shape, and both ends of the baffle abut against the transverse reinforcing ribs.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses an aluminum alloy window frame is at the installation, when splicing, only need take the horizontal end or the vertical end of roof beam structure connecting piece to take the lead from the tip of horizontal roof beam structure or vertical roof beam structure to insert the other end in the tip of vertical roof beam structure or horizontal roof beam structure, offset until horizontal roof beam structure and vertical roof beam structure, can accomplish the concatenation of window frame, whole concatenation flow is concise, the convenient to use person accomplishes fast, and horizontal roof beam structure, the tip direct exposure of vertical roof beam structure in the exterior space, very big reduction the installation degree of difficulty of roof beam structure connecting piece, and simultaneously, when only one end of roof beam structure connecting piece is inserted to horizontal roof beam structure or vertical roof beam structure, the other end of roof beam structure connecting piece also exposes in the exterior space, can audio-visually observe whole installation through the naked eye, the flow of concatenation, and then make the installation, the degree of difficulty of concatenation can be further reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the aluminum alloy window frame curtain assembly of the present invention after the curtain surface is laid down;

FIG. 2 is a schematic view of the overall structure of the aluminum alloy window frame curtain assembly after the curtain surface is folded;

fig. 3 is a schematic view of an exploded structure of the aluminum window frame of the present invention after the window curtain component is removed;

FIG. 4 is a schematic view of the overall structure of the transverse beam frame of the aluminum alloy window frame of the present invention;

FIG. 5 is a schematic view of the overall structure of the longitudinal beam frame of the aluminum alloy window frame of the present invention;

FIG. 6 is a schematic view of the overall structure of the aluminum alloy window frame beam connecting member of the present invention;

fig. 7 is a schematic sectional view of the aluminum window frame of the present invention in a side view with the curtain component removed;

fig. 8 is a schematic sectional view of the aluminum alloy window frame of the present invention in a front view state after the window curtain assembly is removed.

As shown in the figure:

1. a transverse beam frame; 101. transversely protruding ribs; 102. transverse reinforcing ribs; 2. a longitudinal beam frame; 201. longitudinal convex ribs; 202. longitudinal reinforcing ribs; 3. a beam frame connecting member; 301. a horizontal end; 301a, a first guide block; 302. a vertical end; 302a, a second guide block; 4. a card slot; 5. a baffle plate; 6. a curtain surface; 7. a balancing weight; 8. a slide block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", etc. indicate the directions or positional relationships based on the directions or positional relationships shown in the drawings, or the directions or positional relationships usually placed when the product of the present invention is used, and are only for the convenience of simplifying the description, but not for indicating or suggesting the specific directions and the specific direction configurations and operations that the directions must have, and therefore, the present invention should not be construed as being limited.

As shown in fig. 1 to 8, a quick-release aluminum alloy window frame comprises a transverse beam frame 1, a longitudinal beam frame 2 and a curtain component which are consistent with the structure of a conventional aluminum alloy window frame, wherein the curtain component is connected with the longitudinal beam frame 2 in a sliding manner and can be folded and unfolded during sliding, and it can be understood that the transverse beam frame 1 and the longitudinal beam frame 2 are respectively parallel to and perpendicular to the horizontal plane after the aluminum alloy window frame is installed on a wall surface, wherein two groups of transverse beam frame 1 and longitudinal beam frame 2 are respectively configured, the transverse beam frame 1 and the longitudinal beam frame 2 jointly form a window frame with a rectangular overall appearance, particularly, the aluminum alloy window frame further comprises a beam frame connecting piece 3, the overall appearance of the beam frame connecting piece 3 is in an L shape, namely, a right angle is formed between two ends of the beam frame connecting piece 3, and two ends of the transverse connecting piece are respectively a horizontal end 301 and a vertical end 302, the beam frame connecting piece 3 is respectively inserted into the transverse beam frame 1 and the longitudinal beam frame 2 through the horizontal end 301 and the vertical end 302 thereof, the transverse beam frame 1 and the longitudinal beam frame 2 are connected and fixed through the beam frame connecting piece 3, it can be understood that the beam frame connecting piece 3 is configured into the number equal to the sum of the transverse beam frame 1 and the longitudinal beam frame 2, the transverse beam frame 1 and the longitudinal beam frame 2 are connected in pairs through the beam frame connecting piece 3, based on the utility model, the aluminum alloy window frame only comprises the transverse beam frame 1, the longitudinal beam frame 2 and the beam frame connecting piece 3, a large number of assembly parts are simplified, so the whole aluminum alloy window frame has the characteristic of simple structure, the manufacturing cost of the whole aluminum alloy window frame is greatly reduced, in the utility model, the beam frame connecting piece 3 is a support for keeping the transverse beam frame 1 and the longitudinal beam frame 2 vertical and playing a support, the material of the beam frame connecting piece 3 can be hard materials such as metal, plastics and the like, thereby make whole window frame still can keep higher structural strength under the prerequisite that the structure is simplified, when installation, when splicing, only need to take the horizontal end 301 or the vertical end 302 of roof beam structure connecting piece 3 first to insert from the tip of horizontal roof beam structure 1 or vertical roof beam structure 2, later insert the other end in the tip of vertical roof beam structure 2 or horizontal roof beam structure 1 again, until horizontal roof beam structure 1 and vertical roof beam structure 2 counterbalance, can accomplish the concatenation of window frame, whole concatenation flow is concise, convenient to use person accomplishes fast, and horizontal roof beam structure 1, the tip of vertical roof beam structure 2 directly exposes in the exterior space, the installation degree of difficulty of roof beam structure connecting piece 3 has greatly been reduced, and simultaneously, when only one end of roof beam structure connecting piece 3 inserts in horizontal roof beam structure 1 or vertical roof beam structure 2, the other end of roof beam structure connecting piece 3 also exposes in the exterior space, can audio-visually observe whole installation, the flow of concatenation through the naked eye, and then make the installation, the degree of difficulty of concatenation can obtain further reduction.

As shown in fig. 4, fig. 5, fig. 7 and fig. 8, transverse ribs 101 and longitudinal ribs 201 are respectively formed in the transverse beam frame 1 and the longitudinal beam frame 2 along respective length directions, it should be mentioned that, the utility model discloses an in, transverse ribs 101 and longitudinal ribs 201 are all configured into two sets of opposition, form draw-in groove 4 between two sets of transverse ribs 101 and transverse beam frame 1, equally, draw-in groove 4 is also formed between two sets of longitudinal ribs 201 and longitudinal beam frame 2, draw-in groove 4 in transverse beam frame 1 and longitudinal beam frame 2 is used for supplying horizontal end 301 and vertical end 302 of beam frame connecting piece 3 to insert respectively, because transverse ribs 101, longitudinal ribs 201 are arranged along the length directions of transverse beam frame 1 and longitudinal beam frame 2 respectively, so that two draw-in grooves 4 extend along the length directions of transverse beam frame 1 and longitudinal beam frame 2 respectively equally, after horizontal end 301 and vertical end 302 of beam frame connecting piece 3 are inserted, can slide along draw-in, and then make horizontal end 301 and vertical end 302 can sink into transverse beam frame 1 and longitudinal beam frame 2 completely, until transverse beam frame 1 and longitudinal beam frame 2 and longitudinal beam frame 3 are inserted, it is guaranteed that transverse beam frame 1 and longitudinal beam frame 2 move along the end 301 and longitudinal connecting piece, vertical connecting piece is stabilized by the vertical connecting piece, the end of connecting piece is fixed by the end 301 and vertical connecting piece, the vertical connecting piece is balanced.

As shown in fig. 6 to 8, a first guide block 301a and a second guide block 302a opposite to the transverse rib 101 and the longitudinal rib 201 are respectively formed on the horizontal end 301 and the vertical end 302 of the beam frame connecting member 3, and the arrangement of the first guide block 301a and the second guide block 302a enables the contact position of the beam frame connecting member 3 with the transverse rib 101 and the longitudinal rib 201 to have a larger longitudinal thickness, so that the overall structural strength of the beam frame connecting member 3 is improved, and the deformation resistance of the beam frame connecting member is improved.

As shown in fig. 6, the opposite side outer walls of the horizontal end 301 and the vertical end 302 of the beam frame connecting member 3 are both inclined guide surfaces, based on the above arrangement, the volume of the opposite side of the horizontal end 301 and the vertical end 302 is reduced, and as a whole, the horizontal end 301 and the vertical end 302 are in a ladder platform structure, and the area of the vertical projection surface is smaller than the areas of the other parts of the horizontal end 301 and the vertical end 302, so that the beam frame connecting member 3 can be more rapidly inserted into the clamping grooves 4 of the transverse beam frame 1 and the longitudinal beam frame 2, and the mounting and splicing speed is improved.

As shown in fig. 4, fig. 5, fig. 7 and fig. 8, the respective length directions of the transverse beam frame 1 and the longitudinal beam frame 2 are respectively formed with the transverse reinforcing rib 102 and the longitudinal reinforcing rib 202, the arrangement of the transverse reinforcing rib 102 and the longitudinal reinforcing rib 202 can improve the structural strength of the transverse beam frame 1 and the longitudinal beam frame 2, and further, the whole structural strength of the window frame of the utility model can be further improved.

Furthermore, the butt joint face of the transverse beam frame 1 and the longitudinal beam frame 2 is an inclined face, the vertical projection faces of the transverse beam frame 1 and the longitudinal beam frame 2 are trapezoidal in whole, and after splicing, the waist portions of the transverse beam frame 1 and the longitudinal beam frame 2 are in butt joint, so that the transverse beam frame 1 and the longitudinal beam frame 2 can be effectively limited to move in the same plane, meanwhile, the contact area of the transverse beam frame 1 and the longitudinal beam frame 2 is increased, and the integral structural strength of the window frame is improved.

As shown in fig. 1, fig. 3 and 7 and fig. 8, inlay in the horizontal roof beam structure 1 and be equipped with baffle 5, the biggest stroke that the (window) curtain was transferred is restricted to the main effect of baffle 5, in the utility model discloses, the both ends of baffle 5 all extend to outside the tip skew of horizontal roof beam structure 1, and insert and use as the inserted block in vertical roof beam structure 2, after the concatenation, restrict the relative movement of horizontal roof beam structure 1 and vertical roof beam structure 2 by inserted block cooperation roof beam structure connecting piece 3 to further promote the holistic structural strength of window frame.

As shown in fig. 7 and 8, the baffle 5 has a gate shape, and both ends thereof abut against the lateral ribs 102, and the baffle 5 is supported by the lateral ribs 102, so that both ends of the baffle 5 are always exposed to the outside of the end surface of the lateral beam frame 1, and are stably held at the set position.

As shown in fig. 1 and 2, the curtain component includes a curtain surface 6, a weight block 7 and a slider 8, two ends of the curtain surface 6 are respectively connected with the horizontal beam frame 1 and the weight block 7 which are positioned at the top, the slider 8 is arranged at two ends of the weight block 7 and is slidably connected in opposite sides of the longitudinal reinforcing ribs 202 of the two longitudinal beam frames 2, after the horizontal beam frame 1, the longitudinal beam frame 2 and the beam frame connecting piece 3 are fixed to form a rectangular window frame whole, the space between the two longitudinal beam frames 2 is kept fixed, after the weight block 7 is slidably connected in the two longitudinal beam frames 2 through the slider 8 at two ends, the inner wall of the longitudinal beam frame 2 and the longitudinal reinforcing ribs 202 can limit to limit the horizontal direction, the front and back movement and the left and right movement of the weight block are limited, the weight block 7 and the slider 8 can always keep linear movement, and the weight block 7 can drive the curtain surface 6 to retract and retract when moving.

As shown in fig. 2, the curtain surface 6 is a folding curtain surface 6, and the arrangement of the folding curtain surface 6 makes the curtain assembly not need to be provided with a winding mechanism, so that the curtain surface 6 can be completely pressed into the transverse beam frame 1 at the top by folding itself when being folded, thereby further simplifying the overall structure of the window frame, reducing the overall volume and improving the convenience of installation and splicing.

With reference to fig. 1 to 8, the utility model discloses an installation of aluminum alloy window frame, the concatenation mode is, at first insert the horizontal end 301 or the vertical end 302 of roof beam structure connecting piece 3 in the draw-in groove 4 of arbitrary horizontal roof beam structure 1 or vertical roof beam structure 2 tip, and press roof beam structure connecting piece 3 to make its horizontal end 301 or vertical end 302 slide along draw-in groove 4, until getting into in draw-in groove 4 completely, afterwards, establish arbitrary vertical roof beam structure 2 or horizontal roof beam structure 1 to the vertical end 302 or the horizontal end 301 of roof beam structure connecting piece 3 through its tip draw-in groove 4 cover, and remove, until the vertical end 302 or the horizontal end 301 of roof beam structure connecting piece 3 submerge into draw-in groove 4 completely, after submerging into draw-in groove 4 completely, extend to 5 tip of baffle outside the end of horizontal roof beam structure 1 can insert to vertical roof beam structure 2 with the situation, through the mode, accomplish the concatenation in proper order with each horizontal roof beam structure 1 and vertical roof beam structure 2 and can constitute the window frame.

The foregoing embodiments and description are illustrative of the principles and preferred embodiments of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims.

Claims (10)

1. The utility model provides a quick detach formula aluminum alloy window frame, it includes horizontal roof beam structure (1), longitudinal beam structure (2) and curtain subassembly, curtain subassembly and longitudinal beam structure (2) sliding connection, its characterized in that, it still includes roof beam structure connecting piece (3), roof beam structure connecting piece (3) are the L shape, and its both ends are horizontal end (301) and vertical end (302) respectively, roof beam structure connecting piece (3) are inserted respectively to horizontal roof beam structure (1) and longitudinal beam structure (2) in through its horizontal end (301) and vertical end (302), make horizontal roof beam structure (1) and longitudinal beam structure (2) fixed.

2. The quick-release type aluminum alloy window frame as claimed in claim 1, wherein a transverse rib (101) and a longitudinal rib (201) are respectively formed in the transverse beam frame (1) and the longitudinal beam frame (2) along the respective length directions, a slot (4) is formed among the transverse rib (101), the longitudinal rib (201), the transverse beam frame (1) and the longitudinal beam frame (2), and a horizontal end (301) and a vertical end (302) of the beam frame connecting piece (3) are respectively inserted into the slot (4) of the transverse beam frame (1) and the longitudinal beam frame (2).

3. The quick-release type aluminum alloy window frame of claim 2, wherein the horizontal end (301) and the vertical end (302) of the beam connecting member (3) are respectively formed with a first guide block (301 a) and a second guide block (302 a) opposite to the transverse rib (101) and the longitudinal rib (201).

4. The quick-release aluminum alloy window frame of claim 2, wherein the opposite outer walls of the horizontal end (301) and the vertical end (302) of the beam connecting member (3) are inclined.

5. The quick-release type aluminum alloy window frame as claimed in claim 1, wherein the transverse beam frame (1) and the longitudinal beam frame (2) are respectively formed with a transverse reinforcing rib (102) and a longitudinal reinforcing rib (202) along their respective lengths.

6. The quick-release type aluminum alloy window frame as claimed in claim 5, wherein the abutting surface of the transverse beam frame (1) and the longitudinal beam frame (2) is a bevel.

7. The aluminum alloy window frame capable of being disassembled quickly as claimed in claim 6, wherein, the transverse beam frame (1) is embedded with a baffle (5), and both ends of the baffle (5) extend to the outside of the end bevel of the transverse beam frame (1) and are inserted into the longitudinal beam frame (2).

8. The quick-release type aluminum alloy window frame according to claim 7, wherein the baffle (5) is door-shaped, and both ends thereof abut against the transverse reinforcing ribs (102).

9. A quick-release aluminium alloy window frame according to claim 5, wherein the curtain assembly comprises a curtain surface (6), a weight block (7) and a sliding block (8), both ends of the curtain surface (6) are respectively connected with the transverse beam frame (1) and the weight block (7) which are positioned at the top, the sliding block (8) is arranged at both ends of the weight block (7) and is slidably connected in the opposite sides of the longitudinal reinforcing ribs (202) of the two longitudinal beam frames (2).

10. The quick-release aluminum alloy window frame according to claim 9, wherein the curtain surface (6) is a folding curtain surface (6).

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