CN113622796B - Wood plastic aluminum frame composite door and processing method thereof - Google Patents

Abstract

The invention discloses a wood plastic aluminum frame composite door and a processing method thereof, wherein the wood plastic aluminum frame composite door comprises a single-piece frame formed by honeycomb aluminum strips and wood plastic plates wrapped on the outer sides of the honeycomb aluminum strips, a plurality of single-piece frames are embedded in a head-to-tail connection mode to form a rectangular frame, adjacent single-piece frames are connected through a leveling mechanism, and a plurality of supporting auxiliary frames which are embedded in the single-piece frames through mortise and tenon are arranged in the rectangular frames; the blank of rectangle frame in addition support the auxiliary frame is all filled through the filler plate and is formed complete door plant structure the double-sided pressure of filler plate is pasted there is the decorative board, just the decorative board with fixed connection prevents between the auxiliary frame of support the hollowing appears in the decorative board, the monolithic frame with lock is connected between the decorative board. The leveling mechanism is arranged at the edge of the frame through rotating and moving the leveling mechanism on the frame, so that leveling among a plurality of single-piece frames is realized, and the connecting gaps on the frames are reduced.

Description

Wood plastic aluminum frame composite door and processing method thereof

Technical Field

The invention relates to the technical field of door body installation, in particular to a wood-plastic aluminum frame composite door and a processing method thereof.

Background

In the manufacturing process of door, need be in the same place a plurality of frames joint, constitute rectangular frame, generally adopt the edge connection of bolt with a plurality of body of rod, but in the connection process, bolted connection's mode makes appear connecting gap easily between frame and the frame, and this gap leads to the laminating effect of frame poor, produces the dislocation even, influences the follow-up cladding to the door frame body, and can cause the junction to be uneven when the bolt rotates the connection at a high speed, appears great space, influences later stage varnishing technology and pleasing to the eye.

In order to reduce the damage of bolts to the door body frame, the conventional embedding method is to embed the corners of the door body together through mortise and tenon connection, so that the damage of the bolts rotating at high speed to the door frame is effectively reduced. But mortise and tenon connection has very big requirement to the precision of work piece, and the process flow of gomphosis is comparatively loaded down with trivial details, needs accurate measurement just can accomplish tight silk joint, and a lot of productions can not reach the technological requirement, and the door can produce certain striking and shake when using, when using to reach certain time limit, connection structure between the frame is worn and torn easily, leads to the gomphosis of frame not level, appears gap and the connection dislocation between frame and the frame easily.

Disclosure of Invention

The invention aims to provide a wood plastic aluminum frame composite door and a processing method thereof, which are used for solving the technical problems of uneven frame embedding and easy dislocation in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

the invention provides a wood-plastic aluminum frame composite door, which comprises a single-piece frame composed of honeycomb aluminum strips and wood-plastic plates wrapped on the outer sides of the honeycomb aluminum strips, wherein a plurality of single-piece frames are embedded in a head-to-tail connection mode to form a rectangular frame, the adjacent single-piece frames are connected through a leveling mechanism, and a plurality of supporting auxiliary frames which are embedded in the single-piece frames through mortise and tenon are arranged in the rectangular frames;

the blank positions in the rectangular frame except the supporting auxiliary frame are filled through filling plates to form a complete door plate structure, the two sides of the filling plates are pressed and pasted with the veneer, the veneer is fixedly connected with the supporting auxiliary frame to prevent hollowing, and the single-piece frame is buckled with the veneer;

the two ends of the single-piece frame are cut into bevel angles of 45 degrees, the bevel angles at the two ends of the single-piece frame are respectively provided with a mounting groove and a plug connector, and the mounting grooves and the plug connectors between two adjacent single-piece frames are connected through a leveling mechanism;

the connector is provided with a through hole, the through hole vertically penetrates through the connector, the embedded strips are connected below the through hole, the embedded grooves with the same number as the embedded strips are arranged on the mounting grooves, the embedded strips are embedded and mounted in the embedded grooves, the leveling mechanism sequentially penetrates through the mounting grooves and the through hole from top to bottom and is mounted on the embedded strips, and the leveling mechanism rotates in the embedded strips and drives the embedded strips to slide up and down in the embedded grooves.

As a preferable scheme of the invention, the leveling mechanism comprises a rotary screw rod which penetrates through the single-piece frame and is installed in the through hole, a screw rod is arranged at the bottom of the rotary screw rod, the screw rod penetrates through the through hole and the embedded strip, a threaded hole is formed in the embedded strip, the screw rod is meshed with the threaded hole, and when the rotary screw rod rotates, the screw rod rotates in the threaded hole and drives the plug connector to slide up and down in the installation groove.

As a preferable scheme of the invention, a rotating hole is arranged on the single-piece frame, the top end of the rotating screw rod is arranged in the rotating hole, a rod cap is arranged at the top end of the rotating screw rod, and the rod cap rotates in the rotating hole.

As a preferable scheme of the invention, tenons are arranged at two ends of the supporting auxiliary frame, a plurality of mortises are arranged on the single-piece frame, and the supporting auxiliary frames are mutually parallel and vertically arranged on the mortises through the tenons.

The invention provides a processing method of a wood-plastic aluminum frame composite door, which comprises the following steps:

step 100, wrapping wood plastic plates outside the honeycomb aluminum strips, filling foaming plates into each honeycomb aluminum strip to form single-piece frames, and carrying out mortise and tenon connection pretreatment on two ends of each single-piece frame;

step 200, installing a plurality of supporting auxiliary frames in mortise and tenon mode between oppositely arranged single frames while sequentially assembling a plurality of single frames to form a rectangular frame, and integrally leveling the rectangular frame;

and 300, filling a filling plate in a blank of the rectangular frame to form a complete door plate structure, pressing the veneer on two sides of the door plate structure, and simultaneously fastening the veneer and the wood-plastic plate to form an integrated structure.

As a preferred embodiment of the present invention, in step 100, the mortise and tenon joint pretreatment for each single-piece frame specifically includes the following steps:

step 101, sawing the end part of each single-piece frame to form an angle of 45 degrees;

102, installing a plug connector in an outward protruding mode at one end of a single-piece frame, sinking an installation groove for the plug connector inwards at the other end of the single-piece frame, and arranging the plug connector and the installation groove at two ends of the single-piece frame in a 45-degree inclined mode respectively to form a mortise and tenon plug structure;

step 103, perforating the single-piece frame and the plug connector simultaneously, bonding the embedded strips at the perforated bottoms of the plug connector, sinking inwards on the embedded strips to form threaded holes with threads, and chiseling the embedded grooves for sliding of the embedded strips in front of the inside of the mounting groove when the through holes and the threaded holes are positioned in the same radial direction.

As a preferred embodiment of the present invention, in step 200, leveling the rectangular frame specifically includes the following steps:

step 201, inserting a rotary screw rod from a rotary hole, and enabling the screw rod to sequentially pass through the rotary hole and the through hole to contact with the threaded hole;

202, rotating a rotating screw rod to enable the screw rod to be in threaded connection with a threaded hole;

and 203, observing a connecting gap between the single frames when the rotary screw rod is rotated, and adjusting the rotation direction of the rotary screw rod according to the gap.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the leveling mechanism is arranged at the corners of the composite door frame, penetrates through the mortise and tenon connection positions of the frame and transversely fixes the mortise and tenon connection positions, the leveling mechanism is rotated to reduce gaps at the frame connection positions, so that the gaps are close to seamless connection, the attractive degree of connection is improved, the mortise and tenon connection positions are effectively fixed, cracking of the frame during use is prevented, gaps possibly generated during connection are reduced, when the rectangular frame reaches a certain service life, and the structure at the connection positions is loosened and cracked, the door frame does not need to be replaced, only the leveling mechanism is needed to be adjusted again, the frame is tightened, and the service life of the door is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

FIG. 1 is a schematic structural view of a wood plastic aluminum frame composite door according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a leveling mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic view of a part of a leveling mechanism according to an embodiment of the present invention.

Reference numerals in the drawings are respectively as follows:

1-a monolithic frame; 2-leveling mechanism; 3-supporting the subframe; 4-filling the plate; 5-veneer; 6-a mounting groove; 7-a plug-in connector; 8-through holes; 9-a chimeric strip; 10-a fitting groove; 11-a threaded hole; 12-turning holes; 13-a pole cap; 14-tenon; 15-mortises;

201-rotating a screw rod; 202-screw.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

As shown in fig. 1 to 3, the invention provides a wood plastic aluminum frame composite door, which comprises a single-piece frame 1 formed by honeycomb aluminum strips and wood plastic plates wrapped on the outer sides of the honeycomb aluminum strips, wherein a plurality of single-piece frames 1 are embedded in a head-to-tail connection mode to form a rectangular frame, adjacent single-piece frames 1 are connected through a leveling mechanism 2, and a plurality of supporting auxiliary frames 3 which are arranged on the single-piece frames 1 through mortise and tenon embedding are arranged inside the rectangular frame;

the blank department except supporting auxiliary frame 3 in the rectangular frame all fills through filling board 4 and forms complete door plant structure, has decorative board 5 at the two-sided pressure subsides of filling board 4, and fixed connection prevents that decorative board 5 from appearing empty drum between decorative board 5 and the supporting auxiliary frame 3, and the lock is connected between monolithic frame 1 and the decorative board 5.

In this embodiment, the honeycomb aluminum strips are aluminum honeycomb structures specially filled in the wood-plastic plates, and are used for improving the supporting performance of the door frame, and the material of the supporting auxiliary frame 3 is the same as the composition material of the single-piece frame 1. The four sides of the rectangular frame are connected by 45 degrees, the required average distribution interval of the supporting auxiliary frame 3 is within 500mm-700mm, and the rectangular frame is pressed and pasted with the WPC solid veneer.

The connection between the single-piece frames 1 not only adopts mortise and tenon connection, effectively improves connection accuracy, and adopts the leveling mechanism 2 penetrating through the single-piece frames 1 to level the connection dislocation between the single-piece frames 1, and the leveling mechanism 2 not only plays the role of leveling when the single-piece frames 1 are connected, but also effectively fixes the mortise and tenon connection part, prevents the mortise and tenon connection part from cracking when in use, and reduces the gap possibly generated when in connection. And when the rectangular frame reaches a certain service life and the structure at the joint is loosened and cracked, the doorframe does not need to be replaced, and only the leveling mechanism 2 needs to be adjusted again to tighten the doorframe.

In this embodiment, two ends of the single-piece frame 1 are cut into oblique angles of 45 degrees, and the oblique angles of two ends of the single-piece frame 1 are respectively provided with a mounting groove 6 and a plug connector 7, and the mounting grooves 6 and the plug connectors 7 between two adjacent single-piece frames 1 are connected through the leveling mechanism 2.

The single-chip frames 1 are connected end to end, the plug connector 7 is embedded in the mounting groove 6, the leveling mechanism 2 is inserted into the joint of the single-chip frames 1, the leveling mechanism 2 sequentially penetrates through the mounting groove 6 and the plug connector 7, when the connection of the single-chip frames 1 is not horizontal, the leveling mechanism 2 drives the plug connector 7 to change in the position in the mounting groove 6, and meanwhile the relative positions of the two mutually connected single-chip frames 1 are changed, so that the connection level between the single-chip frames 1 is ensured.

Specifically, the plug connector 7 is provided with a through hole 8, the through hole 8 vertically penetrates through the plug connector 7, the embedded strips 9 are connected below the through hole 8, the embedded grooves 10 with the same number as the embedded strips 9 are arranged on the mounting groove 6, the embedded strips 9 are embedded and mounted in the embedded grooves 10, the leveling mechanism 2 sequentially penetrates through the mounting groove 6 and the through hole 8 from top to bottom and is mounted on the embedded strips 9, and the leveling mechanism 2 rotates in the embedded strips 9 and drives the embedded strips 9 to slide up and down in the embedded grooves 10.

The leveling mechanism 2 is installed at the joint of the single-piece frame 1 in a penetrating way, and the plug connector 7 is connected with the mounting groove 6 in series, when the leveling mechanism 2 rotates, the plug connector 7 is driven to slide up and down in the mounting groove 6, so that the joint of the single-piece frame 1 is leveled, further fixation of the mortise and tenon connection structure is facilitated, and gaps of the joint are reduced.

In this embodiment, the single-piece frame 1 is provided with a rotation hole 12, the tip of the rotation screw 201 is installed in the rotation hole 12, the tip of the rotation screw 201 is provided with a lever cap 13, and the lever cap 13 rotates in the rotation hole 12.

When the rod cap 13 rotates in the rotating hole 12, the upper end of the rotating screw rod 201 rotates in the single-chip frame 1, the mounting groove 6 and the plug connector 7, the screw rod 202 is driven to rotationally slide in the threaded hole 11 in the embedded strip 9, the distance between the bottom of the threaded hole 11 and the bottom of the screw rod 202 is increased, the plug connector 7 moves upwards, the distance between the bottom of the threaded hole 11 and the bottom of the screw rod 202 is decreased, the plug connector 7 moves downwards, and leveling between the single-chip frames 1 is realized through up-and-down movement of the plug connector 7.

Preferably, the two ends of the supporting subframe 3 are provided with tenons 14, the single-piece frame 1 is provided with a plurality of mortises 15, and the plurality of supporting subframe 3 are mutually parallel and are vertically arranged on the mortises 15 through the tenons 14.

The invention provides a processing method of a wood-plastic aluminum frame composite door, which comprises the following steps:

step 100, wrapping wood plastic plates outside the honeycomb aluminum strips, filling foaming plates into each honeycomb aluminum strip to form single-piece frames, and carrying out mortise and tenon connection pretreatment on two ends of each single-piece frame;

step 200, installing a plurality of supporting auxiliary frames in mortise and tenon mode between oppositely arranged single frames while sequentially assembling a plurality of single frames to form a rectangular frame, and integrally leveling the rectangular frame;

and 300, filling a filling plate in a blank of the rectangular frame to form a complete door plate structure, pressing the veneer on two sides of the door plate structure, and simultaneously fastening the veneer and the wood-plastic plate to form an integrated structure.

Preferably, in step 100, the mortise and tenon joint pretreatment for each single-piece frame specifically includes the following steps:

step 101, sawing the end part of each single-piece frame to form an angle of 45 degrees;

102, installing a plug connector in an outward protruding mode at one end of a single-piece frame, sinking an installation groove for the plug connector inwards at the other end of the single-piece frame, and arranging the plug connector and the installation groove at two ends of the single-piece frame in a 45-degree inclined mode respectively to form a mortise and tenon plug structure;

step 103, perforating the single-piece frame and the plug connector simultaneously, bonding the embedded strips at the perforated bottoms of the plug connector, sinking inwards on the embedded strips to form threaded holes with threads, and chiseling the embedded grooves for sliding of the embedded strips in front of the inside of the mounting groove when the through holes and the threaded holes are positioned in the same radial direction.

Preferably, in step 200, leveling the rectangular frame specifically includes the following steps:

step 201, inserting a rotary screw rod from a rotary hole, and enabling the screw rod to sequentially pass through the rotary hole and the through hole to contact with the threaded hole;

202, rotating a rotating screw rod to enable the screw rod to be in threaded connection with a threaded hole;

and 203, observing a connecting gap between the single frames when the rotary screw rod is rotated, and adjusting the rotation direction of the rotary screw rod according to the gap.

According to the wood-plastic aluminum frame composite door and the processing method thereof, the leveling mechanism arranged at the edge of the frame can be rotated and moved, so that leveling among a plurality of wood-plastic strips is realized, connecting gaps on the frame are reduced, edge sealing effect is improved, the technical difficulty of the paint process is solved, and attractiveness and product texture are integrally improved.

The above embodiments are only exemplary embodiments of the present application and are not intended to limit the present application, the scope of which is defined by the claims. Various modifications and equivalent arrangements may be made to the present application by those skilled in the art, which modifications and equivalents are also considered to be within the scope of the present application.

Claims (7)

1. The wood-plastic aluminum frame composite door is characterized by comprising a single-piece frame (1) formed by honeycomb aluminum strips and wood-plastic plates wrapped on the outer sides of the honeycomb aluminum strips, wherein a plurality of single-piece frames (1) are embedded in a head-to-tail connection mode to form a rectangular frame, the adjacent single-piece frames (1) are connected through a leveling mechanism (2), and a plurality of supporting auxiliary frames (3) which are embedded in the single-piece frames (1) through mortise and tenon are arranged in the rectangular frames;

the blank positions in the rectangular frame except the supporting auxiliary frame (3) are filled through filling plates (4) to form a complete door plate structure, a veneer (5) is pressed and stuck on the double sides of the filling plates (4), the veneer (5) is fixedly connected with the supporting auxiliary frame (3) to prevent the veneer (5) from being empty, and the single-piece frame (1) is buckled and connected with the veneer (5);

the two ends of the single-piece frame (1) are cut into bevel angles of 45 degrees, the bevel angles at the two ends of the single-piece frame (1) are respectively provided with a mounting groove (6) and a plug connector (7), and the mounting grooves (6) and the plug connectors (7) between two adjacent single-piece frames (1) are connected through a leveling mechanism (2);

the utility model discloses a connector assembly, including plug connector, mounting groove, leveling mechanism, fitting groove (10), plug connector (7) is provided with through-hole (8), through-hole (8) vertically runs through plug connector (7), be connected with gomphosis strip (9) under through-hole (8), be provided with on mounting groove (6) with gomphosis strip (9) the same gomphosis groove (10) of quantity, gomphosis strip (9) gomphosis is installed in gomphosis groove (10), leveling mechanism (2) from the top down pass in proper order mounting groove (6) with through-hole (8) and install on gomphosis strip (9), leveling mechanism (2) are in rotation and drive in gomphosis strip (9) are in from top to bottom in gomphosis groove (10).

2. The wood-plastic aluminum frame composite door according to claim 1, wherein the leveling mechanism (2) comprises a rotating screw rod (201) installed in the through hole (8) through the single-piece frame (1), a screw rod (202) is arranged at the bottom of the rotating screw rod (201), the screw rod (202) penetrates through the through hole (8) and the embedded strip (9), a threaded hole (11) is formed in the embedded strip (9), the screw rod (202) is meshed with the threaded hole (11), and when the rotating screw rod (201) rotates, the screw rod (202) rotates in the threaded hole (11) and drives the plug connector (7) to slide up and down in the installation groove (6).

3. A wood plastic aluminum frame composite door according to claim 2, characterized in that a rotating hole (12) is formed in the single-piece frame (1), the top end of the rotating screw rod (201) is installed in the rotating hole (12), a rod cap (13) is arranged at the top end of the rotating screw rod (201), and the rod cap (13) rotates in the rotating hole (12).

4. The wood-plastic aluminum frame composite door according to claim 1, wherein tenons (14) are arranged at two ends of the supporting auxiliary frame (3), a plurality of mortises (15) are arranged on the single-piece frame (1), and the supporting auxiliary frames (3) are mutually parallel and are vertically arranged on the mortises (15) through the tenons (14).

5. The method for processing the wood-plastic aluminum frame composite door according to any one of claims 1 to 4, comprising the following steps:

step 100, wrapping wood plastic plates outside the honeycomb aluminum strips, filling foaming plates into each honeycomb aluminum strip to form single-piece frames, and carrying out mortise and tenon connection pretreatment on two ends of each single-piece frame;

step 200, installing a plurality of supporting auxiliary frames in mortise and tenon mode between oppositely arranged single frames while sequentially assembling a plurality of single frames to form a rectangular frame, and integrally leveling the rectangular frame;

and 300, filling a filling plate in a blank of the rectangular frame to form a complete door plate structure, pressing the veneer on two sides of the door plate structure, and simultaneously fastening the veneer and the wood-plastic plate to form an integrated structure.

6. The method for manufacturing a wood plastic aluminum composite door according to claim 5, wherein in step 100, the mortise and tenon joint pretreatment for each single frame specifically comprises the following steps:

step 101, sawing the end part of each single-piece frame to form an angle of 45 degrees;

102, installing a plug connector in an outward protruding mode at one end of a single-piece frame, sinking an installation groove for the plug connector inwards at the other end of the single-piece frame, and arranging the plug connector and the installation groove at two ends of the single-piece frame in a 45-degree inclined mode respectively to form a mortise and tenon plug structure;

step 103, perforating the single-piece frame and the plug connector simultaneously, bonding the embedded strips at the perforated bottoms of the plug connector, sinking inwards on the embedded strips to form threaded holes with threads, and chiseling the embedded grooves for sliding of the embedded strips in front of the inside of the mounting groove when the through holes and the threaded holes are positioned in the same radial direction.

7. The method of claim 6, wherein in step 200, leveling the rectangular frame specifically comprises the following steps:

step 201, inserting a rotary screw rod from a rotary hole, and enabling the screw rod to sequentially pass through the rotary hole and the through hole to contact with the threaded hole;

202, rotating a rotating screw rod to enable the screw rod to be in threaded connection with a threaded hole;

and 203, observing a connecting gap between the single frames when the rotary screw rod is rotated, and adjusting the rotation direction of the rotary screw rod according to the gap.

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