CN112431511A - Wood-plastic hoisting sliding door - Google Patents

Abstract

The invention discloses a wood-plastic hoisting sliding door which comprises a door top plate and a wood-plastic door plate, wherein the door top plate is installed on the inner side of a door opening, the wood-plastic door plate is hoisted on the inner side of the door top plate, a plurality of through-plate grooves which are communicated up and down are formed in the inner side of the wood-plastic door plate, filling battens used for installing and hoisting components are filled in the through-plate grooves close to two ends of the wood-plastic door plate, and tenons used for nailing side edges into the filling battens are installed on two sides of the wood-plastic door plate; the wood-plastic door plate is provided with a plate frame used for fixing a glass plate through the rectangular groove, the bottom end of the wood-plastic door plate is connected with a door moving slide way mechanism used for covering a plurality of end ports of the bottom end of the through groove in the wood plate, a specific structure is arranged on the inner side of the cavity of the two sides of the wood-plastic door plate, and a steel sheet used by the structure in the inner side of the end part of the filling batten is installed and matched to realize real-time positioning, so that the nail holding force of the two sides of the wood-plastic door plate is enhanced through.

Description

Wood-plastic hoisting sliding door

Technical Field

The invention relates to the technical field of wood-plastic door processing, in particular to a wood-plastic hoisting sliding door.

Background

The wood-plastic section is mostly produced by co-extrusion, the inside of the door leaf is a pore structure, and the wood-plastic door leaf is more and more greatly required due to special effects of wood-plastic, waterproof, flame-retardant and zero-formaldehyde on the market, however, the conventional processing technology of the wood-plastic plate is only suitable for the indoor door leaf.

The degree of difficulty that current wood-plastic door plant was applied to two processing of moving a door is great, because of the inside vestibule structure that is mostly of wood-plastic board, only contacts with nailing a small amount of structure through inside splice bar, can't be like solid wood composite door and the structure of nailing fully contact, therefore wood-plastic board is difficult to provide sufficient nail-holding power hoist and mount door leaf for the steadiness is relatively poor behind the installation hardware component on the wood-plastic door plant.

In addition, because the inside cavity of wood-plastic board is penetrating structure, consequently when regard wood-plastic board as the door leaf, its inside a plurality of cavity bottom ports are in the lower surface ground of door leaf, can't directly contact with slide positioner after wood-plastic door leaf bottom grooving.

Disclosure of Invention

The invention aims to provide a wood-plastic hoisting sliding door, which aims to solve the problems that a wood-plastic board in the prior art is difficult to provide enough nail holding force to hoist a door leaf, and the bottom of the wood-plastic door leaf cannot be directly contacted with a slideway positioning device after a groove is formed.

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

a wood-plastic hoisting sliding door comprises a door top plate and a wood-plastic door plate, wherein the door top plate is installed on the inner side of a door opening, the wood-plastic door plate is hoisted on the inner side of the door top plate, a plurality of through-plate grooves which are communicated up and down are formed in the inner side of the wood-plastic door plate, filling battens used for installing hoisting components are filled in the through-plate grooves close to two ends of the wood-plastic door plate, and tenons used for nailing side edges into the filling battens are installed on two sides of the wood-plastic door plate;

the wood-plastic door plate is provided with a plate frame for fixing the glass plate through a rectangular groove, the bottom end of the wood-plastic door plate is connected with a door moving slide rail mechanism for covering the bottom end ports of the through grooves in the wood-plastic door plate, and the wood-plastic door plate moves transversely along the inner side of the door top plate through the door moving slide rail mechanism arranged at the bottom end of the wood-plastic door plate.

As a preferred scheme of the invention, the plurality of through grooves in the wood-plastic door sheet are divided into three groups, namely a middle-section cavity, a processing cavity and a filling cavity according to types, the middle-section cavity is a single through groove structure distributed on the central axis of the wood-plastic door sheet, the processing cavity is a plurality of through groove structures distributed on two sides of the middle-section cavity, the filling cavity is a plurality of through groove structures distributed on two sides of the processing cavity and extending to two sides of the wood-plastic door sheet, and the filling cavity is used for being unidirectionally clamped into the inner side of the filling batten.

As a preferable scheme of the invention, the lengths of the middle section cavity, the processing cavity and the filling cavity at the end face of the wood-plastic door panel are different, and the length ratio of the middle section cavity, the processing cavity and the filling cavity at the end face of the wood-plastic door panel is 3:1: 2.

As a preferable scheme of the invention, a unidirectional wide clamping groove is formed in the inner side of the filling cavity close to the front end face of the wood-plastic door plate, a plurality of unidirectional clamping teeth are distributed at equal intervals on the front end face of the unidirectional wide clamping groove, the unidirectional clamping teeth are transversely distributed on the inner side of the unidirectional wide clamping groove, and the inclined plane at the top end of each unidirectional clamping tooth is connected with the vertical plane at the bottom end of the adjacent unidirectional clamping tooth end to end.

As a preferable scheme of the present invention, the filler battens include a strip-shaped batten extending into the filling cavity, and an elastic unidirectional clamping piece for matching with the unidirectional clamping of the filling cavity is installed at a top end of the strip-shaped batten, the filler battens are elastically inserted along a top end port of the through groove in the plate and are unidirectionally clamped with the filling cavity through the elastic unidirectional clamping piece, and the filler battens are clamped and abutted with the filling cavity through the elastic unidirectional clamping piece when moving to the top end along the inside of the through groove in the plate.

As a preferable aspect of the present invention, the elastic unidirectional clip includes an end adjustment clip attached to a port of the bar-shaped batten, and the end adjustment clip is connected with a clip fixing bolt for fixing the end adjustment clip by screwing in the bar-shaped batten, the end adjustment clip fits with an end area of the bar-shaped batten, and a front end portion of the end adjustment clip is provided with a clip cooperating with the unidirectional latch, and the clip continuously moves down along an inclined surface at a top end of the unidirectional latch, and engages with a vertical surface at a bottom end of the unidirectional latch when moving up along the vertical surface at the bottom end of the unidirectional latch.

As a preferable scheme of the invention, the middle part of the end adjusting card is provided with a strip-shaped clamping groove for the card fixing bolt to pass through, the end adjusting card moves forwards and backwards along the card fixing bolt through the strip-shaped clamping groove, and the end adjusting card moves forwards to drive the elastic oblique card to extend out of the side face of the strip-shaped batten.

As a preferred scheme of the invention, the sliding door slideway mechanism comprises a door leaf bottom crosspiece which has the same width as the wood-plastic door plate and is used for supporting the wood-plastic door plate, a door leaf pulley block which is contacted with the ground and is used for moving is installed at the bottom end of the door leaf bottom crosspiece, and door leaf positioning components which are used for positioning and butting the wood-plastic door plate are installed at two ends of the door leaf bottom crosspiece.

As a preferable scheme of the invention, the cross section of the door leaf bottom crosspiece is of a concave structure, the door leaf bottom crosspiece wraps bottom end ports of the plurality of in-board through grooves in the wood-plastic door sheet through a concave structure at the top end of the door leaf bottom crosspiece, the two door leaf positioning assemblies are positioned at two ends of the concave structure at the top end of the door leaf bottom crosspiece, and the door leaf positioning assemblies are clamped in from the bottom end ports of the filling cavity.

As a preferable scheme of the present invention, two strip bolt grooves are symmetrically arranged about a transverse central axis of the bottom crosspiece of the door leaf at the bottom end of the bottom crosspiece of the door leaf, the strip bolt grooves penetrate and extend into a recessed structure at the top end of the bottom crosspiece of the door leaf, positioning hole fixing bolts screwed into the door leaf positioning assemblies through threads are arranged inside the strip bolt grooves, and the positioning hole fixing bolts move transversely along the inside of the strip bolt grooves.

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

(1) according to the invention, the specific structures are arranged at the inner sides of the cavities at the two sides of the wood-plastic door plate, and the steel sheets matched with the structures at the inner sides of the cavities are arranged at the end parts of the filling battens to realize real-time positioning, so that the battens are conveniently nailed and fixed by the wood tenons from the side surfaces at the two sides of the wood-plastic door plate, the nail holding force of the two sides of the wood-plastic door plate is enhanced by the filling battens inside the wood-plastic door plate, and the hardware;

(2) according to the wood-plastic door plate, the cavities in the wood-plastic door plate are divided into three groups of reasonably distributed cavities according to functional areas, so that the wood-plastic door plate can still keep the overall strength after the wood-plastic door plate is milled with the glass grooves, and on the other hand, the cavities with longer widths are arranged in the unprocessed area to reduce the weight of the wood-plastic door plate;

(3) according to the invention, the sliding door slideway mechanism is arranged at the bottom end of the wood-plastic door plate, so that the sliding door slideway mechanism wraps a plurality of cavity ports at the bottom end of the wood-plastic door plate, and a rolling assembly for ground contact is conveniently arranged on the sliding door slideway mechanism in the follow-up process and is matched with the wood-plastic door plate for use.

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 should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic structural view of a through groove in a board according to an embodiment of the present invention.

Fig. 2 provides an overall side view of an embodiment of the present invention.

Fig. 3 is a schematic view of a connection of an elastic one-way card according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a sliding door chute mechanism according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-door top panel; 2-wood plastic door plank; 3-through grooves in the plate; 4-filling battens; 5-wood tenon; 6-a sheet frame; 7-sliding door slideway mechanism;

31-middle section cavity; 32-processing a cavity; 33-filling the cavity;

331-one-way wide slot; 332-one-way latch;

41-strip batten; 42-elastic one-way card;

421-end adjustment card; 422-fixing bolt; 423-elastic oblique card;

71-door leaf bottom crosspiece; 72-a door leaf pulley block; 73-a door leaf positioning assembly;

711-strip bolt slot; 712-positioning holes fixing bolts.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, the invention provides a wood-plastic hoisting sliding door, which comprises a door top plate 1 installed on the inner side of a door opening and a wood-plastic door plate 2 hoisted on the inner side of the door top plate 1, wherein a plurality of through grooves 3 which are communicated up and down are formed in the inner side of the wood-plastic door plate 2, filling battens 4 for installing hoisting components are filled in the through grooves 3 which are close to two ends of the wood-plastic door plate 2, and wood tenons 5 for nailing the filling battens 4 into the side edges are installed on two sides of the wood-plastic door plate 2;

the wood-plastic door plate 2 is provided with a plate frame 6 for fixing the glass plate through a rectangular groove, the bottom end of the wood-plastic door plate 2 is connected with a door moving slide mechanism 7 for covering the bottom end ports of the through grooves 3 in the plurality of plates, and the wood-plastic door plate 2 moves along the inner side of the door top plate 1 through the door moving slide mechanism 7 arranged at the bottom end of the wood-plastic door plate 2.

Through groove 3 in a plurality of boards of wood-plastic door plant 2 inside is divided into middle section cavity 31 according to the kind, processing cavity 32 and packing cavity 33 three groups, middle section cavity 31 is for distributing at the 2 central axis of wood-plastic door plant single through groove structure, processing cavity 32 is for distributing at a plurality of through groove structures of middle section cavity 31 both sides, packing cavity 33 is for distributing in both sides processing cavity 32 both sides and extend to a plurality of through groove structures of wood-plastic door plant 2 both sides, and pack cavity 33 and be used for one-way card to go into the inboard of packing flitch 4.

The lengths of the middle section cavity 31, the processing cavity 32 and the filling cavity 33 on the end face of the wood-plastic door panel 2 are different, and the length ratio of the middle section cavity 31, the processing cavity 32 and the filling cavity 33 on the end face of the wood-plastic door panel 2 is 3:1: 2.

The inside of filling cavity 33 is close to the preceding terminal surface of wood-plastic door board 2 and is equipped with one-way wide draw-in groove 331 to the preceding terminal surface of one-way wide draw-in groove 331 is equipped with a plurality of equidistance distribution's one-way latch 332, and one-way latch 332 transversely distributes in the inboard of one-way wide draw-in groove 331, and the top inclined plane of one-way latch 332 and the bottom perpendicular end-to-end connection of adjacent one-way latch 332.

Fill flitch 4 including being used for stretching into the inside bar flitch 41 of packing cavity 33 to the one-way card 42 of elasticity that is used for the cooperation to fill the one-way block of cavity 33 is installed on the top of bar flitch 41, fill flitch 4 along the one-way block of elasticity of the one-way card 42 of elasticity and packing cavity 33 one-way block of top port elasticity insertion of inboard logical groove 3, and fill flitch 4 and fill cavity 33 block butt joint through the one-way card 42 of elasticity when moving to the top along the inside of inboard logical groove 3.

The elastic unidirectional clamping piece 42 comprises an end adjusting clamping piece 421 attached to the port of the bar-shaped batten 41, a clamping piece fixing bolt 422 used for fixing the end adjusting clamping piece 421 by screwing the bar-shaped batten 41 is connected onto the end adjusting clamping piece 421, the end adjusting clamping piece 421 is matched with the end area of the bar-shaped batten 41, the front end part of the end adjusting clamping piece 421 is provided with a 323 matched with the unidirectional clamping tooth 332, the 323 continuously moves downwards along the inclined plane at the top end of the unidirectional clamping tooth 332, and the 323 is clamped with the vertical plane at the bottom end of the unidirectional clamping tooth 332 when moving upwards along the vertical plane at the bottom end of the unidirectional clamping tooth 332.

The middle part of the end adjusting clamp 421 is provided with a strip-shaped clamping groove for the clamp fixing bolt 422 to pass through, the end adjusting clamp 421 moves along the clamp fixing bolt 422 in the front-back transverse direction through the strip-shaped clamping groove, and the end adjusting clamp 421 moves forward to drive the elastic inclined clamp 423 to extend out of the side face of the strip batten 41.

The door moving slideway mechanism 7 comprises a door leaf bottom crosspiece 71 which has the same width with the wood-plastic door panel 2 and is used for supporting the wood-plastic door panel 2, a door leaf pulley block 72 which is in contact with the ground and is used for moving is installed at the bottom end of the door leaf bottom crosspiece 71, and door leaf positioning components 73 which are used for positioning and butting the wood-plastic door panel 2 are installed at two ends of the door leaf bottom crosspiece 71.

The cross section of the door leaf bottom crosspiece 71 is a concave structure, the door leaf bottom crosspiece 71 wraps the bottom end ports of the plurality of in-board through grooves 3 inside the wood-plastic door sheet 2 through the recessed structure at the top end of the door leaf bottom crosspiece 71, the two door leaf positioning assemblies 73 are located at the two ends of the recessed structure at the top end of the door leaf bottom crosspiece 71, and the door leaf positioning assemblies 73 are clamped into the bottom end ports of the filling cavities 33.

The bottom end of the door bottom crosspiece 71 is provided with two strip-shaped bolt grooves 711 which are symmetrically arranged about the transverse central axis of the door bottom crosspiece 71, the strip-shaped bolt grooves 711 extend into the recessed structure at the top end of the door bottom crosspiece 71 in a penetrating manner, positioning hole fixing bolts 712 screwed into the door positioning assembly 73 through threads are arranged inside the strip-shaped bolt grooves 711, and the positioning hole fixing bolts 712 move transversely along the inside of the strip-shaped bolt grooves 711.

The specific steps for processing the wood-plastic hoisting sliding door 2 are as follows:

and step 100, processing the corresponding wood-plastic door plate 2 according to the order requirement, selecting a proper filling batten 4 and reinforcing by using a wood tenon 5.

Before the wood-plastic door plate 2 is processed by adopting a pressing process, cavity dies for forming the middle cavity 31, the processing cavity 32 and the filling cavity 33 are installed in the pressing die in advance according to processing requirements, so that the front end faces in the filling cavities 33 on the two sides of the processed wood-plastic door plate 2 form the one-way wide clamping grooves 331 and the one-way clamping teeth 332, the vertical areas for routing and installing the plate frames 6 are located in the areas of the processing cavities 32, and the middle part of the wood-plastic door plate 2, which does not need to be processed, forms the middle cavity 31 with a large width.

After selecting filler flitch 4, at the one-way card 42 of the one-way card of the tip installation elasticity of filler flitch 4, use fixing bolt 422 to pass and twist into the tip of filler flitch 4 behind the inside rectangular groove of tip regulation card 421, and adjust the oblique card 423 of elasticity to just being the preceding terminal surface of filling cavity 33, elasticity degree adjustment tip regulation card 421 when later inserting filler cavity 33 according to filler flitch 4, thereby adjust the distance that the oblique card 423 of elasticity extends bar flitch 41 preceding terminal surface, the oblique card 423 of elasticity extends the distance when shorter the lower the block dynamics with the inside one-way latch 332 of one-way wide draw-in groove 331, the block dynamics with the inside one-way latch 332 of one-way wide draw-in groove 331 is higher when the oblique card 423 of elasticity extends the distance when longer.

When the length that fills flitch 4 and insert and fill the inside of cavity 33 meets the requirements, need follow the side of wood-plastic door board 2 and nail into tenon 5, it is more stable to fill flitch 4 body more strongly with the block dynamics of filling cavity 33 at the in-process of nailing, is difficult to slide in the inside of filling cavity 33, thereby prevents to fill flitch 4 and move up and lead to that tenon 5 can't nail into and fill flitch 4.

And step 200, installing a sliding door slideway mechanism 7 at the bottom end of the wood-plastic door plate 2.

When the sliding door chute mechanism 7 is installed, the door leaf positioning component 73 needs to be placed inside the recessed structure at the top end of the bottom crosspiece 71 of the door leaf, and is screwed into the door positioning member 73 through a bolt slot 711 formed at the bottom end of the door bottom rail 71 using a positioning hole fixing bolt 712, when the two door leaf positioning assemblies 73 are preliminarily arranged in the concave structure at the top end of the door leaf bottom crosspiece 71, the door leaf bottom crosspiece 71 is clamped at the bottom end of the wood-plastic door panel 2, and the two door leaf positioning components 73 are inserted into the filling cavities 33 at the two sides of the wood-plastic door panel 2, at this time, the door leaf bottom crosspiece 71 is aligned with the wood-plastic door panel 2, then the two positioning hole fixing bolts 712 at the bottom end of the door leaf bottom crosspiece 71 are screwed down, the door leaf bottom crosspiece 71 is automatically aligned after being clamped with the wood-plastic door sheet 2, so that the door leaf bottom crosspiece 71 can be taken down subsequently, and an adhesive is coated in the concave structure at the top end of the door leaf bottom crosspiece 71.

And step 300, milling the filled wood-plastic door plate 2 filled with the battens 4 and the tenons 5 to a fixed length and a fixed width through two ends, and sealing the four sides of the wood-plastic door plate by using a sealing machine.

And step 400, machining hardware according to the hardware requirement of the order by the hardware hole opening process of the edge-sealed door leaf.

And 500, routing a sliding door hanging wheel groove through a top processing machine and processing a sliding door lower sliding groove through a bottom processing machine.

Step 600, routing a glass window hole by using a CNC engraving machine according to the requirement of a customer order.

And 700, inlaying glass, inspecting and packaging.

According to the embodiment of the invention, the specific structures are arranged at the inner sides of the cavities at the two sides of the wood-plastic door plate 2, and the steel sheets matched with the structures at the inner sides of the cavities are arranged at the end parts of the filler battens 4 to realize real-time positioning, so that the filler battens 4 are fixed by nailing the wood tenons 5 into the side surfaces at the two sides of the wood-plastic door plate 2 in a follow-up manner, the nail holding force of the two sides of the wood-plastic door plate 2 is enhanced through the filler battens 4 inside, and hardware fittings are convenient.

And, divide into three groups of cavitys of rational distribution with the inside cavity of wood-plastic door plant 2 according to functional area for wood-plastic door plant 2 still can keep bulk strength after routing the glass groove, and on the other hand sets up the longer cavity of width through processing the district in not setting up and alleviates wood-plastic door plant 2's weight.

In addition, the sliding door slide mechanism 7 is arranged at the bottom end of the wood-plastic door plate 2, so that the sliding door slide mechanism 7 wraps a plurality of cavity ports at the bottom end of the wood-plastic door plate 2, and a rolling assembly for ground contact is conveniently installed on the sliding door slide mechanism 7 in a follow-up manner to be matched with the wood-plastic door plate 2 for use.

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

Claims (10)

1. The utility model provides a wood-plastic hoisting sliding door, is in including installing door roof (1) at door opening inboard to and hoist and mount door roof (1) inboard wood-plastic door board (2), its characterized in that: a plurality of through grooves (3) which are communicated up and down are formed in the inner side of the wood-plastic door plate (2), filling battens (4) used for installing and hanging components are filled in the through grooves (3) which are close to two ends of the wood-plastic door plate (2), and tenons (5) which are used for being nailed into the side edges to fill the filling battens (4) are installed on two sides of the wood-plastic door plate (2);

the wood-plastic door plate (2) is provided with a plate frame (6) used for fixing a glass plate through a rectangular groove, the bottom end of the wood-plastic door plate (2) is connected with a door moving slide mechanism (7) used for covering a plurality of bottom end ports of the in-plate through grooves (3), and the wood-plastic door plate (2) is installed through the bottom end of the wood-plastic door plate and moves the door slide mechanism (7) along the inner side of the door top plate (1) in a transverse moving mode.

2. The wood-plastic hoisting sliding door according to claim 1, characterized in that: the inside a plurality of wood-plastic door board (2) inboard logical groove (3) divide into middle section cavity (31), processing cavity (32) and fill cavity (33) three groups according to the kind, middle section cavity (31) are for distributing wood-plastic door board (2) the epaxial single logical groove structure of central axis, processing cavity (32) are for distributing a plurality of logical groove structures of middle section cavity (31) both sides, fill cavity (33) for distributing in both sides processing cavity (32) both sides and extend to a plurality of logical groove structures of wood-plastic door board (2) both sides, and it is used for one-way card to go into to fill cavity (33) the inboard of filler flitch (4).

3. The wood-plastic hoisting sliding door according to claim 2, characterized in that: the lengths of the middle section cavity (31), the processing cavity (32) and the filling cavity (33) on the end face of the wood-plastic door plate (2) are different, and the length ratio of the middle section cavity (31), the processing cavity (32) and the filling cavity (33) on the end face of the wood-plastic door plate (2) is 3:1: 2.

4. The wood-plastic hoisting sliding door according to claim 2, characterized in that: the inside of packing cavity (33) is close to the preceding terminal surface of wood-plastic door board (2) is equipped with one-way wide draw-in groove (331), and the preceding terminal surface of one-way wide draw-in groove (331) is equipped with one-way latch (332) that a plurality of equidistance distribute, one-way latch (332) transverse distribution is in the inboard of one-way wide draw-in groove (331), and the top inclined plane of one-way latch (332) and adjacent the bottom perpendicular end to end connection of one-way latch (332).

5. The wood-plastic hoisting sliding door according to claim 4, characterized in that: fill flitch (4) including being used for stretching into fill inside bar flitch (41) of cavity (33), and the top of bar flitch (41) is installed and is used for the cooperation fill one-way card of elasticity (42) of the one-way block of cavity (33), fill flitch (4) are followed the top port elasticity of logical groove (3) in the board inserts and passes through one-way card of elasticity (42) with fill the one-way block of cavity (33), and fill flitch (4) are followed pass through when the inside of logical groove (3) in the board is removed to the top elasticity one-way card (42) with fill cavity (33) block butt joint.

6. The wood-plastic hoisting sliding door according to claim 5, characterized in that: the elastic unidirectional clamping piece (42) comprises an end adjusting clamping piece (421) attached to the port of the bar-shaped batten (41), a clamping piece fixing bolt (422) used for fixing the end adjusting clamping piece (421) by screwing the bar-shaped batten (41) is connected onto the end adjusting clamping piece (421), the end adjusting clamping piece (421) is matched with the end area of the bar-shaped batten (41), a part (323) matched with the unidirectional clamping tooth (332) is arranged at the front end of the end adjusting clamping piece (421), the clamping piece (323) continuously moves downwards along the inclined plane at the top end of the unidirectional clamping tooth (332), and the clamping piece (323) is clamped with the vertical plane at the bottom end of the unidirectional clamping tooth (332) when moving upwards along the vertical plane at the bottom end of the unidirectional clamping tooth (332).

7. The wood-plastic hoisting sliding door according to claim 6, characterized in that: the middle part of tip regulation card (421) is equipped with the confession the rectangular shape draw-in groove that card fixing bolt (422) passed, tip regulation card (421) pass through rectangular shape draw-in groove edge card fixing bolt (422) lateral shifting, through tip regulation card (421) tend to move forward and drive elasticity oblique card (423) extend the distance of bar flitch (41) side.

8. The wood-plastic hoisting sliding door according to claim 1, characterized in that: the door moving slideway mechanism (7) comprises a door leaf bottom crosspiece (71) which has the same width with the wood-plastic door plate (2) and is used for supporting the wood-plastic door plate (2), a door leaf pulley block (72) which is in contact with the ground and is used for moving is installed at the bottom end of the door leaf bottom crosspiece (71), and door leaf positioning components (73) which are used for positioning and butting the wood-plastic door plate (2) are installed at two ends of the door leaf bottom crosspiece (71).

9. The wood-plastic hoisting sliding door according to claim 8, characterized in that: the cross section of the door leaf bottom crosspiece (71) is of a concave structure, the door leaf bottom crosspiece (71) wraps the bottom end ports of the plurality of in-plate through grooves (3) in the wood-plastic door plate (2) through the concave structure at the top end of the door leaf bottom crosspiece, the two door leaf positioning assemblies (73) are located at two ends of the concave structure at the top end of the door leaf bottom crosspiece (71), and the door leaf positioning assemblies (73) are used for being clamped into the bottom end ports of the filling cavities (33).

10. The wood-plastic hoisting sliding door according to claim 9, characterized in that: the bottom end of the door leaf bottom crosspiece (71) is provided with two strip-shaped bolt grooves (711) which are symmetrically arranged relative to the transverse central axis of the door leaf bottom crosspiece (71), the strip-shaped bolt grooves (711) penetrate through and extend into a recessed structure at the top end of the door leaf bottom crosspiece (71), positioning hole fixing bolts (712) screwed into the door leaf positioning assembly (73) through threads are arranged inside the strip-shaped bolt grooves (711), and the positioning hole fixing bolts (712) transversely move along the inside of the strip-shaped bolt grooves (711).

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