CN114658332A - Anticorrosive antibiotic timber structure of pin-connected panel - Google Patents

Abstract

The invention discloses an assembled type anticorrosion and antibacterial wooden door structure, which relates to the technical field of anticorrosion and antibacterial building materials and comprises a panel assembly, wherein an edge sealing assembly is assembled on the outer wall of the panel assembly, an anti-collision assembly connected with the top end of the inner wall of the edge sealing assembly is assembled inside the panel assembly, an assembled assembly is assembled at the bottom end of the anti-collision assembly positioned inside the panel assembly, and a collecting assembly is assembled at the bottom end of the assembled assembly positioned inside the panel assembly. The wooden door structure is formed by splicing a plurality of groups of wood, has low requirements on raw materials, does not need to process the whole wood, and is used by matching with plastic parts, thereby saving the cost and reducing the weight of the wooden door structure; the assembling process is simple and quick, the wooden door structure does not need to be reinforced by various machines in the assembling process, the wooden door structure does not need to be stained with adhesives such as glue, and meanwhile, when individual parts are damaged, the individual parts can be replaced.

Description

Anticorrosive antibiotic timber structure of pin-connected panel

Technical Field

The invention relates to the technical field of anticorrosive and antibacterial building materials, in particular to an assembled anticorrosive and antibacterial wooden door structure.

Background

In recent years, with the ecological environmental problem becoming a social focus, the consumption concept of people is changing silently, and especially for household products, whether the household products are applicable and safe and whether the household products meet the ecological environmental protection requirements are also concerned.

Therefore, ecological consumption is becoming a new focus of the household industry, and the wooden door occupies a large part of the market in the household industry, but the existing wooden door structure has a poor anticorrosion effect, for example, chinese patent CN202788422U discloses "a wooden door cover lower end anticorrosion structure", which comprises a wooden door cover and an anticorrosion cover arranged at the bottom end of the wooden door cover, wherein the anticorrosion cover is made of stone or stainless steel material and is coated at the lower part of the door cover, so that the lower part of the door cover is effectively prevented from being in a wet state due to water infiltration, and the lower part of the door cover is prevented from being rotten due to bacteria.

But under this kind of structure, the shaping is assembled by polylith panel to anticorrosive cover, and the condition of infiltration appears in gap department easily, and anticorrosive antibiotic effect is relatively poor, and the production and processing of anticorrosive cover is also comparatively complicated, moreover owing to adopt stone material and stainless steel structure, will increase the weight of door plant, comparatively hard when opening the door, influence the use and feel.

Disclosure of Invention

The invention aims to provide an assembled anticorrosion and antibacterial wooden door structure to solve the problems of poor anticorrosion and antibacterial effects and bulkiness of wooden doors in the background technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides an assembled anticorrosion antibacterial wooden door structure, which comprises a panel assembly, wherein a sealing edge assembly is assembled on the outer wall of the panel assembly, an anti-collision assembly connected with the top end of the inner wall of the sealing edge assembly is assembled inside the panel assembly, an assembling assembly is assembled at the bottom end of the anti-collision assembly inside the panel assembly, and a collecting assembly is assembled at the bottom end of the assembling assembly inside the panel assembly;

the anti-collision assembly comprises a first plastic plate connected with the top end of the inner wall of the edge sealing assembly, a second plastic plate is mounted on one side, away from the panel assembly, of the first plastic plate, a first cavity is formed between the second plastic plate and the first plastic plate, a ventilation frame is assembled inside the first cavity, a drying agent is fixed at the bottom end of the inner wall of the ventilation frame, a first splicing groove is formed in the inner wall of the second plastic plate and the inner wall of the first plastic plate, a second splicing groove is formed in the position, at the output end of the first splicing groove, of the inner wall of the second plastic plate and the inner wall of the first plastic plate, arc-shaped limiting sliding grooves are formed in two sides of the inner wall of the second splicing groove, balls are assembled inside the arc-shaped limiting sliding grooves, and a balancing weight is assembled on one side, away from the arc-shaped limiting sliding grooves, of the balls;

the assembly is including the limiting plate that links to each other with banding subassembly inner wall one side, the top of limiting plate is fixed with the stopper, one side that the banding subassembly was kept away from to the limiting plate is equipped with the connecting plate, one side that the stopper was kept away from to the connecting plate is connected with the multiunit backup pad, the internal assembly of backup pad has the gag lever post, and two sets of backup pads contact position department and gag lever post formation fifth splice groove.

Further, the panel component comprises a first panel, a dustproof filter screen and a second panel, the dustproof filter screen penetrating through the outer wall of the first panel is arranged in the first panel and the dustproof filter screen, two groups of first limiting strips matched with first dovetail grooves in the outer wall of the first plastic plate are arranged on the upper half portion of the inner wall of the first panel and the upper half portion of the inner wall of the second panel, and two groups of second limiting strips matched with second dovetail grooves in the outer wall of the second plastic plate are arranged on the lower half portion of the inner wall of the first panel and the lower half portion of the inner wall of the second panel.

Further, the banding subassembly is including first banding, second banding, third banding, fourth banding, the bottom of first banding be provided with the third dovetail top assorted third spacing strip of first plastic slab, first banding and second banding position of contact department are the design of forty-five degrees of slope, first banding and fourth banding position of contact department are the design of forty-five degrees of slope, the outer wall of second banding and the one end of third banding are located same vertical plane, the one end that the second banding is kept away from to the third banding is located same vertical plane with the outer wall of fourth banding, the inner wall of second banding and fourth banding be provided with the spacing strip of limiting plate outer wall fourth dovetail assorted fourth spacing strip, the top of third banding is provided with and collects subassembly bottom fifth assorted fifth spacing strip.

Further, collect the subassembly including the plastics case that links to each other with third banding top, the top of plastics case seted up with stopper assorted spacing groove, the inside of plastics case is provided with the second cavity, second cavity internal assembly has the removal box, the internal assembly of removal box has dampproofing case, the top of dampproofing case is equipped with the anti-return frame, the outer wall of anti-return frame is seted up and is run through to its inside exhaust filter screen, the inside of dampproofing case is provided with and anti-return frame assorted draw-in groove, the inner wall top of draw-in groove is connected with the top of anti-return frame through elasticity pretension piece.

Furthermore, the fifth splicing groove comprises an air inlet, the bottom end of the air inlet is connected with a main runner, the bottom end of one side of the main runner, which is located at the air inlet, is connected with a branch runner, and the output ends of the branch runner and the main runner are connected with an air outlet.

Further, the outer wall of first plastic slab is provided with the ventilation groove that runs through to first cavity inner wall, the ventilation groove is located same horizontal plane with the second filter screen of second plastic slab outer wall, dustproof filter screen is located same horizontal plane with ventilation frame outer wall second filter screen.

Furthermore, the top and the bottom of connecting plate and backup pad all are fixed with the stopper, the bottom of anticollision subassembly and the top of collecting the subassembly all seted up with stopper assorted spacing groove.

Furthermore, the first cavity runs through the inner wall of the first plastic board to be provided with a first chute matched with a ventilation frame on the outer wall of the first plastic board, the second cavity runs through the inner wall of the plastic box to be provided with a second chute on the outer wall of the plastic box, the outer wall of the fourth sealing edge is provided with two groups of sealing plates running through the inner wall of the sealing plates, the outer wall of each sealing plate is provided with a pull groove, and the size of each sealing plate corresponds to the ventilation frame and the corresponding movable box respectively.

Further, the quantity of limiting plate is two sets of, and is a set of the inside of limiting plate evenly set up run through the limiting plate both ends with the first through-hole of gag lever post assorted, another group the inside of limiting plate evenly set up with the corresponding first spacing hole of first through-hole, first spacing hole does not run through the limiting plate at first spacing hole place, the quantity of connecting plate is two sets of, and is two sets of the inside of connecting plate is all seted up run through its both ends with gag lever post assorted second through-hole, and is two sets of the connecting plate is with two sets of the limiting plate passes through the sixth dovetail and is connected with the sixth spacing strip, the quantity of backup pad is three groups, three groups the inside of backup pad is seted up run through its both ends with gag lever post assorted third through-hole.

Compared with the prior art, the above one or more technical schemes have the following beneficial effects:

the wooden door structure is formed by splicing a plurality of groups of woods, has low requirements on raw materials, does not need to process a whole piece of wood, and is used by matching with a plastic part, so that the cost is saved, and the weight of the wooden door structure is reduced;

the assembling process is simple and rapid, the wood door structure does not need to be reinforced by various machines in the assembling process, the wood door structure does not need to be adhered by adhesives such as glue, and meanwhile, when individual parts are damaged, the individual parts can be replaced;

slotting is performed between the plastic part and the wood, and the slotting part is used as a splicing part, so that multiple effects are brought, firstly, slotting can reduce the whole weight of the wooden door structure, secondly, the moving speed of the wooden door when the wooden door is blown by strong wind or violently pushed by a user is effectively slowed down, and the wooden door, the wall surface and people who possibly stand outdoors are effectively protected;

and the door is opened and closed at each time, and meanwhile, the wooden door is subjected to dehumidification and degerming treatment by the aid of inertia and wind force.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure provided by one or more embodiments of the present invention;

FIG. 2 is an exploded view of an overall structure provided by one or more embodiments of the present invention;

FIG. 3 is a schematic diagram of a panel assembly according to one or more embodiments of the invention;

FIG. 4 is a schematic view of a hem assembly provided by one or more embodiments of the invention;

FIG. 5 is a schematic view of a bumper assembly according to one or more embodiments of the present invention;

FIG. 6 is a schematic illustration of a construction of a building component according to one or more embodiments of the present invention;

FIG. 7 is a schematic diagram of a collection assembly according to one or more embodiments of the present invention;

FIG. 8 is a schematic view of a backflow frame configuration provided by one or more embodiments of the present invention;

FIG. 9 is a schematic illustration of a support plate configuration provided in accordance with one or more embodiments of the present invention;

FIG. 10 is a schematic view of the interior of a bumper assembly according to one or more embodiments of the present invention;

FIG. 11 is a schematic view of the configuration of the two ends of the support plate provided in accordance with one or more embodiments of the present invention;

FIG. 12 is a schematic structural diagram of a fifth splice groove provided in one or more embodiments of the present invention.

In the figure:

100. a panel assembly; 200. a sealing edge component; 300. an anti-collision assembly; 400. assembling the components; 500. a collection assembly;

110. a first panel; 120. a dustproof filter screen; 130. a second panel;

210. first edge sealing; 220. second edge sealing; 230. thirdly, sealing edges; 240. fourthly, sealing edges;

310. a first plastic panel; 320. a second plastic panel; 330. a ventilation frame; 340. a desiccant; 350. a first splice groove; 360. a second splice groove; 370. an arc-shaped limiting chute; 380. a ball bearing; 390. a balancing weight;

410. a limiting plate; 420. a limiting block; 430. a connecting plate; 440. a support plate; 450. a limiting rod; 460. a fifth splice groove;

461. an air inlet; 462. a main runner; 463. a branch chute; 464. an air outlet;

510. a plastic box; 520. a limiting groove; 530. moving the cartridge; 540. a moisture-proof box; 550. a backflow prevention frame; 560. an elastic preload member; 570. an exhaust filter screen.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

As shown in fig. 1 to 12, a sectional type anti-corrosive and antibacterial wooden door structure includes a panel assembly 100, an outer wall of the panel assembly 100 is assembled with a sealing edge assembly 200 for sealing an internal structure of the wooden door, an inner part of the panel assembly 100 is assembled with a collision prevention assembly 300 connected with a top end of an inner wall of the sealing edge assembly 200, a bottom end of the collision prevention assembly 300 positioned inside the panel assembly 100 is assembled with a sectional assembly 400, and a bottom end of the sectional assembly 400 positioned inside the panel assembly 100 is assembled with a collecting assembly 500;

the above-mentioned mechanism design is convenient for the staff to assemble the timber structure fast and conveniently, the concrete operation is as follows, the staff assembles the anticollision assembly 300 that will assemble assembly 400 after finishing assembling the assembly and assembles the top of the assembly 400, assemble the collecting assembly in the bottom of the assembly 400, assemble the panel assembly 100 in the anticollision assembly 300 and both sides of the collecting assembly 500 again, seal the edge sealing assembly 200 to the four sides of the timber structure finally, the assembly process is simple and swift, not only does not need to strengthen the timber structure through various machinery in the assembly process, do not need to be stained with the timber structure through adhesives such as glue, etc. at the same time, when the individual part damages, can change the separate part;

the anti-collision assembly 300 comprises a first plastic plate 310 connected with the top end of the inner wall of the edge sealing assembly 200, a second plastic plate 320 is installed on one side, away from the panel assembly 100, of the first plastic plate 310, a first cavity is formed between the second plastic plate 320 and the first plastic plate 310, a ventilation frame 330 is assembled inside the first cavity, a drying agent 340 is fixed at the bottom end of the inner wall of the ventilation frame 330, a first splicing groove 350 is formed in the inner wall of the second plastic plate 320 and the inner wall of the first plastic plate 310, a second splicing groove 360 is formed in the inner wall, located at the output end of the first splicing groove 350, of the second plastic plate 320 and the inner wall of the first plastic plate 310, arc-shaped limiting sliding grooves 370 are formed in two sides of the inner wall of the second splicing groove 360, balls 380 are assembled inside the arc-shaped limiting sliding grooves 370, and a balancing weight 390 is assembled on one side, away from the arc-shaped limiting sliding grooves 370, of the balls 380;

the outer wall of the balancing weight 390 is provided with circular grooves matched with the balls 380, the outer wall of the balancing weight 390 is attached to the inner wall of the second splicing grooves 360, the number of the second splicing grooves 360 is eight, the eight groups of the second splicing grooves 360 are divided into two rows, the two rows of the second splicing grooves 360 are communicated through a third splicing groove, cotton wool is filled in the third splicing groove, the output end of the group of the second splicing grooves 360 positioned below is communicated with a fourth splicing groove, and the fourth splicing groove is filled with cotton wool;

the anti-collision assembly 300 is internally provided with the multiple groups of grooves, so that the overall weight of the wooden door structure can be effectively reduced, and the wooden door can be prevented from being quickly moved to cause the wooden door to collide the wall surface when being pushed vigorously, or the wooden door can be blown by strong wind to quickly move in windy weather because the door is not locked, so that the wooden door can collide the wall surface;

when a user pushes the whole wood door quickly, the whole wood door makes a quick fan-shaped motion to drive the anti-collision assembly 300 to make a fan-shaped motion, so that the counterweight block 390 moves under the action of centrifugal force, and the moving direction of the counterweight block 390 is opposite to the axis direction of the rotating shaft of the wood door;

because the weight blocks 390 are eight groups in number, the eight groups of weight blocks 390 move in the opposite direction of the rotating shaft of the wooden door when the wooden door integrally moves fast, so that the weight of one end of the wooden door far away from the rotating shaft is increased fast, and because the eight groups of weight blocks 390 are uniformly distributed on the upper half part of the wooden door, one side of the wooden door far away from the rotating shaft has downward pressure which can extrude the connecting part of the wooden door and the rotating shaft and increase the friction force between the rotating shaft and the wooden door, thereby effectively reducing the moving speed of the wooden door when being blown by strong wind or violently pushed by a user, and effectively protecting the wooden door, the wall surface and people who may stand outdoors;

conversely, when the wooden door is pushed lightly, the moving distance of the weight block 390 is shorter, so that the weight of the side of the wooden door far away from the rotating shaft is increased less, and the friction force between the rotating shaft and the wooden door is increased less;

in the process of fan-shaped movement of the wooden door, outside air enters the ventilation frame 330 after passing through the panel assembly 100, then enters the first splicing groove 350 through the drying agent 340 at the bottom end of the ventilation frame 330, the dried air enters the second splicing groove 360 after passing through the first splicing groove 350, and the gas entering the second splicing groove 360 accelerates the moving speed of the counterweight block 390;

meanwhile, the counterweight block 390 moves to drive the gas in the second splicing groove 360 to move towards the inside of the third splicing groove, moisture in the gas moving from the second splicing groove 360 to the inside of the third splicing groove is absorbed for the second time through cotton wool in the third splicing groove, the gas dried by the third splicing groove enters the second splicing groove 360 in the second row, and then the counterweight block 390 in the second row of the second splicing groove 360 is driven, so that the gas is dried by the cotton wool in the fourth splicing groove and then enters the splicing assembly 400, the moisture carried by the gas entering the inside of the wood door is absorbed, and the operation of the subsequent steps is facilitated;

the assembling component 400 comprises a limiting plate 410 connected with one side of the inner wall of the edge sealing component 200, a limiting block 420 is fixed at the top end of the limiting plate 410, a connecting plate 430 is assembled at one side of the limiting plate 410 away from the edge sealing component 200, a plurality of groups of supporting plates 440 are connected at one side of the connecting plate 430 away from the limiting block 420, limiting rods 450 are assembled inside the supporting plates 440, and fifth splicing grooves 460 are formed between the contact positions of the two groups of supporting plates 440 and the limiting rods 450;

the number of the limiting plates 410 is two, first through holes which penetrate through two ends of the limiting plates 410 and are matched with the limiting rods 450 are uniformly formed in one group of the limiting plates 410, first limiting holes corresponding to the first through holes are uniformly formed in the other group of the limiting plates 410, and the first limiting holes do not penetrate through the limiting plates 410 where the first limiting holes are located;

the number of the connecting plates 430 is two, second through holes which penetrate through two ends of the two groups of connecting plates 430 and are matched with the limiting rods 450 are formed in the two groups of connecting plates 430, and the two groups of connecting plates 430 and the two groups of limiting plates 410 are connected with a sixth limiting strip through a sixth dovetail groove;

the number of the supporting plates 440 is three, and third through holes which penetrate through the two ends of the three groups of supporting plates 440 and are matched with the limiting rods 450 are formed in the three groups of supporting plates 440;

the wooden door main body is convenient for workers to assemble quickly and conveniently, and the concrete operation is as follows, the workers connect the limiting plates 410 with the connecting plates 430, then connect the limiting rods 450 with the limiting plates 410 after penetrating the connecting plates 430, sequentially string the three groups of supporting plates 440 on the limiting rods 450, connect the remaining group of connecting plates 430 with the remaining group of limiting plates 410 and then string on the limiting rods 450, at the moment, the end parts of the limiting rods 450 and the outer walls of the group of limiting plates 410 installed later are positioned on the same transverse plane, then insert the limiting blocks 420 at the top ends of the collecting assemblies 500, and finally assemble the anti-collision assemblies 300 at the top ends of the assembling assemblies 400;

the fifth splicing groove 460 formed in the assembled wooden door structure is similar to a Tesla valve structure in shape, so that moisture between gaps in the wooden door is exhausted by gas entering the wooden door from the outside through the top end of the wooden door, the lower half part of the wooden door is usually more affected with moisture than the upper half part of the wooden door, and the wooden door structure is rotted or mould is bred due to moisture;

after the air entering the assembly 400 from the fourth splicing groove passes through the fifth splicing groove 460, the air moves from top to bottom in the fifth splicing groove 460, and the moisture in the fifth splicing groove 460 is blown into the collection assembly 500.

Please refer to fig. 1-3, the panel assembly 100 includes a first panel 110, a dust-proof filter screen 120, and a second panel 130, wherein the dust-proof filter screen 120 penetrating to the outer wall of the first panel 110 and the dust-proof filter screen 120 is disposed inside the first panel 110 and the second panel 130, two sets of first position-limiting strips matched with the first dovetail groove on the outer wall of the first plastic plate 310 are disposed on the upper half portions of the inner walls of the first panel 110 and the second panel 130, and two sets of second position-limiting strips matched with the second dovetail groove on the outer wall of the second plastic plate 320 are disposed on the lower half portions of the inner walls of the first panel 110 and the second panel 130;

the panel of the quick convenient installation timber of staff of foretell structural design, and still can carry out quick convenient change to it when firm between panel after and the timber structure after just installing.

Please refer to fig. 1 and 4, the sealing edge assembly 200 includes a first sealing edge 210, a second sealing edge 220, a third sealing edge 230, and a fourth sealing edge 240, wherein a third limiting strip matched with the top end of a third dovetail groove of the first plastic plate 310 is disposed at the bottom end of the first sealing edge 210, the position where the first sealing edge 210 contacts the second sealing edge 220 is designed to be inclined at forty-five degrees, and the position where the first sealing edge 210 contacts the fourth sealing edge 240 is designed to be inclined at forty-five degrees;

the outer wall of the second sealing edge 220 and one end of the third sealing edge 230 are located in the same vertical plane, one end of the third sealing edge 230, which is far away from the second sealing edge 220, and the outer wall of the fourth sealing edge 240 are located in the same vertical plane, the inner walls of the second sealing edge 220 and the fourth sealing edge 240 are provided with fourth limiting strips matched with a fourth dovetail groove in the outer wall of the limiting plate 410, and the top end of the third sealing edge 230 is provided with a fifth limiting strip matched with a fifth dovetail groove in the bottom end of the collecting assembly 500;

the above-mentioned structural design is convenient for the staff to accomplish the sealed to the timber structure fast, and the staff assembles first banding 210 on the top of anticollision subassembly 300 earlier for the bottom of first banding 210 and the top of anticollision subassembly 300 are located same horizontal plane, then assembles second banding 220 and fourth banding 240 in the both sides of assembling subassembly 400 in proper order, assembles the third banding in the bottom of collecting assembly 500 at last.

Please refer to fig. 2, fig. 7 and fig. 8, the collecting assembly 500 includes a plastic box 510 connected to the top end of the third sealing edge 230, a limiting groove 520 matched with the limiting block 420 is formed at the top end of the plastic box 510, a first vent hole is formed at one side of the limiting groove 520 at the top end of the plastic box 510, a second cavity is formed inside the plastic box 510, a moving box 530 is assembled inside the second cavity, a moisture-proof box 540 is assembled inside the moving box 530, a second vent hole penetrating through the moisture-proof box 540 is formed at the top end of the moisture-proof box 540, and the first vent hole and the second vent hole are located in the same vertical plane;

the top end of the inner wall of the moisture-proof box 540 is provided with an anti-backflow frame 550, the outer wall of the anti-backflow frame 550 is provided with an exhaust filter screen 570 penetrating into the moisture-proof box 540, the interior of the moisture-proof box 540 is provided with a clamping groove matched with the anti-backflow frame 550, the top end of the inner wall of the clamping groove is connected with the top end of the anti-backflow frame 550 through an elastic pre-tightening piece 560, the interior of the moisture-proof box 540 is provided with an exhaust pipe extending to the outer wall of the moisture-proof box and penetrating through the fourth sealing edge 240, and one end of the exhaust pipe, far away from the moisture-proof box 540, and the outer wall of the fourth sealing edge 240 are located in the same vertical plane;

foretell structural design is convenient for collect the processing to the inside combustion gas of fifth splice groove 460, the concrete operation is as follows, the inside combustion gas of fifth splice groove 460 extrudes anti-return frame 550 after through first ventilation hole and second ventilation hole, anti-return frame 550 receives just can tensile elasticity pretension piece 560 after slightly extruding, thereby make the inside combustion gas of fifth splice groove 460 enter dampproofing incasement portion through the exhaust filter screen 570 of anti-return frame 550 outer wall, be convenient for collect the inside moisture of fifth splice groove 460 and mould.

Referring to fig. 2, 6, 9, 11 and 12 again, the fifth splicing groove 460 includes an air inlet 461, a main flow groove 462 is connected to the bottom end of the air inlet 461, a branch flow groove 463 is connected to the bottom end of the air inlet 461 on one side of the main flow groove 462, and an air outlet 464 is connected to the output end of the branch flow groove 463 and the main flow groove 462;

the air of the upper portion of the outer wall of the wooden door convenient to use in the structure can be accelerated to blow in the moisture and the mould in the flat splicing seam through the fifth splicing groove 460, the concrete operation is as follows, the air discharged from the fourth splicing groove firstly passes through the air inlet 461 and then sequentially passes through the accelerating backs of the multiple groups of main flow grooves 462 and the branch flow grooves 463, and is discharged from the air outlet 464, the structure similar to a Tesla valve is integrally formed, and the anti-backflow frame 550 is combined to effectively prevent the air entering the collecting assembly 500 from returning to the assembling assembly 400, so that the wooden door can be subjected to dehumidification and degerming treatment every time when the door is opened and closed.

Referring to fig. 10, the outer wall of the first plastic plate 310 is provided with a ventilation slot penetrating to the inner wall of the first cavity, the ventilation slot and the second filter screen on the outer wall of the second plastic plate 320 are located in the same horizontal plane, and the dustproof filter screen 120 and the second filter screen on the outer wall of the ventilation frame 330 are located in the same horizontal plane.

Please refer to fig. 2, fig. 6 and fig. 7, the top and bottom ends of the connecting plate 430 and the supporting plate 440 are fixed with a limiting block 420, the bottom end of the anti-collision component 300 and the top end of the collecting component 500 are both provided with a limiting groove 520 matched with the limiting block 420, and the limiting block 420 and the limiting groove 520 can realize mortise and tenon connection;

the structural design facilitates the worker to connect the bottom end of the anti-collision assembly 300 and the top end of the collecting assembly 500 through the plurality of groups of limiting blocks 420 and limiting grooves 520, so that the gap between the three groups of assemblies is smaller, and the connection is more tight.

Please refer to fig. 2, 4, 5, and 7, the first cavity penetrates through the inner wall of the first plastic plate 310 to the outer wall of the first plastic plate 310 to form a first sliding slot matching with the ventilation frame 330, the second cavity penetrates through the inner wall of the plastic box 510 to form a second sliding slot on the outer wall of the plastic box 510, the outer wall of the fourth sealing edge 240 is provided with two sealing plates penetrating through the inner wall, the outer walls of the sealing plates are provided with pull slots, the two sealing plates respectively correspond to the ventilation frame 330 and the movable box 530 in size, and the outer wall of the sealing plate corresponding to the movable box 530 is provided with an annular hole matching with the exhaust pipe penetrating through the inner wall;

the structural design facilitates the user to open the sealing plate through the pull groove, regularly replace the drying agent in the wooden door and treat the moisture-proof box 540.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The spliced type anticorrosion and antibacterial wooden door structure is characterized by comprising a panel assembly (100), wherein a sealing edge assembly (200) is assembled on the outer wall of the panel assembly (100), an anti-collision assembly (300) connected with the top end of the inner wall of the sealing edge assembly (200) is assembled inside the panel assembly (100), an assembling assembly (400) is assembled at the bottom end of the anti-collision assembly (300) positioned inside the panel assembly (100), and a collecting assembly (500) is assembled at the bottom end of the assembling assembly (400) positioned inside the panel assembly (100);

the anti-collision assembly (300) comprises a first plastic plate (310) connected with the top end of the inner wall of the edge sealing assembly (200), a second plastic plate (320) is installed on one side, away from the panel assembly (100), of the first plastic plate (310), a first cavity is formed between the second plastic plate (320) and the first plastic plate (310), a ventilation frame (330) is assembled inside the first cavity, a drying agent (340) is fixed to the bottom end of the inner wall of the ventilation frame (330), a first splicing groove (350) is formed in the inner wall of the second plastic plate (320) and the inner wall of the first plastic plate (310), a second splicing groove (360) is formed in the inner wall of the second plastic plate (320) and the inner wall of the first plastic plate (310) at the output end of the first splicing groove (350), arc-shaped limiting sliding grooves (370) are formed in two sides of the inner wall of the second splicing groove (360), and balls (380) are assembled inside the arc-shaped limiting sliding grooves (370), a counterweight block (390) is assembled on one side of the ball (380) far away from the arc-shaped limiting chute (370);

assemble subassembly (400) including limiting plate (410) continuous with banding subassembly (200) inner wall one side, the top of limiting plate (410) is fixed with stopper (420), one side that banding subassembly (200) was kept away from in limiting plate (410) is equipped with connecting plate (430), one side that stopper (420) was kept away from in connecting plate (430) is connected with multiunit backup pad (440), the inside assembly of backup pad (440) has gag lever post (450), and two sets of backup pads (440) contact position department and gag lever post (450) form fifth splice groove (460).

2. The assembled antiseptic and antibacterial wooden door structure of claim 1, characterized in that: the panel component (100) comprises a first panel (110), a dustproof filter screen (120) and a second panel (130), wherein the dustproof filter screen (120) penetrating to the outer wall of the first panel (110) and the dustproof filter screen (120) are arranged inside the first panel (110) and the dustproof filter screen (120).

3. The assembled antiseptic and antibacterial wooden door structure of claim 1, characterized in that: banding subassembly (200) is including first banding (210), second banding (220), third banding (230), fourth banding (240), first banding (210) contacts and is 45 contained angles with second banding (220), first banding (210) and fourth banding (240) position of contact department are the design of forty-five degrees of slope, the outer wall of second banding (220) and the one end of third banding (230) are located same vertical plane, the one end that second banding (220) were kept away from in third banding (230) is located same vertical plane with the outer wall of fourth banding (240).

4. The assembled antiseptic and antibacterial wooden door structure of claim 3, characterized in that: collect subassembly (500) including plastic box (510) that links to each other with third banding (230) top, plastic box (510) the top seted up with stopper (420) assorted spacing groove (520), the inside of plastic box (510) is provided with the second cavity, second cavity internal portion is equipped with removes box (530), the internal portion of removing box (530) is equipped with dampproofing case (540), the top of dampproofing case (540) is equipped with backflow frame (550), the outer wall of backflow frame (550) is seted up and is run through to its inside exhaust screen (570), the inside of dampproofing case (540) is provided with and backflow frame (550) assorted draw-in groove, the inner wall top of draw-in groove is connected with backflow frame (550) through elasticity pretension piece (560).

5. The assembled antiseptic and antibacterial wooden door structure of claim 1, characterized in that: the fifth splicing groove (460) comprises an air inlet (461), the bottom end of the air inlet (461) is connected with a main flow groove (462), the bottom end, located at the air inlet (461), of one side of the main flow groove (462) is connected with a branch flow groove (463), and the output ends of the branch flow groove (463) and the main flow groove (462) are connected with an air outlet (464).

6. The assembled antiseptic and antibacterial wooden door structure of claim 2, characterized in that: the outer wall of first plastic slab (310) is provided with the ventilation groove that runs through to first cavity inner wall, the ventilation groove is located same horizontal plane with the second filter screen of second plastic slab (320) outer wall, dustproof filter screen (120) are located same horizontal plane with ventilation frame (330) outer wall second filter screen.

7. The assembled antiseptic and antibacterial wooden door structure of claim 4, characterized in that: the top and the bottom of connecting plate (430) and backup pad (440) all are fixed with stopper (420), the bottom of anticollision subassembly (300) and the top of collecting subassembly (500) all seted up with stopper (420) assorted spacing groove (520).

8. The assembled antiseptic and antibacterial wooden door structure according to claim 4, characterized in that: the first cavity runs through the inner wall of the first plastic plate (310) to be provided with a first chute matched with the ventilation frame (330) to the outer wall of the first plastic plate (310), and the second cavity runs through the inner wall of the plastic box (510) to be provided with a second chute to the outer wall of the plastic box (510).

9. The assembled antiseptic and antibacterial wooden door structure of claim 1, characterized in that: the quantity of limiting plate (410) is two sets of, and is a set of the inside of limiting plate (410) is evenly seted up run through limiting plate (410) both ends with gag lever post (450) assorted first through-hole, another group the inside of limiting plate (410) is evenly seted up with the corresponding first spacing hole of first through-hole, the quantity of connecting plate (430) is two sets of, and is two sets of the inside of connecting plate (430) is all seted up run through its both ends with gag lever post (450) assorted second through-hole, the quantity of backup pad (440) is three groups, three groups the inside of backup pad (440) is seted up run through its both ends with gag lever post (450) assorted third through-hole.

Images