CN113153098A - Pet exempts from to handle door plant with lamella formula interlock banding structure - Google Patents

Abstract

The invention discloses a pet non-handle door plate with a petal type occlusion edge sealing structure, belonging to the field of pet non-handle door plates, the pet non-handle door plate with the petal type occlusion edge sealing structure comprises a door plate body, edge sealing anticorrosive layers are arranged at the upper end and the lower end of the door plate body, and a petal type occlusion compression-resistant component and a buffering self-repairing component are arranged in the edge sealing anticorrosive layers, so that when the door plate body is damaged by collision to the edge sealing anticorrosive layers, the petal type occlusion compression-resistant component in the edge sealing anticorrosive layers can effectively play a role of protection, the petal type occlusion compression-resistant component can effectively prevent the continuous damage of external force to edge sealing, effectively ensure the sealing degree of a cabinet and maintain the storage environment in the cabinet, prolong the service life of the cabinet body, and buffer the external force through the buffering self-repairing component, and reduce the deformation of the petal type occlusion compression-resistant component, effectively reduce the injury degree that external force caused the door plant body, improve the life of door plant body.

Description

Pet exempts from to handle door plant with lamella formula interlock banding structure

Technical Field

The invention relates to the field of pet non-pull-handle door plates, in particular to a pet non-pull-handle door plate with a petal type occlusion edge sealing structure.

Background

The PET sheet material is poly terephthalic acid plastic, which is called polyester sheet for short. The main components of the composition comprise polyethylene terephthalate PET and polybutylene terephthalate PBT. The polyethylene terephthalate is also commonly called polyester resin. It is a polycondensate of terephthalic acid and ethylene glycol, together with PBT, generally referred to as thermoplastic polyester, or saturated polyester. PET and PBT are used as thermoplastic polyester together and become one of five engineering plastics.

The PET board material is one of the most environment-friendly door board materials (except natural solid wood door boards) at present, and the application of the PET board material in the aspects of cabinet doors, wardrobe doors and the like is gradually increased. The environmental protection grade of the PET plate material reaches the food grade, and the current consumers pay more and more attention to the environmental protection factor, so the PET cabinet door is also accepted and loved by the consumers.

The pet handle-free door plate has the advantages of obvious fastness, no color change, pressure resistance, collision resistance, high temperature resistance, corrosion resistance, aging resistance, easy cleaning and the like, and is widely applied to manufacturing cabinet doors of cabinets. When the existing pet handle-free door plate is used as a cabinet door, the sealing edge of the door plate is easy to collide with articles such as kitchen ware in the using process, so that the sealing edge is damaged, the sealing degree of the cabinet is reduced, and the service life of the cabinet body and the storage environment in the cabinet are further influenced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a pet handle-free door plate with a flap type occlusion edge sealing structure, which can effectively play a role in protection by arranging a flap type occlusion compression-resistant component and a buffering and self-repairing component in an edge sealing anticorrosive layer, when a door plate body is damaged by collision on the edge sealing anticorrosive layer, the flap type occlusion compression-resistant component in the edge sealing anticorrosive layer can effectively prevent external force from continuously damaging an edge sealing, effectively ensure the sealing degree of a cabinet and maintain the storage environment in the cabinet, prolong the service life of the cabinet body, buffer the external force by the buffering and self-repairing component, reduce the deformation of the flap type occlusion compression-resistant component, effectively reduce the damage degree of the external force on the door plate body, and prolong the service life of the door plate body.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A pet handle-free door plate with a flap type occlusion edge sealing structure comprises a door plate body, wherein edge sealing anticorrosive layers are arranged at the upper end and the lower end of the door plate body, flap type occlusion compression-resistant assemblies are connected in the edge sealing anticorrosive layers, one ends, far away from the edge sealing anticorrosive layers, of the flap type occlusion compression-resistant assemblies are connected with buffering self-repairing assemblies, the buffering self-repairing assemblies are located on the inner sides of the edge sealing anticorrosive layers, and one ends, far away from the edge sealing anticorrosive layers, of the buffering self-repairing assemblies are connected with the door plate body;

the single-layer gap occlusion petal structure and the single-layer occlusion petal structure are fixedly connected with the edge sealing anticorrosive layer at the ends close to the edge sealing anticorrosive layer;

buffering selfreparing subassembly is including inserting the formula buffer layer, individual layer clearance interlock lamella structure is kept away from banding anticorrosive coating one end fixedly connected with a plurality of rather than assorted formula buffer layer of inserting, individual layer block interlock lamella structure is kept away from banding anticorrosive coating one end fixedly connected with a plurality of rather than assorted formula buffer layer of connecing. Through set up lamella formula interlock resistance to compression subassembly and buffering selfreparing subassembly in the banding anticorrosive coating, make the door plant body when receiving to collide with and cause the damage to the banding anticorrosive coating, the inside lamella formula interlock resistance to compression subassembly of banding anticorrosive coating can effectively play the guard action, lamella formula interlock resistance to compression subassembly can effectively obstruct external force and to the lasting damage of banding, effectively guarantee the sealed degree of cupboard and keep the storage environment in the cabinet, improve the life of the cabinet body, and cushion external force through buffering selfreparing subassembly, when reducing lamella formula interlock resistance to compression subassembly and produce deformation, effectively reduce the injury degree that external force caused the door plant body, improve the life of door plant body.

Further, individual layer clearance interlock lamella structure is still including a plurality of top layer interlock lamella, fixedly connected with top layer interlock lamella in the banding anticorrosive coating, the equal interlock of back end has rather than two layers of interlock lamella in the assorted before the top layer interlock lamella, and a plurality of top layer interlock lamella and two layers of interlock lamella in the middle of a plurality of top layers are end to end staggered connection. The top layer interlock lamella and middle and two layers of interlock lamella are end to end staggered connection, effectively guarantee the leakproofness that individual layer clearance interlock lamella structural connection, reduce outside environment entering banding inside after the banding anticorrosive coating is damaged, cause bigger damage to the banding.

Further, individual layer block interlock lamella structure is still including a plurality of one deck interlock lamella, one deck interlock lamella in the banding anticorrosive internal fixation connection, the equal interlock of one deck interlock lamella front and back end has rather than assorted bottom interlock lamella, and a plurality of one deck interlock lamella and bottom interlock lamella are end to end staggered connection. Well one deck interlock lamella and bottom interlock lamella are end to end staggered connection, effectively guarantee the leakproofness that individual layer clearance interlock lamella structural connection, reduce the inside that external environment got into the banding after the banding anticorrosive coating is damaged, cause bigger damage to the banding to through the exclusive action of individual layer clearance interlock lamella structure and individual layer block interlock lamella structure, effectively protect simultaneously the inside and outside use side of banding, improve the protection effect.

Further, the top layer interlock lamella is kept away from banding anticorrosive coating one end and well one deck interlock lamella block, well one deck interlock lamella is kept away from banding anticorrosive coating one end and well two layers of interlock lamella blocks, well two layers of interlock lamella are kept away from banding anticorrosive coating one end and bottom interlock lamella block, and are a plurality of top layer interlock lamella, well two layers of interlock lamella are the staggered form block with well one deck interlock lamella, bottom interlock lamella to form petal formula interlock structure in proper order. The single-layer gap occlusion flap structure is in clamping fit with the single-layer clamping occlusion flap structure, the manufacturing strength of the flap type occlusion compression-resistant assembly is effectively improved, and the top layer occlusion flap, the middle two layers of occlusion flaps, the middle layer occlusion flap and the bottom layer occlusion flap are in staggered clamping to form staggered sealing, so that the sealing performance is effectively improved, and the probability of external air damaging the inside is reduced.

Furthermore, repair holes are formed in the insertion type buffer layer and the connection type buffer layer, and a plurality of self-repair rubber vesicles are fixedly connected in the repair holes. Self-repairing rubber vesicle can carry out local protection to the banding anticorrosive coating, when the banding anticorrosive coating receives the tip formula to collide with, reduces the damaged area of banding anticorrosive coating and lamella formula interlock resistance to compression subassembly, improves the life of banding anticorrosive coating to can effectively reduce the joint damage that external force caused to the position near banding anticorrosive coating and lamella formula interlock resistance to compression subassembly.

Further, a plurality of deformation supporting rods are fixedly connected with one end of the self-repairing rubber vesicle far away from the edge sealing anticorrosive layer, one end of the deformation supporting rod far away from the edge sealing anticorrosive layer is fixedly connected with deformation buffering supporting feet, and one end of the deformation buffering supporting feet far away from the edge sealing anticorrosive layer is abutted to the door plate body. Self-repairing rubber vesicle carries out the separation to the external force of colliding with through deformation buffering stabilizer blade, makes the external force of colliding with as far as possible low with conduct to the door plant body on, reduce the damage that leads to the fact the door plant body, reduce the accumulative total of door plant body internal stress, reduce the probability that the door plant body produced deformation.

Further, the self-repairing rubber vesicle is filled with oxygen-absorbing curing rubber liquid in a saturated filling manner. Oxygen uptake solidification glue liquid can effectively spill over after self-repairing glue vesicle produces the damage, covers and bonds broken department, reduces the continuation corruption of the damaged department in later stage, restores the remedy to the damaged memorability that appears, improves the practicality of door plant body banding.

Furthermore, one end, close to the edge sealing anticorrosive layer, of the self-repairing rubber vesicle is fixedly connected with a plurality of brittle adsorption bubbles, and the brittle adsorption bubbles are fixedly connected with the petal-type occlusion compression-resistant assembly. The fragile adsorption bubble can actively break after bearing large external force impact, so that the self-repairing rubber bubble body breaks, the leakage is promoted, the damaged part is timely and effectively repaired, the repairing initiative of the buffering and self-repairing assembly is improved, and the continuous corrosion of the outside to the inside is reduced.

Furthermore, both ends are all fixedly connected with rather than the banding "omega" type piece of the same material about the door plant body, and a plurality of evenly distributed friction grooves are seted up to banding "omega" type piece upper end. The friction groove is convenient for buffer self-repairing assembly and petal interlock resistance to compression assembly's connection, increases its frictional resistance in order to increase buffer self-repairing assembly and petal interlock resistance to compression assembly's stability, is convenient for produce and process.

Furthermore, banding anticorrosive coating fixed connection is in banding "omega" type piece upper end to form sealed cavity with banding "omega" type piece, lamella formula interlock resistance to compression subassembly and buffering selfreparing subassembly all set up in sealed cavity.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is through setting up lamella formula interlock resistance to compression subassembly and buffering selfreparing subassembly in the banding anticorrosive coating, make the door plant body when receiving to collide with and cause the damage to the banding anticorrosive coating, the inside lamella formula interlock resistance to compression subassembly of banding anticorrosive coating can effectively play the guard action, lamella formula interlock resistance to compression subassembly can effectively obstruct external force and to the lasting damage of banding, effectively guarantee the sealed degree of cupboard and the storage environment who keeps in the cabinet, improve the life of the cabinet body, and cushion external force through buffering selfreparing subassembly, when reducing lamella formula interlock resistance to compression subassembly and produce deformation, effectively reduce the injury degree that external force caused the door plant body, improve the life of door plant body.

(2) The top layer interlock lamella and middle and two layers of interlock lamella are end to end staggered connection, effectively guarantee the leakproofness that individual layer clearance interlock lamella structural connection, reduce outside environment entering banding inside after the banding anticorrosive coating is damaged, cause bigger damage to the banding.

(3) Well one deck interlock lamella and bottom interlock lamella are end to end staggered connection, effectively guarantee the leakproofness that individual layer clearance interlock lamella structural connection, reduce the inside that external environment got into the banding after the banding anticorrosive coating is damaged, cause bigger damage to the banding to through the exclusive action of individual layer clearance interlock lamella structure and individual layer block interlock lamella structure, effectively protect simultaneously the inside and outside use side of banding, improve the protection effect.

(4) The single-layer gap occlusion flap structure is in clamping fit with the single-layer clamping occlusion flap structure, the manufacturing strength of the flap type occlusion compression-resistant assembly is effectively improved, and the top layer occlusion flap, the middle two layers of occlusion flaps, the middle layer occlusion flap and the bottom layer occlusion flap are in staggered clamping to form staggered sealing, so that the sealing performance is effectively improved, and the probability of external air damaging the inside is reduced.

(5) Self-repairing rubber vesicle can carry out local protection to the banding anticorrosive coating, when the banding anticorrosive coating receives the tip formula to collide with, reduces the damaged area of banding anticorrosive coating and lamella formula interlock resistance to compression subassembly, improves the life of banding anticorrosive coating to can effectively reduce the joint damage that external force caused to the position near banding anticorrosive coating and lamella formula interlock resistance to compression subassembly.

(6) Self-repairing rubber vesicle carries out the separation to the external force of colliding with through deformation buffering stabilizer blade, makes the external force of colliding with as far as possible low with conduct to the door plant body on, reduce the damage that leads to the fact the door plant body, reduce the accumulative total of door plant body internal stress, reduce the probability that the door plant body produced deformation.

(7) Oxygen uptake solidification glue liquid can effectively spill over after self-repairing glue vesicle produces the damage, covers and bonds broken department, reduces the continuation corruption of the damaged department in later stage, restores the remedy to the damaged memorability that appears, improves the practicality of door plant body banding.

(8) The fragile adsorption bubble can actively break after bearing large external force impact, so that the self-repairing rubber bubble body breaks, the leakage is promoted, the damaged part is timely and effectively repaired, the repairing initiative of the buffering and self-repairing assembly is improved, and the continuous corrosion of the outside to the inside is reduced.

(9) The friction groove is convenient for buffer self-repairing assembly and petal interlock resistance to compression assembly's connection, increases its frictional resistance in order to increase buffer self-repairing assembly and petal interlock resistance to compression assembly's stability, is convenient for produce and process.

Drawings

FIG. 1 is a schematic view of an axial structure of the present invention;

FIG. 2 is a partial cross-sectional structural view of the door panel body according to the present invention;

FIG. 3 is an axial view of the petal-shaped occlusion compression-resistant assembly and the buffer self-repairing assembly of the present invention;

FIG. 4 is a schematic axial view of the buffer self-repairing assembly of the present invention;

FIG. 5 is a schematic view of an occluding type explosive structure of the petal-shaped occluding compression-resistant assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of the self-repairing vesicle of the present invention;

FIG. 7 is a schematic axial view of a single-layer gap snap-fit flap structure according to the present invention;

FIG. 8 is a schematic axial view of a single-layer snap-fit engaging flap structure according to the present invention;

FIG. 9 is a schematic view of the interior of the edge banding corrosion protection layer of the present invention without damage;

FIG. 10 is a schematic view of the damaged inner structure of the edge banding anticorrosive layer of the present invention.

The reference numbers in the figures illustrate:

the self-repairing type door panel comprises a door panel body 1, an edge sealing omega-shaped block 101, an edge sealing anticorrosive layer 2, a petal type occlusion compression-resistant assembly 3, a single-layer gap occlusion petal structure 301, a top-layer occlusion petal 3011, two layers of occlusion petals 3012, a single-layer occlusion petal structure 302, one layer of occlusion petal 3021, a bottom-layer occlusion petal 3022, a buffer self-repairing assembly 4, an insertion buffer layer 401, a connection buffer layer 402, a self-repairing rubber vesicle 403, a solidified colloid liquid 4031 through oxygen absorption, a fragile adsorption bubble 404, a deformation buffer supporting foot 405 and a deformation supporting rod 4051.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-10, a pet non-handle door panel with a petal type occlusion edge sealing structure comprises a door panel body 1, edge sealing anticorrosive layers 2 are arranged at the upper end and the lower end of the door panel body 1, petal type occlusion compression-resistant assemblies 3 are connected in the edge sealing anticorrosive layers 2, one ends, far away from the edge sealing anticorrosive layers 2, of the petal type occlusion compression-resistant assemblies 3 are connected with buffer self-repairing assemblies 4, the buffer self-repairing assemblies 4 are located on the inner sides of the edge sealing anticorrosive layers 2, and one ends, far away from the edge sealing anticorrosive layers 2, of the buffer self-repairing assemblies 4 are connected with the door panel body 1; referring to fig. 2 and 3, the petal-type occlusion compression-resistant assembly 3 includes a single-layer gap occlusion petal structure 301 and a single-layer engagement occlusion petal structure 302 connected to the single-layer gap occlusion petal structure 301, and both ends of the single-layer gap occlusion petal structure 301 and the single-layer engagement occlusion petal structure 302 close to the edge sealing anticorrosive layer 2 are fixedly connected to the edge sealing anticorrosive layer 2; referring to fig. 2, the buffer self-repairing assembly 4 includes an insertion type buffer layer 401, a plurality of insertion type buffer layers 401 matching with the single-layer gap engaging flap structure 301 are fixedly connected to one end of the single-layer gap engaging flap structure 301 away from the edge sealing anticorrosive layer 2, and a plurality of connection type buffer layers 402 matching with the single-layer engaging flap structure 302 are fixedly connected to one end of the single-layer gap engaging flap structure 302 away from the edge sealing anticorrosive layer 2. Through set up lamella formula interlock resistance to compression subassembly 3 and buffering selfreparing subassembly 4 in banding anticorrosive coating 2, make door plant body 1 when receiving to collide with and cause the damage to banding anticorrosive coating 2, the inside lamella formula interlock resistance to compression subassembly 3 of banding anticorrosive coating 2 can effectively play the guard action, lamella formula interlock resistance to compression subassembly 3 can effectively obstruct the persistence damage of external force to the banding, effectively guarantee the sealed degree of cupboard and keep the storage environment in the cabinet, improve the life of the cabinet body, and cushion the external force through buffering selfreparing subassembly 4, when reducing lamella formula interlock resistance to compression subassembly 3 and produce deformation, effectively reduce the injury degree that external force caused to door plant body 1, improve door plant body 1's life.

Referring to fig. 7, the single-layer gap occluding flap structure 301 further includes a plurality of top-layer occluding flaps 3011, the inside of the edge sealing anticorrosive layer 2 is fixedly connected with the top-layer occluding flaps 3011, the front and rear ends of the top-layer occluding flaps 3011 are occluded with two matched layers of middle occluding flaps 3012, and the plurality of top-layer occluding flaps 3011 and the two matched layers of middle occluding flaps 3012 are connected in an end-to-end staggered manner. Top layer interlock lamella 3011 and middle and second layer interlock lamella 3012 are end to end staggered connection, effectively guarantee the leakproofness that individual layer clearance interlock lamella structure 301 connects, reduce outside environment entering banding inside after banding anticorrosive coating 2 is damaged, cause bigger damage to the banding.

Referring to fig. 8, the single-layer engaging occluding flap structure 302 further includes a plurality of middle occluding flaps 3021, the edge sealing anticorrosive layer 2 is internally and fixedly connected with the middle occluding flaps 3021, the front and rear ends of the middle occluding flaps 3021 are engaged with the bottom occluding flaps 3022 matched with the middle occluding flaps, and the middle occluding flaps 3021 and the bottom occluding flaps 3022 are connected in an end-to-end staggered manner. Well one deck interlock lamella 3021 and bottom interlock lamella 3022 are end to end staggered connection, effectively guarantee the leakproofness that individual layer clearance interlock lamella structure 301 connects, reduce the inside that external environment got into the banding after the banding anticorrosive coating 2 is damaged, cause bigger damage to the banding, and through individual layer clearance interlock lamella structure 301 and individual layer block interlock lamella structure 302's exclusive action, effectively protect the inside and outside use side of banding simultaneously, improve the protection effect.

Referring to fig. 5, one end of the top-layer occluding flap 3011, which is far from the edge sealing anticorrosive layer 2, is engaged with the middle-layer occluding flap 3021, one end of the middle-layer occluding flap 3021, which is far from the edge sealing anticorrosive layer 2, is engaged with the middle-layer occluding flap 3012, one end of the middle-layer occluding flap 3012, which is far from the edge sealing anticorrosive layer 2, is engaged with the bottom-layer occluding flap 3022, and the plurality of top-layer occluding flaps 3011, the middle-layer occluding flaps 3012 are engaged with the middle-layer occluding flap 3021 and the bottom-layer occluding flap 3022 in a staggered manner, thereby sequentially forming a petal-type occluding structure. The single-layer gap occluding petal structure 301 and the single-layer clamping occluding petal structure 302 are in clamping fit, the manufacturing strength of the petal type occluding compression-resisting assembly 3 is effectively improved, and the petal type occluding structure is formed by the top layer occluding petals 3011, the middle two layers of occluding petals 3012, the middle one layer occluding petals 3021 and the bottom layer occluding petals 3022 in a staggered clamping manner, so that the sealing performance is effectively improved, and the probability that outside air damages the inside is reduced.

Referring to fig. 5, the plug buffer layer 401 and the plug buffer layer 402 are both formed with repair holes, and a plurality of self-repairing capsules 403 are fixedly connected in the repair holes. Self-repairing glue vesicle 403 can carry out local protection to banding anticorrosive coating 2, receives the tip formula when colliding with at banding anticorrosive coating 2, reduces banding anticorrosive coating 2 and the impaired area of lamella formula interlock resistance to compression subassembly 3, improves banding anticorrosive coating 2's life to can effectively reduce the joint damage that external force caused to banding anticorrosive coating 2 and the near position of lamella formula interlock resistance to compression subassembly 3.

Referring to fig. 6, the end of the self-repairing rubber vesicle 403 away from the edge-sealing anticorrosive layer 2 is fixedly connected with a plurality of deformation supporting rods 4051, the end of the deformation supporting rod 4051 away from the edge-sealing anticorrosive layer 2 is fixedly connected with a deformation buffering supporting foot 405, and the end of the deformation buffering supporting foot 405 away from the edge-sealing anticorrosive layer 2 is abutted to the door panel body 1. Self-repairing rubber vesicle 403 separates the colliding external force through deformation buffer support legs 405, so that the colliding external force is as low as possible and is conducted to door panel body 1, the damage to door panel body 1 is reduced, the accumulation of internal stress of door panel body 1 is reduced, and the probability of deformation of door panel body 1 is reduced.

Referring to fig. 6, the self-repairing latex vesicle 403 is filled with oxygen-absorbing cured colloidal liquid 4031, and the oxygen-absorbing cured colloidal liquid 4031 is filled in a saturated manner. Oxygen uptake solidification colloidal liquid 4031 can effectively overflow after self-repairing colloidal vesicle 403 produces the damage, covers and bonds broken department, reduces the lasting corruption of damaged department in later stage, restores the remedy to the damaged memorability that appears, improves the practicality of door plant body 1 banding.

Referring to fig. 2, 9 and 10, a plurality of brittle adsorption bubbles 404 are fixedly connected to one end of the self-repairing rubber vesicle 403 close to the edge sealing anticorrosive layer 2, and the brittle adsorption bubbles 404 are fixedly connected to the flap-type occlusion pressure-resisting component 3. The brittle adsorption bubble 404 can actively break after bearing large external force impact, so that the self-repairing rubber bubble 403 is broken, the leakage of 4041 is promoted, 4041 can timely and effectively repair the damaged part, the repair initiative of the buffer self-repairing assembly 4 is improved, and the continuous corrosion of the outside to the inside is reduced.

Referring to fig. 2, the upper and lower ends of the door panel body 1 are fixedly connected to edge sealing omega-shaped blocks 101 made of the same material as the door panel body, and the upper end of the edge sealing omega-shaped blocks 101 is provided with a plurality of friction grooves which are uniformly distributed. The friction groove is convenient for buffer self-repairing assembly 4 and petal interlock resistance to compression subassembly 3's connection, increases its frictional resistance in order to increase buffer self-repairing assembly 4 and petal interlock resistance to compression subassembly 3's stability, the production and processing of being convenient for.

Referring to fig. 2, the edge sealing anticorrosive layer 2 is fixedly connected to the upper end of the edge sealing omega-shaped block 101, and forms a sealed cavity with the edge sealing omega-shaped block 101, and the petal-shaped occlusion compression-resistant component 3 and the buffer self-repairing component 4 are both arranged in the sealed cavity.

Referring to fig. 1-10, the protection method: when the upper end or the lower end of the door panel body 1 is collided, an external force generated by collision damages the edge sealing anticorrosive layer 2 in advance, if the impact strength is low, the edge sealing anticorrosive layer 2 exposes the petal-shaped occlusion compression-resistant assembly 3 after being damaged, and the petal-shaped occlusion structure formed by the staggered type sealing is formed by the staggered type clamping of the top layer occlusion petal 3011, the middle two layers occlusion petal 3012, the middle layer occlusion petal 3021 and the bottom layer occlusion petal 3022, so that the interior of the petal-shaped occlusion compression-resistant assembly 3 is effectively protected, and the continuity of damage is avoided; if the impact strength is large, so that damage is caused to the edge sealing anticorrosive layer 2 and the petal-shaped occlusion compressive component 3 at the same time, the buffer self-repairing component 4 can effectively play a role of buffering through the cooperation of the insertion buffer layer 401, the connection buffer layer 402, the self-repairing rubber vesicle 403, the deformation buffer legs 405 and the deformation support bars 4051, so as to reduce the persistence of impact force, reduce the damage to the edge sealing omega-shaped block 101, reduce the accumulation of internal stress of the door panel body 1, effectively avoid the deformation of the door panel body 1, and the impact of external force causes the insertion buffer layer 401 and the connection buffer layer 402 to deform, so as to cause pressure to the brittle adsorption bubble 404, the brittle adsorption bubble 404 is automatically broken due to stress, and drives the self-repairing rubber vesicle 403 to be broken close to one end face of the edge sealing anticorrosive layer 2, so that the oxygen-absorbing cured colloid liquid 4031 in the self-repairing rubber vesicle 403 overflows during extrusion (see fig. 10), gluing the damaged part, blocking the continuous entering of outside air, reducing the probability that the damaged part is continuously corroded, and reducing the probability that the inside is corroded and damaged after the edge sealing is damaged.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a pet exempts from to handle door plant with lamella formula interlock banding structure, includes door plant body (1), its characterized in that: the upper end and the lower end of the door panel body (1) are respectively provided with a sealing edge anticorrosive layer (2), a petal-shaped occlusion compression-resistant assembly (3) is connected in the sealing edge anticorrosive layer (2), one end, away from the sealing edge anticorrosive layer (2), of the petal-shaped occlusion compression-resistant assembly (3) is connected with a buffering self-repairing assembly (4), the buffering self-repairing assembly (4) is located on the inner side of the sealing edge anticorrosive layer (2), and one end, away from the sealing edge anticorrosive layer (2), of the buffering self-repairing assembly (4) is connected with the door panel body (1);

the petal type occlusion compression-resistant assembly (3) comprises a single-layer gap occlusion petal structure (301) and a single-layer clamping occlusion petal structure (302) connected with the single-layer gap occlusion petal structure (301), and one ends, close to the edge sealing anticorrosive layer (2), of the single-layer gap occlusion petal structure (301) and the single-layer clamping occlusion petal structure (302) are fixedly connected with the edge sealing anticorrosive layer (2);

buffering selfreparing subassembly (4) is including inserting formula buffer layer (401), single-deck clearance interlock lamella structure (301) is kept away from banding anticorrosive coating (2) one end fixedly connected with a plurality ofly rather than assorted formula buffer layer (401) of inserting, single-deck block interlock lamella structure (302) is kept away from banding anticorrosive coating (2) one end fixedly connected with a plurality ofly rather than assorted formula buffer layer (402) of connecing.

2. The pet hands-free door panel with a flapper bite seal configuration of claim 1, wherein: monolayer clearance interlock lamella structure (301) is still including a plurality of top layer interlock lamella (3011), fixedly connected with top layer interlock lamella (3011) in banding anticorrosive coating (2), top layer interlock lamella (3011) front and back end all interlock have rather than two layers of interlock lamella (3012) in the assorted, and a plurality of top layer interlock lamella (3011) and two layers of interlock lamella (3012) in the middle of are head and the tail staggered connection.

3. The pet hands-free door panel with a flapper bite seal configuration of claim 2, wherein: monolayer block interlock lamella structure (302) is still including a plurality of one deck interlock lamella (3021), one deck interlock lamella (3021) in fixed connection in banding anticorrosive coating (2), all the interlocks of one deck interlock lamella (3021) front and back end have rather than assorted bottom interlock lamella (3022), and a plurality of one deck interlock lamella (3021) and bottom interlock lamella (3022) are end to end staggered connection.

4. The pet hands-free door panel with a flapper bite seal configuration of claim 3, wherein: top layer interlock lamella (3011) are kept away from banding anticorrosive coating (2) one end and well one deck interlock lamella (3021) block, well one deck interlock lamella (3021) are kept away from banding anticorrosive coating (2) one end and well two layers interlock lamella (3012) block, well two layers interlock lamella (3012) are kept away from banding anticorrosive coating (2) one end and bottom interlock lamella (3022) block, and are a plurality of top layer interlock lamella (3011), well two layers interlock lamella (3012) are interlock lamella (3021) with well one deck interlock lamella (3021), bottom interlock lamella (3022) and are the alternating expression block to form petal formula interlock structure in proper order.

5. The pet hands-free door panel with a flapper bite seal configuration of claim 1, wherein: repair holes are formed in the insertion buffer layer (401) and the connection buffer layer (402), and a plurality of self-repair rubber vesicles (403) are fixedly connected in the repair holes.

6. The pet hands-free door panel with a flapper bite seal configuration of claim 5, wherein: keep away from a plurality of deformation branch (4051) of banding anticorrosive coating (2) one end fixedly connected with from repairing rubber vesicle (403), banding anticorrosive coating (2) one end fixedly connected with deformation buffering stabilizer blade (405) is kept away from in deformation branch (4051), and deformation buffering stabilizer blade (405) keep away from banding anticorrosive coating (2) one end and door plant body (1) looks butt.

7. The pet hands-free door panel with a flapper bite seal configuration of claim 5, wherein: the self-repairing colloidal vesicle (403) is filled with oxygen-absorbing cured colloidal liquid (4031), and the oxygen-absorbing cured colloidal liquid (4031) is filled in a saturated manner.

8. The pet hands-free door panel with a flapper bite seal configuration of claim 7, wherein: one end, close to the edge sealing anticorrosive layer (2), of the self-repairing rubber vesicle (403) is fixedly connected with a plurality of brittle adsorption bubbles (404), and the brittle adsorption bubbles (404) are fixedly connected with the petal type occlusion compression-resistant component (3).

9. The pet hands-free door panel with a flapper bite seal configuration of claim 1, wherein: the door plate is characterized in that the upper end and the lower end of the door plate body (1) are fixedly connected with edge sealing omega-shaped blocks (101) made of the same material as the door plate body, and a plurality of friction grooves which are uniformly distributed are formed in the upper ends of the edge sealing omega-shaped blocks (101).

10. The pet hands-free door panel with a flapper bite seal configuration of claim 9, wherein: banding anticorrosive coating (2) fixed connection is in banding "omega" type piece (101) upper end to form sealed cavity with banding "omega" type piece (101), lamella formula interlock resistance to compression subassembly (3) and buffering selfreparing subassembly (4) all set up in sealed cavity.

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