CN210140970U - Dry method fast-assembling ceramic tile mould and system - Google Patents

Abstract

The embodiment of the utility model discloses dry process fast-assembling ceramic tile mould and system, tray upper end are formed with the portion of shelving that is used for placing the ceramic tile main part, and the tray lower extreme is formed with the rib, and the edge of tray is formed with concave tongue-and-groove and convex rabbet, and the corner of tray is equipped with the excess portion, and concave tongue-and-groove and the mutual lock of convex rabbet on two adjacent trays make the ceramic tile main part of arranging in on two adjacent trays amalgamate mutually. The structural adhesive can be coated on the back of the floor tile main body, the polyurethane material is foamed and injected into the floor tile mould by adopting a foaming injection molding machine, the floor tile main body and the polyurethane foaming material are compounded through heating and shaping to enable the edge of the floor tile main body to form a concave tongue-and-groove and a convex rabbet, the floor tile mould and the floor tile main body are separated after cooling, the floor tile main body attached with the polyurethane foaming material is trimmed, and the floor tile main body with the concave tongue-and-groove and the convex rabbet is formed. The traditional wet process adopting water, cement and gravel is avoided, the dry-method rapid floor tile laying is realized, and the construction period is short.

Description

Dry method fast-assembling ceramic tile mould and system

Technical Field

The embodiment of the utility model provides a relate to fitment technical field, concretely relates to dry process fast-assembling ceramic tile mould and system.

Background

The floor tile is a kind of ground decoration material, also called floor tile, and is made up by firing clay, and features various specifications, firm quality, pressure-resisting and wear-resisting property, and damp-proofing property. The floor tile is used as a ground material for large-area paving, and the room environment with different styles is created by utilizing the color and the texture of the floor tile. The glazed tile with vivid color is used in modern household, and the glazed tile may be set in Chinese and European style room to complement each other.

The existing floor tile laying process has high requirements on the technical level of operators, a large amount of water, cement and gravel are needed in the whole laying process, the whole operation flow is usually wet operation, and the proportion of materials needs to be strictly mastered and controlled. The floor tiles need to be tried before being paved, the floor tiles are directly placed on the bonding layer according to the paving requirement, the rubber hammer is used for compacting, the floor tiles are guaranteed to be flat, gaps are smooth and straight, the bonding layer is pressed, if mortar is not needed to be supplemented, and excessive mortar is shoveled. In the process of paving, a rubber hammer is used for compacting, the force is applied uniformly to prevent the floor tiles from being damaged, the flatness is checked by using a horizontal ruler, and the smoothness of the brick joints is checked, so that the requirements of smooth surface, consistent color, smoothness of the brick joints and the cross joints are met, the heights of the joints are consistent and smooth, and the joints are tightly, firmly and smoothly bonded without hollowing. After the paving is finished on the same day, the finished surface is required to be cleaned, sundries in brick joints are cleaned, after 48 hours, the brick joints are sprayed with water and maintained for more than 24 hours (the spraying frequency is not less than 2 times), after the maintenance is finished, the brick joints are required to be treated, and special treatment is required when special parts such as expansion joints, settlement joints and the like exist. The traditional wet-process floor tile laying scheme needs a large amount of water, cement and gravels, needs strict proportioning, has high requirement on the technical level of workers, has long whole laying period and can not be used quickly after laying. A new technical scheme for paving floor tiles is needed.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a dry process fast-assembling ceramic tile mould and system avoids traditional wet process that adopts water, cement and grit, realizes that the quick ceramic tile of dry process is laid, and the time limit for a project is short.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: a dry-method fast-assembly floor tile mold is characterized by comprising trays, wherein a placing part for placing floor tile main bodies is formed at the upper ends of the trays, a reinforcing part is formed at the lower ends of the trays, concave tongue-and-groove openings and convex tongue-and-groove openings are formed at the edges of the trays, transition parts are arranged at corners of the trays, and the concave tongue-and-groove openings and the convex tongue-and-groove openings on two adjacent trays are mutually buckled to enable the floor tile main bodies on the two adjacent trays to be mutually spliced.

As a preferred scheme of the dry method fast-assembling floor tile mould, the tray is square, the number of the concave tongue-and-groove and the number of the convex rabbet are respectively two, and the concave tongue-and-groove and the convex rabbet on one tray are adjacent to each other.

As a preferred scheme of the dry method fast-assembly floor tile mold, the tray is square, the number of the concave tongue-and-groove and the number of the convex rabbet are respectively two, and the concave tongue-and-groove and the convex rabbet on one tray are opposite at intervals.

As a preferable scheme of the dry fast-assembly floor tile mold, the reinforcing part is provided with a reinforcing center, a reinforcing outer rib, a reinforcing inner rib and a reinforcing radiating rib, the reinforcing radiating rib is connected with the reinforcing center, the reinforcing radiating rib is arranged around the reinforcing center in a divergent manner, the reinforcing outer rib is connected with the tail end of the reinforcing radiating rib, the reinforcing inner rib is located between the reinforcing center and the reinforcing outer rib, and the reinforcing inner rib is connected with the reinforcing radiating rib.

As a preferable scheme of the dry method fast-assembly floor tile mould, foaming jet gaps are formed among the reinforcing center, the reinforcing outer ribs, the reinforcing inner ribs and the reinforcing radiating ribs.

The embodiment of the utility model provides a dry process fast-assembling ceramic tile system is still provided, including ceramic tile mould and ceramic tile main part, the ceramic tile mould includes the tray, the tray upper end is formed with and is used for placing the portion of shelving of ceramic tile main part, the tray lower extreme is formed with the rib, and the edge of tray is formed with concave tongue-and-groove and convex rabbet, and the corner of tray is equipped with the excess portion, and concave tongue-and-groove and the mutual lock of convex rabbet on two adjacent trays make the ceramic tile main part of arranging in on two adjacent trays amalgamate mutually.

As a preferred scheme of the dry method fast-assembly floor tile system, the tray is square, the number of the concave tongue-and-groove and the number of the convex tongue-and-groove are respectively two, and the concave tongue-and-groove and the convex tongue-and-groove on one tray are adjacent or opposite at intervals.

As a preferable scheme of the dry-method fast-assembly floor tile system, the reinforcing part is provided with a reinforcing center, a reinforcing outer rib, a reinforcing inner rib and a reinforcing radiating rib, the reinforcing radiating rib is connected with the reinforcing center, the reinforcing radiating rib is arranged around the reinforcing center in a divergent manner, the reinforcing outer rib is connected with the tail end of the reinforcing radiating rib, the reinforcing inner rib is positioned between the reinforcing center and the reinforcing outer rib, and the reinforcing inner rib is connected with the reinforcing radiating rib; and foaming jet gaps are formed among the reinforcing center, the reinforcing outer ribs, the reinforcing inner ribs and the reinforcing radiating ribs.

The embodiment of the utility model also provides a dry process fast-assembling ceramic tile technology, adopts the ceramic tile mould, and the ceramic tile mould includes the tray, the tray upper end is formed with the shelving portion that is used for placing the ceramic tile main part, and the tray lower extreme is formed with the rib, the rib is equipped with enhancement center, enhancement outer muscle, enhancement inner muscle and enhancement radiation muscle, form the foaming jet gap between enhancement center, enhancement outer muscle, enhancement inner muscle and the enhancement radiation muscle, the edge of tray is formed with concave tongue-and-groove and protruding rabbet, and the corner of tray is equipped with the excess portion, and concave tongue-and-groove and protruding rabbet on two adjacent trays lock each other and make the ceramic tile main part of placing on two adjacent trays amalgamate each other; the floor tile process comprises the following steps:

uniformly coating the structural adhesive on the back surface of the main body of the floor tile, enabling the back surface of the main body of the floor tile to face upwards, and placing the main body of the floor tile in a placing part of a floor tile mould; foaming polyurethane material by a foaming injection molding machine, injecting the polyurethane material into a floor tile mold, compounding a floor tile main body and the polyurethane foaming material by heating and shaping to form a concave tongue-and-groove and a convex rabbet on the edge of the floor tile main body, cooling, separating the floor tile mold from the floor tile main body, and trimming the floor tile main body attached with the polyurethane foaming material to form the floor tile main body with the concave tongue-and-groove and the convex rabbet.

As a preferable scheme of the dry method fast-assembly floor tile process, the reinforced radiating ribs are connected with the reinforced center, the reinforced radiating ribs are arranged around the reinforced center in a divergent mode, the reinforced outer ribs are connected with the tail ends of the reinforced radiating ribs, the reinforced inner ribs are located between the reinforced center and the reinforced outer ribs, and the reinforced inner ribs are connected with the reinforced radiating ribs.

The embodiment of the utility model provides a have following advantage: the upper end of the tray is provided with a placing part for placing the main bodies of the floor tiles, the lower end of the tray is provided with a reinforcing part, the edge of the tray is provided with a concave rabbet and a convex rabbet, the corners of the trays are provided with transition parts, and the concave rabbet and the convex rabbet on two adjacent trays are mutually buckled to enable the main bodies of the floor tiles placed on the two adjacent trays to be mutually spliced. The structural adhesive can be coated on the back of the floor tile main body, the polyurethane material is foamed and injected into the floor tile mould by adopting a foaming injection molding machine, the floor tile main body and the polyurethane foaming material are compounded through heating and shaping to enable the edge of the floor tile main body to form a concave tongue-and-groove and a convex rabbet, the floor tile mould and the floor tile main body are separated after cooling, the floor tile main body attached with the polyurethane foaming material is trimmed, and the floor tile main body with the concave tongue-and-groove and the convex rabbet is formed. The utility model discloses technical scheme avoids traditional wet process technology who adopts water, cement and grit, realizes that the quick ceramic tile of dry process is laid, and the time limit for a project is short, and it is low to operating personnel's technical merit requirement, the use that can be quick after laying.

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.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic structural view of a dry method quick-assembling floor tile mold according to an embodiment of the present invention;

fig. 2 is a schematic side view of a dry method quick-assembling floor tile mold according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a dry method quick-assembling floor tile mold according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a dry quick-mounting floor tile system according to an embodiment of the present invention;

fig. 5 is a schematic side view of a dry quick-mounting floor tile system according to an embodiment of the present invention;

fig. 6 is a schematic view of laying a dry fast-assembling floor tile system according to an embodiment of the present invention.

In the figure: 1. a tray; 2. a floor tile body; 3. a placing part; 4. a reinforcing portion; 5. a concave tongue-and-groove; 6. a convex tongue-and-groove; 7. a transition part; 8. a reinforced center; 9. reinforcing the outer ribs; 10. reinforcing the inner ribs; 11. reinforcing the radial ribs; 12. a foaming jet gap.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, 2 and 3, a dry method fast-assembling floor tile mold is provided, which comprises trays 1, wherein a placing part 3 for placing floor tile main bodies 2 is formed at the upper end of each tray 1, a reinforcing part 4 is formed at the lower end of each tray 1, concave rabbets 5 and convex rabbets 6 are formed at the edges of the trays 1, a transition part 7 is arranged at the corners of the trays 1, and the concave rabbets 5 and the convex rabbets 6 on two adjacent trays 1 are mutually buckled to enable the floor tile main bodies 2 on the two adjacent trays 1 to be mutually spliced. The reinforcing part 4 is provided with a reinforcing center 8, a reinforcing outer rib 9, a reinforcing inner rib 10 and a reinforcing radial rib 11, the reinforcing radial rib 11 is connected with the reinforcing center 8, the reinforcing radial ribs 11 are arranged around the reinforcing center 8 in a divergent manner, the reinforcing outer rib 9 is connected with the tail end of the reinforcing radial rib 11, the reinforcing inner rib 10 is positioned between the reinforcing center 8 and the reinforcing outer rib 9, and the reinforcing inner rib 10 is connected with the reinforcing radial rib 11. The reinforcing part 4 can increase the weighing capacity of the tray 1 when the tile mold and the tile main body 2 are laid together.

In one embodiment of the dry method fast-assembling floor tile mold, a foaming jet gap 12 is formed among the reinforcing center 8, the reinforcing outer ribs 9, the reinforcing inner ribs 10 and the reinforcing radiating ribs 11. The floor tile mold itself may not be laid along with the floor tile main body 2, and the key point is to form the concave rabbet 5 and the convex rabbet 6 on the edge of the floor tile main body 2 (as long as the fitting between the floor tiles can be realized, the specific shape is not limited). Specifically, the structural adhesive can be uniformly coated on the back surface of the main body 2 of the floor tile, and the back surface of the main body 2 of the floor tile is upward and placed in the placing part 3 of the floor tile mould; foaming polyurethane material by a foaming injection molding machine is injected into a floor tile mold through a foaming injection gap 12, the floor tile main body 2 and the polyurethane foaming material are compounded through heating and shaping to enable the edge of the floor tile main body 2 to form a concave rabbet 5 and a convex rabbet 6, the floor tile mold is separated from the floor tile main body 2 after cooling, the floor tile main body 2 attached with the polyurethane foaming material is trimmed, and the floor tile main body 2 with the concave rabbet 5 and the convex rabbet 6 is formed.

In one embodiment of the dry method fast-assembly floor tile mold, the tray 1 is square, the number of the concave rabbet 5 and the number of the convex rabbet 6 are two, the concave rabbet 5 and the convex rabbet 6 on one tray 1 are adjacent to each other, and in addition, the concave rabbet 5 and the convex rabbet 6 on one tray 1 can also be oppositely arranged at intervals, namely the concave rabbet 5 and the convex rabbet 6 on one tray 1 are not adjacent to each other. Whether the concave rabbet 5 and the convex rabbet 6 are adjacent or not, the matching between the adjacent floor tile main bodies 2 can be realized. Of course, it will be readily appreciated by those skilled in the art that the alternating concave and convex rebates 5, 6 may be provided on one edge of the tile body 2 for the purpose of mating between adjacent tile bodies 2.

Referring to fig. 4, 5 and 6, the embodiment of the present invention further provides a dry method fast-assembling floor tile system, including floor tile mold and floor tile main body 2, the floor tile mold includes tray 1, tray 1 upper end is formed with and is used for placing shelving portion 3 of floor tile main body 2, and tray 1 lower extreme is formed with reinforcement 4, and tray 1's edge is formed with concave tongue-and-groove 5 and convex rabbet 6, and tray 1's corner is equipped with transition portion 7, and concave tongue-and-groove 5 and convex rabbet 6 lock each other on two adjacent trays 1 make floor tile main body 2 on two adjacent trays 1 amalgamate each other.

In one embodiment of the dry quick-assembly floor tile system, the reinforcing part 4 is provided with a reinforcing center 8, a reinforcing outer rib 9, a reinforcing inner rib 10 and a reinforcing radial rib 11, the reinforcing radial rib 11 is connected with the reinforcing center 8, the reinforcing radial ribs 11 are arranged around the reinforcing center 8 in a divergent mode, the reinforcing outer rib 9 is connected with the tail end of the reinforcing radial rib 11, the reinforcing inner rib 10 is positioned between the reinforcing center 8 and the reinforcing outer rib 9, and the reinforcing inner rib 10 is connected with the reinforcing radial rib 11; and foam injection gaps 12 are formed among the reinforcing center 8, the reinforcing outer ribs 9, the reinforcing inner ribs 10 and the reinforcing radiating ribs 11. The tray 1 is square, the number of the concave rabbet 5 and the number of the convex rabbet 6 are two, and the concave rabbet 5 and the convex rabbet 6 on one tray 1 are adjacent or opposite at intervals.

The embodiment of the utility model provides a dry process fast-assembling ceramic tile technology still provides, adopts the ceramic tile mould, and the ceramic tile mould includes tray 1, tray 1 upper end is formed with the portion of shelving 3 that is used for placing ceramic tile main part 2, and tray 1 lower extreme is formed with rib 4, rib 4 is equipped with reinforced center 8, strengthens outer muscle 9, strengthens inner muscle 10 and strengthens radiation muscle 11, be formed with foaming injection clearance 12 between reinforced center 8, the outer muscle 9 of strengthening, strengthens inner muscle 10 and the radiation muscle 11 of strengthening, and the edge of tray 1 is formed with concave tongue-and-groove 5 and protruding rabbet 6, and the corner of tray 1 is equipped with transition portion 7, and concave tongue-and-groove 5 and protruding rabbet 6 on two adjacent trays 1 lock each other and make ceramic tile main part 2 on two adjacent trays 1 splice each other; the floor tile process comprises the following steps:

uniformly coating the structural adhesive on the back surface of the floor tile main body 2, enabling the back surface of the floor tile main body 2 to face upwards, and placing the floor tile main body in a placing part 3 of a floor tile mould; foaming polyurethane material by adopting a foaming injection molding machine, injecting the polyurethane material into a floor tile mould, compounding a floor tile main body 2 with the polyurethane foaming material by heating and shaping to form a concave rabbet 5 and a convex rabbet 6 at the edge of the floor tile main body 2, cooling, separating the floor tile mould from the floor tile main body 2, and trimming the floor tile main body 2 attached with the polyurethane foaming material to form the floor tile main body 2 with the concave rabbet 5 and the convex rabbet 6.

In one embodiment of the dry quick-assembly floor tile process, the reinforced radial ribs 11 are connected with the reinforced center 8, the reinforced radial ribs 11 are arranged around the reinforced center 8 in a divergent mode, the reinforced outer ribs 9 are connected at the tail ends of the reinforced radial ribs 11, the reinforced inner ribs 10 are located between the reinforced center 8 and the reinforced outer ribs 9, and the reinforced inner ribs 10 are connected with the reinforced radial ribs 11. The key point of the dry method fast-assembly floor tile process is that a concave rabbet 5 and a convex rabbet 6 can be formed on the edge of a floor tile main body 2 by means of a floor tile mould.

Specifically, the structural adhesive has high strength (compressive strength is greater than 65MPa, steel-steel positive tensile bonding strength is greater than 30MPa, and shear strength is greater than 18MPa), can bear larger load, is aging-resistant, fatigue-resistant and corrosion-resistant, has stable performance in the expected life, and is suitable for bearing adhesive of a strong structural member.

Specifically, the hard foam formed by foaming the polyurethane material is a novel synthetic material with heat preservation and waterproof functions, and has the advantages of low heat conductivity coefficient, high efficiency, energy conservation and strong bonding after curing; the material is shockproof and compression resistant, and does not crack, decay or fall off after being cured; the material has ultralow thermal conductivity, heat resistance and heat preservation; high-efficiency insulation, sound insulation, and water and moisture resistance after curing. A reinforcing area is formed on the back of the floor tile main body 2 under the obstruction of the reinforcing part 4 through structural adhesive, and the concave rabbet 5 and the convex rabbet 6 on the edge of the tray 1 are used as attachment bodies through polyurethane material foaming, so that the concave rabbet 5 and the convex rabbet 6 are formed on the edge of the floor tile main body 2. The concave rabbet 5 and the convex rabbet 6 are transferred from the floor tile mould to the polyurethane material foam attached to the edge of the floor tile main body 2, and the dry laying of the floor tile main body 2 can be realized.

The embodiment of the utility model provides a 1 upper end of tray is formed with the portion of shelving 3 that is used for placing ceramic tile main part 2, and 1 lower extreme of tray is formed with rib 4, and the edge of tray 1 is formed with concave tongue-and-groove 5 and convex rabbet 6, and the corner of tray 1 is equipped with degree of pass portion 7, and concave tongue-and-groove 5 and the mutual lock of convex rabbet 6 on two adjacent trays 1 make the ceramic tile main part 2 amalgamation of each other of arranging in on two adjacent trays 1. The structural adhesive can be coated on the back of the floor tile main body 2, a foaming injection molding machine is adopted to foam and inject the polyurethane material into a floor tile mold, the floor tile main body 2 and the polyurethane foaming material are compounded through heating and shaping to enable the edge of the floor tile main body 2 to form a concave rabbet 5 and a convex rabbet 6, the floor tile mold and the floor tile main body 2 are separated after cooling, the floor tile main body 2 attached with the polyurethane foaming material is trimmed, and the floor tile main body 2 with the concave rabbet 5 and the convex rabbet 6 is formed. The utility model discloses technical scheme avoids traditional wet process technology who adopts water, cement and grit, realizes that the quick ceramic tile of dry process is laid, and the time limit for a project is short, and it is low to operating personnel's technical merit requirement, the use that can be quick after laying.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (8)

1. The dry-method fast-assembly floor tile mold is characterized by comprising trays (1), wherein a placing part (3) for placing floor tile main bodies (2) is formed at the upper ends of the trays (1), a reinforcing part (4) is formed at the lower ends of the trays (1), concave rabbet (5) and convex rabbet (6) are formed at the edges of the trays (1), transition parts (7) are arranged at the corners of the trays (1), and the concave rabbet (5) and the convex rabbet (6) on two adjacent trays (1) are mutually buckled to enable the floor tile main bodies (2) on the two adjacent trays (1) to be mutually spliced.

2. The dry method fast-assembling floor tile mold according to claim 1, wherein the tray (1) is square, the number of the concave rabbet (5) and the number of the convex rabbet (6) are two, and the concave rabbet (5) and the convex rabbet (6) on one tray (1) are adjacent to each other.

3. The dry method fast-assembling floor tile mold according to claim 1, wherein the tray (1) is square, the number of the concave rabbet (5) and the number of the convex rabbet (6) are two, and the concave rabbet (5) and the convex rabbet (6) on one tray (1) are opposite at intervals.

4. The dry fast-assembling floor tile mold according to claim 1, wherein the reinforcement portion (4) is provided with a reinforcement center (8), a reinforcement outer rib (9), a reinforcement inner rib (10) and a reinforcement radial rib (11), the reinforcement radial rib (11) is connected with the reinforcement center (8), the reinforcement radial rib (11) is arranged around the reinforcement center (8) in a divergent manner, the reinforcement outer rib (9) is connected with the tail end of the reinforcement radial rib (11), the reinforcement inner rib (10) is located between the reinforcement center (8) and the reinforcement outer rib (9), and the reinforcement inner rib (10) is connected with the reinforcement radial rib (11).

5. The dry quick-assembling floor tile mold according to claim 4, wherein the foam injection gaps (12) are formed among the reinforcing center (8), the reinforcing outer ribs (9), the reinforcing inner ribs (10) and the reinforcing radiating ribs (11).

6. The dry-method fast-assembly floor tile system is characterized by comprising a floor tile mold and a floor tile main body (2), wherein the floor tile mold comprises a tray (1), a placing part (3) for placing the floor tile main body (2) is formed at the upper end of the tray (1), a reinforcing part (4) is formed at the lower end of the tray (1), a concave rabbet (5) and a convex rabbet (6) are formed at the edge of the tray (1), a transition part (7) is arranged at the corner of the tray (1), and the concave rabbet (5) and the convex rabbet (6) on two adjacent trays (1) are mutually buckled to enable the floor tile main bodies (2) on the two adjacent trays (1) to be mutually spliced.

7. A dry method quick-assembling floor tile system according to claim 6, wherein said tray (1) is square, the number of said concave rabbet (5) and said convex rabbet (6) is two, and the concave rabbet (5) and the convex rabbet (6) on one tray (1) are adjacent or opposite to each other.

8. The dry method quick-assembling floor tile system according to claim 6, wherein the reinforcement portion (4) is provided with a reinforcement center (8), a reinforcement outer rib (9), a reinforcement inner rib (10) and a reinforcement radial rib (11), the reinforcement radial rib (11) is connected with the reinforcement center (8), the reinforcement radial rib (11) is arranged around the reinforcement center (8) in a divergent manner, the reinforcement outer rib (9) is connected with the tail end of the reinforcement radial rib (11), the reinforcement inner rib (10) is located between the reinforcement center (8) and the reinforcement outer rib (9), and the reinforcement inner rib (10) is connected with the reinforcement radial rib (11); and foaming jet gaps (12) are formed among the reinforcing center (8), the reinforcing outer ribs (9), the reinforcing inner ribs (10) and the reinforcing radiation ribs (11).

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