CN216516868U - Elastic decorative modeling template - Google Patents

Abstract

The utility model provides an elastic decorative modeling template which is sequentially provided with a modeling texture layer, a first substrate unit and a second substrate unit from top to bottom, wherein the edges of the modeling texture layer and the first substrate unit are inwards retracted relative to the second substrate unit to form an L-shaped retracted surface; the first substrate unit is sequentially provided with a first base layer, a first gridding cloth layer, a second base layer, a second gridding cloth layer and a third base layer from top to bottom, and the second base layer is provided with a plurality of lifting embedded parts; the second substrate unit is sequentially provided with a fourth base layer, a third gridding cloth layer and a fifth base layer from top to bottom. The elastic decorative modeling template provided by the utility model can obtain the oversized elastic decorative modeling template with stable size, high flatness, long service life and almost unchanged modeling texture size.

Description

Elastic decorative modeling template

Technical Field

The utility model belongs to the technical field of concrete molds, and relates to an elastic decorative modeling template, in particular to an ultra-large elastic decorative modeling template with pre-buried mesh and lifting hooks.

Background

At present, the conventional manufacturing process of the precast concrete member with the surface texture modeling has the following problems: (1) because the modeling rubber mold is made of the polyurethane PU elastic material, the rubber mold is large in deformation and warpage after being used for many times, mainly the length and the width are increased to about 30mm at most, the texture modeling error is large, the rubber mold is thinned, and the thickness error of a concrete member is large. When the polyurethane mold is manufactured in different seasons, the extended template can be retracted due to different air temperatures. (2) Because the length and the width are increased, when the rubber mold is placed on the steel platform surrounded by the detachable steel side molds again, the rubber mold is not tightly contacted with the bottom steel platform, after a concrete member is poured, the rubber mold is bulged due to the elasticity of the rubber mold, residual gas in the rubber mold and the temperature, the surface of the concrete generates defects such as grooves, the member is scrapped, and the bulge part of the rubber mold is difficult to restore to the original shape. (3) If the rubber mold is stuck to the steel platform by the adhesive, the adsorption force between the surface of the poured concrete member and the rubber mold modeling layer is very large, and the lower steel platform and the lower support thereof are lifted at the same time during lifting, so that the rubber mold modeling layer is torn or the adhesive layer between the rubber mold and the steel platform is torn, even the rubber mold is torn from the middle of the thickness of the rubber mold layer, and the service life of the rubber mold is seriously influenced. (4) For the mobile operation platform of assembly line production and maintenance, in order to timely maintain the concrete member, the concrete member needs to enter a steam maintenance room for maintenance immediately along with the platform and a rubber mold after being poured and troweled, and the rubber mold is also the main reason for the size of the rubber mold to be enlarged when being placed at a higher temperature for a longer time. It can be seen that for some forms of textured members where dimensional accuracy is highly required, the above problems must be addressed.

SUMMERY OF THE UTILITY MODEL

In view of the above disadvantages of the prior art, the present invention provides an elastic decorative molding board, which is used to solve the problem that the prior art lacks an ultra-large elastic decorative molding board for pre-cast production or cast-in-place of concrete, which has stable size, high flatness, long service life, and almost unchanged shape texture and size, such as pre-buried mesh and hooks.

In order to achieve the above and other related objects, the present invention provides an elastic decoration modeling template, which comprises a modeling texture layer, a first substrate unit, and a second substrate unit sequentially arranged from top to bottom, wherein edges of the modeling texture layer and the first substrate unit are inwardly retracted relative to the second substrate unit to form an L-shaped retracted surface; the first substrate unit is sequentially provided with a first base layer, a first gridding cloth layer, a second base layer, a second gridding cloth layer and a third base layer from top to bottom, and the second base layer is provided with a plurality of lifting embedded parts; the second substrate unit is sequentially provided with a fourth base layer, a third gridding cloth layer and a fifth base layer from top to bottom.

Preferably, the template is a cuboid, the length of the template is more than or equal to 2m, and the width of the template is more than or equal to 2 m.

Preferably, the top surface of the textured layer matches the surface texture shape of the sculpted pattern of the mold.

Preferably, an operation platform is arranged at the bottom of the second substrate unit.

Preferably, the material of the texture modeling layer, the first base layer, the second base layer, the third base layer, the fourth base layer and the fifth base layer is Polyurethane (PU).

Preferably, the first, second and third mesh fabric layers are made of one or more of woven glass fiber mesh fabric, woven basalt fiber mesh fabric, woven carbon fiber mesh fabric and woven resin fiber mesh fabric.

More preferably, when the length of the template is greater than or equal to 2m and less than 3m and the width of the template is greater than or equal to 2m and less than 3m, the mesh cloth adopted by the first mesh cloth layer, the second mesh cloth layer and the third mesh cloth layer is selected from one of glass fiber woven mesh cloth and basalt fiber woven mesh cloth.

More preferably, when the length of the template is greater than or equal to 3m and the width of the template is greater than or equal to 3m, the mesh cloth adopted by the first mesh cloth layer, the second mesh cloth layer and the third mesh cloth layer is carbon fiber woven mesh cloth.

More preferably, when the texture of the texture layer is deep and cannot be curled, the meshes adopted by the first mesh fabric layer, the second mesh fabric layer and the third mesh fabric layer are resin fiber meshes.

Preferably, the mesh number of the mesh cloth adopted by the first mesh cloth layer, the second mesh cloth layer and the third mesh cloth layer is 3-6 meshes.

Preferably, the thickness of the first base layer is 3-4 mm.

Preferably, the thickness of the third base layer is 3-4 mm.

Preferably, adjacent said lifting inserts are spaced apart by equal distances.

Preferably, one end of the lifting embedded part is embedded into the second base layer, the other end of the lifting embedded part is provided with a lifting ring, and at least one cloth belt is anchored at one end of the lifting embedded part embedded into the second base layer.

Preferably, the lifting embedment has a diameter not greater than 2/3 the thickness of the first base plate unit.

More preferably, the material of the cloth belt is carbon fiber bundles.

More preferably, the length of the cloth tape is not less than 1/5 of the same direction length of the first substrate unit.

More preferably, when the number of the cloth belts is 2, the interval distance between the adjacent cloth belts is 1/2 of the diameter of the lifting embedded part, and the vertical distances between the adjacent cloth belts and the side edges of the lifting embedded part are respectively equal.

More preferably, when the number of the lifting buried parts is 2, the adjacent lifting buried parts are positioned on the same horizontal section and are spaced apart by 1/2 the length of the side surface of the second substrate embedded with the lifting buried parts, and the vertical distance between the adjacent lifting buried parts and the adjacent edge of the side surface of the second substrate embedded with the lifting buried parts is equal.

More preferably, the included angle between the cloth belt and the side surface of the second substrate embedded with the lifting embedded part is 90 degrees.

More preferably, the L-shaped indented surface is indented inward by a distance of 8-10cm with respect to the second substrate unit.

More preferably, the formwork further comprises a first side mould and a second side mould, wherein the first side mould is provided with an L-shaped surface suitable for being attached to the L-shaped retracted surface; the second side mould is including horizontal and vertical face, the horizontal is suitable for the laminating L type indentation face is located the top surface of second base plate unit, be equipped with the recess on the vertical face, the recess is including groove shoulder and slotted eye, the slotted eye is for indentation in the both sides groove shoulder, the groove shoulder is set up to be suitable for the laminating L type indentation face is located the side of first base plate unit, the slotted eye is set up to be suitable for the laminating protrusion to hang in the side of first base plate unit and buries the piece.

Preferably, the first substrate unit conforms to formula i,

the formula I is as follows: e_b＝(L_b-L₀)×100％/L₀；

In the formula, E_bElongation at break,%; l is a radical of an alcohol_bThe gauge length is mm when the first substrate unit is broken; l is₀Is the initial gauge length, mm, of the first substrate unit.

As mentioned above, the elastic decorative modeling template provided by the utility model has the following beneficial effects:

(1) the elastic decorative modeling template provided by the utility model can keep stable dimension after multiple times of concrete pouring and demolding, and almost no or negligible condition of size increase or size reduction exists.

(2) According to the elastic decorative modeling template provided by the utility model, the phenomena of edge warping and the like can not occur after the rubber mold is used for multiple times, the flatness of the rubber mold is improved, and the surface quality of a concrete prefabricated part and the cast-in-place concrete is improved.

(3) The elastic decorative modeling template provided by the utility model greatly prolongs the service life of the rubber mold, and reduces the phenomena of tearing, damage and the like of the rubber mold in the concrete prefabrication or cast-in-place process.

(4) According to the elastic decorative modeling template provided by the utility model, the obtained elastic decorative modeling template does not bulge any more, and the modeling texture and size of the elastic decorative modeling template are almost kept unchanged.

Drawings

FIG. 1 is a side view of an elastomeric decorative molding template structure of the present invention.

Fig. 2 shows a top view of an elastic decorative molding template structure of the present invention.

FIG. 3 is a schematic view of an elastic decorative molding board of the present invention, which is provided with side molds during production.

Reference numerals

1 textured layer

2 first substrate unit

21 first base layer

22 first scrim layer

23 second base layer

24 second scrim layer

25 third base layer

3 second substrate unit

31 fourth base layer

32 third scrim layer

33 fifth base layer

4L-shaped retraction surface

5 lifting buried part

51 lifting ring

52 cloth belt

6 first side die

7 second side die

71 transverse plane

72 groove

721 groove shoulder

722 slotted eye

The d L-type retraction surface is retracted inward by a distance relative to the second substrate unit

a diameter of the hoisting buried part

b thickness of the first substrate unit

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to 3. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The utility model provides an elastic decorative modeling template, which is sequentially provided with a modeling texture layer 1, a first substrate unit 2 and a second substrate unit 3 from top to bottom as shown in figure 1-2, wherein the edges of the modeling texture layer 1 and the first substrate unit 2 are retracted inwards relative to the second substrate unit 3 to form an L-shaped retracted surface 4; the first substrate unit 2 is sequentially provided with a first base layer 21, a first gridding cloth layer 22, a second base layer 23, a second gridding cloth layer 24 and a third base layer 25 from top to bottom, and the second base layer 23 is provided with a plurality of lifting embedded parts 5; the second substrate unit 3 is sequentially provided with a fourth base layer 31, a third mesh fabric layer 32 and a fifth base layer 33 from top to bottom.

In the elastic decorative modeling template provided by the utility model, as shown in figure 2, the template is cuboid, the length of the template is more than or equal to 2m, and the width of the template is more than or equal to 2 m. An oversized concrete member can be prepared.

In the elastic decorative modeling template provided by the utility model, the top surface of the modeling texture layer 1 is matched with the surface texture shape of the carving modeling of the model. Namely, the modeling texture layer 1 can replicate the surface texture shape of a model, the size of the prepared concrete or other cement-based products is accurate, the size of the products can perfectly replicate the size of the rubber mold after the size of the rubber mold is fixed, and accurate and various surface modeling textures are provided for prefabricated parts.

The above-mentioned mold is a conventionally used mold for providing a mold with a shaping texture for engraving. The material of the mould is selected from gypsum or density board. The model of the model is carved by adopting a carving machine, and the carving machine is selected from one of a laser carving machine or a mechanical carving machine.

The sculpturing modeling can be carried out by using a computer or other auxiliary tools according to the modeling texture requirements of the architects to model the modeling of the architects, and then sculpturing the models on the model seeds by using the sculpturing machine according to the files of the modeling. After the model is carved and shaped, the carved shape is corrected mechanically or manually according to the requirements of designers so as to meet the requirements of the shape. And pouring a polyurethane liquid raw material after the model seed engraving and repairing is finished, and preparing the modeling texture layer 1.

In the elastic decorative modeling template provided by the utility model, an operation platform is arranged at the bottom of the second substrate unit 3. The operating platform is made of steel. The operation platform is used for placing the formwork when the concrete member is prepared by the formwork.

In the elastic decorative modeling template provided by the utility model, the material of the modeling texture layer 1, the first base layer 21, the second base layer 23, the third base layer 25, the fourth base layer 31 and the fifth base layer 33 is Polyurethane (PU). The modeling texture layer 1, the first base layer 21, the second base layer 23, the third base layer 25, the fourth base layer 31 and the fifth base layer 33 are formed by pouring Polyurethane (PU) liquid raw materials.

In the elastic decorative modeling template provided by the utility model, the gridding cloth adopted by the first gridding cloth layer 22, the second gridding cloth layer 24 and the third gridding cloth layer 32 is one or more of combination of glass fiber woven gridding cloth, basalt fiber woven gridding cloth, carbon fiber woven gridding cloth and resin fiber gridding cloth.

The glass fiber woven mesh cloth, the basalt fiber woven mesh cloth, the carbon fiber woven mesh cloth and the resin fiber mesh cloth are all conventionally used glass fiber woven mesh cloth, basalt fiber woven mesh cloth, carbon fiber woven mesh cloth and resin fiber mesh cloth, and can be purchased from the market.

The meshes of the first, second and third mesh fabric layers 22, 24 and 32 are reinforced meshes. The mesh cloth has good bonding strength with sizing materials such as polyurethane, and the two materials do not mutually generate chemical reaction.

In a preferred embodiment, when the length of the form is greater than or equal to 2m and less than 3m, and the width of the form is greater than or equal to 2m and less than 3m, the mesh cloth adopted by the first mesh cloth layer 22, the second mesh cloth layer 24 and the third mesh cloth layer 32 is selected from one of glass fiber woven mesh cloth and basalt fiber woven mesh cloth.

In a preferred embodiment, when the length of the template is greater than or equal to 3m and the width of the template is greater than or equal to 3m, the mesh cloth adopted by the first mesh cloth layer 22, the second mesh cloth layer 24 and the third mesh cloth layer 32 is a carbon fiber woven mesh cloth. The carbon fiber woven mesh cloth is good in strength.

In a preferred embodiment, when the texture of the texture layer 1 is deep and cannot be curled, the meshes of the first, second and third mesh fabric layers 22, 24 and 32 are resin fiber meshes. The resin fiber mesh cloth has certain hardness and rigidity and also has certain bending performance, and is compounded in the template, so that the problems that the precision of the modeling texture is influenced or deformation is caused and the like due to the fact that the modeling texture of the modeling texture layer 1 is deep and cannot be curled can be solved.

In the elastic decorative modeling template provided by the utility model, the mesh number of the mesh cloth adopted by the first mesh cloth layer 22, the second mesh cloth layer 24 and the third mesh cloth layer 32 is 3-6 meshes. The mesh number of the mesh cloth is as small as possible on the basis of satisfying the enhancement effect.

In the elastic decorative modeling template provided by the utility model, the thickness of the first base layer 21 is 3-4 mm. The position at which the first scrim layer 22 is disposed is controlled.

In the ultra-large elastic decorative modeling template provided by the utility model, the thickness of the third base layer 25 is 3-4 mm. The position at which the second scrim layer 24 is disposed is controlled.

In the elastic decorative modeling template provided by the utility model, the distance between adjacent lifting embedded parts 5 is equal. The template is evenly stressed when being lifted, and the template can be lifted smoothly.

In the elastic decorative molding board provided by the utility model, as shown in fig. 1-2, one end of the lifting embedded part 5 is embedded into the second substrate 23, the other end of the lifting embedded part 5 is provided with a lifting ring 51, and at least one cloth belt 52 is anchored on one end of the lifting embedded part 51 embedded into the second substrate 23. Facilitating smooth lifting via the lifting ring 51.

In the elastic decorative modeling template provided by the utility model, the lifting embedded part 5 is made of stainless steel.

In the elastic decorative molding board provided by the present invention, the diameter a of the lifting buried part 5 is not more than 2/3 of the thickness b of the first base plate unit 2. Damage to the first substrate unit 2 is avoided.

In a preferred embodiment, the material of the cloth tapes 52 is carbon fiber bundles. The carbon fiber bundle is soft and has high strength. Is convenient for stretching and hoisting.

In a preferred embodiment, the length of the tapes 52 is not less than 1/5 of the same direction length of the first substrate unit 2. The length of the cloth belt 52 can be determined through mechanical tests, and the anchoring force of the cloth belt 52 is not less than 2 times of the mass of the pouring material. Thereby effectively hoisting the oversized, ultra-thick and ultra-heavy elastic decorative modeling template.

In a preferred embodiment, when the number of the cloth belts is 2, the spacing distance between the adjacent cloth belts 52 is 1/2 of the diameter of the lifting embedded part 5, and the vertical distances between the adjacent cloth belts 52 and the side edges of the lifting embedded part 5 are equal respectively. The hoisting is convenient and smooth.

In the elastic decorative modeling template provided by the utility model, when the number of the lifting embedded parts 5 is 2, the adjacent lifting embedded parts 5 are positioned on the same horizontal section and are separated by 1/2 the distance of the length of the side surface of the second base layer 23 embedded in the lifting embedded parts 5, and the vertical distances between the adjacent lifting embedded parts 5 and the similar edges of the side surface of the second base layer 23 embedded in the lifting embedded parts 5 are respectively equal. Is convenient for smooth hoisting.

In a preferred embodiment, the angle between the tapes 52 and the side of the second substrate 23 embedded in the lifting implant 5 is 90 °. The fiber cloth belt is placed at an angle with the lifting edge, so that the phenomenon that the embedded bolts slip off and the templates are torn due to stress concentration when the plate body is lifted and transported is prevented. The super-large-size, super-thick and super-heavy elastic decorative modeling template is suitable for being difficult to bind, hoist and transport and the like.

In the elastic decorative modeling template provided by the utility model, as shown in fig. 1, the L-shaped retraction surface 4 is retracted inward by a distance of 8-10cm relative to the second substrate unit 3. Can ensure side form laminating module under the user state, the proof thick liquid proof warp.

In the elastic decorative modeling template provided by the utility model, as shown in fig. 3, the template further comprises a first side die 6 and a second side die 7, wherein the first side die 6 is provided with an L-shaped surface suitable for being attached to the L-shaped indented surface 4; the second side mold 7 comprises a transverse surface 71 and a vertical surface, the transverse surface 71 is suitable for being attached to the L-shaped retraction surface 4 and is located on the top surface of the second substrate unit 3, a groove 72 is arranged on the vertical surface, the groove 72 comprises a groove shoulder 721 and a groove hole 722, the groove hole 722 retracts relative to the groove shoulders 721 on the two sides, the groove shoulder 721 is suitable for being attached to the L-shaped retraction surface 4 and is located on the side surface of the first substrate unit 2, and the groove hole 722 is suitable for being attached to the lifting embedded part 5 protruding out of the side surface of the first substrate unit 2. The side mould is convenient to be attached to the template, and the slurry leakage is prevented from warping.

In the elastic decorative molding template provided by the utility model, the first substrate unit 2 conforms to formula i: e_b＝(L_b-L₀)×100％/L₀(ii) a In the formula, E_bElongation at break,%; l is_bThe gauge length is mm when the first substrate unit is broken; l is₀Is the initial gauge length, mm, of the first substrate unit.

The process of constructing an elastic decorative molding board according to the present invention will be described with reference to fig. 1 to 3.

And taking a mold with a specific shape, and pouring polyurethane to form the modeling texture layer 1. Pouring polyurethane above the modeling texture layer 1 to form a first base layer 21, laying mesh cloth in time after primary solidification, tensioning and smoothing the mesh cloth, and bonding the mesh cloth and raw materials to form a first mesh cloth layer 22. The casting thickness of the first base layer 21 is 3 mm. Then pouring polyurethane to form a second base layer 23, and embedding 2 stainless steels at intervals on one side surface of the second base layer 23The embedded end of the lifting buried part 5 is anchored with a cloth belt 52. After the second base layer 23 is preliminarily solidified, the mesh cloth is laid in time, tensioned and smoothed, and bonded with the raw materials to form a second mesh cloth layer 24. The polyurethane continues to be poured over the second scrim layer 243 to form the third substrate 25. Thereby forming the first substrate unit 2. Wherein, the casting thickness of the third base layer 23 is 3 mm. The diameter a of the lifting embedment 5 is 2/3 of the thickness b of the first base plate unit 2. The length of the cloth tape 51 is 1/5 of the same direction length of the first substrate unit 2, ensuring that the anchoring force of the cloth tape 51 is not less than 2 times of the mass of the casting material. The 2 lifting embedded parts 51 are positioned on the same horizontal section and are spaced apart by 1/2 the length of the side surface of the second substrate 23 embedded with the lifting embedded parts 5, and the vertical distances between the 2 lifting embedded parts 51 and the similar edges of the side surface of the second substrate 23 embedded with the lifting embedded parts 51 are respectively equal. The included angle between the cloth belt 52 and the side surface of the second base layer 23 embedded with the lifting embedded part 51 is 90 degrees, so that the embedded bolts are prevented from slipping and the template is prevented from being torn due to concentrated stress when the plate body is lifted and transported. The super-large-size, super-thick and super-heavy elastic decorative modeling template is suitable for being difficult to bind, hoist and transport and the like. In addition, the first substrate unit 2 conforms to formula i: e_b＝(L_b-L₀)×100％/L₀。

And pouring polyurethane on the third base layer 25 to form a fourth base layer 31, laying the mesh cloth in time after the fourth base layer 31 is preliminarily solidified, tensioning and smoothing the mesh cloth, and bonding the mesh cloth and the raw materials to form a third mesh cloth layer 32. Polyurethane is poured to form the fifth base layer 33, thereby forming the second substrate unit 3. The edges of the texture layer 1 and the first substrate unit 2 are recessed inward relative to the second substrate unit 3 to form an L-shaped recessed surface 4. The L-shaped receding surface 4 recedes inward with respect to the second substrate unit 3 by a distance d of 9 cm. The template also comprises a first side die 6 and a second side die 7, wherein the first side die 6 is provided with an L-shaped surface suitable for being attached to the L-shaped retracted surface 4; the second side mold 7 comprises a transverse surface 71 and a vertical surface, the transverse surface 71 is suitable for being attached to the L-shaped retraction surface 4 and is located on the top surface of the second substrate unit 3, a groove 72 is arranged on the vertical surface, the groove 72 comprises a groove shoulder 721 and a groove eye 722, the groove eye 722 retracts relative to the groove shoulders 721 on the two sides, the groove shoulders 721 are suitable for being attached to the L-shaped retraction surface 4 and are located on the side surface of the first substrate unit 2, and the groove eye 722 is suitable for being attached to the lifting embedded part 5 protruding out of the side surface of the first substrate unit 2.

And after maintenance, hoisting through a hoisting ring 51, separating from the mold seeds to obtain a template sample No. 1.

The template sample No. 1 is used for continuously preparing a plurality of precast concrete members, the length and the width of the precast concrete members are basically unchanged after the template sample No. 1 is used for a plurality of times, the surface texture of the prepared precast concrete members is almost unchanged, and the quality of the precast concrete members is kept stable.

In conclusion, the elastic decorative modeling template provided by the utility model can obtain the super-large elastic decorative modeling template with stable size, high flatness, long service life and almost unchanged modeling texture size. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. The elastic decorative modeling template is characterized in that a modeling texture layer (1), a first substrate unit (2) and a second substrate unit (3) are sequentially arranged from top to bottom, and the edges of the modeling texture layer (1) and the first substrate unit (2) are retracted inwards relative to the second substrate unit (3) to form an L-shaped retracted surface (4); the first substrate unit (2) is sequentially provided with a first base layer (21), a first gridding cloth layer (22), a second base layer (23), a second gridding cloth layer (24) and a third base layer (25) from top to bottom, and the second base layer (23) is provided with a plurality of lifting embedded parts (5); the second substrate unit (3) is sequentially provided with a fourth base layer (31), a third gridding cloth layer (32) and a fifth base layer (33) from top to bottom.

2. An elastic decorative modelling plate according to claim 1 wherein the bottom of said second base plate unit (3) is provided with an operating platform.

3. The flexible decorative molding board of claim 1, wherein the first, second and third scrim layers (22, 24, 32) are made of a scrim selected from one or more of woven fiberglass scrim, woven basalt fiber scrim, woven carbon fiber scrim and woven resin fiber scrim.

4. The flexible decorative molding board of claim 3, wherein when the length of the board is greater than or equal to 2m and less than 3m and the width of the board is greater than or equal to 2m and less than 3m, the first mesh fabric layer (22), the second mesh fabric layer (24) and the third mesh fabric layer (32) are made of mesh fabric selected from one of woven glass fiber mesh fabric and woven basalt fiber mesh fabric.

5. The elastic decorative modeling template of claim 3, wherein when the length of the template is greater than or equal to 3m and the width of the template is greater than or equal to 3m, the mesh cloth adopted by the first mesh cloth layer (22), the second mesh cloth layer (24) and the third mesh cloth layer (32) is a carbon fiber woven mesh cloth.

6. The elastic decorative molding board of claim 1, wherein the mesh number of the mesh cloth adopted by the first mesh cloth layer (22), the second mesh cloth layer (24) and the third mesh cloth layer (32) is 3-6 meshes.

7. The flexible decorative molding board of claim 1, wherein one end of the lifting embedded part (5) is embedded in the second substrate (23), the other end of the lifting embedded part (5) is provided with a lifting ring (51), and at least one cloth strap (52) is anchored to one end of the lifting embedded part (5) embedded in the second substrate (23).

8. An elastic decorative molding board according to claim 1, characterized in that the diameter a of the lifting inlay (5) is not larger than 2/3 of the thickness b of the first base plate unit (2).

9. A flexible decorative modelling plate according to claim 1, wherein said L-shaped indented surface (4) is indented a distance d of 8-10cm inwards with respect to said second base plate unit (3).

10. An elastic decorative modelling plate according to claim 1, characterized in that it further comprises a first side die (6) and a second side die (7), said first side die (6) being provided with an L-profile adapted to fit said L-indented surface (4); second side mould (7) are including horizontal plane (71) and vertical plane, horizontal plane (71) are suitable for the laminating L type indentation face (4) are located the top surface of second base plate unit (3), be equipped with recess (72) on the vertical plane, recess (72) are including slot shoulder (721) and slot eye (722), slot eye (722) are for both sides slot shoulder (721) indent, slot shoulder (721) are set up to be suitable for the laminating L type indentation face (4) are located the side of first base plate unit (2), slot eye (722) are set up to be suitable for laminating protrusion in the piece (5) of burying of lifting by crane of first base plate unit (2) side.

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