CN214784892U - Heat preservation board, mold and heat preservation wall - Google Patents

Abstract

The utility model discloses an heated board, mould and thermal insulation wall body, heated board include heated board body and at least one additional strengthening, and one side or both sides of heated board body have a plurality of recess inwards sunken, and this is internal in the heated board is arranged in to the additional strengthening, and additional strengthening's partial structure is located the recess, and the recess is used for outside structure to flow in all to be connected with outside structure in order to realize additional strengthening and heated board body. The die comprises an upper cover and a lower die, the upper cover is connected with the lower die, a die cavity is formed between the upper cover and the lower die, a first protruding portion corresponding to the groove is arranged in the lower die, and an insertion groove for inserting the reinforcing component is formed in the top end of the first protruding portion. The heat-insulating wall comprises the heat-insulating plate. The external structure flowing into the groove is wrapped and connected with part of the reinforcing components positioned in the groove, so that the connection firmness and safety of the heat-insulation board and the external structure are greatly improved; simultaneously, effectively solve the problem of droing because of increasing the heated board that the dead weight increases behind the reinforcement part.

Description

Heat preservation board, mold and heat preservation wall

Technical Field

The utility model relates to an heated board, mould and thermal insulation wall.

Background

The existing heat insulation board is provided with the reinforcing net and the reinforcing ribs in the heat insulation board so as to be a relatively common manufacturing process, and the purpose of the heat insulation board is to further improve the rigidity of the heat insulation board after the reinforcing net and the reinforcing ribs are arranged in the heat insulation board so as to meet the use requirements of different application scenes.

However, the weight of the heat-insulating board inevitably changes due to the addition of the reinforcing net and the reinforcing ribs, and the heat-insulating board is prone to falling off at a later stage after the self weight of the heat-insulating board increases.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of current existence, the utility model provides a heated board, mould and thermal insulation wall.

The utility model discloses a realize through following technical scheme:

the utility model provides an insulation board, its includes insulation board body and at least one reinforcement, one side or both sides of insulation board body have a plurality of recess that inwards caves in, reinforcement arranges in the insulation board is originally internal, just reinforcement's partial structure is located in the recess, the recess is used for outside structure to flow in order to realize reinforcement with the insulation board body all with the outside the structure is connected.

Further, the groove comprises an opening and an accommodating cavity, the opening is located on the side face of the heat insulation board body, the accommodating cavity is located in the heat insulation board body, the opening is communicated with the accommodating cavity, and the reinforcing component is located in the accommodating cavity.

Furthermore, the cross-sectional shape of the groove is trapezoidal, and the shape of the groove is strip-shaped or barrel-shaped.

Further, the insulation board body is made of an organic-inorganic composite material.

Further, the heat insulation board body is made of a heat insulation material containing a siliceous substance, a calcareous substance and polystyrene particles.

Further, the heat insulation board body is made of a silicon graphene heat insulation material.

The die comprises an upper cover and a lower die, wherein the upper cover is connected with the lower die, a die cavity is formed between the upper cover and the lower die, a first protruding portion corresponding to the groove is arranged in the lower die, and an insertion groove for inserting the reinforcing component is formed in the top end of the first protruding portion.

Furthermore, the number of the insertion grooves is multiple, and the insertion grooves are arranged at the top end of the first protruding part at intervals in parallel;

alternatively, the plurality of insertion grooves are arranged at the top end of the first protruding part in a crossing manner.

Further, the lower die and the first boss are integrally formed or are of a split structure;

and/or the bottom surface of the upper cover is provided with a second bulge corresponding to the groove, and the bottom end of the second bulge is provided with an insertion groove for inserting the reinforcing component.

An insulation wall body comprises the insulation board.

The beneficial effects of the utility model reside in that: the external structure flowing into the groove is wrapped and connected with part of the reinforcing components positioned in the groove, so that the connection reliability between the insulation board and the building structure is effectively enhanced, and the connection firmness and the safety of the insulation board and the external structure are greatly improved; simultaneously, effectively solve the problem of droing because of increasing the heated board that the dead weight increases behind the reinforcement part.

Drawings

Fig. 1 is an internal structure schematic diagram of a thermal insulation wall body according to embodiment 1 of the present invention.

Fig. 2 is the utility model discloses embodiment 1's thermal insulation wall's heated board's internal structure schematic diagram.

Fig. 3 is a schematic view of the internal structure of the mold according to embodiment 1 of the present invention.

Fig. 4 is a schematic structural view of the first protruding portion of the mold according to embodiment 1 of the present invention.

Fig. 5 is a schematic structural view of the first protruding portion of the mold according to embodiment 2 of the present invention.

Description of reference numerals:

insulation board body 1

Groove 11

Reinforcing member 2

Upper cover 10

Lower die 20

First boss 21

Insertion groove 211

Mold cavity 30

Concrete 100

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

Example 1

The embodiment discloses a thermal insulation wall, as shown in fig. 1 and 2, the thermal insulation wall comprises a thermal insulation board. This heated board includes heated board body 1 and strengthening component 2, and one side or both sides of heated board body 1 have a plurality of inside sunken recess 11, and this body 1 of heated board is arranged in to strengthening component 2, and strengthening component 2's partial structure is located recess 11, and recess 11 is used for outside structure inflow to be connected with outside structure in order to realize strengthening component 2 and heated board body 1 all.

In this embodiment, one side of the insulation board body 1 has a plurality of concave grooves 11, and the external structure is concrete 100. Concrete 100 pours the side that has recess 11 in heated board body 1 for concrete 100 and heated board body 1 integrated into one piece, and the concrete 100 of pouring will flow into to recess 11 in, increased the area of contact between heated board body 1 and the heated board body 1 through recess 11, effectively strengthened the joint strength between heated board and the cast in situ concrete 100, improved heated board and concrete 100's firmness and security greatly. Part of the structure of the reinforcing component 2 is positioned in the groove 11, and the concrete 100 flowing into the groove 11 is wrapped and connected with part of the reinforcing component 2 positioned in the groove 11, so that the connection reliability between the insulation board and the building structure is effectively enhanced, and the connection firmness and the safety of the insulation board and the concrete 100 are greatly improved; simultaneously, effectively solve because of increasing behind the reinforcement component 2 and the heated board's of dead weight increase problem of droing.

Of course, in other embodiments, both sides of the insulation board body 1 have a plurality of concave grooves 11, wherein the groove 11 on one side is used for the cast-in-place concrete 100 to flow into, and the groove 11 on the other side is used for the facing layer or the mortar leveling layer to flow into.

Recess 11 includes the opening and holds the chamber, and the opening is located heated board body 1's side, holds the chamber and is located heated board body 1, and the opening with hold the chamber and be linked together, reinforcement component 2 is located and holds the intracavity. Concrete 100 can flow into to holding the intracavity at the in-process of pouring through the opening, has effectively strengthened the joint strength between heated board and cast in situ concrete 100, has improved heated board and concrete 100's firmness and security greatly. Simultaneously, be greater than the cross sectional area who holds the intracavity through open-ended open area for concrete 100 flows into to holding the intracavity through the opening easily at the in-process of pouring, and concrete 100 when flowing into and hold the intracavity, and the air that holds the intracavity will discharge rapidly through the opening, has further strengthened the joint strength between heated board and cast in situ concrete 100, has improved heated board and concrete 100's firmness and security greatly.

In this embodiment, open-ended open area is greater than the cross sectional area who holds the intracavity, holds the internal diameter in chamber and reduces gradually along the inside sunken direction of heated board body 1 from being close to open-ended one end. The inside diameter through holding the chamber reduces from outside to inside gradually for the inside sunken space of recess 11 is more and more littleer, and the space that is close to the opening is bigger and more, and the air in recess 11 will be discharged rapidly to the concrete 100 of pouring in getting into recess 11. Preferably, the cross-sectional shape of the groove 11 is trapezoidal. In the present embodiment, the groove 11 has a barrel shape. Of course, in other embodiments, the opening area of the opening may be less than or equal to the cross-sectional area within the receiving cavity.

The material of the insulation board body 1 is organic and inorganic composite insulation material. The heat-insulating performance of the organic-inorganic composite heat-insulating material can ensure that the strength reaches the related product standard requirement under the condition of the heat-insulating material with the same thickness, and the fireproof performance reaches A2 level, so that an additional composite inorganic plate is not needed to enhance the strength and the fireproof performance.

The material of the heat insulation board body 1 is a heat insulation material containing a siliceous substance, a calcareous substance and polystyrene particles. The heat insulation performance and the fireproof performance of the heat insulation wall are effectively guaranteed, and the safety and the stability of the heat insulation wall are greatly improved. Preferably, the material of the insulation board body 1 is a silicon graphene insulation material.

As shown in fig. 3 and 4, the present embodiment further discloses a mold, which is used for manufacturing the insulation board. The mold comprises an upper cover 10 and a lower mold 20, wherein the upper cover 10 is connected to the lower mold 20, a mold cavity 30 is formed between the upper cover 10 and the lower mold 20, a first protruding part 21 corresponding to the groove 11 is arranged in the lower mold 20, and an insertion groove 211 for inserting the reinforcing component 2 is arranged at the top end of the first protruding part 21.

When the insulation board is processed and manufactured, the reinforcing component 2 is inserted into the insertion groove 211, then the raw material composition of the insulation board body 1 is poured into the mold cavity 30, and the upper cover 10 is covered for shaping, so that the insulation board is processed and manufactured. In the course of the manufacturing of insulation board, will have limiting displacement to strengthening component 2 through insertion groove 211, realize accurate positioning to strengthening component 2, effectively avoided strengthening component 2 to take place skew dislocation phenomenon, guaranteed strengthening component 2 with unsettled formation in the inside of recess 11. When the heat preservation board is in use, the cast-in-place concrete 100 flows into the groove 11 of the heat preservation board, and the reinforcing component 2 in the groove is completely wrapped, so that the wall is lifted to realize the pulling and bonding effect between the cast-in-place concrete 100 and the heat preservation board. Simultaneously, effectively solve because of increasing behind the reinforcement component 2 and the heated board's of dead weight increase problem of droing.

In this embodiment, the number of the insertion grooves 211 is two, and the two insertion grooves 211 are arranged at the top end of the first projection 21 to cross each other in a cross shape. The first protruding part 21 is barrel-shaped, so that the corresponding groove 11 is also barrel-shaped.

The lower mold 20 and the first boss 21 may be integrally formed. Of course, the lower mold 20 and the first protrusion 21 may be formed in a separate structure, and the first protrusion 21 may be correspondingly installed in the lower mold 20 according to the installation position of the insertion groove 211.

Of course, in other embodiments, the bottom surface of the upper cover 10 has a second protrusion corresponding to the groove 11, and the bottom end of the second protrusion has an insertion groove for inserting the reinforcing member 2. The grooves 11 are machined on two sides of the heat insulation plate body 1 through the first protruding part 21 of the lower die 20 and the second protruding part of the upper cover 10.

Example 2

In this embodiment 2, the same portions as those in embodiment 1 will not be repeated, and only different portions will be described. As shown in fig. 5, in the present embodiment 2, the number of the insertion grooves 211 is plural, and the plural insertion grooves 211 are provided at the tip of the first projecting portion 21 in parallel with an interval therebetween. The first protruding portion 21 is shaped like a strip, so that the corresponding groove 11 is also shaped like a strip.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (9)

1. The utility model provides an insulation board, its characterized in that, it includes insulation board body and at least one reinforcement, one side or both sides of insulation board body have a plurality of recess that inwards caves in, reinforcement arranges in the insulation board is originally internal, just reinforcement's partial structure is located in the recess, the recess is used for outside structure to flow in order to realize reinforcement with the insulation board body all with the outside the structure is connected.

2. The insulation board according to claim 1, wherein the groove includes an opening and a receiving cavity, the opening is located on a side surface of the insulation board body, the receiving cavity is located in the insulation board body, the opening is communicated with the receiving cavity, and the reinforcing member is located in the receiving cavity.

3. The insulation board according to claim 1, wherein the cross-sectional shape of the groove is trapezoidal, and the groove is strip-shaped or barrel-shaped.

4. The insulation board according to claim 1, wherein the material of the insulation board body is an organic-inorganic composite material.

5. The insulation board according to claim 4, wherein the material of the insulation board body is a silicon graphene insulation material.

6. A mold for manufacturing the heat insulation board according to any one of claims 1 to 5, wherein the mold comprises an upper cover and a lower mold, the upper cover is connected to the lower mold, a mold cavity is formed between the upper cover and the lower mold, a first protruding portion corresponding to the groove is arranged in the lower mold, and an insertion groove for inserting the reinforcing member is arranged at the top end of the first protruding portion.

7. The mold according to claim 6, wherein the number of the insertion grooves is plural, and the plural insertion grooves are provided in parallel at intervals at the top end of the first protrusion;

alternatively, the plurality of insertion grooves are arranged at the top end of the first protruding part in a crossing manner.

8. The mold according to claim 6, wherein the lower mold and the first protruding portion are integrally formed or of a split structure;

and/or the bottom surface of the upper cover is provided with a second bulge corresponding to the groove, and the bottom end of the second bulge is provided with an insertion groove for inserting the reinforcing component.

9. An insulated wall, characterized in that it comprises an insulated panel according to any one of claims 1 to 5.

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