CN107620421B

CN107620421B - Expanded and vitrified micro-bead heat-insulation building block

Info

Publication number: CN107620421B
Application number: CN201710873597.4A
Authority: CN
Inventors: 蒋福根
Original assignee: Tongxiang Fengteng Patent Operation Co ltd
Current assignee: TONGXIANG FENGTENG PATENT OPERATION Co.,Ltd.
Priority date: 2015-09-18
Filing date: 2015-09-18
Publication date: 2020-06-23
Anticipated expiration: 2035-09-18
Also published as: CN105201128A; CN107620421A; CN107460990B; CN105201128B; CN107460990A

Abstract

The invention provides an expanded and vitrified small ball heat-insulating building block, and belongs to the technical field of building materials. It has solved the not tight problem of current building block seal. This expanded glass ization bead insulation block, including the hollow frame structure block, the hollow frame structure block is including roof and the bottom plate that is parallel to each other, and left side board and the right side board that is parallel to each other, be connected with the rib of being connected parallel with roof and bottom plate between left side board and the right side board perpendicularly, be equipped with mutually perpendicular's bar through-hole one and bar through-hole two on the board of left side, still be equipped with the axis on the board of left side through-hole three through the two nodical circular through-holes of bar through-hole one and bar through-hole, right side board and left side plate structure are the same, still include mutually perpendicular cross connection's steel sheet one and steel sheet two, and steel sheet one and two insert respectively in bar through. Therefore, when building a wall, the hollow parts that two adjacent hollow frame structure blocks correspond communicate, and inside heat preservation mortar can be connected in inside, and the sealed effect of heat preservation is better.

Description

Expanded and vitrified micro-bead heat-insulation building block

The application is a divisional application of a patent of an expanded and vitrified bead insulation building block, which is applied on 9, 18 and 2015, has an application number of 201510607173.4.

Technical Field

The invention belongs to the technical field of building materials, and relates to an expanded and vitrified micro-bead heat-insulation building block.

Background

The building blocks are artificial blocks for building, are novel wall materials, are mostly right-angled hexahedrons in appearance, and also have various profile body building blocks.

At present, heat insulation building blocks with various structural forms are arranged on the market, most of the heat insulation building blocks are filled with heat insulation materials in cavities of the building blocks, and the joints of the building blocks are generally made of non-heat insulation materials, so that the sealing is not tight, and the requirement of energy conservation is difficult to meet.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provide an expanded and vitrified micro-bead heat-insulating building block with better sealing property and heat-insulating property.

The purpose of the invention can be realized by the following technical scheme: the expanded and vitrified micro-bead heat-insulating building block is characterized in that: including hollow frame structure block, hollow frame structure block including roof and the bottom plate that is parallel to each other, and left side board and the right side board that is parallel to each other, left side board and right side board between be connected with the rib of being parallel to with roof and bottom plate perpendicularly, the left side board on be equipped with mutually perpendicular's bar through-hole one and bar through-hole two, still be equipped with the axis on the left side board through bar through-hole one and the two nodical circular through-hole three of bar through-hole two, right side board and left side plate structure the same, still include mutually perpendicular cross connection's steel sheet one and steel sheet two, just steel sheet one and two insert respectively bar through-hole one and bar through-hole two in.

Owing to be equipped with circular through-hole three, consequently when building a wall, the well kenozooecium phase intercommunication that two adjacent hollow frame structure blocks correspond, consequently inside insulation material contacts or the heat preservation mortar of pouring can be connected in inside, consequently, the heat preservation effect is better, set up bar through-hole one and bar through-hole two moreover, and can insert steel sheet one and steel sheet two above respectively, make when building a wall location very accurate and the structure is more firm, avoided leading to adjacent building block dislocation because the overall structure unstability that circular through-hole three lead to.

In the expanded and vitrified small ball thermal insulation building block, the hollow frame structure block is made of expanded and vitrified small ball materials.

Therefore, the heat preservation performance is better.

In the expanded and vitrified small ball thermal insulation building block, thermal insulation mortar is poured in the hollow part of the hollow frame structure block.

After the wall is built, pouring can be performed at one time.

In the expanded and vitrified small ball thermal insulation building block, the connecting ribs are rotationally symmetrical about the three axes of the circular through holes, cross grooves corresponding to the first strip-shaped through holes and the second strip-shaped through holes are formed in the connecting ribs, and the first steel plates and the second steel plates are inserted into the cross grooves.

The cross-shaped groove is arranged so that the first steel plate, the second steel plate and the connecting rib form an integral stable structure.

In the expanded and vitrified small ball thermal insulation building block, the first steel plate and the second steel plate are both vertical to the left side plate, and the first steel plate is also parallel to the top plate.

In the expanded and vitrified small ball thermal insulation building block, the whole expanded and vitrified small ball thermal insulation building block is of a symmetrical structure.

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

Drawings

Fig. 1 is a front view of a hollow frame structure block.

Fig. 2 is a side view of a hollow frame structure block.

FIG. 3 is a front view of a first steel plate and a second steel plate.

FIG. 4 is a side view of a first steel plate and a second steel plate.

In the figure, the position of the upper end of the main shaft,

1. a hollow frame structure block; 11. a top plate; 12. a base plate; 13. a left side plate; 14. a right side plate; 15. a connecting rib; 16. a first strip-shaped through hole; 17. a strip-shaped through hole II; 18. a circular through hole III; 19. a cross groove;

2. a first steel plate; 21. and a second steel plate.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-4, the expanded and vitrified small ball insulation block comprises a hollow frame structure block 1, wherein the hollow frame structure block 1 comprises a top plate 11 and a bottom plate 12 which are parallel to each other, and a left side plate 13 and a right side plate 14 which are parallel to each other, a connecting rib 15 which is parallel to the top plate 11 and the bottom plate 12 is vertically connected between the left side plate 13 and the right side plate 14, a first strip-shaped through hole 16 and a second strip-shaped through hole 17 which are perpendicular to each other are arranged on the left side plate 13, a third circular through hole 18 with an axis passing through the intersection point of the first strip-shaped through hole 16 and the second strip-shaped through hole 17 is also arranged on the left side plate 13, the right side plate 14 and the left side plate 13 have the same structure, and further comprise a first steel plate 2 and a second steel plate 21 which are vertically and alternately connected.

Further, the hollow frame structure block 1 is made of an expanded and vitrified small ball material. The hollow part of the hollow frame structure block 1 is poured with thermal insulation mortar. The connecting ribs 15 are rotationally symmetrical about the axis of the circular through hole III 18, cross grooves 19 corresponding to the strip-shaped through holes I16 and the strip-shaped through holes II 17 are formed in the connecting ribs 15, and the steel plates I2 and the steel plates II 21 are inserted into the cross grooves 19. The first steel plate 2 and the second steel plate 21 are both perpendicular to the left side plate 13, and the first steel plate 2 is also parallel to the top plate 11. The whole expanded and vitrified small ball heat-insulating building block is of a symmetrical structure.

Owing to be equipped with circular through-hole three 18, consequently during the building a wall, the well kenozooecium phase intercommunication that two adjacent hollow frame structure blocks 1 correspond, consequently inside insulation material contacts or the heat preservation mortar of pouring can be connected in inside, consequently, the heat preservation effect is better, and set up bar through-hole one 16 and bar through-hole two 17, and can insert steel sheet one 2 and steel sheet two 21 above that respectively, make when building a wall location very accurate and the structure is more firm, avoided leading to adjacent building block dislocation because the overall structure unstability that circular through-hole three 18 leads to.

The block body 1 is made of expanded and vitrified micro-bead material due to the hollow frame structure. Therefore, the material has better heat preservation performance. The hollow part of the hollow frame structure block 1 is poured with thermal insulation mortar. The heat-insulating mortar can be poured at one time after a wall body is built. The connecting ribs 15 are rotationally symmetrical about the axis of the circular through hole III 18, cross grooves 19 corresponding to the strip-shaped through holes I16 and the strip-shaped through holes II 17 are formed in the connecting ribs 15, and the steel plates I2 and the steel plates II 21 are inserted into the cross grooves 19. Therefore, when the first steel plate 2 and the second steel plate 21 are inserted into the first strip-shaped through hole 16, the second strip-shaped through hole 17 and the cross groove 19, the first steel plate 2, the second steel plate 21 and the connecting ribs 15 form an integral stable structure, so that after the wall body is built by the expanded and vitrified bead heat-insulation building block, the integral stability is better, and the problem of unstable wall body caused by excessive heat-insulation materials is avoided.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of the hollow frame structure block 1, the top plate 11, the bottom plate 12, the left side plate 13, the right side plate 14, the connecting ribs 15, the first strip through holes 16, the second strip through holes 17, the third circular through holes 18, the cross grooves 19, the first steel plates 2, the second steel plates 21, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. The expanded and vitrified micro-bead heat-insulating building block is characterized in that: comprises a hollow frame structure block body (1), the hollow frame structure block body (1) comprises a top plate (11) and a bottom plate (12) which are parallel to each other, and a left side plate (13) and a right side plate (14) which are parallel to each other, a connecting rib (15) parallel to the top plate (11) and the bottom plate (12) is vertically connected between the left side plate (13) and the right side plate (14), the left side plate (13) is provided with a first strip-shaped through hole (16) and a second strip-shaped through hole (17) which are vertical to each other, the left side plate (13) is also provided with a third circular through hole (18) of which the axis passes through the intersection point of the first strip-shaped through hole (16) and the second strip-shaped through hole (17), the right side plate (14) and the left side plate (13) have the same structure and also comprise a first steel plate (2) and a second steel plate (21) which are vertically and crossly connected with each other, the first steel plate (2) and the second steel plate (21) are respectively inserted into the first strip-shaped through hole (16) and the second strip-shaped through hole (17); the connecting ribs (15) are rotationally symmetrical with the axis of the circular through hole III (18), cross grooves (19) corresponding to the strip-shaped through hole I (16) and the strip-shaped through hole II (17) are formed in the connecting ribs (15), and the steel plate I (2) and the steel plate II (21) are inserted into the cross grooves (19); the hollow frame structure block (1) is made of expanded and vitrified micro-bead material; the hollow part of the hollow frame structure block body (1) is poured with thermal insulation mortar; the first steel plate (2) and the second steel plate (21) are both perpendicular to the left side plate (13), and the first steel plate (2) is parallel to the top plate (11).