CN206256605U - A kind of sintered anti-pressure insulation block - Google Patents

Abstract

The utility model discloses a sintered pressure-resistant thermal insulation block, which comprises a block body. The block body includes a large surface, a strip surface and a top surface. A trapezoidal protrusion is arranged on the one top surface. There are grooves matching the trapezoidal protrusions on the surface, four rows of rectangular holes are arranged on the large surface, the first row of rectangular holes and the third row of rectangular holes are each provided with three, the second row of rectangular holes There are two rectangular holes and the fourth row of rectangular holes, the first row of rectangular holes, the second row of rectangular holes, the third row of rectangular holes, and the fourth row of rectangular holes are arranged alternately; It has good thermal insulation performance and good compressive strength.

Description

A kind of sintered anti-pressure insulation block

technical field

The utility model relates to the technical field of building materials, in particular to a sintered pressure-resistant and heat-preserving block.

Background technique

Blocks are artificial blocks used for building walls. They are a new type of wall material, and their shapes are mostly rectangular hexahedrons. Blocks are artificial blocks made of concrete, industrial waste (slag, coal fly ash, etc.) or local materials. They have relatively large dimensions, simple equipment, and fast masonry speed. demand for reform. Insulation blocks have the characteristics of light weight, high strength, thermal insulation, sound absorption and sound insulation, energy saving and environmental protection, etc. Its comprehensive performance is excellent, and it is an excellent building insulation material for buildings.

The existing block has the disadvantages of poor thermal insulation effect and compressive strength.

Utility model content

The technical problem to be solved by the utility model is to provide a sintered compression-resistant and heat-insulating block with good thermal insulation performance and good compressive strength.

In order to solve the above problems, the utility model adopts the following technical solutions:

A sintered pressure-resistant thermal insulation block, comprising a block body, the block body includes a large surface, a strip surface and a top surface, a trapezoidal protrusion is provided on the one top surface, and a trapezoidal protrusion is provided on the other top surface For grooves matching the trapezoidal protrusions, four rows of rectangular holes are arranged on the large surface, and the first row of rectangular holes and the third row of rectangular holes are each provided with three, the second row of rectangular holes and the third row of rectangular holes There are two rectangular holes in each of the four rows, and the first row of rectangular holes, the second row of rectangular holes, the third row of rectangular holes, and the fourth row of rectangular holes are arranged alternately in sequence.

Preferably, the rectangular holes are through holes.

Preferably, the length of the short side of the rectangular hole is half of the long side.

As a preference, the first row of rectangular holes and the third row of rectangular holes are provided with horizontal insulation boards, the second row of rectangular holes and the fourth row of rectangular holes are provided with longitudinal insulation boards, and the horizontal insulation boards isolate the longitudinal The heat exchange of the vertical insulation board is isolated from the horizontal heat exchange, which can effectively reduce the horizontal and vertical heat conduction speed and improve the thermal insulation performance of the block.

As a preference, both the horizontal insulation board and the longitudinal insulation board are benzene boards or extruded plastic boards.

The beneficial effects of the utility model are: the sintered pressure-resistant thermal insulation block is provided with a trapezoidal protrusion on one top surface, and a groove matching the trapezoidal protrusion is provided on the other top surface. When building masonry, the trapezoidal protrusion Cooperating with the groove, it can greatly reduce the labor force of building the wall and improve the precision of the wall. There are four rows of rectangular holes on the large surface, and each row of holes is arranged alternately, so as to extend the heat conduction path of the block and make it have good heat preservation. Thermal insulation performance, at the same time has good compressive strength, to meet the needs of building energy saving.

Description of drawings

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is described in further detail, wherein:

Fig. 1 is a schematic diagram of a three-dimensional structure of a sintered pressure-resistant thermal insulation block of the present invention.

Fig. 2 is a three-dimensional structural schematic view of a sintered pressure-resistant heat-insulation block of the present invention with the horizontal heat-insulation board and the longitudinal heat-insulation board removed.

detailed description

Example 1

As shown in Figures 1 and 2, a sintered pressure-resistant thermal insulation block includes a block body 1, and the block body 1 includes a large surface 2, a strip surface 3 and a top surface 4, and on the top surface 4 Trapezoidal protrusions 5 are provided, grooves 6 matching the trapezoidal protrusions 5 are provided on the other top surface 4, four rows of rectangular holes 7 are provided on the large surface 2, and the first row of rectangular holes 7 There are three holes and the third row of rectangular holes, two of the second row of rectangular holes and the fourth row of rectangular holes, the first row of rectangular holes, the second row of rectangular holes, and the third row of rectangular holes and the fourth row of rectangular holes are arranged in a staggered order.

The beneficial effects of this embodiment are: the sintered pressure-resistant heat preservation block is provided with a trapezoidal protrusion on one top surface, and a groove matching the trapezoidal protrusion is provided on the other top surface. Cooperating with the groove, it can greatly reduce the labor force of building the wall and improve the precision of the wall. There are four rows of rectangular holes on the large surface, and each row of holes is arranged alternately, so as to extend the heat conduction path of the block and make it have good heat preservation. Thermal insulation performance, at the same time has good compressive strength, to meet the needs of building energy saving.

Example 2

As shown in Figures 1 and 2, a sintered pressure-resistant thermal insulation block includes a block body 1, and the block body 1 includes a large surface 2, a strip surface 3 and a top surface 4, and on the top surface 4 Trapezoidal protrusions 5 are provided, grooves 6 matching the trapezoidal protrusions 5 are provided on the other top surface 4, four rows of rectangular holes 7 are provided on the large surface 2, and the first row of rectangular holes 7 There are three holes and the third row of rectangular holes, two of the second row of rectangular holes and the fourth row of rectangular holes, the first row of rectangular holes, the second row of rectangular holes, and the third row of rectangular holes , the fourth row of rectangular holes are alternately arranged successively, the rectangular holes 7 are through holes, the length of the short side of the rectangular holes is half of the long side, the first row of rectangular holes and the third row of rectangular holes are all provided with Horizontal insulation board 8, the second row of rectangular holes and the fourth row of rectangular holes are all provided with longitudinal insulation board 9, the horizontal insulation board 8 isolates the heat exchange in the longitudinal direction, and the longitudinal insulation board 9 isolates the heat exchange in the transverse direction, which can effectively reduce The heat conduction speed in the transverse direction and the longitudinal direction improves the thermal insulation performance of the block, and the transverse thermal insulation board 8 and the longitudinal thermal insulation board 9 are both benzene boards or extruded plastic boards.

The beneficial effects of this embodiment are: the sintered pressure-resistant heat preservation block is provided with a trapezoidal protrusion on one top surface, and a groove matching the trapezoidal protrusion is provided on the other top surface. Cooperating with the groove, it can greatly reduce the labor force of building the wall and improve the precision of the wall. There are four rows of rectangular holes on the large surface, and each row of holes is arranged alternately, so as to extend the heat conduction path of the block and make it have good heat preservation. Thermal insulation performance, at the same time has good compressive strength, to meet the needs of building energy saving.

The above is only a specific embodiment of the utility model, but the scope of protection of the utility model is not limited thereto, and any change or replacement that is not thought of through creative work should be covered within the scope of protection of the utility model .

Claims (5)

1. A sintered compression-resistant thermal insulation block, comprising a block body, the block body comprising a large surface, a strip surface and a top surface, characterized in that: one side of the top surface is provided with a trapezoidal protrusion, and the top surface On the other side, there are grooves matching the trapezoidal protrusions, and the large surfaces are respectively provided with a first row of rectangular holes, a second row of rectangular holes, a third row of rectangular holes, and a fourth row of rectangular holes. There are three rectangular holes in the first row and three rectangular holes in the third row, two rectangular holes in the second row and two rectangular holes in the fourth row, the rectangular holes in the first row, the second row of rectangular holes, the The three rows of rectangular holes and the fourth row of rectangular holes are arranged alternately in sequence. 2. The sintered pressure-resistant and heat-insulating block according to claim 1, wherein the rectangular hole is a through hole. 3. The sintered pressure-resistant thermal insulation block according to claim 2, wherein the short side of the rectangular hole is half the length of the long side. 4. The sintered pressure-resistant and heat-insulating block according to claim 2, characterized in that: the first row of rectangular holes and the third row of rectangular holes are provided with transverse insulation boards, the second row of rectangular holes and the third row of rectangular holes Longitudinal insulation boards are arranged in the four rows of rectangular holes. 5. The sintered compression-resistant thermal insulation block according to claim 4, characterized in that: the horizontal thermal insulation board and the longitudinal thermal insulation board are both benzene boards or extruded plastic boards.