CN207878777U - A kind of snap-in fired brick of splicing being applied to building - Google Patents

Abstract

The utility model discloses a kind of snap-in fired brick of splicing being applied to building,Including fired brick ontology,The fired brick ontology includes the guiding splicing component piled up for adjacent two blocks of fired bricks,Clamping mechanism for the clamping of adjacent two blocks of fired bricks,Sheng Chu mechanisms for carrying out perfect in shape and function to fired brick,The fired brick ontology is rectangular parallelepiped structure,The guiding splicing component includes the splicing block being set on fired brick thickness direction,Splice slot,The splicing block is respectively arranged at the side on fired brick thickness direction with splicing slot,The splicing block matches with splicing slot,The guiding splicing component is set at the center on fired brick thickness direction,Splicing block and splicing slot in the guiding splicing component are cylindrical structure,The Sheng Chu mechanisms include winding displacement hole,Accommodating chamber,The winding displacement hole is with accommodating chamber through the length direction of this fired brick.

Description

A kind of snap-in fired brick of splicing being applied to building

Technical field

The utility model is related to building field more particularly to a kind of snap-in fired bricks of splicing being applied to building.

Background technology

Wall-building brick is divided into fired brick and no-firing brick by production technology difference, and fired brick has had more than 2,000 years in China History is still a kind of current very extensive materials for wall, and there are many type of brick, by raw materials be divided into clay brick, shale brick, Gangue brick, flyash brick, Dinas brickes and cinder brick etc.;The existing certain intensity of fired common brick, and have preferable heat-insulated, sound insulation Performance, winter indoor wall are not in dew condensation phenomenon, and cheap.Although various new materials for walls continuously emerge, But fired brick can still be used as a kind of main material in masonry project, common fired brick to have certainly within a period of time from now on Great, small, the shortcomings of energy consumption is high, low construction efficiency, replaces sintering common with sintered perforated brick and sintered hollow block Brick can make building weight reduction 30% or so, save clay 20%-30%, save fuel 10%-20%, and wall construction effect improves 40%, and improve the heat-and sound-insulating performance of brick, usually under the requirement of identical thermal property, with the thickness of wall body of hollow brick masonry Than bat or so is thinned with the wall of solid brick masonry, so promoting the use of porous brick and hollow brick is to speed up China's materials for wall Reform promotes one of the important measures of materials for wall industrial technological advancement.

Invention content

To solve the deficiencies in the prior art, it is snap-in to be to provide a kind of splicing being applied to building for the purpose of this utility model Fired brick.

To realize the above-mentioned technical purpose, technical solution used by the utility model is as follows.

It is a kind of to include applied to the snap-in fired brick of splicing built, including fired brick ontology, the fired brick ontology The clamping mechanism that pile up for adjacent two blocks of fired bricks guiding splicing component, is clamped for adjacent two blocks of fired bricks, for pair Fired brick carries out the Sheng Chu mechanisms of perfect in shape and function.

As further improvement of the utility model.

The fired brick ontology is rectangular parallelepiped structure, and the guiding splicing component includes being set to fired brick thickness side Upward splicing block, splicing slot, the splicing block is respectively arranged at the side on fired brick thickness direction with splicing slot, described Splicing block with splicing slot match, the guiding splicing component is set at the center on fired brick thickness direction, described Guiding splicing component in splicing block with splicing slot be cylindrical structure.

As further improvement of the utility model.

The clamping mechanism is set to the both sides of fired brick width direction, and the clamping mechanism includes being set to sintering The left card adapter plate of brick width direction side, the right card adapter plate for being set to the fired brick width direction other side, left card adapter plate and left card The left card slot for being clamped right card adapter plate, right card adapter plate and the side wall where right card adapter plate are provided between side wall where fishplate bar Between be provided with right card slot for being clamped left card adapter plate, left card adapter plate matches with right buckling groove, right card adapter plate and left clamping Slot matches.

As further improvement of the utility model.

The Sheng Chu mechanisms include winding displacement hole, accommodating chamber, and the winding displacement hole is with accommodating chamber through this fired brick Length direction, the through-hole of fired brick thickness direction is provided through in the short transverse of the fired brick, pilot hole is described Pilot hole be set as four, four pilot holes are respectively arranged at the incline of fired brick.

The advantageous effect of the utility model compared with prior art is that this fired brick is easy to splice, and construction is more convenient, The working efficiency for improving builder has saved manpower, meanwhile, the stabilized structure of the building body after being piled up using this fired brick, Extend the service life of building body.

Description of the drawings

In order to illustrate more clearly of the utility model embodiment, letter will be done to attached drawing needed in the embodiment below Single introduction, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the utility model, general for this field For logical technical staff, without creative efforts, other drawings may also be obtained based on these drawings.

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of the utility model.

Fig. 3 is the front view of the utility model.

Fig. 4 is the vertical view of the utility model.

It is denoted as in figure：1, splicing block；2, splice slot；3, pilot hole；4, left card adapter plate；5, right card adapter plate；6, winding displacement hole； 7, accommodating chamber.

Specific implementation mode

With reference to the attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu is fully described by, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than all implements Example.Based on the embodiments of the present invention, those of ordinary skill in the art without making creative work, are obtained The every other embodiment obtained, belongs to scope of protection of the utility model.

As shown in Figs 1-4, a kind of snap-in fired brick of splicing being applied to building, including fired brick ontology, the burning Knot brick ontology includes that pile up for adjacent two blocks of fired bricks guiding splicing component, the clamping that is clamped for adjacent two blocks of fired bricks Mechanism, the Sheng Chu mechanisms for carrying out perfect in shape and function to fired brick.

More optimize, the fired brick ontology is rectangular parallelepiped structure, and the fired brick of rectangular parallelepiped structure is the vertical of rule Cube structure is easy between two fired bricks splice and can realize slitless connection after splicing, and keeps whole building body surface face smooth flat It is whole, meanwhile, the fired brick stabilized structure of rectangular parallelepiped structure, the stability of the fired brick piled up to adjacent two due to building body have compared with High requirement, therefore, the fired brick of rectangular parallelepiped structure can be widely applied in building.

Common fired brick general structure is relatively simple, and mostly uses the connecting method of bonding agent greatly, works as ordinary sinter When brick makes two blocks of adjacent fired bricks bond together by bonding agent, since the surface of common fired brick is more smooth, two Opposite sliding easily occurs for fired brick, and to make building body shift, safety is relatively low, meanwhile, the construction of common fired brick It is more inconvenient, it is higher to the construction technical requirement of builder, need whether two fired brick of careful monitoring neighbouring is aligned, so as to cause Construction progress is slow, and the duration is longer, and above-mentioned ask can be solved by the guiding splicing component, the clamping mechanism that are set on fired brick Topic.

The guiding splicing component includes the splicing block 1 being set on fired brick thickness direction, splices slot 2, described Splicing block is respectively arranged at the side on fired brick thickness direction with splicing slot, and the splicing block 1 matches with splicing slot 2, When piling up this fired brick so that pass through splicing block 1 and the company of matching by way of the splicing cooperation of slot 2 between per two blocks of adjacent fired bricks It connects, to ensure that the stability of adjacent two sintering brick structure, when the splicing block 1 on fired brick and the splicing on another fired brick When the matching connection of slot 2, gap is not will produce between spliced two fired brick, ensure that the overall beautiful of building body.

More optimize, the guiding splicing component is set at the center on fired brick thickness direction, is designed in this way Meaning be, be oriented to splicing component and be located at the center of fired brick thickness direction and can ensure that the center of gravity of fired brick does not occur partially Turn, spliced two fired brick is more firm, it is preferred that the splicing block 1 in the guidings splicing component is with slot 2 is spliced The mating surface of cylindrical structure, cylindrical splicing block 1 and splicing slot 2 can make concatenation easy to be arc-shaped.

The clamping mechanism is set to the both sides of fired brick width direction, and the clamping mechanism includes being set to sintering The left card adapter plate 4 of brick width direction side, the right card adapter plate 5 for being set to the fired brick width direction other side, left card adapter plate 4 and a left side The left card slot for being clamped right card adapter plate 5, right card adapter plate 5 and 5 place of right card adapter plate are provided between side wall where card adapter plate 4 Side wall between be provided with right card slot for being clamped left card adapter plate 4, left card adapter plate 4 matches with right buckling groove, right card adapter plate 5 Match with left buckling groove, when being clamped two adjacent fired brick, left card adapter plate 4 matches connection, right card adapter plate 5 with right buckling groove Connection is matched with left buckling groove, two adjacent fired bricks is made to be sequentially connected with and the upper surface flush of two adjacent fired bricks, is protected The compactness of adjacent two fired bricks connection is demonstrate,proved.

More optimize, the Sheng Chu mechanisms include winding displacement hole 6, accommodating chamber 7, and the winding displacement hole 6 is equal with accommodating chamber 7 Through the length direction of this fired brick, the winding displacement hole 6 is used to arrange the circuit needed for defeated construction building, is used in accommodating chamber 7 In setting protectiveness material, for example, water proofing property, fire line, sound-proofing material etc..

It is more perfect, it is provided through the through-hole of fired brick thickness direction in the short transverse of the fired brick, leads To hole 3, it is preferred that the pilot hole 3 is set as four, and four pilot holes 3 are respectively arranged at the incline of fired brick, After two adjacent fired bricks splice up and down, the pilot hole 3 of upper fired brick and lower fired brick is in connected state, is built when piling up It is inserted into reinforcing bar when body, in the pilot hole 3 that is connected and pours into a mould concrete, make to pile up after the bonding solidification of concrete and rebar builds Building body structure is more firm.

This fired brick is prepared by the major ingredient and dispensing of following weight：Major ingredient is 30 parts of soft clay, and potassium is long 20 parts of stone, 35 parts of aluminite, 15 parts of silica；Dispensing is 2 parts of lime.

The method of above-mentioned fired brick, includes the following steps：

A, it is crushed, the raw material of weight is crushed, wherein grain size is more than 3mm contents after raw material is broken

1%-2%, grain size are that 1-4mm contents are 1%-5%, and grain size is that 1~2mm contents are 10%-15%, and grain size is 0.6~1mm contents are 30%-40%, and grain size is that 0.3~0.5mm contents are 26%-30%, and grain size is less than 0.3mm contents 17%-20%；Wherein, it is less than the as few as possible of 0.2mm, on the one hand can be anti-skidding, compressive resistance can also be increased；But also not Can be very little, otherwise can compactness be reduced.

B, batch mixing mixes the raw material of above-mentioned each grain size, and then belt is sent under forcing press；

C, it is molded, is molded using Full Automatic Liquid press, monolithic brick briquetting pressure is 70t；

When more than 100t, the seepage of water of brick reduces；When less than 70t, compression strength is inadequate；

D, it paints, is painted using spray tower；

E, it dries, is completed in drying room, 70 DEG C of dryings；Burning natural gas release tail gas when drying temperature selection forms by a firing When included temperature need first to heat tunnel kiln or raceway kiln before carrying out technological process, when heating, needs Burn natural gas, passes through drying room with regard to the pipeline of combustion tail gas, is used for drying.

F, burning type is completed in tunnel kiln or raceway kiln, and temperature is 1100 DEG C.

The foregoing description of the disclosed embodiments enables professional and technical personnel in the field to realize or use this practicality new Type；Various modifications to these embodiments will be apparent to those skilled in the art, the utility model Defined in General Principle can be in the case where not departing from the spirit or scope of the utility model, in other embodiments It realizes.Therefore, the utility model will not be defined to the embodiments shown herein, and be to fit to it is disclosed herein Principle and the consistent widest range of features of novelty.

Claims (4)

1. a kind of snap-in fired brick of splicing being applied to building, including fired brick ontology, which is characterized in that the fired brick Ontology includes that pile up for adjacent two blocks of fired bricks guiding splicing component, the clamping machine that is clamped for adjacent two blocks of fired bricks Structure, the Sheng Chu mechanisms for carrying out perfect in shape and function to fired brick.

2. a kind of snap-in fired brick of splicing being applied to building according to claim 1, which is characterized in that the burning Knot brick ontology is rectangular parallelepiped structure, and the guiding splicing component includes the splicing block being set on fired brick thickness direction, spells Access slot, the splicing block are respectively arranged at the side on fired brick thickness direction, the splicing block and splicing with splicing slot Slot matches, and the guiding splicing component is set at the center on fired brick thickness direction, the guiding splicing component In splicing block with splicing slot be cylindrical structure.

3. a kind of snap-in fired brick of splicing being applied to building according to claim 1, which is characterized in that the card Connection mechanism is set to the both sides of fired brick width direction, and the clamping mechanism includes being set to fired brick width direction side Left card adapter plate, the right card adapter plate for being set to the fired brick width direction other side, side wall where left card adapter plate and left card adapter plate it Between be provided with left card slot for being clamped right card adapter plate, be provided with for card between the side wall where right card adapter plate and right card adapter plate The right card slot of left card adapter plate is connect, left card adapter plate matches with right buckling groove, and right card adapter plate matches with left buckling groove.

4. a kind of snap-in fired brick of splicing being applied to building according to claim 1, which is characterized in that the Sheng Storage mechanism includes winding displacement hole, accommodating chamber, and the winding displacement hole and accommodating chamber are described through the length direction of this fired brick The through-hole of fired brick thickness direction, pilot hole are provided through in the short transverse of fired brick, the pilot hole is set as four A, four pilot holes are respectively arranged at the incline of fired brick.