CN212715492U - Aerated concrete brick - Google Patents

Abstract

The utility model belongs to the technical field of the brick of laying bricks and specifically relates to an aerated concrete brick of laying bricks is related to, it is including cutting the brick body, it is provided with polylith and piling up and forms the wall of laying bricks to cut the brick body, be provided with inserted block and slot respectively with two adjacent both sides surfaces that cut the brick body relatively of layer, inserted block and slot cooperation of pegging graft, be provided with the closure subassembly that is used for locking and deblocking cut the brick body between inserted block and the slot, two adjacent both sides surfaces that cut the brick body relatively of layer are provided with location sand grip and constant head tank respectively, the location sand grip all sets up along the width direction who cuts the brick body with the constant head tank, location sand grip and constant head. So make about two-layer and with the polylith between the layer cut brick body and form the interlocking, and then make and cut the brick body and fix a position the sign indicating number when building a wall and build, strengthened the joint force of cutting the brick body, reduce the skew of cutting the brick body.

Description

Aerated concrete brick

Technical Field

The application relates to the field of concrete pressurized steam building blocks, in particular to an aerated concrete brick.

Background

The autoclaved aerated concrete block is a porous concrete product prepared by using fly ash, lime, cement, gypsum, slag and the like as main raw materials, adding a proper amount of a gas former, a regulator and a bubble stabilizer, and carrying out the processes of batching, stirring, pouring, standing, cutting, high-pressure autoclaving and the like.

For example, chinese patent with patent publication No. CN204876283U discloses an environment-friendly aerated block, which comprises an aerated cut brick body, wherein the aerated cut brick body is uniformly provided with a plurality of grooves, the grooves are filled with a mixture of glass waste and polystyrene foam waste particles, and the opening parts of the grooves are provided with cement sealing covers. Through a plurality of grooves which can be filled with small-particle objects, the mixture of the glass waste slag and the polystyrene foam waste particles can be filled in, so that the environmental pollution can be reduced.

Aiming at the related technologies, the inventor thinks that the building blocks can not be connected with a positioning structure to connect and position the upper and lower layers or the adjacent building blocks on the same layer, and in the process of building a wall, the wall is built by matching the building blocks with mortar, and constructors build the wall by using the building blocks, if external force is applied to the wall, local building blocks are easy to move, and particularly, the wall can collapse under the condition that the mortar is not completely hardened.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of easy skew when the sign indicating number is built, this application provides 1 an aerated concrete brickwork.

The application provides a pair of aerated concrete brick adopts following technical scheme:

the utility model provides an aerated concrete brick, includes the brick cutting body, the brick cutting body is provided with polylith and builds a brick wall just, with adjacent two on the same layer the both sides surface that the brick cutting body is relative is provided with inserted block and slot respectively, the inserted block with the slot cooperation of pegging graft, the inserted block with be provided with between the slot and be used for locking and unblock the closure subassembly of brick cutting body, upper and lower adjacent two the both sides surface that the brick cutting body is relative is provided with location sand grip and constant head tank respectively, the location sand grip with the constant head tank is all followed the width direction of brick cutting body sets up, the location sand grip with the constant head tank cooperation of pegging graft.

Through adopting above-mentioned technical scheme, add the inserted block and make with the slot and carry out preliminary location with two adjacent brick bodies of cutting on the same floor, utilize the closure subassembly to carry out the closure to the inserted block, so make with two adjacent brick body connections of cutting on the same floor, be provided with protruding and constant head tank in location on the adjacent brick body of cutting from top to bottom simultaneously, location sand grip and constant head tank grafting cooperation, so make about two-layer and with the polylith between the floor brick body of cutting form the interlocking, and then make the brick body of cutting fix a position the piling up when building a wall, the joint force of brick body has been strengthened, reduce the skew of brick body of cutting.

Preferably, the locking assembly comprises two connecting blocks and two connecting grooves corresponding to the connecting blocks, the two connecting blocks are respectively connected to two ends of the inserting block in the width direction, the two connecting grooves are formed in two opposite side surfaces of the inserting groove, and the inserting blocks are matched with the corresponding inserting grooves in an inserting mode.

Through adopting above-mentioned technical scheme, the cooperation of pegging graft of connecting block and spread groove so can make with adjacent inserted block of layer and slot fixed connection together, so make with adjacent two building blocks of layer can bear stronger shear force and deformation, make and cut the brick body when the piling up, the inserted block is difficult because of not hard up sliding and cause and cut the brick body skew in the slot.

Preferably, the connecting block with the cross section of spread groove all is the setting of arc form.

Through adopting above-mentioned technical scheme, the area of contact between connecting block and the spread groove can be increased in the setting of arc form, make between connecting block and the spread groove be connected more stable and the compacter laminating.

Preferably, a plurality of locating blocks are arranged at the bottoms of the locating grooves and are arranged along the length direction of the locating grooves, locating convex strips are arranged on the surface, deviating from the brick cutting body, of one side of each locating block, locating holes corresponding to the locating blocks are formed in the surfaces, deviating from the brick cutting body, of the locating holes, the locating holes are arranged along the length direction of the locating convex strips, and the locating blocks are matched with the locating holes in an inserted connection mode.

Through adopting above-mentioned technical scheme, the locating piece is pegged graft with the locating hole and is cooperated two piece upper and lower adjacent brick cutting bodies to fix a position the hacking, and the building block of two-layer upper and lower is difficult for sliding when the hacking and is walked and lead to building a wall and warp, and the hacking of two-layer upper and lower brick cutting bodies of also being convenient for aligns.

Preferably, the cutting brick body is provided with a sound insulation hole for accommodating sound insulation cotton.

Through adopting above-mentioned technical scheme, add on cutting the brick body and separate the sound hole, place soundproof cotton in the sound hole, so enable to cut the sound insulation effect that the brick body played.

Preferably, the brick cutting body is provided with two reinforcing steel mesh sheets, and the two reinforcing steel mesh sheets are fixedly arranged at two ends of the sound insulation hole.

Through adopting above-mentioned technical scheme, setting up of reinforcing bar net piece has played to place and has hindered the fence effect at the downthehole soundproof cotton of soundproof cotton, makes soundproof cotton difficult dropping from the soundproof hole at the in-process of piling up.

Preferably, a plurality of support rods are arranged in the sound insulation hole, the support rods are arranged along the width direction of the sound insulation hole, and the support rods are detachably connected with the brick cutting body.

By adopting the technical scheme, the supporting rod has a supporting effect on the cut brick body so as to enhance the supporting strength of the cut brick body and enable the cut brick body to bear larger shearing force; the supporting rod and the brick cutting body are detachably connected, so that the supporting rod is convenient to mount.

Preferably, the insertion block is provided with a through shifting hole.

Through adopting above-mentioned technical scheme, the setting of dialling the hole is convenient for constructor to move and is cut the brick body and carry out the piling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the inserting block and the inserting groove are additionally arranged to preliminarily position two adjacent brick cutting bodies on the same layer, the inserting block is locked by the locking assembly, and meanwhile, the positioning convex and the positioning groove are arranged on the adjacent brick cutting bodies up and down, and the positioning convex strips are in inserting fit with the positioning grooves, so that the plurality of brick cutting bodies are interlocked, and the brick cutting bodies are positioned and stacked when a wall is built;

2. the connecting block is in splicing fit with the connecting groove, so that the adjacent inserting blocks on the same layer can be fixedly connected with the inserting grooves;

3. add on cutting the brick body and separate the sound hole, place soundproof cotton in the sound hole, so enable the sound insulation effect that cuts the brick body and play.

Drawings

FIG. 1 is a schematic illustration of the assembly of two concrete segments according to an embodiment of the present application;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of an embodiment of the present application;

fig. 4 is a schematic diagram of an explosive structure according to an embodiment of the present application.

Description of reference numerals: 1. cutting the brick body; 2. inserting a block; 3. a slot; 4. connecting blocks; 5. connecting grooves; 6. positioning the convex strip; 7. positioning a groove; 8. poking holes; 9. positioning blocks; 10. positioning holes; 11. a sound insulation hole; 12. sound insulation cotton; 13. a support bar; 14. perforating; 15. mounting holes; 16. screwing a cover; 17. reinforcing mesh sheets; 18. a cross-shaped groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses aerated concrete brick. Referring to fig. 1, including cutting brick body 1, cutting brick body 1 can set up the polylith, and polylith cutting brick body 1 paints through the mortar and just stacks in proper order and form required walling.

Referring to fig. 1 and 2, in order to connect two adjacent cut brick bodies 1 on the same layer, two opposite side surfaces of the two adjacent cut brick bodies 1 on the same layer are respectively provided with an insertion block 2 and an insertion groove 3. The insert 2 is integrally formed on one cut brick body 1, the slot 3 is formed in the other cut brick body 1, and the insert 2 and the slot 3 are in inserting fit. The vertical sections of the insertion block 2 and the insertion groove 3 are all rectangular. Meanwhile, a locking component used for locking and unlocking the cut brick body 1 is arranged between the insertion block 2 and the insertion groove 3, the locking component comprises two connecting blocks 4 and two connecting grooves 5 which are in one-to-one correspondence with the connecting blocks 4, and the two connecting blocks 4 are respectively and integrally formed at two ends of the insertion block 2 in the width direction. Two spread grooves 5 are opened in the opposite both sides surface of slot 3, and each inserted block 2 is pegged graft with the slot 3 cooperation that corresponds, and the anti sliding ability of two adjacent brick bodies 1 of cutting on the same layer so makes to reduce the skew of cutting brick body 1.

It should be noted that, connecting block 4 all is the arc form setting with the cross section of spread groove 5, can compacter laminating when making connecting block 4 peg graft with spread groove 5, so make connecting block 4 be connected more stably with spread groove 5. Meanwhile, the connecting blocks 4 at the two ends of the width direction of the insert block 2 can be arranged in a plurality, and the connecting blocks 4 are arranged along the length direction of the insert block 2. Correspondingly, a plurality of connecting grooves 5 are formed in the two opposite groove walls of the slot 3, so that the contact area between the insert 2 and the slot 3 can be increased, the connecting force between the insert 2 and the slot 3 is enhanced, and the insert 2 and the slot 3 are connected more firmly.

Referring to fig. 1 and 3, two opposite side surfaces of two adjacent tile cutting bodies 1 are respectively provided with a positioning convex strip 6 and a positioning groove 7. In this embodiment, the number of the positioning protruding strips 6 is two, and the two positioning protruding strips 6 are respectively located on two sides of the tile cutting body 1 along the width direction and located on the top of the tile cutting body 1. Correspondingly, constant head tank 7 is provided with two, and two constant head tanks 7 are located and cut brick body 1 along length direction's both sides, and set up in the bottom of cutting brick body 1, and constant head tank 7 runs through the setting along the width direction who cuts brick body 1. Each location sand grip 6 and the cooperation of pegging graft of the constant head tank 7 that corresponds to be convenient for about two-layer adjacent two blocks cut brick body 1 yards of laying bricks. In addition, offer on the inserted block 2 and be convenient for constructor's transport and cut the hole 8 of dialling of brick body 1, dial hole 8 and run through the setting along the width direction of inserted block 2.

Simultaneously, the constant head tank 7 tank bottom is provided with a plurality of locating piece 9, and in this embodiment, the quantity of locating piece 9 is three, and three locating pieces 9 set up along the length direction equidistance of constant head tank 7, and three and each locating piece 9 one-to-one's locating hole 10 is seted up on the side surface that the location sand grip 6 deviates from to cut brick body 1, and three locating hole 10 sets up along the length direction of location sand grip 6. The positioning block 9 is in inserting fit with the positioning hole 10, so that the anti-sliding capacity between the upper and lower adjacent brick cutting bodies 1 is enhanced, and the loosening offset between the upper and lower adjacent brick cutting bodies 1 is reduced.

Referring to fig. 1 and 4, the brick cutting body 1 is provided with a sound insulation hole 11 for accommodating sound insulation cotton 12, the sound insulation hole 11 penetrates along the width direction of the brick cutting body 1, and the vertical section of the sound insulation hole 11 is rectangular, so that the brick cutting body 1 has a certain sound insulation effect. In order to fix the soundproof cotton 12 in the sound insulation hole 11 and make the soundproof cotton not easy to drop in the construction process, two reinforcing mesh sheets 17 are arranged on the cut brick body 1, and the two reinforcing mesh sheets 17 are fixedly welded at the two ends of the sound insulation hole 11 in the length direction.

A plurality of support rods 13 which are vertically arranged are arranged in the sound insulation hole 11, in this embodiment, the number of the support rods 13 is three, and the three support rods 13 are arranged along the width direction of the sound insulation hole 11. In order to install the supporting rods 13 conveniently, the three supporting rods 13 are detachably connected with the brick cutting body 1. The hole wall of the sound insulation hole 11 close to the top of the brick cutting body 1 is provided with through holes 14 corresponding to the support rods 13 one by one, and each through hole 14 is arranged in a penetrating mode. Separate a pore wall that sound hole 11 is close to and cut 1 bottom of brick body and offer the mounting hole 15 that corresponds with perforation 14, each bracing piece 13 passes corresponding perforation 14 and inserts in the mounting hole 15 that corresponds, the one end welding that mounting hole 15 was kept away from to bracing piece 13 has spiral cover 16, the lateral wall circumference of spiral cover 16 is provided with the external screw thread, perforation 14's inside wall circumference is provided with the internal thread, external screw thread and internal thread threaded connection, make bracing piece 13 fix in separating sound hole 11, with this support intensity who has strengthened cutting brick body 1. In addition, the top of the screw cap 16 is provided with a cross-shaped groove 18.

The application embodiment 1. an implementation principle of aerated concrete brickwork is as follows: add inserted block 2 and slot 3 on cutting brick body 1, add connecting block 4 and spread groove 5 between inserted block 2 and the slot 3 that corresponds, inserted block 2 and the cooperation of pegging graft of slot 3, connecting block 4 and the cooperation of pegging graft of spread groove 5, so can strengthen the power of being connected between two adjacent brick bodies 1 on the same floor, set up location sand grip 6 and constant head tank 7 respectively simultaneously at the building block top with the bottom, make location sand grip 6 and constant head tank 7 cooperation of pegging graft, so make polylith cut brick body 1 form the interlocking when the sign indicating number is built, and then make and cut brick body 1 difficult skew when the sign indicating number is built and walk the position, slide because of not hard up and cause the danger of collapsing with reducing and cutting brick body 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an aerated concrete brick, includes and cuts brick body (1), its characterized in that: cut brick body (1) and be provided with polylith and pile up and build a wall, with adjacent two on the same layer cut brick body (1) relative both sides surface and be provided with inserted block (2) and slot (3) respectively, inserted block (2) with slot (3) cooperation of pegging graft, inserted block (2) with be provided with between slot (3) and be used for locking and unblock the closure subassembly of cutting brick body (1), upper and lower adjacent two cut brick body (1) relative both sides surface is provided with location sand grip (6) and constant head tank (7) respectively, location sand grip (6) with constant head tank (7) are all followed the width direction of cutting brick body (1) sets up, location sand grip (6) with constant head tank (7) cooperation of pegging graft.

2. The aerated concrete brick according to claim 1, wherein: the locking assembly comprises two connecting blocks (4) and two connecting grooves (5) corresponding to the connecting blocks (4), the two connecting blocks (4) are respectively connected to two ends of the inserting block (2) in the width direction, the two connecting grooves (5) are arranged on two opposite side surfaces of the inserting groove (3), and the inserting blocks (2) are matched with the corresponding inserting grooves (3) in an inserting mode.

3. The aerated concrete brick according to claim 2, wherein: the connecting block (4) and the cross section of the connecting groove (5) are both arc-shaped.

4. The aerated concrete brick according to claim 1, wherein: the utility model discloses a brick cutting machine, including locating groove (7), locating groove (7) tank bottom is provided with a plurality of locating piece (9), a plurality of locating piece (9) are followed the length direction of locating groove (7) sets up, location sand grip (6) deviate from a side surface of cutting brick body (1) is provided with and each locating hole (10) that locating piece (9) correspond, and a plurality of locating hole (10) are followed the length direction of location sand grip (6) sets up, locating piece (9) with locating hole (10) are pegged graft and are cooperated.

5. The aerated concrete brick according to claim 1, wherein: the cutting brick body (1) is provided with a sound insulation hole (11) for containing sound insulation cotton (12).

6. The aerated concrete brick according to claim 5, wherein: two reinforcing bar net pieces (17) are arranged on the brick cutting body (1), and the two reinforcing bar net pieces (17) are fixedly arranged at two ends of the sound insulation hole (11).

7. The aerated concrete brick according to claim 5, wherein: a plurality of support rods (13) are arranged in the sound insulation hole (11), the support rods (13) are arranged along the width direction of the sound insulation hole (11), and the support rods (13) are detachably connected with the brick cutting body (1).

8. The aerated concrete brick according to claim 1, wherein: the plug block (2) is provided with a shifting hole (8) which is arranged in a penetrating way.

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