CN213014959U - Anti-seismic cement brick - Google Patents

Abstract

The utility model discloses an antidetonation type cement brick, including the brick body, one side of the brick body is provided with a plurality of tenons, and a plurality of and tenon assorted draw-in grooves have been seted up to the opposite side, link up from top to bottom the draw-in groove, and the draw-in groove includes spacing and the slot that communicates each other, and the tenon includes with spacing groove assorted spacing and with slot assorted cutting, spacing groove and spacing all are cylindrically, and slot and cutting all are the rectangle. The utility model has the advantages that: the utility model discloses structural strength is high and antidetonation is effectual, because be provided with a plurality of tenons in one side of the brick body, the opposite side has seted up a plurality ofly and tenon assorted draw-in groove, then when meetting violent vibrations such as earthquake, even the bonding mortar breaks off, and is fixed through the cooperation between tenon and the draw-in groove, also can keep the firm connection between the adjacent brick body, avoids shaking too big cement brick that leads to and connects the inefficacy to can effectively prevent wall body fracture and collapse.

Description

Anti-seismic cement brick

Technical Field

The utility model relates to a building material technical field specifically is an antidetonation type cement brick.

Background

The cement brick is a novel wall material which is manufactured by using fly ash, coal cinder, coal gangue, tailing slag, chemical slag or one or more of natural sand, tidal marsh mud and the like (as raw materials) as main raw materials, using cement as a coagulant and not calcining at high temperature. The cement brick has light self weight, high strength, no need of firing and simple material, so that the cement brick is widely applied.

At present, current cement brick structure is comparatively simple, and when using cement brick masonry wall body, only connect fixedly by the bonding mortar between the adjacent cement brick, not be provided with other connection structure, connect firmly inadequately, when meetting violent vibrations such as earthquake, the bonding mortar breaks and will lead to the connection inefficacy between the adjacent cement brick to lead to the wall body fracture even collapse.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an antidetonation type cement brick that the connection fastness is high in order to solve foretell problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose, an antidetonation type cement brick, including the brick body, one side of the brick body is provided with a plurality of tenons, and a plurality of and tenon assorted draw-in grooves have been seted up to the opposite side, link up from top to bottom the draw-in groove, the draw-in groove is including the spacing groove and the slot that communicate each other, the tenon include with spacing groove assorted spacing and with slot assorted cutting, spacing groove and spacing all are cylindrically, slot and cutting all are the rectangle.

By adopting the technical scheme, as the tenons are arranged on one side of the brick bodies, the clamping grooves matched with the tenons are arranged on the other side of the brick bodies, the clamping grooves comprise the limiting grooves and the inserting grooves, the tenons comprise the limiting strips matched with the limiting grooves and the inserting strips matched with the inserting grooves, when the cement brick is used for building a wall body, the connection between the adjacent cement bricks is needed to be realized firstly, the tenons can be vertically clamped into the clamping grooves, the limiting strips are clamped into the limiting grooves, the inserting strips are clamped into the inserting grooves, the limiting locking of the limiting strips by the limiting grooves ensures that the adjacent brick bodies are not easy to separate when being applied with horizontal acting force, thereby realizing the firm connection between the adjacent cement bricks, after the connection between the adjacent cement bricks is finished, the bonding mortar can be injected between the adjacent brick bodies for fixing, and the building of the wall body can be completed by repeating the operation, the operation is comparatively convenient simple, then when meetting violent vibrations such as earthquake, even the bonding mortar breaks off, fixed through the cooperation between tenon and the draw-in groove, also can keep the firm connection between the adjacent brick body, avoids shaking too big cement brick that leads to and connects the inefficacy to can effectively prevent wall body fracture and collapse.

As a further setting of the utility model, the semicircular groove that link up about seting up between the adjacent tenon on the brick body lateral wall is first, the semicircular groove that link up about seting up is second on the brick body lateral wall between the adjacent draw-in groove, semicircular groove one is the same with the shape size of semicircular groove two.

Through adopting above-mentioned technical scheme, owing to seted up half slot one on the lateral wall of the brick body, seted up half slot two on another lateral wall, and half slot one is the same with the shape size of half slot two, then when connecting between the adjacent brick body and finishing the back, half slot one can form a whole circular slot with the relative laminating of half slot two, then can pour into the whole circular slot that half slot one and half slot two formed with the bonding mortar to the firm in connection between the adjacent cement brick has effectively been promoted.

As a further setting of the utility model, lie in on the brick body lateral wall between the adjacent tenon and set up the notes sand seam one that communicates with half slot, lie in on the brick body lateral wall between the adjacent draw-in groove and set up the notes sand seam two that communicates with half slot two, notes sand seam one is the same with the shape size of notes sand seam two.

Through adopting above-mentioned technical scheme, owing to set up on the lateral wall of the brick body with the notes sand seam one of half slot first intercommunication, set up on the other lateral wall with the notes sand seam two of half slot two intercommunication, and notes sand seam one is the same with the shape size of notes sand seam two, then after connecting between the adjacent brick body, notes sand seam one realizes the intercommunication with the two relative laminating of notes sand seam, then can pour into the notes sand seam one with the two insides of notes sand seam with the bonding mortar, make the bonding area increase between the adjacent brick body, thereby make the connection between the adjacent cement brick more firm.

As a further setting of the utility model, be provided with the abaculus on the top surface of the brick body, set up on the bottom surface of the brick body with abaculus assorted caulking groove.

Through adopting above-mentioned technical scheme, owing to be provided with the abaculus on the top surface of the brick body, and offer on the bottom surface of the brick body with abaculus assorted caulking groove, then when cement brick vertically piles up, can aim at the caulking groove embedding with the abaculus, then spacing through the caulking groove to the abaculus, can realize the prepositioning of vertically piling up the cement brick, make the vertical piling up of cement brick more accurate convenience, the loaded down with trivial details operation of having removed the cement brick of lining up from, make the operation of piling up the cement brick become more convenient simple.

As a further arrangement of the utility model, the cross section of the inserted block and the caulking groove is regular hexagon.

Through adopting above-mentioned technical scheme, because the cross section of abaculus and caulking groove all is regular hexagon to make the caulking groove more firm to the spacing of abaculus, avoid the abaculus to take place to rotate in the caulking groove is inside, thereby guaranteed to the vertical predetermined stability of piling up of cement brick.

As a further setting of the utility model, the internal portion of brick is provided with a plurality of strengthening ribs, the cross section of strengthening rib all is X-shaped.

Through adopting above-mentioned technical scheme, owing to be provided with a plurality of strengthening ribs at the internal portion of brick, and the cross section of strengthening rib all is X shape to can strengthen the intensity of the brick body greatly when guaranteeing that the brick body is light, thereby make the shock resistance of cement brick obtain effective reinforcing.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model has high structural strength and good anti-seismic effect, when the wall body is built by using cement bricks, the connection between the adjacent cement bricks is needed to be realized firstly, the tenon can be vertically clamped into the clamping groove to clamp the limit strip into the limit groove, the insert strip is clamped into the slot, the limit locking of the limit strip is realized by the limit groove, the adjacent bricks are not easy to separate when being applied with horizontal acting force, thereby realizing the firm connection between the adjacent cement bricks, after the connection between the adjacent cement bricks is finished, the adhesive mortar can be injected between the adjacent bricks for fixing, the operation is repeated, the building of the wall body can be completed, the operation is convenient and simple, even if the adhesive mortar is broken when severe vibrations such as earthquake occur, the firm connection between the adjacent bricks can be kept through the matching and fixing between the tenon and the clamping groove, avoid shaking too big cement brick connection inefficacy that leads to can effectively prevent wall body fracture and collapse.

Drawings

Fig. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a splicing view of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

fig. 5 is a half-sectional view of the present invention.

Reference numerals: 1. a brick body; 2. a limiting groove; 3. a slot; 4. a limiting strip; 5. cutting; 6. a first semicircular groove; 7. a second semicircular groove; 8. injecting a sand seam I; 9. injecting a sand gap II; 10. an insert block; 11. caulking grooves; 12. and (5) reinforcing ribs.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, an anti-seismic cement brick comprises a brick body 1, a plurality of reinforcing ribs 12 are arranged in the brick body 1, the cross sections of the reinforcing ribs 12 are all in an X shape, a plurality of tenons are arranged on one side of the brick body 1, a plurality of clamping grooves matched with the tenons are arranged on the other side of the brick body, the clamping grooves are communicated up and down, each clamping groove comprises a limiting groove 2 and a slot 3 which are communicated with each other, each tenon comprises a limiting strip 4 matched with the limiting groove 2 and an inserting strip 5 matched with the slot 3, each limiting groove 2 and each limiting strip 4 are cylindrical, each slot 3 and each inserting strip 5 are rectangular, a semicircular groove I6 which is communicated up and down is arranged between adjacent tenons on the side wall of the brick body 1, a semicircular groove II 7 which is communicated up and down is arranged between adjacent clamping grooves on the side wall of the brick body 1, the semicircular groove I6 is identical to the semicircular groove II 7 in shape and size, a sand injection seam I8 which is communicated with the semicircular groove I6 is arranged between adjacent, set up two 9 with two 7 intercommunication's of semicircle groove notes sand seam between the adjacent draw-in groove on the lateral wall of the brick body 1, and annotate sand seam one 8 and annotate the shape size of sand seam two 9 the same, be provided with abaculus 10 on the top surface of the brick body 1, set up on the bottom surface of the brick body 1 with abaculus 10 assorted caulking groove 11, and the cross section of abaculus 10 and caulking groove 11 all is regular hexagon.

Because a plurality of tenons are arranged on one side of the brick body 1, a plurality of clamping grooves matched with the tenons are arranged on the other side of the brick body, the clamping grooves comprise a limiting groove 2 and a slot 3, the tenons comprise a limiting strip 4 matched with the limiting groove 2 and an inserting strip 5 matched with the slot 3, when the cement brick is used for building a wall body, the connection between adjacent cement bricks is needed to be realized firstly, the tenons can be vertically clamped into the clamping grooves, the limiting strips 4 are clamped into the limiting groove 2 along with the insertion strip 5, the inserting strip 5 is clamped into the slot 3 along with the insertion strip, the limiting locking of the limiting strips 4 by the limiting groove 2 ensures that the adjacent brick bodies 1 are not easy to separate when being acted by horizontal direction, thereby realizing the firm connection between the adjacent cement bricks, after the connection between the adjacent cement bricks is finished, the bonding mortar can be injected between the adjacent brick bodies 1 for fixing, the operation is repeated, and the building of the wall body, the operation is comparatively convenient simple, then when meetting violent vibrations such as earthquake, even the bonding mortar breaks off, fixed through the cooperation between tenon and the draw-in groove, also can keep the firm connection between the adjacent brick body 1, avoids shaking too big cement brick that leads to and connects the inefficacy to can effectively prevent wall body fracture and collapse.

Because the first half slot 6 is arranged on one side wall of the brick body 1, the second half slot 7 is arranged on the other side wall, and the shape and the size of the first half slot 6 are the same as those of the second half slot 7, after the connection between the adjacent brick bodies 1 is finished, the first half slot 6 and the second half slot 7 are oppositely jointed to form a whole circular slot, the bonding mortar can be injected into the whole circular slot formed by the first half slot 6 and the second half slot 7, thereby effectively improving the connection firmness between the adjacent cement bricks, and because the first sand injection slot 8 communicated with the first half slot 6 is arranged on one side wall of the brick body 1, the second sand injection slot 9 communicated with the second half slot 7 is arranged on the other side wall, and the shape and the size of the first sand injection slot 8 are the same as those of the second sand injection slot 9, after the connection between the adjacent brick bodies 1 is finished, the first sand injection slot 8 and the second sand injection slot 9 are oppositely jointed to realize the communication, the bonding mortar can be injected into the first sand injection slot 8 and the second sand injection slot 9, the bonding area between the adjacent brick bodies 1 is increased, so that the connection between the adjacent cement bricks is firmer.

Because be provided with the abaculus 10 on the top surface of the brick body 1, and set up on the bottom surface of the brick body 1 with abaculus 10 assorted caulking groove 11, then when the vertical heap of cement brick, can be with the embedding of abaculus 10 alignment caulking groove 11, then spacing through caulking groove 11 to abaculus 10, can realize the prepositioning to the vertical heap of cement brick, make the vertical heap of cement brick more accurate convenient, the loaded down with trivial details operation of having removed alignment cement brick from, make the operation of piling up the cement brick become more convenient simple, and because the cross section of abaculus 10 and caulking groove 11 all is regular hexagon, thereby make caulking groove 11 more firm to the spacing of abaculus 10, avoid the abaculus 10 to take place to rotate in caulking groove 11 is inside, thereby guaranteed to the stability of the vertical heap of cement brick prepositioning.

Because the inside a plurality of strengthening ribs 12 that are provided with of the brick body 1, and the cross section of strengthening rib 12 all is X shape to can guarantee that 1 matter of brick body is light and simultaneously strengthened the intensity of the brick body 1 greatly, thereby make the shock resistance of cement brick obtain effective reinforcing.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides an antidetonation type cement brick, includes the brick body (1), its characterized in that: one side of the brick body (1) is provided with a plurality of tenons, and a plurality of and tenon assorted draw-in grooves have been seted up to the opposite side, the draw-in groove link up from top to bottom, the draw-in groove includes spacing groove (2) and slot (3) that communicate each other, the tenon include with spacing groove (2) assorted spacing (4) and with slot (3) assorted cutting (5), spacing groove (2) and spacing (4) all are cylindrically, slot (3) and cutting (5) all are the rectangle.

2. An earthquake-resistant cement brick as claimed in claim 1, wherein: the brick is characterized in that a first semicircular groove (6) which is through from top to bottom is formed between adjacent tenons on the side wall of the brick body (1), a second semicircular groove (7) which is through from top to bottom is formed between adjacent clamping grooves on the side wall of the brick body (1), and the first semicircular groove (6) and the second semicircular groove (7) are identical in shape and size.

3. An earthquake-resistant cement brick as claimed in claim 2, wherein: the brick is characterized in that a first sand injection joint (8) communicated with a first semicircular groove (6) is formed between adjacent tenons on the side wall of the brick body (1), a second sand injection joint (9) communicated with a second semicircular groove (7) is formed between adjacent clamping grooves on the side wall of the brick body (1), and the first sand injection joint (8) and the second sand injection joint (9) are identical in shape and size.

4. An earthquake-resistant cement brick as claimed in claim 1, wherein: the brick is characterized in that an embedded block (10) is arranged on the top surface of the brick body (1), and an embedded groove (11) matched with the embedded block (10) is formed in the bottom surface of the brick body (1).

5. An earthquake-resistant cement brick as claimed in claim 4, wherein: the cross sections of the embedded blocks (10) and the embedded grooves (11) are regular hexagons.

6. An earthquake-resistant cement brick as claimed in claim 1, wherein: a plurality of reinforcing ribs (12) are arranged inside the brick body (1), and the cross sections of the reinforcing ribs (12) are X-shaped.

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