CN219060575U - Water-resistant energy-saving fly ash autoclaved aerated block - Google Patents

Abstract

The utility model discloses a water-resistant energy-saving fly ash autoclaved aerated block, which relates to the technical field of autoclaved aerated blocks and comprises a device body, wherein the device body comprises a first connecting device and a second connecting device, waterproof devices are arranged at the tops of the first connecting device and the second connecting device and comprise a polyurethane waterproof coating layer, a protection plate, a cement layer and a sealing plate, the polyurethane waterproof coating layer is uniformly smeared at the tops of the first connecting device and the second connecting device, the protection plate is welded at the tops of the polyurethane waterproof coating layer, a cement layer is uniformly paved inside the protection plate, and the sealing plate is paved at the tops of the cement layer.

Description

Water-resistant energy-saving fly ash autoclaved aerated block

Technical Field

The utility model relates to the technical field of autoclaved aerated blocks, in particular to a water-resistant energy-saving fly ash autoclaved aerated block.

Background

Autoclaved aerated concrete blocks are made of siliceous materials such as: sand, fly ash, siliceous tailings, and the like, and calcareous materials such as: lime and cement are used as main raw materials, an aluminum powder gas generating agent is added, water is added and stirred, pores are formed by chemical reaction, and the porous silicate is prepared through the technological processes of casting molding, precuring cutting, autoclaved curing and the like.

Through searching, the patent with the Chinese patent number of CN 211229032U discloses a water-resistant energy-saving fly ash autoclaved aerated block, when the connection between the aerated block ends is carried out, a fixed block at one aerated block end can be inserted into a second butt joint groove at the other aerated block end, and meanwhile, the butt joint block is matched with the first butt joint groove, so that the connection firmness between the aerated blocks can be improved, the aerated blocks are prevented from being separated from each other, the generation of cracks is avoided, but the problem still exists is that the two autoclaved aerated blocks are loose when being used for a long time, and if the autoclaved aerated blocks are paved for a long time without adding cement, cracks still occur, and water inflow and falling phenomena are caused.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a water-resistant energy-saving fly ash autoclaved aerated block, which solves the problems in the background art.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a water-resistant energy-saving fly ash autoclaved aerated block, which comprises a device body, wherein the device body comprises a first connecting device and a second connecting device, the tops of the first connecting device and the second connecting device are provided with a waterproof device, the waterproof device comprises a polyurethane waterproof coating layer, a protection plate, a cement layer and a sealing plate, the tops of the first connecting device and the second connecting device are uniformly coated with the polyurethane waterproof coating layer, the top of the polyurethane waterproof coating layer is welded with the protection plate, the inside of the protection plate is uniformly paved with the cement layer, and the top of the cement layer is paved with the sealing plate;

the first connecting device comprises a first steam-aerated building block, a first placing groove, a second placing groove, a first limiting hole and a second limiting hole, wherein the first placing groove is transversely symmetrically formed in the outer wall of the first steam-aerated building block, the second placing groove is longitudinally symmetrically formed in the outer wall of the first steam-aerated building block, the first limiting hole is formed in the rectangular outer wall of the first steam-aerated building block, and the second limiting hole is formed in the center of the outer wall of the first steam-aerated building block.

Preferably, the second connecting device comprises a second steam-air-entrapping building block, a first placing block, a second placing block, a first limiting column and a second limiting column, wherein the first placing block is welded on the outer wall of the second steam-air entrapping building block in a transverse symmetrical mode, and the second placing block is welded on the outer wall of the second steam-air entrapping building block in a longitudinal symmetrical mode.

Preferably, the rectangular welding of second steam-added building block outer wall has first spacing post, the welding of second steam-added building block outer wall central point puts there is the spacing post of second, first placing block activity embedding is inside the first standing groove.

Preferably, the second placing block is movably embedded into the second placing groove, the first limiting column is movably embedded into the first limiting hole, the second limiting column is movably embedded into the second limiting hole, and the first steam-air-entrapping building block is movably attached to the second steam-air-entrapping building block.

Preferably, the device body outer wall both sides are equipped with first stop device and second stop device respectively, device body outer wall one side welding has the sealing block, the first spacing groove has been vertically seted up to sealing block outer wall.

Preferably, the sealing strip is evenly wrapped up on the inner wall of the first limiting groove, the first limiting block is longitudinally welded on the other side of the outer wall of the device body, the waterproof membrane is evenly wrapped up on the outer wall of the first limiting block, and the first limiting block is movably embedded into the first limiting groove.

Preferably, the second limiting groove is symmetrically formed in one side of the device body, the first connecting block is welded on the inner wall of the second limiting groove, the third limiting groove is formed in the outer wall of the first connecting block, and the second connecting block is symmetrically welded on the other side of the outer wall of the device body.

Preferably, a fourth limiting groove is formed in the outer wall of the second connecting block, a second limiting block is welded to the inner wall of the fourth limiting groove, and the second limiting block is movably embedded into the third limiting groove.

The utility model provides a water-resistant energy-saving fly ash autoclaved aerated block. The beneficial effects are as follows:

this energy-saving fly ash of water resistance evaporates pressure air entrainment building block through watertight fittings's setting, has increased the structure of present energy-saving fly ash of water resistance and has evaporated pressure air entrainment building block, makes its two autoclaved air entrainment building blocks more firm when connecting, also can not take place not hard up under long-time use, and the interpolation of cement makes its top more firm, has avoided two autoclaved air entrainment building blocks to take place the crack and the phenomenon of intaking, avoids appearing the phenomenon that drops, uses safelyr.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic structural view of a first limiting device according to the present utility model;

FIG. 3 is a side view of the overall structure of the present utility model;

FIG. 4 is a schematic view of a first connecting device according to the present utility model;

FIG. 5 is a schematic view of a second connecting device according to the present utility model;

fig. 6 is a schematic structural view of the waterproof device of the present utility model.

In the figure, 1, a device body; 2. a first connecting device; 21. a first steam-aerated block; 22. a first placement groove; 23. a second placement groove; 24. a first limiting hole; 25. a second limiting hole; 3. a second connecting device; 31. a second steam-aerated block; 32. a first placement block; 33. a second placement block; 34. a first limit post; 35. the second limit column; 4. a first limiting device; 41. a sealing block; 42. a first limit groove; 43. a sealing strip; 44. a first limiting block; 45. a waterproof membrane; 5. a second limiting device; 51. the second limit groove; 52. a first connection block; 53. a third limit groove; 54. a second connection block; 55. a fourth limit groove; 56. a second limiting block; 6. a waterproof device; 61. a polyurethane waterproof paint layer; 62. a protection plate; 63. a cement layer; 64. and (5) sealing the plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the embodiment of the present utility model provides a technical solution: the water-resistant energy-saving fly ash autoclaved aerated block comprises a device body 1, wherein the device body 1 comprises a first connecting device 2 and a second connecting device 3, waterproof devices 6 are arranged at the tops of the first connecting device 2 and the second connecting device 3, each waterproof device 6 comprises a polyurethane waterproof coating layer 61, a protection plate 62, a cement layer 63 and a sealing plate 64, the tops of the first connecting device 2 and the second connecting device 3 are uniformly coated with the polyurethane waterproof coating layer 61, the top of the polyurethane waterproof coating layer 61 is welded with the protection plate 62, a cement layer 63 is uniformly paved inside the protection plate 62, and the top of the cement layer 63 is paved with the sealing plate 64;

through the setting of polyurethane waterproof paint layer 61 and cement layer 63, make its two autoclaved aerated blocks more firm when connecting, avoided two autoclaved aerated blocks to take place the phenomenon of crack and intaking, avoid appearing the phenomenon that drops, use safelyr.

The first connecting device 2 comprises a first steam-air-entrapping building block 21, a first placing groove 22, a second placing groove 23, a first limiting hole 24 and a second limiting hole 25, wherein the first placing groove 22 is transversely symmetrically formed in the outer wall of the first steam-air entrapping building block 21, the second placing groove 23 is longitudinally symmetrically formed in the outer wall of the first steam-air entrapping building block 21, the first limiting hole 24 is formed in the rectangular outer wall of the first steam-air entrapping building block 21, and the second limiting hole 25 is formed in the center of the outer wall of the first steam-air entrapping building block 21.

By the first placing groove 22, the second placing groove 23, the first limiting hole 24 and the second limiting hole 25, positions are provided for the second connecting device 3 to be attached to the first connecting device 2.

The second connecting device 3 comprises a second steam-air-entrapping building block 31, a first placing block 32, a second placing block 33, a first limiting column 34 and a second limiting column 35, wherein the first placing block 32 is transversely and symmetrically welded on the outer wall of the second steam-air entrapping building block 31, the second placing block 33 is longitudinally and symmetrically welded on the outer wall of the second steam-air entrapping building block 31, the first limiting column 34 is welded on the rectangular outer wall of the second steam-air entrapping building block 31, the second limiting column 35 is welded on the central position of the outer wall of the second steam-air entrapping building block 31, the first placing block 32 is movably embedded into the first placing groove 22, the second placing block 33 is movably embedded into the second placing groove 23, the first limiting column 34 is movably embedded into the first limiting hole 24, the second limiting column 35 is movably embedded into the second limiting hole 25, and the first steam-air entrapping building block 21 is movably attached to the second steam-air entrapping building block 31.

Through the combination of the first placing block 32, the second placing block 33, the first limiting column 34 and the second limiting column 35, the second steam-added building block 31 is effectively connected with the first steam-added building block 21, so that the first steam-added building block and the second steam-added building block can be effectively attached.

The device is characterized in that a first limiting device 4 and a second limiting device 5 are respectively arranged on two sides of the outer wall of the device body 1, a sealing block 41 is welded on one side of the outer wall of the device body 1, a first limiting groove 42 is longitudinally formed in the outer wall of the sealing block 41, sealing strips 43 are uniformly wrapped on the inner wall of the first limiting groove 42, a first limiting block 44 is longitudinally welded on the other side of the outer wall of the device body 1, a waterproof membrane 45 is uniformly wrapped on the outer wall of the first limiting block 44, and the first limiting block 44 is movably embedded into the first limiting groove 42.

Through the spacing groove 42, make things convenient for its inside of better installation of first stopper 44, make things convenient for the horizontal sign indicating number of device body 1 to put things convenient for, appear becoming flexible when avoiding its sign indicating number to put things convenient for, install more firmly.

The device comprises a device body 1, wherein a second limit groove 51 is symmetrically formed in one side of the device body 1, a first connecting block 52 is welded on the inner wall of the second limit groove 51, a third limit groove 53 is formed in the outer wall of the first connecting block 52, a second connecting block 54 is symmetrically welded on the other side of the outer wall of the device body 1, a fourth limit groove 55 is formed in the outer wall of the second connecting block 54, a second limit block 56 is welded on the inner wall of the fourth limit groove 55, and the second limit block 56 is movably embedded into the third limit groove 53.

The second limiting block 56 is embedded into the third limiting groove 53, and the first connecting block 52 is embedded into the fourth limiting groove 55, so that the device body 1 can be more stable in connection.

Working principle: during the use, firstly, offer through first standing groove 22, second standing groove 23, first spacing hole 24 and second spacing hole 25, offer the position for second connecting device 3 and laminating of first connecting device 2, secondly, through first standing block 32, second standing block 33, first spacing post 34 and the combination of second spacing post 35 set up, be connected second steam aerated block 31 and first steam aerated block 21 effectively, make it can laminate effectively, offer through spacing groove 42 afterwards, make things convenient for its inside of better installation of first stopper 44, make things convenient for the horizontal stacking of device body 1, appear not hard up when avoiding its stacking, install more firmly, then in embedding third spacing groove 53 through second stopper 56, first connecting block 52 embeds in fourth spacing groove 55, can be more stable when piling up by device body 1, finally, through the setting up of polyurethane waterproof paint layer 61 and cement layer 63, make two of its aerated blocks more firm when connecting, two blocks emergence crack and the phenomenon of intaking, the phenomenon of the aerated concrete has been avoided, the effect of the aerated concrete block that the effect takes place, and the effect of the guard plate 64 is realized through setting up through the sealing plate 64, and the effect of the guard plate 64.

The utility model relates to a device body, in particular to a device body; 2. a first connecting device; 21. a first steam-aerated block; 22. a first placement groove; 23. a second placement groove; 24. a first limiting hole; 25. a second limiting hole; 3. a second connecting device; 31. a second steam-aerated block; 32. a first placement block; 33. a second placement block; 34. a first limit post; 35. the second limit column; 4. a first limiting device; 41. a sealing block; 42. a first limit groove; 43. a sealing strip; 44. a first limiting block; 45. a waterproof membrane; 5. a second limiting device; 51. the second limit groove; 52. a first connection block; 53. a third limit groove; 54. a second connection block; 55. a fourth limit groove; 56. a second limiting block; 6. a waterproof device; 61. a polyurethane waterproof paint layer; 62. a protection plate; 63. a cement layer; 64. the sealing plate and the parts are all universal standard parts or parts known to the person skilled in the art, and the structure and the principle of the sealing plate and the parts are all known to the person skilled in the art through technical manuals or through routine experimental methods.

While the fundamental and principal features of the utility model and advantages of the utility model have been shown and described, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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 disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. The utility model provides a water-resistant energy-saving fly ash evaporates pressure air entrainment building block, includes device body (1), its characterized in that: the device comprises a device body (1) and is characterized in that the device body (1) comprises a first connecting device (2) and a second connecting device (3), waterproof devices (6) are arranged at the tops of the first connecting device (2) and the second connecting device (3), each waterproof device (6) comprises a polyurethane waterproof coating layer (61), a protection plate (62), a cement layer (63) and a sealing plate (64), the tops of the first connecting device (2) and the second connecting device (3) are uniformly coated with the polyurethane waterproof coating layers (61), protection plates (62) are welded at the tops of the polyurethane waterproof coating layers (61), the cement layers (63) are uniformly paved inside the protection plates (62), and the tops of the cement layers (63) are paved with the sealing plates (64);

the first connecting device (2) comprises a first steam air-entrapping building block (21), a first placing groove (22), a second placing groove (23), a first limiting hole (24) and a second limiting hole (25), wherein the first placing groove (22) is transversely symmetrically formed in the outer wall of the first steam air-entrapping building block (21), the second placing groove (23) is longitudinally symmetrically formed in the outer wall of the first steam air-entrapping building block (21), the first limiting hole (24) is formed in the rectangular outer wall of the first steam air-entrapping building block (21), and the second limiting hole (25) is formed in the center of the outer wall of the first steam air-entrapping building block (21).

2. The water resistant energy efficient fly ash autoclaved aerated block of claim 1, wherein: the second connecting device (3) comprises a second steam-air-entrapping building block (31), a first placing block (32), a second placing block (33), a first limiting column (34) and a second limiting column (35), wherein the first placing block (32) is welded on the outer wall of the second steam-air entrapping building block (31) in a transverse symmetrical mode, and the second placing block (33) is welded on the outer wall of the second steam-air entrapping building block (31) in a longitudinal symmetrical mode.

3. The water resistant energy efficient fly ash autoclaved aerated block of claim 2, wherein: the outer wall rectangle welding of second steam air entrainment building block (31) has first spacing post (34), second steam air entrainment building block (31) outer wall central point puts and welds second spacing post (35), first placing block (32) activity embedding is inside first standing groove (22).

4. The water resistant energy efficient fly ash autoclaved aerated block of claim 2, wherein: the second placing block (33) is movably embedded into the second placing groove (23), the first limiting column (34) is movably embedded into the first limiting hole (24), the second limiting column (35) is movably embedded into the second limiting hole (25), and the first steam air-entrapping building block (21) is movably attached to the second steam air-entrapping building block (31).

5. The water resistant energy efficient fly ash autoclaved aerated block of claim 1, wherein: the device is characterized in that a first limiting device (4) and a second limiting device (5) are respectively arranged on two sides of the outer wall of the device body (1), a sealing block (41) is welded on one side of the outer wall of the device body (1), and a first limiting groove (42) is longitudinally formed in the outer wall of the sealing block (41).

6. The water resistant energy efficient fly ash autoclaved aerated block of claim 5, wherein: the waterproof device is characterized in that sealing strips (43) are uniformly wrapped on the inner wall of the first limiting groove (42), a first limiting block (44) is longitudinally welded on the other side of the outer wall of the device body (1), a waterproof film (45) is uniformly wrapped on the outer wall of the first limiting block (44), and the first limiting block (44) is movably embedded into the first limiting groove (42).

7. The water resistant energy efficient fly ash autoclaved aerated block of claim 1, wherein: second spacing groove (51) have been seted up to device body (1) one side symmetry, second spacing groove (51) inner wall welding has first connecting block (52), third spacing groove (53) have been seted up to first connecting block (52) outer wall, device body (1) outer wall opposite side symmetry welding has second connecting block (54).

8. The water resistant energy efficient fly ash autoclaved aerated block of claim 7, wherein: a fourth limiting groove (55) is formed in the outer wall of the second connecting block (54), a second limiting block (56) is welded on the inner wall of the fourth limiting groove (55), and the second limiting block (56) is movably embedded into the third limiting groove (53).

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