CN214195187U - Environmental protection aerated brick of concatenation formula - Google Patents

Abstract

The utility model belongs to the technical field of the building material technique and specifically relates to an environmental protection aerated brick of concatenation formula is related to, including the brick body, the brick body has brick upper surface and brick lower surface, still including installing the first concatenation subassembly of brick upper surface, install the second concatenation subassembly and the reinforcement assembly of brick lower surface, on the brick body first concatenation subassembly be used for with another brick body the second concatenation subassembly cooperates, the reinforcement assembly is used for consolidating between two brick bodies first concatenation subassembly and the second concatenation subassembly. The problem that the structural strength of the positioning assembly on the aerated brick is not enough in the related art is improved, and the two aerated bricks are reinforced without consuming extra building materials, so that the requirements of energy conservation and environmental protection are met.

Description

Environmental protection aerated brick of concatenation formula

Technical Field

The application relates to the field of building material technology, in particular to a spliced environment-friendly aerated brick.

Background

The aerated brick is generally referred to as an aerated concrete block, and is produced by a high-temperature autoclaved equipment process. The aerated brick has the advantages of light weight, good heat insulation performance, strong shock resistance, good environmental protection performance, good processing performance and the like, so the aerated brick is widely applied to factory buildings and civil buildings.

When the aerated bricks are used, the aerated bricks are generally piled into a wall body, namely cement is coated on the combination position of the aerated bricks, then another aerated brick is placed on the combination position of the previous aerated brick, and after the cement is solidified, the effect of firm connection can be achieved. At present, in order to improve the installation accuracy of the aerated bricks during stacking, positioning components such as positioning columns and positioning holes are usually arranged on the aerated bricks, so that the positioning and splicing of the two aerated bricks are facilitated.

With respect to the related art among the above, the inventors consider that the following drawbacks occur: when the wall body is spliced by using the brick body with the positioning assembly, the wall body is used for a long time, the positioning column can be out of work such as fracture, and then the wall body is inclined, namely the positioning assembly on the aerated brick has insufficient structural strength.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that locating component structural strength is not enough on the air entrainment brick among the correlation technique, this application provides the environmental protection air entrainment brick of concatenation formula.

The application provides a concatenation formula's environmental protection aerated brick adopts following technical scheme:

the utility model provides an environmental protection aerated brick of concatenation formula, includes the brick body, the brick body has brick upper surface and brick lower surface, still including installing the first concatenation subassembly of brick upper surface, install the second concatenation subassembly and the reinforcement assembly of brick lower surface, on the brick body first concatenation subassembly be used for with another brick body the second concatenation subassembly cooperates, reinforcement assembly is used for consolidating the structural strength between two brick bodies.

Through adopting above-mentioned technical scheme, after fixing a position and assembling two brick bodies through first concatenation subassembly and second concatenation subassembly, will consolidate the subassembly equipment again between two brick bodies, consolidate the subassembly and just can increase the structural strength of two brick bodies to make the connection of two brick bodies more stable, consequently, relative ratio in only locating component's air entrainment brick, locating component structural strength not enough problem on the air entrainment brick has been improved to the environmental protection air entrainment brick of foretell concatenation formula.

Optionally, the first splicing assembly comprises a first bottom plate arranged on the upper surface of the brick and a positioning boss fixedly arranged on the first bottom plate, the second splicing assembly comprises a second bottom plate arranged on the lower surface of the brick and a positioning column fixedly arranged on the second bottom plate, a positioning hole matched with the positioning column is formed in the positioning boss, and the positioning column is in sliding connection with the positioning hole.

Through adopting above-mentioned technical scheme, when needs use first concatenation subassembly and second concatenation subassembly cooperation, aim at the locating hole of location boss and the application of force is packed into with the reference column, just can slide the reference column in the locating hole, the in-process that the reference column slided into the locating hole can play the guide effect to the brick body, the location and the installation between the two brick bodies of being convenient for.

Optionally, a table reinforcing rib is fixedly arranged on the positioning boss, and the table reinforcing rib is fixedly connected with the first base plate.

Through adopting above-mentioned technical scheme, can increase the structural strength of location boss through the platform strengthening rib, the location boss is not fragile in the use to increase the job stabilization nature of location boss.

Optionally, there are at least two table reinforcing ribs.

Through adopting above-mentioned technical scheme, through setting up two at least strengthening ribs in order to further increase the structural strength and the job stabilization nature of location boss.

Optionally, a first groove is formed in the first bottom plate, a second groove is formed in the second bottom plate, the reinforcing assembly comprises a body, a first protruding block fixedly arranged on the body and a second protruding block fixedly arranged on the body, the first protruding block is connected with or separated from the first groove in a clamped mode, and the second protruding block is connected with or separated from the second groove in a clamped mode.

Through adopting above-mentioned technical scheme, when needs use the first concatenation subassembly and the second concatenation subassembly of reinforcement subassembly reinforcing between two bricks, aim at corresponding first recess and second recess respectively and the application of force is packed into with first lug and the second lug on the reinforcement subassembly, just can pack into the reinforcement subassembly to between first bottom plate and the second bottom plate, the reinforcement subassembly then can exert a holding power to first bottom plate and second bottom plate, reaches the reinforcement effect.

Optionally, the reinforcement assembly further comprises four installation parts, namely, two installation parts, which are fixedly arranged on the body, wherein the installation parts are connected with the first bottom plate threaded holes of one brick body, and the installation parts are connected with the second bottom plate threaded holes of the other brick body.

Through adopting above-mentioned technical scheme, the mode that the reinforcement subassembly passes through threaded connection is installed on first bottom plate and second bottom plate for the reinforcement subassembly is difficult for falling out from first bottom plate and second bottom plate in the use, promotes the job stabilization nature of reinforcement subassembly.

Optionally, a reinforcing rib assembly is arranged in the brick body, the reinforcing rib assembly comprises a vertical reinforcing rib which is fixedly arranged in the brick body, and the vertical reinforcing rib is used for increasing the structural strength of the brick body.

Through adopting above-mentioned technical scheme, through set up vertical strengthening rib in the brick body, strengthen air entrainment brick intensity and rigidity in vertical direction, promote the structural strength who strengthens the brick promptly.

Optionally, the reinforcing rib assembly further comprises a horizontal reinforcing rib fixedly arranged in the brick body, and the horizontal reinforcing rib is perpendicular to the vertical reinforcing rib.

Through adopting above-mentioned technical scheme, through at internal horizontal strengthening rib that sets up of brick, horizontal strengthening rib cooperatees with vertical strengthening rib for the strengthening rib subassembly can increase the structural strength of brick body horizontal direction, also can increase the structural strength of the vertical direction of the brick body, thereby further improves the structural strength of the brick body.

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

1. according to the spliced environment-friendly aerated brick, the reinforcing assembly is arranged between the brick bodies, so that the structural strength between the two brick bodies is increased, and the connection between the two brick bodies is firmer, so that the situation that the structural strength of the positioning assembly in the related technology is insufficient is improved;

2. the utility model provides a heat retaining environmental protection aerated brick still includes the strengthening rib subassembly, through set up the strengthening rib subassembly in the brick body, can improve the structural strength of the brick body, increases the bearing capacity of the brick body promptly.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a spliced environment-friendly aerated brick of the application;

FIG. 2 is an installation schematic diagram of an embodiment of the splicing type environment-friendly aerated brick.

Description of reference numerals: 1. a brick body; 11. the upper surface of the brick; 12. the lower surface of the brick; 2. a first splice assembly; 21. a first base plate; 211. a first mounting member; 212. a first groove; 22. positioning the boss; 221. positioning holes; 23. a table reinforcing rib; 3. a second splice assembly; 31. a second base plate; 311. a second mount; 312. a second groove; 32. a positioning column; 4. a reinforcement assembly; 41. a body; 42. a first bump; 43. a second bump; 44. an installation part; 5. a stiffener assembly; 51. a vertical reinforcing rib; 52. and (7) horizontal reinforcing ribs.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses environmental protection aerated brick of concatenation formula. Referring to fig. 1, the spliced environment-friendly aerated brick comprises a brick body 1, wherein the brick body 1 is substantially in a cuboid shape. The brick body 1 has a brick upper surface 11 and a brick lower surface 12 on both sides in the height direction.

Referring to fig. 1 and 2, in order to facilitate the positioning of the brick body 1 during stacking, a first splicing assembly 2 and a second splicing assembly 3 are installed on the brick body 1, specifically, the first splicing assembly 2 includes a first bottom plate 21 installed on the brick upper surface 11 and a positioning boss 22 fixedly arranged on the first bottom plate 21, the first bottom plate 21 is substantially in a rectangular shape, in order to be installed on the brick body 1, a first installation part 211 is fixedly arranged on one side of the first bottom plate 21 close to the brick body 1, the first installation part 211 is substantially in a cylindrical shape, correspondingly, a first brick through hole is formed in the brick upper surface 11, the first brick through hole is used for being matched with the first installation part 211, and the first installation part 211 may be rubber. In this embodiment, the number of the first mounting members 211 is four, the four first mounting members 211 are respectively located at four corners of the first bottom plate 21, and the number of the first brick through holes is the same as that of the first mounting members 211 and corresponds to the first brick through holes one by one. Therefore, the first bottom plate 21 is aligned with the first brick through hole of the brick upper surface 11 and force is applied to be installed, the first installation member 211 is elastically deformed and then clamped in the first brick through hole, and the first bottom plate 21 can be installed on the brick upper surface 11.

The positioning boss 22 is fixedly connected to the side of the first bottom plate 21 away from the brick upper surface 11, and the positioning boss 22 is provided to cooperate with the second splice assembly 3. The positioning bosses 22 are substantially rectangular, there are four positioning bosses 22, the four positioning bosses 22 are respectively located in the middle of the four straight edges of the first base plate 21, one side of the positioning boss 22 away from the first base plate 21 is provided with a positioning hole 221, and the positioning hole 221 is used for being matched with the second splicing assembly 3. Meanwhile, in order to increase the structural strength of the positioning boss 22, a platform reinforcing rib 23 is fixedly connected to the positioning boss 22, the platform reinforcing rib 23 is substantially triangular prism-shaped, the platform reinforcing rib 23 is also fixedly connected to the first base plate 21, and each positioning boss 22 corresponds to three platform reinforcing ribs 23. By providing the table reinforcing ribs 23, the table reinforcing ribs 23 can effectively increase the structural strength of the positioning boss 22, thereby increasing the working stability of the positioning boss 22.

The second splicing assembly 3 comprises a second bottom plate 31 arranged on the lower surface 12 of the brick and a positioning column 32 fixedly arranged on the second bottom plate 31. Specifically, the second bottom plate 31 is substantially in a rectangular parallelepiped shape, and similarly to the first bottom plate 21, a second mounting part 311 is fixedly provided on a side of the second bottom plate 31 away from the brick body 1, the second mounting part 311 is substantially in a cylindrical shape, and the second mounting part 311 may be specifically rubber. Correspondingly, a second brick through hole is formed in the lower brick surface 12, and the second brick through hole is matched with the second mounting piece 311. Therefore, when the second bottom plate 31 needs to be installed, the second bottom plate 31 can be installed into the lower brick surface 12 by aligning and force-fitting the second installation members 311 of the second bottom plate 31 with the second brick through holes of the lower brick surface 12, in this embodiment, there are four second installation members 311, the four second installation members 311 are respectively located on four corners of the second bottom plate 31, and the number of the second brick through holes is the same as and corresponds to the number of the second installation members 311.

The positioning columns 32 are located on one side of the second bottom plate 31 away from the brick body 1, the positioning columns 32 are substantially cylindrical, the positioning columns 32 are used for being matched with the positioning holes 221, the number of the positioning columns 32 is the same as that of the positioning bosses 22, and the positioning columns 32 correspond to the positioning bosses one by one, that is, four positioning columns 32 are located on four corners of the second bottom plate 31 respectively. Therefore, when the brick body 1 needs to be stacked, cement is coated on the first bottom plate 21 of one of the brick bodies 1, then the positioning column 32 of the other brick body 1 is aligned with the positioning hole 221 on the positioning boss 22 of the other brick body 1 and is loaded in by applying force, the brick body 1 can be guided through the positioning column 32 and the positioning boss 22, so that the installation accuracy of the two brick bodies 1 is improved, after the two brick bodies 1 are assembled, the accommodating space is formed between the two brick bodies 1 and used for accommodating the cement, after the cement is solidified, the connection between the two brick bodies 1 can be realized. Through the containing space, when the cement is less, the containing space is difficult to fill with the cement, and an operator can add the cement into the containing space to ensure the bonding force of the cement after solidification; when cement is more, the cement can overflow from the containing space, and an operator can scrape off the excessive cement to reduce the waste of materials, namely, the cement amount between the two brick bodies 1 is kept constant.

In order to increase the connecting strength of the two brick bodies 1, the environment-friendly aerated brick further comprises a reinforcing component 4. The reinforcing member 4 includes a body 41, a first projection 42 fixedly provided on the body 41, a second projection 43 fixedly provided on the body 41, and a mounting portion 44 fixedly provided on the body 41. Specifically, the body 41 is substantially rectangular parallelepiped, the first protrusion 42 is located on one side of the body 41 in the length direction, the first protrusion 42 is substantially rectangular parallelepiped, the second protrusion 43 is located on the other side of the body 41 in the length direction, the second protrusion 43 is substantially rectangular parallelepiped, and accordingly, the first bottom plate 21 is provided with the first groove 212, the second bottom plate is provided with the second groove 312, the first protrusion 42 is in clamping connection with or separated from the first groove 212, and the second protrusion 43 is in clamping connection with or separated from the second groove 312. Therefore, the body 41 drives the first protrusion 42 to be inserted into the first groove 212, and the second protrusion 43 is inserted into the second groove 312, so that the connection strength and the structural strength between the two bricks 1 can be increased.

The purpose of the mounting portions 44 is to increase the operational stability of the reinforcing element 4, the mounting portions 44 being substantially of a cuboid shape, the mounting portions 44 being four in number, two mounting portions 44 being located on either side of the first projection 42 and being in threaded connection with the first base plate 21 of one brick 1, and the other two mounting portions 44 being located on either side of the second projection 43 and being in threaded connection with the second base plate 31 of the other brick 1. By providing the mounting portion 44, the reinforcing member 4 can be stably supported by being fixed between the first bottom plate 21 and the second bottom plate 31 in use. Meanwhile, the reinforcing component 4 is detachably connected in a threaded connection mode, and when the reinforcing component 4 is damaged, the reinforcing component 4 can be conveniently detached for maintenance or replacement.

In addition, in order to increase the structural strength of the brick body 1, the brick body 1 is internally provided with a reinforcing rib assembly 5, the reinforcing rib assembly 5 comprises a plurality of vertical reinforcing ribs 51 fixedly arranged in the brick body 1 and a plurality of horizontal reinforcing ribs 52 fixedly arranged in the brick body 1, the axis of the vertical reinforcing ribs 51 is vertically arranged, the axis of the horizontal reinforcing ribs 52 is horizontally arranged, the vertical reinforcing ribs 51 can be steel bars specifically, the horizontal reinforcing ribs 52 can be steel bars specifically, and the vertical reinforcing ribs 51 can be integrally formed with the horizontal reinforcing ribs 52. Through set up strengthening rib subassembly 5 in the brick body 1 for the brick body 1 has bigger bearing capacity, increases the structural strength of brick body 1 promptly.

The implementation principle of the environment-friendly aerated brick of this application embodiment of a concatenation formula is: install first concatenation subassembly 2 on brick upper surface 11, install second concatenation subassembly 3 at brick lower surface 12, counterpoint and install two brick bodies 1 through first concatenation subassembly 2 and second concatenation subassembly 3, after two brick bodies 1 realized the subassembly, pack into reinforcing component 4 to two brick bodies 1 again on to increase structural strength and joint strength between two brick bodies 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 (5)

1. The utility model provides an environmental protection aerated brick of concatenation formula, includes the brick body (1), the brick body (1) has brick upper surface (11) and brick lower surface (12), its characterized in that: the brick comprises a brick body (1) and is characterized by further comprising a first splicing assembly (2) arranged on the upper surface (11) of the brick, a second splicing assembly (3) arranged on the lower surface (12) of the brick and a reinforcing assembly (4), wherein the first splicing assembly (2) on the brick body (1) is used for being matched with the second splicing assembly (3) on the other brick body (1), and the reinforcing assembly (4) is used for reinforcing the structural strength between the two brick bodies (1); the first splicing assembly (2) comprises a first bottom plate (21) arranged on the upper surface (11) of the brick and a positioning boss (22) fixedly arranged on the first bottom plate (21), the second splicing assembly (3) comprises a second bottom plate (31) arranged on the lower surface (12) of the brick and a positioning column (32) fixedly arranged on the second bottom plate (31), the positioning boss (22) is provided with a positioning hole (221) matched with the positioning column (32), and the positioning column (32) is in sliding connection with the positioning hole (221);

the reinforcing component (4) comprises a body (41), a first bump (42) fixedly arranged on the body (41) and a second bump (43) fixedly arranged on the body (41), the first bump (42) is connected with or separated from the first groove (212), and the second bump (43) is connected with or separated from the second groove (312);

consolidate subassembly (4) and still including fixed setting four installation department (44), two on body (41) installation department (44) and one of them brick body (1) first bottom plate (21) screw hole is connected, two in addition installation department (44) and one brick body (1) second bottom plate (31) threaded connection in addition.

2. The splicing type environment-friendly aerated brick according to claim 1, characterized in that: a platform reinforcing rib (23) is fixedly arranged on the positioning boss (22), and the platform reinforcing rib (23) is fixedly connected with the first bottom plate (21).

3. The splicing type environment-friendly aerated brick according to claim 2, characterized in that: at least two reinforcing ribs (23) are arranged.

4. The splicing type environment-friendly aerated brick according to claim 1, characterized in that: be provided with strengthening rib subassembly (5) in the brick body (1), strengthening rib subassembly (5) is including fixed setting vertical strengthening rib (51) in the brick body (1), vertical strengthening rib (51) are used for increasing the structural strength of the brick body (1).

5. The splicing type environment-friendly aerated brick according to claim 4, characterized in that: the reinforcing rib assembly (5) further comprises a horizontal reinforcing rib (52) fixedly arranged in the brick body (1), and the horizontal reinforcing rib (52) is perpendicular to the vertical reinforcing rib (51).

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