CN114961086A - Building wall brick made by regenerating building waste - Google Patents

Abstract

The invention relates to a building wall brick, in particular to a building wall brick prepared by recycling building wastes. The invention aims to provide a building wall brick which is made of recycled building wastes and is convenient to connect and disassemble. The invention provides a building wall brick prepared by recycling building wastes, which comprises bricks, sliding blocks, guide rods and the like, wherein the bricks are isosceles right triangles, the rear sides of the bricks are inclined planes, positioning grooves are formed in the right sides of the upper parts of the front sides and the left sides of the upper parts of the rear sides of the bricks, the sliding blocks are connected in the positioning grooves in a sliding mode, and the guide rods are connected to the outer sides of the sliding blocks. According to the invention, the bricks can be loosened in the vertical direction by pushing the pushing rod of the uppermost brick to move, and the bricks can be loosened in the horizontal direction by pushing the pushing rods of the adjacent bricks to move, so that people can take the bricks down conveniently, and the method is time-saving and labor-saving and is not easy to damage the bricks.

Description

Building wall brick made by regenerating building waste

Technical Field

The invention relates to a building wall brick, in particular to a building wall brick prepared by recycling building wastes.

Background

At present, along with the increase of housing requirements, a plurality of worn housings are dismantled and reformed, in order to improve the building height and increase the housing area, a large amount of building wastes are generated, and the building wastes are crushed and reformed into bricks, so that the resource recovery can be facilitated; therefore, the existing construction waste can be regenerated into the building wall brick according to a certain specification.

Because present building waste regeneration brick when setting up, need use the concrete to carry out the adhesion usually for people are when operating, and not only whole troublesome poeration, follow-up when demolising, are difficult to get off the complete dismantlement of building waste regeneration brick, and most can only dismantle through destroying building waste regeneration brick, need regenerate building waste again when leading to next use, and the comparison consumes the resource.

Therefore, aiming at the defects, the building wall brick which is made by recycling the building wastes and is convenient to connect and disassemble is provided.

Disclosure of Invention

The invention aims to overcome the defects that when most of the existing construction waste recycled bricks are used by people, the construction waste recycled bricks are troublesome to connect, and the construction waste recycled bricks are difficult to completely disassemble in the subsequent disassembling process.

The invention is realized by the following technical approaches:

a building wall brick made of recycled building wastes comprises a brick block, a sliding block, a guide rod and a wedge-shaped block, positioning spring, extrusion mechanism, clamping mechanism and pushing mechanism, the fragment of brick is isosceles right triangle, the rear side of fragment of brick is the inclined plane, the constant head tank has all been opened on the front side upper portion right side and the rear side upper portion left side of fragment of brick, equal sliding connection has the sliding block in the constant head tank, the sliding block outside all is connected with the guide bar, equal sliding connection has the wedge that is used for the fragment of brick horizontal direction to fix on the guide bar, all around there being positioning spring on the guide bar, positioning spring's one end all is connected with adjacent sliding block, positioning spring's the other end all is connected with adjacent wedge, fragment of brick upper portion is equipped with the extrusion mechanism that is used for the horizontal direction to loosen, be equipped with in the middle of the fragment of brick top and be used for the fixed clamping mechanism of vertical direction, the inside pushing mechanism that is used for the vertical direction to loosen that is equipped with of fragment of brick.

In a preferred embodiment of the invention, the extrusion mechanism comprises a wedge-shaped plate, a push rod and an extrusion spring, the left part of the front side of the upper part and the right part of the rear side of the upper part of the brick are both connected with the push rod in a sliding way, the extrusion spring is connected between the push rod and the brick, and the lower side of the push rod is connected with the wedge-shaped plate.

In a preferred embodiment of the invention, the clamping mechanism comprises a clamping block, a torsion spring, a convex block and a threaded rod, the clamping block is rotatably connected in the middle of the top of the brick, the torsion spring is connected between the bottom of the clamping block and the brick, the two convex blocks are connected in the clamping block, the threaded rod is connected in the middle of the bottom of the brick, and clamping grooves are formed in the middle of the lower side of the interior of the brick.

In a preferred embodiment of the invention, the pushing mechanism comprises an extrusion plate, an inclined plate, L-shaped rods and connecting springs, the extrusion plate is slidably connected to the left side of the lower part of the inner front side of the brick, the inclined plate is connected to the bottoms of the extrusion plates, the L-shaped rods are slidably connected to the left side of the lower part of the inner front side of the brick, the L-shaped rods are located below the extrusion plates, the left side of the bottoms of the inclined plates is in contact with the L-shaped rods, and the connecting springs are connected between the front parts of the right sides of the L-shaped rods and the brick.

In a preferred embodiment of the invention, the brick fixing device further comprises a positioning mechanism for fixing the sliding blocks, the positioning mechanism comprises clamping rods, sliding rods and return springs, the clamping rods are connected to the right sides of the upper parts of the front sides and the left sides of the upper parts of the rear sides of the bricks in a sliding manner, the clamping rods are positioned above the sliding blocks, the clamping rods on the front sides and the rear sides respectively clamp the sliding blocks on the front sides and the rear sides, the sliding rods are connected to the right sides of the front sides and the rear sides of the upper parts of the bricks in a sliding manner, the lower sides of the sliding rods on the front sides and the rear sides are respectively connected with the clamping rods on the front sides and the rear sides, and the return springs are connected between the sliding rods and the bricks.

In a preferred embodiment of the invention, the brick-shaped sound insulation brick further comprises a sealing mechanism for sound insulation, wherein the sealing mechanism comprises sealing plates and compression springs, the three sealing plates are connected to the middle of the upper side of each brick in an annular mode, and the compression springs are connected between the lower sides of the middle parts of the outer sides of the sealing plates and the bricks.

In a preferred embodiment of the invention, the brick-shaped building block further comprises a prompting mechanism for prompting, wherein the prompting mechanism comprises a pressure sensor and an indicator light, the middle part of the front side in the brick-shaped building block is connected with the indicator light, the lower side of the indicator light is connected with the pressure sensor, the indicator light is electrically connected with the pressure sensor, and the inclined plate is contacted with the pressure sensor when moving downwards.

In a preferred embodiment of the invention, the block is provided with a clamping groove on the left side of the front upper part and the right side of the rear upper part.

The invention provides a building wall brick prepared by regenerating building wastes, which has the advantages that:

1. according to the invention, the first brick is placed at the appointed position, the other two bricks are respectively contacted with the right-angle surface and the inclined surface of the brick, under the action of the wedge-shaped block, the three bricks can be fixed in the horizontal direction, then the other brick is aligned and pressed on the first brick, and under the action of the clamping block, the two bricks can be fixed in the vertical direction, so that people can conveniently connect the bricks, and the operation is convenient.

2. According to the invention, the bricks can be loosened in the vertical direction by pushing the pushing rod of the uppermost brick to move, and the bricks can be loosened in the horizontal direction by pushing the pushing rods of the adjacent bricks to move, so that people can take the bricks down conveniently, and the brick taking device is time-saving and labor-saving and is not easy to damage the bricks.

3. The sound insulation cotton is placed in the brick blocks and closed through the movement of the sealing plates, so that the sealing plates can cover the sound insulation cotton, and after the brick blocks are built into the wall body, the sound insulation cotton in the brick blocks can block sound, so that people can conveniently block outside noise when the brick blocks are used.

4. According to the invention, by starting the pressure sensor, when people dismantle the built wall surface, the indicator light is turned on, so that people can be prompted that the brick blocks are loosened in the vertical direction, and the brick blocks can be conveniently taken down by people.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a first partial cross-sectional view of the present invention.

Fig. 3 is a second partial cross-sectional view of the present invention.

Fig. 4 is a partial cross-sectional view of the wedge block, connecting spring, etc. of the present invention.

Fig. 5 is a schematic perspective view of the extrusion mechanism of the present invention.

FIG. 6 is a partial cross-sectional view of the snapping mechanism of the present invention.

FIG. 7 is a perspective view of a portion of the latch mechanism of the present invention.

Fig. 8 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 9 is a use state diagram of the pushing mechanism of the present invention.

Fig. 10 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 11 is a schematic perspective view of a part of the positioning mechanism of the present invention.

Fig. 12 is a schematic perspective view of a first sealing mechanism of the present invention.

Fig. 13 is a schematic perspective view of a second sealing mechanism according to the present invention.

Fig. 14 is a schematic perspective view of a prompting mechanism of the present invention.

Labeled as: 1-brick, 2-slide block, 21-positioning slot, 22-detent slot, 3-guide bar, 4-wedge block, 5-positioning spring, 6-extrusion mechanism, 60-wedge plate, 61-push rod, 62-extrusion spring, 7-snap mechanism, 70-snap block, 71-torsion spring, 72-projection, 73-threaded rod, 74-snap slot, 8-push mechanism, 80-extrusion plate, 81-sloping plate, 82-L rod, 83-connecting spring, 9-positioning mechanism, 90-snap rod, 91-slide rod, 92-return spring, 10-sealing mechanism, 100-sealing plate, 101-compression spring, 11-prompting mechanism, 110-pressure sensor, 111-indicator light.

Detailed Description

The invention is further explained by combining the drawings in the specification, and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

A building wall brick made of recycled building wastes comprises brick blocks 1, sliding blocks 2, guide rods 3, wedge blocks 4, positioning springs 5, an extrusion mechanism 6, a clamping mechanism 7 and a pushing mechanism 8, as shown in figures 1-9, the brick blocks 1 are isosceles right triangles, the rear sides of the brick blocks 1 are inclined planes, positioning grooves 21 are respectively formed in the right sides of the upper parts of the front sides and the left sides of the upper parts of the rear sides of the brick blocks 1, clamping grooves 22 are respectively formed in the left sides of the upper parts of the front sides and the right sides of the upper parts of the rear sides of the brick blocks 1, the sliding blocks 2 are respectively connected in the two positioning grooves 21 in a sliding manner, the guide rods 3 are welded on the outer sides of the two sliding blocks 2, the wedge blocks 4 are respectively connected on the two guide rods 3 in a sliding manner, the wedge blocks 4 are clamped in the clamping grooves 22, the brick blocks 1 can be fixed in the horizontal direction, the positioning springs 5 are respectively wound on the two guide rods 3, one end of each positioning spring 5 is connected with the adjacent sliding block 2, the other ends of the two positioning springs 5 are connected with the adjacent wedge-shaped blocks 4, the extrusion mechanism 6 is arranged on the upper portion of the brick 1, the clamping mechanism 7 is arranged in the middle of the top of the brick 1, and the pushing mechanism 8 is arranged on the front side inside the brick 1.

The extrusion mechanism 6 comprises a wedge-shaped plate 60, pushing rods 61 and extrusion springs 62, as shown in fig. 5, the pushing rods 61 are connected to the left part of the front side of the upper part and the right part of the rear side of the upper part of the brick 1 in a sliding manner, the extrusion springs 62 are connected between the two pushing rods 61 and the brick 1, the wedge-shaped plate 60 is welded to the lower sides of the two pushing rods 61, and the wedge-shaped plate 60 extrudes the wedge-shaped block 4 to move downwards so that the brick 1 can be loosened in the horizontal direction.

Clamping mechanism 7 is including joint piece 70, torsion spring 71, lug 72 and threaded rod 73, refer to fig. 6 and 7 and show, the middle rotary type in the top of fragment of brick 1 is connected with joint piece 70, be connected with torsion spring 71 between joint piece 70 bottom and the fragment of brick 1, joint piece 70 internal weld has two lugs 72, fragment of brick 1 bottom intermediate connection has threaded rod 73, fragment of brick 1 inside downside middle part all has opened joint groove 74, block in joint groove 74 through joint piece 70, can make fragment of brick 1 fixed on the vertical direction.

The pushing mechanism 8 comprises an extrusion plate 80, an inclined plate 81, an L-shaped rod 82 and a connecting spring 83, referring to fig. 2, fig. 8 and fig. 9, the extrusion plate 80 is slidably connected to the left side of the lower portion of the front side inside the brick 1, the inclined plate 81 is welded to the bottom of the extrusion plate 80, the L-shaped rod 82 is slidably connected to the left side of the lower portion of the front side inside the brick 1, the L-shaped rod 82 extrudes the clamping block 70 to rotate, the brick 1 can be loosened in the vertical direction, the L-shaped rod 82 is located below the extrusion plate 80, the left side of the bottom of the inclined plate 81 is in contact with the L-shaped rod 82, and the connecting spring 83 is connected between the front portion of the right side of the L-shaped rod 82 and the brick 1.

When people need to use the building wall brick made by regenerating the building wastes, firstly, the first brick 1 is placed at a designated position, when people need to build a wall in the horizontal direction, the second brick 1 is rotated 180 degrees, then the right-angle surface of the second brick 1, which is provided with the clamping groove 22, is close to the right-angle surface of the first brick 1, which is provided with the clamping groove 22, so that the right-angle surfaces of the two bricks 1 are contacted, then the third brick 1 is rotated 180 degrees, then the inclined surface of the third brick 1 is close to the inclined surface of the first brick 1, so that the inclined surfaces of the two bricks 1 are contacted, during the contact of the two bricks 1, the wedge block 4 on the brick 1 is contacted with the adjacent brick 1, at the moment, the adjacent brick 1 extrudes the wedge block 4 on the brick 1 to move downwards, the positioning spring 5 is compressed, after the wedge block 4 on the brick 1 is clamped into the clamping groove 22 of the adjacent brick 1, the locating spring 5 is restored to the original state, the locating spring 5 drives the wedge-shaped block 4 on the brick 1 to move upwards and reset, the wedge-shaped block 4 on the brick 1 is enabled to clamp the adjacent brick 1, thereby fixing the two bricks 1, then repeating the above operations, only fixing part of the bricks 1 in the horizontal direction through the mode of mutual contact of right-angle surfaces and mutual contact of inclined surfaces, when people finish building the wall in the horizontal direction, then building the wall in the vertical direction, then aligning another brick 1 with the first brick 1, then pressing another brick 1 on the first brick 1, when the threaded rod 73 of another brick 1 is in contact with the lug 72 of the first brick 1, the threaded rod 73 of another brick 1 can drive the lug 72 of the first brick 1 to rotate, thereby driving the clamping block 70 of the first brick 1 to rotate, the torsion spring 71 deforms, and enables the clamping block 70 of the first brick 1 to be aligned with the clamping groove 74 of another brick 1, so that the clamping block 70 of the first brick 1 is clamped into the clamping groove 74 of another brick 1, when the threaded rod 73 of another brick 1 is separated from the projection 72 of the first brick 1, the torsion spring 71 is restored, the torsion spring 71 drives the clamping block 70 and the projection 72 of the first brick 1 to reversely reset, so that the clamping block 70 of the first brick 1 is contacted with the L-shaped rod 82 of another brick 1, so that the clamping block 70 of the first brick 1 is clamped into the clamping groove 74 of another brick 1, the first brick 1 and the other brick 1 are fixed, then the above operations are repeated, the remaining brick 1 can be fixed in the vertical direction, when people finish building the wall in the vertical direction, the wall can be built, when people need to dismantle the wall surface which is built, the pushing rod 61 of the uppermost brick 1 is pushed to move, the extrusion spring 62 of the uppermost brick 1 is compressed, thereby driving the wedge plate 60 of the uppermost brick 1 to move, when the wedge plate 60 of the uppermost brick 1 contacts with the wedge block 4 of the adjacent brick 1, the wedge plate 60 of the uppermost brick 1 will press the wedge block 4 of the adjacent brick 1 to move downwards, the positioning spring 5 of the adjacent brick 1 is compressed, when the wedge block 4 of the adjacent brick 1 contacts with the extrusion plate 80 of the uppermost brick 1, the wedge block 4 of the adjacent brick 1 presses the extrusion plate 80 of the uppermost brick 1 to move downwards, thereby driving the inclined plate 81 of the uppermost brick 1 to move downwards, causing the inclined plate 81 of the uppermost brick 1 to press the L-shaped rod 82 of the uppermost brick 1 to move, the connecting spring 83 of the uppermost brick 1 to compress, thereby causing the L-shaped rod 82 of the uppermost brick 1 to press the clamping block 70 of the lower brick 1 to rotate, the torsion spring 71 of the lower brick 1 to deform, and further driving the protrusion 72 of the lower brick 1 to rotate, the catching blocks 70 of the lower-side bricks 1 are aligned with the catching grooves 74 of the uppermost bricks 1, so that the uppermost bricks 1 are loosened in a vertical direction, then the pushing rods 61 of the adjacent bricks 1 are pushed to move, the pressing springs 62 of the adjacent bricks 1 are compressed, and thus the wedge plates 60 of the adjacent bricks 1 are driven to move, when the wedge plates 60 of the adjacent bricks 1 are in contact with the uppermost wedges 4, the wedge plates 60 of the adjacent bricks 1 press the wedges 4 of the uppermost bricks 1 to move downward, the positioning springs 5 of the uppermost bricks 1 are compressed, so that the uppermost bricks 1 are loosened in a horizontal direction, then, one can take down the uppermost bricks 1, so that the uppermost bricks 1 are separated from the adjacent bricks 1, and simultaneously, the uppermost bricks 1 are separated from the lower-side bricks 1, and the wedges 4 of the adjacent bricks 1 leave from the catching grooves 22 of the uppermost bricks 1 during the period, separating the wedge-shaped block 4 of the adjacent brick 1 from the wedge-shaped plate 60 of the uppermost brick 1, thereby restoring the positioning spring 5 of the adjacent brick 1, the positioning spring 5 of the adjacent brick 1 driving the wedge-shaped block 4 of the adjacent brick 1 to move upward to return, and simultaneously the wedge-shaped block 4 of the uppermost brick 1 moving away from the detent groove 22 of the adjacent brick 1, thereby separating the wedge-shaped block 4 of the uppermost brick 1 from the wedge-shaped plate 60 of the adjacent brick 1, thereby restoring the positioning spring 5 of the uppermost brick 1 to the original state, the positioning spring 5 of the uppermost brick 1 driving the wedge-shaped block 4 of the uppermost brick 1 to move upward to return, and simultaneously the engaging block 70 of the lower brick 1 moving away from the engaging groove 74 of the uppermost brick 1, when the wedge-shaped block 4 of the adjacent brick 1 is separated from the pressing plate 80 of the uppermost brick 1, the connecting spring 83 of the uppermost brick 1 restoring, the connecting spring 83 of the uppermost brick 1 driving the L-shaped rod 82 of the uppermost brick 1 to move to return, separating the L-shaped bar 82 from the engaging blocks 70 of the lower-side bricks 1, thereby pressing the inclined plate 81 and the pressing plate 80 of the uppermost brick 1 to move upward and reset, simultaneously contacting the protrusions 72 of the lower-side bricks 1 with the threaded rods 73 of the uppermost brick 1, pressing the protrusions 72 of the lower-side bricks 1 to reverse and reset, thereby driving the engaging blocks 70 of the lower-side bricks 1 to reverse and reset, restoring the torsion springs 71 of the lower-side bricks 1 to their original shapes, when the protrusions 72 of the lower-side bricks 1 are separated from the threaded rods 73 of the uppermost bricks 1, the engaging blocks 70 of the lower-side bricks 1 stop reversing, then loosening the pushing bar 61 of the uppermost brick 1, restoring the pressing springs 62 of the uppermost brick 1, driving the wedge plate 60 and the pushing bar 61 of the uppermost brick 1 to move and reset by the pressing springs 62 of the uppermost brick 1, and then loosening the pushing bars 61 of the adjacent bricks 1, the extrusion spring 62 reconversion of adjacent fragment of brick 1, the extrusion spring 62 of adjacent fragment of brick 1 drives wedge 60 and the removal of push rod 61 of adjacent fragment of brick 1 and resets, then repeat above-mentioned operation, can take off whole fragment of brick 1, when people need to change wedge 4, guide bar 3, positioning spring 5 and sliding block 2, with sliding block 2 from the interior roll-off of constant head tank 21, then with another wedge 4, guide bar 3, positioning spring 5 and sliding block 2 put back the original place can.

Example 2

On the basis of embodiment 1, still include positioning mechanism 9, positioning mechanism 9 is including kelly 90, slide bar 91 and return spring 92, refer to fig. 1, fig. 2, fig. 10 and fig. 11 and show, the front side upper portion right side and the rear side upper portion left side of fragment of brick 1 all are connected with kelly 90 in a sliding manner, block 2 through kelly 90 card, can fix slide block 2, kelly 90 is located the top of slide block 2, the kelly 90 of front and back both sides blocks the slide block 2 of front and back both sides respectively, the upper portion front side right side and the upper portion rear side left side of fragment of brick 1 all are connected with slide bar 91 in a sliding manner, the slide bar 91 downside of front and back both sides is connected with the kelly 90 of front and back both sides respectively, return spring 92 is all connected between two slide bars 91 and the fragment of brick 1.

When people need to change wedge 4, guide bar 3, positioning spring 5 and sliding block 2, pull slide bar 91 and move rightwards earlier, thereby drive kelly 90 and move rightwards, return spring 92 compresses, make kelly 90 loosen sliding block 2, then people can be to wedge 4, guide bar 3, positioning spring 5 and sliding block 2 change, when wedge 4, guide bar 3, positioning spring 5 and sliding block 2 accomplish the change back, loosen slide bar 91, return spring 92 reconversion, return spring 92 drives kelly 90 and slide bar 91 and moves the reseing leftwards, make kelly 90 block sliding block 2, thereby fix sliding block 2.

Still including sealing mechanism 10, sealing mechanism 10 is shown including closing plate 100 and compression spring 101, refer to fig. 1, fig. 2, fig. 12 and fig. 13, and 1 upside middle part of fragment of brick is the annular and is connected with three closing plate 100, moves to the outside through pulling closing plate 100 and opens, can make things convenient for people to place the soundproof cotton, all is connected with compression spring 101 between three closing plate 100 outside middle part downside and the fragment of brick 1.

When people need use the building wall brick that this building waste regeneration made, can stimulate closing plate 100 and move to the outside and open, compression spring 101 compression, then put into fragment of brick 1 with the soundproof cotton, loosen closing plate 100 again, compression spring 101 reconversion, compression spring 101 drives closing plate 100 and moves to the inside and close, build into the wall body back when people with fragment of brick 1, soundproof cotton in the fragment of brick 1 can make the wall body carry out the separation to sound, when people need take out the soundproof cotton in the fragment of brick 1 or when changing, repeated above-mentioned operation can.

Still including suggestion mechanism 11, suggestion mechanism 11 includes pressure sensor 110 and pilot lamp 111, and it is shown with fig. 14 to refer to fig. 2, and the inside front side middle part bolt of fragment of brick 1 has pilot lamp 111, lights through pilot lamp 111, can indicate people that the most superior side fragment of brick 1 has loosened in the vertical direction, and pilot lamp 111 downside is connected with pressure sensor 110, and pilot lamp 111 passes through electric connection with pressure sensor 110, and swash plate 81 can contact with pressure sensor 110 when moving downwards.

When people need demolish the wall that accomplishes the construction, pressure sensor 110 can be opened, when swash plate 81 moves down to contact with pressure sensor 110, pressure sensor 110 can sense the pressure change, when pressure sensor 110 senses that pressure is greater than the maximum preset value, pressure sensor 110 can control pilot lamp 111 to light, then people can light through pilot lamp 111 thereby know that the joint piece 70 of downside fragment of brick 1 aligns with the joint groove 74 of the most lateral fragment of brick 1, and then indicate people that the most lateral fragment of brick 1 has loosened in the vertical direction, when swash plate 81 moves up to separate with pressure sensor 110, pressure sensor 110 can sense the pressure change, when pressure sensor 110 senses that pressure is less than the minimum preset value, pressure sensor 110 can control pilot lamp 111 to extinguish.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention.

Claims (8)

1. A building wall brick made of recycled building wastes comprises bricks (1), sliding blocks (2), guide rods (3), wedge blocks (4) and positioning springs (5), wherein the bricks (1) are isosceles right triangles, the rear sides of the bricks (1) are inclined planes, positioning grooves (21) are formed in the right sides of the upper parts of the front sides and the left sides of the upper parts of the rear sides of the bricks (1), the sliding blocks (2) are connected in the positioning grooves (21) in a sliding manner, the guide rods (3) are connected to the outer sides of the sliding blocks (2), the wedge blocks (4) for fixing the bricks (1) in the horizontal direction are connected to the guide rods (3) in a sliding manner, the positioning springs (5) are wound on the guide rods (3), one ends of the positioning springs (5) are connected with the adjacent sliding blocks (2), and the other ends of the positioning springs (5) are connected with the adjacent wedge blocks (4), the brick pressing machine is characterized by further comprising an extruding mechanism (6), a clamping mechanism (7) and a pushing mechanism (8), wherein the extruding mechanism (6) used for loosening in the horizontal direction is arranged on the upper portion of the brick (1), the clamping mechanism (7) used for fixing in the vertical direction is arranged in the middle of the top of the brick (1), and the pushing mechanism (8) used for loosening in the vertical direction is arranged inside the brick (1).

2. The building wall brick made of recycled building wastes according to claim 1, wherein the extrusion mechanism (6) comprises a wedge-shaped plate (60), a push rod (61) and an extrusion spring (62), the left part of the front side of the upper part of the brick (1) and the right part of the rear side of the upper part of the brick (1) are both slidably connected with the push rod (61), the extrusion spring (62) is connected between the push rod (61) and the brick (1), and the wedge-shaped plate (60) is connected to the lower side of the push rod (61).

3. The building wall brick made of recycled building wastes according to claim 2, characterized in that the clamping mechanism (7) comprises a clamping block (70), a torsion spring (71), a convex block (72) and a threaded rod (73), the clamping block (70) is rotatably connected in the middle of the top of the brick (1), the torsion spring (71) is connected between the bottom of the clamping block (70) and the brick (1), the two convex blocks (72) are connected in the clamping block (70), the threaded rod (73) is connected in the middle of the bottom of the brick (1), and clamping grooves (74) are formed in the middle of the lower side in the brick (1).

4. The building wall brick made of recycled building wastes according to claim 3, wherein the pushing mechanism (8) comprises an extrusion plate (80), an inclined plate (81), L-shaped rods (82) and connecting springs (83), the extrusion plate (80) is slidably connected to the left side of the lower portion of the inner front side of the brick (1), the inclined plate (81) is connected to the bottom of the extrusion plate (80), the L-shaped rods (82) are slidably connected to the left side of the lower portion of the inner front side of the brick (1), the L-shaped rods (82) are located below the extrusion plate (80), the left side of the bottom of the inclined plate (81) is in contact with the L-shaped rods (82), and the connecting springs (83) are connected between the front portion of the right side of the L-shaped rods (82) and the brick (1).

5. The building wall brick made of recycled building wastes according to claim 4, characterized by further comprising a positioning mechanism (9) for fixing the sliding block (2), wherein the positioning mechanism (9) comprises a clamping rod (90), a sliding rod (91) and a return spring (92), the clamping rod (90) is slidably connected to the right side of the upper front part and the left side of the upper rear part of the brick (1), the clamping rod (90) is positioned above the sliding block (2), the clamping rods (90) on the front side and the rear side respectively clamp the sliding blocks (2) on the front side and the rear side, the sliding rod (91) is slidably connected to the right side of the upper front part and the left side of the upper rear side of the brick (1), the lower sides of the sliding rods (91) on the front side and the rear side are respectively connected with the clamping rods (90) on the front side and the rear side, and the return spring (92) is connected between the sliding rod (91) and the brick (1).

6. The building wall brick made of recycled building wastes according to claim 5, which further comprises a sealing mechanism (10) for sound insulation, wherein the sealing mechanism (10) comprises a sealing plate (100) and a compression spring (101), the middle part of the upper side of the brick (1) is annularly connected with three sealing plates (100), and the compression spring (101) is connected between the lower side of the middle part of the outer side of each sealing plate (100) and the brick (1).

7. The building wall brick made of recycled building wastes according to claim 6, characterized by further comprising a prompting mechanism (11) for prompting, wherein the prompting mechanism (11) comprises a pressure sensor (110) and an indicator light (111), the indicator light (111) is connected to the middle part of the front side in the brick (1), the pressure sensor (110) is connected to the lower side of the indicator light (111), the indicator light (111) is electrically connected with the pressure sensor (110), and the inclined plate (81) is in contact with the pressure sensor (110) when moving downwards.

8. The construction wall brick made of recycled construction wastes according to claim 1, wherein the block (1) is provided with locking grooves (22) on both the left side of the upper front part and the right side of the upper rear part.

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