CN113356490A - Wall surface stone and aluminum alloy combination process - Google Patents

Abstract

The invention belongs to the technical field of decoration and finishing, and particularly relates to a process for combining wall stone and aluminum alloy, which comprises the following steps: s1: selecting a backing aluminum plate with the stem width of 15mm and the stem thickness of 1.5mm, fixing the backing aluminum plate on an aluminum alloy framework by using self-tapping screws, and fixing an aluminum net on the backing aluminum plate by using the self-tapping screws so as to ensure stable fixation; s2: filling gaps of the aluminum net with the cement mortar masonry, slightly drying, and then using a trowelling machine to trowel the surface of the aluminum net so as to enable the surface to be smooth and flat; s3: curing for 7 days after the strength of the cement mortar masonry reaches the design requirement, finally bonding the cobblestone masonry on the wall body by using a bonding material, and cleaning; the combination process has the following technical effects: the structure is simple and detachable, and the installation and the transportation are convenient; the construction difficulty is small, and the working efficiency is improved; the finishing effect is attractive, and the construction difficulty is reduced; the wall body can be assembled and installed, and the installation time is saved; the problem of dysmorphism wall stone material ornamental material installation difficulty is solved.

Description

Wall surface stone and aluminum alloy combination process

Technical Field

The invention belongs to the technical field of decoration and fitment, and particularly relates to a process for combining wall stone and aluminum alloy.

Background

The method is characterized in that the exterior facing and the interior facing of the building are often required to be decorated with various natural marble, granite and other stone plates, when the aluminum assembly building is combined with the stone, the decorated stone is easy to peel off when being attached to the aluminum material due to material limitation, the special-shaped modeling is particularly obvious, and the method brings great limitation to the indoor decoration of the aluminum assembly building.

Some technical schemes about decoration also appeared among the prior art, chinese patent like application No. 2020101885652 discloses stone material and timber combination's environmental protection mesa and construction method, including drawing the stone material, receipts limit timber and steel sheet, set up the hole of equipartition along steel sheet length direction one side, all the other positions set up parallel billet, stone material and steel sheet are placed on the cement mortar that stage surface paved, one side that the steel sheet was equipped with the billet flushes with stage body edge, stone material one end overlaps with the foraminiferous part of steel sheet, receipts limit timber is installed on the steel sheet that is equipped with the billet and is surpassed stage body edge. The invention also provides a construction method of the environment-friendly table top combining the stone and the wood. The invention not only strengthens the combination stability between the stone and the wood, but also improves the construction precision, and simultaneously avoids the environmental pollution problem caused by the adhesive.

In the technology, when the stone and the aluminum material are combined, the stone and the aluminum material are easy to fall off, so that the combination is failed, the failure mode is particularly obvious in special-shaped modeling, and great limitation is brought to indoor decoration of an aluminum assembly building.

Therefore, the invention provides a process for combining wall stone and aluminum alloy.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that when the stone and the aluminum material are combined, the stone and the aluminum material are easy to fall off, so that the combination is invalid, the invalid form is particularly obvious in special-shaped modeling, and great limitation is brought to indoor decoration of an aluminum assembly building, the invention provides a wall surface stone and aluminum alloy combination process.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a wall surface stone and aluminum alloy combination process, which comprises the following steps:

s1: selecting a backing aluminum plate with the stem width of 15mm and the stem thickness of 1.5mm, fixing the backing aluminum plate on an aluminum alloy framework by using self-tapping screws, and fixing an aluminum net on the backing aluminum plate by using the self-tapping screws so as to ensure stable fixation;

s2: filling gaps of the aluminum net with the cement mortar masonry, slightly drying, and then using a trowelling machine to trowel the surface of the aluminum net so as to enable the surface to be smooth and flat;

s3: curing for 7 days after the strength of the cement mortar masonry reaches the design requirement, finally bonding the cobblestone masonry on the wall body by using a bonding material, and cleaning; the combination process has the following technical effects: the structure is simple and detachable, and the installation and the transportation are convenient; the construction difficulty is small, and the working efficiency is improved; the finishing effect is attractive, and the construction difficulty is reduced; the wall body can be assembled and installed, and the installation time is saved; the problem of dysmorphism wall stone material ornamental material installation difficulty is solved.

Preferably, the trowel comprises a grip; one end of the handle is fixedly connected with a motor; the end part of the motor is rotatably connected with a grinding disc; a protective shell is fixedly connected to the motor outside the grinding disc; a collecting tank is arranged in the grinding disc; the grinding disc comprises an inner ring, an outer ring, a grinding block and a sponge sheet; the grinding block is fixedly connected between the outer ring and the inner ring; the sponge sheet is fixedly connected between the adjacent grinding blocks; when the rotary trowelling machine works, the grinding disc of the traditional rotary trowelling machine rotates to rub with a wall surface, cement mortar under the grinding disc is easily pushed to the outer side of the rotary trowelling machine, and accordingly circular convex grains are formed on the wall surface on the outer side of the grinding disc, attractiveness is affected.

Preferably, a sliding groove is formed in the grinding block; a sliding strip is connected in the sliding groove in a sliding manner; sliding blocks are fixedly connected to two sides of the sliding strip; a first spring is fixedly connected between the sliding block and the bottom end of the sliding chute; during operation, the grinding block rotates the in-process, and the draw runner produces the friction with the wall and the roll-off spout, and then the draw runner extrudees the sponge piece, extrudees the cement mortar in the sponge piece, in the inside collecting vat of infiltration mill with higher speed, and the cement volume that prevents to polish is too much, can't in time pass through the exhaust condition of sponge piece.

Preferably, the slide bar comprises a combination block; the end part of the combination block is hinged with two elastic rods through a torsional spring; elastic strips are fixedly connected between the elastic rods; during operation, the grinding block is at the rotation in-process, and draw runner and wall produce the friction and the roll-off spout, and then the draw runner extrudees the sponge piece, and two elastic rods expand to both sides under the thrust of elastic strip this moment, and the elastic rod tail end is extruded and is torn the sponge piece, extrudees cement mortar in the sponge piece, in the inside collecting vat of infiltration mill with higher speed, prevents that the sponge piece from blockking up.

Preferably, the resilient lever comprises a mounting block; an inertia groove is formed in the mounting block; a first gravity ball is connected in the inertia groove in a sliding manner; a second spring is fixedly connected between the first gravity ball and the bottom end of the inertia groove; an arc-shaped elastic sheet is fixedly connected with the opening end of the inertia groove; an outer expanding rod is fixedly connected to one side of the arc-shaped elastic sheet, which is far away from the inertia groove; the during operation, the grinding piece is at the rotation in-process, and draw runner and wall produce the friction and the roll-off spout, and this moment gravity ball slides towards the direction that is close to the arc shell fragment under inertial action, and then promotes the arc shell fragment and outwards opens, drives outer spreader bar and expands and open, and outer spreader bar tail end further extrudees and tears the sponge piece, extrudees the cement mortar in the sponge piece, in the inside collecting vat of infiltration mill with higher speed, prevents that the sponge piece from blockking up.

Preferably, one end of the outer expanding rod, which is far away from the arc-shaped elastic sheet, is fixedly connected with a group of tail thorns, and the tips of the tail thorns face the sponge sheet; during operation, a gravity ball slides towards the direction of being close to arc shell fragment under inertial action, and then promotes arc shell fragment and outwards opens, drives outer spreader bar and expands and open, and the tail thorn of outer spreader bar tip inserts in the hole of sponge piece, and the friction between outer spreader bar of increase and the sponge piece prevents to skid, improves the extrusion effect, and during the inside collecting vat of infiltration mill with higher speed, prevent that the sponge piece from blockking up.

Preferably, the outer ring comprises a bottom ring and a friction ring, and the friction ring is made of an elastic material; a sludge collecting groove is formed between the bottom ring and the friction ring and is communicated with a collecting groove of the grinding disc; the during operation plays the effect that blocks cement mortar through the friction ring that sets up in the outside, prevents that cement mortar from throwing away through the mill edge, makes cement mortar get into the inside collecting vat of mill through the album mud groove simultaneously, has improved trowelling machine's practicality.

Preferably, an elastic ball is arranged in the sludge collecting groove, one side of the elastic ball is fixedly connected with the bottom ring, and the other side of the elastic ball is fixedly connected with the friction ring; during operation, when the mill rotated at a high speed, the appearance of the elastic ball was changed from round to oval under the effect of centrifugal force, thereby increasing the width of the mud collecting groove, improving the mud collecting speed, preventing the excessive cement amount under polishing and being unable to pass through the mud collecting groove discharge.

Preferably, the elastic ball is of a hollow structure, and a piston cylinder is fixedly connected in the elastic ball; a piston plate is connected in the piston cylinder in a sliding manner; a third spring is fixedly connected between the piston plate and the bottom end of the piston cylinder; a piston rod is fixedly connected to one side of the piston plate, which is far away from the third spring; one end of the piston rod, which extends out of the piston cylinder, is fixedly connected with a second gravity ball, and the second gravity ball is fixedly connected with the inner wall of the elastic ball; during the during operation, when the mill was rotatory at a high speed, No. two gravity balls moved towards the direction of keeping away from the piston cylinder under the effect of centrifugal force, and then extruded elastic ball's inner wall, the oval-shaped centrifugation of increase for elastic ball becomes more flat, thereby further increases the width in mud collection groove, improves collection mud speed, and the cement volume that prevents to polish is too much, can't in time pass through the circumstances of mud collection groove discharge.

Preferably, a through hole is formed in the piston rod; a steel wire is fixedly connected between the side walls of the elastic ball and penetrates through the piston rod; during operation, No. two gravity balls are when the direction of keeping away from the piston cylinder removes under the effect of centrifugal force, and the steel wire is dragged to the piston rod for the elastic ball lateral wall is close to the piston rod, thereby further increases oval-shaped eccentricity, makes the elastic ball become flatter, increases the width in mud collection groove, improves collection mud speed.

The invention has the following beneficial effects:

1. the invention relates to a wall surface stone and aluminum alloy combination process, which has the following technical effects: the structure is simple and detachable, and the installation and the transportation are convenient; the construction difficulty is small, and the working efficiency is improved; the finishing effect is attractive, and the construction difficulty is reduced; the wall body can be assembled and installed, and the installation time is saved; the problem of dysmorphism wall stone material ornamental material installation difficulty is solved.

2. According to the wall surface stone and aluminum alloy combination process, when a traditional rotary trowelling machine works, the grinding disc rotates to rub with a wall surface, cement mortar under the grinding disc is easily pushed to the outer side of the grinding disc, so that circular convex grains are formed on the wall surface on the outer side of the grinding disc, the appearance is affected, in the rotation process of the grinding disc, the grinding blocks squeeze the cement mortar to the sponge sheets, the cement mortar penetrates into the collecting grooves in the grinding disc through the holes of the sponge sheets, and after the work is finished, excessive cement mortar is prevented from being piled on the wall surface to form the circular convex grains.

3. According to the wall surface stone and aluminum alloy combination process, in the rotation process of the grinding block, the sliding strip and the wall surface are rubbed to slide out of the sliding groove, so that the sliding strip extrudes the sponge sheet, cement mortar in the sponge sheet is extruded out and is accelerated to permeate into the collecting groove in the grinding disc, and the situation that the polished cement is too much and cannot be discharged through the sponge sheet in time is prevented.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a schematic view of a bonding process flow of the present invention;

FIG. 2 is a schematic view of the combination of the stone and the aluminum alloy of the present invention;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a schematic view of the construction of the grinding disc of the present invention;

FIG. 5 is a cross-sectional view of a grinding block of the present invention;

FIG. 6 is a schematic view of the structure of the slider bar of the present invention;

FIG. 7 is a cross-sectional view of the flexible rod of the present invention;

FIG. 8 is a schematic structural view of an external spreader bar according to the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 4 at A;

FIG. 10 is a cross-sectional view of the elastomeric ball of the present invention;

in the figure: 1. a grip; 2. a motor; 3. a grinding disc; 4. a protective shell; 31. an inner ring; 32. an outer ring; 33. grinding the block; 34. a sponge sheet; 5. a chute; 6. a slide bar; 7. a slider; 8. a first spring; 61. a combining block; 62. an elastic rod; 63. an elastic strip; 621. mounting blocks; 622. an inertia tank; 623. a first gravity ball; 624. a second spring; 625. an arc-shaped elastic sheet; 626. an outer expanding rod; 627. tail thorn; 321. a bottom ring; 322. a friction ring; 323. a sludge collection tank; 324. an elastic ball; 325. a piston cylinder; 326. a piston plate; 327. a third spring; 328. a piston rod; 329. a second gravity ball; 330. a steel wire.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

As shown in fig. 1 to 8, the process for combining wall stone and aluminum alloy of the present invention comprises the following steps:

s1: selecting a backing aluminum plate with the stem width of 15mm and the stem thickness of 1.5mm, fixing the backing aluminum plate on an aluminum alloy framework by using self-tapping screws, and fixing an aluminum net on the backing aluminum plate by using the self-tapping screws so as to ensure stable fixation;

s2: filling gaps of the aluminum net with the cement mortar masonry, slightly drying, and then using a trowelling machine to trowel the surface of the aluminum net so as to enable the surface to be smooth and flat;

s3: curing for 7 days after the strength of the cement mortar masonry reaches the design requirement, finally bonding the cobblestone masonry on the wall body by using a bonding material, and cleaning; the combination process has the following technical effects: the structure is simple and detachable, and the installation and the transportation are convenient; the construction difficulty is small, and the working efficiency is improved; the finishing effect is attractive, and the construction difficulty is reduced; the wall body can be assembled and installed, and the installation time is saved; the problem of dysmorphism wall stone material ornamental material installation difficulty is solved.

As an embodiment of the present invention, the troweling machine includes a grip 1; one end of the handle 1 is fixedly connected with a motor 2; the end part of the motor 2 is rotatably connected with a grinding disc 3; a protective shell 4 is fixedly connected to the motor 2 outside the grinding disc 3; a collecting tank is arranged in the grinding disc 3; the grinding disc 3 comprises an inner ring 31, an outer ring 32, a grinding block 33 and a sponge sheet 34; the grinding block 33 is fixedly connected between the outer ring 32 and the inner ring 31; the sponge sheets 34 are fixedly connected between the adjacent grinding blocks 33; when the rotary trowelling machine works, the grinding disc 3 of the traditional rotary trowelling machine rotates to rub with a wall surface, cement mortar under the grinding disc is easily pushed to the outer side of the rotary trowelling machine, and therefore circular convex grains are formed on the wall surface on the outer side of the grinding disc, the appearance is affected, in the process of rotation of the grinding disc 3, the grinding block 33 pushes the cement mortar to the sponge sheet 34, the cement mortar penetrates into a collecting tank in the grinding disc 3 through holes of the sponge sheet 34, and after the rotary trowelling machine works, redundant cement mortar is prevented from being piled on the wall surface to form the circular convex grains.

As an embodiment of the present invention, a sliding groove 5 is formed in the grinding block 33; a sliding strip 6 is connected in the sliding groove 5 in a sliding manner; two sides of the slide bar 6 are fixedly connected with slide blocks 7; a first spring 8 is fixedly connected between the sliding block 7 and the bottom end of the sliding chute 5; during operation, grinding block 33 is at the rotation in-process, and draw runner 6 and wall produce the friction and roll-off spout 5, and then draw runner 6 extrudees sponge piece 34, extrudees the cement mortar in the sponge piece 34, in the inside collecting vat of infiltration mill 3 with higher speed, and the cement volume that prevents to polish is too much, can't in time pass through the circumstances of sponge piece 34 discharge.

As an embodiment of the present invention, the slide bar 6 includes a coupling block 61; the end part of the combining block 61 is hinged with two elastic rods 62 through torsion springs; an elastic strip 63 is fixedly connected between the elastic rods 62; the during operation, grinding block 33 is at the rotation in-process, and draw runner 6 and wall produce the friction and roll-off spout 5, and then draw runner 6 extrusion sponge piece 34, and two elastic rod 62 expand to both sides under the thrust of elastic strip 63 this moment, and the extrusion of elastic rod 62 tail end tears sponge piece 34, extrudees the cement mortar in sponge piece 34, in the inside collecting vat of infiltration mill 3 with higher speed, prevents that sponge piece 34 from blockking up.

As an embodiment of the present invention, the elastic bar 62 includes a mounting block 621; an inertia groove 622 is formed in the mounting block 621; a first gravity ball 623 is slidably connected in the inertia groove 622; a second spring 624 is fixedly connected between the first gravity ball 623 and the bottom end of the inertia groove 622; an arc-shaped elastic sheet 625 is fixedly connected with the opening end of the inertia groove 622; an outer expanding rod 626 is fixedly connected to one side of the arc-shaped elastic sheet 625, which is far away from the inertia groove 622; the during operation, grinding block 33 is at the rotation in-process, draw runner 6 and wall produce the friction and roll-off spout 5, this moment gravity ball 623 slides towards the direction that is close to arc shell fragment 625 under the inertia effect, and then promote arc shell fragment 625 and outwards open, drive outer expanding rod 626 and expand and open, outer expanding rod 626 tail end further extrudees and tears sponge piece 34, extrude the cement mortar in sponge piece 34, in the inside collecting vat of infiltration mill 3 with higher speed, prevent that sponge piece 34 from blockking up.

As an embodiment of the present invention, a set of tail thorns 627 is fixedly connected to an end of the outward extending rod 626 away from the arc-shaped elastic sheet 625, and a tip of the tail thorns 627 faces the sponge sheet 34; during operation, a gravity ball 623 slides towards the direction of being close to arc shell fragment 625 under the inertia effect, and then promotes arc shell fragment 625 and outwards opens, drives outer expander bar 626 and expands and open, and the tail burr 627 of outer expander bar 626 tip inserts in the hole of sponge piece 34, and the friction between increase outer expander bar 626 and the sponge piece 34 prevents to skid, improves the extrusion effect, and during the collecting vat of infiltration mill 3 inside with higher speed, prevent that sponge piece 34 from blockking up.

Example two

As shown in fig. 9 and 10, as an embodiment of the present invention, the outer ring 32 includes a bottom ring 321 and a friction ring 322, and the friction ring 322 is made of an elastic material; a sludge collecting groove 323 is formed between the bottom ring 321 and the friction ring 322, and the sludge collecting groove 323 is communicated with a collecting groove of the grinding disc 3; the during operation plays the effect that blocks cement mortar through the friction ring 322 that sets up in the outside, prevents that cement mortar from throwing away through 3 edges of mill, makes during cement mortar gets into the inside collecting vat of mill 3 through album mud groove 323 simultaneously, has improved trowelling machine's practicality.

As an embodiment of the present invention, an elastic ball 324 is disposed in the mud collecting groove 323, and one side of the elastic ball 324 is fixedly connected to the bottom ring 321, and the other side is fixedly connected to the friction ring 322; during operation, when mill 3 rotated at a high speed, elastic ball 324 was oval by circular change under the effect of centrifugal force to make the width increase of mud collecting groove 323, improve the mud collecting speed, prevent that the cement volume under polishing is too much, the unable circumstances of in time discharging through mud collecting groove 323.

As an embodiment of the present invention, the elastic ball 324 has a hollow structure, and a piston cylinder 325 is fixed therein; a piston plate 326 is connected in the piston cylinder 325 in a sliding manner; a third spring 327 is fixedly connected between the piston plate 326 and the bottom end of the piston cylinder 325; a piston rod 328 is fixedly connected to one side of the piston plate 326 far away from the third spring 327; one end of the piston rod 328 extending out of the piston cylinder 325 is fixedly connected with a second gravity ball 329, and the second gravity ball 329 is fixedly connected with the inner wall of the elastic ball 324; during operation, when mill 3 was rotatory at a high speed, No. two gravity balls 329 moved towards the direction of keeping away from piston cylinder 325 under the effect of centrifugal force, and then extruded elastic ball 324's inner wall, increased oval-shaped eccentricity for elastic ball 324 becomes more flat, thereby further increases mud collection groove 323's width, improves mud collection speed, and the cement volume that prevents to polish is too much, can't in time pass through mud collection groove 323 exhaust condition.

As an embodiment of the present invention, a through hole is opened in the piston rod 328; a steel wire 330 is fixedly connected between the side walls of the elastic ball 324, and the steel wire 330 passes through the piston rod 328; during operation, when the second gravity ball 329 moves in a direction away from the piston cylinder 325 under the action of centrifugal force, the piston rod 328 pulls the steel wire 330, so that the side wall of the elastic ball 324 approaches to the piston rod 328, the eccentricity of the ellipse is further increased, the elastic ball 324 becomes flatter, the width of the mud collection groove 323 is increased, and the mud collection speed is increased.

When the rotary trowelling machine works, the grinding disc 3 of the traditional rotary trowelling machine rotates to rub with a wall surface, cement mortar under the grinding disc is easily pushed to the outer side of the rotary trowelling machine, so that circular convex grains are formed on the wall surface on the outer side of the grinding disc, and the appearance is influenced, in the rotating process of the grinding disc 3, the grinding block 33 pushes the cement mortar to the sponge sheet 34, and then the cement mortar penetrates into a collecting tank in the grinding disc 3 through holes of the sponge sheet 34, so that after the work is finished, redundant cement mortar is prevented from being piled on the wall surface to form the circular convex grains; in the rotation process of the grinding block 33, the sliding strip 6 rubs with the wall surface to slide out of the sliding groove 5, so that the sliding strip 6 extrudes the sponge sheet 34 to extrude cement mortar in the sponge sheet 34 to penetrate into a collecting groove in the grinding disc 3 at an accelerated speed, and the situation that the polished cement is too much and cannot be discharged through the sponge sheet 34 in time is prevented; in the rotation process of the grinding block 33, the sliding strip 6 rubs with the wall surface to slide out of the sliding groove 5, then the sliding strip 6 extrudes the sponge sheet 34, at the moment, the two elastic rods 62 expand towards two sides under the thrust of the elastic strips 63, the tail ends of the elastic rods 62 extrude and tear the sponge sheet 34, cement mortar in the sponge sheet 34 is extruded out, the cement mortar is accelerated to permeate into a collecting tank in the grinding disc 3, and the sponge sheet 34 is prevented from being blocked; in the rotating process of the grinding block 33, the sliding strip 6 rubs with the wall surface and slides out of the sliding groove 5, at this time, the first gravity ball 623 slides towards the direction close to the arc-shaped elastic sheet 625 under the action of inertia, so that the arc-shaped elastic sheet 625 is pushed to expand outwards, the outward expansion rod 626 is driven to expand and expand, the tail end of the outward expansion rod 626 further extrudes and tears the sponge sheet 34, cement mortar in the sponge sheet 34 is extruded out and permeates into a collecting groove in the grinding disc 3 at an accelerated speed, and the sponge sheet 34 is prevented from being blocked; the first gravity ball 623 slides towards the direction close to the arc-shaped elastic sheet 625 under the action of inertia, so that the arc-shaped elastic sheet 625 is pushed to be outwards opened, the outer expanding rod 626 is driven to be expanded and opened, the tail burr 627 at the end part of the outer expanding rod 626 is inserted into the hole of the sponge sheet 34, the friction between the outer expanding rod 626 and the sponge sheet 34 is increased, the slipping is prevented, the extrusion effect is improved, the penetration into a collecting tank in the grinding disc 3 is accelerated, and the sponge sheet 34 is prevented from being blocked; the friction ring 322 arranged on the outer side has the effect of blocking cement mortar, so that the cement mortar is prevented from being thrown out through the edge of the grinding disc 3, and meanwhile, the cement mortar enters a collecting tank in the grinding disc 3 through the mud collecting groove 323, and the practicability of the trowelling machine is improved; when the millstone 3 rotates at a high speed, the shape of the elastic ball 324 is changed from round to oval under the action of centrifugal force, so that the width of the mud collecting groove 323 is increased, the mud collecting speed is improved, and the situation that the polished cement quantity is too much and cannot be discharged through the mud collecting groove 323 in time is prevented; when the millstone 3 rotates at a high speed, the second gravity ball 329 moves towards the direction far away from the piston cylinder 325 under the action of centrifugal force, so as to extrude the inner wall of the elastic ball 324, increase the eccentricity of the ellipse, enable the elastic ball 324 to become flatter, further increase the width of the mud collecting groove 323, improve the mud collecting speed, and prevent the situation that the polished cement quantity is too much and can not be discharged through the mud collecting groove 323 in time; when the second gravity ball 329 moves in a direction away from the piston cylinder 325 under the action of centrifugal force, the piston rod 328 pulls the steel wire 330, so that the side wall of the elastic ball 324 approaches to the piston rod 328, the eccentricity of the ellipse is further increased, the elastic ball 324 becomes flatter, the width of the mud collection groove 323 is increased, and the mud collection speed is increased.

The front, the back, the left, the right, the upper and the lower are all based on figure 1 in the attached drawings of the specification, according to the standard of the observation angle of a person, the side of the device facing an observer is defined as the front, the left side of the observer is defined as the left, and the like.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A wall stone and aluminum alloy combination process is characterized in that: the process comprises the following steps:

s1: selecting a backing aluminum plate with the stem width of 15mm and the stem thickness of 1.5mm, fixing the backing aluminum plate on an aluminum alloy framework by using self-tapping screws, and fixing an aluminum net on the backing aluminum plate by using the self-tapping screws so as to ensure stable fixation;

s2: filling gaps of the aluminum net with the cement mortar masonry, slightly drying, and then using a trowelling machine to trowel the surface of the aluminum net so as to enable the surface to be smooth and flat;

s3: and (5) curing the cement mortar masonry for 7 days after the strength of the cement mortar masonry reaches the design requirement, finally bonding the cobblestone masonry on the wall body by using a bonding material, and cleaning.

2. The process for combining the wall stone and the aluminum alloy as claimed in claim 1, wherein the process comprises the following steps: the trowelling machine comprises a handle (1); one end of the grip (1) is fixedly connected with a motor (2); the end part of the motor (2) is rotationally connected with a grinding disc (3); a protective shell (4) is fixedly connected to the motor (2) at the outer side of the grinding disc (3); a collecting tank is arranged in the grinding disc (3); the grinding disc (3) comprises an inner ring (31), an outer ring (32), a grinding block (33) and a sponge sheet (34); the grinding block (33) is fixedly connected between the outer ring (32) and the inner ring (31); the sponge sheets (34) are fixedly connected between the adjacent grinding blocks (33).

3. The process for combining the wall stone and the aluminum alloy as claimed in claim 2, wherein the process comprises the following steps: a sliding groove (5) is formed in the grinding block (33); a sliding strip (6) is connected in the sliding groove (5) in a sliding manner; two sides of the slide bar (6) are fixedly connected with slide blocks (7); a first spring (8) is fixedly connected between the sliding block (7) and the bottom end of the sliding groove (5).

4. The process for combining the wall stone and the aluminum alloy as claimed in claim 3, wherein the process comprises the following steps: the slide (6) comprises a coupling block (61); the end part of the combination block (61) is hinged with two elastic rods (62) through torsion springs; and elastic strips (63) are fixedly connected between the elastic rods (62).

5. The process for combining the wall stone and the aluminum alloy as claimed in claim 4, wherein the process comprises the following steps: the resilient lever (62) includes a mounting block (621); an inertia groove (622) is arranged in the mounting block (621); a first gravity ball (623) is connected in the inertia groove (622) in a sliding manner; a second spring (624) is fixedly connected between the first gravity ball (623) and the bottom end of the inertia groove (622); an arc-shaped elastic sheet (625) is fixedly connected with the opening end of the inertia groove (622); an outer expanding rod (626) is fixedly connected to one side, away from the inertia groove (622), of the arc-shaped elastic sheet (625).

6. The process for combining the wall stone and the aluminum alloy as claimed in claim 5, wherein the process comprises the following steps: one end of the outward expansion rod (626) far away from the arc-shaped elastic sheet (625) is fixedly connected with a group of tail thorns (627), and the tips of the tail thorns (627) face the sponge sheet (34).

7. The process for combining the wall stone and the aluminum alloy as claimed in claim 2, wherein the process comprises the following steps: the outer ring (32) comprises a bottom ring (321) and a friction ring (322), and the friction ring (322) is made of elastic materials; a sludge collecting groove (323) is formed between the bottom ring (321) and the friction ring (322), and the sludge collecting groove (323) is communicated with a collecting groove of the grinding disc (3).

8. The process of claim 7, wherein the wall surface stone material and the aluminum alloy are combined together: an elastic ball (324) is arranged in the mud collecting groove (323), one side of the elastic ball (324) is fixedly connected with the bottom ring (321), and the other side of the elastic ball is fixedly connected with the friction ring (322).

9. The process of claim 8, wherein the wall surface stone material and the aluminum alloy are combined together: the elastic ball (324) is of a hollow structure, and a piston cylinder (325) is fixedly connected in the elastic ball; a piston plate (326) is connected in the piston cylinder (325) in a sliding manner; a third spring (327) is fixedly connected between the piston plate (326) and the bottom end of the piston cylinder (325); a piston rod (328) is fixedly connected to one side, away from the third spring (327), of the piston plate (326); one end of the piston rod (328) extending out of the piston cylinder (325) is fixedly connected with a second gravity ball (329), and the second gravity ball (329) is fixedly connected with the inner wall of the elastic ball (324).

10. The process for combining the wall stone and the aluminum alloy as claimed in claim 9, wherein the process comprises the following steps: a through hole is formed in the piston rod (328); a steel wire (330) is fixedly connected between the side walls of the elastic ball (324), and the steel wire (330) penetrates through the piston rod (328).

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