CN113431335B

CN113431335B - A ground treatment facility for interior decoration

Info

Publication number: CN113431335B
Application number: CN202110887261.XA
Authority: CN
Inventors: 万莹
Original assignee: Yichun Vocational Technical College
Current assignee: Yichun Vocational Technical College
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2023-03-14
Anticipated expiration: 2041-08-03
Also published as: CN113431335A

Abstract

The invention relates to the technical field of indoor decoration, in particular to ground treatment equipment for indoor decoration. According to the invention, water is added into the barrel body, the horizontal mechanism is placed on the water surface, after the horizontal mechanism is static, the horizontal mechanism is started to fix the horizontal mechanism and the barrel body, the wave ring block is connected to the bottom end of the outer ring surface of the barrel body, the fixing bracket is clamped on the top surface of the horizontal mechanism, the laying mechanism is embedded into the embedding groove on the rotating disc, the storage barrel is clamped with the laying mechanism, the uniform-speed motor is started, the laying mechanism rotates and can move along the concave-convex surface of the outer ring surface of the wave ring block, cement is laid on the ground and is scraped, so that the experience requirement required by ground leveling work is reduced, and the leveling is more accurate and rapid.

Description

A ground treatment facility for interior decoration

Technical Field

The invention relates to the technical field of interior decoration, in particular to ground processing equipment for interior decoration.

Background

The indoor decoration is a comprehensive art created for making people feel comfortable and convenient indoor environment, and can reasonably organize and shape the environment when people perform social activities and in daily life, so that the perception of the whole sense organ of the indoor is changed.

In the interior decoration, the ground is often required to be decorated so as to enable the whole environment to be more harmonious, thereby bringing more complete sensory experience, and because the ground is an indoor large exposed area, the ground decoration is indispensable to the interior whole decoration, and the ground decoration requires a flat ground no matter the laying of tiles or the laying of floors, so that the ground leveling is required in the early stage of construction, even if the ground leveling degree reaches a certain standard, the most common and mature ground leveling methods at present are cement mortar leveling and self-leveling cement leveling, however, the two methods have defects, firstly the self-leveling cement leveling needs to be accurately controlled in the proportion of materials and water, and if the material proportion is different in each part in the construction, the ground is likely to crack or even crust due to different water shrinkage volatilization time in cement paste, dust and the like on the ground are required to be absorbed before construction, the self-leveling cement is more critical to the ground base layer, if the ground base layer has gaps or is not in a relatively flat state, the self-leveling cement fails and is easy to leak downwards along the gaps or cannot realize the effect of leveling the ground due to large terrain fall, and the self-leveling cement needs defoaming, ventilation can not be carried out in the volatilization process, the cement self-leveling basically has the crack problem, the existing material which perfectly realizes the effect of 'cement self-leveling' is a strong magic material in Germany, the price is only basically more than seven hundred per square meter, the cement self-leveling is still required for the technical requirements of construction personnel, otherwise the problems of ash generation and the like can occur after the self-leveling is well done, therefore, the existing cement mortar is the most mature and used by most home decoration personnel, but compared with self-leveling cement, the cement mortar has the biggest problem that the leveling degree of a cement ground is not enough, the leveling of the ground of common home decoration is required to be the defect that the ground cannot be uneven by more than three millimeters in two square meters, and the traditional cement mortar construction is that the construction personnel depend on ink hoppers, marks and other ways by themselves and rely on naked eyes and hand muscle memory to realize accurate ground leveling, so that the excellent construction personnel can accord with the leveling requirement by depending on self experience and technology, but most of the construction personnel with shallow ground leveling experience often have bad idea, at the moment, the ground needs to be adjusted, the whole thickness of the ground is increased, the technical problem of the construction personnel is caused to cause that the ground of a house is increased, the ground leveling degree after being increased is difficult to meet the standard requirement of the floor, and in addition, the manual cement leveling is performed manually, so that the construction personnel is slow in work, and the construction progress is slow.

Disclosure of Invention

In order to overcome the technical problems described above, the invention provides a ground processing device for indoor decoration.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a ground treatment device for interior decoration, includes the staving, staving bottom surface fixedly connected with is used for the fixed chassis mechanism of device, and staving outer annular sliding connection has the wave ring piece, the staving is inside to be provided with horizontal mechanism, and the fixed joint of horizontal mechanism top surface has a fixed bracket, the inside rotation of fixed bracket is connected with the rolling disc, rolling disc bottom surface center fixedly connected with uniform velocity motor, uniform velocity motor end and rolling disc bottom surface center fixed connection, and the fixed embedding of uniform velocity motor bottom and horizontal mechanism, a plurality of embedded grooves have evenly been seted up along the outer annular to the rolling disc top surface, and the inside joint of an embedded groove has the mechanism of laying that is used for laying cement mortar, lay mechanism one end and wave ring piece outer annular and contact, and lay mechanism one end fixed joint and have the inside storage barrel that is provided with the force pump.

Further, the method comprises the following steps: the novel corrugated barrel is characterized in that a plurality of caulking grooves are uniformly formed in the outer cylindrical surface of the barrel body, a supporting ring is fixedly connected to the bottom end of the outer cylindrical surface of the barrel body, a plurality of protrusions are uniformly and fixedly connected to the top of the inner side wall of the corrugated ring block and are in sliding connection with the caulking grooves in corresponding positions, the inner side wall of the corrugated ring block is located below the protrusions, an annular notch is formed in the inner side wall of the corrugated ring block, and the top surface of the inner side wall of the annular notch is located above the supporting ring.

The method is further characterized in that: the chassis mechanism comprises a circular ring block, a plurality of supporting rods are uniformly and fixedly connected to the outer annular surface of the circular ring block, pointed conical rods are fixedly connected to one ends of the bottom surfaces of the supporting rods, a fixed block is embedded into the inner annular surface of the circular ring block in a sliding mode, the top surface of the fixed block is fixedly connected with the bottom surface of the barrel body, two sliding grooves are formed in the mirror symmetry of the outer annular surface of the fixed block, aluminum alloy plates are fixedly connected to the inner walls of the sliding grooves, threaded holes are formed in the corresponding positions of the two sliding grooves in the outer cylindrical surface of the circular ring block, and pointed screws are screwed into the two threaded holes, one ends of the pointed screws penetrate through the circular ring block and the adjacent aluminum alloy plates in sequence and are extruded to be attached to the inner walls of the sliding grooves.

The method is further characterized in that: the two vertical side edges of the opening of the sliding groove are both fixed with a fastening splint, and one side of the two fastening clamping plates adjacent to each other is connected with the adjacent pointed screws are connected by spiral threads.

The method is further characterized in that: the horizontal mechanism comprises a shell, a limiting groove is formed in the inner ring surface of the barrel body and located at the corresponding position of the multiple embedding grooves, multiple convex blocks in sliding connection with the adjacent limiting grooves are evenly and fixedly connected to the top surface of the shell, multiple clamping blocks are evenly and fixedly connected to the bottom surface of the fixing bracket, multiple embedding blocks movably clamped with the adjacent clamping blocks are evenly and fixedly connected to the top surface of the outer ring surface of the shell, a square ring fixedly embedded with the bottom end of the constant-speed motor is fixedly connected to the center of the top surface of the shell, fixing strips are evenly and fixedly connected to the positions, corresponding to the multiple limiting grooves, of the inner bottom surface of the shell, one end of each fixing strip penetrates through the outer ring surface of the shell, a spiral thread groove is formed in one end of each fixing strip, sliding grooves are formed in the two opposite inner side walls of the fixing strips, sliding rods are clamped between the two sliding grooves in a sliding mode, the constant-speed motor is fixed to one side of each sliding rod, a threaded block rotatably connected with the spiral groove in the corresponding position is fixed to the motor end of each threaded block, a plurality of the threaded blocks is rotatably connected to the tapered blocks, an aluminum plate is fixedly connected to the inner wall of the limiting grooves, and one end of the tapered blocks penetrates through one side of the adjacent ring surface of the shell and contacts with the inner ring surface of the shell.

The method is further characterized in that: the laying mechanism comprises a main hollow rod, an L-shaped support is fixedly connected to the center of the top surface of the main hollow rod, a rectangular embedding block used for being embedded and connected with an embedding groove is fixedly connected to one end of the short arm bottom surface of the L-shaped support, a screwing port communicated with the inside of the main hollow rod is fixedly connected to one end of the top surface of the main hollow rod, the bottom end of the storage cylinder is screwed and fixed with the screwing port, and the storage cylinder is communicated with the inside of the main hollow rod through the screwing port, one end of the main hollow rod is fixedly clamped with a plurality of clamping hollow rods in sequence, wherein one clamping hollow rod positioned at the outermost side is fixedly clamped with an auxiliary hollow rod, the main hollow rod, the auxiliary hollow rod and the clamping hollow rods are communicated, one end of the main hollow rod and one end of each clamping hollow rod are fixedly connected with a clamping base, one end of each auxiliary hollow rod and one end of each clamping hollow rod, which is opposite to the clamping hollow rods, of two outer side walls are fixedly connected with a plurality of clamping blocks at equal distances, the two inner side walls of the clamping base are fixedly clamped with a plurality of adjacent clamping blocks, rectangular through holes are formed in bottom plates of the main hollow rod, the auxiliary hollow rod and the clamping hollow rods in a penetrating mode, a plurality of circular through holes communicated with the adjacent rectangular through holes are formed in bottom surfaces of the main hollow rod, the auxiliary hollow rod and the clamping hollow rods at equal intervals, an embedded plate is connected inside the rectangular through holes in the main hollow rod in a sliding mode, one end of the embedded plate is rotatably connected with a pulley, the pulley is in contact with the outer ring surface of the wave ring block, an embedded plate is connected inside the rectangular through holes in the clamping hollow rods in a sliding mode, an L-shaped embedded plate is connected inside the rectangular through holes in the auxiliary hollow rods in a sliding mode, the short arm of the L-shaped embedded plate is located at the other end of the auxiliary hollow rod, the short arm of the L-shaped embedded plate is located inside the auxiliary hollow rod, and the other end of the auxiliary hollow rod is fixedly connected with a fixing box, and a plurality of resilience springs of a fixed box inside wall fixedly connected with, and a plurality of resilience spring one end all contacts with L type panel forearm one side, all set up the circular port corresponding with adjacent circular through-hole on embedding board, a plurality of gomphosis boards and the L type panel.

The method is further characterized in that: the equal fixedly connected with rectangle of cavity pole top surface one end encircles the piece in the cavity pole top surface other end and a plurality of joints in the owner, and cavity pole top surface one end and a plurality of joints in the vice equal fixedly connected with elasticity gib block of cavity pole top surface other end, it is a plurality of elasticity gib block all with the inside joint of dismantling of adjacent rectangle ring block.

The method is further characterized in that: the joint base includes the U template, U template inner wall one end and adjacent main cavity pole one end fixed connection, and the equal equidistance of the relative both sides wall of U template both arms sets up a plurality of arc walls with adjacent joint piece joint.

Further, the method can be used for preparing a novel material the method comprises the following steps: the main hollow rod, the auxiliary hollow rods and one long side edge of the bottom surfaces of the clamping hollow rods are fixedly connected with a trowelling component for trowelling cement mortar;

the floating component comprises a floating shovel, screw holes are formed in the two ends of the top surface of the floating shovel, fastening screws are screwed into the screw holes, and the tips of the two fastening screws are screwed and fixed with a long side edge of the bottom surface of the adjacent main hollow rod.

Further, the method comprises the following steps: one side wall of the trowelling shovel is an inclined plane.

The invention has the beneficial effects that:

1. through adding water and putting the horizontal mechanism on the surface of water in staving inside, treat the static back of horizontal mechanism, the horizontal mechanism is parallel with the horizontal plane, start horizontal mechanism and make horizontal mechanism and staving position fixed, connect wave ring piece in staving outer anchor ring bottom, again with the mounting bracket joint at the horizontal mechanism top surface, inside the embedded groove on the mechanism embedding rolling disc of will laying again, this moment, laying mechanism is fixed in on the rolling disc, again with storage cylinder and laying mechanism joint, start at the uniform velocity motor, at this moment, laying mechanism can rotate and can remove along the concave and convex of wave ring piece outer anchor ring, lay cement and strickle off ground, thereby make the required experience requirement of the work of making level on ground reduce, and make level more accurate and quick.

2. Through arranging the joint piece of cavity pole or vice cavity pole tip in a plurality of joints in U template top and pressing the arc wall that makes the relative one side of two arms on the U template can with the mutual joint of joint piece of cavity pole and vice cavity pole tip in a plurality of joints, after joint base and a joint piece joint finish, elasticity gib block is located and corresponds rectangle ring block top, at this moment, presses and makes its hook-shaped part produce partial deformation and can make elasticity embedding gib block rectangle ring block.

3. A plurality of lugs through the top surface of the shell enable the shell to be static, and cannot rotate due to external factors, because the lugs are all located inside the corresponding limiting grooves, but the lugs are not in contact with the inside of the limiting grooves, and a gap exists between one end of each lug and the corresponding limiting groove, so that the shell can not rotate to a large extent due to the limitation of the limiting grooves and the lugs after the shell is placed into the water surface of the barrel body, and the whole position of the shell is kept stable.

4. Fix on cavity pole in main cavity pole, vice cavity pole and a plurality of joint through each trowelling shovel, make each trowelling shovel can be simultaneously to subaerial uneven cement mortar floating, simultaneously, because cavity pole in main cavity pole, vice cavity pole and a plurality of joint cavity pole all rotate with uniform velocity motor as the center, whole present fan-shaped when making each trowelling shovel rotate to sweep cement mortar to the device periphery, thereby make the whole trowelling of ground of device place below.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the overall bottom structure of the present invention;

FIG. 3 is a schematic view of the structure of the fixed bracket, the rotating disk and the wave ring block in the invention;

FIG. 4 is a schematic view of the construction of the undercarriage mechanism of the present invention;

FIG. 5 is an enlarged partial view at A in the present invention;

FIG. 6 is a schematic view of the inner structure of the barrel body of the present invention;

FIG. 7 is an enlarged partial view of the invention at B;

FIG. 8 is a schematic view of an insert according to the present invention;

FIG. 9 is a schematic view of the bottom of the housing of the present invention;

FIG. 10 is an enlarged partial view at C of the present invention;

FIG. 11 is a schematic view of the construction of the laying mechanism of the present invention;

FIG. 12 is a schematic view of the structure of the elastic hook strip of the present invention;

FIG. 13 is a schematic view of the main hollow shaft of the present invention;

FIG. 14 is a schematic view of the construction of the secondary hollow shaft of the present invention;

fig. 15 is a schematic structural view of a floating assembly according to the present invention.

In the figure: 100. a barrel body; 101. caulking grooves; 102. a supporting ring; 103. a limiting groove; 104. an aluminum plate; 110. a wave ring block; 111. a protrusion; 112. an annular gap; 200. a horizontal mechanism; 210. a housing; 211. a clamping block; 212. a bump; 220. a square ring; 230. a fixing strip; 231. a sliding groove; 240. a slide bar; 241. a constant speed motor; 250. a thread block; 260. a conical block; 300. a fixing bracket; 310. an insert block; 320. rotating the disc; 321. a groove is embedded; 400. an undercarriage mechanism; 410. a circular ring block; 411. a strut; 420. a tapered rod; 430. a pointed screw; 440. a fixed block; 441. a chute; 450. fastening the clamping plate; 460. aluminum alloy plate; 500. a constant speed motor; 600. a laying mechanism; 601. a circular through hole; 602. a circular hole; 610. a main hollow shaft; 612. a built-in plate; 613. a pulley; 620. an L-shaped bracket; 621. a rectangular embedding block; 630. screwing the opening; 640. clamping the hollow rod; 642. a tabling plate; 650. an auxiliary hollow rod; 652. an L-shaped panel; 654. a fixing box; 655. a rebound spring; 660. clamping the base; 661. an arc-shaped slot; 662. a U-shaped plate; 670. an elastic hook strip; 680. a clamping block; 690. a rectangular ring block; 700. a troweling assembly; 710. b, troweling; 720. fastening screws; 800. a storage cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 15, a ground treatment apparatus for interior decoration includes a barrel 100, an underframe mechanism 400 for fixing the apparatus is fixedly connected to the bottom surface of the barrel 100, a wave ring block 110 is slidably connected to the outer ring surface of the barrel 100, a horizontal mechanism 200 is disposed inside the barrel 100, a fixing bracket 300 is fixedly fastened to the top surface of the horizontal mechanism 200, a rotating disc 320 is rotatably connected to the inside of the fixing bracket 300, a constant speed motor 500 is fixedly connected to the center of the bottom surface of the rotating disc 320, the motor end of the constant speed motor 500 is fixedly connected to the center of the bottom surface of the rotating disc 320, the bottom end of the constant speed motor 500 is fixedly embedded into the horizontal mechanism 200, a plurality of embedded grooves 321 are uniformly formed along the outer ring surface of the top surface of the rotating disc 320, a paving mechanism 600 for paving cement mortar is fastened to the inside of one embedded groove 321, one end of the paving mechanism 600 is in contact with the outer ring surface of the wave ring block 110, and a material storage barrel 800 having a pressure pump therein is fixedly fastened to one end of the paving mechanism 600, the height of the barrel body 100 is adjusted by adjusting the underframe mechanism 400, water is added into the barrel body 100, the horizontal mechanism 200 is placed on the water surface, after the horizontal mechanism 200 is static, the horizontal mechanism 200 is parallel to the horizontal plane, the horizontal mechanism 200 is started to fix the horizontal mechanism 200 and the barrel body 100, the wave ring block 110 is connected to the bottom end of the outer ring surface of the barrel body 100, the fixed bracket 300 is clamped on the top surface of the horizontal mechanism 200, the constant-speed motor 500 connected with the rotating disc 320 in the fixed bracket 300 is embedded into the top surface of the horizontal mechanism 200, the laying mechanism 600 is embedded into the embedding groove 321 on the rotating disc 320, at the moment, the laying mechanism 600 is fixed on the rotating disc 320, the material storage barrel 800 is clamped with the laying mechanism 600, the constant-speed motor 500 is started, at the moment, the laying mechanism 600 rotates and moves along the concave-convex surface of the outer ring surface of the wave ring block 110, lay cement and strickle off ground to the messenger when carrying out interior decoration, ground can make level fast, and require to reduce to workman's experience, thereby make ground make level the required experience requirement of work and reduce, and make level more accurate and quick, and owing to can adjusting device height, make ground thickness can regulate and control when laying.

The outer cylindrical surface of the barrel body 100 is uniformly provided with a plurality of caulking grooves 101, the bottom end of the outer annular surface of the barrel body 100 is fixedly connected with a supporting ring 102, the top of the inner side wall of the wave ring block 110 is uniformly and fixedly connected with a plurality of protrusions 111, the plurality of protrusions 111 are all in sliding connection with the caulking grooves 101 at corresponding positions, the inner side wall of the wave ring block 110 is positioned below the protrusions 111 and is provided with an annular gap 112, the inner top surface of the annular gap 112 is positioned above the supporting ring 102, so that the wave ring block 110 is clamped with the caulking grooves 101 on the outer cylindrical surface of the barrel body 100 through the protrusions 111, the position of the wave ring block 110 is kept fixed, when the laying mechanism 600 moves along the outer annular surface of the wave ring block 110, the wave ring block 110 cannot rotate along with the movement of the laying mechanism 600, meanwhile, the annular gap 112 on the bottom surface of the wave ring block 110 is positioned below the bottom surface of the barrel body 100, so that the part of the outer annular surface of the wave ring block 110 is positioned below the bottom surface of the barrel body 100, when the adjusting chassis mechanism 400 adjusts the height of the barrel body 100, if the position of the laying mechanism 600 is lower, the lower position, the laying mechanism 600 can still can be adjusted, and the laying distance of the laying mechanism 600 can be increased;

the bottom frame mechanism 400 comprises a circular ring block 410, a plurality of supporting rods 411 are uniformly and fixedly connected to the outer circumferential surface of the circular ring block 410, one ends of the bottom surfaces of the plurality of supporting rods 411 are fixedly connected with tapered rods 420, a fixed block 440 is embedded into the inner circumferential surface of the circular ring block 410 in a sliding manner, the top surface of the fixed block 440 is fixedly connected with the bottom surface of the barrel body 100, two sliding grooves 441 are arranged on the outer circumferential surface of the fixed block 440 in a mirror symmetry manner, aluminum alloy plates 460 are fixedly connected to the inner walls of the two sliding grooves 441, threaded holes are arranged on the outer cylindrical surface of the circular ring block 410 at positions corresponding to the two sliding grooves 441, and tapered screws 430 are screwed into the two threaded holes, one ends of the tapered screws penetrate through the circular ring block 410 and the adjacent aluminum alloy plates 460 in sequence and are pressed against the inner walls of the sliding grooves 441, when the bottom end of the pointed conical rod 420 is contacted with the ground, the position of the barrel body 100 is more stable, dislocation and displacement cannot occur, the pointed screws 430 are enabled to pass through the circular ring block 410 and enter the circular ring block 410 by screwing the two pointed screws 430, at the moment, the two sliding grooves 441 on the outer ring surface of the fixed block 440 are aligned to the tips of the two pointed screws 430 to slide down, the tips of the two pointed screws 430 are enabled to be positioned in the corresponding sliding grooves 441, at the moment, the two pointed screws 430 are screwed, the tips of the pointed screws 430 are enabled to be drilled through the aluminum alloy plate 460 to be abutted against the inner walls of the two sliding grooves 441 on the fixed block 440, and the fixed block 440 is enabled to be connected with the circular ring block 410 more stably by limiting of the aluminum alloy plate 460, and the bearable weight is increased;

the two vertical side edges of the opening of the sliding groove 441 are both fixed with the fastening splints 450, the adjacent sides of the two fastening splints 450 are both connected with the spiral threads on the adjacent pointed screw 430, and the two fastening splints 450 and the adjacent pointed screw 430 are in a screwing state through the prismatic structure of the opposite sides of the two fastening splints 450, so that the connection between the fixing block 440 and the circular ring block 410 is more stable, and the bearable weight is increased;

the horizontal mechanism 200 comprises a shell 210, a plurality of limiting grooves 103 are formed on the inner circumferential surface of the barrel 100 at positions corresponding to the plurality of caulking grooves 101, a plurality of convex blocks 212 slidably connected with adjacent limiting grooves 103 are fixedly connected to the top end of the outer circumferential surface of the shell 210, a plurality of clamping blocks 211 are fixedly connected to the top surface of the shell 210, a plurality of embedded blocks 310 movably clamped with adjacent clamping blocks 211 are fixedly connected to the bottom surface of the fixing bracket 300, a square ring 220 fixedly embedded with the bottom end of the constant speed motor 500 is fixedly connected to the center of the top surface of the shell 210, fixing strips 230 are fixedly connected to the inner circumferential surface of the shell 210 at positions corresponding to the plurality of limiting grooves 103, one ends of the plurality of fixing strips 230 penetrate through the outer circumferential surface of the shell 210, spiral thread grooves are formed at one end of the plurality of fixing strips 230, sliding grooves 231 are formed on the two opposite inner side walls of the plurality of fixing strips 230, and a sliding rod 240 is slidably clamped between the two sliding grooves 231 on one fixing strip 230, a constant-speed motor 241 is fixed at one side of the sliding rod 240, a screw block 250 which is screwed with the corresponding position spiral thread groove is fixed at the motor end of the constant-speed motor 241, one end of each screw block 250 is rotatably connected with a cone block 260, the inner walls of the limiting grooves 103 are fixedly connected with aluminum plates 104, one end of each cone block 260 penetrates through one side of the adjacent aluminum plate 104 and contacts with the inner annular surface of the shell 210, when the shell 210 is static through the lugs 212 on the top surface of the shell 210, the shell 210 cannot rotate due to external factors, because the lugs 212 are positioned in the corresponding limiting grooves 103, the lugs 212 do not contact with the inner parts of the limiting grooves 103, a gap is formed between one end of each lug 212 and the limiting grooves 103, after the shell 210 is placed on the water surface of the barrel body 100, due to the limitation of the limiting grooves 103 and the lugs 212, the shell 210 cannot rotate too much, and the whole position is kept stable, meanwhile, since a gap is formed between the bump 212 and the limiting groove 103, the limiting groove 103 does not limit the casing 210 to be stationary on a horizontal plane and thus to keep parallel motion with the horizontal plane, after the casing 210 is stationary and parallel to the horizontal plane, the plurality of constant speed motors 241 are started, the plurality of constant speed motors 241 drive the connected screw blocks 250 to advance along the spiral grooves on the fixing bars 230 to which the screw blocks 250 are screwed, and since the ends of the plurality of constant speed motors 241 are connected with the slide bars 240, the plurality of slide bars 240 slide between the two slide grooves 231 on the fixing bars 230, which are translational movement, so that the ends of the constant speed motors 241 are fixed, when the screw blocks 250 move along the spiral grooves of the fixing bars 230, the ends of the constant speed motors 241 are fixed, the constant speed motors 241 are integrally driven to advance by the screw blocks 250 until all the screw blocks 250 abut against the ends of the cone blocks 260 inside the fixing bars 230, the cone blocks 260 are extruded by the screw blocks 250 to push the cone blocks 260, so that each cone block 260 penetrates through the inner walls 104 of the adjacent limiting grooves 103, thereby enabling the casing 210 to be tightly connected with the casing 210, and further enabling a worker to control the casing 210 to be in a state when the casing 210 is still, thereby enabling the worker to immediately, and enabling the casing 210 to be in a state, and enabling the worker to control the worker to be in which the case 210 to be in parallel with the horizontal plane, thereby enabling the horizontal plane, and enabling the casing 210 to be conveniently, and enabling the worker 210 to enable the worker 210 to be in a state, and to be conveniently.

The laying mechanism 600 comprises a main hollow rod 610, an L-shaped support 620 is fixedly connected to the center of the top surface of the main hollow rod 610, one end of the short arm bottom surface of the L-shaped support 620 is fixedly connected with a rectangular embedding block 621 used for being embedded and connected with an embedding groove 321, one end of the top surface of the main hollow rod 610 is fixedly connected with a screwing port 630 communicated with the inside of the main hollow rod 610, the bottom end of a material storage cylinder 800 is screwed and fixed with the screwing port 630, the material storage cylinder 800 is communicated with the inside of the main hollow rod 610 through the screwing port 630, one end of the main hollow rod 610 is fixedly clamped with a plurality of clamping hollow rods 640 in sequence, wherein one clamping hollow rod 640 at the outermost side is fixedly clamped with an auxiliary hollow rod 650, the main hollow rod 610, the auxiliary hollow rod 650 and the plurality of clamping hollow rods 640 are communicated with the inside, one end of the main hollow rod 610 and one end of the plurality of clamping hollow rods 640 are fixedly connected with a clamping base 660, one end of the auxiliary hollow rod 650 and one end of two opposite outer side walls of the plurality of the clamping hollow rods 640 are fixedly connected with a plurality of clamping hollow rods 680 at equal distance, the two inner side walls of the clamping base 660 are fixedly clamped with a plurality of adjacent clamping blocks 680, rectangular through holes are formed in the bottom plates of the main hollow rod 610, the auxiliary hollow rod 650 and the plurality of clamping hollow rods 640 in a penetrating manner, a plurality of circular through holes 601 communicated with the adjacent rectangular through holes are formed in the bottom surfaces of the main hollow rod 610, the auxiliary hollow rod 650 and the plurality of clamping hollow rods 640 at equal intervals, an embedded plate 612 is connected inside the rectangular through hole on the main hollow rod 610 in a sliding manner, one end of the embedded plate 612 is rotatably connected with a pulley 613, the pulley 613 is in contact with the outer annular surface of the wavy ring block 110, an embedded plate 642 is connected inside the rectangular through hole on the clamping hollow rod 640 in a sliding manner, an L-shaped panel 652 is connected inside the rectangular through hole on the auxiliary hollow rod 650 in a sliding manner, and the short arm of the L-shaped panel 652 is located at the other end of the auxiliary hollow rod 650, the short arm of the L-shaped panel 652 is positioned inside the auxiliary hollow rod 650, the other end of the auxiliary hollow rod 650 is fixedly connected with a fixing box 654, an inner side wall of the fixing box 654 is fixedly connected with a plurality of resilient springs 655, one end of each resilient spring 655 is contacted with one side of the short arm of the L-shaped panel 652, the embedding plate 612, the embedding plates 642 and the L-shaped panel 652 are respectively provided with a circular hole 602 corresponding to the adjacent circular through hole 601, the L-shaped bracket 620 can be fixed by fixing the rectangular embedding block 621 and the embedding groove 321, the bottom surfaces of the main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rods 640 are positioned above the ground to be leveled, the clamping blocks 680 on the clamping hollow rods 640 are clamped with the main hollow rod 610 through the clamping base 660, one end of the clamping hollow rod 640 positioned at the end far away from the main hollow rod 610 is clamped with the auxiliary hollow rod 650 through the clamping base 660, then, cement mortar is filled in the material storage cylinder 800 and is fixed with the main hollow rod 610 through the screwing port 630, at this time, the cement mortar is injected into the main hollow rod 610 under the influence of the pump in the material storage cylinder 800, because the main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rod 640 are communicated, the cement mortar enters the plurality of clamping hollow rods 640 and the auxiliary hollow rods 650 through the main hollow rod 610, at this time, because the main hollow rod 610, the plurality of clamping hollow rods 640 and the auxiliary hollow rod 650 are communicated, the embedded plate 612, the plurality of embedded plates 642 and the L-shaped panel 652 are butted and positioned on the same plane, when the uniform speed motor 500 is started, the pulley 613 on the embedded plate 612 moves on the wave ring block 110, and when passing through the convex part on the wave ring block 110, the pulley 613 is pressed towards the main hollow rod 610 by the wave ring block 110, thereby moving the insertion plate 612 in the direction of the secondary hollow rod 650, and moving the plurality of fitting plates 642 and the plurality of L-shaped panels 652 in the direction of the secondary hollow rod 650 by the insertion plate 612, and at this time, the L-shaped panels 652 press and compress the plurality of resilient springs 655, and at this time, the plurality of fitting plates 642 and the circular holes 602 of the insertion plate 612 and the L-shaped panels 652 are all parallel to the corresponding circular through holes 601, and at this time, cement mortar falls from the passage formed by the circular holes 602 and the circular through holes 601, and when the pulley 613 enters the recess of the wave ring block 110, the plurality of resilient springs 655 are restored, and the short arm portion of the L-shaped panel 652 is pressed, and the L-shaped panel 652 is restored, and thereby the L-shaped panel 652 drives the plurality of fitting plates 642 and the insertion plate 612 to be restored, and thereby the pulley 613 is moved in the direction away from the primary hollow rod 610, all the circular holes 602 are located at one side of the corresponding circular through holes 601 due to the restoring motion of the embedded plate 612, the plurality of embedded plates 642 and the L-shaped panel 652, so that all the circular through holes 601 are closed, and cement mortar does not leak, and because the recesses and the protrusions of the outer annular surface of the wave ring block 110 are uniformly distributed, the pulley 613 is moved along the outer annular surface of the wave ring block 110 under the power of the constant speed motor 500, so that the interiors of the main hollow rod 610, the plurality of clamping hollow rods 640 and the secondary hollow rod 650 can move along with the pulley 613 to drive the embedded plate 612, the plurality of embedded plates 642 and the L-shaped panel 652 to move inside the respective hollow rods, and a certain turning is generated, so that the cement mortar inside the main hollow rod 610, the plurality of clamping hollow rods 640 and the secondary hollow rod 650 can smoothly leak from the passage formed by the circular holes 602 and the circular through holes 601.

The equal fixedly connected with rectangle ring piece 690 in the pole 640 top surface one end in 610 top surface other end and the multiple joint in the owner in the cavity pole 650 top surface one end and the multiple joint in the cavity pole 640 top surface other end, the equal fixedly connected with elasticity gib block 670 in the multiple elasticity gib block 670, the joint can all be dismantled with adjacent rectangle ring piece 690 inside to the multiple elasticity gib block 670, make the cavity pole 640 in the joint each other joint and with the pole 610 in the owner, when the cavity pole 650 joint in the vice, can make elasticity gib block 670 produce certain deformation and imbed inside the rectangle ring piece 690, cavity pole 640 joint is too much in the joint, make the cement mortar passageway that the cavity pole 640 formed in all joints overlength, the cavity pole 640 can incline to ground slightly in the multiple joint, at this moment, each elasticity gib block 670 just can be in close contact with the top of rectangle ring piece 690, thereby share the inside weight of the cavity pole 640 in the multiple joint, make the cavity pole 640 keep horizontal straight state in the multiple joint.

The clamping base 660 comprises a U-shaped plate 662, one end of the inner wall of the U-shaped plate 662 is fixedly connected with one end of the adjacent main hollow rod 610, a plurality of arc-shaped grooves 661 which are clamped with the adjacent clamping blocks 680 are formed in two opposite side walls of two arms of the U-shaped plate 662 at equal intervals, the U-shaped plate 662 can be clamped with the clamping blocks 680 at the ends of the clamping hollow rods 640 and the auxiliary hollow rods 650 through the arc-shaped grooves 661 at two opposite sides of the two arms of the U-shaped plate 662, the clamping action is realized by placing the clamping blocks 680 at the ends of the clamping hollow rods 640 or the auxiliary hollow rods 650 above the U-shaped plate 662, the action is convenient for clamping the elastic hook strips 670 and the rectangular ring blocks 690 with each other, after the clamping base 660 and the clamping blocks 680 are clamped, the elastic hook strips 670 are located above the corresponding rectangular ring blocks 690, at the moment, the elastic hook strips 670 are pressed to enable partial deformation of the elastic hook strips 670 to be embedded into the rectangular ring blocks 690, and the ends of the hook strips 670 are located below the top surface of the rectangular ring blocks 690, and the elastic hook strips 670 are convenient for a person holding the U-shaped plate 662 without holding the two arms.

The main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rods 640 are fixedly connected with a floating assembly 700 for floating cement mortar on one long side of the bottom surface, the floating assembly 700 comprises a floating shovel 710, screw holes are formed in two ends of the top surface of the floating shovel 710, fastening screws 720 are screwed into the two screw holes, the tips of the two fastening screws 720 are screwed and fixed with one long side of the bottom surface of the adjacent main hollow rod 610, when the main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rods 640 discharge materials, uneven cement mortar on the ground can be simultaneously floated by the floating shovels 710, and meanwhile, the main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rods 640 rotate by taking the constant-speed motor 500 as the center, so that the whole floating shovels 710 rotate to be fan-shaped, cement mortar is swept to the periphery of the device, and the ground below the device is integrally floated; one side wall of the troweling shovel 710 is an inclined surface, which is convenient for the troweling shovel 710 to trowel cement mortar on the ground.

The working principle is as follows: when the barrel body 100 is used, marks are made on the wall surface, the cement mortar paving height needing to be leveled is found, the bottom ends of the pointed conical rods 420 on the plurality of supporting rods 411 on the circular ring block 410 are placed on the ground, the fixing block 440 is embedded into the circular ring block 410, the height of the fixing block 440 is adjusted, the height of the barrel body 100 is adjusted, at the moment, the two sliding grooves 441 need to be aligned to the two pointed screws 430, the two pointed screws 430 respectively enter the two sliding grooves 441, the two pointed screws 430 are screwed, the pointed ends of the pointed screws 430 enter the circular ring block 410, are screwed with the edges of the two adjacent fastening clamping plates 450 and penetrate through the aluminum alloy plates 460 on the inner walls of the adjacent sliding grooves 441, the pointed ends of the two pointed screws 430 are limited by the aluminum alloy plates 460 penetrating through and are abutted against the inner walls of the fixing block 440, and then water is injected into the barrel body 100;

placing the shell 210 into the barrel body 100, after the shell 210 is stabilized, measuring the heights of the shell 210 and the mark by taking a ruler, adjusting the heights of the shell 210 and the mark until the heights of the shell 210 and the mark are equal to the distance between the bottom surface of the main hollow rod 610 mounted on the rotating disc 320 and the shell 210, then synchronously starting all the constant speed motors 241, so that all the constant speed motors 241 synchronously drive the connected screw blocks 250 to rotate in the fixed bars 230, at the moment, all the screw blocks 250 advance due to the spiral grooves in the fixed bars 230, and drive the connected constant speed motors 241 to move along the sliding grooves 231 on both sides through the sliding rods 240 until all the screw blocks 250 synchronously push the cone blocks 260 in the fixed bars 230 to reach the aluminum plates 104 in the corresponding limiting grooves 103, and push the tips of the adjacent cone blocks 260 to penetrate through the corresponding aluminum plates 104 by the extrusion of all the screw blocks 250, so that the tips of all the cone blocks 260 are limited by the corresponding aluminum plates 104, and the tips of the cone blocks 260 contact with the inner annular surface of the barrel body 100;

the wavy ring block 110 is kept downward, the wavy ring block 110 is sleeved on the outer ring surface of the barrel body 100 from the upper part of the barrel body 100 and is clamped with the embedded groove 101 on the outer cylindrical surface of the barrel body 100 through the bulge 111, so that the position of the wavy ring block 110 is kept fixed, at the moment, the end of the fixed bracket 300 is lifted to be arranged above the shell body 210, the plurality of embedded blocks 310 on the fixed bracket 300 are embedded into the embedded groove 211 on the shell body 210, so that the position of the fixed bracket 300 is stable, meanwhile, the uniform-speed motor 500 is embedded into the square ring 220, then the rectangular embedded blocks 621 on the L-shaped support 620 on one or more laying mechanisms 600 are embedded into the embedded groove 321 on the rotating disc 320, at the moment, the clamping block 680 on one clamping hollow rod 640 on one or more laying mechanisms 600 is clamped with the main hollow rod 610 at the bottom end of the L-shaped support 620 through the arc groove 661 of the U-shaped plate 662 on the clamping base 660 on the main hollow rod 610, then, the arc-shaped groove 661 on the U-shaped plate 662 of the clamping base 660 of one clamping hollow rod 640 is pressed and clamped with the clamping block 680 of the other clamping hollow rod 640, the clamping hollow rods 640 are clamped in sequence, one end of the clamping hollow rod 640 far away from one end of the main hollow rod 610 is clamped with the auxiliary hollow rod 650 through the clamping base 660, at this time, the main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rod 640 on one or more laying mechanisms 600 are communicated, then, the storage cylinder 800 on one or more laying mechanisms 600 is filled with cement mortar and fixed with the main hollow rod 610 through the rotary joint 630 on the same laying mechanism 600, the cement mortar enters the clamping hollow rods 640 and the auxiliary hollow rod 650 through the main hollow rod 610, at this time, the interiors of the laying mechanisms 600 are communicated with the rectangular through holes of the auxiliary hollow rods 650 and the main hollow rod 610, the embedded plate 612, the plurality of embedded plates 642 and the L-shaped embedded plate 652 are abutted and located on the same plane, when the constant speed motor 500 is started, the pulley 613 on the embedded plate 612 moves on the wave ring block 110, when the pulley 613 is pressed towards the main hollow rod 610 by the wave ring block 110 when passing through the convex part on the wave ring block 110, so that the embedded plate 612 moves towards the auxiliary hollow rod 650, so that the embedded plate 612 drives the plurality of embedded plates 642 and the L-shaped embedded plate 652 to move towards the auxiliary hollow rod 650, at this time, the L-shaped embedded plate 652 presses and compresses the plurality of resilient springs 655, and, at this time, the circular holes 602 on the plurality of embedded plates 642, the embedded plate 612 and the L-shaped embedded plate 652 are parallel to the corresponding circular through holes 601, at this time, cement mortar falls down from the passage formed by the L-shaped through holes 602 and the circular through holes 601, when the pulley 613 enters the concave part on the wave ring block 110, the plurality of the resilient springs 655 restore, press the short arm part of the L-shaped embedded plate 652, so that the L-shaped embedded plate 652 is restored to the L-shaped embedded plate 613 and the plurality of embedded plates 613, thereby the embedded plates are restored to the hollow plates 610 and the hollow rod block 650, and the embedded plates are moved towards the concave part of the main hollow rod 650, so that all the hollow rod 650, the embedded plates are restored to the hollow rod 650, and the hollow rod 500, and the embedded plates 500, so that all the embedded plates are restored to the embedded plates 500, and the hollow rod, and the embedded plates are restored to move uniformly moved under the hollow rod, and the embedded plates are restored to the embedded plates, so that all the pulley 642 are moved under the hollow rod 650, and the pulley is restored to the hollow rod, and the embedded plates are restored to the embedded plates, so that all the pulley 500, the embedded plates are restored to the embedded plates are moved under the hollow rod, and the embedded plates are moved uniformly, and the embedded plates 110, so that all the embedded plates are moved under the pulley is moved under the hollow rod, and the pulley 500, and the embedded plates 110, the embedded plates, so that the embedded plates are moved uniformly, and the embedded plates are moved under the hollow rod 650, thereby generating a certain turning, so that cement mortar in the main hollow rod 610, the plurality of clamping hollow rods 640 and the auxiliary hollow rod 650 can smoothly leak from the passage formed by the circular hole 602 and the circular through hole 601, so that the cement mortar can be laid on the ground for leveling, and then each trowel 710 is screwed with one side of the bottom surface of the adjacent main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rods 640 through each fastening screw 720, so that when the main hollow rod 610, the auxiliary hollow rod 650 and the clamping hollow rods 640 are discharged, the cement mortar, which is uneven on the ground, can be leveled simultaneously by the respective leveling blades 710, and at the same time, because the main hollow rod 610, the auxiliary hollow rod 650 and the plurality of clamping hollow rods 640 all rotate around the uniform speed motor 500, the trowels 710 are integrally fan-shaped when rotating, thereby sweeping the cement mortar to the periphery of the device, so that the ground below the device is integrally leveled, the leveled ground becomes the leveled ground, and presenting a ring surface, dismantling each part of the barrel body 100, transferring the barrel body 100 to the un-paved ground, adjusting the height of the barrel body 100 and the height of the shell 210 to enable the measured height of the shell 210 and the marked height to be equal to the distance between the bottom surface of the main hollow rod 610 installed on the rotating disc 320 and the shell 210, then installing and paving again, laying repeatedly until most of the ground of the room becomes a horizontal plane, filling up a small part of the un-paved ground by using cement mortar after the ground is completely leveled, because most ground in the room is the horizontal plane of laying after making level for the constructor only need use a flat board, fills cement mortar into ground defect department, recycles the flat board strickle off can, notices this moment, and the both ends of flat board all need to contact and be parallel with the ground of making level around the ground defect department.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims

1. A ground processing device for indoor decoration comprises a barrel body (100), and is characterized in that the bottom surface of the barrel body (100) is fixedly connected with an underframe mechanism (400) for fixing a device, the outer annular surface of the barrel body (100) is connected with a wave ring block (110) in a sliding manner, a horizontal mechanism (200) is arranged in the barrel body (100), a fixing bracket (300) is fixedly clamped on the top surface of the horizontal mechanism (200), a rotating disc (320) is rotatably connected in the fixing bracket (300), the center of the bottom surface of the rotating disc (320) is fixedly connected with a constant speed motor (500), the motor end of the constant speed motor (500) is fixedly connected with the center of the bottom surface of the rotating disc (320), the bottom end of the constant speed motor (500) is fixedly embedded in the horizontal mechanism (200), a plurality of embedded grooves (321) are uniformly formed in the top surface of the rotating disc (320) along the outer annular surface, a laying mechanism (600) for laying cement mortar is clamped in the embedded groove (321), one end of the laying mechanism (600) is laid to be in contact with the outer annular surface of the wave ring block (110), and one end of the laying mechanism (600) is fixedly clamped with a barrel (800) in which a pressure pump is arranged;

a plurality of caulking grooves (101) are uniformly formed in the outer cylindrical surface of the barrel body (100), a supporting ring (102) is fixedly connected to the bottom end of the outer annular surface of the barrel body (100), a plurality of protrusions (111) are uniformly and fixedly connected to the top of the inner side wall of the wavy ring block (110), the protrusions (111) are all in sliding connection with the caulking grooves (101) at corresponding positions, an annular notch (112) is formed in the inner side wall of the wavy ring block (110) below the protrusions (111), and the inner top surface of the annular notch (112) is located above the supporting ring (102);

the horizontal mechanism (200) comprises a shell (210), a plurality of limiting grooves (103) are formed in the inner annular surface of the barrel body (100) at positions corresponding to the plurality of caulking grooves (101), a plurality of convex blocks (212) in sliding connection with adjacent limiting grooves (103) are uniformly and fixedly connected to the top end of the outer annular surface of the shell (210), a plurality of fixture blocks (211) are uniformly and fixedly connected to the top surface of the shell (210), a plurality of embedded blocks (310) movably clamped with adjacent fixture blocks (211) are uniformly and fixedly connected to the bottom surface of the fixing bracket (300), a square ring (220) fixedly embedded into the bottom end of the constant speed motor (500) is fixedly connected to the center of the top surface of the shell (210), fixing strips (230) are fixedly connected to positions corresponding to the plurality of limiting grooves (103) in the shell (210), one ends of the fixing strips (230) penetrate through the shell (210), one ends of the plurality of the fixing strips (230) are provided with spiral thread grooves, two opposite inner side walls of the fixing strips (230) are provided with sliding grooves (231), two sliding grooves (230) are formed in one side of the fixing strips (240), and a plurality of sliding strips (250) are fixedly connected to the spiral thread grooves (250) connected to one side of the motor (241), the inner walls of the limiting grooves (103) are fixedly connected with aluminum plates (104), and one ends of the conical blocks (260) penetrate through one side of the adjacent aluminum plate (104) and are in contact with the inner annular surface of the shell (210);

the laying mechanism (600) comprises a main hollow rod (610), an L-shaped support (620) is fixedly connected to the center of the top surface of the main hollow rod (610), a rectangular embedding block (621) used for being embedded and connected with an embedding groove (321) is fixedly connected to one end of the short arm bottom surface of the L-shaped support (620), a screwing port (630) communicated with the inside of the main hollow rod (610) is fixedly connected to one end of the top surface of the main hollow rod (610), the bottom end of the material storage cylinder (800) is screwed and fixed with the screwing port (630), the material storage cylinder (800) is communicated with the inside of the main hollow rod (610) through the screwing port (630), the main hollow rod (610) is sequentially fixedly clamped with a plurality of clamping hollow rods (640), wherein, hollow pole (640) fixed joint has vice cavity pole (650) in a joint in the outside, pole (610), vice cavity pole (650) and the inside of a plurality of joints cavity pole (640) are linked together in the owner, pole (640) one end and the equal fixedly connected with joint base (660) in a plurality of joints in pole (610) one end in the owner, and just in pole (650) one end and a plurality of joints cavity pole (640) two relative lateral wall one end is equalling apart from a plurality of joint pieces (680) of fixedly connected with, and joint base (660) is double-phase all with a plurality of adjacent joint piece (680) fixed joint to the internal lateral wall, all run through on the bottom plate of pole (640) in pole (610), vice cavity pole (650) and a plurality of joints in pole (660) in the owner, open The clamping hollow rod is provided with rectangular through holes, a plurality of circular through holes (601) communicated with adjacent rectangular through holes are formed in the bottom surfaces of the main hollow rod (610), the auxiliary hollow rod (650) and the clamping hollow rods (640) at equal intervals, an embedded plate (612) is connected inside the rectangular through holes in the main hollow rod (610) in a sliding mode, one end of the embedded plate (612) is connected with a pulley (613) in a rotating mode, the pulley (613) is in contact with the outer annular surface of the wave ring block (110), a tabling plate (642) is connected inside the rectangular through holes in the clamping hollow rod (640) in a sliding mode, an L-shaped panel (652) is connected inside the rectangular through holes in the auxiliary hollow rod (650) in a sliding mode, the short arm of the L-shaped panel (652) is located at the other end of the auxiliary hollow rod (650), the short arm of the L-shaped panel (652) is located inside the auxiliary hollow rod (650), a fixing box (652) is fixedly connected with a plurality of rebound springs (655) on the inner side wall of the fixing box (655), one end of each rebound spring (655) is in contact with one side of the L-shaped panel (654), the tabling plate (612) is corresponding to the circular through holes (601);

the main hollow rod (610), the auxiliary hollow rods (650) and one long side of the bottom surfaces of the clamping hollow rods (640) are fixedly connected with a floating component (700) for floating cement mortar; the floating component (700) comprises a floating shovel (710), screw holes are formed in two ends of the top surface of the floating shovel (710), fastening screws (720) are screwed into the two screw holes, and the tips of the two fastening screws (720) are screwed and fixed with one long side edge of the bottom surface of the adjacent main hollow rod (610);

the water is added into the barrel body (100), the horizontal mechanism (200) is placed on the water surface, after the horizontal mechanism (200) is static, the horizontal mechanism is parallel to the horizontal plane, and the horizontal mechanism (200) is started to fix the positions of the horizontal mechanism (200) and the barrel body (100).

2. The floor processing device for indoor decoration according to claim 1, wherein the base frame mechanism (400) comprises a circular ring block (410), the outer annular surface of the circular ring block (410) is uniformly and fixedly connected with a plurality of supporting rods (411), one ends of the bottom surfaces of the supporting rods (411) are fixedly connected with a pointed rod (420), a fixed block (440) is embedded in the inner annular surface of the circular ring block (410) in a sliding manner, the top surface of the fixed block (440) is fixedly connected with the bottom surface of the barrel body (100), two sliding grooves (441) are formed in the mirror symmetry of the outer annular surface of the fixed block (440), two aluminum alloy plates (460) are fixedly connected to the inner walls of the two sliding grooves (441), threaded holes are formed in the positions, corresponding to the two sliding grooves (441), of the outer cylindrical surface of the circular ring block (410) and a pointed screw (430) which one end sequentially penetrates through the circular ring block (410) and the adjacent aluminum alloy plate (460) and is extruded and attached to the inner walls of the two sliding grooves (441).

3. A floor treatment device for interior decoration according to claim 2, characterized in that the open vertical sides of the sliding groove (441) are fixed with fastening splints (450), and the adjacent sides of the two fastening splints (450) are connected with the helical thread on the adjacent pointed screw (430).

4. The floor treatment device for indoor decoration according to claim 1, wherein the other end of the top surface of the main hollow rod (610) and the one end of the top surface of the clamping hollow rods (640) are both fixedly connected with a rectangular ring block (690), the one end of the top surface of the auxiliary hollow rod (650) and the other end of the top surface of the clamping hollow rods (640) are both fixedly connected with an elastic hook strip (670), and the elastic hook strips (670) are both detachably clamped with the adjacent rectangular ring block (690).

5. The floor treatment device for interior decoration of claim 1, wherein the clamping base (660) comprises a U-shaped plate (662), one end of the inner wall of the U-shaped plate (662) is fixedly connected with one end of the adjacent main hollow rod (610), and a plurality of arc-shaped grooves (661) clamped with the adjacent clamping blocks (680) are formed in the two opposite side walls of the two arms of the U-shaped plate (662) at equal intervals.

6. A floor treatment apparatus for interior decoration according to claim 1, it is characterized in that one side wall of the trowel (710) is an inclined surface.