CN114892927A - Plastering machine for building construction aiming at large plane wall - Google Patents

Abstract

The invention discloses a plastering machine for building construction aiming at a large plane wall, which comprises a base and a storage box fixedly connected to the upper surface of the base and used for storing paint, wherein the storage box is of an open structure, a stirring mechanism used for stirring the paint is arranged in the storage box, a roller brush is arranged above the base, and a driving assembly used for driving the roller brush to enter the storage box and dip the paint. According to the invention, the driving assembly is arranged, so that the roller brush can be driven to enter the storage box to dip the coating, and the automation degree of the equipment is effectively improved; the material throwing component is arranged, so that redundant paint on the surface of the roller brush can be thrown away after the roller brush dips the paint; through setting up the material loading subassembly to in the cylinder brush dip in the material and accomplish the back, and the laminating is in waiting to whitewash behind the wall, and the drive cylinder brush reciprocates, paints the surperficial coating of cylinder brush on the wall, the effectual convenient degree that improves the device.

Description

Plastering machine for building construction aiming at large plane wall

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a plastering machine for building construction aiming at a large plane wall.

Background

Whitewashing refers to a cleaning or smearing tool made of bunched hair palm or the like: brushes, hair brushes and scrubbing brushes, in particular to tools for filling powder or protective layers smeared on the surfaces of buildings.

However, in the actual use process, the traditional painting process is often to dip in the prepared paint through the handheld roller brush of the worker, and then paint on the wall, if meet the great wall of area, need consume a large amount of labours, and work efficiency is comparatively low.

We have therefore proposed a plastering machine for building construction for large flat walls, which solves the above problems.

Disclosure of Invention

The invention aims to provide a plastering machine for building construction aiming at a large plane wall, which is provided with a feeding assembly, so that after the roller brush finishes dipping and is attached to a wall surface to be plastered, the roller brush is driven to move up and down, and the paint on the surface of the roller brush is smeared on the wall, thereby effectively improving the convenience of the device, and solving the problems that a large amount of labor force is required and the working efficiency is low if a wall surface with a large area is met.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a house building to big plane wall is with whitewashing machine, includes the base to and fixed connection is used for storing the material storage box of coating in the base upper surface, the material storage box is uncovered formula structure, be provided with the rabbling mechanism who is used for stirring coating in the material storage box, the base top is provided with the cylinder brush to and be used for driving the drive assembly that gets into and dip in coating in the material storage box of cylinder brush.

Preferably, rabbling mechanism is including rotating the dwang of connecting in the stock bin, the dwang is driven by external drive equipment, dwang one end is rotated and is connected with first complete gear, fixedly connected with and first complete gear intermeshing's ring gear in the stock bin, be provided with in the base with the coaxial fixed (mixing) shaft of first complete gear, the (mixing) shaft fixed surface has the puddler.

Preferably, the driving assembly comprises a rectangular vertical plate vertically fixed on the upper surface of the base, an inverted-L-shaped sliding groove is formed in the surface of the rectangular vertical plate and comprises a longitudinal groove body and a transverse groove body which are mutually communicated, a rectangular push plate is connected to the surface of the rectangular vertical plate in a sliding manner, an inclined plane groove is formed in the surface of the rectangular push plate, a sliding rod is connected to the inclined plane groove and the inverted-L-shaped sliding groove in a sliding manner, an inverted-U-shaped connecting frame is fixed to one end of the sliding rod, and the roller brush is installed at the lower end of the inverted-U-shaped connecting frame.

Preferably, the base is hollow structure, the pivot of dwang extends to in the base, be provided with the incomplete gear with the coaxial fixed of dwang in the base, the base internal rotation is connected with the complete gear of the second of incomplete gear intermittent type nature meshing to and with the coaxial fixed gangbar of the complete gear of second, gangbar one end vertical fixation has the stand, be provided with the spacing frame of bar in the base, the spacing frame surface of bar has the bar spout, stand sliding connection is in the bar spout of the spacing frame of bar, the spacing frame upper surface mounting of bar has the L shape connecting rod, the L shape connecting rod extends to the base top, the base upper surface is seted up and is supplied the gliding spacing groove of L shape connecting rod, fixedly connected with dead lever between L shape connecting rod and the rectangle push pedal.

Preferably, a material throwing component for driving the roller brush to swing and throw off redundant paint on the surface of the roller brush is arranged in the base, one end of the inverted U-shaped connecting frame is telescopically inserted with a long rod, the material throwing component comprises the long rod, the upper end of the long rod is fixedly connected with a first spring, one end of the first spring is fixed in the inverted U-shaped connecting overhead cavity, the lower end of the long rod is fixedly connected with a reversed-shaped frame, the lower edge of the reversed-shaped frame is rotatably connected with a swing rod, the lower end of the swing rod is fixedly connected with the U-shaped frame, the roller brush is rotatably connected between two side walls of the U-shaped frame, two opposite side walls of the reversed-shaped frame are jointly telescopically inserted with positioning rods, the surfaces of the positioning rods are sleeved with a stop block, the stop block is positioned in the reversed-shaped frame, the surfaces of the stop block and the swing rod are both vertically fixed with supporting columns, and a second spring is fixedly connected between the two supporting columns, the long rod surface is provided with two limiting blocks in an integrated mode, and the swing rod is located between the two limiting blocks.

Preferably, the storage box is internally and fixedly connected with a first inclined plane fixture block and a second inclined plane fixture block, the lower surface of the first inclined plane fixture block is an inclined plane and inclines from one side close to the transverse groove body to one side far away from the transverse groove body from top to bottom, the upper surface of the second inclined plane fixture block is an inclined plane and inclines from one side close to the transverse groove body to one side far away from the transverse groove body from top to bottom, and two ends of the positioning rod are inclined.

Preferably, the upper surface of the base is provided with a feeding assembly for driving the roller brush to perform reciprocating movement in the vertical direction, and the feeding assembly comprises a third complete gear rotatably connected in the base.

Preferably, the meshing of the complete gear of third and incomplete gear intermittent type nature, the base upper surface is rotated and is connected with the cylindrical cam with the coaxial fixed of the complete gear of third, cylindrical cam surface cover is equipped with the slider, the slider of fixedly connected with and cylindrical cam surface spout adaptation in the slider, slider surface one side fixedly connected with L shape spliced pole, L shape spliced pole one end fixedly connected with U-shaped baffle, L shape spliced pole surface one side is fixed with spacing slip post to U-shaped baffle, the base upper surface vertical fixation has spacing frame, in spacing slip post sliding connection and the spacing frame, return the extension post of two symmetric distributions of font frame fixed surface connection.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the stirring mechanism is arranged, so that the coating in the storage box can be stirred conveniently, and the condition that the coating powder in the storage box is caked is prevented.

2. According to the invention, the driving assembly is arranged, so that the roller brush can be driven to enter the storage box to dip the coating, and the automation degree of the equipment is effectively improved.

3. According to the invention, the material throwing assembly is arranged, so that redundant paint on the surface of the roller brush can be thrown away after the roller brush dips the paint.

4. According to the invention, the feeding assembly is arranged, so that the roller brush is driven to move up and down after the roller brush finishes dipping and is attached to the wall surface to be painted, and the paint on the surface of the roller brush is painted on the wall, and the convenience of the device is effectively improved.

Drawings

FIG. 1 is a schematic structural diagram of a plastering machine for building construction for a large plane wall according to the present invention;

FIG. 2 is a schematic sectional view of the storage box according to the present invention;

FIG. 3 is a schematic structural view of a stirring mechanism according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 3 at B according to the present invention;

FIG. 5 is a schematic structural diagram of a driving assembly according to the present invention;

FIG. 6 is a schematic cross-sectional view of a base according to the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at C according to the present invention;

FIG. 8 is a schematic structural view of a throwing assembly according to the present invention;

FIG. 9 is an enlarged view of the structure of FIG. 2 at A in accordance with the present invention;

fig. 10 is a schematic structural view of the feeding assembly of the present invention.

In the figure: 1. a base; 11. a limiting groove; 2. a material storage box; 3. a stirring mechanism; 31. rotating the rod; 32. a first full gear; 33. an inner gear ring; 34. a stirring shaft; 35. a stirring rod; 4. a roller brush; 5. a drive assembly; 51. a rectangular vertical plate; 52. an inverted L-shaped chute; 521. a longitudinal groove body; 522. a transverse trough body; 53. a rectangular push plate; 54. an inclined plane groove; 55. a slide bar; 56. an inverted U-shaped connecting frame; 571. a non-full gear; 572. a second full gear; 573. a linkage rod; 574. a column; 575. a strip-shaped limiting frame; 576. an L-shaped connecting rod; 577. a fixing rod; 6. a material throwing component; 61. a long rod; 62. a frame shaped like a Chinese character 'hui'; 63. a swing rod; 64. a U-shaped frame; 65. positioning a rod; 66. a stopper; 67. a second spring; 68. a limiting block; 691. a first inclined plane fixture block; 692. a second inclined plane fixture block; 7. a feeding assembly; 71. a third full gear; 72. a cylindrical cam; 73. a slider; 74. an L-shaped connecting column; 75. a U-shaped baffle; 76. a limiting frame; 77. a limiting sliding column; 78. and (6) extending the column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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.

Example one

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a house building to big plane wall is with whitewashing machine, includes base 1 to and fixed connection is used for storing the material storage box 2 of coating in base 1 upper surface, material storage box 2 is uncovered formula structure, be provided with the rabbling mechanism 3 that is used for stirring coating in the material storage box 2, base 1 top is provided with roller brush 4 to and be used for driving roller brush 4 to dip in the drive assembly 5 of getting coating in getting into material storage box 2.

When in use, the paint to be used is firstly put into the storage box 2, and the stirring mechanism 3 is arranged, so that the paint in the storage box 2 can be stirred conveniently, and the condition that the paint powder in the storage box 2 is caked is prevented; through setting up drive assembly 5 to drive cylinder brush 4 and get into and dip in the coating in the workbin 2, the effectual degree of automation that has improved equipment.

Referring to fig. 1-4, the stirring mechanism 3 includes a rotating rod 31 rotatably connected in the storage box 2, the rotating rod 31 is driven by an external driving device, one end of the rotating rod 31 is rotatably connected with a first complete gear 32, an inner gear ring 33 mutually engaged with the first complete gear 32 is fixedly connected in the storage box 2, a stirring shaft 34 coaxially fixed with the first complete gear 32 is arranged in the base 1, and a stirring rod 35 is fixed on the surface of the stirring shaft 34.

The external driving device is a motor.

In use, the motor of the external driving device is started to drive the rotating rod 31 to rotate, the rotating rod 31 drives the first complete gear 32 which is rotatably connected to one end of the rotating rod to rotate along with the rotating rod, and the first complete gear 32 is meshed with the inner gear ring 33, so that the first complete gear 32 can revolve and rotate at the same time, and the first complete gear 32 can drive the stirring shaft 34 which is coaxially fixed with the first complete gear and the stirring rod 35 which is fixed on the surface of the stirring shaft 34 to revolve and rotate along with the first complete gear, so that the coating in the storage box 2 is stirred.

Referring to fig. 1 to 7, the driving assembly 5 includes a rectangular vertical plate 51 vertically fixed on the upper surface of the base 1, an inverted L-shaped sliding groove 52 is formed on the surface of the rectangular vertical plate 51, the inverted L-shaped sliding groove 52 includes a longitudinal groove 521 and a transverse groove 522 which are mutually communicated, a rectangular push plate 53 is slidably connected to the surface of the rectangular vertical plate 51, an inclined groove 54 is formed on the surface of the rectangular push plate 53, a sliding rod 55 is slidably connected to the inclined groove 54 and the inverted L-shaped sliding groove 52 together, an inverted U-shaped connecting frame 56 is fixed at one end of the sliding rod 55, and the roller brush 4 is installed at the lower end of the inverted U-shaped connecting frame 56.

In use, the rectangular push plate 53 is driven to perform reciprocating movement in the horizontal direction along the rectangular vertical plate 51, and as the sliding rod 55 is slidably connected in the inclined plane groove 54 and the inverted-L-shaped sliding groove 52, the sliding rod 55 can be driven to perform reciprocating movement along the inverted-L-shaped sliding groove 52 when the rectangular push plate 53 performs reciprocating movement in the horizontal direction;

when the sliding rod 55 moves downwards along the longitudinal trough 521, the inverted U-shaped connecting frame 56 fixed at one end of the sliding rod is driven, and the roller brush 4 arranged at one end of the inverted U-shaped connecting frame 56 moves downwards along with the sliding rod, so that the roller brush 4 enters the storage box 2 to dip the coating in the storage box 2; then the sliding rod 55 moves upwards along the longitudinal groove 521, the sliding rod 55 drives the inverted U-shaped connecting frame 56 fixed at one end of the sliding rod 55 and the roller brush 4 installed at one end of the inverted U-shaped connecting frame 56 to move upwards along with the inverted U-shaped connecting frame, so that the roller brush 4 moves above the storage box 2 to finish the dipping work; next the slide bar 55 can be along horizontal cell body 522 toward keeping away from stock bin 2 one side and remove, slide bar 55 drives and fixes the U-shaped link 56 who falls in its one end to and install and move toward keeping away from stock bin 2 one side thereupon at the roller brush 4 of the U-shaped link 56 one end of falling, make roller brush 4 remove to the stock bin 2 outside, so that roller brush 4 can laminate in outside wall.

The base 1 is a hollow structure, the rotating shaft of the rotating rod 31 extends into the base 1, a non-complete gear 571 coaxially fixed with the rotating rod 31 is arranged in the base 1, a second complete gear 572 intermittently meshed with the incomplete gear 571 is rotationally connected in the base 1, and a linkage rod 573 coaxially fixed with the second full gear 572, wherein one end of the linkage rod 573 is vertically fixed with an upright 574, a strip-shaped limit frame 575 is arranged in the base 1, a strip-shaped sliding groove is arranged on the surface of the strip-shaped limit frame 575, the upright post 574 is slidably connected in a strip-shaped sliding groove of a strip-shaped limit frame 575, an L-shaped connecting rod 576 is fixed on the upper surface of the strip-shaped limit frame 575, the L-shaped connecting rod 576 extends to the upper part of the base 1, the upper surface of the base 1 is provided with a limiting groove 11 for the sliding of the L-shaped connecting rod 576, a fixing rod 577 is fixedly connected between the L-shaped connecting rod 576 and the rectangular push plate 53.

In use, the rotating rod 31 can drive the incomplete gear 571 coaxially fixed with the rotating rod to rotate along with the rotating rod, the incomplete gear 571 can be gradually meshed with the second complete gear 572 when rotating, and drive the second complete gear 572 to rotate, the second complete gear 572 drives the linkage rod 573 coaxially fixed with the incomplete gear 573 to rotate along with the linkage rod, the linkage rod 573 drives the upright 574 fixed at one end of the linkage rod to rotate along with the linkage rod, the upright 574 drives the strip-shaped limiting frame 575 to reciprocate along the horizontal direction, and the strip-shaped limiting frame 575 drives the rectangular push plate 53 to reciprocate along the horizontal direction through the L-shaped connecting rod 576 and the fixed rod 577;

the end of the transverse trough body 522, which is far away from the longitudinal trough body 521, is a tail end, and before use, the equipment is placed close to a wall, so that the tail end of the transverse trough body 522 is close to a wall surface to be painted;

each rotation of the incomplete gear 571 can drive the second complete gear 572 to rotate for a half turn, the second complete gear 572 can drive the linkage rod 573 to rotate for a half turn, the linkage rod 573 drives the upright 574 to rotate for a half turn, the upright 574 drives the strip-shaped limiting frame 575 to move towards the tail end of the transverse groove body 522, the strip-shaped limiting frame 575 drives the rectangular push plate 53 to move towards the tail end of the transverse groove body 522 through the L-shaped connecting rod 576 and the fixing rod 577, so that the rectangular push plate 53 pushes the sliding rod 55 to move along the inverted L-shaped sliding groove 52 and move from the lower end of the longitudinal groove body 521 to the tail end of the transverse groove body 522, the sliding rod 55 drives the roller brush 4 to move towards the tail end of the transverse groove body 522 through the inverted U-shaped connecting frame 56, the roller brush 4 is attached to a wall surface to be brushed, and then the incomplete gear 571 and the second complete gear 572 are disengaged.

Example two

Referring to fig. 8-9, on the basis of the first embodiment, a material throwing assembly 6 is further disposed in the base 1 for driving the roller brush 4 to swing to throw off excess paint on the surface.

In use, the material throwing assembly 6 is arranged, so that the redundant paint on the surface of the roller brush 4 is thrown away after the roller brush is dipped with the paint.

A long rod 61 is telescopically inserted into one end of the inverted U-shaped connecting frame 56, the material throwing assembly 6 comprises the long rod 61, a first spring is fixedly connected to the upper end of the long rod 61, one end of the first spring is fixed in a cavity of the inverted U-shaped connecting frame 56, a square-shaped frame 62 is fixedly connected to the lower end of the long rod 61, a swing rod 63 is rotatably connected to the lower edge of the square-shaped frame 62, a U-shaped frame 64 is fixedly connected to the lower end of the swing rod 63, the roller brush 4 is rotatably connected between two side walls of the U-shaped frame 64, positioning rods 65 are jointly telescopically inserted into two opposite side walls of the square-shaped frame 62, a stop block 66 is sleeved on the surface of each positioning rod 65, the stop block 66 is positioned in the square-shaped frame 62, support columns are vertically fixed on the surfaces of the stop block 66 and the swing rod 63, a second spring 67 is fixedly connected between the two support columns, and two limit blocks 68 are integrally arranged on the surface of the long rod 61, the swing rod 63 is positioned between the two limit blocks 68;

first inclined plane fixture block 691 and second inclined plane fixture block 692 of fixedly connected with in the magazine 2, first inclined plane fixture block 691 lower surface is the inclined plane, and is from being close to horizontal cell body 522 one side to keeping away from horizontal cell body 522 one side top-down slope, second inclined plane fixture block 692 upper surface is the inclined plane, and is from being close to horizontal cell body 522 one side to keeping away from horizontal cell body 522 one side top-down slope, locating lever 65 both ends are the slope form.

In use, when the roller brush 4 moves to the position right above the storage box 2, the positioning rod 65 is located between the first inclined-plane fixture block 691 and the second inclined-plane fixture block 692, when the inverted-U-shaped connecting frame 56 drives the material throwing assembly 6 and the roller brush 4 to move downwards to enter the storage box 2, the positioning rod 65 passes through the second inclined-plane fixture block 692 while moving downwards, since the upper surface of the second inclined-plane fixture block 692 and the end portion of the positioning rod 65 are inclined, the positioning rod 65 is pushed by the second inclined-plane fixture block 692 to the side close to the first inclined-plane fixture block 691 when passing through the second inclined-plane fixture block 692, the positioning rod 65 drives the stopper 66 sleeved on the surface of the positioning rod to move towards the side close to the first inclined-plane fixture block 691, since the second spring 67 is fixedly connected between the stopper 66 and the swing rod 63, when the stopper 66 moves towards the side of the first inclined-plane fixture block 691, the swing rod 63 is driven by the second spring 67 to rotate clockwise around the hinge point as the center, two limit blocks 68 are arranged so as to limit the rotation angle of the swing rod 63, and meanwhile, the swing rod 63 drives the U-shaped frame 64 fixedly connected to the surface of the swing rod 63 and the roller brushes 4 arranged on the two side walls of the U-shaped frame 64 to deflect towards the side close to the first inclined plane fixture block 691;

when the inverted U-shaped connecting frame 56 drives the material throwing assembly 6 and the roller brush 4 to move upward to the upper side of the storage box 2, the positioning rod 65 moves upward while passing through the first inclined-surface fixture block 691, since the lower surface of the first inclined-surface fixture block 691 and the end part of the positioning rod 65 are both inclined, the positioning rod 65 is pushed by the first inclined-surface fixture block 691 to the side close to the second inclined-surface fixture block 692 when passing through the first inclined-surface fixture block 691, the positioning rod 65 drives the stop block 66 sleeved on the surface of the positioning rod to move to the side close to the second inclined-surface fixture block 692, since the second spring 67 is fixedly connected between the stop block 66 and the swing rod 63, when the stop block 66 moves to the side of the second inclined-surface fixture block 692, the swing rod 63 is driven by the second spring 67 to rotate counterclockwise around the hinge point, and at the same time, the swing rod 63 drives the U-shaped frame 64 fixedly connected to the surface, and the roller brush 4 mounted on the two side walls of the U-shaped frame 64 to deflect to the side wall to the second inclined-surface of the second inclined-surface fixture block 692, so that the roller brush 4 generates an oscillation which throws the excess paint on its surface against the side walls of the storage tank 2.

EXAMPLE III

Referring to fig. 10, on the basis of the second embodiment, a feeding assembly 7 for driving the roller brush 4 to reciprocate in the vertical direction is further disposed on the upper surface of the base 1.

In use, through setting up material loading subassembly 7 to in 4 dipping in material of cylinder brush accomplish the back, and the laminating is in the wall of waiting to whitewash after, and drive cylinder brush 4 reciprocates, paints the coating on 4 surfaces of cylinder brush on the wall, the effectual convenient degree that has improved the device.

The feeding assembly 7 comprises a third complete gear 71 which is rotatably connected in the base 1, the third complete gear 71 is intermittently meshed with a non-complete gear 571, a cylindrical cam 72 which is coaxially fixed with the third complete gear 71 is rotatably connected to the upper surface of the base 1, the surface of the cylindrical cam 72 is sleeved with a sliding block 73, the sliding block 73 is fixedly connected with the sliding block matched with the sliding groove on the surface of the cylindrical cam 72, one side of the surface of the sliding block 73 is fixedly connected with an L-shaped connecting column 74, one end of the L-shaped connecting column 74 is fixedly connected with a U-shaped baffle 75, a limiting sliding column 77 is fixed on one side of the U-shaped baffle 75 away from the surface of the L-shaped connecting column 74, the upper surface of the base 1 is vertically fixed with a limiting frame 76, the limiting sliding columns 77 are connected with the limiting frame 76 in a sliding manner, and the surface of the rectangular frame 62 is fixedly connected with two extending columns 78 which are symmetrically distributed.

In use, when the inverted U-shaped connecting frame 56 drives the material throwing component 6 and the roller brush 4 to move towards the end close to the transverse groove body 522, the square-shaped frame 62 and the extending column 78 fixed on the surface of the square-shaped frame gradually move to the position below the U-shaped baffle 75;

when the incomplete gear 571 is separated from the second complete gear 572 in the rotation process, it is proved that the roller brush 4 has moved to the end of the transverse groove 522 and stops moving and is attached to the wall surface to be painted, the incomplete gear 571 is then meshed with the third complete gear 71 to drive the third complete gear 71 to rotate for one circle, the third complete gear 71 drives the cylindrical cam 72 coaxially fixed with the third complete gear to rotate for one circle, the cylindrical cam 72 drives the sliding block 73 to reciprocate in the vertical direction, the sliding block 73 drives the U-shaped baffle 75 to reciprocate in the vertical direction through the L-shaped connecting column 74, and the U-shaped baffle 75 drives the rectangular frame 62 and the roller brush 4 to move downwards, so that the roller brush 4 moves downwards and paints on the surface of the roller brush 4 on the wall surface.

The working principle is as follows: when the plastering machine for the house building aiming at the large plane wall is used, firstly, paint to be used is put into the storage box 2, an external driving device motor is started to drive the rotating rod 31 to rotate, the rotating rod 31 drives the first complete gear 32 which is rotatably connected to one end of the rotating rod to rotate along with the rotating rod, and the first complete gear 32 revolves and rotates due to the mutual meshing of the first complete gear 32 and the inner gear ring 33, so that the first complete gear 32 can drive the stirring shaft 34 which is coaxially fixed with the first complete gear 32 and the stirring rod 35 which is fixed on the surface of the stirring shaft 34 to revolve and rotate along with the first complete gear, and the paint in the storage box 2 is stirred;

the rotating rod 31 can drive the incomplete gear 571 coaxially fixed with the incomplete gear to rotate along with the incomplete gear 571, the incomplete gear 571 can be gradually meshed with the second complete gear 572 when rotating, and drive the second complete gear 572 to rotate, the second complete gear 572 drives the linkage rod 573 coaxially fixed with the incomplete gear 573 to rotate along with the linkage rod 573, the linkage rod 573 drives the upright post 574 fixed at one end of the upright post to rotate along with the linkage rod 574, the upright post 574 drives the strip-shaped limiting frame 575 to reciprocate along the horizontal direction, and the strip-shaped limiting frame 575 drives the rectangular push plate 53 to reciprocate along the horizontal direction through the L-shaped connecting rod 576 and the fixing rod 577;

the end of the transverse trough body 522, which is far away from the longitudinal trough body 521, is a tail end, and before use, the equipment is placed close to a wall, so that the tail end of the transverse trough body 522 is close to a wall surface to be painted;

the rectangular push plate 53 performs reciprocating movement in the horizontal direction along the rectangular vertical plate 51, and as the sliding rod 55 is slidably connected in the inclined plane groove 54 and the inverted-L-shaped sliding groove 52, the sliding rod 55 can be driven to perform reciprocating movement along the inverted-L-shaped sliding groove 52 when the rectangular push plate 53 performs reciprocating movement in the horizontal direction;

when the sliding rod 55 moves downwards along the longitudinal trough 521, the inverted U-shaped connecting frame 56 fixed at one end of the sliding rod is driven, and the roller brush 4 arranged at one end of the inverted U-shaped connecting frame 56 moves downwards along with the sliding rod, so that the roller brush 4 enters the storage box 2 to dip the coating in the storage box 2; then the sliding rod 55 moves upwards along the longitudinal groove 521, the sliding rod 55 drives the inverted U-shaped connecting frame 56 fixed at one end of the sliding rod 55 and the roller brush 4 installed at one end of the inverted U-shaped connecting frame 56 to move upwards along with the inverted U-shaped connecting frame, so that the roller brush 4 moves above the storage box 2 to finish the dipping work; the sliding rod 55 moves towards one side far away from the storage box 2 along the transverse groove body 522, the sliding rod 55 drives the inverted U-shaped connecting frame 56 fixed at one end of the sliding rod, and the roller brush 4 installed at one end of the inverted U-shaped connecting frame 56 moves towards one side far away from the storage box 2, so that the roller brush 4 moves to the outer side of the storage box 2, and the roller brush 4 can be attached to an external wall surface;

each rotation of the incomplete gear 571 can drive the second complete gear 572 to rotate for a half turn, the second complete gear 572 can drive the linkage rod 573 to rotate for a half turn, the linkage rod 573 drives the upright 574 to rotate for a half turn, the upright 574 drives the bar-shaped limit frame 575 to move towards the tail end close to the transverse trough body 522, the bar-shaped limit frame 575 drives the rectangular push plate 53 to move towards the tail end close to the transverse trough body 522 through the L-shaped connecting rod 576 and the fixing rod 577, so that the rectangular push plate 53 pushes the sliding rod 55 to move along the inverted L-shaped sliding groove 52 and move from the lower end of the longitudinal trough body 521 to the tail end of the transverse trough body 522, the sliding rod 55 drives the roller brush 4 to move towards the tail end of the transverse trough body 522 through the inverted U-shaped connecting frame 56, the roller brush 4 is attached to the wall surface to be brushed, and then the incomplete gear 571 and the second complete gear 572 are disengaged;

when the roller brush 4 moves to the position right above the storage box 2, the positioning rod 65 is located between the first inclined-plane fixture block 691 and the second inclined-plane fixture block 692, when the inverted-U-shaped connecting frame 56 drives the material throwing assembly 6 and the roller brush 4 to move downwards to enter the storage box 2, the positioning rod 65 passes through the second inclined-plane fixture block 692 while moving downwards, because the upper surface of the second inclined-plane fixture block 692 and the end portion of the positioning rod 65 are inclined, the positioning rod 65 is pushed by the second inclined-plane fixture block 692 to the side close to the first inclined-plane fixture block 691 when passing through the second inclined-plane fixture block 692, the positioning rod 65 drives the sleeved stop block 66 to move to the side close to the first inclined-plane fixture block 691, because the second spring 67 is fixedly connected between the stop block 66 and the swing rod 63, when the stop block 66 moves to the side of the first inclined-plane fixture block 691, the swing rod 63 is driven by the second spring 67 to rotate clockwise around the hinge point, two limit blocks 68 are arranged so as to limit the rotation angle of the swing rod 63, and meanwhile, the swing rod 63 drives the U-shaped frame 64 fixedly connected to the surface of the swing rod 63 and the roller brushes 4 arranged on the two side walls of the U-shaped frame 64 to deflect towards the side close to the first inclined plane fixture block 691;

when the inverted U-shaped connecting frame 56 drives the material throwing assembly 6 and the roller brush 4 to move upwards to the upper side of the storage box 2, the positioning rod 65 moves upwards and passes through the first inclined-plane fixture block 691, because the lower surface of the first inclined-plane fixture block 691 and the end of the positioning rod 65 are inclined, the positioning rod 65 is pushed by the first inclined-plane fixture block 691 to the side close to the second inclined-plane fixture block 692 when passing through the first inclined-plane fixture block 691, the positioning rod 65 drives the stop block 66 sleeved on the surface of the positioning rod to move to the side close to the second inclined-plane fixture block 692, because the second spring 67 is fixedly connected between the stop block 66 and the swing rod 63, when the stop block 66 moves to the side of the second inclined-plane fixture block 692, the swing rod 63 is driven by the second spring 67 to rotate counterclockwise around the hinge point, meanwhile, the swing rod 63 drives the U-shaped frame 64 fixedly connected to the surface of the U-shaped frame 64, and the roller brush 4 mounted on the two side walls of the U-shaped frame 64 deflects to the side wall to the second inclined-shaped frame 692 to the side wall to the second inclined-plane fixture block 692, so that the roller brush 4 generates a swing to throw the redundant coating on the surface of the roller brush onto the side wall of the storage box 2;

when the inverted U-shaped connecting frame 56 drives the throwing component 6 and the roller brush 4 to move towards the end close to the transverse groove body 522, the square-shaped frame 62 and the extension column 78 fixed on the surface of the square-shaped frame gradually move to the position below the U-shaped baffle 75;

when the incomplete gear 571 is separated from the second complete gear 572 in the rotation process, it is proved that the roller brush 4 has moved to the end of the transverse groove 522 and stops moving and is attached to the wall surface to be painted, the incomplete gear 571 is then meshed with the third complete gear 71 to drive the third complete gear 71 to rotate for one circle, the third complete gear 71 drives the cylindrical cam 72 coaxially fixed with the third complete gear to rotate for one circle, the cylindrical cam 72 drives the sliding block 73 to reciprocate in the vertical direction, the sliding block 73 drives the U-shaped baffle 75 to reciprocate in the vertical direction through the L-shaped connecting column 74, and the U-shaped baffle 75 drives the rectangular frame 62 and the roller brush 4 to move downwards, so that the roller brush 4 moves downwards and paints on the surface of the roller brush 4 on the wall surface.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a house building to big plane wall is with whitewashing machine which characterized in that: including base (1) to and fixed connection is used for storing material storage box (2) of coating in base (1) upper surface, material storage box (2) are uncovered formula structure, be provided with rabbling mechanism (3) that are used for stirring coating in material storage box (2), base (1) top is provided with roller brush (4) to and be used for driving roller brush (4) to get into and dip in drive assembly (5) of getting coating in material storage box (2).

2. A plastering machine for building construction for a large plane wall according to claim 1, characterized in that: rabbling mechanism (3) are including rotating dwang (31) of connecting in stock box (2), dwang (31) are driven by external drive equipment, dwang (31) one end is rotated and is connected with first complete gear (32), fixedly connected with and first complete gear (32) intermeshing's ring gear (33) in stock box (2), be provided with in base (1) with first complete gear (32) coaxial fixed (mixing) shaft (34), mixing shaft (34) fixed surface has puddler (35).

3. A plastering machine for building construction aiming at large plane wall as claimed in claim 2, wherein: the driving assembly (5) comprises a rectangular vertical plate (51) which is vertically fixed on the upper surface of the base (1), an inverted L-shaped sliding groove (52) is formed in the surface of the rectangular vertical plate (51), the inverted L-shaped sliding groove (52) comprises a longitudinal groove body (521) and a transverse groove body (522) which are mutually communicated, a rectangular push plate (53) is connected to the surface of the rectangular vertical plate (51) in a sliding mode, an inclined plane groove (54) is formed in the surface of the rectangular push plate (53), a sliding rod (55) is connected to the inclined plane groove (54) and the inverted L-shaped sliding groove (52) in a sliding mode, an inverted U-shaped connecting frame (56) is fixed to one end of the sliding rod (55), and the roller brush (4) is installed at the lower end of the inverted U-shaped connecting frame (56).

4. A plastering machine for building construction aiming at large plane wall as claimed in claim 3, wherein: the base (1) is of a hollow structure, a rotating shaft of the rotating rod (31) extends into the base (1), a non-complete gear (571) coaxially fixed with the rotating rod (31) is arranged in the base (1), a second complete gear (572) intermittently meshed with the non-complete gear (571) is rotationally connected in the base (1), and a linkage rod (573) coaxially fixed with the second complete gear (572), a stand column (574) is vertically fixed at one end of the linkage rod (573), a bar-shaped limiting frame (575) is arranged in the base (1), a bar-shaped sliding groove is formed in the surface of the bar-shaped limiting frame (575), the stand column (574) is slidably connected in the bar-shaped sliding groove of the bar-shaped limiting frame (575), an L-shaped connecting rod (576) is fixed on the upper surface of the bar-shaped limiting frame (575), and the L-shaped connecting rod (576) extends to the upper side of the base (1), the base (1) upper surface is seted up and is supplied gliding spacing groove (11) of L shape connecting rod (576), fixedly connected with dead lever (577) between L shape connecting rod (576) and rectangle push pedal (53).

5. A plastering machine for building construction aiming at large plane wall as claimed in claim 4, wherein: the base (1) is internally provided with a material throwing component (6) which is used for driving the roller brush (4) to swing and throw off redundant paint on the surface of the roller brush, one end of the inverted U-shaped connecting frame (56) is telescopically inserted with a long rod (61), the material throwing component (6) comprises the long rod (61), the upper end of the long rod (61) is fixedly connected with a first spring, one end of the first spring is fixed in the cavity of the inverted U-shaped connecting frame (56), the lower end of the long rod (61) is fixedly connected with a reversed-shaped frame (62), the lower edge of the reversed-shaped frame (62) is rotatably connected with a swing rod (63), the lower end of the swing rod (63) is fixedly connected with a U-shaped frame (64), the roller brush (4) is rotatably connected between two side walls of the U-shaped frame (64), two opposite side walls of the reversed-shaped frame (62) are jointly telescopically inserted with positioning rods (65), and a stop block (66) is sleeved on the surface of the positioning rods (65), dog (66) are located return font frame (62), dog (66) and pendulum rod (63) surface all vertical fixation have the support column, and fixedly connected with second spring (67) between two support columns, stock (61) surface integration is provided with two stopper (68), pendulum rod (63) are located between two stopper (68).

6. A plastering machine for building construction aiming at large plane wall as claimed in claim 5, wherein: the interior fixedly connected with first inclined plane fixture block (691) of bin (2) and second inclined plane fixture block (692), first inclined plane fixture block (691) lower surface is the inclined plane, and from being close to horizontal cell body (522) one side to keeping away from horizontal cell body (522) one side top-down slope, second inclined plane fixture block (692) upper surface is the inclined plane, from being close to horizontal cell body (522) one side to keeping away from horizontal cell body (522) one side top-down slope, locating lever (65) both ends are the slope form.

7. A plastering machine for building construction aiming at large plane wall as claimed in claim 6, wherein: the feeding device is characterized in that a feeding assembly (7) used for driving the roller brush (4) to perform reciprocating movement in the vertical direction is arranged on the upper surface of the base (1), and the feeding assembly (7) comprises a third complete gear (71) rotatably connected into the base (1).

8. A plastering machine for building construction aiming at large plane wall according to claim 7, characterized in that: the third complete gear (71) is intermittently meshed with the incomplete gear (571), the upper surface of the base (1) is rotatably connected with a cylindrical cam (72) which is coaxially fixed with the third complete gear (71), the surface of the cylindrical cam (72) is sleeved with a sliding block (73), the sliding block (73) is fixedly connected with the sliding block matched with the sliding groove on the surface of the cylindrical cam (72), one side of the surface of the sliding block (73) is fixedly connected with an L-shaped connecting column (74), one end of the L-shaped connecting column (74) is fixedly connected with a U-shaped baffle (75), a limiting sliding column (77) is fixed on one side of the U-shaped baffle (75) far away from the surface of the L-shaped connecting column (74), a limiting frame (76) is vertically fixed on the upper surface of the base (1), the limiting sliding column (77) is connected with the inside of the limiting frame (76) in a sliding way, the surface of the square-shaped frame (62) is fixedly connected with two symmetrically distributed extending columns (78).

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