CN114319794A - Wall surface strickle machine for building - Google Patents

Abstract

The invention relates to a wall surface strickling machine for buildings, which comprises a machine body (101), wherein the bottom of the machine body is provided with a roller (102); a blade (103) disposed on the machine body (101); and the scraping mechanism (200) drives a cam slider rocker mechanism through a motor (201) to enable the scraping plate (103) to rotate and move up and down, left and right. The scraping mechanism (200) can be driven by the motor (201) to enable the scraping plate (103) to rotate, and meanwhile, the scraping mechanism can also move up and down, left and right, and can walk left and right through the roller (102) to increase the scraping area.

Description

Wall surface strickle machine for building

Technical Field

The invention relates to a construction machine, in particular to a wall surface leveling machine for a building.

Background

With the vigorous development of the building industry, the demand for the building machinery is increasing day by day, wherein for the treatment of wall surface scraping, most of the prior art still adopts the traditional manual operation, wherein the wall surface scraping operation method is simple, but the manual efficiency is low, and the problems of unevenness and the like are often accompanied by scraping, especially the outdoor wall surface, and in hot weather, the outdoor operation is easy to generate high-temperature heatstroke, so that a series of safety production problems are caused, and therefore, the market continues to be a small and medium-sized wall surface scraping device to meet the market demand.

Disclosure of Invention

The invention aims to solve the technical problem of providing a wall surface strickling machine for buildings, which is simple and convenient to operate and high in efficiency.

The invention relates to a wall surface strickling machine for buildings, which comprises a machine body, wherein the bottom of the machine body is provided with a roller;

a scraper disposed on the machine body;

and the scraping mechanism drives the cam slider rocker mechanism through a motor to enable the scraping plate to rotate and move up, down, left and right.

The invention relates to a wall surface strickle machine for buildings, wherein the strickle mechanism comprises a motor, an output shaft, a disc, a first rectangular frame, a first clamping groove, a second rectangular frame, a second clamping groove, a third rectangular frame, a first connecting shaft, a first connecting rod, a second connecting rod, a third connecting rod, a first pin shaft, a fourth connecting rod, a fifth connecting rod, a second pin shaft, a sixth connecting rod and a second connecting shaft;

the machine body is in driving connection with the third rectangular frame, the motor is fixedly connected with the third rectangular frame, the output shaft of the motor is eccentrically fixed with the disc, the outer circumferential surface of the disc is attached to the inner surface of the first rectangular frame, the upper surface and the lower surface of the first rectangular frame are provided with the first clamping grooves, the first clamping grooves are clamped on the inner surface of the second rectangular frame, the two sides of the second rectangular frame are configured in the second clamping grooves, and the second clamping grooves are formed on the inner surfaces of the two sides of the third rectangular frame;

the disc is coaxially fixed with one end of the first connecting shaft, the other end of the first connecting shaft is fixedly connected with one end of the first connecting rod, the other end of the first connecting rod is hinged with one end of the second connecting rod, the other end of the second connecting rod is hinged with one end of the third connecting rod, the other end of the third connecting rod is fixedly connected with the first pin shaft, the first pin shaft is fixed in the middle of the scraper, one end of the fourth connecting rod is mounted on the first pin shaft through a bearing, the other end of the fourth connecting rod is hinged with one end of the fifth connecting rod, the other end of the fifth connecting rod is fixedly connected with one end of the second pin shaft, the second pin shaft is mounted in the middle of the second connecting rod through a bearing, the other end of the second pin shaft is fixedly connected with one end of the sixth connecting rod, and the other end of the sixth connecting rod is fixedly connected with one end of the second pin shaft, the second connecting shaft is mounted on the first rectangular frame through a bearing.

The invention relates to a wall surface strickling machine for buildings, wherein a motor drives a grinding mechanism, and the grinding mechanism comprises a first lifting lug, a seventh connecting rod, a first strip hole, an eighth connecting rod, a second lifting lug, a ninth connecting rod, a tenth connecting rod, a second strip hole, a rectangular plate and a grinding head;

the upper portion of the second rectangular frame is fixedly connected with the first lifting lug, the first lifting lug is hinged with one end of a seventh connecting rod, the seventh connecting rod is arranged in the first strip hole and moves along the first strip hole, the first strip hole is arranged on the upper surface of the third rectangular frame along the length direction of the first strip hole, the other end of the seventh connecting rod is hinged with one end of an eighth connecting rod, the middle portion of the eighth connecting rod is installed on the second lifting lug through a bearing, the second lifting lug is fixed on one side of the upper surface of the third rectangular frame, the other end of the eighth connecting rod is hinged with one end of a ninth connecting rod, the other end of the ninth connecting rod is hinged with one end of a tenth connecting rod, the tenth connecting rod is arranged in the second strip hole and moves along the second strip hole, and the second strip hole is arranged on the side surface of the third rectangular frame along the length direction of the second strip hole, the other end of the tenth connecting rod is fixedly connected with one side of the rectangular plate, two sides of the rectangular plate are arranged in the second clamping groove and move along the second clamping groove, and the rectangular plate is in driving connection with the polishing head.

The invention relates to a wall surface scraping machine for buildings, wherein a first belt pulley is coaxially fixed on a first connecting shaft, a second belt pulley is coaxially fixed on a second connecting shaft, and the first belt pulley is in transmission connection with the second belt pulley through a first belt.

The wall surface scraping and leveling machine for the building is characterized in that the cross section of the first clamping groove is the same as that of the second rectangular frame, two groups of first clamping grooves are formed in the upper surface and the lower surface of the first rectangular frame, the upper side of the first rectangular frame moving along the first clamping groove is arranged in the first clamping groove formed in the upper surface of the first rectangular frame, and the lower side of the first rectangular frame moving along the first clamping groove is arranged in the first clamping groove formed in the lower surface of the first rectangular frame.

The wall surface scraping machine for the building is characterized in that the cross section of the second clamping groove is the same as that of the second rectangular frame, the second clamping groove is formed in the inner surfaces of two sides of the third rectangular frame, the left second clamping groove is provided with the left side of the second rectangular frame moving along the second clamping groove, and the right second clamping groove is provided with the right side of the second rectangular frame moving along the second clamping groove.

The invention relates to a wall surface strickling machine for buildings, wherein two groups of structural bodies consisting of a first lifting lug, a seventh connecting rod, a first strip hole, an eighth connecting rod, a second lifting lug, a ninth connecting rod, a tenth connecting rod and a second strip hole are symmetrically distributed in the left and right direction along the center of a machine body.

The invention relates to a building wall surface strickling machine which is different from the prior art in that the strickling machine can drive a strickling mechanism to make a scraping plate rotate and move up and down and left and right through a motor, the wall surface to be strickled is strickled by the rotation of the scraping plate, such as putty scraping, cement wall without solidification, plaster wall surface and the like, and simultaneously, the scraping plate can move up and down and left and right while rotating to increase the strickling area.

The wall surface scraping machine for building of the invention is further explained with reference to the attached drawings.

Drawings

FIG. 1 is a front view of a construction wall screed;

FIG. 2 is a left side view of a construction wall screed machine;

FIG. 3 is an isometric view of FIG. 1;

FIG. 4 is an isometric view of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 3;

FIG. 7 is an enlarged view of a portion of FIG. 1;

FIG. 8 is an isometric view of FIG. 1;

FIG. 9 is an enlarged partial view of FIG. 3;

fig. 10 is a partially enlarged view of fig. 3.

Detailed Description

Referring to fig. 1 to 8 and fig. 1 and 3, a wall surface leveler for construction includes

A body 101 having a roller 102 mounted at a bottom thereof;

a blade 103 disposed on the body 101;

and a strickle mechanism 200 which drives the cam slider rocker mechanism through a motor 201 to enable the scraper 103 to rotate and move up, down, left and right.

According to the invention, the scraping mechanism 200 can be driven by the motor 201 to enable the scraping plate 103 to rotate and move up and down and left and right, the wall surface to be scraped is scraped by the rotation of the scraping plate 103, such as putty scraping, cement wall without solidification, gypsum wall surface and the like, meanwhile, the scraping plate 103 can also move up and down and left and right while rotating, so that the scraping area is increased, the wall surface is scraped in a large area by the left and right walking of the roller 102, the scraping efficiency is improved, and most of labor cost can be saved.

The power module of the motor 201 comprises a battery, an electric control module and a wireless communication module, and the wireless communication module is in wireless connection with the user terminal.

According to the invention, through the wireless communication module, a user can directly control the rotating speed and direction of the motor 201, so that the speed and direction of wall scraping are changed.

The number of the rollers 102 can be 1, 2, 3, 4, 5, 6, 7, 8, 9 or more, wherein a group of rollers 102 on the left side or the right side are universal wheels, and the device can walk and turn.

The installation and driving manner of the roller 102 is the prior art, and is not described herein again.

The edges of the attaching surfaces of the scrapers 103 and the wall surface are chamfered to prevent the wall surface from being scratched by sharp corners.

The slider shifting lever mechanism comprises a motor 201, an output shaft 202, a disc 203, a first rectangular frame 204, a first clamping groove 205, a second rectangular frame 206, a second clamping groove 207, a third rectangular frame 208, a first connecting shaft 209, a first connecting rod 210, a second connecting rod 211, a third connecting rod 212, a first pin shaft 213, a fourth connecting rod 214, a fifth connecting rod 215, a second pin shaft 216, a sixth connecting rod 217 and a second connecting shaft 218.

As a further explanation of the present example, referring to fig. 3 to 6, the strickle mechanism 200 includes a motor 201, an output shaft 202, a circular disc 203, a first rectangular frame 204, a first slot 205, a second rectangular frame 206, a second slot 207, a third rectangular frame 208, a first connecting shaft 209, a first connecting rod 210, a second connecting rod 211, a third connecting rod 212, a first pin shaft 213, a fourth connecting rod 214, a fifth connecting rod 215, a second pin shaft 216, a sixth connecting rod 217, and a second connecting shaft 218;

the machine body 101 is in driving connection with the third rectangular frame 208, the motor 201 is fixedly connected with the third rectangular frame 208, the output shaft 202 of the motor 201 is eccentrically fixed with the disc 203, the outer circumferential surface of the disc 203 is attached to the inner surface of the first rectangular frame 204, the upper and lower surfaces of the first rectangular frame 204 are provided with the first clamping grooves 205, the first clamping grooves 205 are clamped on the inner surface of the second rectangular frame 206, the two sides of the second rectangular frame 206 are configured in the second clamping grooves 207, and the second clamping grooves 207 are arranged on the inner surfaces of the two sides of the third rectangular frame 208;

the disc 203 is coaxially fixed with one end of the first connecting shaft 209, the other end of the first connecting shaft 209 is fixedly connected with one end of a first connecting rod 210, the other end of the first connecting rod 210 is hinged with one end of a second connecting rod 211, the other end of the second connecting rod 211 is hinged with one end of a third connecting rod 212, the other end of the third connecting rod 212 is fixedly connected with a first pin shaft 213, the first pin shaft 213 is fixed in the middle of the scraper 103, one end of a fourth connecting rod 214 is mounted on the first pin shaft 213 through a bearing, the other end of the fourth connecting rod 214 is hinged with one end of a fifth connecting rod 215, the other end of the fifth connecting rod 215 is fixedly connected with one end of a second pin shaft 216, the second pin shaft 216 is mounted in the middle of the second connecting rod 211 through a bearing, and the other end of the second pin shaft 216 is fixedly connected with one end of a sixth connecting rod 217, the other end of the sixth connecting rod 217 is fixedly connected with one end of the second connecting shaft 218, and the second connecting shaft 218 is mounted on the first rectangular frame 204 through a bearing.

According to the invention, the motor 201 can drive the scraping mechanism 200 to enable the scraping plate 103 to rotate and move up and down and left and right, the wall surface to be scraped is scraped by the rotation of the scraping plate 103, such as putty scraping, cement wall without solidification, gypsum wall surface and the like, simultaneously, the scraping plate 103 can move up and down and left and right while rotating, so that the scraping area is increased, the wall surface is scraped in a large area by the left and right walking of the roller 102, the scraping efficiency is improved, and most of labor cost can be saved.

Wherein, the motor 201 rotates to drive the disc 203 to rotate, the disc 203 rotates to toggle the first slot 205 to move left and right, and simultaneously drive the second rectangular frame 206 to move up and down, that is, the first slot 205 moves along a circular track, and simultaneously the disc 203 rotates around its center as an axis and simultaneously drives the first connecting shaft 209 to rotate, the first connecting shaft 209 rotates to drive the first connecting rod 210 to rotate, so as to drive one end of the second connecting rod 211 to move circumferentially around the first connecting shaft 209, and because of the restriction effect of the second pin 216, the second connecting rod 211 is always in a vertical state, so as to drive a mechanism body composed of the fifth connecting rod 215, the second pin 216, the sixth connecting rod 217 and the second connecting shaft 218 to rotate around the second connecting shaft 218 as an axis, so as to further enable the fourth connecting rod 214 to move up and down and move left and right, and the fourth connecting rod 214 is always in a vertical state, so that the fourth connecting rod 214 drives the first pin shaft 213 to rotate, and further drives the scraper 103 to rotate, and the rotating axis of the scraper 103 is located right above the second connecting shaft 218.

The length of the sixth link 217 is less than the distance from the second pin 216 to the hinge position at the other end of the first link 210, so as to prevent interference during rotation.

The first connecting shaft 209 and the second connecting shaft 218 are arranged in parallel, and the second connecting shaft 218 is located right above the first connecting shaft 209.

Wherein the fifth link 215 and the sixth link 217 are disposed in parallel.

The length of the first link 210 is equal to the length of the sixth link 217, and the distance from one end of the second link 211 to the second pin 216 is equal to the axial distance from the first connecting shaft 209 to the second connecting shaft 218.

An inner space formed by the fifth link 215, the fourth link 214, the third link 212, and the second link 211 is a parallelogram except when the fourth link 214 and the second link 211 are overlapped in the front-rear direction.

Wherein the second connecting shaft 218 is mounted on a third fixing plate 223 through a bearing, and the third fixing plate 223 is fixed on the upper surface of the first rectangular frame 204.

The third rectangular frame 208 is fixedly connected with the machine body 101.

The motor 201 is fixedly connected to a first fixing plate 221, a first through hole is formed in the first fixing plate 221, the output shaft 202 penetrates through the first through hole, two ends of the first fixing plate 221 are fixedly connected to one end of a second fixing plate 222, and the other end of the second fixing plate 222 is fixedly connected to the third rectangular frame 208.

As a further explanation of this example, referring to fig. 1, 7, and 8, the motor 201 drives the grinding mechanism 300, and the grinding mechanism 300 includes a first lifting lug 301, a seventh connecting rod 302, a first elongated hole 303, an eighth connecting rod 304, a second lifting lug 305, a ninth connecting rod 306, a tenth connecting rod 307, a second elongated hole 308, a rectangular plate 309, and a grinding head 310;

the upper portion of the second rectangular frame 206 is fixedly connected to the first lifting lug 301, the first lifting lug 301 is hinged to one end of the seventh connecting rod 302, the seventh connecting rod 302 is disposed in the first elongated hole 303 and moves along the same, the first elongated hole 303 is opened in the upper surface of the third rectangular frame 208 along the longitudinal direction thereof, the other end of the seventh connecting rod 302 is hinged to one end of the eighth connecting rod 304, the middle portion of the eighth connecting rod 304 is mounted to the second lifting lug 305 through a bearing, the second lifting lug 305 is fixed to one side of the upper surface of the third rectangular frame 208, the other end of the eighth connecting rod 304 is hinged to one end of the ninth connecting rod 306, the other end of the ninth connecting rod 306 is hinged to one end of the tenth connecting rod 307, and the tenth connecting rod 307 is disposed in the second elongated hole 308 and moves along the same, the second elongated hole 308 is formed in a side surface of the third rectangular frame 208 along a length direction thereof, the other end of the tenth link 307 is fixedly connected to one side of the rectangular plate 309, two sides of the rectangular plate 309 are disposed in and move along the second slot 207, and the rectangular plate 309 is drivingly connected to the polishing head 310.

According to the invention, the motor 201 drives the polishing mechanism 300, so that the polishing head 310 moves up and down, the polishing function can be realized while scraping, the wall surface is polished by the up-and-down movement of the polishing head 310, the tedious labor is reduced, the efficiency is improved, and the wall surface is smoother.

The second rectangular frame 206 moves up and down to drive the seventh connecting rod 302 to move up and down, so as to drive one end of the eighth connecting rod 304 to move up and down, and the middle part of the eighth connecting rod 304 is not movable, so that the other end of the eighth connecting rod 304 moves up and down, so as to drive the ninth connecting rod 306 to move up and down, so as to drive the rectangular plate 309 to move up and down, further drive the polishing head 310 to move up and down, so that the effect of rubbing the wall surface is achieved, and the wall surface is smoother.

The third rectangular frame 208 is fixedly connected with the machine body 101.

Wherein the rectangular plate 309 is fixedly connected with the sanding head 310.

The polishing surface of the polishing head 310 is parallel to the wall scraping surface of the scraper 103, and the polishing surface of the polishing head 310 is slightly closer to the wall surface than the wall scraping surface of the scraper 103, so that the wall surface can be polished after being scraped.

As a further explanation of this example, referring to fig. 5 and 6, a first pulley is coaxially fixed on the first connecting shaft 209, and a second pulley is coaxially fixed on the second connecting shaft 218, and the first pulley is in transmission connection with the second pulley through a first belt.

The invention ensures that the structure does not generate blocking in the operation process, so that the scraper 103 can smoothly complete rotation.

As a further explanation of this example, referring to fig. 5 and 6, the cross-sectional shape of the first card slot 205 is the same as the cross-sectional shape of the second rectangular frame 206, and two sets of the first card slots 205 are opened on the upper surface and the lower surface of the first rectangular frame 204, the upper side of the first rectangular frame 204 moving along the first card slot 205 opened on the upper surface of the first rectangular frame 204 is disposed, and the lower side of the first rectangular frame 204 moving along the first card slot 205 opened on the lower surface of the first rectangular frame 204 is disposed.

According to the invention, the first rectangular frame 204 can only move left and right, and can not move back and forth, up and down and shake.

As a further explanation of this example, referring to fig. 5 and 6, the cross-sectional shape of the second card slot 207 is the same as that of the second rectangular frame 206, and the second card slot 207 is opened on the inner surface of both sides of the third rectangular frame 208, wherein the left second card slot 207 is configured with the left side of the second rectangular frame 206 moving along it, and the right second card slot 207 is configured with the right side of the second rectangular frame 206 moving along it.

The present invention makes the second rectangular frame 206 only move up and down, and not move and shake left and right.

As a further explanation of this example, referring to fig. 7, two groups of structures composed of the first lifting lug 301, the seventh connecting rod 302, the first elongated hole 303, the eighth connecting rod 304, the second lifting lug 305, the ninth connecting rod 306, the tenth connecting rod 307 and the second elongated hole 308 are symmetrically distributed along the center of the machine body.

The invention can improve the structural stability of the product and prolong the service life of the equipment.

As a further explanation of this example, referring to fig. 2 and 9, the rectangular plate 309 is in driving connection with the polishing head 310 through a planetary gear mechanism 400, and the planetary gear mechanism 400 includes a first bevel gear 401, a second bevel gear 402, a fourth fixing plate 403, a third connecting shaft 404, a first square hole 405, a first square shaft 406, a third bevel gear 407, a fifth fixing plate 408, a fourth bevel gear 409, a fourth connecting shaft 410, an eleventh connecting rod 411, a first gear 412, a first gear ring 413, and a fifth connecting shaft 414;

the output shaft 202 of the motor 201 is coaxially fixed to the first bevel gear 401, the first bevel gear 401 is engaged with the second bevel gear 402, the second bevel gear 402 is mounted on the fourth fixing plate 403 through a bearing, the fourth fixing plate 403 is fixedly connected to the third rectangular frame 208, the second bevel gear 402 is coaxially fixed to the third connecting shaft 404, the first square hole 405 is formed in the axis of the third connecting shaft 404, the first square shaft 406 moving along the first square hole 405 is disposed in the first square hole 405, the first square shaft 406 is coaxially fixed to the third bevel gear 407, the third bevel gear 407 is mounted on the fifth fixing plate 408 through a bearing, the fifth fixing plate 408 is fixedly connected to the rectangular plate 309, the third bevel gear 407 is engaged with the fourth bevel gear 409, and one end of the fourth connecting shaft 410 is coaxially fixed to the fourth bevel gear 409, the other end of the fourth connecting shaft 410 is fixedly connected to one end of an eleventh connecting rod 411, the other end of the eleventh connecting rod 411 is provided with one end of a first gear 412 through a bearing, the first gear 412 is engaged with the first gear ring 413, the first gear ring 413 is fixedly connected to the rectangular plate 309, the other end of the first gear 412 is coaxially fixed to one end of a fifth connecting shaft 414, and the other end of the fifth connecting shaft 414 is coaxially fixed to the polishing head 310.

According to the invention, the motor 201 drives the first bevel gear 401 to rotate, the polishing head 310 can perform revolution motion by taking the fourth connecting shaft 410 as an axis while moving up and down, and meanwhile, the polishing head 310 can perform rotation motion by taking the fifth connecting shaft 414 as an axis, the rotating speed is greatly improved, the front polishing effect is smoother, and the area of a polished wall surface is increased.

Wherein, the motor 201 rotates to drive the first bevel gear 401 to rotate, the first bevel gear 401 rotates to drive the second bevel gear 402 to rotate, the second bevel gear 402 rotates to drive the third connecting shaft 404 to rotate, the third connecting shaft 404 rotates to drive the first square shaft 406 to rotate, the first square shaft 406 rotates to drive the third bevel gear 407 to rotate, the third bevel gear 407 rotates to drive the fourth bevel gear 409 to rotate, the fourth bevel gear 409 rotates to drive the fourth connecting shaft 410 and the eleventh connecting rod 411 to rotate, the eleventh connecting rod 411 rotates to drive the first gear 412 to revolve around the fourth connecting shaft 410, meanwhile, the first gear 412 is engaged with the first gear ring 413, the first gear 412 rotates around itself as an axis, and further drives the polishing head 310 to revolve around the fourth connecting shaft 410 and rotate around the fifth connecting shaft 414, simultaneously under the drive of grinding machanism 300, the head of polishing can also up-and-down reciprocating motion, greatly increased and the area of contact of wall, and then improved the efficiency of polishing, its planetary gear's acceleration effect can make the wall of polishing more smooth simultaneously.

A second through hole is formed in the fourth fixing plate 403 of the fourth fixing plate, and the third connecting shaft 404 penetrates through the second through hole.

The cross section of the first square hole 405 is square, the cross section of the first square shaft 406 is empty with the same shape as the cross section of the first square hole 405, and the first square shaft 406 is arranged in the first square hole 405 and moves along the first square hole, so that the first square shaft 406 can rotate while moving up and down.

Wherein the fourth connecting shaft 410 is bearing-connected to the rectangular plate 309.

The first ring gear 413 is fixedly connected to one end of a fifth fixing plate 420, and the other end of the fifth fixing plate 420 is fixedly connected to the rectangular plate 309.

As a further explanation of this example, referring to fig. 3 and 10, the motor 201 also drives an up-down movement mechanism 500, the up-down movement mechanism 500 includes a second gear 501, a third gear 502, a first screw 503, a sixth fixing plate 504, a seventh fixing plate 505, a first guide hole 506, a first guide post 507, a second guide hole 508, a second guide post 509;

the third connecting shaft 404 and the second gear 501 are coaxially fixed, the second gear 501 is engaged with the third gear 502, the third gear 502 is mounted on the lower surface of the fourth fixing plate 403 through a bearing, the third gear 502 is in threaded connection with the first screw 503, and the first screw 503 is connected with the machine body 101;

the lower surface of the third rectangular frame 208 is fixedly connected to the upper surface of the sixth fixing plate 504, the lower surface of the sixth fixing plate 504 is fixedly connected to the seventh fixing plate 505, one end of the seventh fixing plate 505 is provided with the first guide hole 506, the first guide hole 506 is internally provided with the first guide post 507 moving along the first guide hole, and the bottom end of the first guide post 507 is connected to the machine body 101;

the second guide hole 508 is opened at the other end of the seventh fixing plate 505, the second guide post 509 moving along the second guide hole 508 is disposed in the second guide hole 508, and the bottom end of the second guide post 509 is connected to the machine body 101.

According to the invention, the motor 201 drives the third connecting shaft 404 to rotate, so as to drive the third gear 502 to rotate, the scraping mechanism 200, the polishing mechanism 300 and the planetary gear mechanism 400 can move up and down, when the wall surface is scraped to the head, the wall surface moves in the opposite direction, so that the area of the wall surface is increased, and meanwhile, the higher phase surface can be scraped.

The third connecting shaft 404 rotates to drive the second gear 501 to rotate, the second gear 501 rotates to drive the third gear 502 to rotate, the third gear 502 is in threaded connection with the first screw 503, the first screw 503 rotates to move upwards or downwards, and then the fourth fixing plate 403 is driven to move upwards or downwards, that is, the strickle mechanism 200, the grinding mechanism 300 and the planetary gear mechanism 400 are driven to move upwards or downwards, and when the end point is reached upwards or downwards, the special direction of the motor 201 is changed, so that the motor can move in the opposite direction again.

The bottom end of the first screw 503 is fixedly connected to the body 101.

The bottom end of the first guide pillar 507 is fixedly connected with the machine body 101, the upper end of the first guide pillar 507 is fixedly connected with the fourth rectangular frame 520, the bottom end of the second guide pillar 509 is fixedly connected with the machine body 101, and the upper end of the second guide pillar 509 is fixedly connected with the fourth rectangular frame 520, wherein two sets of mechanisms formed by the seventh fixing plate 505, the first guide hole 506, the first guide pillar 507, the second guide hole 508 and the second guide pillar 509 are symmetrically distributed in front and back along the center of the machine body 101, so that the stability of the equipment is improved, and the service life of the equipment is prolonged.

Two sets of the sixth fixing plates 504 are symmetrically distributed along the center of the machine body 101, so as to increase the stability of the device.

A second thread is formed in the center of the third gear 502, and the third gear 502 is in threaded connection with the first screw 503.

The helix angle of the inner surface of the third gear 502 and the helix angle of the first screw 503 are large enough to ensure smooth rotation of the third gear 502.

As a further explanation of this example, referring to fig. 3 and 10, the blade 103 can also be finely adjusted back and forth by a back and forth slide mechanism 600, the back and forth slide mechanism 600 comprising a first slide 601, a first guide rail 602, a second slide 603, a second guide rail 604, an eighth fixing plate 605, a second screw 606, and a ninth fixing plate 607

The bottom end of the first guide post 507 is fixedly connected with the upper surface of the first slide block 601, the first slide block 601 is arranged in the first guide rail 602 and moves along the first guide rail 602, and the first guide rail 602 is fixed on the machine body 101;

the bottom end of the first screw 503 is fixedly connected to the upper surface of the second slider 603, the second slider 603 is disposed in the second guide rail 604 and moves along the second guide rail 604, and the second guide rail 604 is fixed to the machine body 101;

the seventh fixing plate 505 is fixedly connected to the eighth fixing plate 605, the eighth fixing plate 605 is in threaded connection with the second screw 606, one end of the second screw 606 is mounted on the ninth fixing plate 607 through a bearing, and the ninth fixing plate 607 is fixedly connected to the machine body 101.

According to the invention, the scraping plate 103 is finely adjusted front and back through the front and back sliding mechanism 600, so that the situation that the equipment is too close to the wall surface and is difficult to turn and collide with the wall surface and is easier to approach or leave the wall surface is avoided, and the wall surface scraping efficiency is indirectly improved.

Wherein the first slider 601 is disposed within and moves along the first guide rail 602, and the second slider 603 is disposed within and moves along the second guide rail 604; the second screw 606 is mounted on the ninth fixing plate 607 through a bearing, and by rotating the second screw 606, the eighth fixing plate 605 is finely adjusted back and forth to drive the seventh fixing plate 505 to move back and forth, so that the strickle mechanism 200, the polishing mechanism 300, the planetary gear mechanism 400 and the up-down movement mechanism 500 are driven to move back and forth, and the scraper 103 is driven to move back and forth, thereby achieving the fine adjustment function.

The upper end of the first screw 503 is fixedly connected with a tenth fixing plate 611, and the tenth fixing plate 611 is fixedly connected with the fourth rectangular frame 520.

The first slider 601 is dovetail-shaped in cross section, a dovetail groove with the same shape as the cross section of the first slider 601 is formed in the first guide rail 602, and the first slider 601 is arranged on and moves along the first guide rail 602.

The cross section of the second slider 603 is dovetail-shaped, the second guide rail 604 is provided with a dovetail groove with the same cross section shape as the second slider 603, and the second slider 603 is configured on and moves along the second guide rail 604.

Two groups of structural bodies formed by the first sliding block 601 and the first guide rail 602 are distributed in bilateral symmetry around the center of the machine body 101, wherein the upper surface of the symmetrical first sliding block 601 is fixedly connected with the bottom end of the second guide post 509.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (7)

1. The utility model provides a wall for building strickle machine which characterized in that: comprises that

A body (101) having a roller (102) mounted on the bottom thereof;

a blade (103) disposed on the machine body (101);

and the scraping mechanism (200) drives a cam slider rocker mechanism through a motor (201) to enable the scraping plate (103) to rotate and move up and down, left and right.

2. A wall leveler for buildings as claimed in claim 1, wherein: the strickle mechanism (200) comprises a motor (201), an output shaft (202), a disc (203), a first rectangular frame (204), a first clamping groove (205), a second rectangular frame (206), a second clamping groove (207), a third rectangular frame (208), a first connecting shaft (209), a first connecting rod (210), a second connecting rod (211), a third connecting rod (212), a first pin shaft (213), a fourth connecting rod (214), a fifth connecting rod (215), a second pin shaft (216), a sixth connecting rod (217) and a second connecting shaft (218);

the machine body (101) is in driving connection with the third rectangular frame (208), the motor (201) is fixedly connected with the third rectangular frame (208), the output shaft (202) of the motor (201) is eccentrically fixed with the disc (203), the outer circumferential surface of the disc (203) is attached to the inner surface of the first rectangular frame (204), the upper surface and the lower surface of the first rectangular frame (204) are provided with the first clamping grooves (205), the first clamping grooves (205) are clamped on the inner surface of the second rectangular frame (206), two sides of the second rectangular frame (206) are configured in the second clamping grooves (207), and the second clamping grooves (207) are arranged on the inner surfaces of two sides of the third rectangular frame (208);

the disc (203) is coaxially fixed with one end of the first connecting shaft (209), the other end of the first connecting shaft (209) is fixedly connected with one end of the first connecting rod (210), the other end of the first connecting rod (210) is hinged with one end of the second connecting rod (211), the other end of the second connecting rod (211) is hinged with one end of the third connecting rod (212), the other end of the third connecting rod (212) is fixedly connected with the first pin shaft (213), the first pin shaft (213) is fixed in the middle of the scraper (103), one end of the fourth connecting rod (214) is installed on the first pin shaft (213) through a bearing, the other end of the fourth connecting rod (214) is hinged with one end of the fifth connecting rod (215), and the other end of the fifth connecting rod (215) is fixedly connected with one end of the second pin shaft (216), the second pin shaft (216) is mounted in the middle of the second connecting rod (211) through a bearing, the other end of the second pin shaft (216) is fixedly connected with one end of the sixth connecting rod (217), the other end of the sixth connecting rod (217) is fixedly connected with one end of the second connecting shaft (218), and the second connecting shaft (218) is mounted on the first rectangular frame (204) through a bearing.

3. A wall leveler for buildings as claimed in claim 2, wherein: the motor (201) drives the grinding mechanism (300), and the grinding mechanism (300) comprises a first lifting lug (301), a seventh connecting rod (302), a first long-strip-shaped hole (303), an eighth connecting rod (304), a second lifting lug (305), a ninth connecting rod (306), a tenth connecting rod (307), a second long-strip-shaped hole (308), a rectangular plate (309) and a grinding head (310);

the upper part of the second rectangular frame (206) is fixedly connected with the first lifting lug (301), the first lifting lug (301) is hinged with one end of the seventh connecting rod (302), the seventh connecting rod (302) is configured in the first strip-shaped hole (303) and moves along the first strip-shaped hole, the first strip-shaped hole (303) is arranged on the upper surface of the third rectangular frame (208) along the length direction of the first strip-shaped hole, the other end of the seventh connecting rod (302) is hinged with one end of the eighth connecting rod (304), the middle part of the eighth connecting rod (304) is arranged on the second lifting lug (305) through a bearing, the second lifting lug (305) is fixed on one side of the upper surface of the third rectangular frame (208), the other end of the eighth connecting rod (304) is hinged with one end of the ninth connecting rod (306), and the other end of the ninth connecting rod (306) is hinged with one end of the tenth connecting rod (307), the tenth connecting rod (307) is arranged in the second long hole (308) and moves along the second long hole, the second long hole (308) is formed in the side surface of the third rectangular frame (208) along the length direction of the second long hole, the other end of the tenth connecting rod (307) is fixedly connected with one side of the rectangular plate (309), two sides of the rectangular plate (309) are arranged in the second clamping groove (207) and move along the second clamping groove, and the rectangular plate (309) is in driving connection with the polishing head (310).

4. A wall leveler for buildings as claimed in claim 3, wherein: a first belt pulley is coaxially fixed on the first connecting shaft (209), a second belt pulley is coaxially fixed on the second connecting shaft (218), and the first belt pulley is in transmission connection with the second belt pulley through a first belt.

5. A wall leveler for buildings as claimed in claim 4, wherein: the cross-sectional shape of the first clamping groove (205) is the same as that of the second rectangular frame (206), two groups of first clamping grooves (205) are formed in the upper surface and the lower surface of the first rectangular frame (204), the upper side of the first rectangular frame (204) moving along the first clamping groove (205) formed in the upper surface of the first rectangular frame (204) is configured in the first clamping groove, and the lower side of the first rectangular frame (204) moving along the first clamping groove is configured in the first clamping groove (205) formed in the lower surface of the first rectangular frame (204).

6. A wall leveler for buildings as claimed in claim 5, wherein: the cross-sectional shape of the second card slot (207) is the same as that of the second rectangular frame (206), and the second card slot (207) is opened on the inner surface of both sides of the third rectangular frame (208), wherein the left second card slot (207) is configured with the left side of the second rectangular frame (206) moving along the left second card slot, and the right second card slot (207) is configured with the right side of the second rectangular frame (206) moving along the right second card slot.

7. A wall leveler for buildings as claimed in claim 6, wherein: two groups of structural bodies consisting of the first lifting lug (301), the seventh connecting rod (302), the first long hole (303), the eighth connecting rod (304), the second lifting lug (305), the ninth connecting rod (306), the tenth connecting rod (307) and the second long hole (308) are symmetrically distributed at the left and right sides of the center of the machine body.

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