CN112302313B - A beautiful seam equipment in wall and ground for construction - Google Patents

Abstract

The invention discloses a wall surface and ground joint beautifying device for building construction, which comprises a base, wherein a dust suction cavity is arranged in the base, the dust absorption cavity is internally provided with first slide rails which are bilaterally symmetrical, first pulleys are arranged in the first slide rails, the left side of the first pulley is connected with a first connecting rod, the left side of the connecting rod is provided with a dust storage box, the automatic gap cleaning wheel can replace manual work to widen the gap of the ceramic tile, the dust suction device cleans the impurities of the ceramic tile seams, the seam beautifying agent is filled into the seam beautifying gun through the seam beautifying filler and is uniformly extruded by the gear rack and the piston mechanism, the problems of nonuniform discharging and nonuniform moving speed are solved, the operation difficulty of the seam beautifying is not attributed to the operation experience of workers, the aesthetic property of the seam beautifying is improved, and the machine can adjust the action bars to the wall or ground through the roating seat and work for the practicality of machine strengthens.

Description

A beautiful seam equipment in wall and ground for construction

Technical Field

The invention relates to the field of building construction, in particular to a wall surface and ground seam beautifying device for building construction.

Background

Along with the improvement of living standard, the requirements of people on living environment are increased day by day, wherein the seam beautifying is a process which most of owners can require a construction party to do when houses are decorated, the seam beautifying can perfectly solve the problem that the seam of a ceramic tile is not beautiful or dirty and black, the seam beautifying is mainly used for bedrooms or kitchens, firstly, workers are required to expand and clean the seam of the ceramic tile before construction, then, the seam beautifying agent is filled into a glue gun and is driven along the seam of the ceramic tile, a pressing ball is required to press the seam after the seam beautifying agent is punched, then, after the seam beautifying agent is solidified, a flat scraping is used for scraping overflow strips on the surface of the ceramic tile, however, when the workers carry out manual seam beautifying, the amount of the seam beautifying agent sprayed out by the glue gun is uncontrollable, the seam beautifying agent is easily smeared on the wall surface or the surface of the ceramic tile, the later-period cleaning is difficult, the manual beautifying efficiency is low, the labor intensity of the workers is high, and a great amount of time and fine operation are required, lead to the beautiful seam degree of difficulty big, present beautiful seam machine is mostly the beautiful seam machine in ground, nevertheless does not do the analysis to the beautiful seam of wall, and current beautiful seam machine practicality is not strong, leads to beautiful seam construction still by manual operation.

Disclosure of Invention

The invention aims to solve the technical problem of providing a wall surface and ground seam beautifying device for building construction, and solves the problems of high labor intensity, low efficiency, difficult manual seam beautifying of the wall surface and the ground and poor practicability of the existing seam beautifying machine.

The invention is realized by the following technical scheme.

The invention relates to wall and ground seam beautifying equipment for building construction, which comprises a base, wherein a dust suction cavity is arranged in the base, first slide rails which are bilaterally symmetrical are arranged in the dust suction cavity, first pulleys are arranged in the first slide rails, a first connecting rod is connected to the left side of the first pulleys, a dust storage box is arranged on the left side of the connecting rod, a dust suction pipe extending out of the dust suction cavity is arranged on the dust storage box, a material storage cavity is arranged in the base, second slide rails which are bilaterally symmetrical are arranged in the material storage cavity, second pulleys are arranged in the second slide rails, a second connecting rod is connected to the left side of the second pulleys, a material storage box is arranged on the left side of the second connecting rod, a booster pump is fixedly arranged in the material storage box, the booster pump is introduced into the material storage box through a high-pressure air pipe, a first spring is arranged in the material storage box, and a first piston block is connected to the first spring, a first feeding pipe extending out of the storage cavity is arranged in the storage box, a power cavity is arranged in the base, a first motor is arranged in the power cavity, a first motor shaft extending out of the base is rotatably arranged on the first motor, a first bevel gear is fixedly connected to the first motor shaft, a second bevel gear is meshed with the left side of the first bevel gear, a first rotating shaft is fixedly connected to the left side of the second bevel gear, a third bevel gear is arranged on the left side of the first rotating shaft, a second rotating shaft is arranged on the left side of the third bevel gear, a first driving wheel is arranged on the second rotating shaft, bilaterally symmetrical traveling wheel shafts are rotatably arranged on the base, bilaterally symmetrical traveling wheels are sleeved on the traveling wheel shafts, bilaterally symmetrical telescopic rods are fixedly arranged on the base, a stabilizing base is arranged at the top of each telescopic rod, a rotating box is arranged on the upper side of the base, a second motor shaft is arranged on the first motor, a left-right symmetrical spline is fixedly arranged on the second motor shaft, a left-right symmetrical first electromagnet is fixedly arranged in the power cavity, a left-right symmetrical second spring is connected to the lower side of the first electromagnet, a first rotating connecting sleeve is connected to the lower side of the second spring, a third rotating shaft extending into the rotating box is fixedly arranged on the first rotating connecting sleeve, a fourth bevel gear is fixedly arranged on the third rotating shaft, a fourth rotating shaft is rotatably arranged in the rotating box, a fifth bevel gear is sleeved on the fourth rotating shaft, a third belt pulley is sleeved on the fourth rotating shaft, a fifth rotating shaft is rotatably arranged in the rotating box, a fourth belt pulley is sleeved on the fifth rotating shaft, an extension arm base is sleeved on the fifth rotating shaft, a sixth bevel gear is sleeved on the fifth rotating shaft, and a seventh bevel gear is meshed on the upper side of the sixth bevel gear, the seventh bevel gear is provided with a sixth rotating shaft extending out of the extension arm base, the upper side of the extension arm base is provided with an extension arm, the extension arm is internally provided with a first control box, the first control box is internally provided with second electromagnets which are bilaterally symmetrical, the lower side of the second electromagnet is provided with a third spring, the lower side of the third spring is connected with a second sliding block, the second sliding block is rotatably provided with a second rotating connecting block, the upper side of the second rotating connecting block is fixedly connected with a screw rod, the screw rod is sleeved with a screw rod sliding block, the screw rod sliding block is fixedly provided with an extension rod, the right side of the extension rod is connected with a working cavity, a second motor is arranged in the working cavity, the second motor is rotatably provided with a third motor shaft, the third motor shaft is sleeved with an eighth bevel gear, and the second motor is rotatably provided with a fourth motor shaft, a ninth bevel gear is rotatably arranged on a fourth motor shaft, a seventh rotating shaft is rotatably arranged in the working cavity, a second driving gear is sleeved on the seventh rotating shaft, a seam beautifying gun is arranged in the working cavity, a second feeding pipe is arranged on the seam beautifying gun, a second piston block is arranged in the seam beautifying gun, a rack is connected to the left side of the second piston block, the second driving gear is meshed with the rack, a seam cleaning wheel shaft is rotatably arranged outside the working cavity, a seam cleaning wheel is sleeved on the seam cleaning wheel shaft, a tenth bevel gear is meshed to the left side of the seam cleaning wheel, a hollow rotating shaft extending into the working cavity is fixedly connected to the left side of the tenth bevel gear, a second control box is arranged on the hollow rotating shaft, a third electromagnet is arranged in the second control box, a fourth spring is connected to the left side of the third electromagnet, and a third sliding block is connected to the left side of the fourth spring, the fixed eighth pivot that is equipped with in third sliding block left side, the eighth pivot, eighth pivot left side fixedly connected with eleventh bevel gear, be equipped with the dust catcher in the working chamber, the dust catcher upside is connected with the booster, be equipped with the second dust absorption pipe on the booster, the fixed pinch roller pole that is equipped with on the working chamber, it has the pinch roller to articulate on the pinch roller pole.

Preferably, the booster pump fills the pressurized air into the lower part of the piston block to push the piston block upwards, and the piston block presses the seam beautifying agent into the seam beautifying gun through the first feeding pipe and the second feeding pipe which are connected with the first feeding pipe.

Preferably, a first belt pulley is sleeved on the traveling wheel shaft, a second belt pulley is sleeved on the second rotating shaft, and the second belt pulley drives the first belt pulley to rotate clockwise or counterclockwise through a first belt, so that the base moves forward or backward.

Preferably, a vertical spline groove is formed in the first rotary connecting sleeve, the vertical spline groove can be connected with a first spline on the second motor shaft, the first rotary connecting sleeve can be driven by the second motor shaft to rotate, a vertical spline groove is formed in the second rotary connecting block, the vertical spline groove can be connected with a second spline on the sixth rotary shaft, the sixth rotary shaft can drive the second rotary connecting block to rotate, and the third sliding block is connected with the hollow rotary shaft through a spline and used for driving the eighth rotary shaft to rotate.

Preferably, the extension arm base is provided with bilaterally symmetrical second telescopic rods, splines are arranged on the fifth rotating shaft opposite to the cushion block, spline grooves are formed in the cushion block, and the fifth rotating shaft is connected with the cushion block through the splines when the second telescopic rods extend.

The invention has the beneficial effects that: according to the invention, the automatic seam cleaning wheel can replace manual work to widen the gap of the ceramic tile, the dust collection equipment can be used for cleaning up impurities of the gap of the ceramic tile, the seam beautifying agent is filled into the seam beautifying gun through the seam beautifying filler and is uniformly extruded by the gear rack and piston mechanism, the problems of nonuniform discharging and nonuniform moving speed are solved, the operation difficulty of seam beautifying is not attributed to the operation experience of workers, the aesthetic property of seam beautifying is improved, and the machine can adjust the operating rod to the wall surface or the ground through the rotary seat to work, so that the practicability of the machine is enhanced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1;

FIG. 5 is a schematic view of D-D in FIG. 4 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-5, the wall and ground seam beautifying apparatus for building construction includes a base 900, a dust suction cavity 901 is provided in the base 900, a first slide rail 19 which is bilaterally symmetrical is provided in the dust suction cavity 901, a first pulley 20 is provided in the first slide rail 19, a first connecting rod 21 is connected to the left side of the first pulley 20, a dust storage box 22 is provided on the left side of the first connecting rod 21, a dust suction pipe 24 which extends to the outside of the dust suction cavity 901 is provided on the dust storage box 22, a material storage cavity 902 is provided in the base 900, a second slide rail 80 which is bilaterally symmetrical is provided in the material storage cavity 902, a second pulley 81 is provided in the second slide rail 80, a second connecting rod 82 is connected to the left side of the second pulley 81, a material storage box 83 is provided on the left side of the second connecting rod 82, a booster pump 26 is fixedly provided in the material storage box 83, the booster pump is introduced into the material storage box 83 through a high pressure air pipe, a first spring 28 is arranged in the storage box 83, a first piston block 29 is connected to the first spring 28, a first feeding pipe 30 extending out of the storage cavity 902 is arranged in the storage box 83, a power cavity 903 is arranged in the base 900, a first motor 12 is arranged in the power cavity 903, a first motor shaft 11 extending out of the base 900 is rotatably arranged on the first motor 12, a first bevel gear 10 is fixedly connected to the first motor shaft 11, a second bevel gear 9 is engaged with the left side of the first bevel gear 10, a first rotating shaft 8 is fixedly connected to the left side of the second bevel gear 9, a third bevel gear 7 is arranged on the left side of the first rotating shaft 8, a second rotating shaft 6 is arranged on the left side of the third bevel gear 7, a first driving wheel 5 is arranged on the second rotating shaft 6, and bilaterally symmetrical advancing wheel shafts 3 are rotatably arranged on the base 900, the traveling wheel shaft 3 is sleeved with bilaterally symmetrical traveling wheels 2, the base 900 is fixedly provided with bilaterally symmetrical first telescopic rods 1, the top of each first telescopic rod 1 is provided with a stabilizing seat 18, the upper side of the base 900 is provided with a rotating box 904, the first motor 12 is provided with a second motor shaft 14, the second motor shaft 14 is fixedly provided with bilaterally symmetrical first splines 67, the power cavity 903 is fixedly provided with bilaterally symmetrical first electromagnets 16, the lower side of the first electromagnets 16 is connected with bilaterally symmetrical second springs 17, the lower side of the second springs 17 is connected with a first rotating connecting sleeve 15, the first rotating connecting sleeve is fixedly provided with a third rotating shaft 35 extending into the rotating box 904, the third rotating shaft 35 is fixedly provided with a fourth bevel gear 32, the rotating box 904 is rotatably provided with a fourth rotating shaft 33, and the fourth rotating shaft 33 is sleeved with a fifth bevel gear 34, the fourth rotating shaft 33 is sleeved with a third belt pulley 91, the rotating box 904 is rotatably provided with a fifth rotating shaft 38, the fifth rotating shaft 38 is sleeved with a fourth belt pulley 37, the fifth rotating shaft 38 is sleeved with an extension arm base 39, the fifth rotating shaft 38 is sleeved with a sixth bevel gear 68, the upper side of the sixth bevel gear 68 is engaged with a seventh bevel gear 69, the seventh bevel gear 69 is provided with a sixth rotating shaft 70 extending out of the extension arm base 39, the sixth rotating shaft 70 is fixedly provided with a second spline 71, the upper side of the extension arm base 39 is provided with an extension arm 95, the extension arm 95 is provided with a first control box 74, the first control box 74 is provided with a second electromagnet 72 which is bilaterally symmetrical, the lower side of the second electromagnet 72 is provided with a third spring 73, the lower side of the third spring 73 is connected with a second sliding block 97, the second sliding block 97 is rotatably provided with a second rotating connecting block 96, the upper side of the second rotary connecting block 96 is fixedly connected with a screw rod 40, the screw rod 40 is sleeved with a screw rod sliding block 42, the screw rod sliding block 42 is fixedly provided with an extension rod 43, the right side of the extension rod 43 is connected with a working cavity 905, a second motor 57 is arranged in the working cavity 905, a third motor shaft 56 is rotatably arranged on the second motor 57, an eighth bevel gear 55 is sleeved on the third motor shaft 56, a fourth motor shaft 58 is rotatably arranged on the second motor 57, a ninth bevel gear 59 is rotatably arranged on the fourth motor shaft 58, a seventh rotating shaft 98 is rotatably arranged in the working cavity 905, a second driving gear 60 is sleeved on the seventh rotating shaft 98, a beauty-seam gun 64 is arranged in the working cavity 905, a second feeding pipe 63 is arranged on the beauty-seam gun 64, a second piston block 62 is arranged in the beauty-seam gun 64, and a rack 61 is connected to the left side of the second piston block 62, the second driving gear 60 is engaged with the rack 61, a seam cleaning wheel shaft 47 is rotatably arranged outside the working cavity 905, a seam cleaning wheel 46 is sleeved on the seam cleaning wheel shaft 47, a tenth bevel gear 48 is engaged on the left side of the seam cleaning wheel 46, a hollow rotating shaft 49 extending into the working cavity 905 is fixedly connected to the left side of the tenth bevel gear 48, a second control box 100 is arranged on the hollow rotating shaft 49, a third electromagnet 50 is arranged in the second control box 100, a fourth spring 51 is connected to the left side of the third electromagnet 50, a third sliding block 52 is connected to the left side of the fourth spring 51, an eighth rotating shaft 54 is fixedly arranged on the left side of the third sliding block 52, an eighth rotating shaft 54 is fixedly connected to the left side of the eighth rotating shaft 54, a dust collector 45 is arranged in the working cavity 905, a supercharger 23 is connected to the upper side of the dust collector 45, and a second dust collection pipe 25 is arranged on the supercharger 23, a pinch roller rod 65 is fixedly arranged on the working cavity 905, and a pinch roller 66 is hinged on the pinch roller rod 65.

Advantageously, the booster pump 26 pumps pressurized air under the piston block 29 to push the piston block 29 upwards, and the piston block 29 presses the seam beautifying agent into the seam beautifying gun 64 through the first feeding pipe 30 and the second feeding pipe 63.

Advantageously, a first pulley 87 is sleeved on the travelling wheel shaft 3, a second pulley 86 is sleeved on the second rotating shaft 6, and the second pulley drives the first pulley 87 to rotate clockwise or counterclockwise through a first belt 88, so that the base 900 moves forward or backward.

Advantageously, the first rotary connecting sleeve 15 has a vertical spline groove therein, which is connected to the first spline 67 on the second motor shaft 14, for enabling the second motor shaft 14 to drive the first rotary connecting sleeve 15 to rotate, the second rotary connecting block 96 has a vertical spline groove therein, which is connected to the second spline 71 on the sixth rotating shaft 70, for enabling the sixth rotating shaft 70 to drive the second rotary connecting block 96 to rotate, and the third sliding block 52 is connected to the hollow rotating shaft 49 through a spline, for enabling the eighth rotating shaft 54 to drive the hollow rotating shaft 49 to rotate.

Beneficially, the extending arm base 39 is provided with a second telescopic rod 100 which is bilaterally symmetrical, a spline is provided at a position of the fifth rotating shaft 38 which is opposite to the cushion block 101, a spline groove is provided in the cushion block 101, and the fifth rotating shaft 38 and the cushion block 101 can be connected through the spline when the second telescopic rod 100 extends.

In the initial state, the first motor 12 is not started, the booster pump 26 is not started, the first electromagnet 16 is in the energized state, the second electromagnet 72 is in the energized state, the third electromagnet 50 is in the energized state, and the first telescopic rod 1 and the second telescopic rod 100 are not extended.

The method comprises the steps of starting a first motor 12 to rotate positively, driving a first bevel gear 10 to rotate clockwise by a first motor shaft 11, driving a second bevel gear 9 to rotate clockwise by the first bevel gear 10, driving a first rotating shaft 8 to rotate clockwise by the second bevel gear 9, driving a third bevel gear 7 to rotate clockwise by the first rotating shaft 8, driving a first driving wheel 5 to rotate clockwise by the third bevel gear 7, driving a second rotating shaft 6 to rotate clockwise by the first driving wheel 5, driving a traveling wheel shaft 3 to rotate clockwise by the second rotating shaft 6 through a first belt 88, driving a traveling wheel 2 to rotate clockwise by the traveling wheel shaft 3, stopping the first motor 12 after the equipment advances to a proper position to be operated, extending a first telescopic rod 1, contacting a stabilizing seat 18 with the ground, and separating the traveling wheel 2 from the ground. If backing-up is required, the first motor 12 is started to rotate reversely.

At the moment, the first electromagnet 16 is powered off, the second spring 17 extends downwards, the first rotary connecting sleeve 15 is buckled with the second motor shaft 14 under the action of the second spring 17, the second telescopic rod 100 extends, the cushion block 101 is connected with the fifth rotating shaft 38, the first motor 12 is started to rotate forwards, the second motor shaft 14 rotates clockwise to drive the first rotary connecting sleeve 15 to rotate clockwise, the first rotary connecting sleeve 15 rotates clockwise to drive the third rotating shaft 35 to rotate clockwise, the third rotating shaft 35 rotates clockwise to drive the fourth bevel gear 32 to rotate clockwise, the fourth bevel gear 32 rotates clockwise to drive the fifth bevel gear 34 to rotate clockwise, the fifth bevel gear 34 rotates clockwise to drive the fourth rotating shaft 33 to rotate clockwise, the fourth rotating shaft 33 rotates clockwise to drive the third belt pulley 91 to rotate clockwise, the third belt pulley 91 rotates clockwise to drive the fourth belt pulley 37 to rotate clockwise, the fourth belt pulley 37 rotates clockwise to drive the fifth rotating shaft 38 to rotate clockwise, fifth pivot 38 rotates along the needle and drives extension arm base 39 clockwise, and extension arm 95 turns to ground work clockwise this moment, if need extension arm 95 towards wall work, then starts first motor 12 reversal, and extension arm 95 anticlockwise turns to wall work, closes first motor 12 after finishing, and the shrink of second telescopic link 100, cushion 101 and fifth pivot 38 break away from and are connected.

At this time, the second magnet 72 is powered off, the second spring 73 extends, the second rotating connection block 96 is connected with the sixth rotating shaft 70, the first motor 12 is started to rotate forwards, the fifth rotating shaft 38 rotates clockwise to drive the sixth bevel gear 68 to rotate clockwise, the sixth bevel gear 68 rotates clockwise to drive the seventh bevel gear 69 to rotate clockwise, the seventh bevel gear 69 rotates clockwise to drive the sixth rotating shaft 70 to rotate clockwise, the sixth rotating shaft 70 rotates clockwise to drive the screw 40 to rotate clockwise, the screw 40 rotates clockwise to drive the screw slider 42 to slide upwards, the screw slider 42 slides upwards to drive the rod 43 to extend, and if the rod 43 needs to be extended to contract, the first motor 12 is started to rotate backwards.

At this time, the third electromagnet 50 is powered off, the eleventh bevel gear 53 is meshed with the eighth bevel gear 55, the booster pump 26 is started, the booster 23 is started, the second motor 57 is started to rotate forward, the third motor shaft 56 rotates clockwise to drive the eighth bevel gear 55 to rotate clockwise, the eighth bevel gear 55 rotates clockwise to drive the eleventh bevel gear 53 to rotate clockwise, the eleventh bevel gear 53 rotates clockwise to drive the eighth rotating shaft 54 to rotate clockwise, the eighth rotating shaft 54 rotates clockwise to drive the hollow rotating shaft 49 to rotate clockwise, the hollow rotating shaft 49 rotates clockwise to drive the tenth bevel gear 48 to rotate clockwise, the tenth bevel gear 48 rotates clockwise to drive the slit cleaning wheel 46 to rotate clockwise, the slit cleaning wheel 46 rotates clockwise to clean slits, the dust generated by the slit cleaning wheel 46 generates suction through the booster 23, and then is connected with the dust collection pipe 24 through the second dust collection pipe 25 and introduced into the dust storage box 22, the booster pump 26 is started to enable the seam beautifying agent in the storage box 83 to be connected with the second feeding pipe 63 through the first feeding pipe 30 and to be fed into the seam beautifying gun 64, the fourth motor shaft 58 rotates clockwise to drive the ninth bevel gear 59 to rotate clockwise, the ninth bevel gear 59 rotates clockwise to drive the second driving gear 60 to rotate clockwise, the second driving gear 60 rotates clockwise to drive the second piston block 62 to move rightwards, the second piston block 62 moves rightwards to enable the seam beautifying agent in the seam beautifying gun 64 to be sprayed out, and at the moment, the pressing wheel 66 rotates clockwise along with the extension of the extension rod 43 and is used for pressing the seam beautifying agent in a seam.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a beautiful seam equipment of wall and ground for construction, includes the base, its characterized in that: a dust suction cavity is arranged in the base, first slide rails which are bilaterally symmetrical are arranged in the dust suction cavity, first pulleys are arranged in the first slide rails, a first connecting rod is connected to the left side of the first pulleys, a dust storage box is arranged on the left side of the connecting rod, a dust suction pipe extending out of the dust suction cavity is arranged on the dust storage box, a material storage cavity is arranged in the base, second slide rails which are bilaterally symmetrical are arranged in the material storage cavity, second pulleys are arranged in the second slide rails, a second connecting rod is connected to the left side of the second pulleys, a material storage box is arranged on the left side of the second connecting rod, a booster pump is fixedly arranged in the material storage box, the booster pump is introduced into the material storage box through a high-pressure air pipe, a first spring is arranged in the material storage box, a first piston block is connected to the first spring, and a first inlet pipe extending out of the material storage cavity is arranged in the material storage box, a power cavity is arranged in the base, a first motor is arranged in the power cavity, a first motor shaft extending out of the base is rotatably arranged on the first motor, a first bevel gear is fixedly connected to the first motor shaft, a second bevel gear is meshed with the left side of the first bevel gear, a first rotating shaft is fixedly connected to the left side of the second bevel gear, a third bevel gear is arranged on the left side of the first rotating shaft, a second rotating shaft is arranged on the left side of the third bevel gear, a first driving wheel is arranged on the second rotating shaft, bilaterally symmetrical traveling wheel shafts are rotatably arranged on the base, bilaterally symmetrical traveling wheels are sleeved on the traveling wheel shafts, bilaterally symmetrical telescopic rods are fixedly arranged on the base, a stabilizing seat is arranged at the top of each telescopic rod, a rotating box is arranged on the upper side of the base, a second motor shaft is arranged on the first motor, and bilaterally symmetrical splines are fixedly arranged on the second motor shaft, a first bilateral symmetry electromagnet is fixedly arranged in the power cavity, a second bilateral symmetry spring is connected to the lower side of the first electromagnet, a first rotary connecting sleeve is connected to the lower side of the second spring, a third rotary shaft extending into the rotary box is fixedly arranged on the first rotary connecting sleeve, a fourth bevel gear is fixedly arranged on the third rotary shaft, a fourth rotary shaft is rotatably arranged in the rotary box, a fifth bevel gear is sleeved on the fourth rotary shaft, a third belt pulley is sleeved on the fourth rotary shaft, a fifth rotary shaft is rotatably arranged in the rotary box, a fourth belt pulley is sleeved on the fifth rotary shaft, an extension arm base is sleeved on the fifth rotary shaft, a sixth bevel gear is sleeved on the fifth rotary shaft, a seventh bevel gear is meshed on the upper side of the sixth bevel gear, and a sixth rotary shaft extending out of the extension arm base is arranged on the seventh bevel gear, an extension arm is arranged on the upper side of the extension arm base, a first control box is arranged in the extension arm, bilaterally symmetrical second electromagnets are arranged in the first control box, a third spring is arranged on the lower side of the second electromagnets, a second sliding block is connected to the lower side of the third spring, a second rotating connecting block is rotatably arranged on the second sliding block, a lead screw is fixedly connected to the upper side of the second rotating connecting block, the lead screw is sleeved with a lead screw sliding block, an extension rod is fixedly arranged on the lead screw sliding block, a working cavity is connected to the right side of the extension rod, a second motor is arranged in the working cavity, a third motor shaft is rotatably arranged on the second motor, an eighth bevel gear is sleeved on the third motor shaft, a fourth motor shaft is rotatably arranged on the second motor, a ninth bevel gear is rotatably arranged on the fourth motor shaft, and a seventh rotating shaft is rotatably arranged in the working cavity, a second driving gear is sleeved on the seventh rotating shaft, a seam beautifying gun is arranged in the working cavity, a second feeding pipe is arranged on the seam beautifying gun, a second piston block is arranged in the seam beautifying gun, a rack is connected to the left side of the second piston block, the second driving gear is meshed with the rack, a seam cleaning wheel shaft is rotatably arranged outside the working cavity, a seam cleaning wheel is sleeved on the seam cleaning wheel shaft, a tenth bevel gear is meshed to the left side of the seam cleaning wheel, a hollow rotating shaft extending into the working cavity is fixedly connected to the left side of the tenth bevel gear, a second control box is arranged on the hollow rotating shaft, a third electromagnet is arranged in the second control box, a fourth spring is connected to the left side of the third electromagnet, a third sliding block is connected to the left side of the fourth spring, an eighth rotating shaft is fixedly connected to the left side of the third sliding block, the eighth rotating shaft is fixedly connected to the left side of the eighth rotating shaft, an eleventh bevel gear is fixedly connected to the left side of the eighth rotating shaft, the dust collector is arranged in the working cavity, a supercharger is connected to the upper side of the dust collector, a second dust collection pipe is arranged on the supercharger, a pinch roller rod is fixedly arranged on the working cavity, and a pinch roller is hinged to the pinch roller rod.

2. The wall and ground joint beautifying device for building construction according to claim 1, characterized in that: the booster pump fills the air after the pressurization into piston block below, will the piston block is ejecting upwards, the piston block is connected the beautiful seam agent through first inlet pipe the second inlet pipe is impressed in the beautiful seam rifle.

3. The wall and ground joint beautifying device for building construction according to claim 1, characterized in that: the base is characterized in that a first belt pulley is sleeved on the travelling wheel shaft, a second belt pulley is sleeved on the second rotating shaft, and the second belt pulley drives the first belt pulley to rotate clockwise or anticlockwise through a first belt, so that the base moves forward or backward.

4. The wall and ground joint beautifying device for building construction according to claim 1, characterized in that: the first rotating connecting sleeve is internally provided with a vertical spline groove which can be connected with a first spline on a second motor shaft and used for enabling the second motor shaft to drive the first rotating connecting sleeve to rotate, the second rotating connecting block is internally provided with a vertical spline groove which can be connected with a second spline on a sixth rotating shaft and used for enabling the sixth rotating shaft to drive the second rotating connecting block to rotate, and the third sliding block is connected with the hollow rotating shaft through a spline and used for enabling the eighth rotating shaft to drive the hollow rotating shaft to rotate.

5. The wall and ground joint beautifying device for building construction according to claim 1, characterized in that: the extension arm base is provided with bilaterally symmetrical second telescopic rods, splines are arranged on the positions, right opposite to the cushion blocks, of the fifth rotating shaft, spline grooves are formed in the cushion blocks, and the fifth rotating shaft is connected with the cushion blocks through the splines when the second telescopic rods extend.

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