CN111561134B - Building mortar paints device - Google Patents

Abstract

The invention discloses a building mortar smearing device, which structurally comprises: the invention realizes the matching of the fan brush polishing pressing plate and the vibration bearing seat, the rotary oscillation sedimentation operation is formed on the top surfaces of the fan brush semi-circular plate and the concave arc buckling plate through the vibration bearing seat, so that the upper semi-circular gradient air-pressing mortar coating effect of the whole frame surface is formed by the interactive sweeping of the shaft buckling wheel disc and the grinding scraper truss in the fan brush semi-circular plate and the fan brush frame, the integral coverage degree interpenetration thickness clamping plate is ensured to form the flatness operation of mortar compacting and molding, and the fluid adhesion amount on the surface of the building is thickened, redundant spacer bubbles are removed to form the inner rotation covering fine scraping brush effect of the rack type arm lifting pressing sliding brush, a high-density binding acting force is formed for mortar pretreatment, the ceramic tile attachment stability in the later period is facilitated, and the reworking treatment is avoided.

Description

Building mortar paints device

Technical Field

The invention relates to a building mortar smearing device, and belongs to the field of buildings.

Background

The mortar is the thick fluid building material that grit and cement powder water injection produced, makes things convenient for later stage building surface to paint the effect of thickening interlayer, promotes building rigidity bearing capacity and the base surface layer thickening effect of interior decoration, and the inside and outside mortar hardness of guarantee building construction adds the effect of holding, and the public shortcoming of treating the optimization of prior art has:

the grit face roughness and the grout liquid of mortar form the grout effect of package, and the mortar of building is paintd operating personnel and is plastering even in-process internal pressure fluid bubble, make middle sand grain and fluid blast and cause the phenomenon in lifting clearance, let the architectural machining face of later stage paint the quality and pull open the crack movable groove, lead to the ceramic tile of mortar to cover the extrusion slidability, thereby disturb holistic surge and lift and press and fluid viscidity, it is big to let the ceramic tile degree of undulation, later stage adjustment need turn over to scrape the grout panel and paint again and consume labour and cost raw materials.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a building mortar smearing device to solve the problems that the sand surface roughness of mortar and cement slurry form a mortar coating effect, and fluid bubbles are pressed in the mortar smearing process of a building mortar smearing operator to cause the phenomenon of lifting gaps caused by the air blowing of middle sand grains and fluid, so that the inner seam movable groove is pulled by the later-stage building processing surface smearing quality, the tile of the mortar covers and extrudes the sliding property, the integral hydraulic lifting pressure and fluid viscosity are interfered, the tile undulation is large, and the mortar panel needs to be scraped for smearing again in the later stage adjustment, so that labor and cost raw materials are consumed.

In order to achieve the purpose, the invention is realized by the following technical scheme: a building mortar daubs device, its structure includes: the fan brush polishing and wiping press plate, the press lining cover plate, the vibration bearing seat, the material pressing push plate, the battery jar, the switch press button seat and the handle rod are tightly attached to the bottom surface of the press lining cover plate and are positioned on the same horizontal plane, the vibration bearing seat is mechanically connected with the press lining cover plate, the material pressing push plate is inserted and embedded in the front side of the press lining cover plate and is intersected with each other, the battery jar and the switch press button seat are buckled together and are collinear in the axis, the handle rod is embedded and embedded on the top of the battery jar and is perpendicular to each other, the switch press button seat is installed on the top of the vibration bearing seat, the fan brush polishing and wiping press plate is provided with a fan brush plate, a shaft buckle wheel disc, a grinding scraper truss, a spring pipe, a concave arc clamping plate, a double-wheel roller frame and a crossed track seat, the fan brush semi-circular plate and the shaft buckle wheel disc are nested together and are collinear, the shaft buckle wheel disc and the grinding scraper truss are buckled together, grind scraper blade truss and fan brush semicircle board and adopt interference fit, the spring pipe is detained the push plate mechanical connection with the concave arc and is in on same vertical face, fan brush semicircle board and concave arc are detained the push plate and are adopted clearance fit, the double round roller grillage is equipped with two and install respectively in the left and right sides of alternately track seat, alternately track seat nestification is in concave arc buckle plate's front side and be in on same vertical face, concave arc is detained the push plate and is tightly pasted under the bottom surface of pressing the lining apron and on being in same horizontal plane.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the grinding scraper truss consists of two tooth space needle tubes, a fan brush plate seat and a pressing buckle block, wherein the two tooth space needle tubes are respectively inserted and embedded at the left side and the right side of the fan brush plate seat, and the fan brush plate seat and the pressing buckle block are buckled together and are positioned on the same vertical surface.

As a further improvement of the invention, the gullet needle tube consists of a rubber ball cap, a gullet plate, a connecting rod needle body and a grid groove binding plate, wherein the rubber ball cap is nested at the left side of the gullet plate, and the gullet plate is mechanically connected with the grid groove binding plate through the connecting rod needle body and is positioned on the same horizontal line.

The fan brush plate seat is further improved by comprising rib rod fan plates, inclined rib plate plates, an I-shaped plate seat and a folding angle brace rod frame, wherein the rib rod fan plates and the inclined rib plate plates are nested into a whole and are positioned on the same vertical plane, the rib rod fan plates are inserted and embedded on the top of the I-shaped plate seat, and the folding angle brace rod frame is arranged inside the I-shaped plate seat.

As a further improvement of the invention, the double-wheel roller frame consists of a double-wheel roller groove, a batten block and a column frame block, wherein the double-wheel roller groove and the batten block are in interference fit and are positioned on the same vertical surface, and the batten block and the column frame block are buckled together.

As a further improvement of the invention, the double-wheel roller groove is composed of a toothed groove disc seat, a cavity wheel seat, a blade inner sliding frame and a hinged folded plate, wherein the toothed groove disc seat and the cavity wheel seat are in clearance fit and have collinear axes, the blade inner sliding frame is inserted and embedded in the cavity wheel seat and is positioned on the same vertical surface, and the cavity wheel seat is mechanically connected with the hinged folded plate and has collinear axes.

As a further improvement of the invention, the crossed rail seat consists of a sliding block hoisting wheel frame, a square frame rail groove, a plate groove seat and a crossed rail, wherein the sliding block hoisting wheel frame is mechanically connected with the square frame rail groove and is positioned on the same vertical surface, and the square frame rail groove and the crossed rail are inserted and embedded in the plate groove seat.

As a further improvement of the invention, the sliding block hanging wheel frame consists of a ball cap wheel groove, a diagonal draw bar, a sliding block groove and a stacked wheel spring plate seat, wherein the ball cap wheel groove is nested on the top of the diagonal draw bar, and the diagonal draw bar is mechanically connected with the sliding block groove through the stacked wheel spring plate seat and is positioned on the same vertical plane.

As a further improvement of the invention, the connecting rod needle body is a combined needle rod structure with a left narrow needle plate and a right wide long needle rod lock catch, so that the horizontal alignment traction is facilitated to form the effect of sectional sweeping and uniform mortar pressing.

As a further improvement of the invention, the rib rod fan plate is of a combined fan frame structure with an arc bent rod at the top and a vertical upright rod in the middle inserted, so that the integral fan pressing brush can conveniently form an annular processing effect of coating a propeller type block.

As a further improvement of the invention, the blade inner sliding frame is of a sliding frame structure that a curved blade plate is meshed with an inclined thin track rod to slide, so that an inner wheel cavity can conveniently form an interactive counterweight torsion force for dragging a sliding lining, and a wheel guide ring brush can be ensured to perform bubble extrusion operation on mortar smearing.

As a further improvement of the invention, the combined wheel carrier seat structure with the spring transverse plate at the bottom of the wheel stacking frame groove at the top of the wheel stacking spring plate seat facilitates the reciprocating elastic sliding displacement boosting operation of top occlusion sliding block axis bottom settlement adaptation.

Advantageous effects

The invention relates to a building mortar smearing device, wherein an operator holds a handle rod to press a switch button seat by hand to start a battery tank to conduct electricity, so as to shock a vibration bearing seat, press a lining cover plate to move a fan brush throwing pressing plate and a pressing pushing plate to slide and push to smear mortar on the surface of a building, then a shaft fastening wheel disc at the top of a half-round plate of the fan brush drives a tooth-groove needle tube of a grinding scraper truss and a fan brush plate seat to press and rotate along a pressing buckle block, a rubber ball cap wraps the pressing tooth-groove plate to help a connecting rod needle body to pull close a lattice groove beam plate to form stretching and extending brushing effects, meanwhile, a rib rod leaf plate is matched to drive a twill edge plate to press and cover the mortar surface, an integral circular rail sliding effect is formed by a I-shaped plate seat and a folding angle brace frame support, so that a spring tube is shaken on two-wheel roller plates at the top of a concave arc pressing plate and the spring plate and arranged on two sides of a cross rail seat, a tooth-groove disc seat hinge cavity wheel seat of a double-plate seat is pressed to, the small wheel body is formed to perform the effect of sweeping and brushing mortar tiles under the linear arrangement of the batten blocks and the column frame blocks, so that the smearing operability is enabled to obtain the ring surface and line drawing and pressing covering effect, and the rough machining linkage finish machining of the building mortar smearing device is promoted to perform one-step in-place mortar compacting operation.

The invention has the following advantages after operation:

the application fan brush is thrown and is smeared the clamp plate and is cooperateed with vibrations bearing frame, it forms gyration oscillation settlement operation to form at the top surface of fan brush semicircle board and concave arc buckle clamp plate through vibrations bearing frame, make fan brush semicircle board well hub cap rim plate and grinding scraper blade truss cooperation fan brush frame interactive brush form whole square frame face the first semicircle gradient of face calmly to paint the mortar effect, guarantee holistic press coverage degree interlude thickness card form the roughness operation of forming thick liquid compaction moulding, and thicken the fluid adhesion volume on building surface, get rid of unnecessary spacer bubble and form the interior rotation that the rack-type arm lifted and cover meticulous wiping effect of pressing the smooth brush, form a high density for the mortar preliminary treatment and receive the effort, make things convenient for the attached stability of later stage ceramic tile, avoid doing over again to handle.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a building mortar applying device according to the present invention.

FIG. 2 is a detailed overhead cross-sectional structure diagram of the fan brush polishing pressing plate, the grinding scraper truss, the double-wheel roller frame and the crossed rail seat of the invention.

FIG. 3 is a schematic top sectional view of the serrated needle cannula of the present invention in its working condition.

FIG. 4 is a schematic view of the bird's eye view cross section of the fan brush plate base of the present invention in its working state.

FIG. 5 is a schematic bottom sectional view of the double-wheel roll trough of the present invention in working condition.

FIG. 6 is a schematic bottom sectional view of the slider crane carriage according to the present invention.

Description of reference numerals: a fan brush polishing and wiping pressure plate-1, a pressure lining cover plate-2, a vibration bearing seat-3, a material pressing push plate-4, a battery groove-5, a switch pressure button seat-6, a handle rod-7, a fan brush semi-circular plate-1A, a shaft buckle wheel disc-1B, a grinding scraper truss-1C, a spring tube-1D, a concave arc buckle pressure plate-1E, a double-wheel roller plate frame-1F, a cross track seat-1G, a tooth space needle tube-1C 1, a fan brush plate seat-1C 2, a press buckle block-1C 3, a rubber ball cap-1C 11, a tooth space plate-1C 12, a connecting rod needle body-1C 13, a grid groove beam plate-1C 14, a rib rod fan plate-1C 21, a diagonal prismatic plate-1C 22, an I-plate seat-1C 23, a bevel bracing rod frame-1C 24, a double-wheel roller groove-1F 1, a vibration bearing seat-1C 8652, a vibration pressing push plate, The device comprises a bar plate block-1F 2, a column frame block-1F 3, a tooth pattern groove disc seat-1F 11, a cavity wheel seat-1F 12, a blade inner sliding frame-1F 13, an articulated folding plate-1F 14, a sliding block hanger-1G 1, a square rail groove-1G 2, a plate groove seat-1G 3, a cross rail-1G 4, a spherical cap wheel groove-1G 11, a diagonal draw bar-1G 12, a sliding block groove-1G 13 and a folding wheel spring plate seat-1G 14.

Detailed Description

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

The first embodiment is as follows:

referring to fig. 1 to 6, the present invention provides a building mortar applying apparatus, which includes: fan brush throwing and wiping press plate 1, press lining cover plate 2, vibration bearing pedestal 3, material pressing push plate 4, battery jar 5, switch press button seat 6, handle rod 7, fan brush throwing and wiping press plate 1 hugs closely under the bottom surface of press lining cover plate 2 and on same horizontal plane, vibration bearing pedestal 3 and press lining cover plate 2 mechanical connection, material pressing push plate 4 inserts and inlays in the front side of press lining cover plate 2 and intercrossing, battery jar 5 and switch press button seat 6 lock together and axle center collineation, handle rod 7 nests on battery jar 5's top and mutually perpendicular, switch press button seat 6 installs on vibration bearing pedestal 3's top, fan brush throwing and wiping press plate 1 is equipped with fan semicircle board 1A, axle buckle rim plate 1B, grinding scraper truss 1C, spring tube 1D, concave arc buckle plate 1E, double round roller grillage 1F, cross track seat 1G, fan brush semi-circle board 1A and axle buckle rim plate 1B nests and collineation, the shaft buckle wheel disc 1B is in the same place and on being in same vertical face with grinding scraper truss 1C lock, grind scraper truss 1C and fan brush semicircle board 1A and adopt interference fit, spring tube 1D and concave arc lock plate 1E mechanical connection and be in on same vertical face, fan brush semicircle board 1A and concave arc lock plate 1E adopt clearance fit, two rounds of roller grillage 1F are equipped with two and install respectively in the left and right sides of alternately track seat 1G, alternately track seat 1G nests in concave arc lock plate 1E's front side and is in on same vertical face, concave arc lock plate 1E hugs closely under the bottom surface of pressure lining apron 2 and on being in same horizontal plane.

Referring to fig. 2, the grinding scraper truss 1C is composed of two toothed groove needle tubes 1C1, a fan brush plate seat 1C2 and a press-fastening block 1C3, the toothed groove needle tubes 1C1 are respectively inserted into the left side and the right side of the fan brush plate seat 1C2, the fan brush plate seat 1C2 and the press-fastening block 1C3 are fastened together and are located on the same vertical plane, the two-wheel roller plate frame 1F is composed of a two-wheel roller groove 1F1, a strip plate block 1F2 and a column frame block 1F3, the two-wheel roller groove 1F1 and the strip plate block 1F2 are in interference fit and are located on the same vertical plane, the strip plate block 1F2 and the column frame block 1F3 are fastened together, and the two-wheel roller groove 1C1 and the two-wheel roller groove 1F1 are vertically staggered to form a small-distance press-coating effect, so that the rack is matched with continuous finish machining operation after large-scale rough machining and high-quality building coating mortar is obtained.

Referring to fig. 3, the gullet needle tube 1C1 is composed of a rubber ball cap 1C11, a gullet plate 1C12, a connecting rod needle 1C13, and a grid-shaped bundle plate 1C14, the rubber ball cap 1C11 is nested on the left side of the gullet plate 1C12, the gullet plate 1C12 is mechanically connected with the grid-shaped bundle plate 1C14 through the connecting rod needle 1C13 and is located on the same horizontal line, the connecting rod needle 1C13 is a combined needle rod structure with a narrow needle plate on the left side and a wide and long needle rod lock on the right side, so that transverse contraposition drawing is facilitated to form a segmented brushing and homogeneous mortar pressing effect, and the gullet plate 1C12 and the grid-shaped bundle plate 1C14 are pressed alternately to form gradient engagement propulsion, so that the telescopic joint plate forms a mortar covering sliding effect of stretching and compressing air.

Referring to fig. 4, the fan wiper seat 1C2 is composed of a rib bar fan plate 1C21, a twill plate 1C22, an i-shaped plate seat 1C23, and a knuckle brace rod frame 1C24, the rib bar fan plate 1C21 and the twill plate 1C22 are nested into a whole and are located on the same vertical plane, the rib bar fan plate 1C21 is inserted and embedded on the top of the i-shaped plate seat 1C23, the knuckle brace rod frame 1C24 is installed inside the i-shaped plate seat 1C23, the rib bar fan plate 1C21 is a combined fan frame structure with an arc bending bar at the top and a vertical upright bar inserted and connected in the middle, so that the integral fan wiper forms an annular processing effect of a propeller type square block coating, the settling wiper of the i-shaped plate seat 1C23 is inserted and connected through the rib bar fan plate 1C21 to form an arc rail polishing effect of a ring frame surface, and a sand-lining pneumatic-hydraulic sealing effect of slurry coating on the top is obtained.

Referring to fig. 5, the double-wheel roller groove 1F1 is composed of a toothed grooved disc seat 1F11, a cavity wheel seat 1F12, a blade inner carriage 1F13, and a hinged flap plate 1F14, the toothed grooved disc seat 1F11 and the cavity wheel seat 1F12 are in clearance fit and have collinear axes, the blade inner carriage 1F13 is inserted and embedded inside the cavity wheel seat 1F12 and is located on the same vertical plane, the cavity wheel seat 1F12 is mechanically connected with the hinged flap plate 1F14 and has collinear axes, the blade inner carriage 1F13 is a carriage structure in which a curved arc blade plate is engaged with an inclined thin rail rod to slide, so that an interactive counterweight torsion force of a dragging slide liner is formed in an inner wheel cavity, a wheel guide ring brush is guaranteed to perform bubble extrusion operation on mortar coating, and an outer-discharging air bubble sliding brush effect of mortar coated on a small wheel pressed disc surface is formed around the cavity wheel seat 1F12 through the hinged flap plate 1F 14.

The working process is as follows: a worker holds a handle rod 7 by hand to press a switch button seat 6 to start a battery tank 5 to conduct electricity, and drives a fan brush throwing pressing plate 1 and a pressing push plate 4 to slide to spread mortar on the surface of a building by pressing a vibration bearing seat 3 to vibrate and press a lining cover plate 2, then drives a tooth socket needle tube 1C1 of a grinding scraper truss 1C and a fan brush plate seat 1C2 to press and cover a transferring rubber ball cap 1C11 to wrap a pressing tooth socket plate 1C12 to push a connecting rod 1C13 to be close to a grid groove beam plate 1C14 to form stretching and stretching sweeping effects by pressing a shaft buckle block 1C3, and simultaneously drives a sloping ridge plate 1C22 to press and cover the mortar surface by matching with a rib fan plate 1C21 to form an integral circular rail sliding effect by cushion support of a needle body 3523 and a folding angle support rod frame 1C24, so that the spring pressing concave arc pressing plate 1D is pressed by a spring, and the double-arc wheel frame E1C 24 is crossed on the top of a roller frame seat to shake, the tooth pattern grooved disc seat 1F11 of the double-wheel roller groove 1F1 is enabled to jack the cavity roller seat 1F12 to revolve along the hinging folded plate 1F14 and simultaneously the inside of the cavity roller seat autonomously drives the blade inner sliding frame 1F13 to slide and press, a small wheel body is formed, the effect of sweeping and brushing mortar tiles is achieved under the linear arrangement of the strip plate block 1F2 and the column frame block 1F3, the smearing operability is enabled to obtain the ring surface and the linear pulling and pressing covering effect, and the rough machining linkage finish machining of the building mortar smearing device is improved, and the one-step pressing and compacting mortar operation is achieved.

Example two:

referring to fig. 1 to 6, the present invention provides a building mortar applying apparatus, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the cross rail seat 1G is composed of a slider crane carriage 1G1, a square rail groove 1G2, a plate groove seat 1G3, and a cross rail 1G4, the slider crane carriage 1G1 and the square rail groove 1G2 are mechanically connected and located on the same vertical plane, the square rail groove 1G2 and the cross rail 1G4 are inserted and embedded in the plate groove seat 1G3, and the left and right cross rail changing effect when the slider is lifted and lowered through the square rail groove 1G2 and the cross rail 1G4 can effectively cooperate with longitudinal pulling to form a transverse extending mortar collecting operation, thereby ensuring the motion effect of the coated cross sliding brush.

Referring to fig. 6, the slider crane carriage 1G1 is composed of a ball cap wheel slot 1G11, a diagonal draw bar 1G12, a slider slot 1G13, and a wheel-overlapping reed plate seat 1G14, the ball cap wheel groove 1G11 is nested on the top of the diagonal draw bar 1G12, the diagonal draw bar 1G12 is mechanically connected with the slider groove 1G13 through the wheel-overlapping reed plate seat 1G14 and is positioned on the same vertical plane, the 1G14 position of the wheel folding spring plate seat is a combined wheel frame seat structure with a spring transverse plate at the bottom of the wheel folding frame groove, so that the top occlusion slide block axis bottom is convenient for settlement adaptive reciprocating elastic sliding displacement boosting operation, through the elastic lifting of oblique pull rod 1G12 roof pressure folding wheel reed seat 1G14, form the effort of a depth slip pressure grillage, make things convenient for whole the zip fastener to form an airtight side pressure effect of covering a cover panel, make things convenient for the border of the whole mortar aspect of later stage to arrange the operation outward of calming anger, guarantee fluid and solid parcel's compactness and hardness.

After rough machining and coating are carried out on a large scale through early-stage slow pretreatment, fine-machining sand and gravel sedimentation liquid sealing operation is formed by matching with a connected fan plate, a needle plate and a small wheel, so that the sliding block hanger frame 1G1 of the cross rail seat 1G can transversely extend and slide along the inclined plane of the cross rail 1G4 in the square rail groove 1G2 and in front of the plate groove seat 1G 3. The ball cap wheel groove 1G11 is meshed with the diagonal draw bar 1G12 to drive the slide block groove 1G13 to push and press the wheel-overlapping spring plate seat 1G14 to bounce to form a cross-shaped moving frame protection smearing effect, so that the level compactness of a mortar covering surface of a building obtains a data accuracy improving effect of coordinate property.

The invention achieves the aim of applying the fan brush polishing pressing plate 1 to be matched with the vibration bearing seat 3 through the mutual combination of the components, forming the rotary oscillation sedimentation operation on the top surfaces of the fan brush semi-circular plate 1A and the concave arc buckling pressing plate 1E through the vibration bearing seat 3, leading the shaft buckling wheel disc 1B in the fan brush semi-circular plate 1A and the grinding scraper truss 1C to be matched with the fan brush frame to interactively brush to form the upper semi-circular gradient air pressure mortar smearing effect of the whole frame surface, ensuring the flatness operation of forming the mortar compaction molding by penetrating the thickness clamping plate with the integral press coverage degree, thickening the fluid adhesion amount on the surface of a building, eliminating redundant spacer bubbles to form the internal rotation covering fine scraping effect of the rack type arm lifting sliding brush, forming a high-density collecting acting force for the mortar pretreatment, facilitating the stability of the later-period tile adhesion, avoiding the rework treatment, and solving the sand stone surface roughness of the mortar and the mortar forming effect of the mortar forming by the cement slurry, and the mortar of building paints operating personnel and presses the fluid bubble in the in-process of smearing evenly, makes middle sand grain and fluid blast and cause the phenomenon in lifting clearance, lets the building finishing face of later stage paint the quality and pull open the crack movable slot, leads to the ceramic tile of mortar to cover the extrusion slidability to disturb holistic surging and lifting pressure and fluid viscidity, let the ceramic tile degree of undulation big, later stage adjustment need turn over and scrape the problem that the mortar panel paints again and expends labour and cost raw materials.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (8)

1. A building mortar daubs device, its structure includes: fan brush is thrown and is smeared clamp plate (1), is pressed bushing apron (2), vibrations bearing frame (3), presses material push pedal (4), battery jar (5), switch button seat (6), handle-holding rod (7), its characterized in that:

the fan brush throwing pressing plate (1) is tightly attached to the bottom surface of the pressure lining cover plate (2), the vibration bearing seat (3) is mechanically connected with the pressure lining cover plate (2), the pressing push plate (4) is inserted into the front side of the pressure lining cover plate (2), the battery jar (5) is buckled with the switch pressing button seat (6), the handle rod (7) is nested on the top of the battery jar (5), and the switch pressing button seat (6) is installed on the top of the vibration bearing seat (3);

the fan brush polishing and wiping pressing plate (1) is provided with a fan brush semi-circular plate (1A), a shaft buckle wheel disc (1B), a grinding scraper truss (1C), a spring tube (1D), a concave arc buckle pressing plate (1E), a double-wheel roller frame (1F) and a cross track seat (1G);

fan brush semicircle board (1A) and hub shaft lock rim plate (1B) are nested as an organic whole, hub shaft lock rim plate (1B) with grind scraper blade truss (1C) lock together, it cooperatees with fan brush semicircle board (1A) to grind scraper blade truss (1C), spring pipe (1D) and concave arc lock plate (1E) mechanical connection, fan brush semicircle board (1A) and concave arc lock plate (1E) cooperate, double round roller (1F) are equipped with two and install respectively in the left and right sides of alternately track seat (1G), alternately track seat (1G) nestification is in the front side of concave arc lock plate (1E), concave arc lock plate (1E) hug closely under the bottom surface of pressure lining apron (2).

2. A building mortar application device according to claim 1, characterized in that: grind scraper blade truss (1C) and detain piece (1C3) by tooth's socket needle tubing (1C1), fan brush board seat (1C2), pressure and constitute, tooth's socket needle tubing (1C1) are equipped with two and insert respectively and inlay the left and right sides in fan brush board seat (1C2), fan brush board seat (1C2) detain with pressure and detain piece (1C3) and be in the same place.

3. A building mortar application device according to claim 2, characterized in that: tooth's socket needle tubing (1C1) comprises rubber ball cap (1C11), tooth groove board (1C12), connecting rod needle body (1C13), check groove beam board (1C14), rubber ball cap (1C11) nests in the left side of tooth groove board (1C12), tooth groove board (1C12) is through connecting rod needle body (1C13) and check groove beam board (1C14) mechanical connection.

4. A building mortar application device according to claim 2, characterized in that: fan brush board seat (1C2) comprises muscle pole fan board (1C21), twill arris piece board (1C22), I-shaped board seat (1C23), book angle vaulting pole frame (1C24), muscle pole fan board (1C21) and twill arris piece board (1C22) are nested integratively, inlay on the top of I-shaped board seat (1C23) is inserted in muscle pole fan board (1C21), book angle vaulting pole frame (1C24) is installed in the inside of I-shaped board seat (1C 23).

5. A building mortar application device according to claim 1, characterized in that: two-wheel roll grillage (1F) comprises two-wheel roller groove (1F1), strip plate piece (1F2), post piece (1F3), two-wheel roller groove (1F1) cooperatees with strip plate piece (1F2), strip plate piece (1F2) and post piece (1F3) lock together.

6. A building mortar application device according to claim 5, characterized in that: double round roller groove (1F1) comprises tooth line fluted disc seat (1F11), cavity wheel seat (1F12), balladeur train (1F13), articulation folded plate (1F14) in the paddle, tooth line fluted disc seat (1F11) cooperatees with cavity wheel seat (1F12), balladeur train (1F13) inserts the inside at cavity wheel seat (1F12) in the paddle, cavity wheel seat (1F12) and articulation folded plate (1F14) mechanical connection.

7. A building mortar application device according to claim 1, characterized in that: the crossing track seat (1G) is composed of a sliding block hoisting wheel frame (1G1), a square rail groove (1G2), a plate groove seat (1G3) and a crossing track (1G4), the sliding block hoisting wheel frame (1G1) is mechanically connected with the square rail groove (1G2), and the square rail groove (1G2) and the crossing track (1G4) are inserted and embedded in the plate groove seat (1G 3).

8. A building mortar application device according to claim 7, characterized in that: slider crane carrier (1G1) comprises ball cap wheel groove (1G11), oblique pull rod (1G12), slider groove (1G13), pile wheel spring plate seat (1G14), ball cap wheel groove (1G11) nestification is on oblique pull rod's (1G12) top, oblique pull rod (1G12) is through piling wheel spring plate seat (1G14) and slider groove (1G13) mechanical connection.

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