CN114541695B

CN114541695B - Ceramic tile back cement of building decoration usefulness is paintd equipment

Info

Publication number: CN114541695B
Application number: CN202111584687.4A
Authority: CN
Inventors: 林德和
Original assignee: Guangzhou Origin Construction Engineering Co ltd
Current assignee: Guangzhou Origin Construction Engineering Co ltd
Priority date: 2021-12-23
Filing date: 2021-12-23
Publication date: 2023-11-28
Anticipated expiration: 2041-12-23
Also published as: CN114541695A

Abstract

The invention relates to a coating device, in particular to a cement coating device for the back of a ceramic tile for building decoration. The tile back cement coating equipment mainly provides a tile back cement coating equipment which can be used for one-time filling of sufficient cement slurry, improving coating efficiency, recycling superfluous cement and saving cost. The utility model provides a tile back cement of building decoration usefulness scribbles equipment, includes: the cement placing device comprises a mounting frame, cement placing barrels, cement outflow pipelines, cement stirring mechanisms and ceramic tile placing mechanisms, wherein the mounting frame is symmetrically arranged, the cement placing barrels are connected between the tops of the mounting frame, the cement placing barrels are arranged at the bottoms of the cement placing barrels, the cement stirring mechanisms are arranged on the cement placing barrels, and the ceramic tile placing mechanisms are connected between the lower portions of the mounting frame. Through setting up cement rabbling mechanism and ceramic tile placement machine, carry out automatic feeding when driving the ceramic tile and remove to the left, realize basic function, stirring leaf rotates and can prevent that cement from piling up and solidifying for a long time.

Description

Ceramic tile back cement of building decoration usefulness is paintd equipment

Technical Field

The invention relates to a coating device, in particular to a cement coating device for the back of a ceramic tile for building decoration.

Background

The tile sticking is an important work in the building industry, no matter what the wall bricks and the floor tiles are, cement mortar is required to be adhered, cement mortar is required to be smeared on the back of the tile in order to enable the tile to be clung to the ground, then the tile is paved on the ground and is knocked into solid by a hammer and flattened, at present, the cement mortar is smeared on the back of the tile manually, the tile is held by one hand during manual cement mortar smearing, then the cement mortar is shoveled on the back of the tile by the other hand, the cement mortar which can be shoveled by the tile knife at one time is less, so that the cement mortar needs to be smeared on the back of the tile completely for many times, time and labor are wasted, the cement mortar smearing efficiency is low, the tile paving efficiency is reduced, and the redundant cement mortar cannot be recovered, so that raw materials are wasted.

Therefore, the cement smearing equipment for the back of the ceramic tile for building decoration needs to be designed, which can be used for one-time enough cement slurry pouring, so that the smearing efficiency is improved, and meanwhile, the superfluous cement is recovered, so that the cost is saved.

Disclosure of Invention

In order to overcome manual operation and wipe the brush cement paste, it is laborious to take time, inefficiency, and unnecessary cement paste can't retrieve, extravagant shortcoming of raw materials, technical problem: the tile back cement coating equipment for the building decoration has the advantages that the cement paste is fully poured in at one time, the coating efficiency is improved, the surplus cement is recovered, and the cost is saved.

The technical scheme of the invention is as follows: the utility model provides a ceramic tile back cement of building decoration usefulness paints equipment, is including mounting bracket, cement place bucket, cement outflow pipeline, cement rabbling mechanism and ceramic tile and places the mechanism, and the mounting bracket is the symmetry setting, is connected with cement between the mounting bracket top and places the bucket, and cement is placed the bucket bottom and is equipped with cement outflow pipeline, is equipped with cement rabbling mechanism on placing the bucket, is connected with the ceramic tile between the mounting bracket lower part and places the mechanism.

Preferably, the cement stirring mechanism comprises a mounting seat, a servo motor, a rotating shaft and stirring blades, wherein the mounting seat is arranged at the top of one side of the mounting frame, the servo motor is arranged on the mounting seat, the rotating shaft is connected to an output shaft of the servo motor, the stirring blades are arranged on the rotating shaft, and the stirring blades are positioned in the cement placing barrel.

Preferably, the ceramic tile placing mechanism comprises connecting rods, limiting plates, guide groove plates and discharging plates, wherein the connecting rods are arranged on the inner sides of the lower portions of the mounting frames, the guide groove plates are connected between the connecting rods, the limiting plates are arranged on the tops of the guide groove plates, and the discharging plates are arranged on one sides of the guide groove plates.

Preferably, the automatic feeding mechanism comprises a mounting bracket, a ceramic tile placing frame, a belt pulley assembly, a pushing block, a transmission gear, a rack and a first reset spring, wherein the mounting bracket is symmetrically arranged on one side of the bottom of the guide groove plate, the transmission gear is rotatably arranged between the mounting brackets, the belt pulley assembly is connected between the rotating shaft of the transmission gear and the rotating shaft, the ceramic tile placing frame is arranged on one side of the top of the guide groove plate, the pushing block is arranged on one side of the ceramic tile placing frame in a sliding mode, the rack is arranged at the bottom of the pushing block and matched with the transmission gear, and the first reset spring is connected between the rack and the inner wall of the guide groove plate.

Preferably, the device further comprises a redundant cement scraping mechanism, wherein the redundant cement scraping mechanism comprises a guide rod, a limiting spring, a first wedge block, a second wedge block, a scraping plate, a movable groove plate and a second reset spring, one side of the pushing block is connected with the guide rod, the guide rod is connected with the limiting plate in a sliding mode, the inner wall of the guide rod is provided with the limiting spring, the outer side of the limiting spring is provided with the first wedge block, two sides of the limiting plate are provided with the movable groove plate, the inner side of the movable groove plate is provided with the second wedge block in a sliding mode, the top of the second wedge block is provided with the scraping plate, and the second reset spring is connected between the second wedge block and the movable groove plate.

Preferably, the device further comprises a residual cement collecting mechanism, wherein the residual cement collecting mechanism comprises a connecting column, an extrusion ball, a contact ball, a push block, isolation columns and a collecting cylinder, the connecting column is arranged on the outer side of the second wedge-shaped block, the extrusion ball is arranged at the bottom of the connecting column, the collecting cylinder is symmetrically arranged at the bottom of the guide groove plate, a plurality of isolation columns are embedded in the two sides of the guide groove plate, the push block is symmetrically and slidably arranged at the top of the guide groove plate, the contact ball is arranged on the outer side of the push block, and an elastic piece is connected between the bottom of the contact ball and the guide groove plate.

Preferably, the feeding anti-tilting mechanism comprises a bearing support, tapered groove plates and feeding pipelines, wherein the bearing support is arranged on two sides of the upper portion of the cement placing barrel, the tapered groove plates are connected between the tops of the bearing supports, and the feeding pipelines are connected between the bottoms of the tapered groove plates and the cement placing barrel.

Preferably, the isolation column is made of iron.

The beneficial effects of the invention are as follows: by arranging the cement stirring mechanism and the ceramic tile placing mechanism, the ceramic tile is driven to automatically feed when moving leftwards, so that the basic function is realized, and the cement can be prevented from being accumulated and solidified for a long time by rotating the stirring blades; by arranging the automatic feeding mechanism, the ceramic tile is driven to automatically feed without manual pushing; the extra cement on the ceramic tile is scraped by arranging the extra cement scraping mechanism and the residual cement collecting mechanism, and then the scraped cement is recovered, so that the cost is saved; through setting up the feeding and preventing inclining and spilling the mechanism, enlarge the feeding area of cement, prevent that cement from spilling, practice thrift the cost.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a cement stirring mechanism and a tile placing mechanism according to the present invention.

Fig. 3 is a schematic perspective view of an automatic feeding mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the mechanism for scraping excess cement according to the present invention.

Fig. 5 is a schematic cross-sectional view of the automatic feeding mechanism of the present invention.

Fig. 6 is a schematic cross-sectional view of the mechanism for scraping excess cement of the present invention.

FIG. 7 is a schematic cross-sectional view of the residual cement collecting mechanism of the present invention.

Fig. 8 is a schematic perspective view of a feed anti-tipping mechanism according to the present invention.

Fig. 9 is an enlarged schematic view of the portion a of the present invention.

Fig. 10 is an enlarged schematic view of the part B of the present invention.

Reference numerals illustrate: 1_mount, 2_cement placement bucket, 3_cement outflow pipe, 4_cement stirring mechanism, 41_mount, 42_servomotor, 43_spindle, 44_stirring blade, 5_tile placement mechanism, 51_connecting rod, 52_limit plate, 53_guide channel plate, 54_discharge plate, 6_automatic feed mechanism, 61_mount bracket, 62_tile placement frame, 63_pulley assembly, 64_push block, 65_drive gear, 66_rack, 67_first return spring, 7_excess cement scraping mechanism, 71_guide rod, 72_limit spring, 73_first wedge, 74_second wedge, 75_scraper, 76_movable channel plate, 77_second return spring, 8_excess cement collection mechanism, 81_connecting post, 82_squeeze ball, 83_contact ball, 84_push block, 85_isolation post, 86_collection barrel, 9_feed anti-tilt mechanism, 91_support, 92_conical channel plate, 93_feed pipe.

Detailed Description

The invention is further described below with reference to the drawings and the detailed description.

Example 1

The utility model provides a ceramic tile back cement of building decoration usefulness is paintd equipment, as shown in fig. 1, fig. 2 and fig. 6, including mounting bracket 1, cement place bucket 2, cement outflow pipeline 3, cement rabbling mechanism 4 and ceramic tile and place mechanism 5, mounting bracket 1 is the front and back symmetry setting, is connected with cement between mounting bracket 1 top and places bucket 2, and cement is placed bucket 2 bottom and is equipped with cement outflow pipeline 3, is equipped with cement rabbling mechanism 4 on placing bucket 2, is connected with ceramic tile between mounting bracket 1 lower part and places mechanism 5.

The cement stirring mechanism 4 comprises a mounting seat 41, a servo motor 42, a rotating shaft 43 and stirring blades 44, wherein the mounting seat 41 is arranged at the top of the front mounting frame 1, the servo motor 42 is arranged on the mounting seat 41, the rotating shaft 43 is connected to an output shaft of the servo motor 42, the stirring blades 44 are arranged on the rotating shaft 43, and the stirring blades 44 are positioned in the cement placing barrel 2.

The ceramic tile placing mechanism 5 comprises connecting rods 51, limiting plates 52, guide groove plates 53 and discharging plates 54, wherein the connecting rods 51 are arranged on the inner side of the lower portion of the mounting frame 1, the guide groove plates 53 are connected between the connecting rods 51, the limiting plates 52 are arranged on the front portion and the rear portion of the top of each guide groove plate 53, and the discharging plates 54 are arranged on the left side of each guide groove plate 53.

The staff can push the ceramic tile into between limiting plate 52, pour cement into cement and place in the bucket 2, start servo motor 42, servo motor 42's output shaft rotates and drives stirring leaf 44 through pivot 43 and rotate and stir cement, cement drops to the ceramic tile top through cement outflow pipeline 3 downwards and accomplish the material loading, push new ceramic tile simultaneously and remove the ceramic tile that finishes with the material loading left push, the ceramic tile that finishes with the material loading left removal through the slip of flitch 54, the staff takes away the ceramic tile and uses, all paint the completion, stop servo motor 42 function.

Example 2

On the basis of embodiment 1, as shown in fig. 3 to 10, the automatic feeding mechanism 6 is further comprised of an automatic feeding mechanism 6, the automatic feeding mechanism 6 comprises a mounting bracket 61, a tile placing frame 62, a belt pulley assembly 63, a pushing block 64, a transmission gear 65, a rack 66 and a first reset spring 67, the mounting bracket 61 is symmetrically arranged on the right side of the bottom of the guide groove plate 53 in a front-back manner, the transmission gear 65 is rotatably arranged between the mounting brackets 61, the belt pulley assembly 63 is connected between the rotating shaft of the transmission gear 65 and the rear side of the rotating shaft 43, the tile placing frame 62 is arranged on the right side of the top of the guide groove plate 53, the pushing block 64 is slidably arranged on the right side of the tile placing frame 62, the rack 66 is matched with the transmission gear 65, and the first reset spring 67 is connected between the right side of the rack 66 and the inner wall of the guide groove plate 53.

The novel cement scraping device is characterized by further comprising a surplus cement scraping mechanism 7, wherein the surplus cement scraping mechanism 7 comprises a guide rod 71, a limiting spring 72, a first wedge block 73, a second wedge block 74, a scraping plate 75, a movable groove plate 76 and a second return spring 77, the right side of the pushing block 64 is connected with the guide rod 71, the left side of the guide rod 71 is connected with the limiting plate 52 in a sliding mode, the inner wall of the left part of the guide rod 71 is provided with the limiting spring 72, the outer side of the limiting spring 72 is provided with the first wedge block 73, the front side and the rear side of the left part of the limiting plate 52 are provided with the movable groove plate 76, the inner side of the movable groove plate 76 is provided with the second wedge block 74 in a sliding mode, the top of the second wedge block 74 is provided with the scraping plate 75, and the second return spring 77 is connected between the right side of the second wedge block 74 and the movable groove plate 76.

A worker can place a certain number of tiles in the tile placing frame 62, the rotating shaft 43 rotates to drive the transmission gear 65 to rotate to be in contact with the rack 66 through the belt pulley assembly 63, the rack 66 moves leftwards to drive the bottommost tile to move leftwards through the pushing block 64 to finish feeding, the first reset spring 67 is stretched, when the rack 66 moves leftwards to be out of contact with the transmission gear 65, the first reset spring 67 resets, the rack 66 is driven to move rightwards quickly through the pushing block 64 to reset, and the rest tiles automatically move downwards; the pushing block 64 moves leftwards and drives the first wedge block 73 to move leftwards through the guide rod 71, when the first wedge block 73 moves leftwards to be in contact with the second wedge block 74, the first wedge block 73 moves backwards to drive the limiting spring 72 to be compressed, the first wedge block 73 continues to move leftwards and is not in contact with the second wedge block 74 any more, the limiting spring 72 resets to drive the first wedge block 73 to move forwards, so that when the pushing block 64 moves rightwards, the first wedge block 73 can be driven to move rightwards to clamp the second wedge block 74, the first wedge block 73 continues to move rightwards and drives the scraping plate 75 to move rightwards to scrape excessive cement above the ceramic tile through the second wedge block 74, the first reset spring 67 is compressed, when the first wedge block 73 moves leftwards again, the second wedge block 74 is not stressed, and the first reset spring 67 resets to drive the second wedge block 74 to move leftwards.

Example 3

On the basis of embodiment 2, as shown in fig. 7 to 10, the device further comprises a residual cement collecting mechanism 8, wherein the residual cement collecting mechanism 8 comprises a connecting column 81, a squeeze ball 82, a contact ball 83, a push block 84, a separation column 85 and a collecting cylinder 86, the connecting column 81 is arranged on the outer side of the second wedge-shaped block 74, the squeeze ball 82 is arranged at the bottom of the connecting column 81, the collecting cylinder 86 is symmetrically arranged at the front and back of the bottom of the guide groove plate 53, a plurality of separation columns 85 are embedded in the front and back of the guide groove plate 53, the separation columns 85 are located above the collecting cylinder 86, the push block 84 is symmetrically arranged at the front and back of the top of the guide groove plate 53, the contact ball 83 is arranged on the outer side of the push block 84, and an elastic piece is connected between the bottom of the contact ball 83 and the guide groove plate 53.

Still including feeding anti-tipping mechanism 9, feeding anti-tipping mechanism 9 is including bearing bracket 91, taper groove plate 92 and feeding pipeline 93, and both sides all are equipped with bearing bracket 91 around barrel 2 upper portion are placed to cement, are connected with taper groove plate 92 between the bearing bracket 91 top, are connected with feeding pipeline 93 between taper groove plate 92 bottom and the cement placement barrel 2.

The scraped cement moves downwards and falls into the collecting cylinder 86 through the isolating column 85, the second wedge block 74 moves left and right in a reciprocating manner and drives the extrusion ball 82 to move continuously to contact with the contact ball 83 through the connecting column 81, when the extrusion ball 82 contacts with the contact ball 83, the contact ball 83 moves inwards to drive the push block 84 to move inwards to push the cement attached to the isolating column 85 into the collecting cylinder 86, the elastic piece is compressed, and when the extrusion ball 82 does not contact with the contact ball 83, the elastic piece resets and drives the push block 84 to move outwards through the contact ball 83; cement can flow into the cement placing barrel 2 from the feeding pipeline 93 through the conical groove plate 92, so that the feeding area of the cement is enlarged, the cement is prevented from being spilled, and the cost is saved.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. All equivalents and alternatives falling within the spirit of the invention are intended to be included within the scope of the invention. What is not elaborated on the invention belongs to the prior art which is known to the person skilled in the art.

Claims

1. Ceramic tile back cement of building decoration usefulness scribbles equipment, its characterized in that includes: the cement mixing device comprises a mounting frame (1), cement placing barrels (2), cement outflow pipelines (3), cement stirring mechanisms (4) and ceramic tile placing mechanisms (5), wherein the mounting frame (1) is symmetrically arranged, the cement placing barrels (2) are connected between the tops of the mounting frame (1), the cement outflow pipelines (3) are arranged at the bottoms of the cement placing barrels (2), the cement stirring mechanisms (4) are arranged on the cement placing barrels (2), and the ceramic tile placing mechanisms (5) are connected between the lower parts of the mounting frame (1); the cement stirring mechanism (4) comprises: the cement mixer comprises a mounting seat (41), a servo motor (42), a rotating shaft (43) and stirring blades (44), wherein the mounting seat (41) is arranged at the top of one side of a mounting frame (1), the servo motor (42) is arranged on the mounting seat (41), the rotating shaft (43) is connected to an output shaft of the servo motor (42), the stirring blades (44) are arranged on the rotating shaft (43), and the stirring blades (44) are positioned in a cement placing barrel (2); the ceramic tile placing mechanism (5) comprises: connecting rods (51), limiting plates (52), guide groove plates (53) and discharge plates (54), wherein the connecting rods (51) are arranged on the inner side of the lower portion of the mounting frame (1), the guide groove plates (53) are connected between the connecting rods (51), the limiting plates (52) are arranged on the tops of the guide groove plates (53), and the discharge plates (54) are arranged on one side of the guide groove plates (53); the automatic feeding mechanism (6) is further included, and the automatic feeding mechanism (6) comprises: the ceramic tile pushing device comprises a mounting bracket (61), a ceramic tile placing frame (62), a belt pulley assembly (63), a pushing block (64), a transmission gear (65), racks (66) and a first reset spring (67), wherein the mounting bracket (61) is symmetrically arranged on one side of the bottom of a guide groove plate (53), the transmission gear (65) is rotatably arranged between the mounting brackets (61), the belt pulley assembly (63) is connected between a rotating shaft of the transmission gear (65) and the rotating shaft (43), the ceramic tile placing frame (62) is arranged on one side of the top of the guide groove plate (53), the pushing block (64) is slidably arranged on one side of the ceramic tile placing frame (62), the racks (66) are arranged at the bottom of the pushing block (64), the racks (66) are matched with the transmission gear (65), and the first reset spring (67) is connected between the racks (66) and the inner wall of the guide groove plate (53); the device also comprises an excess cement scraping mechanism (7), and the excess cement scraping mechanism (7) comprises: guide bar (71), spacing spring (72), first wedge (73), second wedge (74), scraper blade (75), movable frid (76) and second reset spring (77), push away material piece (64) one side and be connected with guide bar (71), guide bar (71) all are connected with limiting plate (52) in a sliding mode, guide bar (71) inner wall all is equipped with spacing spring (72), limiting spring (72) outside is equipped with first wedge (73), limiting plate (52) both sides all are equipped with movable frid (76), movable frid (76) inboard slip is equipped with second wedge (74), second wedge (74) top is equipped with scraper blade (75), be connected with second reset spring (77) between second wedge (74) and the movable frid (76).

2. A tile back cement painting apparatus for use in building finishing as claimed in claim 1, further comprising a residual cement collecting mechanism (8), the residual cement collecting mechanism (8) comprising: spliced pole (81), extrusion ball (82), contact ball (83), ejector pad (84), spacer column (85) and collection cylinder (86), the second wedge (74) outside all is equipped with spliced pole (81), spliced pole (81) bottom is equipped with extrusion ball (82), guide frid (53) bottom symmetry is equipped with collection cylinder (86), guide frid (53) both sides all imbeds are equipped with a plurality of spacer columns (85), guide frid (53) top symmetry slidingtype is equipped with ejector pad (84), ejector pad (84) outside is equipped with contact ball (83), be connected with the elastic component between contact ball (83) bottom and guide frid (53).

3. A tile back cement painting apparatus for building decoration as claimed in claim 2, further comprising a feeding anti-tipping mechanism (9), wherein the feeding anti-tipping mechanism (9) comprises: bearing support (91), taper groove plate (92) and feeding pipeline (93), cement are placed bucket (2) upper portion both sides and are all equipped with bearing support (91), are connected with taper groove plate (92) between bearing support (91) top, are connected with feeding pipeline (93) between taper groove plate (92) bottom and cement placement bucket (2).

4. A tile back cement painting apparatus for building finishing as claimed in claim 3, wherein: the isolation column (85) is made of iron.