CN112554506A - Adjustable building decoration equipment for ceramic tile mounting - Google Patents

Abstract

The invention provides building decoration equipment for mounting adjustable ceramic tiles, which comprises a square box, a material stirring roller, an inner support frame, a driving shaft, an inner linkage shaft, a driven shaft and a wall tile clamping frame, wherein the material stirring roller is arranged on the square box; the utility model discloses a wall brick clamping frame, including square case, cross slab, material stirring roller, bracing frame, outer strut, driven shaft, wall brick clamping frame, feed bin and lower operation bin, the feed bin is gone up and the operation bin is down separated into through middle cross slab in the middle of the inside of square case, and the bottom one end of middle cross slab still is connected with scrapes the tooth, the material stirring roller rotates through dialling the material axle and installs on the bracing frame plate inside the material mouth, and the front end of outer strut clamps under in the operation bin, the driven shaft rotates and installs in operation bin under and establish under the material mouth, wall brick clamping frame passes through T type inserted. When the rack at wall brick card frame bottom meshing with driven gear, it is rotatory to drive to dial the material axle, makes the cement of going up in the feed bin fall on the wall brick through the material mouth to when the rack at wall brick card frame rear end breaks away from with driven gear, dial the material axle and can stall, utilize to scrape the tooth and scrape into wavy structure with the cement surface on the wall brick.

Description

Adjustable building decoration equipment for ceramic tile mounting

Technical Field

The invention belongs to the technical field of building decoration, and particularly relates to building decoration equipment for mounting adjustable ceramic tiles.

Background

When fitment, all need to decorate the house at wall and subaerial tiling, the workman generally can paint suitable amount lime in the one side of ceramic tile smoothiness before tiling, and the workman paints the purpose of lime in the one side of ceramic tile smoothiness in order to closely paste the ceramic tile to wall and subaerial, needs handheld board of plastering to plaster cement on the ceramic tile, and is more troublesome and troublesome.

If the application number is: CN201510768552.1 discloses a device for conveniently applying cement on ceramic tiles, which mainly comprises a first roller, a second roller, a belt and a transportation motor; a bearing box is bound and installed on the belt, and placing steps are arranged on the periphery of the inner side of the upper end of the bearing box; be equipped with main work box directly over the belt left part, driving motor is installed at main work box upper end center, and driving motor is connected with the L drive plate, and L drive plate lower extreme has the circular shape guide rail with L drive plate slidable mounting, and the L drive plate has the telescopic link at the one end sliding connection who is close to main work box center, and the telescopic link is connected with the spray gun, and main work box lower extreme is equipped with and places the mouth type groove of step shape looks adaptation, and spray gun sliding mounting is inside mouthful type groove. On the basis of belt transmission transportation, the sliding track of the spray gun is limited in a relative sliding mode, so that cement is uniformly sprayed on the placing step, and the effect of conveniently and quickly coating cement on the periphery of the ceramic tile is achieved. In addition, the invention also has certain functions of saving and protecting environment.

Based on the above, when paining cement to the ceramic tile, when propelling movement wall brick, the smooth surface of wall brick receives the fish tail easily, when the ceramic tile breaks away from the material mouth, cement still can follow the discharge of material mouth outflow, causes the secondary waste of cement easily, and overall structure is more complicated moreover, and the integral movement and the installation of being not convenient for are used.

Disclosure of Invention

In order to solve the technical problems, the invention provides building decoration equipment for mounting an adjustable ceramic tile, which aims to solve the problems that the smooth surface of a wall brick is easily scratched, cement flows out of a material outlet when the ceramic tile is separated from the material outlet, secondary waste of the cement is easily caused, and the overall structure is complex.

The invention can adjust the purpose and the effect of building decoration equipment for mounting ceramic tiles, and is achieved by the following specific technical means:

an adjustable building decoration device for ceramic tile mounting comprises a square box, a material stirring roller, an inner support frame, a driving shaft, an inner linkage shaft, a driven shaft and a wall tile clamping frame; the inner middle of the square box is divided into an upper bin and a lower operating bin by a middle transverse clapboard, a material port is arranged in the middle of the middle transverse clapboard, one end of the bottom of the middle transverse clapboard is also connected with scraping teeth, inclined plates which incline downwards are respectively arranged at two ends of the inner side of the upper bin, two ends of the upper side of each inclined plate are respectively connected with a vertical baffle, a material stirring roller is rotatably arranged in the material port by a material stirring shaft, the material stirring shaft axially and outwards passes through the vertical baffles and is connected with a driven shaft by a chain, the inner support frame is provided with two groups of inverted T-shaped structures which are connected on the inner wall of the lower operating bin in an alignment way, an upper slot A is arranged at the upper end of the inner support frame, two groups of inclined support frame plates are respectively connected at two sides of the outer end of the lower operating bin, the outer support frame is arranged on the inclined support frame plates, the front end of the outer support frame is clamped in, and the driven shaft is provided with a driven gear, the driving shaft and the inner linkage shaft are also respectively and rotatably arranged in the lower operation cabin and are respectively arranged at two ends of the driven shaft, the driving shaft and the inner linkage shaft are connected through chain transmission, the driving shaft is provided with a driving gear, the inner linkage shaft is provided with an inner linkage gear, two ends of the lower operation cabin are also respectively and rotatably provided with an outer linkage shaft, the outer linkage shafts are respectively provided with an outer linkage gear, one group of outer linkage shafts are connected with the driving shaft through chain transmission, the other group of outer linkage shafts are also connected with the inner linkage shaft through chain transmission, the outer end of the driving shaft penetrates through a square box and is connected with an operation hand wheel, two ends of the wall brick clamping frame are respectively in a U-shaped structure and are respectively connected with a T-shaped inserting block, the wall brick clamping frame is slidably arranged on the outer support frame and the inner support frame through the T-shaped inserting block, and a longitudinal rod at the, the length of the rack is the same as the internal width of the wall brick clamping frame, and four ends of the bottom of the square box are respectively connected with a movable wheel.

Furthermore, the bottom of scraping the tooth is the wavy structure, and scrape and be equipped with 2 cm's interval between the bottom of tooth and the inboard bottom face of wall brick card frame both ends U type structure.

Furthermore, a gap is arranged between the inclined plates, and the gap is consistent with the material port in size and is opposite to the material port up and down.

Furthermore, be equipped with ten groups of plectrums on the periphery of plectrum roller, and the outer end of plectrum is circular-arc structure and pastes on the inner wall of material mouthful.

Furthermore, the outer support frame is also of an inverted T-shaped structure, an upper slot B is formed in the top end of the outer support frame, the upper slot B is of the same structure as the upper slot A, and the T-shaped insertion block can be inserted into and clamped in the upper slot B and the upper slot A.

Furthermore, the outer side of the front end of the outer support frame is respectively connected with a side T-shaped outer baffle, when the front end of the outer support frame is clamped in the lower operation bin, a transverse plate on the side T-shaped outer baffle is inserted into the socket, the front end of the outer support frame is respectively opposite to two ends of the inner support frame, and the upper slot B is opposite to the upper slot A.

Furthermore, a rubber guard plate A is embedded at one end of the inner side of the inner support frame, a rubber guard plate B is embedded at one end of the inner side of the outer support frame, and the rubber guard plate A is also flush with the rubber guard plate B when the outer support frame is opposite to the inner support frame.

Furthermore, the distance between the driving shaft and the inner linkage shaft, the distance between the driving shaft and the adjacent group of outer linkage shafts, and the distance between the inner linkage shaft and the adjacent group of outer linkage shafts are all smaller than the length of the rack, and the driving gear on the driving shaft, the inner linkage gear on the inner linkage shaft, the outer linkage gear on the outer linkage shaft, and the driven gear on the driven shaft are all arranged on the same longitudinal line and can be meshed with the rack.

Furthermore, when the outer end of the wall brick clamping frame is installed on the outer support frame and the outer end of the wall brick clamping frame and the outer support frame are leveled, the rack is meshed with the outer linkage gear.

The invention at least comprises the following beneficial effects:

1. the outer support frames and the inner support frames are arranged, so that the outer support frames are conveniently clamped in the lower operation bin through the T-shaped outer baffle plates and are arranged on the inclined support frame plates, and the wall brick clamping frames can be inserted in the two groups of outer support frames in a sliding mode through the T-shaped inserting blocks at the two ends of the wall brick clamping frames and can slide along the outer support frames and the inner support frames.

2. According to the invention, the wall brick clamping frame is arranged, so that the wall brick can be conveniently clamped into the wall brick clamping frame, the wall brick clamping frame is driven to move forwards through the transmission connection among the driving shaft, the inner linkage shaft and the outer linkage shaft and the meshing of the outer linkage gear and the rack through the rotating hand wheel, the driven shaft and the stirring shaft are driven to rotate when the rack at the front end of the bottom of the wall brick clamping frame is meshed with the driven gear, so that cement in the feeding bin falls onto the wall brick through the material opening, and the stirring shaft can stop rotating when the rack at the rear end of the wall brick clamping frame is separated from the driven gear, so that the cement in the feeding bin does not flow out from the material opening, thereby avoiding cement waste, saving cement, having a simple structure, being capable of repeatedly driving the wall brick to paint the cement back and forth, and being convenient to operate.

3. According to the wall brick sticking device, due to the scraping teeth, when the wall brick clamping frame drives the wall brick to move towards one side of the scraping teeth, the cement surface on the wall brick is scraped into a wavy structure through the scraping teeth, so that when the wall brick is stuck on the wall surface, the contact surface between the cement and the wall surface can be increased, and the stability of the wall brick in sticking is improved.

4. The rubber guard plates are embedded at one ends of the inner sides of the outer support frame and the inner support frame, so that when the smooth surface of the wall brick is placed into the wall brick clamping frame in a downward mode, the wall brick is driven to move in the wall brick clamping frame, the smooth surface of the wall brick is protected by the rubber guard plates, and the smooth surface of the wall brick is prevented from being scratched.

Drawings

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

Fig. 2 is a schematic view of the second view structure of fig. 1 according to the present invention.

Fig. 3 is a schematic view of the third viewing angle of fig. 1 according to the present invention.

Fig. 4 is a schematic view of the wall tile and wall tile retaining frame of fig. 1 of the present invention after being pulled out of the outer bracket.

Fig. 5 is a schematic view of the invention in fig. 4 with the outer bracket drawn out from the socket and the angle bracket.

FIG. 6 is a schematic view of the internal structure of the square box of FIG. 5 taken vertically.

Fig. 7 is an enlarged view of the structure of fig. 6 a according to the present invention.

Fig. 8 is a schematic diagram of a second perspective structure of fig. 6 according to the present invention.

Fig. 9 is a schematic structural view of the material poking roller in the invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a square box; 101. a middle diaphragm plate; 1011. a material port; 1012. scraping teeth; 102. feeding a bin; 1021. a sloping plate; 1022. a vertical baffle plate; 103. a lower operation bin; 1031. a socket; 104. a moving wheel; 2. a material stirring roller; 201. a shifting sheet; 202. a material stirring shaft; 3. an inner bracket; 301. an upper slot A; 302. a rubber guard plate A; 4. a diagonal bracing frame plate; 5. an outer bracket; 501. an upper slot B; 502. a rubber guard plate B; 503. a side T-shaped outer baffle; 6. a drive shaft; 601. a drive gear; 602. operating a hand wheel; 7. an inner linkage shaft; 701. an internal linkage gear; 8. an outer link shaft; 801. an outer linkage gear; 9. a driven shaft; 901. a driven gear; 10. the wall brick is clamped with the frame; 1001. a rack; 1002. t-shaped insertion blocks.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "side," "top," "inner," "front," "center," "two ends," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing and simplifying the description, and are not intended to indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be understood broadly, and for example, they may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Example (b):

as shown in figures 1 to 9:

the invention provides building decoration equipment for mounting adjustable ceramic tiles, which comprises a square box 1, a material stirring roller 2, an inner support frame 3, a driving shaft 6, an inner linkage shaft 7, a driven shaft 9 and a wall tile clamping frame 10, wherein the material stirring roller is arranged on the square box; the middle inside of the square box 1 is divided into an upper bin 102 and a lower operating bin 103 by a middle transverse clapboard 101, a material port 1011 is arranged in the middle of the middle transverse clapboard 101, one end of the bottom of the middle transverse clapboard 101 is also connected with a scraping tooth 1012, two ends of the inner side of the upper bin 102 are respectively provided with a sloping plate 1021, two ends of the upper side of the sloping plate 1021 are respectively connected with a vertical baffle 1022, a material stirring roller 2 is rotatably arranged in the material port 1011 by a material stirring shaft 202, the material stirring shaft 202 outwards passes through the vertical baffle 1022 and is connected with a driven shaft 9 by chain transmission, two groups of structures which are inverted T-shaped are arranged on an inner wall of the lower operating bin 103 in an alignment way, an upper slot A301 is arranged at the upper end of an inner supporting frame 3, two sides of the outer end of the lower operating bin 103 are respectively connected with two groups of bracing frame plates 4, an outer supporting frame 5 is arranged on the bracing frame plates 4, and the, the driven shaft 9 is rotatably arranged in the lower operation bin 103 and is arranged right below the material port 1011, the driven shaft 9 is provided with a driven gear 901, the driving shaft 6 and the inner linkage shaft 7 are also respectively rotatably arranged in the lower operation bin 103 and are respectively arranged at two ends of the driven shaft 9, the driving shaft 6 is connected with the inner linkage shaft 7 through chain transmission, the driving shaft 6 is provided with a driving gear 601, the inner linkage shaft 7 is provided with an inner linkage gear 701, two ends of the lower operation bin 103 are also respectively rotatably provided with outer linkage shafts 8, the outer linkage shafts 8 are respectively provided with an outer linkage gear 801, one group of outer linkage shafts 8 are connected with the driving shaft 6 through chain transmission, the other group of outer linkage shafts 8 are also connected with the inner linkage shafts 7 through chain transmission, the outer end of the driving shaft 6 penetrates through the square box 1 to be connected with an operation hand wheel 602, two ends of the wall brick clamping frame 10 are respectively in a U-shaped structure and are respectively connected with a T-shaped, and the wall brick clamping frame 10 is slidably mounted on the outer support frame 5 and the inner support frame 3 through a T-shaped inserting block 1002, a rack 1001 is further arranged on a longitudinal rod at the bottom side of the wall brick clamping frame 10, the length of the rack 1001 is the same as the inner width of the wall brick clamping frame 10, and four ends of the bottom of the square box 1 are respectively connected with a moving wheel 104.

The bottom end of the scraping teeth 1012 is of a wavy structure, a 2cm distance is reserved between the bottom end of the scraping teeth 1012 and the bottom end face of the inner side of the U-shaped structure at the two ends of the wall brick clamping frame 10, and the scraping teeth 1012 are utilized to scrape the surface of cement on a wall brick into a wavy structure, so that when the wall brick is mounted on a wall surface, the contact surface between the cement and the wall surface can be increased, and the cement at the thinnest end can be kept at 2 cm.

Wherein, be equipped with a breach between swash plate 1021, and breach and material mouth 1011 size unanimity and relative from top to bottom, be equipped with ten groups of plectrum 201 on the periphery of plectrum roller 2, and the outer end of plectrum 201 is circular-arc structure and pastes on the inner wall of material mouth 1011, be convenient for make in the cement of feed bin 102 can enter into material mouth 1011 through the breach in, and when plectrum roller 2 stall, utilize plectrum 201 on the plectrum roller 2 to seal material mouth 1011, and then make cement no longer flow through breach and material mouth 1011.

Wherein, the outer bracket 5 is also in an inverted T-shaped structure, the top end of the outer bracket 5 is provided with an upper slot B501, the upper slot B501 has the same structure with the upper slot A301, and the T-shaped insert block 1002 can be inserted and clamped in the upper slot B501 and the upper slot A301, the outer side of the front end of the outer bracket 5 is respectively connected with a side T-shaped outer baffle 503, when the front end of the outer support frame 5 is clamped in the lower operating bin 103, the transverse plate on the side T-shaped outer baffle 503 is inserted into the faucet 1031, the front end of the outer support frame 5 is respectively opposite to the two ends of the inner support frame 3, the upper slot B501 is opposite to the upper slot A301, so that a transverse plate on a side T-shaped outer baffle 503 at the outer side of the front end of the outer bracket 5 can be conveniently inserted into the faucet 1031, the outer bracket 5 is clamped in the lower operating bin 103 and is arranged on the inclined bracket plate 4, and the wall brick clamping frame 10 is slidably mounted on the outer support frame 5 through the T-shaped inserting blocks 1002 on the U-shaped structures at the two ends of the wall brick clamping frame 10, so that the wall brick clamping frame 10 can slide on the outer support frame 5 and the inner support frame 3.

Wherein, the inboard one end of interior vaulting pole 3 is inlayed and is had rubber backplate A302, the inboard one end of outer strut 5 is inlayed and is had rubber backplate B502, and outer strut 5 is relative with interior vaulting pole, rubber backplate B502 also highly maintains an equal level with rubber backplate A302, when putting into wall brick card frame 10 with wall brick smooth surface down, when driving the wall brick removal in through wall brick card frame 10, utilize rubber backplate A302 to protect the wall smooth surface, avoid the wall brick smooth surface to receive the fish tail.

Wherein, the distance between the driving shaft 6 and the inner linkage shaft 7, the distance between the driving shaft 6 and the adjacent group of outer linkage shafts 8, and the distance between the inner linkage shaft 7 and the adjacent group of outer linkage shafts 8 are all smaller than the length of the rack 1001, and the driving gear 601 on the driving shaft 6, the inner linkage gear 701 on the inner linkage shaft 7, the outer linkage gear 801 on the outer linkage shaft 8, and the driven gear 901 on the driven shaft 9 are all arranged on the same longitudinal line and can be meshed and connected with the rack 1001, when the outer end of the wall brick clamping frame 10 is arranged on the outer support frame 5 and the wall brick clamping frame 10 is level with the outer end of the outer support frame 5, the rack 1001 is meshed and connected with the outer linkage gear 801, the hand wheel 602 is operated by rotation to drive the driving shaft 6 and the driving gear 601 to rotate, and drive the two groups of outer linkage shafts 8 and the inner linkage shafts 7 to rotate through chains, and drive the two groups of outer linkage gears 801, utilize the meshing of outer linkage gear 801 and rack 1001 to drive wall brick card frame 10 forward motion, when rack 1001 and driven gear 901 meshing of wall brick card frame 10 bottom front end, drive driven shaft 9 and dial material axle 202 rotatory, make the cement in the feed bin 102 fall on the wall brick through material mouth 1011, and when rack 1001 and driven gear 901 at wall brick card frame 10 rear end break away from, dial material axle 202 and can stall, the cement in the feed bin 102 no longer flows out from material mouth 1011.

The specific use mode and function of the embodiment are as follows:

in the invention, a transverse plate on a side T-shaped outer baffle 503 outside the front end of an outer support frame 5 is inserted into a socket 1031, so that the outer support frame 5 is clamped in a lower operation bin 103 and is arranged on an inclined support frame plate 4, then a wall brick clamping frame 10 is slidably arranged on two groups of outer support frames 5 far away from the end of a scraping tooth 1012 through T-shaped inserting blocks 1002 on U-shaped structures at two ends of the wall brick clamping frame, so that the wall brick clamping frame 10 is level with the outer end of the outer support frame 5, the smooth surface of a wall surface is downwards placed in the wall brick clamping frame 10, an operation hand wheel 602 is rotated to drive a driving shaft 6 and a driving gear 601 to rotate, and drive two groups of outer linkage shafts 8 and an inner linkage shaft 7 to rotate through a chain, and simultaneously drive two groups of outer linkage gears 801 and an inner linkage gear 701 to rotate, the wall brick clamping frame 10 is driven to move forwards by utilizing the meshing of the outer linkage gear 801 and a rack 1001, and when the rack 1001 at the front end of, the driven shaft 9 and the material stirring shaft 202 are driven to rotate, so that the cement in the feeding bin 102 falls onto the wall brick through the material port 1011, when the rack 1001 at the rear end of the wall brick clamping frame 10 is separated from the driven gear 901, the stirring shaft 202 can stop rotating, the cement in the upper bin 102 does not flow out from the material port 1011 any more, thereby avoiding the waste of the cement, saving the cement more, when the wall brick clamping frame 10 drives the wall brick to move to one side of the scraping teeth 1012, the scraping teeth 1012 are used for scraping the cement surface on the wall brick into a wave-shaped structure, so that when the wall brick is mounted on the wall surface, the contact surface of the cement and the wall surface can be increased, the stability of the wall brick during pasting is improved, and the wall brick card frame 10 front end moves to the outer end of opposite side outer strut 5 and holds at ordinary times, and wall brick card frame 10 rear end is in 1 outer extreme downside of square chest to the workman can take out the wall brick from wall brick card frame 10, and it is more convenient to use.

The invention is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (9)

1. The utility model provides an adjustable ceramic tile pastes dress and uses building decoration equipment which characterized in that: comprises a square box (1), a material poking roller (2), an inner support frame (3), a driving shaft (6), an inner linkage shaft (7), a driven shaft (9) and a wall brick clamping frame (10); the inner middle of the square box (1) is divided into an upper storage bin (102) and a lower operating bin (103) through a middle transverse partition plate (101), a material port (1011) is formed in the middle of the middle transverse partition plate (101), one end of the bottom of the middle transverse partition plate (101) is further connected with scraping teeth (1012), inclined plates (1021) inclining downwards are mounted at two ends of the inner side of the upper storage bin (102) respectively, vertical baffles (1022) are connected at two ends of the upper side of each inclined plate (1021) respectively, the material stirring roller (2) is rotatably mounted in the material port (1011) through a material stirring shaft (202), the material stirring shaft (202) outwards penetrates through the vertical baffles (1022) and is connected with a driven shaft (9) through chain transmission, two groups of inclined strut frame plates (4) are arranged on two sides of the inner strut (3) and are of inverted T-shaped structures and are connected on the inner wall of the lower operating bin (103) in an aligned mode, an upper insertion groove A (301) is formed in the upper end of, the outer support frame (5) is arranged on the inclined support frame plate (4), the front end of the outer support frame (5) is clamped in the lower operation bin (103), the driven shaft (9) is rotatably arranged in the lower operation bin (103) and is arranged right below the material port (1011), the driven shaft (9) is provided with a driven gear (901), the driving shaft (6) and the inner linkage shaft (7) are also rotatably arranged in the lower operation bin (103) and are respectively arranged at two ends of the driven shaft (9), the driving shaft (6) is connected with the inner linkage shaft (7) through chain transmission, the driving shaft (6) is provided with a driving gear (601), the inner linkage shaft (7) is provided with an inner linkage gear (701), the two ends of the lower operation bin (103) are also rotatably provided with outer linkage shafts (8) respectively, the outer linkage gears (801) are arranged on the outer linkage shafts (8) respectively, and a group of outer linkage shafts (8) are connected with the driving shaft (6) through chain transmission, the other group of outer linkage shafts (8) are connected with the inner linkage shaft (7) in a chain transmission mode, the outer end of the driving shaft (6) penetrates out of the square box (1) and is connected with an operating hand wheel (602), the two ends of the wall brick clamping frame (10) are of U-shaped structures and are connected with T-shaped inserting blocks (1002) respectively, the wall brick clamping frame (10) is slidably mounted on the outer support frame (5) and the inner support frame (3) through the T-shaped inserting blocks (1002), a rack (1001) is further arranged on a longitudinal rod at the bottom side of the wall brick clamping frame (10), the length of the rack (1001) is the same as the inner width of the wall brick clamping frame (10), and four ends of the bottom of the square box (1) are further connected with moving wheels (104) respectively.

2. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the bottom ends of the scraping teeth (1012) are of a wavy structure, and a distance of 2cm is formed between the bottom end of each scraping tooth (1012) and the bottom end face of the inner side of the U-shaped structure at the two ends of the wall brick clamping frame (10).

3. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: a gap is arranged between the sloping plates (1021), and the gap is consistent with the material port (1011) in size and is opposite to the material port.

4. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the periphery of the material stirring roller (2) is provided with ten groups of stirring sheets (201), and the outer ends of the stirring sheets (201) are of arc-shaped structures and are attached to the inner wall of the material port (1011).

5. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the outer support frame (5) is also of an inverted T-shaped structure, an upper slot B (501) is formed in the top end of the outer support frame (5), the upper slot B (501) is identical to the upper slot A (301) in structure, and a T-shaped insert block (1002) can be inserted into and clamped in the upper slot B (501) and the upper slot A (301).

6. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the outer side of the front end of the outer support frame (5) is respectively connected with a side T-shaped outer baffle (503), when the front end of the outer support frame (5) is clamped in the lower operation bin (103), a transverse plate on the side T-shaped outer baffle (503) is inserted into the socket (1031), the front end of the outer support frame (5) is respectively opposite to two ends of the inner support frame (3), and the upper slot B (501) is opposite to the upper slot A (301).

7. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the rubber guard plate A (302) is inlaid in one end of the inner side of the inner support frame (3), the rubber guard plate B (502) is inlaid in one end of the inner side of the outer support frame (5), and when the outer support frame (5) is opposite to the inner support frame, the rubber guard plate B (502) is also level to the height of the rubber guard plate A (302).

8. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the distance between drive shaft (6), interior linkage shaft (7), the distance between drive shaft (6) and the outer linkage shaft (8) of close group, the distance between interior linkage shaft (7) and the outer linkage shaft (8) of close group all is less than the length of rack (1001), and drive gear (601) on drive shaft (6), interior linkage gear (701) on interior linkage shaft (7), outer linkage gear (801) on outer linkage shaft (8) and driven gear (901) on driven shaft (9) all establish on same longitudinal line and all can be connected with rack (1001) meshing.

9. The adjustable building finishing apparatus for tile attachment of claim 1, wherein: the outer end of the wall brick clamping frame (10) is arranged on the outer support frame (5), the wall brick clamping frame (10) and the outer end of the outer support frame (5) are kept flat, and the rack (1001) is meshed and connected with the outer linkage gear (801).

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