CN212689475U - Ceramic tile adhesive smearing device - Google Patents

Abstract

The utility model relates to a device is paintd to ceramic tile adhesive. The technical scheme is as follows: including ceramic tile transport mechanism, ceramic tile elevating system, ceramic tile move material mechanism, adhesive feed mechanism, adhesive and paint mechanism, device block terminal and device control panel, ceramic tile transport mechanism rear portion one side is provided with ceramic tile elevating system, ceramic tile elevating system upper portion is provided with the ceramic tile moves material mechanism, ceramic tile elevating system one side is provided with adhesive feed mechanism, adhesive feed mechanism front portion is provided with the adhesive paints the mechanism. The utility model has the advantages that: move material mechanism through ceramic tile elevating system and ceramic tile and accomplish ceramic tile automatic feeding, improve device production efficiency, realize the adhesive feed through adhesive feed mechanism, prevent that the adhesive from solidifying, accomplish the automatic paint of ceramic tile adhesive through adhesive paint mechanism, realize the even coating of adhesive, guarantee the ceramic tile adhesive and paint the quality, prevent simultaneously that the adhesive from blockking up ejection of compact pipeline.

Description

Ceramic tile adhesive smearing device

Technical Field

The utility model belongs to building construction equipment field relates to a device is paintd to ceramic tile adhesive.

Background

In the construction operation of building, when laying the ceramic tile to ground or wall, need dig cement earlier with the bricklaying sword and put on the ceramic tile usually, reuse bricklaying sword paves cement, then just can lay the ceramic tile on ground or wall, the working process is more complicated, need consume a large amount of time, furthermore, when digging cement with the bricklaying sword, hold the cement volume of not good needs usually, this kind of mode often wastes time and energy, long-time work can bring great intensity of labour for the worker, hardly guarantee the degree of consistency of paining when smearing cement through the manual work in addition, wall body or the holistic roughness in bottom surface are difficult to control when leading to the ceramic tile to lay, influence holistic construction quality, current automatic ceramic tile adhesive paints the device and can't realize ceramic tile automatic feeding many times, the adhesive paints the ejection of compact pipeline and is blockked up by the adhesive easily simultaneously.

SUMMERY OF THE UTILITY MODEL

In view of the problems in the prior art, the utility model discloses a tile adhesive smearing device, which adopts the technical scheme that the tile adhesive smearing device comprises a tile conveying mechanism, a tile lifting mechanism, a tile material moving mechanism, an adhesive feeding mechanism, an adhesive smearing mechanism, a device distribution box and a device control panel, wherein the tile lifting mechanism is arranged on one side of the rear part of the tile conveying mechanism, the tile material moving mechanism is arranged on the upper part of the tile lifting mechanism, the adhesive feeding mechanism is arranged on one side of the tile lifting mechanism, the adhesive smearing mechanism is arranged on the front part of the adhesive feeding mechanism, the device distribution box is arranged on the front part of the tile conveying mechanism, and the device control panel is connected to the upper part of the device distribution box;

the tile moving mechanism comprises a support column, a support track is fixedly connected to the rear portion of the inner side of the support column, a threaded rod is rotatably connected to the inner side of the support track, a threaded rod motor is connected to the front portion of the support track, a moving block is arranged on the upper portion of the inner side of the support track, a connecting frame is fixedly connected to the lower portion of the moving block, a sucker support is fixedly connected to the lower portion of the connecting frame, suckers are fixedly connected to two sides of the lower portion of the sucker support, a sucker pipeline is connected to the upper portion of each sucker, a sucker pump is connected to the inner side of each sucker pipeline, the support column is connected with the support track through welding, the support track is connected with the threaded rod motor through bolts, the threaded rod motor is connected with the threaded rod through a coupler, the connecting frame is connected with the sucker support through a bolt, the sucker support is connected with the sucker through a bolt, and the sucker is connected with the sucker pump through the sucker pipeline;

the adhesive coating mechanism comprises a coating support, a coating wheel motor is arranged on the rear side of the upper portion of the coating support, a coating speed reducer is connected to the upper portion of the coating wheel motor, a coating wheel is connected to the front portion of the coating speed reducer, a coating box is arranged on the upper portion of the coating wheel, an adhesive feeding groove is connected to the upper portion of the coating box, a feeding anti-blocking rotary knife is arranged on the inner side of the adhesive feeding groove, the rear portion of the feeding anti-blocking rotary knife is connected with a feeding rotary knife motor, the coating support is connected with the coating wheel motor through bolts, the coating wheel motor is connected with the coating speed reducer through gears, the coating speed reducer is connected with the coating wheel through a coupling, the coating support is connected with the coating box through welding, the coating box is connected with the adhesive feeding groove through welding, and the adhesive feeding groove, the feeding rotary cutter motor is connected with the feeding anti-blocking rotary cutter through a coupler.

As an optimized scheme of the utility model, ceramic tile transport mechanism includes the transport mechanism support, the conveyer belt curb plate is connected on transport mechanism support upper portion, the inboard both ends of conveyer belt curb plate are rotated and are connected the conveying running roller, the conveying running roller outside is provided with the conveyer belt, conveying running roller front end is provided with the conveyer belt reduction gear, conveyer belt motor is connected to conveyer belt reduction gear one side, the transport mechanism support passes through welded connection the conveyer belt curb plate, the conveyer belt curb plate passes through the bearing and connects the conveying running roller, the conveying running roller drive the conveyer belt is marchd, the conveying running roller passes through the coupling joint the conveyer belt reduction gear, the conveyer belt reduction gear passes through gear connection the conveyer belt motor.

As a preferred proposal of the utility model, the tile lifting mechanism comprises a lifting platform, the lower part of the lifting platform is rotationally connected with a first fork arm, the middle part of the first fork arm is rotationally connected with the second fork arm, the lower part of the first fork arm is connected with the track sliding groove in a sliding way, the lower part of the second fork arm is rotatably connected with a fork arm connecting seat, one side of the fork arm connecting seat is provided with a hydraulic cylinder, the upper part of the inner side of the hydraulic cylinder is connected with a hydraulic rod in a sliding way, the inner side of the hydraulic cylinder is provided with a hydraulic pump, a height sensor is arranged on one side of the upper part of the lifting platform, the lifting platform is connected with the first fork arm through a shaft pin, the first fork arm is connected with the second fork arm through a shaft pin and is connected with a track sliding groove in a sliding mode through a bearing, the second fork arm is connected with the fork arm connecting seat through a shaft pin, and the upper end of the hydraulic rod pushes the second fork arm through the shaft pin.

As a preferred scheme of the utility model, adhesive feeding mechanism includes the adhesive jar, adhesive jar upper portion is provided with the pan feeding groove, pan feeding groove one side is provided with agitator motor, the agitator motor lower part is rotated and is connected the (mixing) shaft, fixed connection stirring vane around the (mixing) shaft, agitator motor one side is provided with the feed pump, feed pipeline is connected on feed pump upper portion, the adhesive jar passes through welded connection the pan feeding groove, agitator motor passes through bolted connection the adhesive jar, agitator motor passes through the coupling joint the (mixing) shaft, the (mixing) shaft passes through welded connection stirring vane.

The utility model has the advantages that: realize ceramic tile buttress automatic rising through ceramic tile elevating system, the ceramic tile moves material mechanism and realizes that the ceramic tile moves the material, accomplishes ceramic tile automatic feeding, alleviates workman's amount of labour, and the raising device produces efficiency, realizes the adhesive feed through adhesive feed mechanism, prevents that the adhesive from solidifying, paints the mechanism through the adhesive and accomplishes ceramic tile adhesive and paint automatically, realizes the even coating of adhesive, guarantees the ceramic tile adhesive and paints the quality, prevents simultaneously that the adhesive from blockking up ejection of compact pipeline.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the tile moving mechanism of the present invention;

FIG. 3 is a schematic structural view of the tile lifting mechanism of the present invention;

FIG. 4 is a schematic structural view of the adhesive supply mechanism of the present invention;

FIG. 5 is a detailed view of the structure of the adhesive applying mechanism of the present invention;

in the figure: 1. a tile conveying mechanism; 2. a tile lifting mechanism; 3. a tile moving mechanism; 4. an adhesive supply mechanism; 5. an adhesive applying mechanism; 6. a plant distribution box; 7. a device control board; 101. a transport mechanism support; 102. a conveyor belt side plate; 103. a transfer roller; 104. a conveyor belt; 105. a conveyor belt motor; 106. a conveyor belt speed reducer; 201. a lifting platform; 202. a first yoke; 203. a second prong; 204. a track runner; 205. a yoke connecting seat; 206. a hydraulic cylinder; 207. a hydraulic lever; 208. a hydraulic pump; 209. a height sensor; 301. a support pillar; 302. a support rail; 303. a threaded rod; 304. a threaded rod motor; 305. a moving block; 306. a connecting frame; 307. a suction cup holder; 308. a suction cup; 309. a sucker pipeline; 310. a suction cup pump; 401. an adhesive tank; 402. a feeding groove; 403. a stirring motor; 404. a stirring shaft; 405. a stirring blade; 406. a feed pump; 407. a feed conduit; 501. smearing the stent; 502. a smearing wheel motor; 503. coating a reducer; 504. a smearing wheel; 505. a smearing box; 506. an adhesive feed chute; 507. feeding an anti-blocking rotary cutter; 508. a feeding rotary cutter motor.

Detailed Description

As shown in fig. 1 to 5, the technical scheme adopted by the utility model is that the ceramic tile adhesive smearing device comprises a ceramic tile conveying mechanism 1, a ceramic tile lifting mechanism 2, a ceramic tile material moving mechanism 3, an adhesive material supplying mechanism 4, an adhesive smearing mechanism 5, a device distribution box 6 and a device control panel 7, wherein the ceramic tile lifting mechanism 2 is arranged on one side of the rear part of the ceramic tile conveying mechanism 1, the ceramic tile material moving mechanism 3 is arranged on the upper part of the ceramic tile lifting mechanism 2, the adhesive material supplying mechanism 4 is arranged on one side of the ceramic tile lifting mechanism 2, the adhesive smearing mechanism 5 is arranged on the front part of the adhesive material supplying mechanism 4, the device distribution box 6 is arranged on the front part of the ceramic tile conveying mechanism 1, and the device control panel 7 is connected to the upper part of the device distribution box 6;

the tile moving mechanism 3 comprises a supporting column 301, a supporting track 302 is fixedly connected to the rear portion of the inner side of the supporting column 301, a threaded rod 303 is rotatably connected to the inner side of the supporting track 302, a threaded rod motor 304 is connected to the front portion of the supporting track 302, a moving block 305 is arranged on the upper portion of the inner side of the supporting track 302, a connecting frame 306 is fixedly connected to the lower portion of the connecting frame 306, a sucker bracket 307 is fixedly connected to the lower portion of the sucker bracket 307, suckers 308 are fixedly connected to the two sides of the lower portion of the sucker bracket 307, sucker pipelines 309 are connected to the upper portion of the suckers 308, a sucker pump 310 is connected to the inner side of the sucker pipelines 309, the supporting column 301 is connected to the supporting track 302 through welding, the supporting track 302 is connected to the threaded rod motor 304 through bolts, the threaded rod motor 304 is connected to the, the moving block 305 is connected with the connecting frame 306 by welding, the connecting frame 306 is connected with the sucker bracket 307 by bolts, the sucker bracket 307 is connected with the sucker 308 by bolts, and the sucker 308 is connected with the sucker pump 310 by the sucker pipe 309;

the adhesive coating mechanism 5 comprises a coating support 501, a coating wheel motor 502 is arranged on the rear side of the upper part of the coating support 501, a coating speed reducer 503 is connected to the upper part of the coating wheel motor 502, a coating wheel 504 is connected to the front part of the coating speed reducer 503, a coating box 505 is arranged on the upper part of the coating wheel 504, an adhesive feeding groove 506 is connected to the upper part of the coating box 505, a feeding anti-blocking rotary knife 507 is arranged on the inner side of the adhesive feeding groove 506, a feeding rotary knife motor 508 is connected to the rear part of the feeding anti-blocking rotary knife 507, the coating support 501 is connected with the coating wheel motor 502 through a bolt, the coating wheel motor 502 is connected with the coating speed reducer 503 through a gear, the coating speed reducer 503 is connected with the coating wheel 504 through a coupler, the coating support 501 is connected with the coating box 505 through welding, and the coating box 505 is, the adhesive feeding groove 506 is connected with the feeding rotary cutter motor 508 through a bolt, and the feeding rotary cutter motor 508 is connected with the feeding anti-blocking rotary cutter 507 through a coupler.

Preferably, ceramic tile transport mechanism 1 includes transport mechanism support 101, conveyer belt curb plate 102 is connected on transport mechanism support 101 upper portion, conveyer belt curb plate 102 inboard both ends are rotated and are connected conveying roller wheel 103, the conveying roller wheel 103 outside is provided with conveyer belt 104, conveying roller wheel 103 front end is provided with conveyer belt reduction gear 106, conveyer belt motor 105 is connected to conveyer belt reduction gear 106 one side, transport mechanism support 101 is through welded connection conveyer belt curb plate 102, conveyer belt curb plate 102 passes through the bearing and connects conveying roller wheel 103, the drive of conveying roller wheel 103 conveyer belt 104 is advanced, conveying roller wheel 103 passes through the coupling joint conveyer belt reduction gear 106, conveyer belt reduction gear 106 passes through gear connection conveyer belt motor 105.

Preferably, the tile lifting mechanism 2 comprises a lifting platform 201, the lower part of the lifting platform 201 is rotatably connected with a first fork arm 202, the middle part of the first fork arm 202 is rotatably connected with a second fork arm 203, the lower part of the first fork arm 202 is slidably connected with a track sliding groove 204, the lower part of the second fork arm 203 is rotatably connected with a fork arm connecting seat 205, one side of the fork arm connecting seat 205 is provided with a hydraulic cylinder 206, the upper part of the inner side of the hydraulic cylinder 206 is connected with a hydraulic rod 207 in a sliding way, the inner side of the hydraulic cylinder 206 is provided with a hydraulic pump 208, a height sensor 209 is arranged on one side of the upper part of the lifting platform 201, the lifting platform 201 is connected with the first fork arm 202 through a shaft pin, said first prong 202 is connected to said second prong 203 by a pin, said first prong 202 is slidingly connected to a track runner 204 by a bearing, the second fork arm 203 is connected with a fork arm connecting seat 205 through a shaft pin, and the upper end of the hydraulic rod 207 pushes the second fork arm 203 through the shaft pin.

Preferably, the adhesive feeding mechanism 4 includes an adhesive tank 401, an inlet tank 402 is disposed on the upper portion of the adhesive tank 401, an agitating motor 403 is disposed on one side of the inlet tank 402, the lower portion of the agitating motor 403 is rotatably connected with an agitating shaft 404, agitating blades 405 are fixedly connected around the agitating shaft 404, a feeding pump 406 is disposed on one side of the agitating motor 403, a feeding pipeline 407 is connected to the upper portion of the feeding pump 406, the adhesive tank 401 is connected with the inlet tank 402 by welding, the agitating motor 403 is connected with the adhesive tank 401 by bolts, the agitating motor 403 is connected with the agitating shaft 404 by a coupling, and the agitating shaft 404 is connected with the agitating blades 405 by welding.

The utility model discloses a theory of operation: a worker stacks tiles on the lifting platform 201, the power supply is provided for each motor of the device through the device distribution box 6, the worker operates the device control panel 7 to control each mechanism of the device to operate, the hydraulic pump 208 provides power to the hydraulic cylinder 206, the hydraulic cylinder 206 pushes the hydraulic rod 207 to enable the lifting platform 201 to lift, the height sensor 209 detects a tile height signal and transmits the tile height signal to the device control panel 7, the device control panel 7 controls the height of the lifting platform 201 to enable the upper edge of a tile stack to be flush with the conveying belt 104, the suction disc pump 310 drives the suction disc 308 to lift the tiles through the suction disc pipeline 309, the threaded rod motor 304 drives the threaded rod 303 to rotate to drive the moving block 305 to move, the moving block 305 moves on the supporting track 302 to move tiles to the conveying belt 104, the conveying belt 105 decelerates through the conveying belt reducer 106 to drive the conveying belt 104 to move, the conveying belt 104, stirring motor 403 drives stirring shaft 404 and stirring blade 405 to rotate to prevent the adhesive from solidifying, feed pump 406 sends the adhesive into smearing box 505 through feed pipe 407, feeding rotary knife motor 508 drives feeding anti-blocking rotary knife 507 to rotate to complete the uniform feeding of the adhesive, and simultaneously prevents the adhesive from blocking adhesive feeding groove 506, and smearing wheel motor 502 drives smearing wheel 504 to rotate through speed reduction of smearing reducer 503 to realize the uniform coating of the tile adhesive.

The manner of circuit control not described in detail herein is prior art.

Although the present invention has been described in detail with reference to the specific embodiments, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge range of those skilled in the art, and modifications or variations without creative efforts are still within the scope of the present invention.

Claims (4)

1. The utility model provides a device is paintd to ceramic tile adhesive which characterized in that: the ceramic tile conveying device comprises a ceramic tile conveying mechanism (1), a ceramic tile lifting mechanism (2), a ceramic tile material moving mechanism (3), a bonding agent feeding mechanism (4), a bonding agent smearing mechanism (5), a device distribution box (6) and a device control board (7), wherein the ceramic tile lifting mechanism (2) is arranged on one side of the rear portion of the ceramic tile conveying mechanism (1), the ceramic tile material moving mechanism (3) is arranged on the upper portion of the ceramic tile lifting mechanism (2), the bonding agent feeding mechanism (4) is arranged on one side of the ceramic tile lifting mechanism (2), the bonding agent smearing mechanism (5) is arranged on the front portion of the bonding agent feeding mechanism (4), the device distribution box (6) is arranged on the front portion of the ceramic tile conveying mechanism (1), and the device control board (7) is connected to;

the tile moving mechanism (3) comprises a supporting column (301), the rear part of the inner side of the supporting column (301) is fixedly connected with a supporting track (302), the inner side of the supporting track (302) is rotatably connected with a threaded rod (303), the front part of the supporting track (302) is connected with a threaded rod motor (304), the upper part of the inner side of the supporting track (302) is provided with a moving block (305), the lower part of the moving block (305) is fixedly connected with a connecting frame (306), the lower part of the connecting frame (306) is fixedly connected with a sucker bracket (307), both sides of the lower part of the sucker bracket (307) are fixedly connected with suckers (308), the upper part of each sucker (308) is connected with a sucker pipeline (309), the inner side of each sucker pipeline (309) is connected with a sucker pump (310), the supporting column (301) is connected with the supporting track, the threaded rod motor (304) is connected with the threaded rod (303) through a coupler, the supporting track (302) is connected with the moving block (305) in a sliding mode, the moving block (305) is connected with the threaded rod (303) through a threaded groove in a sliding mode, the moving block (305) is connected with the connecting frame (306) through welding, the connecting frame (306) is connected with the sucker bracket (307) through bolts, the sucker bracket (307) is connected with the sucker (308) through bolts, and the sucker (308) is connected with the sucker pump (310) through the sucker pipeline (309);

the adhesive smearing mechanism (5) comprises a smearing support (501), a smearing wheel motor (502) is arranged on the rear side of the upper portion of the smearing support (501), a smearing speed reducer (503) is connected to the upper portion of the smearing wheel motor (502), the front portion of the smearing speed reducer (503) is connected to the smearing wheel (504), a smearing box (505) is arranged on the upper portion of the smearing wheel (504), an adhesive feeding groove (506) is connected to the upper portion of the smearing box (505), a feeding anti-blocking rotary knife (507) is arranged on the inner side of the adhesive feeding groove (506), a feeding rotary knife motor (508) is connected to the rear portion of the feeding anti-blocking rotary knife (507), the smearing support (501) is connected with the smearing wheel motor (502) through bolts, the smearing wheel motor (502) is connected with the smearing speed reducer (503) through a gear, and the smearing speed reducer (503) is connected, the coating support (501) is connected with the coating box (505) through welding, the coating box (505) is connected with the adhesive feeding groove (506) through welding, the adhesive feeding groove (506) is connected with the feeding rotary cutter motor (508) through bolts, and the feeding rotary cutter motor (508) is connected with the feeding anti-blocking rotary cutter (507) through a coupler.

2. A tile adhesive application device according to claim 1, wherein: the tile conveying mechanism (1) comprises a conveying mechanism support (101), the upper part of the conveying mechanism support (101) is connected with a conveying belt side plate (102), the two ends of the inner side of the conveyor belt side plate (102) are rotationally connected with a conveyor roller (103), a conveyor belt (104) is arranged on the outer side of the conveyor roller (103), a conveyor belt reducer (106) is arranged at the front end of the conveying roller (103), one side of the conveyor belt reducer (106) is connected with a conveyor belt motor (105), the conveying mechanism bracket (101) is connected with the conveying belt side plate (102) through welding, the conveying belt side plate (102) is connected with the conveying roller (103) through a bearing, the conveying roller (103) drives the conveying belt (104) to move, the conveying roller (103) is connected with the conveying belt speed reducer (106) through a coupler, the conveyor belt speed reducer (106) is connected with the conveyor belt motor (105) through a gear.

3. A tile adhesive application device according to claim 1, wherein: the tile lifting mechanism (2) comprises a lifting platform (201), the lower portion of the lifting platform (201) is rotatably connected with a first fork arm (202), the middle portion of the first fork arm (202) is rotatably connected with a second fork arm (203), the lower portion of the first fork arm (202) is slidably connected with a track sliding groove (204), the lower portion of the second fork arm (203) is rotatably connected with a fork arm connecting seat (205), one side of the fork arm connecting seat (205) is provided with a hydraulic cylinder (206), the upper portion of the inner side of the hydraulic cylinder (206) is slidably connected with a hydraulic rod (207), the inner side of the hydraulic cylinder (206) is provided with a hydraulic pump (208), one side of the upper portion of the lifting platform (201) is provided with a height sensor (209), the lifting platform (201) is connected with the first fork arm (202) through a shaft pin, the first fork arm (202) is connected with the second fork arm (203) through a shaft pin, and the first, the second fork arm (203) is connected with a fork arm connecting seat (205) through a shaft pin, and the upper end of the hydraulic rod (207) pushes the second fork arm (203) through the shaft pin.

4. A tile adhesive application device according to claim 1, wherein: adhesive feed mechanism (4) include adhesive tank (401), adhesive tank (401) upper portion is provided with pan feeding groove (402), pan feeding groove (402) one side is provided with agitator motor (403), agitator motor (403) lower part is rotated and is connected (mixing) shaft (404), fixed connection stirring vane (405) all around (mixing) shaft (404), agitator motor (403) one side is provided with feed pump (406), feed pipeline (407) is connected on feed pump (406) upper portion, adhesive tank (401) is through welded connection pan feeding groove (402), agitator motor (403) pass through bolted connection adhesive tank (401), agitator motor (403) pass through the coupling joint (mixing) shaft (404), (mixing) shaft (404) pass through welded connection stirring vane (405).

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