CN113245993B

CN113245993B - Building dismantles ceramic tile and retrieves machine

Info

Publication number: CN113245993B
Application number: CN202110494334.9A
Authority: CN
Inventors: 宋斐
Original assignee: Individual
Current assignee: Shi Xiuhua
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2024-03-01
Anticipated expiration: 2041-05-07
Also published as: CN113245993A

Abstract

The invention discloses a building disassembly tile recycling machine, which comprises a base, wherein a cutting groove and a sliding groove are formed in the base, a slice is enabled to pass through the cutting groove when the tile is cut, a conveying mechanism is arranged in the sliding groove and used for conveying tiles to be machined, a first machine body is fixedly arranged on the base near the left end, a cutting cavity with a backward opening is formed in the rear side surface of the first machine body, a cutting mechanism is arranged in the cutting cavity and used for cutting and polishing residual cement on the tiles, a first control cavity is formed in the first machine body, and a pushing mechanism is arranged on the rear side of the first machine body and used for pushing the tiles to be machined.

Description

Building dismantles ceramic tile and retrieves machine

Technical Field

The invention relates to the technical field of decoration engineering, in particular to a building disassembly tile recycling machine.

Background

In many home decoration processes, the original tiles need to be detached, most tiles are directly discarded to form construction waste, but many tiles are complete and can be applied to many places, but the back of the tiles often has cement residues, so that the tiles cannot be utilized, therefore, the invention of the tile capable of being detached for construction is necessary, the labor is saved, the automation is high, and a machine which is simple and easy to operate is used for recycling the discarded tiles for the second time.

Disclosure of Invention

The invention aims to provide a building dismantling tile recycling machine which is used for overcoming the defects in the prior art.

According to the embodiment of the invention, the building disassembly tile recycling machine comprises a base, a cutting groove and a sliding groove are formed in the base, a slice is enabled to pass through when the cutting groove is used for cutting, a conveying mechanism is arranged in the sliding groove and used for conveying tiles to be processed, a first machine body is fixedly arranged on the base close to the left end, a cutting cavity with a backward opening is formed in the rear side surface of the first machine body, a cutting mechanism is arranged in the cutting cavity and used for cutting and polishing residual cement on the tiles, a first control cavity is formed in the first machine body, a pushing mechanism is arranged on the rear side of the first machine body and used for pushing the tiles to be processed, a second machine body is arranged on the right side of the first machine body and fixedly arranged on the base, a cleaning cavity is formed in the second machine body and fixedly arranged in the cleaning cavity, a power cavity is formed in the upper wall of the second machine body and used for cleaning the cut tiles, a polishing cavity is formed in the right side surface of the second machine body and is fixedly arranged on the third machine body, a polishing cavity is formed in the left side surface of the second machine body and is fixedly arranged on the third machine body, and a polishing cavity is formed in the polishing machine body, and a polishing cavity is used for polishing cavity is formed in the third machine body and is used for polishing the polishing cavity.

Further technical scheme, conveying mechanism is including setting firmly the transportation motor on the spout left wall, transportation motor power connection is a transportation axle that extends to the right, the left and right slip is equipped with a transportation ejector pad on the periphery of transportation axle, transportation ejector pad with threaded connection between the transportation axle, the top of transportation motor has set firmly the upset motor, the upset motor power connection is a upset axle that extends to the right, the left and right slip is equipped with a spline housing on the periphery of upset motor, the spline housing with spline fit between the upset axle, the spline housing with rotate between the transportation ejector pad and be connected, a splint have been set firmly on the periphery of spline housing.

According to a further technical scheme, the cutting mechanism comprises a first motor fixedly arranged on the front wall of the first control cavity, the first motor is in power connection with a first motor shaft extending backwards, a first belt wheel is fixedly arranged on the periphery of the first motor shaft, two sucker arms which are communicated with the first control cavity and the cutting cavity are arranged on the rear wall of the first control cavity in a sliding mode, suckers are arranged at the rear ends of the sucker arms, rotary shafts are respectively arranged on the periphery of the sucker arms in a rotating mode, the rotary shafts are in threaded fit connection with the sucker arms, second belt wheels are fixedly arranged on the periphery of the two rotary shafts, the second belt wheels are in power connection with the first belt wheels through a first belt, a second motor is fixedly arranged on the upper wall of the first control cavity, the second motor is in power connection with a second motor shaft extending backwards, the second motor shaft is connected with a planetary gear reducer, the planetary gear reducer shell is fixedly arranged on the first machine body, a rotary arm is rotationally arranged on the rear wall of the first control cavity, the planetary gear reducer is connected with the rotary arm, a speed changing cavity is internally opened, the second motor shaft extends rightwards into the speed changing cavity, the right end of the second motor shaft is fixedly provided with a cutting gear, the upper part of the second motor shaft is rotationally provided with a first transmission shaft, the right end of the first transmission shaft is fixedly provided with a transmission gear, the cutting gear is meshed with the transmission gear, a third belt pulley is fixedly arranged on the periphery of the first transmission shaft, a cutting shaft is rotationally arranged on the front wall of the speed changing cavity, a fourth belt pulley is fixedly arranged on the periphery of the cutting shaft, the third belt pulley is in power connection with the fourth belt pulley through a second belt, the left end of the cutting shaft is fixedly provided with a rotary table, and the rotary table is fixedly provided with a cutting piece.

According to a further technical scheme, the pushing mechanism comprises two baffle plates which are symmetrically arranged on the base in a left-right mode, a telescopic plate is arranged between the two baffle plates in a front-back sliding mode, and a spring is arranged on the rear side of the telescopic plate.

Further technical scheme, wiper mechanism is including the front and back symmetry setting is in fourteen clean axles of clean intracavity, all set firmly the brush wheel on the periphery of clean axle, the front side is seven the upper end of clean axle all sets firmly clean band pulley, be connected through the third belt between the clean band pulley, set firmly clean motor on the upper wall of power chamber, clean motor is connected with the clean axle power of left end downwards, set firmly a shower nozzle on the upper wall of clean chamber, the water tank has been seted up in the second organism, the water tank with the shower nozzle passes through pipe connection, set firmly the water inlet on the front wall of water tank.

Further technical scheme, polishing mechanism includes one and sets firmly in the third organism the polishing motor on the second control chamber right wall, polishing motor power connection is equipped with the delivery gyro wheel in the periphery of polishing axle near the left end, the first polishing band pulley has been set firmly in the periphery of polishing axle near the right-hand member, the second control intracavity rotation is equipped with the second transmission shaft, set firmly the second polishing band pulley in the periphery of second transmission shaft, the second polishing band pulley with first polishing band pulley passes through polishing belt power connection, the left end of second transmission shaft sets firmly first bevel gear, the upper wall rotation in polishing chamber is equipped with the polishing dish axle, the upper end of polishing dish axle sets firmly second bevel gear, the second bevel gear with first bevel gear meshing, the lower extreme of polishing dish axle sets firmly the polishing dish.

The beneficial effects of the invention are as follows:

the invention processes the tile detached from the building, and reutilizes the tile, so that the cost of purchasing materials can be saved, and the waste resources are recycled again, thereby protecting the environment and being beneficial to sustainable development.

Drawings

FIG. 1 is a schematic top view of the construction of a building removal tile recovery machine of the present invention;

FIG. 2 is a partial cross-sectional view of A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a partial cross-sectional view of B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is a partial cross-sectional view of the C-C of FIG. 1 in accordance with the present invention;

fig. 5 is a partial cross-sectional view of D-D of fig. 1 in accordance with the present invention.

Detailed Description

For the purposes and advantages of the present invention to become more apparent, the following detailed description of the invention will be taken in conjunction with the examples, it being understood that the following text is intended to describe only one or several specific embodiments of the invention and is not intended to limit the scope of the invention as claimed in detail, as the terms upper, lower and left and right are not limited to their strict geometric definitions, but rather include tolerances for machining or human error, and the specific features of the machine for reclaiming building demolition tiles are described in detail below:

referring to fig. 1 to 5, a construction disassembly tile recycling machine according to an embodiment of the present invention comprises a base 10, wherein a cutting groove 12 and a chute 11 are formed in the base 10, the cutting groove 12 is used for enabling a cut piece to pass through when cutting, a conveying mechanism 105 is arranged in the chute 11, the conveying mechanism 105 is used for conveying a tile to be processed, a first machine body 13 is fixedly arranged on the left end portion of the base 10, a cutting cavity 71 with a backward opening is formed in the rear side surface of the first machine body 13, a cutting mechanism 101 is arranged in the cutting cavity 71, the cutting mechanism 101 is used for cutting and polishing residual cement on the tile, a first control cavity 14 is formed in the first machine body 13, a pushing mechanism is arranged on the rear side of the first machine body 13 and used for pushing the tile to be processed, the right side of first organism 13 is equipped with second organism 67, second organism 67 sets firmly on the base 10, set firmly clean chamber 70 in the second organism 67, set firmly wiper mechanism 102 in the clean chamber 70, wiper mechanism 102 is used for the ceramic tile that will cut cleanly, set up power chamber 44 in the upper wall of second organism 67, the right rear of second organism 67 is equipped with third organism 66, third organism 66 sets firmly on the base 10, set firmly a polishing chamber 36 that opens left on the left surface of third organism 66, polishing mechanism 103 has set firmly in the polishing chamber 36, polishing mechanism 103 is used for carrying out the polishing with the ceramic tile smooth surface that washs, second control chamber 54 has been seted up in the third organism 66.

Advantageously or exemplarily, the conveying mechanism 105 includes a conveying motor 37 fixed on the left wall of the chute 11, the conveying motor 37 is dynamically connected with a conveying shaft 40 extending rightward, a conveying push block 41 is slidingly disposed on the periphery of the conveying shaft 40, the conveying push block 41 is in threaded connection with the conveying shaft 40, a turnover motor 38 is fixedly disposed above the conveying motor 37, the turnover motor 38 is dynamically connected with a turnover shaft 39 extending rightward, a spline sleeve 42 is slidingly disposed on the periphery of the turnover motor 38 leftward and rightward, the spline sleeve 42 is in spline fit with the turnover shaft 39, the spline sleeve 42 is rotationally connected with the conveying push block 41, and a clamping plate 43 is fixedly disposed on the periphery of the spline sleeve 42.

Advantageously or exemplarily, the cutting mechanism 101 includes a first motor 20 fixed on a front wall of the first control chamber 14, the first motor 20 is in power connection with a first motor shaft 22 extending backward, a first belt pulley 21 is fixed on an outer circumference of the first motor shaft 22, two sucker arms 17 communicating the first control chamber 14 and the cutting chamber 71 are slidably disposed on a rear wall of the first control chamber 14, suction cups 18 are disposed at rear ends of the sucker arms 17, rotating shafts 15 are disposed on outer circumferences of the sucker arms 17, the rotating shafts 15 are in screw thread fit connection with the sucker arms 17, second belt pulleys 16 are fixed on outer circumferences of the two rotating shafts 15, the second belt pulleys 16 are in power connection with the first belt pulley 21 through a first belt 19, a second motor 24 is fixed on an upper wall of the first control chamber 14, the second motor 24 is in power connection with a second motor shaft 25 which extends backwards, the second motor shaft 25 is connected with a planetary gear reducer 79, the outer shell of the planetary gear reducer 79 is fixedly arranged on the first machine body 13, a rotary arm 23 is rotationally arranged on the rear wall of the first control cavity 14, the planetary gear reducer 79 is connected with the rotary arm 23, a speed changing cavity 35 is arranged in the 23, the second motor shaft 25 extends rightwards into the speed changing cavity 35, a cutting gear 26 is fixedly arranged at the right end of the second motor shaft 25, a first transmission shaft 28 is rotationally arranged above the second motor shaft 25, a transmission gear 27 is fixedly arranged at the right end of the first transmission shaft 28, the cutting gear 26 is meshed with the transmission gear 27, a third belt pulley 29 is fixedly arranged on the outer periphery of the first transmission shaft 28, a cutting shaft 32 is rotationally arranged on the front wall of the speed changing cavity 35, a fourth belt wheel 31 is fixedly arranged on the periphery of the cutting shaft 32, the third belt wheel 29 is in power connection with the fourth belt wheel 31 through a second belt 30, a rotary disc 33 is fixedly arranged at the left end of the cutting shaft 32, and a cutting sheet 34 is fixedly arranged on the rotary disc 33.

Advantageously or exemplarily, the pushing mechanism includes two baffles 75 symmetrically disposed on the base 10, a telescopic plate 76 is slidably disposed between the two baffles 75, and a spring is disposed on the rear side of the telescopic plate 76.

Advantageously or exemplarily, the cleaning mechanism 102 includes fourteen cleaning shafts 48 symmetrically disposed in the cleaning cavity 70, brush wheels 49 are fixedly disposed on the outer circumference of the cleaning shafts 48, cleaning pulleys 46 are fixedly disposed at the upper ends of the cleaning shafts 48, the cleaning pulleys 46 are connected by a third belt 47, a cleaning motor 45 is fixedly disposed on the upper wall of the power cavity 44, the cleaning motor 45 is connected with the cleaning shaft 48 at the left end in a downward power manner, a spray head 50 is fixedly disposed on the upper wall of the cleaning cavity 70, a water tank 52 is disposed in the second machine body 67, the water tank 52 is connected with the spray head 50 by the pipeline 51, and a water inlet 53 is fixedly disposed on the front wall of the water tank 52.

Advantageously or exemplarily, the polishing mechanism 103 includes a polishing motor 55 fixedly disposed on a right wall of the second control chamber 54 in the third body 66, the polishing motor 55 is dynamically connected with a polishing shaft 56 extending leftwards, a delivery roller 57 is fixedly disposed on an outer circumference of the polishing shaft 56 near a left end, a first polishing belt wheel 58 is fixedly disposed on an outer circumference of the polishing shaft 56 near a right end, a second transmission shaft 61 is rotatably disposed in the second control chamber 54, a second polishing belt wheel 60 is fixedly disposed on an outer circumference of the second transmission shaft 61, the second polishing belt wheel 60 is dynamically connected with the first polishing belt wheel 58 through the polishing belt 59, a first bevel gear 62 is fixedly disposed at a left end of the second transmission shaft 61, a polishing disc shaft 64 is rotatably disposed on an upper wall of the polishing chamber 36, a second bevel gear 63 is fixedly disposed at an upper end of the polishing disc shaft 64, the second bevel gear 63 is meshed with the first bevel gear 62, and a polishing disc 65 is fixedly disposed at a lower end of the polishing disc shaft 64.

The invention relates to a building disassembly tile recycling machine, which comprises the following working procedures:

when cutting, the first motor 20 rotates forward to drive the rotating shaft 15 to rotate, so that the sucker arm 17 stretches out backwards, the sucker 18 sucks the tile, the first motor 20 rotates reversely to drive the sucker arm 17 to retract, the second motor 24 is started, the second motor shaft 25 rotates, the rotating arm 23 is driven to rotate through the reduction of the planetary gear reducer 79, meanwhile, the second motor shaft 25 drives the first transmission shaft 28 to rotate, the cutting shaft 32 rotates to drive the cutting blade 34 to rotate at a high speed, the cement residue on the back of the tile is cut, after the cutting is finished, the second motor 24 controls the cutting blade 34 to reset, the first motor 20 rotates forward to push the tile out forwards,

when the cleaning operation is performed, the transportation motor 37 rotates forward to enable the transportation pushing block 41 to drive the spline housing 42 to move rightwards to clamp the ceramic tile and push the ceramic tile into the cleaning cavity 70 rightwards, the cleaning motor 45 is started to drive the brush wheel 49 to rotate, and meanwhile, the spray head 50 is started to wash the surface of the ceramic tile.

When polishing work is performed, the transport motor 37 continues to rotate to push the tile to move to the position of the delivery roller 57, the turning motor 38 rotates forward to enable the spline housing 42 to turn backwards to be horizontal, the polishing motor 55 is started to enable the delivery roller 57 to deliver the tile backwards, and meanwhile the polishing disc 65 is driven to rotate to polish the tile.

The beneficial effects of the invention are as follows:

It will be apparent to those skilled in the art that various modifications to the above embodiments may be made without departing from the general spirit and concepts of the invention. Which fall within the scope of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a ceramic tile reclaimer is dismantled to building, includes base, its characterized in that: the polishing machine comprises a base, a polishing machine body, a polishing machine and a polishing mechanism, wherein a cutting groove and a sliding groove are formed in the base, the cutting groove is used for enabling a cut piece to pass through when cutting, a conveying mechanism is arranged in the sliding groove and used for conveying a tile to be processed, a first machine body is fixedly arranged on the base close to the left end, a cutting cavity with a backward opening is formed in the rear side face of the first machine body, a cutting mechanism is arranged in the cutting cavity and used for cutting and polishing residual cement on the tile, a first control cavity is formed in the first machine body, a pushing mechanism is arranged on the rear side of the first machine body and used for pushing the tile to be processed, a second machine body is arranged on the right side of the first machine body and fixedly arranged on the base, a cleaning cavity is formed in the second machine body, a cleaning mechanism is fixedly arranged in the cleaning cavity, the cleaning mechanism is used for cleaning the cut tile, a third polishing mechanism is arranged on the right rear side face of the second machine body and used for cleaning the left side face of the second machine body, a polishing mechanism is fixedly arranged on the polishing machine body, and a polishing cavity is formed in the polishing mechanism is formed in the polishing cavity;

the conveying mechanism comprises a conveying motor fixedly arranged on the left wall of the chute, the conveying motor is in power connection with a conveying shaft extending rightward, a conveying pushing block is arranged on the periphery of the conveying shaft in a sliding manner, the conveying pushing block is in threaded connection with the conveying shaft in a sliding manner, a turnover motor is fixedly arranged above the conveying motor, the turnover motor is in power connection with a turnover shaft extending rightward, a spline sleeve is arranged on the periphery of the turnover motor in a sliding manner, the spline sleeve is in spline fit with the turnover shaft, the spline sleeve is in rotary connection with the conveying pushing block, and a clamping plate is fixedly arranged on the periphery of the spline sleeve;

the cutting mechanism comprises a first motor fixedly arranged on the front wall of a first control cavity, the first motor is in power connection with a first motor shaft extending backwards, a first belt pulley is fixedly arranged on the periphery of the first motor shaft, two sucker arms which are communicated with the first control cavity and the cutting cavity are arranged on the rear wall of the first control cavity in a sliding mode, sucking discs are arranged at the rear ends of the sucker arms, rotating shafts are arranged on the periphery of the sucker arms in a rotating mode, the rotating shafts are in threaded fit connection with the sucker arms, second belt pulleys are fixedly arranged on the periphery of the two rotating shafts, the second belt pulleys are in power connection with the first belt pulley through a first belt, a second motor is fixedly arranged on the upper wall of the first control cavity, the second motor is in power connection with a second motor shaft extending backwards, a planetary gear reducer is connected on the second motor shaft, the planetary gear reducer shell is fixedly arranged on the first machine body, a rotary arm is rotationally arranged on the rear wall of the first control cavity, the planetary gear reducer is connected with the rotary arm, a speed changing cavity is internally arranged, a second motor shaft extends rightwards to enter the speed changing cavity, a cutting gear is fixedly arranged at the right end of the second motor shaft, a first transmission shaft is rotationally arranged above the second motor shaft, a transmission gear is fixedly arranged at the right end of the first transmission shaft, the cutting gear is meshed with the transmission gear, a third belt pulley is fixedly arranged on the periphery of the first transmission shaft, a cutting shaft is rotationally arranged on the front wall of the speed changing cavity, a fourth belt pulley is fixedly arranged on the periphery of the cutting shaft, the third belt pulley is in power connection with the fourth belt pulley through a second belt, a rotary table is fixedly arranged at the left end of the cutting shaft, the rotary table is fixedly provided with a cutting piece.

2. A building removal tile recycling machine according to claim 1, wherein: the pushing mechanism comprises two baffle plates which are arranged on the base in bilateral symmetry, a telescopic plate is arranged between the two baffle plates in a sliding mode, and a spring is arranged on the rear side of the telescopic plate.

3. A building removal tile recycling machine according to claim 2, wherein: the cleaning mechanism comprises fourteen cleaning shafts which are arranged in the cleaning cavity in a front-back symmetrical mode, brush wheels are fixedly arranged on the periphery of each cleaning shaft, cleaning belt wheels are fixedly arranged at the upper ends of the cleaning shafts in front of the cleaning shafts, the cleaning belt wheels are connected through a third belt, a cleaning motor is fixedly arranged on the upper wall of the power cavity, the cleaning motor is connected with the cleaning shafts at the left end in a downward mode in a power mode, a spray head is fixedly arranged on the upper wall of the cleaning cavity, a water tank is arranged in the second machine body, the water tank is connected with the spray head through a pipeline, and a water inlet is fixedly formed in the front wall of the water tank.

4. A building removal tile recycling machine according to claim 3, wherein: the polishing mechanism comprises a polishing motor fixedly arranged on the right wall of the second control cavity in the third machine body, the polishing motor is in power connection with a polishing shaft extending leftwards, a delivery roller is fixedly arranged on the periphery of the polishing shaft close to the left end, a first polishing belt wheel is fixedly arranged on the periphery of the polishing shaft close to the right end, a second transmission shaft is rotationally arranged on the second control cavity, a second polishing belt wheel is fixedly arranged on the periphery of the second transmission shaft, the second polishing belt wheel is in power connection with the first polishing belt wheel through a polishing belt, a first bevel gear is fixedly arranged at the left end of the second transmission shaft, a polishing disc shaft is rotatably arranged on the upper wall of the polishing cavity, a second bevel gear is fixedly arranged at the upper end of the polishing disc shaft, the second bevel gear is meshed with the first bevel gear, and a polishing disc is fixedly arranged at the lower end of the polishing disc shaft.