CN112170249A

CN112170249A - Corner utilization and waste crushing equipment for broken ceramic tiles

Info

Publication number: CN112170249A
Application number: CN202011029889.8A
Authority: CN
Inventors: 吴奇曲
Original assignee: Zibo Xiuxian Crafts Co ltd
Current assignee: Zibo Xiuxian Crafts Co ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2021-01-05

Abstract

The invention discloses a corner utilization and waste material crushing device for broken ceramic tiles, which comprises a placement block, wherein a placement cavity with a leading opening is arranged in the placement block, a ceramic tile moving mechanism is arranged in the placement cavity and comprises a pushing motor fixedly connected with the inner wall of the left side of the placement cavity, a pushing sector gear shaft in rotary connection is arranged on the pushing motor, a pushing sector gear in fixed connection is arranged on the pushing sector gear shaft, and a ceramic tile fixing frame in fixed connection is arranged on the inner wall of the lower side of the placement cavity. The non-reusable part is crushed and processed to prepare for the subsequent production of the tile again.

Description

Corner utilization and waste crushing equipment for broken ceramic tiles

Technical Field

The invention relates to the field of ceramic processing, in particular to a corner utilization and waste crushing device for broken ceramic tiles.

Background

The ceramic tile is formed through the processes of grinding, mixing, pressing, glazing and sintering, and is acid-alkali-resistant porcelain or stone, building or decoration materials are called as the ceramic tile, however, the ceramic tile is often broken under the condition of carelessness in the transportation or use process, different ceramic tile damage degrees are different according to the bumping degree, the damaged ceramic tiles are often thrown away to cause waste, and when the ceramic tile is pasted, a plurality of corner places can not be paved by using a whole ceramic tile, the ceramic tile is often required to be cut, and the waste of residual ceramic tiles can be caused if a new ceramic tile is used.

Disclosure of Invention

The invention aims to provide equipment for utilizing corners of broken tiles and crushing waste materials, and solve the problem that the broken tiles cannot be reused.

The invention is realized by the following technical scheme.

The invention relates to a corner utilization and waste material crushing device for broken ceramic tiles, which comprises a placement block, wherein a placement cavity with an advanced opening is arranged in the placement block, a ceramic tile moving mechanism is arranged in the placement cavity and comprises a pushing motor fixedly connected with the inner wall of the left side of the placement cavity, a pushing sector gear shaft which is rotationally connected is arranged on the pushing motor, a pushing sector gear which is fixedly connected is arranged on the pushing sector gear shaft, a ceramic tile fixing frame which is fixedly connected is arranged on the inner wall of the lower side of the placement cavity, a ceramic tile accommodating block which is fixedly connected is arranged on the ceramic tile fixing frame, a ceramic tile accommodating cavity with an upward opening is arranged in the ceramic tile accommodating block, a ceramic tile pushing plate which is connected in a sliding manner is arranged in the ceramic tile accommodating cavity, a pushing plate sliding groove is arranged on the left side of the ceramic tile accommodating, the ceramic tile pushing slide bar is connected with the ceramic tile receiving block in a sliding manner, a fixedly connected ceramic tile pushing spring is arranged on the inner wall of the lower side of the ceramic tile receiving cavity, the ceramic tile pushing spring is fixedly connected with the ceramic tile pushing plate, a plurality of ceramic tiles are arranged on the ceramic tile pushing plate, a fixedly connected pushing rack is arranged on the left side of the ceramic tile pushing plate, the pushing rack can be meshed with the pushing sector gear, a rotatably connected telescopic wheel shaft fixing block is arranged on the inner wall of the upper side of the placing cavity, a telescopic wheel shaft sliding groove with a downward opening is arranged on the telescopic wheel shaft fixing block, a fixedly connected telescopic spring is arranged in the telescopic wheel shaft sliding groove, a slidably connected telescopic wheel shaft is arranged in the telescopic wheel shaft fixing block, a fixedly connected rotating rod meshing gear is arranged on the telescopic wheel shaft, and, a fixed connection moving sucker motor is arranged on the sucker rotating rod, a fixed connection tile moving sucker is arranged on the moving sucker motor, a fixed connection gear meshing motor is arranged on the inner wall of the upper side of the placement cavity, a rotatably connected gear meshing motor shaft is arranged on the gear meshing motor, a fixed connection reset gear is arranged on the gear meshing motor shaft, a fixed connection cutting sector gear is also arranged on the gear meshing motor shaft, a fixed connection tile collecting sector gear is also arranged on the gear meshing motor shaft, and the reset gear, the cutting sector gear and the tile collecting sector gear can be mutually meshed with the rotating rod meshing gear;

the ceramic tile processing mechanism is arranged in the arrangement cavity and comprises a leftover material support frame fixedly connected with the inner wall of the lower side of the arrangement cavity, a fixedly connected leftover material accommodating block is arranged on the leftover material support frame, a leftover material accommodating cavity with an upward opening is arranged in the leftover material accommodating block, a leftover material supporting inclined plate in sliding connection is arranged in the leftover material accommodating cavity, a fixedly connected supporting inclined plate sliding rod is arranged on the lower end face of the leftover material supporting inclined plate, the supporting inclined plate sliding rod is in sliding connection with the leftover material accommodating block, a fixedly connected leftover material supporting spring is arranged on the lower end face of the leftover material accommodating cavity, the leftover material supporting spring is fixedly connected with the leftover material supporting inclined plate, a fixedly connected waste material crushing block is arranged on the inner wall of the lower side of the arrangement cavity, and a waste material crushing cavity with an upward opening is arranged in the waste material crushing block, the waste crushing cavity is provided with two waste collecting blocks which are fixedly connected with each other on the inner walls of the left side and the right side respectively, the waste crushing cavity is provided with a waste crushing shaft which is connected with each other in a rotating way on the inner wall of the rear side, the waste crushing shaft is provided with a fixedly connected waste crushing wheel which is symmetrical with respect to the waste crushing cavity, the inner wall of the rear side of the accommodating cavity is provided with a fixedly connected steering motor, the steering motor is provided with a steering motor shaft which is connected with each other in a rotating way, the steering motor shaft is provided with a fixedly connected adsorption motor, the adsorption rod fixing block is arranged on the adsorption motor, an adsorption rod chute with an upward opening is arranged in the adsorption rod fixing block, the lower end face of the steering motor shaft is provided with an adsorption rod supporting spring which is connected with each other in a sliding way, and the adsorption rod is fixedly connected with the adsorption, the ceramic tile processing sucker is fixedly connected with the upper end face of the adsorption rod, and the ceramic tile is adsorbed on the upper end face of the ceramic tile processing sucker.

Preferably, the ceramic tile processing mechanism further comprises a cutting motor which is connected with the inner wall of the rear side of the mounting cavity in a sliding manner, the rear side of the mounting cavity is internally provided with a fixedly connected cutting wheel, the cutting wheel is provided with a movable meshing gear shaft which is connected in a rotating manner, the movable meshing gear shaft is provided with a cutting rotating shaft which is connected in a sliding manner, the movable meshing gear shaft is provided with a fixedly connected movable meshing gear, the distance sensing block is provided with a slidably connected distance sensing block, the distance sensing block is connected with the movable meshing gear shaft in a rotating manner, the cutting rotating shaft is provided with a fixedly connected cutting movable fixed block, the cutting movable fixed block is provided with a fixedly connected cutting movable motor, the cutting movable motor is provided with a rotatably connected cutting movable motor shaft, and the cutting movable motor shaft is provided with a fixedly connected cutting, the cutting removes the cutting that is equipped with the slip case in the fixed block and removes the rack, the cutting remove the rack with cutting removal gear intermeshing, the cutting wheel left end face is equipped with fixed connection's cutting motor, be equipped with the cutting pivot of rotating the connection on the cutting motor, be equipped with the cutting wheel of fixed connection in the cutting pivot, be equipped with fixed connection's friction back shaft on the cutting removes the fixed block, be equipped with the friction supporting wheel of rotating the connection on the friction back shaft, the friction supporting wheel with cutting removes rack friction and rotates and is connected.

Preferably, ceramic tile processing mechanism still include with settle chamber downside inner wall fixed connection's ceramic tile and accomodate a support frame, the ceramic tile is accomodate the complete ceramic tile that is equipped with fixed connection on the piece support frame and is accomodate the piece, the complete ceramic tile is accomodate and is equipped with the ascending complete ceramic tile of opening and accomodates the chamber in the piece, the complete ceramic tile is accomodate the intracavity and is equipped with sliding connection's complete ceramic tile backup pad, complete ceramic tile is accomodate the ceramic tile supporting spring that chamber downside inner wall was equipped with fixed connection, ceramic tile supporting spring with complete ceramic tile backup pad fixed connection.

Preferably, the complete ceramic tile storage block and the leftover material storage block are located in the same vertical direction, and the support inclined plate sliding rod and the telescopic gear shaft are located in the same vertical direction.

The invention has the beneficial effects that: the tile is sucked up through the sucking disc, whether the tile is intact or not is judged according to the weight of the tile, the intact tile is arranged, the damaged tile is classified again, the tile which can be processed and utilized is cut after classification, the usable part is reserved and collected, the part which cannot be reused is crushed and processed, and preparation is made for the next production of the tile.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention in the direction of A-A in FIG. 1;

FIG. 3 is a schematic view of the embodiment of the present invention in the direction B-B shown in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The corner utilization and waste material crushing equipment for broken ceramic tiles comprises a placement block 10, wherein a placement cavity 11 with an advanced opening is arranged in the placement block 10, a ceramic tile moving mechanism 80 is arranged in the placement cavity 11, the ceramic tile moving mechanism 80 comprises a pushing motor 12 fixedly connected with the inner wall of the left side of the placement cavity 11, a pushing sector gear shaft 14 connected in a rotating mode is arranged on the pushing motor 12, a pushing sector gear 13 fixedly connected is arranged on the pushing sector gear shaft 14, a ceramic tile fixing frame 16 fixedly connected is arranged on the inner wall of the lower side of the placement cavity 11, a ceramic tile accommodating block 17 fixedly connected is arranged on the ceramic tile fixing frame 16, a ceramic tile accommodating cavity 18 with an upward opening is arranged in the ceramic tile accommodating block 17, a ceramic tile pushing plate 21 connected in a sliding mode is arranged in the ceramic tile accommodating cavity 18, and a pushing plate sliding groove 23 is arranged on the left side of the ceramic tile accommodating block, a ceramic tile pushing slide rod 19 fixedly connected is arranged on the lower side of the ceramic tile pushing plate 21, the ceramic tile pushing slide rod 19 is connected with the ceramic tile accommodating block 17 in a sliding manner, a ceramic tile pushing spring 20 fixedly connected is arranged on the inner wall of the lower side of the ceramic tile accommodating cavity 18, the ceramic tile pushing spring 20 is fixedly connected with the ceramic tile pushing plate 21, a plurality of ceramic tiles 22 are arranged on the ceramic tile pushing plate 21, a pushing rack 15 fixedly connected is arranged on the left side of the ceramic tile pushing plate 21, the pushing rack 15 can be meshed with the pushing sector gear 13, a telescopic wheel shaft fixing block 29 rotatably connected is arranged on the inner wall of the upper side of the placing cavity 11, a telescopic wheel shaft sliding groove 30 with a downward opening is arranged on the telescopic wheel shaft fixing block 29, a telescopic spring 31 fixedly connected is arranged in the telescopic wheel shaft sliding groove 30, and a telescopic wheel shaft, a fixedly connected rotating rod meshing gear 27 is arranged on the telescopic gear shaft 28, a fixedly connected sucking disc rotating rod 26 is arranged at the lower side of the telescopic gear shaft 28, the sucker rotating rod 26 is provided with a fixedly connected movable sucker motor 25, the movable sucker motor 25 is provided with a fixedly connected tile movable sucker 24, the inner wall of the upper side of the placing cavity 11 is provided with a gear meshing motor 32 which is fixedly connected, the gear meshing motor 32 is provided with a gear meshing motor shaft 76 which is rotatably connected, a reset gear 33 fixedly connected with the gear meshing motor shaft 76 is arranged on the gear meshing motor shaft 76, a cutting sector gear 34 fixedly connected with the gear meshing motor shaft 76 is also arranged on the gear meshing motor shaft 76, a tile collecting sector gear 35 fixedly connected with the gear meshing motor shaft 76 is also arranged on the gear meshing motor shaft 76, the reset gear 33, the cutting sector gear 34 and the tile collecting sector gear 35 can be mutually meshed with the rotating rod meshing gear 27;

the ceramic tile processing mechanism 81 is arranged in the arrangement cavity 11, the ceramic tile processing mechanism 81 comprises a leftover material supporting frame 37 fixedly connected with the inner wall of the lower side of the arrangement cavity 11, a fixedly connected leftover material accommodating block 44 is arranged on the leftover material supporting frame 37, an leftover material accommodating cavity 42 with an upward opening is arranged in the leftover material accommodating block 44, a slidably connected leftover material supporting inclined plate 40 is arranged in the leftover material accommodating cavity 42, a fixedly connected supporting inclined plate sliding rod 41 is arranged on the lower end face of the leftover material supporting inclined plate 40, the supporting inclined plate sliding rod 41 is slidably connected with the leftover material accommodating block 44, a fixedly connected leftover material supporting spring 43 is arranged on the lower end face of the leftover material accommodating cavity 42, the leftover material supporting spring 43 is fixedly connected with the leftover material supporting inclined plate 40, and a fixedly connected waste material crushing block 45 is arranged on the inner wall of the lower side of the arrangement cavity 11, the waste crushing device is characterized in that a waste crushing cavity 46 with an upward opening is arranged in the waste crushing block 45, the inner walls of the left side and the right side of the waste crushing cavity 46 are respectively provided with a waste collecting block 47 fixedly connected, the inner wall of the rear side of the waste crushing cavity 46 is provided with a waste crushing shaft 77 rotatably connected, the waste crushing shaft 77 is provided with a waste crushing wheel 48 fixedly connected, the waste crushing wheel 48 is provided with two bilateral symmetry about the waste crushing cavity 46, the inner wall of the rear side of the placement cavity 11 is provided with a steering motor 49 fixedly connected, the steering motor 49 is provided with a steering motor shaft 51 rotatably connected, the steering motor shaft 51 is provided with an adsorption motor 50 fixedly connected, the adsorption rod fixing block 52 arranged on the adsorption motor 50 is provided with an adsorption rod sliding groove 54 with an upward opening, and the lower end face of the steering motor shaft 51 is provided with an adsorption rod supporting spring 55 fixedly connected, an adsorption rod 56 in sliding connection is arranged in the adsorption rod sliding groove 54, the adsorption rod 56 is fixedly connected with the adsorption rod supporting spring 55, a fixedly connected tile processing sucker 57 is arranged on the upper end face of the adsorption rod 56, and the upper end face of the tile processing sucker 57 is provided with the adsorbed tile 22.

Beneficially, the tile processing mechanism 81 further comprises a cutting motor 62 slidably connected to the inner wall of the rear side of the mounting cavity 11, a fixedly connected cutting wheel 61 is arranged in the rear side of the mounting cavity 11, a rotatably connected moving meshing gear shaft 59 is arranged on the cutting wheel 61, a slidably connected cutting rotating shaft 63 is arranged on the moving meshing gear shaft 59, a fixedly connected moving meshing gear 58 is arranged on the moving meshing gear shaft 59, a slidably connected distance sensing block 60 is arranged on the distance sensing block 60, the distance sensing block 60 is rotatably connected to the moving meshing gear shaft 59, a fixedly connected cutting moving fixing block 70 is arranged on the cutting rotating shaft 63, a fixedly connected cutting moving motor 65 is arranged on the cutting moving fixing block 70, a rotatably connected cutting moving motor shaft 66 is arranged on the cutting moving motor 65, and a fixedly connected cutting moving gear 67 is arranged on the cutting moving motor shaft 66, be equipped with the cutting of slip case and remove rack 64 in the cutting removes fixed block 70, the cutting remove rack 64 with the cutting removes gear 67 intermeshing, cutting wheel 61 left end face is equipped with fixed connection's cutting motor 62, be equipped with the cutting pivot 63 of rotating the connection on the cutting motor 62, be equipped with fixed cutting wheel 61 of linking on the cutting pivot 63, be equipped with fixed connection's friction back shaft 68 on the cutting removes fixed block 70, be equipped with the friction back shaft 69 of rotating the connection on the friction back shaft 68, friction back shaft 69 with the cutting removes rack 64 friction rotation and is connected.

Beneficially, the tile processing mechanism 81 further comprises a tile accommodating block supporting frame 75 fixedly connected with the inner wall of the lower side of the placement cavity 11, a whole tile accommodating block 71 fixedly connected with the tile accommodating block supporting frame 75 is arranged on the tile accommodating block, a whole tile accommodating cavity 73 with an upward opening is arranged in the whole tile accommodating block 71, a whole tile supporting plate 72 with a sliding connection is arranged in the whole tile accommodating cavity 73, a tile supporting spring 74 with a fixed connection is arranged on the inner wall of the lower side of the whole tile accommodating cavity 73, and the tile supporting spring 74 is fixedly connected with the whole tile supporting plate 72.

Advantageously, the complete tile receiving block 71 is in the same vertical direction as the scrap receiving block 44, and the support sloping plate slide bar 41 is in the same vertical direction as the telescopic gear shaft 28.

At the time of initial condition, promote sector gear 13 with it is in the unengaged state to promote rack 15, ceramic tile promotion spring 20 is in compression state, leftover bits supporting spring 43 is in normal condition, cutting wheel 61 is in settle chamber 11 foremost, apart from response piece 60 in settle chamber 11 rightmost side, ceramic tile removes sucking disc 24 and is located directly over ceramic tile accomodates piece 17, dwang meshing gear 27 with reset gear 33 intermeshing.

Application method

When the ceramic tile pushing device is used, the pushing motor 12 is started, the pushing motor 12 drives the pushing sector gear shaft 14 to rotate anticlockwise, the pushing sector gear shaft 14 drives the pushing sector gear 13 to rotate anticlockwise, when the pushing sector gear 13 is meshed with the pushing rack 15, the pushing rack 15 drives the ceramic tile pushing plate 21 to move upwards, the ceramic tile pushing plate 21 drives the ceramic tile 22 to move upwards, the uppermost ceramic tile 22 is sucked by the ceramic tile moving sucking disc 24, the pushing sector gear shaft 14 is continuously rotated, the pushing sector gear shaft 14 is disengaged from the pushing rack 15, at this time, due to the weight of the ceramic tile 22, the ceramic tile 22 moves downwards, at this time, the ceramic tile moving sucking disc 24 sucks the ceramic tile 22, and due to gravity, the sucking disc rotating rod 26 drives the telescopic gear shaft 28 to move downwards, at this point, if the tile is perfectly good, at which time the tile 22 is the heaviest, the rotating rod engaging gear 27 falls into engagement with the tile collecting sector gear 35, at which time the gear engaging motor 32 is activated. The gear engaging motor shaft 76 is driven to rotate, the gear engaging motor shaft 76 drives the tile collecting sector gear 35 to rotate, the tile collecting sector gear 35 drives the rotating rod engaging gear 27 to rotate ninety degrees, the rotating rod engaging gear 27 drives the telescopic gear shaft 28 to rotate ninety degrees, the telescopic gear shaft 28 drives the sucker rotating rod 26 to rotate, the sucker rotating rod 26 drives the tile moving sucker 24 to rotate, the tile moving sucker 24 drives the tile 22 which is adsorbed to rotate ninety degrees, at the moment, the tile moving sucker 24 is positioned above the leftover material storage block 44, the moving sucker motor 25 is closed, so that the tile 22 on the tile moving sucker 24 can be placed on the leftover material supporting sloping plate 40, after the tile 22 is placed on the leftover material supporting sloping plate 40, the retractable gear shaft 28 moves upward due to the elastic force of the retractable gear shaft sliding slot 30 and is engaged with the reset gear 33, so that the reset gear 33 can drive the movable suction cup motor 25 to return to the initial position, if the tile 22 adsorbed by the movable suction cup motor 25 is a broken waste, due to the weight, the pulling force of the retractable spring 31 drives the rotating rod engaging gear 27 and the cutting sector gear 34 to contact each other, the cutting sector gear 34 drives the rotating rod engaging gear 27 to rotate one hundred eighty degrees, so that the tile 22 on the movable suction cup motor 25 is placed on the tile processing suction cup 57, and due to the weight, the tile processing suction cup 57 drives the adsorption rod 56 to move downward, and when the tile 22 is a waste which cannot be processed, the weight of the tile 22 is less than the elastic force of the adsorption rod supporting spring 55, so that the adsorption rod 56 cannot contact with the adsorption motor starting block 53, the tile 22 on the tile processing suction cup 57 falls into the waste material pulverizing chamber 46, and the waste material pulverizing shaft 77 rotates, the waste material pulverizing shaft 77 drives the waste material pulverizing wheel 48 to rotate, the waste material pulverizing wheels 48 on both sides synchronously rotate, so that the waste material falling into the waste material pulverizing chamber 46 is pulverized, if the tile 22 is a processable waste material, the weight of the tile 22 is greater than the elastic force of the adsorption rod supporting spring 55, so that the adsorption rod 56 contacts with the adsorption motor starting block 53, the adsorption motor 50 is started, the tile processing suction cup 57 can suck the tile 22, and simultaneously the cutting motor 62 is started, the cutting motor 62 drives the movable meshing gear shaft 59 to rotate, and the movable meshing gear shaft 59 drives the movable meshing gear 58 to rotate, since the moving meshing gear 58 is meshed with the cutting wheel 61, the moving meshing gear shaft 59 drives the distance sensing block 60 to move left and right on the cutting wheel 61, so as to detect the damage degree of the edge of the ceramic tile 22, when the distance sensing block 60 detects the intact edge of the ceramic tile 22, at the same time, the cutting rotating shaft 63 drives the cutting moving fixing block 70 to move to the position, the cutting moving motor 65 is started, the cutting moving motor 65 drives the cutting moving motor shaft 66 to rotate, the cutting moving motor shaft 66 drives the cutting moving gear 67 to rotate, since the cutting moving gear 67 is meshed with the cutting moving rack 64, the cutting moving gear 67 pushes the cutting moving rack 64 to move left, and the cutting moving rack 64 drives the cutting motor 62 to move left, the cutting motor 62 drives the cutting wheel 61 to move leftwards, meanwhile, the cutting motor 62 is started, the cutting motor 62 drives the cutting rotating shaft 63 to rotate, the cutting rotating shaft 63 drives the cutting wheel 61 to rotate, the cutting effect is achieved, the cut and fallen waste materials also directly fall into the waste material crushing cavity 46 to be crushed, after the cutting is finished, the cutting moving motor 65 is started reversely, the cutting wheel 61 returns to the initial position, the steering motor 49 is started, the steering motor 49 drives the steering motor shaft 51 to rotate, the steering motor shaft 51 drives the adsorption motor 50 to rotate, the adsorption motor 50 drives the adsorption rod 56 to rotate, the adsorption rod 56 drives the tile processing sucker 57 to rotate, the tile processing sucker 57 drives the adsorption rod fixing block 52 to rotate, at the moment, the adsorption rod fixing block 52 no longer adsorbs the ceramic tile 22, so that the ceramic tile 22 falls on the leftover material supporting sloping plate 40, the collection effect of the cut ceramic tile is achieved, and the whole movement process is completed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a corner utilization and waste material crushing apparatus of broken ceramic tile, is including settling the piece, its characterized in that: a placing cavity with an advanced opening is arranged in the placing block, a tile moving mechanism is arranged in the placing cavity, the tile moving mechanism comprises a pushing motor fixedly connected with the inner wall of the left side of the placing cavity, a pushing sector gear shaft which is connected in a rotating manner is arranged on the pushing motor, a pushing sector gear which is fixedly connected is arranged on the pushing sector gear shaft, a tile fixing frame which is fixedly connected is arranged on the inner wall of the lower side of the placing cavity, a tile accommodating block which is fixedly connected is arranged on the tile fixing frame, a tile accommodating cavity with an upward opening is arranged in the tile accommodating block, a tile pushing plate which is connected in a sliding manner is arranged in the tile accommodating cavity, a pushing plate sliding groove is arranged on the left side of the tile accommodating block, a tile pushing sliding rod which is fixedly connected is arranged on the lower side of the tile pushing plate, the tile pushing rod is connected with the tile accommodating, the ceramic tile pushing spring is fixedly connected with the ceramic tile pushing plate, a plurality of ceramic tiles are arranged on the ceramic tile pushing plate, a fixedly connected pushing rack is arranged on the left side of the ceramic tile pushing plate and can be meshed with the pushing sector gear, a telescopic wheel shaft fixing block which is rotatably connected is arranged on the inner wall of the upper side of the mounting cavity, a telescopic wheel shaft chute with a downward opening is arranged on the telescopic wheel shaft fixing block, a fixedly connected telescopic spring is arranged in the telescopic wheel shaft chute, a telescopic wheel shaft which is in sliding connection is arranged in the telescopic wheel shaft fixing block, a fixedly connected rotating rod meshing gear is arranged on the telescopic wheel shaft, a fixedly connected sucking disc rotating rod is arranged on the lower side of the telescopic wheel shaft, a fixedly connected moving sucking disc motor is arranged on the sucking disc rotating rod, and a fixedly connected ceramic tile, the inner wall of the upper side of the placement cavity is provided with a fixedly connected gear meshing motor, the gear meshing motor is provided with a rotatably connected gear meshing motor shaft, the gear meshing motor shaft is provided with a fixedly connected reset gear, the gear meshing motor shaft is also provided with a fixedly connected cutting sector gear, the gear meshing motor shaft is also provided with a fixedly connected tile collecting sector gear, and the reset gear, the cutting sector gear and the tile collecting sector gear can be mutually meshed with the rotating rod meshing gear;

2. A corner utilization and waste reduction apparatus for broken tiles according to claim 1 wherein: the ceramic tile processing mechanism also comprises a cutting motor which is connected with the inner wall of the rear side of the mounting cavity in a sliding manner, the rear side of the mounting cavity is internally provided with a fixedly connected cutting wheel, the cutting wheel is provided with a movable meshing gear shaft which is connected in a rotating manner, the movable meshing gear shaft is provided with a cutting rotating shaft which is connected in a sliding manner, the movable meshing gear shaft is provided with a fixedly connected movable meshing gear, the distance sensing block is provided with a slidably connected distance sensing block, the distance sensing block is rotationally connected with the movable meshing gear shaft, the cutting rotating shaft is provided with a fixedly connected cutting movable fixed block, the cutting movable fixed block is provided with a fixedly connected cutting movable motor, the cutting movable motor is provided with a rotatably connected cutting movable motor shaft, the cutting movable motor shaft is provided with a fixedly connected cutting movable gear, and the cutting movable fixed block is internally provided with a cutting movable, the cutting movable rack is meshed with the cutting movable gear, the left end face of the cutting wheel is provided with a cutting motor fixedly connected, the cutting motor is provided with a cutting rotating shaft connected in a rotating mode, the cutting rotating shaft is provided with a cutting wheel fixedly connected, the cutting movable fixing block is provided with a friction supporting shaft fixedly connected, the friction supporting shaft is provided with a friction supporting wheel connected in a rotating mode, and the friction supporting wheel is connected with the cutting movable rack in a rotating mode in a friction mode.

3. A corner utilization and waste reduction apparatus for broken tiles according to claim 1 wherein: ceramic tile processing mechanism still include with settle chamber downside inner wall fixed connection's ceramic tile and accomodate a support frame, the complete ceramic tile that is equipped with fixed connection on the ceramic tile accomodates a support frame accomodates the piece, complete ceramic tile accomodates the piece and is equipped with the ascending complete ceramic tile of opening and accomodates the chamber, complete ceramic tile accomodates the intracavity and is equipped with sliding connection's complete ceramic tile backup pad, complete ceramic tile accomodates chamber downside inner wall and is equipped with fixed connection's ceramic tile supporting spring, ceramic tile supporting spring with complete ceramic tile backup pad fixed connection.

4. A corner utilization and waste reduction apparatus for broken tiles according to claim 1 wherein: the complete ceramic tile storage block and the leftover material storage block are located in the same vertical direction, and the support inclined plate sliding rod and the telescopic gear shaft are located in the same vertical direction.