CN109895265B

CN109895265B - Ceramic fiber block cutting machine

Info

Publication number: CN109895265B
Application number: CN201711303630.6A
Authority: CN
Inventors: 李卿安; 孟红云
Original assignee: Jingmen Zhicheng Electromechanical Equipment Co ltd
Current assignee: Jingmen Zhicheng Electromechanical Equipment Co ltd
Priority date: 2017-12-11
Filing date: 2017-12-11
Publication date: 2023-11-10
Anticipated expiration: 2037-12-11
Also published as: CN109895265A

Abstract

The utility model provides a ceramic fiber piece slabbing machine, it includes transection mechanism, raking mechanism and longitudinal cutting mechanism, transection mechanism includes A conveyer belt (4), transection saw blade (5), saw frame (6) and a pair of A lead screw (7), A conveyer belt (4) horizontal installation is on A support frame (8), and one end of A conveyer belt (4) is equipped with layer board (9), open on layer board (9) has saw blade standing groove, transection saw blade (5) are installed on saw frame (6) and are located saw blade standing groove, saw frame (6) both sides are respectively through A lead screw (7) and a pair of cylinder guide rail (10) movable mounting on A support frame (8); the advantages are that: the ceramic fiber block cutting machine can cut ceramic fiber blocks for multiple times, and simultaneously removes burrs of the ceramic fiber blocks, so that the working efficiency is improved, the labor intensity of workers is reduced, the machining quality is high, and the yield is high.

Description

Ceramic fiber block cutting machine

Technical Field

The invention relates to the field of dicing machinery, in particular to a ceramic fiber block dicing machine.

Background

At present, the cutting device of ceramic fiber blocks is mostly single in function, can not cut ceramic fiber blocks for many times and form once, leads to consuming a large amount of manpower, and efficiency and qualification rate are lower.

Disclosure of Invention

The invention aims to overcome the defects and provide a ceramic fiber block cutting machine.

The invention comprises a transverse cutting mechanism, a raking mechanism and a longitudinal cutting mechanism,

the transverse cutting mechanism comprises an A conveyer belt, a transverse cutting saw blade, a sawing machine body and a pair of A lead screws, wherein the A conveyer belt is horizontally arranged on an A supporting frame, one end of the A conveyer belt is provided with a supporting plate, the supporting plate is provided with a saw blade placing groove, the transverse cutting saw blade is arranged on the sawing machine body and is positioned in the saw blade placing groove, two sides of the sawing machine body are respectively movably arranged on the A supporting frame through the A lead screws and a pair of cylindrical guide rails, the top of the A supporting frame is fixedly provided with a pair of A motors, the power output shafts of the A motors are respectively fixedly connected with one ends of the A lead screws,

the raking mechanism comprises a B conveyer belt, a push plate, a limiting plate, a raking plate and a connecting plate, wherein the B conveyer belt is horizontally and fixedly arranged on a B support frame, an air cylinder is fixedly arranged on the B support frame, a power output shaft of the air cylinder is fixedly connected with the push plate, the limiting plate is fixedly arranged on the B support frame and positioned on one side of the push plate, one end of the raking plate is fixedly arranged on a rotating shaft of a rotating air cylinder, the raking plate is positioned between the push plate and the limiting plate, the rotating air cylinder is fixedly arranged on one side of the connecting plate, the other side of the connecting plate is movably arranged on a B screw rod, a pair of sliding rails is arranged at the top of the supporting frame, two ends of the connecting plate respectively move in the pair of sliding rails through sliding blocks, the B screw rod is arranged on the B support frame, one end of the B screw rod is fixedly connected with an A reducer, a power input shaft of the A reducer is connected with a B motor,

the slitting mechanism comprises a pair of shaft roller connecting plates, a group of upper shaft rollers, a group of lower shaft rollers, a pair of electric trimming saw blades and an electric slitting saw blade, wherein the shaft roller connecting plates are in a parallelogram shape, the shaft roller connecting plates are respectively and fixedly arranged on a C support frame, the shaft roller connecting plates are in staggered arrangement, two ends of the upper shaft rollers and the lower shaft rollers are respectively and movably arranged on the shaft roller connecting plates, driving wheels at two ends of the upper shaft rollers and the lower shaft rollers are respectively connected through a group of driving chains, a B reducer is respectively connected to driving rollers of the upper shaft rollers and the lower shaft rollers, the B reducer is respectively connected with a pair of C motors, annular grooves are respectively formed in the middle parts of the upper shaft rollers and the lower shaft rollers, the electric trimming saw blades are respectively arranged on a pair of A saw blade frames and are respectively arranged on one sides of the shaft roller connecting plates, the A saw blade frames are respectively and symmetrically arranged on the other sides of the shaft roller connecting plates, and the electric slitting saw blades are respectively arranged between the shaft roller connecting plates and correspond to the annular grooves.

The raking plate is provided with a group of through holes.

The power output shafts of the pair of C motors rotate synchronously.

The device is also provided with a slag conveying belt which is fixedly arranged on the C support frame and is positioned below a group of shaft rollers.

The transverse cutting saw blade, the pair of electric trimming saw blades and the electric longitudinal cutting saw blade are all diamond band saw blades.

A group of upper shaft rollers and a group of lower shaft rollers are coated with rubber layers.

The invention has the advantages that: the ceramic fiber block cutting machine can cut ceramic fiber blocks for multiple times, and simultaneously removes burrs of the ceramic fiber blocks, so that the working efficiency is improved, the labor intensity of workers is reduced, the machining quality is high, and the yield is high.

Description of the drawings

Fig. 1 is a schematic diagram of the structure of the present invention.

Fig. 2 is a schematic structural view of the transverse cutting mechanism of the invention.

Fig. 3 is a schematic view of a partially enlarged structure of the transverse cutting mechanism of the present invention.

FIG. 4 is a schematic view of a partial structure of a skimming mechanism according to the present invention.

Fig. 5 is a schematic view of the structure of the push plate of the present invention.

FIG. 6 is a schematic diagram of a skimming mechanism according to the present invention.

FIG. 7 is a schematic view of the slitting mechanism according to the present invention.

Detailed Description

As shown in the drawings, the invention comprises a transverse cutting mechanism, a raking mechanism and a longitudinal cutting mechanism,

the transverse cutting mechanism comprises an A conveyer belt 4, a transverse cutting saw blade 5, a saw body 6 and a pair of A lead screws 7, wherein the A conveyer belt 4 is horizontally arranged on an A supporting frame 8, one end of the A conveyer belt 4 is provided with a supporting plate 9, the supporting plate 9 is provided with a saw blade placing groove, the transverse cutting saw blade 5 is arranged on the saw body 6 and is positioned in the saw blade placing groove, two sides of the saw body 6 are respectively movably arranged on the A supporting frame 8 through the A lead screws 7 and a pair of cylindrical guide rails 10, the top of the A supporting frame 8 is fixedly provided with a pair of A motors 11, the power output shafts of the A motors 11 are respectively fixedly connected with one ends of the A lead screws 7,

the raking mechanism comprises a B conveyer belt 12, a push plate 13, a limiting plate 14, a raking plate 15 and a connecting plate 16, wherein the B conveyer belt 12 is horizontally and fixedly arranged on a B supporting frame 17, an air cylinder 18 is fixedly arranged on the B supporting frame 17, a power output shaft of the air cylinder 18 is fixedly connected with the push plate 13, the limiting plate 14 is fixedly arranged on the B supporting frame 17 and positioned on one side of the push plate 13, one end of the raking plate 15 is fixedly arranged on a rotating shaft of a rotating air cylinder 19, the raking plate 15 is positioned between the push plate 13 and the limiting plate 14, the rotating air cylinder 19 is fixedly arranged on one side of the connecting plate 16, the other side of the connecting plate 16 is movably arranged on a B lead screw 20, a pair of sliding rails 22 are arranged at the top of the supporting frame 17, two ends of the connecting plate 16 respectively move in the pair of sliding rails 22 through sliding blocks, the B lead screw 20 is arranged on the B supporting frame 17, one end of the B lead screw 20 is fixedly connected with an A reducer 23, the power input shaft of the A reducer 23 is connected with a B motor 24,

the slitting mechanism comprises a pair of shaft roller connecting plates 25, a group of upper shaft rollers 26, a group of lower shaft rollers 27, a pair of electric trimming saw blades 28 and an electric slitting saw blade 29, wherein the shaft roller connecting plates 25 are in a parallelogram shape, the shaft roller connecting plates 25 are respectively and fixedly arranged on a C support frame 30, the shaft roller 26 and the lower shaft roller 27 are respectively and alternately arranged, two ends of the shaft roller 26 and the lower shaft roller 27 are respectively and movably arranged on the shaft roller connecting plates 25, driving wheels at two ends of the shaft roller 26 and the lower shaft roller 27 are respectively connected with a B speed reducer 33 on a driving roller 32 of the shaft roller 27, the B speed reducer 33 is respectively connected with a pair of C motors 34, the shaft roller 26 and the lower shaft roller 27 are respectively and centrally arranged with an annular groove 35, the electric trimming saw blade 28 is respectively arranged on a pair of A shaft roller connecting plates 36 and is respectively arranged on one side of the shaft roller connecting plates 25, the pair of A shaft connecting plates 36 are respectively and symmetrically arranged on the other side of the shaft roller connecting plates 25, the electric trimming saw blade frame 29 is respectively arranged on the other side of the shaft saw blade connecting plates 25, and the opposite side of the shaft saw blade connecting plates 29.

The skimming plate 15 is provided with a set of through holes 38.

The power output shafts of the pair of C motors 34 rotate in synchronization.

It also has a slag conveyor 39, the slag conveyor 39 being fixedly mounted on the C-frame 30 below the set of rollers 25.

The cross cutting blade 5, the pair of motorized side cutting blades 28 and the motorized side cutting blade 29 are all diamond band saw blades.

A set of upper shaft rollers 26 and a set of lower shaft rollers 28, 27 are each covered with a rubber layer.

The working mode is as follows: placing the ceramic fiber blocks on an A conveyer belt 4, stopping moving the A conveyer belt 4 when the A conveyer belt 4 conveys the ceramic fiber blocks to a supporting plate 9, enabling a sawing machine body 6 to move downwards under the driving of rotation of an A lead screw 7, enabling a motor in the sawing machine body 6 to drive a transverse saw blade 5 to transversely cut the ceramic fiber blocks, cutting the ceramic fiber blocks, enabling the A conveyer belt 4 to continue moving after the ceramic fiber blocks are cut, and conveying the cut ceramic fiber blocks to a B conveyer belt 12; when the B conveyer belt 12 drives the cut ceramic fiber blocks between the push plate 13 and the limiting plate 14, the push plate 13 pushes the ceramic fiber blocks to enable the ceramic fiber blocks to be attached to the limiting plate 14 under the driving of the air cylinder 18, the scraping plate 15 pushes the cut ceramic fiber blocks forward under the driving of the air cylinder 19, the ceramic fiber blocks are driven to a position between the upper shaft rollers 26 and the lower shaft rollers 27, the B conveyer belt 12 stops running, the scraping plate 15 is retracted to the horizontal position with the B conveyer belt 12 under the driving of the air cylinder 19, the upper shaft rollers 26 and the lower shaft rollers 27 compress the ceramic fiber blocks and simultaneously drive the ceramic fiber blocks to move continuously, the electric trimming saw blades 28 cut burrs on two sides of the ceramic fiber blocks, and the electric slitting saw blades 29 cut the ceramic fiber blocks into two blocks with the same size; the slag conveying belt 39 uniformly conveys the slag generated by the slitting mechanism; the through holes 38 on the skimming plate 15 reduce the weight of the skimming plate 15 and reduce the airflow generated when the skimming plate 15 rotates.

Claims

1. A ceramic fiber block cutting machine is characterized by comprising a transverse cutting mechanism, a raking mechanism and a longitudinal cutting mechanism,

the transverse cutting mechanism comprises an A conveying belt (4), a transverse cutting saw blade (5), a saw body (6) and a pair of A lead screws (7), wherein the A conveying belt (4) is horizontally arranged on an A supporting frame (8), one end of the A conveying belt (4) is provided with a supporting plate (9), a saw blade placing groove is formed in the supporting plate (9), the transverse cutting saw blade (5) is arranged on the saw body (6) and is positioned in the saw blade placing groove, two sides of the saw body (6) are movably arranged on the A supporting frame (8) through the A lead screws (7) and a pair of cylindrical guide rails (10) respectively, a pair of A motors (11) are fixedly arranged at the top of the A supporting frame (8), and power output shafts of the pair of A motors (11) are fixedly connected with one ends of the A lead screws (7) respectively,

the raking mechanism comprises a B conveying belt (12), a push plate (13), a limiting plate (14), a raking plate (15) and a connecting plate (16), wherein the B conveying belt (12) is horizontally and fixedly arranged on a B supporting frame (17), an air cylinder (18) is fixedly arranged on the B supporting frame (17), a power output shaft of the air cylinder (18) is fixedly connected with the push plate (13), the limiting plate (14) is fixedly arranged on the B supporting frame (17) and positioned on one side of the push plate (13), one end of the raking plate (15) is fixedly arranged on a rotating shaft of a rotating air cylinder (19), the raking plate (15) is positioned between the push plate (13) and the limiting plate (14), the rotating air cylinder (19) is fixedly arranged on one side of the connecting plate (16), the other side of the connecting plate (16) is movably arranged on a B screw (20), a pair of sliding rails (22) are arranged at the top of the supporting frame (17), two ends of the connecting plate (16) are respectively moved in the pair of sliding rails (22), the B screw (20) is arranged on the B supporting frame (17), one end of the B screw (20) is fixedly connected with a speed reducer (23), the power input shaft (24) of the motor (23) is connected with the speed reducer (24),

the slitting mechanism comprises a pair of shaft roller connecting plates (25), a group of upper shaft rollers (26), a group of lower shaft rollers (27), a pair of electric trimming saw blades (28) and an electric slitting saw blade (29), wherein the pair of shaft roller connecting plates (25) are in a parallelogram shape, the pair of shaft roller connecting plates (25) are respectively and fixedly arranged on a C supporting frame (30), the group of upper shaft rollers (26) and the group of lower shaft rollers (27) are in staggered arrangement, two ends of the group of upper shaft rollers (26) and the group of lower shaft rollers (27) are respectively and movably arranged on the pair of shaft roller connecting plates (25), driving wheels at two ends of the group of upper shaft rollers (26) and the group of lower shaft rollers (27) are respectively connected through a group of driving chains (31), a group of upper shaft rollers (26) and a group of lower shaft rollers (27) are respectively connected with a B speed reducer (33), a group of B speed reducer (33) is respectively connected with a pair of C motors (34), a group of upper shaft rollers (26) and a group of lower shaft rollers (27) are respectively arranged at two ends of the same, a pair of electric trimming saw blades (36) are respectively arranged on one side of the pair of shaft rollers (25) and the other side of the electric trimming saw blade connecting plates (25) respectively, and is positioned between a pair of shaft roller connecting plates (25), and the electric slitting saw blade (29) corresponds to a group of annular grooves (35);

a group of through holes (38) are formed in the raking plate (15);

a pair of C motors (34) having power output shafts that rotate in synchronism;

the slag conveying belt (39) is also arranged, and the slag conveying belt (39) is fixedly arranged on the C support frame (30) and is positioned below a group of shaft roller connecting plates (25);

the transverse cutting saw blade (5), the pair of electric trimming saw blades (28) and the electric longitudinal cutting saw blade (29) are all diamond band saw blades;

a group of upper shaft rollers (26) and a group of lower shaft rollers (27) are coated with rubber layers.