CN111633733A

CN111633733A - Rubber cutting machine

Info

Publication number: CN111633733A
Application number: CN202010430526.9A
Authority: CN
Inventors: 张学敏; 王官连; 马光杰; 郭万生; 李军; 江居立; 李文博
Original assignee: HEILONGJIANG DIER PHARMACY MACHINE Ltd
Current assignee: HEILONGJIANG DIER PHARMACY MACHINE Ltd
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2020-09-08

Abstract

The invention discloses a dicing machine which is sequentially provided with a dicing strip part, a material pushing part and a dicing part along a raw material film cutting transmission line; the adhesive tape cutting part comprises a first conveying belt mechanism and a slitting knife group mechanism used for cutting the raw material adhesive tape into semi-finished adhesive tapes, the adhesive tape cutting part comprises a second conveying belt mechanism and a slitting knife group mechanism used for dicing the semi-finished adhesive tapes, and the pushing part is arranged at the position of a vertical turning point of the adhesive tape cutting part and the conveying direction of the adhesive tape cutting part and used for changing the conveying direction of the semi-finished adhesive tapes. The invention provides a dicing machine, which adopts a straight-line and right-angle combined design, directly converts a slitting process and a dicing process without manual conversion, and simultaneously shortens the conversion route between the slitting process and the dicing process, thereby greatly improving the processing efficiency of donkey-hide gelatin, and has simple operation and labor saving through an electromechanical integrated control mode.

Description

Rubber cutting machine

Technical Field

The invention relates to the technical field of donkey-hide gelatin processing equipment, in particular to a dicing machine.

Background

Donkey-hide gelatin is a solid gum with certain hardness and viscosity during processing, and in modern production, donkey-hide gelatin is generally cut into smaller adhesive strips, blocks or cubes.

However, the existing machine can only cut the donkey-hide gelatin into adhesive strips or directly into diced donkey-hide gelatin, so that the donkey-hide gelatin cutting process can only be manually converted into the donkey-hide gelatin dicing process, and the donkey-hide gelatin processing efficiency is low.

Therefore, the problem to be solved by those skilled in the art is how to provide an integrated dicing machine for improving the processing efficiency of donkey-hide gelatin.

Disclosure of Invention

In view of the above, the invention provides a dicing machine, which adopts a straight-line and right-angle combined design, directly connects the donkey-hide gelatin slitting process to the donkey-hide gelatin dicing process through electromechanical integration, does not need manual conversion, and can ensure that the donkey-hide gelatin slitting process is smoothly connected to the donkey-hide gelatin dicing process.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a surely machine of gluing which characterized in that has set gradually along raw materials film cutting transmission route: the adhesive tape cutting part comprises an adhesive tape cutting part, a material pushing part and an adhesive tape dicing part;

the adhesive tape cutting part comprises a first platform, a first conveying belt mechanism for conveying a raw material adhesive tape and a strip rolling cutter set mechanism for cutting the raw material adhesive tape into semi-finished adhesive tapes are fixed on the table top of the first platform, the strip rolling cutter set mechanism stretches across two sides of the first conveying belt mechanism through a fixed vertical plate, and the transmission power of the first conveying belt mechanism is output through a gear transmission mechanism and is connected with the power input end of the strip rolling cutter set mechanism;

the glue cutting part comprises a second platform, a second conveyor belt mechanism for conveying semi-finished glue strips and a hobbing cutter set mechanism for cutting the semi-finished glue strips into pieces are fixed on the table top of the second platform, the hobbing cutter set mechanism stretches across two sides of the second conveyor belt mechanism through a fixed vertical plate, and transmission power of the second conveyor belt mechanism is output through a gear transmission mechanism and is connected with a power input end of the hobbing cutter set mechanism;

the first conveyor belt mechanism and the second conveyor belt mechanism are electrically connected with a servo motor;

the pushing part is arranged at a position, perpendicular to the conveying direction of the glue cutting strip part and the glue dicing part, of the corner, and is used for changing the conveying direction of the semi-finished glue strips.

Through the technical scheme, compared with the prior art, the invention discloses the dicing machine. The donkey-hide gelatin cutting machine is sequentially provided with a gelatin cutting strip part, a pushing part and a gelatin dicing part along a raw material gelatin piece cutting transmission line, wherein the gelatin cutting strip part comprises a rolling cutter group mechanism for cutting a raw material gelatin piece into a semi-finished product gelatin piece, the gelatin dicing part comprises a rolling cutter group mechanism for dicing the semi-finished product gelatin piece, and the pushing part is arranged at a vertical corner of the conveying direction of the gelatin cutting strip part and the gelatin dicing part and can change the cutting direction of the semi-finished product gelatin piece; in addition, because the invention adopts a mechatronic control mode, the operation is simple, and the labor force is greatly saved.

Furthermore, the first conveying belt mechanism and the second conveying belt mechanism respectively comprise conveying belt supports, conveying belt wheels, conveying belts, knife supporting rollers, driving gears and servo motors, and the conveying belt supports are two in number and are vertically arranged in parallel; the number of the conveying belt wheels is two, the conveying belt wheels are respectively and rotatably connected between the two conveying belt brackets through bearings and are positioned at two ends of the conveying belt brackets; the conveying belt is sleeved between the two conveying belt wheels; the knife supporting roller is rotatably connected between the two conveying belt brackets through a bearing, is positioned between the two conveying belt wheels, and is used for supporting the top surface of the conveying belt to be attached to the cutting surface of the rubber strip cutting part or the rubber T cutting part; the driving gear is fixed at one end of the conveying belt wheel; the servo motor is fixed on the outer side of the conveying belt support, and the power output shaft penetrates through the conveying belt support and is meshed with the driving gear through a servo motor gear.

Further, the slitting knife group mechanism comprises a mounting plate, a fixed shaft, a vertical adjusting screw, a spacer bush, a plurality of slitting hobs, a retaining sleeve and a slitting knife group gear;

the number of the mounting plates is two, and the mounting plates are respectively fixed on the two fixed vertical plates;

the fixed shaft is horizontally arranged, two ends of the fixed shaft respectively penetrate through the two mounting plates, and threaded through holes are radially formed in the fixed shaft;

the vertical adjusting screw rod penetrates through the threaded through hole and is connected in a matched mode through a nut;

the plurality of the spacer bushes and the plurality of the slitting hobs are sleeved on the fixed shaft in the axial direction and fixed with the fixed shaft, and the spacer bushes are inserted between the slitting hobs;

the blocking sleeves are sleeved at two ends of the fixed shaft, are fixed with the fixed shaft and are abutted against the slitting hob;

the gear of the rolling cutter group is fixed on the fixed shaft, is positioned at one end of the fixed shaft, is arranged between the mounting plate and the blocking sleeve and is in transmission connection with the gear transmission mechanism.

Furthermore, the hobbing cutter group mechanism comprises a mounting plate, a fixed shaft, a vertical adjusting screw, a spacer bush, a plurality of dicing hobs, a retaining sleeve and a hobbing cutter group gear;

the spacer bushes and the dicing hobs are all multiple and are sleeved on the fixed shaft in the axial direction and fixed with the fixed shaft, and the spacer bushes are inserted between the dicing hobs;

the blocking sleeves are sleeved at two ends of the fixed shaft, are fixed with the fixed shaft and are abutted against the dicing hob;

the gear of the hobbing cutter group is fixed on the fixed shaft, is positioned at one end of the fixed shaft, is arranged between the mounting plate and the blocking sleeve and is in transmission connection with the gear transmission mechanism.

Further, the gear transmission mechanism comprises a driven gear, a cutter supporting roller gear and an intermediate wheel; the driven gear is fixed at the other end of the conveying belt wheel, which is opposite to the driving gear; the cutter supporting roller gear is fixed at one end of the cutter supporting roller and is meshed with the hobbing cutter group gear or the hobbing cutter group gear; the intermediate wheel is respectively meshed with the driven gear and the cutter supporting roller gear.

Furthermore, the front ends of the rolling bar cutter group mechanism and the hobbing cutter group mechanism are sequentially provided with a baffle aligning mechanism and a detection head mechanism, the detection head mechanism is electrically connected with the baffle aligning mechanism, the baffle aligning mechanism stretches across the two sides of the first conveyor belt mechanism or the second conveyor belt mechanism through a baffle fixing frame, and the baffle aligning mechanism is installed on the baffle fixing frame.

Furthermore, the baffle aligning mechanism comprises a connecting plate, a cylinder, a connecting block and a baffle aligning plate; the connecting plate is fixed between the two baffle fixing frames; the cylinder body of the air cylinder is vertically fixed on the connecting plate, and the control end of the air cylinder is electrically connected with the control box; the connecting block is fixed at the end of a piston rod of the air cylinder and faces the conveyor belt; the baffle and alignment plate is fixed on the connecting block.

Adopt the beneficial effect that above-mentioned technical scheme produced, realize the fender effect to the donkey-hide gelatin through setting up the fender neat board mechanism to can prevent at the in-process to the cutting of donkey-hide gelatin, the donkey-hide gelatin takes place the dislocation.

Furthermore, the detection head mechanism comprises a connecting rod, a fixed block, an adjusting rod and a detection head; the connecting rods are horizontally arranged, and one ends of the connecting rods are fixedly connected with the inner sides of the fixed vertical plates; the fixed block is connected to the connecting rod in a sliding manner; the adjusting rod is vertically arranged, penetrates through the fixed block and is connected with the fixed block in a sliding manner; the detection head is fixedly connected with the bottom end of the adjusting rod through a cross rod and is electrically connected with the control box.

Further, the material pushing part comprises a conversion table, a pneumatic push plate and a stop bar, and the conversion table is arranged at the right-angle turning point of the first platform and the second platform; the pneumatic push plate is arranged at one end far away from the second platform and moves in a telescopic manner towards the second platform, and the control end of the pneumatic push plate is electrically connected with the control box; the stop strip is arranged along the telescopic direction of the pneumatic push plate and is fixed at one end far away from the first platform.

Adopt above-mentioned technical scheme to produce beneficial effect is, push away material portion and include conversion platform, pneumatic push pedal and shelves strip, and pneumatic push pedal is towards the direction concertina movement of second platform, changes the cutting direction who conveys the donkey-hide gelatin on the conversion platform for with the direct conversion between slitting process and the dicing process, increase substantially the machining efficiency to the donkey-hide gelatin, and be provided with the shelves strip and prevent that the donkey-hide gelatin from dropping out of conversion platform.

Furthermore, a high-speed belt mechanism is further arranged between the rubber strip cutting portion and the material pushing portion, the high-speed belt mechanism comprises a conveying belt device and a speed regulating motor, and the power output end of the speed regulating motor is meshed with the conveying belt device through gears to transmit motion.

Adopt above-mentioned technical scheme to produce beneficial effect is, with higher speed will cut into the donkey-hide gelatin of strip and carry the conversion platform, improve the machining efficiency to the donkey-hide gelatin.

Drawings

In order to more clearly illustrate the embodiments of the present 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, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the synchronous operation of the servo motor driven conveyor belt device and the roller blade set mechanism of the present invention;

FIG. 3 is a block diagram of the mechanism of the slitting knife assembly of the present invention;

FIG. 4 is a block diagram of the mechanism of the present invention for the knurl cutter set;

FIG. 5 is a block diagram of the baffle mechanism of the present invention;

fig. 6 is a structural view of a detection head mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the embodiment of the invention discloses a dicing machine, which is sequentially provided with: a dicing tape section 1, a pusher section 2, and a dicing section 3;

the adhesive tape cutting part 1 comprises a first platform 11, a first conveying belt mechanism 12 for conveying raw material adhesive tapes and a strip rolling cutter group mechanism 13 for cutting the raw material adhesive tapes into semi-finished adhesive tapes are fixed on the table top of the first platform 11, the strip rolling cutter group mechanism 13 stretches across two sides of the first conveying belt mechanism 12 through a fixed vertical plate, and the transmission power of the first conveying belt mechanism 12 is output through a gear transmission mechanism and is connected with the power input end of the strip rolling cutter group mechanism 13;

the glue dicing part 3 comprises a second platform 31, a second conveyor belt mechanism 32 for conveying semi-finished glue strips and a hobbing cutter set mechanism 33 for dicing the semi-finished glue strips are fixed on the table top of the second platform 31, the hobbing cutter set mechanism 33 stretches across two sides of the second conveyor belt mechanism 32 through a fixed vertical plate, and the transmission power of the second conveyor belt mechanism 32 is output through a gear transmission mechanism and is connected with the power input end of the hobbing cutter set mechanism 33;

the first conveyor belt mechanism 12 and the second conveyor belt mechanism 32 are electrically connected with a servo motor;

the pushing part 2 is arranged at the position of a vertical turning point of the conveying direction of the glue cutting strip part 1 and the glue dicing part 3 and is used for changing the conveying direction of the semi-finished glue strips.

In order to further optimize the technical scheme, the first conveying belt mechanism 12 and the second conveying belt mechanism 32 respectively comprise two conveying belt supports, two conveying belt wheels 7, a conveying belt, a knife supporting roller 6, a driving gear and a servo motor, and the two conveying belt supports are vertically arranged in parallel; the number of the conveying belt wheels 7 is two, the conveying belt wheels are respectively and rotatably connected between the two conveying belt brackets through bearings and are positioned at two ends of the conveying belt brackets; the conveying belt is sleeved between the two conveying belt wheels 7; the knife supporting roller 6 is rotatably connected between the two conveying belt brackets through a bearing, is positioned between the two conveying belt wheels 7 and is used for supporting the top surface of the conveying belt to be attached to the cutting surface of the glue cutting strip part 1 or the glue dicing part 3; the driving gear is fixed at one end of the conveying belt wheel 7; the servo motor is fixed on the outer side of the conveying belt support, and the power output shaft penetrates through the conveying belt support and is meshed with the driving gear through a servo motor gear.

In order to further optimize the above technical solution, the hob group mechanism 13 includes a mounting plate 131, a fixed shaft 132, a vertical adjusting screw 134, a spacer 136, a plurality of slitting hobs 137, a blocking sleeve 133 and a hob group gear 135;

the number of the mounting plates 131 is two, and the mounting plates are respectively fixed on the two fixed vertical plates;

the fixed shaft 132 is horizontally arranged, and two ends of the fixed shaft respectively penetrate through the two mounting plates 131 and are radially provided with threaded through holes;

the vertical adjusting screw 134 penetrates through the threaded through hole and is connected in a matched mode through a nut;

the plurality of spacer bushes 136 and the plurality of slitting hobs 137 are sleeved on the fixed shaft 132 along the axial direction and fixed with the fixed shaft, and the spacer bushes 136 are inserted between the slitting hobs 137;

the retaining sleeves 133 are sleeved at the two ends of the fixed shaft 132, fixed with the fixed shaft, and abutted against the slitting hob 137;

the gear 135 of the hobbing cutter group is fixed on the fixed shaft 132, is positioned between the mounting plate 131 and the blocking sleeve 133 at one end of the fixed shaft 132, and is in transmission connection with the gear transmission mechanism.

In order to further optimize the technical scheme, the hobbing cutter group mechanism 33 comprises a mounting plate 331, a fixed shaft 332, a vertical adjusting screw 334, a spacer 336, a plurality of dicing hobs 337, a blocking sleeve 333 and a hobbing cutter group gear 335;

the number of the mounting plates 331 is two, and the mounting plates are respectively fixed on the two fixed vertical plates;

the fixed shaft 332 is horizontally arranged, and two ends of the fixed shaft respectively penetrate through the two mounting plates 331 and are radially provided with threaded through holes;

the vertical adjusting screw 334 passes through the threaded through hole and is connected in a matching way through a nut;

the spacer bushes 336 and the dicing hobs 337 are respectively provided with a plurality of spacers, and are sleeved on the fixed shaft 332 in the axial direction and fixed with the fixed shaft, and the spacer bushes 336 are inserted between the dicing hobs 337;

the blocking sleeve 333 is sleeved at the two ends of the fixed shaft 332, is fixed with the fixed shaft, and is abutted against the dicing hob 337;

the gear 335 of the hobbing cutter group is fixed on the fixed shaft 332, positioned between the mounting plate 331 and the blocking sleeve 333 at one end of the fixed shaft 332, and in transmission connection with the gear transmission mechanism.

In order to further optimize the technical scheme, the gear transmission mechanism comprises a driven gear 72, a cutter supporting roller gear 102 and an intermediate wheel 101; the driven gear 72 is fixed on the other end of the conveying belt wheel opposite to the driving gear; the cutter supporting roller gear 102 is fixed at one end of the cutter supporting roller and is meshed with the hobbing cutter group gear 135 or the hobbing cutter group gear 335; the idle gear 101 is engaged with the driven gear 72 and the cutter roller gear 102, respectively.

In order to further optimize the technical scheme, the front ends of the slitting knife group mechanism 13 and the hobbing knife group mechanism 33 are sequentially provided with the baffle mechanism 4 and the detection head mechanism 5, the detection head mechanism 5 and the baffle mechanism 4 are electrically connected with the control box, the baffle mechanism 4 stretches across two sides of the first conveyor belt mechanism 12 or the second conveyor belt mechanism 32 through a baffle fixing frame, and the baffle mechanism 4 is installed on the baffle fixing frame.

In order to further optimize the technical scheme, the baffle mechanism 4 comprises a connecting plate 41, a cylinder 42, a connecting block 43 and a baffle 44; the connecting plate 41 is fixed between the two baffle fixing frames; the cylinder body of the air cylinder 42 is vertically fixed on the connecting plate 41, and the control end of the air cylinder is electrically connected with the control box; the connecting block 43 is fixed at the end of the piston rod of the air cylinder 42 and faces the conveyor belt; the flush plate 44 is fixed to the connecting block 43.

In order to further optimize the above technical solution, the detection head mechanism 5 includes a connection rod 53, a fixed block 52, an adjustment rod 54, and a detection head 51; the connecting rod 53 is horizontally arranged, and one end of the connecting rod is fixedly connected with the inner side of the fixed vertical plate; the fixed block 52 is connected on the connecting rod 53 in a sliding way; the adjusting rod 54 is vertically arranged, penetrates through the fixed block and is connected with the fixed block in a sliding manner; the detection head 51 is fixedly connected with the bottom end of the adjusting rod 54 through a cross rod and is electrically connected with the control box.

In order to further optimize the technical scheme, the material pushing part 2 comprises a conversion table 21, a pneumatic push plate 22 and a stop bar 23, wherein the conversion table 21 is arranged at the right-angle turning point of the first platform 11 and the second platform 31; the pneumatic push plate 22 is arranged at one end far away from the second platform 31 and moves in a telescopic manner towards the second platform 31, and the control end of the pneumatic push plate 22 is electrically connected with the control box; the stop strip 23 is arranged along the telescopic direction of the pneumatic push plate 22 and fixed at one end far away from the first platform 11, and the detection head mechanism 5 is fixed at one end close to the first platform 11.

In order to further optimize the technical scheme, a high-speed belt mechanism 9 is further arranged between the rubber strip cutting part 1 and the material pushing part 2, the high-speed belt mechanism 9 comprises a conveying belt device 91 and a speed regulating motor 92, and the power output end of the speed regulating motor 92 and the conveying belt device 91 are in meshing transmission motion through gears.

The connection between the control box and the detection head, the pneumatic push rod and the air cylinder can refer to the connection relationship disclosed by the invention patent with the publication number of CN101353110A, publication number of 2009.01.28 and name of the combined output device in the floor conveying line.

The raw rubber sheet is processed into a semi-finished rubber strip by a rolling cutter set mechanism, and the semi-finished rubber strip is processed into a finished rubber strip by a rolling cutter set mechanism.

Example (b):

1) starting a servo motor, starting feeding, and placing a raw material film on a conveying belt of the first conveying belt mechanism 12;

2) the conveying belt of the first conveying belt mechanism 12 conveys the raw material film, the servo motor rotates, and the servo motor is in meshing transmission with the driving gear 71 of the conveying belt wheel 7 through a servo motor gear, so that the conveying belt of the first conveying belt mechanism 12 is driven to convey the raw material film;

3) the detection head mechanism 5 detects that an object passes below the detection head mechanism, transmits a signal to the control box, the control box controls the baffle mechanism 4 to baffle and level the raw material film, the raw material film is conveyed to the position below the slitting knife group mechanism 13 by the conveying belt, the slitting knife group mechanism 13 cuts the raw material film into semi-finished rubber strips, and meanwhile, as the slitting knife group gear 135 is meshed with the driven gear 72 of the first conveying belt mechanism 12 through the intermediate wheel 101 and the cutter supporting roller gear 102, the first conveying belt mechanism 12 and the slitting knife group mechanism 13 can be controlled simultaneously through a servo motor, so that the first conveying belt mechanism 12 and the slitting knife group mechanism 13 work synchronously, and the raw material film is ensured to be cut accurately;

4) starting a speed regulating motor, and controlling a conveying belt 91 of a high-speed belt mechanism 9 by the speed regulating motor to accelerate conveying of the semi-finished adhesive tape cut into strips;

5) the detection head mechanism 5 detects that an object passes below the detection head mechanism and transmits a signal to the control box, and the control box controls the pneumatic push plate 22 to push the cut semi-finished adhesive tape towards the direction of the second platform 31 so as to change the cutting direction of the semi-finished adhesive tape;

6) the conveyor belt of the second conveyor belt mechanism 32 conveys the semi-finished adhesive tape, the detection head mechanism 5 detects that an object passes below the detection head mechanism, signals are transmitted to the control box, the control box controls the baffle plate aligning mechanism 4 to adjust the semi-finished adhesive tape, the semi-finished adhesive tape is conveyed to the position below the hobbing cutter group mechanism 33 by the conveyor belt, and the semi-finished adhesive tape is cut into finished adhesive tape dices through the hobbing cutter group mechanism 33;

7) and (5) outputting the finished product of the diced gum by the conveyor belt, and ending.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a surely machine of gluing which characterized in that has set gradually along raw materials film cutting transmission route: the adhesive tape cutting device comprises an adhesive tape cutting part (1), a material pushing part (2) and an adhesive tape cutting part (3);

the adhesive tape cutting part (1) comprises a first platform (11), a first conveying belt mechanism (12) for conveying raw material adhesive tapes and a strip rolling cutter set mechanism (13) for cutting the raw material adhesive tapes into semi-finished adhesive tapes are fixed on the table top of the first platform (11), the strip rolling cutter set mechanism (13) stretches across two sides of the first conveying belt mechanism (12) through a fixed vertical plate, and the transmission power of the first conveying belt mechanism (12) is output through a gear transmission mechanism and is connected with the power input end of the strip rolling cutter set mechanism (13);

the glue cutting part (3) comprises a second platform (31), a second conveyor belt mechanism (32) for conveying semi-finished glue strips and a hobbing cutter set mechanism (33) for cutting the semi-finished glue strips into blocks are fixed on the table top of the second platform (31), the hobbing cutter set mechanism (33) stretches across two sides of the second conveyor belt mechanism (32) through a fixed vertical plate, and the transmission power of the second conveyor belt mechanism (32) is output through a gear transmission mechanism and is connected with the power input end of the hobbing cutter set mechanism (33);

the first conveyor belt mechanism (12) and the second conveyor belt mechanism (32) are electrically connected with a servo motor;

the pushing part (2) is arranged at a position, perpendicular to the conveying direction, of the glue cutting strip part (1) and the glue cutting T part (3) and used for changing the conveying direction of the semi-finished glue strips.

2. The slit machine according to claim 1, characterized in that the first conveyor belt mechanism (12) and the second conveyor belt mechanism (32) each comprise a conveyor belt bracket, a conveyor belt wheel (7), a conveyor belt, a knife supporting roller (6), a driving gear (71) and a servo motor, and the conveyor belt brackets are two in number and are arranged vertically in parallel; the number of the conveying belt wheels (7) is two, and the conveying belt wheels are respectively and rotatably connected between the two conveying belt brackets through bearings and are positioned at the two ends of the conveying belt brackets; the conveying belt is sleeved between the two conveying belt wheels (7); the knife supporting roller (6) is rotatably connected between the two conveying belt brackets through bearings, is positioned between the two conveying belt wheels (7), and is used for supporting the top surface of the conveying belt to be attached to the cutting surfaces of the rubber cutting strip part (1) or the rubber cutting T part (3); the driving gear (71) is fixed at one end of the conveying belt wheel (7); the servo motor is fixed on the outer side of the conveying belt support, and a power output shaft penetrates through the conveying belt support and is meshed with the driving gear (71) through a servo motor gear.

3. The dicer as claimed in claim 2, wherein the slitting knife assembly mechanism (13) comprises a mounting plate (131), a fixed shaft (132), a vertical adjusting screw (134), a spacer bush (136), a plurality of slitting hobs (137), a retaining bush (133) and a slitting knife assembly gear (135);

the number of the mounting plates (131) is two, and the mounting plates are respectively fixed on the two fixed vertical plates;

the fixed shaft (132) is horizontally arranged, two ends of the fixed shaft respectively penetrate through the two mounting plates (131), and threaded through holes are radially formed in the fixed shaft;

the vertical adjusting screw rod (134) penetrates through the threaded through hole and is connected in a matched mode through a nut;

the plurality of spacer bushes (136) and the plurality of slitting hobs (137) are sleeved on the fixed shaft (132) in the axial direction and fixed with the fixed shaft, and the spacer bushes (136) are inserted between the slitting hobs (137);

the blocking sleeves (133) are sleeved at two ends of the fixed shaft (132), fixed with the fixed shaft and abutted against the slitting hob (137);

the rolling strip cutter group gear (135) is fixed on the fixed shaft (132), is positioned at one end of the fixed shaft (132), is arranged between the mounting plate (131) and the blocking sleeve (133), and is in transmission connection with the gear transmission mechanism.

4. The dicing machine according to claim 3, wherein the hob group mechanism (33) comprises a mounting plate (331), a fixed shaft (332), a vertical adjustment screw (334), a spacer (336), a plurality of dicing hobs (337), a spacer (333) and a hob group gear (335);

the number of the mounting plates (331) is two, and the mounting plates are respectively fixed on the two fixed vertical plates;

the fixed shaft (332) is horizontally arranged, two ends of the fixed shaft respectively penetrate through the two mounting plates (331), and threaded through holes are radially formed in the fixed shaft;

the vertical adjusting screw (334) penetrates through the threaded through hole and is connected in a matched mode through a nut;

the spacer bushes (336) and the dicing hobs (337) are multiple and are sleeved on the fixed shaft (332) in the axial direction and fixed with the fixed shaft, and the spacer bushes (336) are inserted between the dicing hobs (337);

the blocking sleeves (333) are sleeved at two ends of the fixed shaft (332), are fixed with the fixed shaft, and are abutted against the dicing hob (337);

the gear (335) of the hobbing cutter group is fixed on the fixed shaft (332), is positioned between the mounting plate (331) and the retaining sleeve (333) at one end of the fixed shaft (332), and is in transmission connection with the gear transmission mechanism.

5. The machine according to claim 4, wherein the gear transmission mechanism comprises a driven gear (72), a cutter roller gear (102) and an idle gear (101); the driven gear (72) is fixed at the other end of the conveying belt wheel, which is opposite to the driving gear; the cutter supporting roller gear (102) is fixed at one end of the cutter supporting roller and is meshed with the hobbing cutter group gear (135) or the hobbing cutter group gear (335); the intermediate wheel (101) is meshed with the driven gear (72) and the cutter supporting roller gear (102) respectively.

6. A rubber tapping machine according to any one of claims 1-5, wherein the front ends of the hobbing cutter set mechanism (13) and the hobbing cutter set mechanism (33) are sequentially provided with an aligning plate blocking mechanism (4) and a detection head mechanism (5), the detection head mechanism (5) and the aligning plate blocking mechanism (4) are electrically connected with a control box, the aligning plate blocking mechanism (4) spans two sides of the first conveyor belt mechanism (12) or the second conveyor belt mechanism (32) through a plate blocking fixing frame, and the aligning plate blocking mechanism (4) is installed on the plate blocking fixing frame.

7. The machine according to claim 6, characterized in that said baffle-and-alignment mechanism (4) comprises a connecting plate (41), a cylinder (42), a connecting block (43) and a baffle-and-alignment plate (44); the connecting plate (41) is fixed between the two baffle fixing frames; the cylinder body of the air cylinder (42) is vertically fixed on the connecting plate (41), and the control end of the air cylinder is electrically connected with the control box; the connecting block (43) is fixed at the end of a piston rod of the air cylinder (42) and faces the conveyor belt; the baffle and alignment plate (44) is fixed on the connecting block (43).

8. The dicer as claimed in claim 6, characterized in that said detection head mechanism (5) comprises a connecting rod (53), a fixed block (52), an adjusting rod (54), and a detection head (51); the connecting rod (53) is horizontally arranged, and one end of the connecting rod is fixedly connected with the inner side of the fixed vertical plate; the fixed block (52) is connected to the connecting rod (53) in a sliding manner; the adjusting rod (54) is vertically arranged, penetrates through the fixed block and is connected with the fixed block in a sliding manner; the detection head (51) is fixedly connected with the bottom end of the adjusting rod (54) through a cross rod and is electrically connected with the control box.

9. The dicer as claimed in claim 6, characterized in that said pusher (2) comprises a conversion table (21), a pneumatic push plate (22) and a stop bar (23), said conversion table (21) being arranged at the right-angled corner of said first platform (11) and said second platform (31); the pneumatic push plate (22) is arranged at one end far away from the second platform (31) and moves in a telescopic mode towards the second platform (31), and the control end of the pneumatic push plate (22) is electrically connected with the control box; the stop strip (23) is arranged along the telescopic direction of the pneumatic push plate (22) and is fixed at one end far away from the first platform (11).

10. The machine according to claim 1, characterized in that a high-speed belt mechanism (9) is further arranged between the dicing tape portion (1) and the pushing portion (2), the high-speed belt mechanism (9) comprises a conveying belt device (91) and a speed regulating motor (92), and a power output end of the speed regulating motor (92) is meshed with the conveying belt device (91) through gears to transmit motion.