CN112829452B - Automatic workpiece cutting and printing equipment - Google Patents

Abstract

For solving above-mentioned technical problem, a work piece automatic cutout lithography apparatus, including installation feeder, press from both sides tight transmission, cutting printing device, carry out the feed of material according to the operational aspect of cutting printing device through installation feeder and stop and the clamp of material and loosen, press from both sides tight transmission and provide the material and press from both sides the spacing and be fit for the big material of certain size, cutting printing device feeds propulsive material to installation feeder and cuts and the printing then at functions such as release, its characterized in that: the clamping transmission device is fixedly arranged on the mounting feeding device, and the cutting printing device is fixedly arranged on the mounting feeding device.

Description

Automatic workpiece cutting and printing equipment

Technical Field

The invention relates to a workpiece cutting and printing device, in particular to an automatic workpiece cutting and printing device.

Background

Along with the development of science and technology, some instruments are gradually appeared in life to replace people to work, automatic equipment is introduced in a factory for improving the working efficiency and accurately determining, and the automatic workpiece cutting and printing equipment is invented for enabling the workpiece to be cut and printed more accurately.

Disclosure of Invention

The invention relates to automatic workpiece cutting and printing equipment, in particular to automatic workpiece cutting and printing equipment, which stops feeding of materials and clamps and releases the materials by installing a feeding device according to the running condition of a cutting and printing device, provides material clamping limit for a clamping transmission device and is suitable for large materials with a certain size, and has the functions of cutting, printing, pushing and the like on the materials fed and pushed by the installing and feeding device by the cutting and printing device.

For solving above-mentioned technical problem, a work piece automatic cutout lithography apparatus, including installation feeder, press from both sides tight transmission, cutting printing device, carry out the feed of material according to cutting printing device's operational aspect through installation feeder and stop and the clamp of material tightly with unclamping, press from both sides tight transmission and provide the material and press from both sides the spacing and be fit for the big material of certain size, cutting printing device feeds propulsive material to installation feeder and cuts and print then pushing out the function such as, its characterized in that: the clamping transmission device is fixedly arranged on the mounting feeding device, and the cutting printing device is fixedly arranged on the mounting feeding device.

As a further optimization of the technical scheme, the invention relates to an automatic workpiece cutting and printing device, which comprises an installation bottom plate, supporting legs, an installation top plate, a fixed square column, an adjusting screw rod, a rotating disc, a movable threaded square column, an adjusting spring, a sliding square plate, a pushing connecting column, a movable installation shell, a fixed shaft, a matched rotating pipe, a connecting installation frame, a fixed ring, a screw rod I, a belt wheel I, a movable threaded column with a groove, a clamping spring, a pushing plate, a connecting pushing column, a clamping block, a supporting installation column, a material transmission shaft, a receiving gear, a transmission shaft, an output gear, a receiving belt wheel, a transmission roller, a transmission crawler belt, supporting legs, a matching plate and cutting matching strip-shaped holes, wherein the supporting legs are installed and fixed on the installation bottom plate, the installation top plate is installed and fixed on the supporting legs, the fixed square column is installed and fixed on the installation top plate, the adjusting screw rod is rotatably installed on the fixed square column, the rotating disc is fixedly installed on the adjusting screw rod, the movable thread square column is slidably installed inside the fixed square column, the movable thread square column is in thread fit with the adjusting screw rod, the adjusting spring is installed inside the movable thread square column, the sliding square plate is slidably installed inside the movable thread square column, the pushing connecting column is fixedly installed on the sliding square plate, the movable installing shell is fixedly installed on the pushing connecting column, the fixed shaft is fixedly installed on the movable installing shell, the matching rotating tube is rotatably installed on the fixed shaft, the connecting installing frame is fixedly installed on the movable installing shell, the fixing ring is fixedly installed on the connecting installing frame, one screw rod is rotatably installed on the fixing ring, the belt wheel I is fixedly installed on the screw rod I, the movable thread column with a belt groove is slidably installed on the connecting installing frame, the clamping spring is installed inside the movable thread column with a belt groove, the pushing plate is slidably installed inside the movable thread column with a belt groove, connect the installation of promotion post and fix on the slurcam, it fixes on connecting the promotion post to press from both sides tight piece installation, it fixes on mounting plate to support the erection column installation, material transmission shaft rotates to be installed on supporting the erection column, it fixes on material transmission shaft to receive the gear installation, transmission shaft rotates to be installed on supporting the erection column, output gear installation is fixed on the transmission shaft, output gear and receipt gear engagement, it fixes on the transmission shaft to receive the band pulley installation, transmission roller installation is fixed on material transmission shaft, transmission track installs on transmission roller, support leg installation is fixed on mounting plate, the cooperation board installation is fixed on supporting the leg, cutting cooperation bar hole sets up on the cooperation board.

As a further optimization of the technical scheme, the invention relates to a workpiece automatic cutting and printing device, which comprises a connecting rotating shaft, a bevel gear, a supporting mounting plate, a clamping transmission shaft, a receiving bevel gear, a clamping transmission belt wheel, a transmission belt, a supporting mounting frame, an adjusting mounting barrel, an adjusting connecting column, an adjusting sliding plate, an adjusting tensioning spring, an adjusting mounting seat and an adjusting tensioning belt wheel, wherein the connecting rotating shaft is rotatably mounted on a mounting top plate, the bevel gear is fixedly mounted on the connecting rotating shaft, the supporting mounting plate is fixedly mounted on the mounting top plate, the clamping transmission shaft is rotatably mounted on the supporting mounting plate, the receiving bevel gear is fixedly mounted on the clamping transmission shaft, the clamping transmission belt wheel is fixedly mounted on the clamping transmission shaft, the transmission belt is mounted on the clamping transmission belt wheel, the adjusting tensioning belt wheel and a first belt wheel, and the supporting mounting frame is fixedly mounted on a mounting bottom plate, the adjusting installation barrel is fixedly installed on the supporting installation frame, the adjusting connection column is fixedly installed on the adjusting sliding plate, the adjusting sliding plate is slidably installed inside the adjusting installation barrel, the adjusting tensioning spring is sleeved on the adjusting connection column, the adjusting installation seat is fixedly installed on the adjusting connection column, and the adjusting tensioning belt wheel is rotatably installed on the adjusting installation seat.

As a further optimization of the technical scheme, the invention relates to an automatic workpiece cutting and printing device, which comprises a mounting frame II, a rotating shaft, a half bevel gear I, a half bevel gear II, an adjusting lifting screw rod, a lifting transmission bevel gear, an installation and assembly ring, a movable cutting threaded column, an installation rotating shaft, a material feeding matching plate, a matching arc spring, a friction mounting seat, a material feeding shaft, a material feeding transmission gear, a material feeding output belt wheel, a transmission belt II, a cutting knife and a printing device, wherein the mounting frame II is fixedly arranged on a mounting top plate, the rotating shaft is rotatably arranged on the mounting frame II, the half bevel gear I is fixedly arranged on the rotating shaft, the half bevel gear II is fixedly arranged on the rotating shaft, the adjusting lifting screw rod is rotatably arranged on the mounting frame II, the lifting transmission bevel gear is fixedly arranged on the adjusting lifting screw rod, the lifting transmission bevel gear is meshed with the bevel gear, the installation assembly ring is installed and fixed on the installation top plate, the movable cutting threaded column is installed on the installation assembly ring and the installation top plate in a sliding mode, the installation rotating shaft is installed inside the movable cutting threaded column in a rotating mode, the material feeding matching plate is installed and fixed on the installation rotating shaft, the arc-shaped spring is installed and fixed inside the material feeding matching plate and the movable cutting threaded column in a matching mode, the friction installation seat is installed and fixed on the installation top plate, the material feeding shaft is installed and installed on the friction installation seat in a rotating mode, the material feeding transmission gear is installed and fixed on the material feeding shaft, the material feeding output belt wheel is installed and fixed on the material feeding shaft, the transmission belt II is installed and fixed on the material feeding output belt wheel and the receiving belt wheel, the cutting knife is installed and fixed on the movable cutting threaded column, and the printing device is installed and fixed on the movable cutting threaded column.

As a further optimization of the technical scheme, the automatic workpiece cutting and printing equipment provided by the invention has the advantages that the rotating shaft of the cutting and printing device is provided with the matched motor.

The automatic workpiece cutting and printing equipment has the beneficial effects that:

the invention relates to automatic workpiece cutting and printing equipment, in particular to automatic workpiece cutting and printing equipment, which realizes the functions of stopping feeding of materials and clamping and loosening the materials according to the running condition of a cutting and printing device by installing a feeding device, providing material clamping limit by a clamping transmission device and being suitable for large materials with certain size, cutting and printing the materials fed and propelled by the feeding device by the cutting and printing device, then pushing out the materials and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the feeding device of the present invention.

Fig. 4 is a structural schematic diagram of the installation feeding device of the invention.

Fig. 5 is a third structural schematic diagram of the feeding device of the present invention.

Fig. 6 is a fourth schematic structural diagram of the feeding device of the present invention.

Fig. 7 is a fifth structural schematic diagram of the feeding device of the present invention.

Fig. 8 is a first structural schematic diagram of the clamping transmission device of the invention.

Fig. 9 is a schematic structural diagram of a clamping transmission device of the invention.

FIG. 10 is a first schematic structural diagram of a cutting and printing apparatus according to the present invention.

FIG. 11 is a second schematic structural diagram of a cutting and printing apparatus according to the present invention.

In the figure: installing a feeding device 1; mounting a bottom plate 1-1; support legs 1-2; installing a top plate 1-3; fixing the square columns 1-4; adjusting a screw rod by 1-5; 1-6 of a rotating disc; moving 1-7 threaded square columns; 1-8 of an adjusting spring; 1-9 of a sliding square plate; pushing connecting columns 1-10; moving the mounting case 1-11; 1-12 parts of a fixed shaft; matching with the rotating pipes 1-13; connecting the mounting frames 1-14; 1-15 parts of a fixing ring; 1-16 parts of a first lead screw; 1-17 of a belt wheel I; grooved mobile threaded columns 1-18; clamping springs 1-19; 1-20 of a push plate; connecting pushing columns 1-21; clamping blocks 1-22; support mounting posts 1-23; 1-24 parts of a material transmission shaft; receiving gears 1-25; transfer shafts 1-26; output gears 1-27; receiving pulleys 1-28; drive rollers 1-29; 1-30 parts of a transmission crawler; support legs 1-31; 1-32 of a matching plate; cutting and matching the strip-shaped holes 1-33; the clamping transmission 2; connecting a rotating shaft 2-1; bevel gears 2-2; supporting the mounting plate 2-3; clamping the transmission shaft 2-4; receiving bevel gears 2-5; clamping a transmission belt wheel 2-6; 2-7 parts of a transmission belt; supporting the mounting frame 2-8; adjusting the installation barrel 2-9; 2-10 parts of an adjusting connecting column; adjusting the sliding plate 2-11; adjusting tension springs 2-12; adjusting the mounting seats 2-13; adjusting and tensioning belt wheels 2-14; cutting the printing device 3; a second mounting frame 3-1; a rotating shaft 3-2; 3-3 parts of a half bevel gear I; 3-4 parts of a half bevel gear II; adjusting a lifting screw rod by 3-5; 3-6 of a lifting transmission bevel gear; installing and assembling a ring 3-7; moving and cutting the threaded column 3-8; installing a rotating shaft 3-9; feeding the materials into the matching plates 3-10; 3-11 of arc spring; 3-12 of a friction mounting seat; 3-13 parts of a material feeding shaft; the material feeding transmission gear 3-14; the material is fed into the output pulley 3-15; 3-16 parts of a second transmission belt; 3-17 parts of a cutting knife; printing means 3-18.

Detailed Description

The first specific implementation way is as follows:

in order to solve the technical problems, an automatic workpiece cutting and printing device comprises an installation feeding device 1, a clamping transmission device 2 and a cutting printing device 3, wherein the installation feeding device stops feeding of materials and clamps and releases the materials according to the operation condition of the cutting printing device, the clamping transmission device provides material clamping limit and is suitable for large materials with certain size, and the cutting printing device has the functions of cutting and printing the materials fed and pushed by the installation feeding device and then pushing out, and the automatic workpiece cutting and printing device is characterized in that: the clamping transmission device 2 is fixedly arranged on the mounting feeding device 1, and the cutting printing device 3 is fixedly arranged on the mounting feeding device 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, which further describes the embodiment, wherein the mounting and feeding device 1 comprises a mounting bottom plate 1-1, a support leg 1-2, a mounting top plate 1-3, a fixed square column 1-4, an adjusting screw 1-5, a rotating disc 1-6, a movable threaded square column 1-7, an adjusting spring 1-8, a sliding square plate 1-9, a pushing connecting column 1-10, a movable mounting shell 1-11, a fixed shaft 1-12, a matching rotating tube 1-13, a connecting mounting rack 1-14, a fixed ring 1-15, a screw 1-16, a belt wheel 1-17, a movable threaded column 1-18 with a groove, and a clamping spring 1-19, The device comprises push plates 1-20, connecting push columns 1-21, clamping blocks 1-22, supporting mounting columns 1-23, material transmission shafts 1-24, receiving gears 1-25, transmission shafts 1-26, output gears 1-27, receiving belt wheels 1-28, transmission rollers 1-29, transmission tracks 1-30, supporting legs 1-31, matching plates 1-32 and cutting matching strip-shaped holes 1-33, wherein firstly, a rotating disc 1-6 of a rotating and mounting feeding device 1 drives an adjusting screw rod 1-5 to rotate, the rotating adjusting screw rod 1-5 adjusts the position of a moving threaded square column 1-7 in a fixed square column 1-4, the moving threaded square column 1-7 pushes a sliding square plate 1-9 through an adjusting spring 1-8 and then pushes a moving mounting shell 1-11 through a pushing connecting column 1-10, the movable installation shell 1-11 drives the fixed shaft 1-12 and the matching rotating pipe 1-13 to move so that the matching rotating pipe 1-13 and the transmission crawler 1-30 compress workpiece materials needing to be cut and printed, meanwhile, the movable installation shell 1-11 drives the clamping block 1-22 to move through the connecting installation rack 1-14 so that the clamping block 1-22 can be clamped at the position of the center of the materials, the belt pulley 1-17 drives the screw rod 1-16 to rotate, the rotating screw rod 1-16 drives the movable threaded column 1-18 with the belt groove to move towards the center and then clamp the materials, then the clamping spring 1-19 can enable the clamping block 1-22 and the movable threaded column 1-18 with the belt groove to change the positions firstly so as to adapt to the materials in a certain size, and then the receiving belt pulley 1-28 cannot drive the output gear 1-auxiliary gear through the transmission shaft 1-26 27, the output gears 1-27 can not drive the receiving gears 1-25 to rotate, the receiving gears 1-25 can not drive the transmission rollers 1-29 to rotate through the material transmission shafts 1-24, the transmission rollers 1-29 can not drive the materials to advance through the transmission tracks 1-30, the receiving belt wheels 1-28 drive the output gears 1-27 to rotate through the transmission shafts 1-26, the output gears 1-27 drive the material transmission shafts 1-24 to rotate through the receiving gears 1-25, the material transmission shafts 1-24 drive the transmission tracks 1-30 to drive the materials to move forwards through the transmission rollers 1-29, then the cut and printed materials are ejected and dropped into a cycle, the supporting legs 1-2 are installed and fixed on the installation bottom plates 1-1, and the installation top plates 1-3 are installed and fixed on the supporting legs 1-2, the fixed square column 1-4 is fixedly arranged on the mounting top plate 1-3, the adjusting screw rod 1-5 is rotatably arranged on the fixed square column 1-4, the rotating disc 1-6 is fixedly arranged on the adjusting screw rod 1-5, the movable threaded square column 1-7 is slidably arranged in the fixed square column 1-4, the movable threaded square column 1-7 is in threaded fit with the adjusting screw rod 1-5, the adjusting spring 1-8 is arranged in the movable threaded square column 1-7, the sliding square plate 1-9 is slidably arranged in the movable threaded square column 1-7, the pushing connecting column 1-10 is fixedly arranged on the sliding square plate 1-9, the movable mounting shell 1-11 is fixedly arranged on the pushing connecting column 1-10, and the fixed shaft 1-12 is fixedly arranged on the movable mounting shell 1-11, the connecting and mounting frames 1-14 are installed and fixed on the movable mounting shells 1-11, the fixing rings 1-15 are installed and fixed on the connecting and mounting frames 1-14, the screw rods 1-16 are installed and fixed on the fixing rings 1-15, the belt wheels 1-17 are installed and fixed on the screw rods 1-16, the grooved movable threaded columns 1-18 are installed and fixed on the connecting and mounting frames 1-14 in a sliding manner, the clamping springs 1-19 are installed inside the grooved movable threaded columns 1-18, the pushing plates 1-20 are installed and fixed inside the grooved movable threaded columns 1-18 in a sliding manner, the connecting and pushing columns 1-21 are installed and fixed on the pushing plates 1-20, the clamping blocks 1-22 are installed and fixed on the connecting and pushing columns 1-21, the supporting and mounting columns 1-23 are fixedly arranged on the mounting base plate 1-1, the material transmission shafts 1-24 are rotatably arranged on the supporting and mounting columns 1-23, the receiving gears 1-25 are fixedly arranged on the material transmission shafts 1-24, the transmission shafts 1-26 are rotatably arranged on the supporting and mounting columns 1-23, the output gears 1-27 are fixedly arranged on the transmission shafts 1-26, the output gears 1-27 are engaged with the receiving gears 1-25, the receiving belt wheels 1-28 are fixedly arranged on the transmission shafts 1-26, the transmission rollers 1-29 are fixedly arranged on the material transmission shafts 1-24, the transmission tracks 1-30 are arranged on the transmission rollers 1-29, the supporting legs 1-31 are fixedly arranged on the mounting base plate 1-1, the matching plates 1-32 are fixedly arranged on the supporting legs 1-31, cut-fit strip holes 1-33 are provided in the fit plates 1-32.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and the embodiment further describes the embodiment, where the clamping transmission device 2 includes a connecting rotating shaft 2-1, a bevel gear 2-2, a supporting mounting plate 2-3, a clamping transmission shaft 2-4, a receiving bevel gear 2-5, a clamping transmission pulley 2-6, a transmission belt 2-7, a supporting mounting frame 2-8, an adjusting mounting barrel 2-9, an adjusting connecting column 2-10, an adjusting sliding plate 2-11, an adjusting tension spring 2-12, an adjusting mounting seat 2-13, and an adjusting tension pulley 2-14, the rotating direction is such that the bevel gear 2-2 drives the receiving bevel gear 2-5 to rotate, the receiving bevel gear 2-5 drives the clamping transmission pulley 2-6 to rotate through the clamping transmission shaft 2-4, the clamping transmission belt wheel 2-6 drives the belt wheel 1-17 to rotate through the transmission belt 2-7, meanwhile, the transmission belt 2-7 is kept tensioned by adjusting the tensioning spring 2-12 through changing the position of the adjusting mounting seat 2-13 and then changing the position of the adjusting tensioning belt wheel 2-14, the connecting rotating shaft 2-1 is rotatably mounted on the mounting top plate 1-3, the bevel gear 2-2 is fixedly mounted on the connecting rotating shaft 2-1, the supporting mounting plate 2-3 is fixedly mounted on the mounting top plate 1-3, the clamping transmission shaft 2-4 is rotatably mounted on the supporting mounting plate 2-3, the receiving bevel gear 2-5 is fixedly mounted on the clamping transmission shaft 2-4, the clamping transmission belt wheel 2-6 is fixedly mounted on the clamping transmission shaft 2-4, the transmission belt 2-7 is installed on a clamping transmission belt wheel 2-6, an adjusting tension belt wheel 2-14 and a belt wheel 1-17, a supporting installation frame 2-8 is installed and fixed on an installation bottom plate 1-1, an adjusting installation barrel 2-9 is installed and fixed on the supporting installation frame 2-8, an adjusting connection column 2-10 is installed and fixed on an adjusting sliding plate 2-11, the adjusting sliding plate 2-11 is installed inside the adjusting installation barrel 2-9 in a sliding mode, an adjusting tension spring 2-12 is sleeved on the adjusting connection column 2-10, an adjusting installation seat 2-13 is installed and fixed on the adjusting connection column 2-10, and the adjusting tension belt wheel 2-14 is installed on an adjusting installation seat 2-13 in a rotating mode.

The fourth concrete implementation mode is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and the present embodiment further describes the first embodiment, where the cutting and printing device 3 includes a mounting bracket two 3-1, a rotating shaft 3-2, a half bevel gear one 3-3, a half bevel gear two 3-4, an adjusting lifting screw 3-5, a lifting transmission bevel gear 3-6, a mounting matching ring 3-7, a moving cutting threaded column 3-8, a mounting rotating shaft 3-9, a material feeding matching plate 3-10, a matching arc spring 3-11, a friction mounting base 3-12, a material feeding shaft 3-13, a material feeding transmission gear 3-14, a material feeding output pulley 3-15, a transmission belt two 3-16, a cutting knife 3-17, a material feeding output pulley 3-15, a material feeding output pulley 3-16, a cutting knife 3-17, a cutting knife, A printing device 3-18, then a rotating shaft 3-2 of the cutting and printing device 3 rotates under the action of a matched motor, the rotating shaft 3-2 drives a half bevel gear I3-3 and a half bevel gear II 3-4 to rotate, the lifting transmission bevel gear 3-6 rotates in a reciprocating way due to the reciprocating meshing of the half bevel gear I3-3, the half bevel gear II 3-4 and the lifting transmission bevel gear 3-6, the lifting transmission bevel gear 3-6 drives an adjusting lifting screw rod 3-5 to rotate in a reciprocating way, the rotating adjusting lifting screw rod 3-5 drives a movable cutting threaded column 3-8 to move in a reciprocating way, when the movable cutting threaded column 3-8 moves downwards, a cutting knife 3-17 and the printing device 3-18 are driven to move, the cutting knife 3-17 prints materials by the printing device 3-18 while cutting, the lifting transmission bevel gear 3-6 drives the bevel gear 2-2 to rotate in one direction in the process of moving downwards, the material feeding matching plate 3-10 rotates around the installation rotating shaft 3-9 towards the interior of the movable cutting threaded column 3-8 and compresses the matching arc-shaped spring 3-11 when moving downwards for printing, and meanwhile, the material feeding shaft 3-13 can only rotate after being subjected to certain force due to certain friction force applied to the material feeding shaft 3-13 by the friction installation seat 3-12, so that the material feeding matching plate 3-10 cannot be matched with the material feeding transmission gear 3-14 to drive the material feeding transmission gear 3-14 to rotate, and then the material feeding transmission gear 3-14 cannot drive the receiving belt wheel 1-14 to rotate through the material feeding shaft 3-13, the material feeding output belt wheel 3-15 and the transmission belt 3-16 28, when the lifting screw rod 3-5 is adjusted to rotate reversely, the cutting threaded column 3-8 is moved to move upwards to enable the lifting transmission bevel gear 3-6 to rotate towards the other direction, then the bevel gear 2-2 is driven to rotate towards the other direction, the clamping blocks 1-22 are moved towards two sides to loosen materials, meanwhile, the moving cutting threaded column 3-8 which moves upwards drives the material feeding transmission gear 3-14 to rotate through the material feeding matching plate 3-10, the material feeding transmission gear 3-14 drives the material feeding output belt wheel 3-15 to rotate through the material feeding shaft 3-13, the material feeding output belt wheel 3-15 drives the receiving belt wheel 1-28 to rotate through the transmission belt two 3-16, the mounting frame two 3-1 is mounted and fixed on the mounting top plate 1-3, a rotating shaft 3-2 is rotatably arranged on a second mounting frame 3-1, a first half bevel gear 3-3 is fixedly arranged on the rotating shaft 3-2, a second half bevel gear 3-4 is fixedly arranged on the rotating shaft 3-2, an adjusting lifting screw rod 3-5 is rotatably arranged on the second mounting frame 3-1, a lifting transmission bevel gear 3-6 is fixedly arranged on the adjusting lifting screw rod 3-5, the lifting transmission bevel gear 3-6 is meshed with the bevel gear 2-2, a mounting matching ring 3-7 is fixedly arranged on a mounting top plate 1-3, a movable cutting threaded column 3-8 is slidably arranged on the mounting matching ring 3-7 and the mounting top plate 1-3, a mounting rotating shaft 3-9 is rotatably arranged inside the movable cutting threaded column 3-8, and a material feeding matching plate 3-10 is fixedly arranged on the mounting rotating shaft 3-9, the material feeding matching plate is fixedly arranged inside a material feeding matching plate 3-10 and a movable cutting threaded column 3-8 in a matching mode, a friction mounting seat 3-12 is fixedly arranged on a mounting top plate 1-3, a material feeding shaft 3-13 is rotatably arranged on the friction mounting seat 3-12, a material feeding transmission gear 3-14 is fixedly arranged on the material feeding shaft 3-13, a material feeding output belt wheel 3-15 is fixedly arranged on the material feeding shaft 3-13, a transmission belt II 3-16 is arranged on the material feeding output belt wheel 3-15 and a receiving belt wheel 1-28, a cutting knife 3-17 is fixedly arranged on the movable cutting threaded column 3-8, and a printing device 3-18 is fixedly arranged on the movable cutting threaded column 3-8.

The fifth concrete implementation mode is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and a fourth embodiment will be further described in the present embodiment, in which the rotating shaft 3-2 of the cutting and printing device 3 is provided with a matching motor.

The working principle of the invention is as follows:

a working principle of automatic workpiece cutting and printing equipment is that whether connection conditions among devices meet requirements is checked before the equipment is used, firstly, a rotating disc 1-6 of a feeding device 1 is installed in a rotating mode to drive an adjusting screw rod 1-5 to rotate, the rotating adjusting screw rod 1-5 adjusts the position of a movable threaded square column 1-7 inside a fixed square column 1-4, the movable threaded square column 1-7 pushes a sliding square plate 1-9 through an adjusting spring 1-8, then a movable installation shell 1-11 is pushed through a pushing connection column 1-10, the movable installation shell 1-11 drives a fixed shaft 1-12 and a matched rotating pipe 1-13 to move, so that the matched rotating pipe 1-13 and a transmission crawler 1-30 compress workpiece materials needing to be cut and printed, and meanwhile, the movable installation shell 1-11 drives a clamping block 1-22 to move through a connection installation rack 1-14 to enable the clamping block 1-22 to move So that the clamping blocks 1-22 can be clamped at the center of the material, then the rotating shaft 3-2 of the cutting and printing device 3 rotates under the action of a matched motor, the rotating shaft 3-2 drives the half bevel gear I3-3 and the half bevel gear II 3-4 to rotate, the lifting transmission bevel gear 3-6 rotates in a reciprocating way as the half bevel gear I3-3, the half bevel gear II 3-4 and the lifting transmission bevel gear 3-6 are meshed in a reciprocating way, the lifting transmission bevel gear 3-6 drives the lifting adjusting screw rod 3-5 to rotate in a reciprocating way, the rotating adjusting lifting screw rod 3-5 drives the movable cutting threaded column 3-8 to move in a reciprocating way, and when the movable cutting threaded column 3-8 moves downwards, the cutting knife 3-17 and the printing device 3-18 are driven to move, the cutting knife 3-17 prints materials when cutting, the printing device 3-18 prints the materials, the bevel gear 3-6 is driven by the lifting transmission bevel gear 3-6 to drive the bevel gear 2-2 to rotate in one direction in the process of moving downwards, the bevel gear 2-2 drives the bevel gear receiving 2-5 to rotate in the rotating direction, the bevel gear receiving 2-5 drives the clamping transmission belt wheel 2-6 to rotate through the clamping transmission shaft 2-4, the clamping transmission belt wheel 2-6 drives the belt wheel 1-17 to rotate through the transmission belt 2-7, the belt wheel 1-17 drives the screw rod 1-16 to rotate, the rotating screw rod 1-16 drives the movable threaded column 1-18 with the groove to move towards the center and then clamp the materials, and then the clamping spring 1-19 can enable the clamping block 1-22 and the movable threaded column 1-18 with the groove to change positions firstly so as to adapt to one direction of the materials Materials in the fixed size, the tensioning springs 2-12 are adjusted at the same time, the position of the adjusting mounting seat 2-13 is changed, then the position of the adjusting tensioning belt wheel 2-14 is changed, so that the transmission belt 2-7 is kept tensioned, when the materials move downwards to print, the material feeding matching plate 3-10 rotates around the mounting rotating shaft 3-9 towards the inner part of the moving cutting threaded column 3-8 and compresses the matching arc-shaped spring 3-11, meanwhile, the friction force given by the friction mounting seat 3-12 to the material feeding shaft 3-13 enables the material feeding shaft 3-13 to rotate only after a certain force is applied, so that the material feeding matching plate 3-10 cannot be matched with the material feeding transmission gear 3-14 to drive the material feeding transmission gear 3-14 to rotate, then the material feeding transmission gear 3-14 can not drive the receiving belt wheel 1-28 to rotate through the material feeding shaft 3-13, the material feeding output belt wheel 3-15 and the transmission belt two 3-16, then the receiving belt wheel 1-28 can not drive the output gear 1-27 to rotate through the transmission shaft 1-26, the output gear 1-27 can not drive the receiving gear 1-25 to rotate, the receiving gear 1-25 can not drive the transmission roller 1-29 to rotate through the material transmission shaft 1-24, the transmission roller 1-29 can not drive the material to advance through the transmission belt track 1-30, when the lifting screw rod 3-5 is adjusted to rotate reversely, the cutting threaded column 3-8 is moved upwards, the lifting transmission bevel gear 3-6 is rotated towards the other direction, then the bevel gear 2-2 is driven to rotate towards the other direction, and the clamping block 1-22 can be driven to rotate towards two directions The material is loosened by lateral movement, meanwhile, the upward moving cutting thread column 3-8 drives the material feeding transmission gear 3-14 to rotate through the material feeding matching plate 3-10, the material feeding transmission gear 3-14 drives the material feeding output belt wheel 3-15 to rotate through the material feeding shaft 3-13, the material feeding output belt wheel 3-15 drives the receiving belt wheel 1-28 to rotate through the transmission belt II 3-16, the receiving belt wheel 1-28 drives the output gear 1-27 to rotate through the transmission shaft 1-26, the output gear 1-27 drives the material transmission shaft 1-24 to rotate through the receiving gear 1-25, the material transmission shaft 1-24 drives the transmission crawler belt 1-30 to drive the material to move forwards through the transmission roller 1-29, and then the cut and printed material is ejected again to form a cycle.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a work piece automatic cutout lithography apparatus, includes installation feeder (1), presss from both sides tight transmission (2), cutting printing device (3), its characterized in that: the clamping transmission device (2) is fixedly arranged on the mounting feeding device (1), and the cutting printing device (3) is fixedly arranged on the mounting feeding device (1);

the installation feeding device (1) comprises an installation bottom plate (1-1), supporting legs (1-2), an installation top plate (1-3), a fixed square column (1-4), an adjusting lead screw (1-5), a rotating disc (1-6), a movable threaded square column (1-7), an adjusting spring (1-8), a sliding square plate (1-9), a pushing connecting column (1-10), a movable installation shell (1-11), a fixed shaft (1-12), a matching rotating pipe (1-13), a connecting installation frame (1-14), a fixing ring (1-15), a lead screw I (1-16), a belt wheel I (1-17), a belt groove movable threaded column (1-18), a clamping spring (1-19), a pushing plate (1-20), a connecting pushing column (1-21), The device comprises clamping blocks (1-22), support mounting columns (1-23), material transmission shafts (1-24), receiving gears (1-25), transmission shafts (1-26), output gears (1-27), receiving belt wheels (1-28), transmission rollers (1-29), transmission tracks (1-30), support legs (1-31), matching plates (1-32) and cutting matching strip-shaped holes (1-33), wherein the support legs (1-2) are fixedly arranged on a mounting bottom plate (1-1), a mounting top plate (1-3) is fixedly arranged on the support legs (1-2), fixed square columns (1-4) are fixedly arranged on the mounting top plate (1-3), and adjusting screw rods (1-5) are rotatably arranged on the fixed square columns (1-4), the rotary disc (1-6) is fixedly arranged on the adjusting screw rod (1-5), the movable threaded square column (1-7) is slidably arranged inside the fixed square column (1-4), the movable threaded square column (1-7) is in threaded fit with the adjusting screw rod (1-5), the adjusting spring (1-8) is arranged inside the movable threaded square column (1-7), the sliding square plate (1-9) is slidably arranged inside the movable threaded square column (1-7), the pushing connecting column (1-10) is fixedly arranged on the sliding square plate (1-9), the movable mounting shell (1-11) is fixedly arranged on the pushing connecting column (1-10), the fixed shaft (1-12) is fixedly arranged on the movable mounting shell (1-11), and the rotating pipe (1-13) is rotatably arranged on the fixed shaft (1-12), the connection mounting rack (1-14) is fixedly arranged on the movable mounting shell (1-11), the fixing ring (1-15) is fixedly arranged on the connection mounting rack (1-14), the screw rod I (1-16) is rotatably arranged on the fixing ring (1-15), the belt wheel I (1-17) is fixedly arranged on the screw rod I (1-16), the grooved movable threaded column (1-18) is slidably arranged on the connection mounting rack (1-14), the clamping spring (1-19) is arranged in the grooved movable threaded column (1-18), the pushing plate (1-20) is slidably arranged in the grooved movable threaded column (1-18), the connection pushing column (1-21) is fixedly arranged on the pushing plate (1-20), and the clamping block (1-22) is fixedly arranged on the connection pushing column (1-21), the support mounting column (1-23) is fixedly arranged on the mounting base plate (1-1), the material transmission shaft (1-24) is rotatably arranged on the support mounting column (1-23), the receiving gear (1-25) is fixedly arranged on the material transmission shaft (1-24), the transmission shaft (1-26) is rotatably arranged on the support mounting column (1-23), the output gear (1-27) is fixedly arranged on the transmission shaft (1-26), the output gear (1-27) is meshed with the receiving gear (1-25), the receiving belt wheel (1-28) is fixedly arranged on the transmission shaft (1-26), the transmission roller (1-29) is fixedly arranged on the material transmission shaft (1-24), and the transmission crawler (1-30) is arranged on the transmission roller (1-29), the supporting legs (1-31) are fixedly arranged on the mounting bottom plate (1-1), the matching plates (1-32) are fixedly arranged on the supporting legs (1-31), and the cut matching strip-shaped holes (1-33) are arranged on the matching plates (1-32);

The clamping transmission device (2) comprises a connecting rotating shaft (2-1), a bevel gear (2-2), a supporting mounting plate (2-3), a clamping transmission shaft (2-4), a receiving bevel gear (2-5), a clamping transmission belt wheel (2-6), a transmission belt (2-7), a supporting mounting frame (2-8), an adjusting mounting barrel (2-9), an adjusting connecting column (2-10), an adjusting sliding plate (2-11), an adjusting tensioning spring (2-12), an adjusting mounting seat (2-13) and an adjusting tensioning belt wheel (2-14), wherein the connecting rotating shaft (2-1) is rotatably mounted on a mounting top plate (1-3), the bevel gear (2-2) is fixedly mounted on the connecting rotating shaft (2-1), and the supporting mounting plate (2-3) is fixedly mounted on the mounting top plate (1-3), a clamping transmission shaft (2-4) is rotatably arranged on a supporting installation plate (2-3), a receiving bevel gear (2-5) is fixedly arranged on the clamping transmission shaft (2-4), a clamping transmission belt wheel (2-6) is fixedly arranged on the clamping transmission shaft (2-4), a transmission belt (2-7) is arranged on the clamping transmission belt wheel (2-6), an adjusting tension belt wheel (2-14) and a belt wheel I (1-17), a supporting installation frame (2-8) is fixedly arranged on an installation bottom plate (1-1), an adjusting installation barrel (2-9) is fixedly arranged on the supporting installation frame (2-8), an adjusting connection column (2-10) is fixedly arranged on an adjusting sliding plate (2-11), the adjusting sliding plate (2-11) is slidably arranged in the adjusting installation barrel (2-9), the adjusting tensioning spring (2-12) is sleeved on the adjusting connecting column (2-10), the adjusting mounting seat (2-13) is fixedly arranged on the adjusting connecting column (2-10), and the adjusting tensioning belt wheel (2-14) is rotatably arranged on the adjusting mounting seat (2-13);

The cutting and printing device (3) comprises a mounting rack II (3-1), a rotating shaft (3-2), a half bevel gear I (3-3), a half bevel gear II (3-4), an adjusting lifting screw rod (3-5), a lifting transmission bevel gear (3-6), a mounting assembly ring (3-7), a movable cutting threaded column (3-8), a mounting rotating shaft (3-9), a material feeding matching plate (3-10), a matching arc spring (3-11), a friction mounting seat (3-12), a material feeding shaft (3-13), a material feeding transmission gear (3-14), a material feeding output belt wheel (3-15), a transmission belt II (3-16), a cutting knife (3-17) and a printing device (3-18), wherein the mounting rack II (3-1) is fixedly mounted on a top plate mounting (1-3), a rotating shaft (3-2) is rotatably arranged on a second mounting frame (3-1), a first half bevel gear (3-3) is fixedly arranged on the rotating shaft (3-2), a second half bevel gear (3-4) is fixedly arranged on the rotating shaft (3-2), an adjusting lifting screw rod (3-5) is rotatably arranged on the second mounting frame (3-1), a lifting transmission bevel gear (3-6) is fixedly arranged on the adjusting lifting screw rod (3-5), a lifting transmission bevel gear (3-6) is meshed with the bevel gear (2-2), an assembling ring (3-7) is fixedly arranged on an assembling top plate (1-3), a movable cutting threaded column (3-8) is slidably arranged on the assembling ring (3-7) and the assembling top plate (1-3), and an installing rotating shaft (3-9) is rotatably arranged inside the movable cutting threaded column (3-8), a material feeding matching plate (3-10) is fixedly arranged on a mounting rotating shaft (3-9), a matching arc spring (3-11) is fixedly arranged inside the material feeding matching plate (3-10) and a movable cutting threaded column (3-8), a friction mounting seat (3-12) is fixedly arranged on a mounting top plate (1-3), a material feeding shaft (3-13) is rotatably arranged on the friction mounting seat (3-12), a material feeding transmission gear (3-14) is fixedly arranged on the material feeding shaft (3-13), a material feeding output belt wheel (3-15) is fixedly arranged on the material feeding shaft (3-13), a transmission belt II (3-16) is arranged on the material feeding output belt wheel (3-15) and a receiving belt wheel (1-28), a cutting knife (3-17) is fixedly arranged on the movable cutting threaded column (3-8), the printing device (3-18) is fixedly arranged on the movable cutting threaded column (3-8).

2. The automatic workpiece cutting and printing device as claimed in claim 1, wherein: and a rotating shaft (3-2) of the cutting and printing device (3) is provided with a matched motor.

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