CN114228331A - Cylinder surface printing device for full-servo injector production and use method - Google Patents

Abstract

The invention relates to a cylinder surface printing device for producing a full-servo injector and a use method thereof. According to the device, the arc-shaped printing plate, the conveying roller, the oil brushing mechanism, the needle cylinder feeding mechanism and the needle cylinder rotation mechanism are arranged, the needle cylinders are all installed on the conveying roller through the needle cylinder feeding mechanism, then the conveying roller and the needle cylinder rotation mechanism drive the needle cylinders to rotate and revolve, the needle cylinders rotate to be attached to the arc-shaped printing plate to achieve the effect of annular surface printing, and meanwhile, the oil brushing mechanism can automatically supplement oil of the arc-shaped printing plate.

Description

Cylinder surface printing device for full-servo injector production and use method

Technical Field

The invention relates to a cylinder surface printing device for producing a full-servo injector and a using method thereof, belonging to the technical field of injector cylinder surface printing.

Background

A syringe is a common medical device, and the process of drawing and injecting gas or liquid with a needle is called injection. The injector consists of a syringe with a small hole at the front end and a matched piston core rod, and is used for injecting a small amount of liquid or extracting the liquid or the liquid from the inaccessible area by other methods, wherein the liquid or gas is sucked from the small hole at the front end of the syringe when the core rod is pulled out, and the liquid or gas is extruded when the core rod is pushed in.

In the prior art, the whole injector printing device is of a linear structure, so that the whole device occupies a large space, is low in integration degree and has the problem of low space utilization rate.

Disclosure of Invention

The invention aims to solve the technical problems and overcome the existing defects, and provides a cylinder surface printing device for producing a full-servo injector and a using method thereof.

In order to solve the technical problems, the invention provides the following technical scheme:

the cylinder surface printing device comprises an installation frame, wherein the bottom of the inner wall of the installation frame is connected with an arc-shaped printing plate through support columns, conveying rollers are installed on two sides of the inner wall of the installation frame, an oil brushing mechanism is installed inside each conveying roller, a cylinder feeding mechanism is installed on one side of the outer wall of each conveying roller, a cylinder rotation mechanism is installed at one end of each conveying roller, a discharging mechanical arm is installed on the other side of the outer wall of each conveying roller, and a first fan port and a second fan are installed on two sides of the inner wall of the installation frame respectively.

Further, surface mounting has the rubber slab on the arc printing plate, arc printing plate outer wall one side fixedly connected with limiting plate, the arc printing plate centre of a circle coincides each other with the centre of a circle of defeated material cylinder.

Furthermore, triangular depressed areas are formed in the periphery of the outer wall of the conveying roller, and elastic clamping jaws are installed on the inner walls of the triangular depressed areas.

Further, inside including storing the oil tank of brushing oil mechanism, and it is located defeated material cylinder inside to store the oil tank, it has defeated oil pipe to store oil tank outer wall intercommunication all around, and defeated oil pipe inner wall mid-mounting has a control door, the control door other end is connected with touch button through the data line, defeated oil pipe one end veneer is connected with the brush look sponge, touch button and brush look sponge all are located defeated material cylinder outer wall, and touch button all is located brush look sponge left side, touch button and brush look sponge all with the mutual swing joint of rubber slab.

Further, the frame is stored including the cylinder to cylinder feed mechanism inside, and cylinder storage frame outer wall one side through connecting rod and the mutual fixed connection of installation frame inner wall, frame lower extreme swing joint is stored to the cylinder has the pushing manipulator, and pushing manipulator outer wall one side fixedly connected with closing plate, pushing manipulator surface swing joint has the cylinder, pushing manipulator and unloading manipulator are about defeated material cylinder bilateral symmetry distribution.

Further, the needle cylinder rotation mechanism is internally provided with a supporting rod, the supporting rod is fixedly connected with the inner wall of the installation frame, one end of the supporting rod is fixedly connected with an annular rack, the inner wall of the annular rack is meshed with a gear, the inner wall of the gear is provided with a cross-shaped through groove, one side of the gear is installed on one side of the outer wall of the material conveying roller through a bearing and a connecting rod, the annular rack and the material conveying roller are coaxially distributed, and the gear corresponds to the triangular depressed areas one to one.

Further, first fan mouth sets up in being close to annular rack one side, the annular rack one side is set up and keeps away from to the second fan, first fan mouth and second fan are about defeated material cylinder central symmetry distribution, and the edge of defeated material cylinder is pressed close to first fan mouth and second fan.

A cylinder surface printing device for producing a full servo injector comprises the following operation steps:

s1, firstly, adding a plurality of groups of syringes into the syringe storage frame, firstly, receiving a dropped syringe by the pushing manipulator, sending the syringe into the elastic clamping jaws by the pushing manipulator extending forwards, forcibly opening the elastic clamping jaws under the strong extrusion of the syringe, and finally, completely clamping the syringe by the elastic clamping jaws, completely sealing the syringe storage frame by the sealing plate in the process that the pushing manipulator pushes forwards, preventing the subsequent syringe from continuously dropping, automatically and reversely contracting the pushing manipulator after the syringe is pushed and conveyed, reopening the sealing plate, and dropping the syringe onto the pushing manipulator again.

S2, the material conveying roller is mainly driven by a motor to rotate, when the needle cylinder is clamped into the elastic clamping jaws, the material conveying roller can switch the next elastic clamping jaw by clockwise rotation, then the material feeding operation is carried out by the needle cylinder feeding mechanism, because the material conveying roller drives the gear to rotate together, the gear can be meshed with the annular rack in the rotating process, so that the gear is also opened to carry out autorotation motion, the second fan continuously and transversely blows the needle cylinder in the elastic clamping jaws to promote the tail end part of the needle cylinder, namely the convex handle part of the needle cylinder in the prior art, and the gear is naturally clamped into the cross through groove, so that the gear can drive the needle cylinder to rotate, the needle cylinder can enter the arc-shaped printing plate along with the material conveying roller, the needle cylinder rolls on the surface of the rubber plate in a rolling mode, so that the printing effect is achieved, the color brushing sponge and the touch button can also enter the interior of the arc-shaped printing plate, touch button receives trigger signal behind the extrusion of arc printing plate, with on signal transmission reaches the control gate, the control gate is opened, on the oil flows into the brush look sponge from the oil pipe, the brush look sponge is by arc printing plate extrusion back, on the ink can be printed on the rubber slab.

S3, when the material conveying roller continues to rotate, the needle cylinder on the elastic clamping jaw contacts the blanking mechanical arm, and the first air blower blows the needle cylinder reversely from one side of the gear, so that the needle cylinder is separated from the inside of the cross-shaped through groove, and finally the printed needle cylinder is collected when the elastic clamping jaw is pulled out by the blanking mechanical arm in a contraction mode.

The invention has the technical effects and advantages that:

according to the device, the arc-shaped printing plate, the conveying roller, the oil brushing mechanism, the needle cylinder feeding mechanism and the needle cylinder rotation mechanism are arranged, the needle cylinders are all installed on the conveying roller through the needle cylinder feeding mechanism, then the conveying roller and the needle cylinder rotation mechanism drive the needle cylinders to rotate and revolve, the needle cylinders rotate to be attached to the arc-shaped printing plate to achieve the effect of annular surface printing, and meanwhile, the oil brushing mechanism can automatically supplement oil of the arc-shaped printing plate.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic cross-sectional three-dimensional structure of the present invention.

Fig. 2 is a schematic view of a partial three-dimensional structure of the present invention.

Fig. 3 is a side view of the internal structure of the present invention.

Fig. 4 is a schematic view of the present invention at a part enlarged in fig. 3.

Fig. 5 is a schematic structural view of the oil brushing mechanism of the present invention.

FIG. 6 is a schematic view showing the structure of the syringe rotation mechanism of the present invention.

Fig. 7 is a schematic view of the structure of the gear and the cross-shaped through groove of the invention.

Reference numbers in the figures: 1. installing an outer frame; 2. an arc printing plate; 201. a rubber plate; 202. a limiting plate; 3. a delivery roller; 301. a triangular recessed area; 302. an elastic clamping jaw; 4. an oil brushing mechanism; 401. a storage tank; 402. an oil delivery pipe; 403. a control gate; 404. brushing color sponge; 405. a touch button; 5. a needle cylinder feeding mechanism; 501. a syringe storage frame; 502. a material pushing manipulator; 5021. a sealing plate; 503. a needle cylinder; 6. a syringe self-rotation mechanism; 601. a support bar; 602. an annular rack; 603. a gear; 6031. a cross-shaped through groove; 7. a feeding manipulator; 8. a first fan; 9. and a second fan.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

As shown in fig. 1-7, a cylinder surface printing device for producing a full servo injector and a using method thereof, comprising an installation frame 1, an arc-shaped printing plate 2 connected to the bottom of the inner wall of the installation frame 1 through a support column, a delivery roller 3 installed on both sides of the inner wall of the installation frame 1, an oil brushing mechanism 4 installed inside the delivery roller 3, a rubber plate 201 installed on the upper surface of the arc-shaped printing plate 2, a limiting plate 202 fixedly connected to one side of the outer wall of the arc-shaped printing plate 2, the center of the arc-shaped printing plate 2 and the center of the delivery roller 3 being coincident with each other, the rubber plate 201 being provided with fixed scales and being made of rubber material to better adhere to a cylinder 503 to prevent the cylinder 503 from being damaged due to excessive extrusion, the limiting plate 202 mainly prevents the cylinder 503 from moving transversely during the printing rolling process, the limiting plate 202 and the delivery roller 3 being concentric with each other for the purpose of enabling the limiting plate 202 and the delivery roller 3 to be tightly adhered to the delivery roller 3, the phenomenon of uneven printing in the later period is prevented.

Triangular depressed area 301 has been seted up around defeated material cylinder 3 outer wall, and triangular depressed area 301 inner wall installation elasticity clamping jaw 302, elasticity clamping jaw 302 adopts aluminium material to make, elasticity clamping jaw 302 breach department will be less than the diameter of cylinder 503, like this after cylinder 503 is filled in elasticity clamping jaw 302 by force, elasticity clamping jaw 302 can hold down cylinder 503 through the mode of opening to both sides, give complete seizing by the resilience effect of elasticity clamping jaw 302 again, triangular depressed area 301 is mainly for holding down cylinder 503 and elasticity clamping jaw 302, let the outer wall of cylinder 503 laminate as far as possible in the edge of defeated material cylinder 3's maximum diameter, just so can play the effect of printing.

The oil brushing mechanism 4 comprises an oil storage tank 401 inside, the oil storage tank 401 is positioned inside a delivery roller 3, the periphery of the outer wall of the oil storage tank 401 is communicated with an oil delivery pipe 402, the middle part of the inner wall of the oil delivery pipe 402 is provided with a control door 403, the other end of the control door 403 is connected with a touch button 405 through a data line, one end of the oil delivery pipe 402 is connected with a color brushing sponge 404 in a gluing way, the touch button 405 and the color brushing sponge 404 are both positioned on the outer wall of the delivery roller 3, the touch button 405 is positioned on the left side of the color brushing sponge 404, the touch button 405 and the color brushing sponge 404 are both movably connected with a rubber plate 201, the oil storage tank 401 can only store half of oil and can not store more than half of oil, when the delivery roller 3 rotates continuously, the oil is always positioned on the lower half of the oil storage tank 401, meanwhile, four groups of oil delivery pipes 402 are arranged, and when the direction of the oil delivery pipe 402 is downward, the oil can enter the downward oil delivery pipe 402, when the feeding roller 3 rotates, one group of color painting sponge 404 and touch button 405 can enter the arc-shaped printing plate 2, the touch button 405 is pressed by the arc-shaped printing plate 2 to trigger signals, the signals are transmitted to the control door 403, the control door 403 is opened, oil flows into the color painting sponge 404 from the oil conveying pipe 402, the ink can be printed on the rubber plate 201 after the color painting sponge 404 is pressed by the arc-shaped printing plate 2, so that the effect of automatically replenishing the ink on the rubber plate 201 can be achieved, and meanwhile, if the oil in the oil storage tank 401 needs to be replenished, the touch button 405 only needs to be pressed, and the oil is poured inwards along the oil conveying pipe 402.

A needle cylinder feeding mechanism 5 is arranged on one side of the outer wall of a material conveying roller 3, a needle cylinder self-rotating mechanism 6 is arranged at one end of the material conveying roller 3, a needle cylinder storage frame 501 is arranged in the needle cylinder feeding mechanism 5, one side of the outer wall of the needle cylinder storage frame 501 is fixedly connected with the inner wall of an installation outer frame 1 through a connecting rod, a material pushing manipulator 502 is movably connected to the lower end of the needle cylinder storage frame 501, a sealing plate 5021 is fixedly connected to one side of the outer wall of the material pushing manipulator 502, a needle cylinder 503 is movably connected to the surface of the material pushing manipulator 502, the material pushing manipulator 502 and a material discharging manipulator 7 are symmetrically distributed on two sides of the material conveying roller 3, the structure of the needle cylinder storage frame 501 and the structure of the needle cylinder 503 are similar to a cartridge clip, the material pushing manipulator 502 pushes the needle cylinder 503 to be automatically clamped into the elastic clamping jaw 302, the material pushing manipulator 502 pushes the needle cylinder storage frame 501 to be completely sealed by the sealing plate 5021 in the process of pushing forward, so as to prevent the needle cylinder 503 from falling down automatically, when the pusher robot 502 moves backward, the sealing plate 5021 is opened, and the syringe 503 in the syringe storage frame 501 automatically drops onto the pusher robot 502 and waits for the next spring clip 302.

The syringe self-rotation mechanism 6 comprises a support bar 601 inside, the support bar 601 is fixedly connected with the inner wall of the mounting outer frame 1, one end of the support bar 601 is fixedly connected with an annular rack 602, and the inner wall of the annular rack 602 is engaged and connected with a gear 603, the inner wall of the gear 603 is provided with a cross through groove 6031, one side of the gear 603 is arranged at one side of the outer wall of the material conveying roller 3 through a bearing and a connecting rod, the annular rack 602 and the material conveying roller 3 are coaxially distributed, the gear 603 and the triangular depressed area 301 are mutually corresponding one by one, the support rod 601 mainly plays a role of supporting the annular rack 602, and the annular rack 602 and the delivery roller 3 are kept in a coaxial state, the delivery roller 3 drives the gear 603 to rotate together when rotating, the gear 603 also rotates due to the meshing with the annular rack 602, and the gear 603 drives the syringe 503 to rotate through the cross through groove 6031, so that the effect of printing the annular surface of the syringe 503 can be achieved.

Unloading manipulator 7 is installed to defeated material cylinder 3 outer wall opposite side, install first fan mouth 8 and second fan 9 respectively on 1 inner wall both sides of installation frame, first fan mouth 8 sets up in being close to annular rack 602 one side, second fan 9 sets up and keeps away from annular rack 602 one side, first fan mouth 8 and second fan 9 are about defeated material cylinder 3 central symmetry distribution, and the edge of defeated material cylinder 3 is pressed close to first fan mouth 8 and second fan 9, first fan mouth 8 mainly helps cylinder 503 and the logical groove 6031 alternate segregation of cross, make things convenient for cylinder 503 to be taken out by unloading manipulator 7, second fan 9 mainly helps cylinder 503 and the logical groove 6031 of cross to mutually support, let gear 603 can drive cylinder 503 and rotate together.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

The working principle of the invention is as follows: when the automatic sealing device is used, firstly, a plurality of groups of syringes 503 are added into the syringe storage frame 501, firstly, the pushing manipulator 502 receives the dropped syringes 503, the pushing manipulator 502 forwards extends to send the syringes 503 into the elastic clamping jaws 302, the elastic clamping jaws 302 are forced to open under the strong extrusion of the syringes 503, and finally, the elastic clamping jaws 302 completely clamp the dropped syringes, the syringe storage frame 501 is completely sealed by the sealing plate 5021 in the forward pushing process of the pushing manipulator 502, so that the continuous dropping of the subsequent syringes 503 is prevented, after the pushing and conveying of the syringes 503 are completed, the pushing manipulator 502 is automatically and reversely contracted, the sealing plate 5021 is reopened, the syringes 503 drop onto the pushing manipulator 502 again, the material conveying roller 3 is mainly driven by the motor to rotate, and the motor model is as follows: when the needle cylinder 503 is clamped into the elastic clamping jaws 302, the MSMF042L1U2M is released, the delivery cylinder 3 can be rotated clockwise to switch the next elastic clamping jaw 302, and then the feeding operation is performed by the needle cylinder feeding mechanism 5, because the delivery cylinder 3 drives the gear 603 to rotate together, and the gear 603 is engaged with the annular rack 602 in the rotating process, so that the gear 603 is opened to perform a rotation motion, and the second fan 9 continuously blows the needle cylinder 503 in the elastic clamping jaws 302 transversely, so that the end part of the needle cylinder 503, that is, the protruding handle part of the needle cylinder 503 in the prior art is naturally clamped into the cross-shaped through slot 6031, so that the gear 603 can drive the needle cylinder 503 to rotate, the needle cylinder 503 can enter the arc-shaped printing plate 2 along with the delivery cylinder 3, and the needle cylinder 503 continuously rolls on the surface of the rubber plate 201 in a rolling manner, thereby achieving the printing effect, the painting sponge 404 and the touch button 405 also enter the arc-shaped printing plate 2, the touch button 405 is subjected to a triggering signal after being squeezed by the arc-shaped printing plate 2, the signal is transmitted to the control door 403, the control door 403 is opened, oil flows into the painting sponge 404 from the oil pipeline 402, after the painting sponge 404 is squeezed by the arc-shaped printing plate 2, ink is printed on the rubber plate 201, when the material conveying roller 3 continues to rotate, the syringe 503 on the elastic clamping jaw 302 contacts the blanking manipulator 7, the first fan 8 reversely blows the syringe 503 from one side of the gear 603, the syringe 503 is separated from the inside of the cross-shaped through groove 6031, the elastic clamping jaw 302 is pulled out by the blanking manipulator 7 in a shrinkage mode, and finally the printed syringe 503 is collected.

The above embodiments are preferred embodiments of the present invention, and those skilled in the art can make variations and modifications to the above embodiments, therefore, the present invention is not limited to the above embodiments, and any obvious improvements, substitutions or modifications made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a cylinder surface printing device is used in production of full servo syringe, includes installation frame (1), its characterized in that: installation frame (1) inner wall bottom is connected with arc printing plate (2) through the support column, defeated material cylinder (3) are installed to installation frame (1) inner wall both sides, and defeated material cylinder (3) internally mounted has brushing oil mechanism (4), cylinder feed mechanism (5) are installed to defeated material cylinder (3) outer wall one side, cylinder rotation mechanism (6) are installed to defeated material cylinder (3) one end, unloading manipulator (7) are installed to defeated material cylinder (3) outer wall opposite side, first fan mouth (8) and second fan (9) are installed respectively to installation frame (1) inner wall both sides.

2. The cylinder surface printing device for producing the full servo injector according to claim 1, wherein: arc printing plate (2) upper surface mounting has rubber slab (201), arc printing plate (2) outer wall one side fixedly connected with limiting plate (202), the arc printing plate (2) centre of a circle coincides each other with the centre of a circle of defeated material cylinder (3).

3. The cylinder surface printing device for producing the full servo injector according to claim 1, wherein: triangular depressed areas (301) are arranged on the periphery of the outer wall of the material conveying roller (3), and elastic clamping jaws (302) are installed on the inner walls of the triangular depressed areas (301).

4. The cylinder surface printing device for producing the full servo injector according to claim 1, wherein: brush oily mechanism (4) is inside including storing oil tank (401), and stores oil tank (401) and be located defeated material cylinder (3) inside, it has defeated oil pipe (402) to store oil tank (401) outer wall intercommunication all around, and defeated oil pipe (402) inner wall mid-mounting has control gate (403), control gate (403) other end is connected with touch button (405) through the data line, defeated oil pipe (402) one end veneer is connected with brush look sponge (404), touch button (405) all are located defeated material cylinder (3) outer wall with brush look sponge (404), and touch button (405) all are located brush look sponge (404) left side, touch button (405) all with rubber slab (201) interconnect with brush look sponge (404).

5. The cylinder surface printing device for producing the full servo injector according to claim 1, wherein: frame (501) is stored including the cylinder to cylinder feed mechanism (5) inside, and the cylinder stores frame (501) outer wall one side and passes through the connecting rod and the mutual fixed connection of installation frame (1) inner wall, frame (501) lower extreme swing joint is stored to the cylinder has pushing equipment manipulator (502), and pushes equipment manipulator (502) outer wall one side fixedly connected with closing plate (5021), pushing equipment manipulator (502) surface swing joint has cylinder (503), pushing equipment manipulator (502) and unloading manipulator (7) are about defeated material cylinder (3) bilateral symmetry distribution.

6. The cylinder surface printing device for producing the full servo injector according to claim 1, wherein: needle cylinder rotation mechanism (6) is inside including bracing piece (601), and bracing piece (601) and the mutual fixed connection of installation frame (1) inner wall, bracing piece (601) one end fixedly connected with annular rack (602), and annular rack (602) inner wall meshing is connected with gear (603), cross logical groove (6031) have been seted up to gear (603) inner wall, gear (603) one side is installed in defeated material cylinder (3) outer wall one side through bearing and connecting rod, annular rack (602) and defeated material cylinder (3) coaxial distribution, gear (603) and triangle depressed area (301) each other one-to-one.

7. The cylinder surface printing device for producing the full servo injector according to claim 1, wherein: first fan mouth (8) set up in being close to annular rack (602) one side, annular rack (602) one side is set up and keeps away from in second fan (9), first fan mouth (8) and second fan (9) are about defeated material cylinder (3) central symmetry distribution, and the edge of defeated material cylinder (3) is pressed close to in first fan mouth (8) and second fan (9).

8. A cylinder surface printing device for producing a full servo injector comprises the following operation steps:

s1, firstly adding a plurality of groups of syringes (503) into the syringe storage frame (501), firstly, receiving the dropped syringes (503) by the pushing manipulator (502), sending the syringes (503) into the elastic clamping jaws (302) by the forward extension of the pushing manipulator (502), forcibly opening the elastic clamping jaws (302) under the strong extrusion of the syringes (503), and finally completely clamping by the elastic clamping jaws (302), wherein the syringe storage frame (501) is completely sealed by the sealing plate (5021) in the forward pushing process of the pushing manipulator (502) to prevent the subsequent syringes (503) from continuously dropping, and after the pushing and the conveying of the syringes (503) are completed, the pushing manipulator (502) is automatically and reversely contracted, the sealing plate (5021) is reopened, and the syringes (503) drop onto the pushing manipulator (502) again.

S2, the material conveying roller (3) is mainly driven by a motor to rotate, when the needle cylinder (503) is clamped into the elastic clamping jaws (302), the material conveying roller (3) can switch the next elastic clamping jaw (302) by clockwise rotation, then the material is fed by the needle cylinder feeding mechanism (5), because the material conveying roller (3) drives the gear (603) to rotate together, and the gear (603) is meshed with the annular rack (602) in the rotating process, so that the gear (603) is opened to rotate, and the second fan (9) continuously and transversely blows the needle cylinder (503) in the elastic clamping jaws (302), so that the tail part of the needle cylinder (503), namely the part of the raised handle of the needle cylinder (503) in the prior art, is naturally clamped into the cross through groove (6031), so that the gear (603) can drive the needle cylinder (503) to rotate, needle cylinder (503) can enter into arc printing plate (2) along with defeated material cylinder (3), needle cylinder (503) constantly rolls on rubber slab (201) surface through rolling mode, thereby reach the effect of printing, brush look sponge (404) and touch button (405) also can enter into the inside of arc printing plate (2), touch button (405) receive the extrusion back trigger signal of arc printing plate (2), with signal transmission to on control door (403), control door (403) are opened, the oil flows into on brush look sponge (404) from defeated oil pipe (402), brush look sponge (404) are extruded by arc printing plate (2) after, the ink can be printed on rubber slab (201).

S3, when the feeding roller (3) continues to rotate, the needle cylinder (503) on the elastic clamping jaw (302) contacts the blanking mechanical arm (7), and the first fan (8) blows the needle cylinder (503) from one side of the gear (603) in the reverse direction, so that the needle cylinder (503) is separated from the inside of the cross through groove (6031), and the printed needle cylinder (503) is collected in the elastic clamping jaw (302) pulled out by the blanking mechanical arm (7) in a shrinkage mode.

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