CN217553439U - Electronic shaft of printing machine - Google Patents

Electronic shaft of printing machine Download PDF

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Publication number
CN217553439U
CN217553439U CN202221254218.6U CN202221254218U CN217553439U CN 217553439 U CN217553439 U CN 217553439U CN 202221254218 U CN202221254218 U CN 202221254218U CN 217553439 U CN217553439 U CN 217553439U
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symmetrical
telescopic rod
wall
electronic shaft
printing machine
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CN202221254218.6U
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Chinese (zh)
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赵明
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Shenyang Rixin Plastic Packaging Products Co ltd
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Shenyang Rixin Plastic Packaging Products Co ltd
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Abstract

The utility model relates to a printing machine electron axle field especially relates to a printing machine electron axle. The electronic shaft of the printing machine comprises a processing seat, and a novel electronic shaft is arranged at the top of the processing seat; the inner wall of the processing seat is symmetrically and rotationally connected with the symmetrical rotating columns, the telescopic mechanism is connected inside the novel electronic shaft in a sliding mode, and the spring mechanism is installed inside the first telescopic rod and the second telescopic rod; and the fixed separating mechanism is fixedly connected to the surfaces of the first telescopic rod and the second telescopic rod, which are close to the symmetrical rotating columns. The utility model provides a printing machine electron axle makes printing machine electron axle not only install convenient fast through installation telescopic machanism, spring mechanism and fixed separating mechanism, can also change and maintain, simultaneously, keeps printing machine electron axle can install the printing machine of different specifications through adjusting both sides length, has improved the functional advantage of electron axle.

Description

Electronic shaft of printing machine
Technical Field
The utility model relates to a printing machine electron axle field especially relates to a printing machine electron axle.
Background
In the use of printing machine, the electron axle is fixed on the printing machine mount pad through the mode of screw hole collocation screw, and not only the installation is convenient inadequately, and still inconvenient change is maintained, and simultaneously, current printing machine electron axle, the specification is fixed, can not be through adjusting both sides length, installs on the printing machine of different specifications, has reduced the functionality of electron axle.
Therefore, there is a need to provide a new electronic shaft of a printing machine to solve the above technical problems.
Disclosure of Invention
In order to solve the technical problem, the utility model provides a tensile printing machine electron axle in both sides.
The utility model provides a printing machine electron axle includes: the top of the processing seat is provided with a novel electronic shaft; the novel electronic shaft inner wall is symmetrically and slidably connected with a first telescopic rod and a second telescopic rod, the novel electronic shaft inner wall is rotatably connected with a rotating gear, the surfaces of the first telescopic rod and the second telescopic rod are fixedly connected with a connecting rack, and the rotating gear is meshed with the connecting rack; the spring mechanism is arranged in the first telescopic rod and the second telescopic rod; fixed separating mechanism, fixed separating mechanism fixed connection is close to the surface of symmetrical rotation post at first telescopic link and second telescopic link, through fixed separating mechanism, it is fixed with telescopic mechanism and symmetrical rotation post, easy to assemble and take off novel electron axle, when novel electron axle has a section distance apart from the symmetrical rotation post, stimulate first telescopic link, first telescopic link drives the connection rack and slides along novel electron axle inner wall, drive the running gear and rotate, be close to the symmetrical rotation post with another second telescopic link, separating mechanism is fixed in the cooperation, make things convenient for telescopic mechanism and symmetrical rotation post to be fixed, spring mechanism will adjust first telescopic link and the spacing fixed of second telescopic link.
Preferably, telescopic machanism still includes symmetry slider and symmetry pulling recess, first telescopic link and the symmetry fixedly connected with symmetry slider of second telescopic link surface, and symmetry slider and novel electronic shaft inner wall sliding connection, symmetry pulling recess has been seted up to first telescopic link and second telescopic link surface symmetry, first telescopic link and second telescopic link are close to each other or keep away from, it slides along novel electronic shaft inner wall to drive symmetry slider, make things convenient for first telescopic link and second telescopic link to remove the in-process, keep stable, inside the finger stretches into symmetry pulling recess, conveniently stimulate first telescopic link or second telescopic link.
Preferably, the equidistance spacing groove has been seted up to novel electron axle inner wall equidistance, cooperation spring mechanism, and it is convenient with first telescopic link or the spacing fixed of second telescopic link, and first telescopic link or the second telescopic link that will shift out are fixed, prevent that novel electron axle from rotating the in-process, lead to first telescopic link or second telescopic link to produce and rock, influence first telescopic link and second telescopic link and fixed separating mechanism's fixed.
Preferably, the spring mechanism comprises an extrusion fixing groove, a first compression block and a second compression block, the extrusion fixing groove is formed in the first telescopic rod and the second telescopic rod, the inner wall of the extrusion fixing groove is symmetrically and slidably connected with the first compression block and the second compression block, the spring mechanism further comprises a linkage rotating plate, a rotating pin and a reset spring, the inner wall of the first compression block and the inner wall of the second compression block are rotatably connected with the linkage rotating plate, the rotating pin is mounted in the extrusion fixing groove, the linkage rotating plate and the rotating pin are rotatably connected, the bottom of the first compression block is fixedly connected with a reset spring, the second compression block and the reset spring are fixedly connected, when the first telescopic rod needs to be stretched, the second telescopic rod is pulled out of the novel electronic shaft, the first compression block and the second compression block are extruded by the inner wall of the novel electronic shaft, the first compression block and the second compression block enter the extrusion fixing groove in advance, the reset spring is tightened, the linkage rotating plate is close to each other, the rotating pin is driven to move rightwards, when the second telescopic rod is tightly attached to the fixing and separating mechanism, the reset spring resets, the first compression block and the second compression block and the extrusion fixing groove, the second telescopic rod and the extrusion fixing groove, and the spacing groove are connected with the novel electronic shaft.
Preferably, the fillet has been seted up at first pressure piece and second pressure piece edge, reduces the frictional force at first pressure piece and second pressure piece edge, when first pressure piece and second compressed piece contact novel electron axle inner wall, can not damage the inner wall of novel electron axle easily, when first pressure piece and second compressed piece get into extrusion fixed slot inner wall, can not damage inside the extrusion fixed slot yet.
Preferably, the fixed separating mechanism comprises a fixed connecting shell, symmetrical clamping blocks, symmetrical springs and a pressing separating shell, the surface of the first telescopic rod and the surface of the second telescopic rod are fixedly connected with a fixed connecting shell, the inner wall of the fixed connecting shell is symmetrically and slidably connected with the symmetrical clamping blocks, the inner wall of the fixed connecting shell is symmetrically and fixedly connected with the symmetrical springs, the symmetrical clamping blocks and the symmetrical springs are fixedly connected, the surface of the symmetrical rotating column is fixedly connected with a pressing separating shell, the fixed connecting shell is slidably connected with the inner wall of the pressing separating shell, the fixed separating mechanism further comprises a symmetrical sliding groove and a separating pressing block, the inner wall of the pressing separating shell is symmetrically provided with the symmetrical sliding groove, the inner wall of the symmetrical sliding groove is slidably connected with a separating pressing block, the pressing block is in surface contact with the symmetrical clamping blocks, the telescopic mechanism drives the fixed connecting shell to be close to the pressing separating shell, the fixed connecting shell enters the inside of the pressing separating shell, the symmetrical clamping blocks are pressed by the inner wall of the pressing separating shell, the symmetrical clamping blocks enter the fixed connecting shell, the symmetrical springs are tightened, the symmetrical clamping blocks are sent into the symmetrical sliding groove, the symmetrical clamping blocks, the clamping blocks are symmetrically extruded and separated pressing separating shell, the fixed connecting shell, the symmetrical sliding block is conveniently, the fixed connecting shell, the symmetrical sliding groove, the symmetrical sliding block is sent into the symmetrical sliding groove, the symmetrical sliding block, the symmetrical separating shell, the symmetrical sliding shell, the symmetrical separating shell, the symmetrical sliding block is conveniently, and the electronic separating shell, and the electronic separating mechanism can be conveniently separated shell, and the electronic separating mechanism.
Compared with the prior art, the utility model provides a printing machine electron axle has following beneficial effect:
1. the utility model provides a printing machine electron axle through installation telescopic machanism, spring mechanism and fixed separating mechanism, makes printing machine electron axle not only install convenient fast, can also change and maintain, simultaneously, keeps printing machine electron axle can be through adjusting both sides length, installs the printing machine of different specifications on, has improved the functionality of electron axle.
2. The utility model provides a printing machine electron axle has seted up the equidistance spacing groove through novel electron axle inner wall equidistance, cooperation spring mechanism, and it is convenient with first telescopic link or second telescopic link spacing fixed, and first telescopic link or the second telescopic link that will shift out are fixed, prevent that novel electron axle from rotating the in-process, lead to first telescopic link or second telescopic link to produce and rock, influence first telescopic link and second telescopic link and fixed separating mechanism's fixing.
Drawings
Fig. 1 is a schematic structural diagram of an electronic shaft of a printing machine according to a preferred embodiment of the present invention;
FIG. 2 is a schematic structural view of the telescoping mechanism shown in FIG. 1;
FIG. 3 is a schematic structural view of the spring mechanism shown in FIG. 1;
fig. 4 is a schematic structural view of the fixed separating mechanism shown in fig. 1.
Reference numbers in the figures: 1. processing a base; 2. a novel electronic shaft; 3. a telescoping mechanism; 31. a first telescopic rod; 32. a second telescopic rod; 33. a rotating gear; 34. connecting the racks; 35. a symmetrical slider; 36. symmetrically pulling the grooves; 4. a spring mechanism; 41. extruding the fixed groove; 42. a first pressed block; 43. a second pressed block; 44. linking a rotating plate; 45. a rotation pin; 46. a return spring; 5. a fixed separating mechanism; 51. a fixed connection shell; 52. symmetrical clamping blocks; 53. a symmetrical spring; 54. pressing the separating shell; 55. a symmetrical sliding groove; 56. separating the pressing block; 6. a symmetrical rotating column; 7. equidistant spacing groove.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The following detailed description is provided to illustrate specific embodiments of the present invention.
Referring to fig. 1 and fig. 2, an embodiment of the present invention provides an electronic shaft for a printing machine, where the electronic shaft for a printing machine includes: the novel electronic shaft machining device comprises a machining seat 1, wherein a novel electronic shaft 2 is arranged at the top of the machining seat 1; the novel electronic shaft 2 comprises a symmetrical rotating column 6, the inner wall of a processing seat 1 is symmetrically and rotatably connected with the symmetrical rotating column 6, a telescopic mechanism 3 is connected inside a novel electronic shaft 2 in a sliding manner, the telescopic mechanism 3 comprises a first telescopic rod 31, a second telescopic rod 32, a rotating gear 33 and a connecting rack 34, the inner wall of the novel electronic shaft 2 is symmetrically and slidably connected with the first telescopic rod 31 and the second telescopic rod 32, the inner wall of the novel electronic shaft 2 is rotatably connected with the rotating gear 33, the surfaces of the first telescopic rod 31 and the second telescopic rod 32 are fixedly connected with the connecting rack 34, and the rotating gear 33 is meshed with the connecting rack 34; the spring mechanism 4 is installed inside the first telescopic rod 31 and the second telescopic rod 32; fixed separating mechanism 5, fixed separating mechanism 5 fixed connection is close to the surface of symmetry rotation post 6 at first telescopic link 31 and second telescopic link 32, through fixed separating mechanism 5, it is fixed with telescopic machanism 3 and symmetry rotation post 6, easy to assemble and take off novel electron axle 2, when novel electron axle 2 has a section distance apart from symmetry rotation post 6, stimulate first telescopic link 31, first telescopic link 31 drives connecting rack 34 and slides along novel 2 inner walls of electron axle, it rotates to drive rotating gear 33, be close to symmetry rotation post 6 with another second telescopic link 32, cooperation fixed separating mechanism 5, it is fixed to make things convenient for telescopic machanism 3 and symmetry rotation post 6, spring mechanism 4 is with the first telescopic link 31 and the second telescopic link 32 spacing fixed of adjusting.
In the embodiment of the utility model, please refer to fig. 1 and fig. 2, telescopic machanism 3 still includes symmetrical slider 35 and symmetry pulling recess 36, first telescopic link 31 and second telescopic link 32 surface symmetry fixedly connected with symmetry slider 35, and symmetrical slider 35 and the 2 inner wall sliding connection of novel electron axle, symmetry pulling recess 36 has been seted up to first telescopic link 31 and second telescopic link 32 surface symmetry, first telescopic link 31 and second telescopic link 32 are close to each other or keep away from, it slides along novel 2 inner walls of electron axle to drive symmetrical slider 35, make things convenient for first telescopic link 31 and second telescopic link 32 to remove the in-process, and the stability is kept, inside the finger stretched into symmetry pulling recess 36, conveniently stimulate first telescopic link 31 or second telescopic link 32.
The utility model discloses an in the embodiment, please refer to fig. 2, the equidistance spacing groove 7 has been seted up to novel 2 inner wall equidistance of electron axle, cooperation spring mechanism 4, it is convenient with first telescopic link 31 or second telescopic link 32 spacing fixed, first telescopic link 31 or second telescopic link 32 that will shift out are fixed, prevent that novel electron axle 2 from rotating the in-process, lead to first telescopic link 31 or second telescopic link 32 to produce and rock, influence first telescopic link 31 and second telescopic link 32 and fixed 5 fixed separating mechanism's of fixed separating mechanism.
The embodiment of the utility model discloses an in, please refer to fig. 2 and fig. 3, spring mechanism 4 includes extrusion fixed slot 41, first pressed piece 42 and second pressed piece 43, first telescopic link 31 and second telescopic link 32 have inside offered extrusion fixed slot 41, extrusion fixed slot 41 inner wall symmetry sliding connection has first pressed piece 42 and second pressed piece 43, spring mechanism 4 still includes interlock rotor plate 44, rotating pin 45 and reset spring 46, first pressed piece 42 and second pressed piece 43 inner wall rotate and are connected with interlock rotor plate 44, 41 internally mounted of extrusion fixed slot has rotating pin 45, and interlock rotor plate 44 and rotating pin 45 rotate and connect, first pressed piece 42 bottom fixedly connected with reset spring 46, and second pressed piece 43 and reset spring 46 fixed connection, when needing tensile first interlock rotor plate 31, the pulling second telescopic link 32 shifts out novel electron axle 2 inside, first pressed piece 42 and second pressed piece 43 receive novel electron axle 2 inner wall extrusion, advance to enter inside extrusion fixed slot 41, reset spring 46 tightens up, rotating plate 44 is close to each other, drive rotating pin 45, it shifts out novel electron axle 32 to drive the interlock right, first pressed piece 42 and second pressed piece 43 and second pressed piece 32 and gets into the fixed separation fixed slot 32, the telescopic link gets into the fixed connection of second pressed piece 41 and the telescopic link equidistance reset spring 41 and gets into the telescopic link equidistance when moving out, the telescopic link equidistance reset spring 7 and the telescopic link gets into the fixed connection of second pressed piece 41 and the electronic shaft.
In the embodiment of the present invention, please refer to fig. 3, the first pressure receiving block 42 and the second pressure receiving block 43 have rounded corners at their edges, so as to reduce the friction at the edges of the first pressure receiving block 42 and the second pressure receiving block 43, when the first pressure receiving block 42 and the second pressure receiving block 43 contact the inner wall of the novel electronic shaft 2, the inner wall of the novel electronic shaft 2 will not be damaged easily, and when the first pressure receiving block 42 and the second pressure receiving block 43 enter the inner wall of the extrusion fixing groove 41, the inner wall of the extrusion fixing groove 41 will not be damaged.
In an embodiment of the present invention, please refer to fig. 1 and 4, fixed separating mechanism 5 includes a fixed connecting shell 51, a symmetric fixture 52, a symmetric spring 53 and a pressing separating shell 54, a fixed connecting shell 51 is fixedly connected to the surface of first telescopic rod 31 and second telescopic rod 32, a symmetric sliding connection has a symmetric fixture 52 to the inner wall of fixed connecting shell 51, a symmetric spring 53 to the inner wall of fixed connecting shell 51, and symmetric fixture 52 and symmetric spring 53 are fixedly connected, a fixed separating column 6 is fixedly connected to the surface of pressing separating shell 54, and fixed connecting shell 51 and pressing separating shell 54 inner wall sliding connection, fixed separating mechanism 5 further includes a symmetric sliding groove 55 and a pressing separating block 56, a symmetric sliding groove 55 has been seted up to the inner wall symmetry of pressing separating shell 54, a separating pressing block 56 to the inner wall sliding connection of symmetric sliding groove 55, and a surface contact of separating fixture 56 and symmetric fixture 52, telescopic mechanism 3 drives fixed connecting shell 51 to be close to pressing separating shell 54, fixed connecting shell 51 enters into pressing separating shell 54, symmetric sliding groove 52 is pressed by inner wall pressing separating block 54, advanced into fixed connecting shell 51, the inner wall sliding connection shell 51 and the surface contact with symmetric pressing block 56, the symmetric pressing block 52 opens the symmetric sliding connection shell 51, the symmetric sliding connecting shell 52, the symmetric sliding groove 55 and pressing separating shell 52, the symmetric sliding connection shell 52 is convenient for pressing the symmetric separating shell 52, the symmetric sliding connection shell 52 and pressing mechanism for pressing, the symmetric separating shell 52, the symmetric sliding connection shell 52, the inside the symmetric separating shell 52, the symmetric sliding connection shell 52, the sliding connection shell, the symmetric sliding connection shell 52 and the symmetric sliding connection shell 52, the telescopic mechanism is convenient pressing mechanism for the electronic sliding mechanism to be convenient pressing mechanism for the convenient pressing mechanism for taking, the convenient for taking, the electronic press, the convenient taking out, the electronic separation shell 52 and the convenient taking mechanism for the convenient taking out, the electronic separation shell 52, the convenient taking out, the electronic separation shell, the convenient taking mechanism 5.
The utility model provides a working principle of printing machine electron axle as follows: the telescopic mechanism 3 and the symmetrical rotating column 6 are fixed through the fixed separating mechanism 5, the novel electronic shaft 2 is convenient to install and take down, the telescopic mechanism 3 drives the fixed connecting shell 51 to be close to the pressing separating shell 54, the fixed connecting shell 51 enters the pressing separating shell 54, the symmetrical clamping blocks 52 are extruded by the inner wall of the pressing separating shell 54 and enter the fixed connecting shell 51 firstly, the symmetrical springs 53 are tightened and then opened, the symmetrical clamping blocks 52 are sent into the symmetrical sliding grooves 55, the symmetrical clamping blocks 52 extrude the separating pressing blocks 56, the separating pressing blocks 56 are moved out of the symmetrical sliding grooves 55, the telescopic mechanism 3 and the symmetrical rotating column 6 are fixed, the symmetrical sliding grooves 55 are pressed, the symmetrical clamping blocks 52 are sent into the fixed connecting shell 51 through the symmetrical sliding grooves 55, the fixed connecting shell 51 and the pressing separating shell 54 are convenient to separate, the telescopic mechanism 3 and the symmetrical rotating column 6 are convenient to separate, the novel electronic shaft 2 is convenient to take down for maintenance, when the novel electronic shaft 2 is at a distance from the symmetrical rotating column 6, the first telescopic rod 31 is pulled, the first telescopic rod 31 drives the connecting rack 34 to slide along the inner wall of the novel electronic shaft 2, the rotating gear 33 is driven to rotate, the other second telescopic rod 32 is close to the symmetrical rotating column 6, the first telescopic rod 31 and the second telescopic rod 32 are close to or away from each other, the symmetrical slider 35 is driven to slide along the inner wall of the novel electronic shaft 2, the first telescopic rod 31 and the second telescopic rod 32 can be conveniently moved and stably, fingers can extend into the symmetrical pulling groove 36, the first telescopic rod 31 or the second telescopic rod 32 can be conveniently pulled, the fixed separating mechanism 5 is matched, the telescopic mechanism 3 and the symmetrical rotating column 6 can be conveniently fixed, the spring mechanism 4 can limit and fix the adjusted first telescopic rod 31 and the second telescopic rod 32, and when the first telescopic rod 31 needs to be pulled, inside pulling second telescopic link 32 shifted out novel electron axle 2, it is first that receive piece 42 and second and receive the extrusion of novel electron axle 2 inner walls piece 43, it is inside to advance to go into extrusion fixed slot 41, reset spring 46 tightens up, the interlock changes board 44 and is close to each other, it moves right to drive the rotating pin 45, when fixed separating mechanism 5 is hugged closely to second telescopic link 32, reset spring 46 resets, it receives piece 42 and second to receive first compression piece 43 and shift out extrusion fixed slot 41, get into equidistance spacing groove 7, with second telescopic link 32 and novel electron axle 2 fixed connection.
The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.

Claims (8)

1. A printer electronic spindle comprising:
the novel electronic shaft machining device comprises a machining seat (1), wherein a novel electronic shaft (2) is arranged at the top of the machining seat (1);
the inner wall of the processing seat (1) is symmetrically and rotatably connected with the symmetrical rotating column (6), and the processing seat is characterized in that the symmetrical rotating column (6) is arranged on the inner wall of the processing seat;
the telescopic mechanism (3) is connected inside the novel electronic shaft (2) in a sliding manner, the telescopic mechanism (3) comprises a first telescopic rod (31), a second telescopic rod (32), a rotating gear (33) and a connecting rack (34), the inner wall of the novel electronic shaft (2) is symmetrically and slidably connected with the first telescopic rod (31) and the second telescopic rod (32), the inner wall of the novel electronic shaft (2) is rotatably connected with the rotating gear (33), the surfaces of the first telescopic rod (31) and the second telescopic rod (32) are fixedly connected with the connecting rack (34), and the rotating gear (33) is meshed with the connecting rack (34);
the spring mechanism (4), the spring mechanism (4) is installed inside the first telescopic rod (31) and the second telescopic rod (32);
and the fixed separating mechanism (5) is fixedly connected to the surfaces, close to the symmetrical rotating column (6), of the first telescopic rod (31) and the second telescopic rod (32).
2. The electronic shaft of the printer according to claim 1, wherein the telescoping mechanism (3) further comprises symmetrical sliding blocks (35) and symmetrical pulling grooves (36), the symmetrical sliding blocks (35) are fixedly connected to the surfaces of the first telescoping rod (31) and the second telescoping rod (32) symmetrically, the symmetrical sliding blocks (35) are slidably connected to the inner wall of the novel electronic shaft (2), and the symmetrical pulling grooves (36) are symmetrically formed in the surfaces of the first telescoping rod (31) and the second telescoping rod (32).
3. The electronic shaft of printing machine according to claim 1, characterized in that the novel electronic shaft (2) has equidistant spacing grooves (7) formed in the inner wall thereof.
4. The electronic shaft of the printer according to claim 1, wherein the spring mechanism (4) comprises an extrusion fixing groove (41), a first pressure block (42) and a second pressure block (43), the extrusion fixing groove (41) is formed inside the first telescopic rod (31) and the second telescopic rod (32), and the first pressure block (42) and the second pressure block (43) are symmetrically and slidably connected to the inner wall of the extrusion fixing groove (41).
5. The electronic shaft of the printing machine as claimed in claim 4, wherein the spring mechanism (4) further comprises a linkage rotating plate (44), a rotating pin (45) and a return spring (46), the inner walls of the first pressure receiving block (42) and the second pressure receiving block (43) are rotatably connected with the linkage rotating plate (44), the rotating pin (45) is installed inside the extrusion fixing groove (41), the linkage rotating plate (44) is rotatably connected with the rotating pin (45), the return spring (46) is fixedly connected to the bottom of the first pressure receiving block (42), and the second pressure receiving block (43) is fixedly connected with the return spring (46).
6. The printer electronic shaft according to claim 4, characterized in that the first and second pressure blocks (42, 43) are rounded at their edges.
7. The electronic shaft of printing machine according to claim 1, characterized in that the fixed separation mechanism (5) comprises a fixed connection shell (51), a symmetrical clamping block (52), a symmetrical spring (53) and a pressing separation shell (54), the fixed connection shell (51) is fixedly connected to the surface of the first telescopic rod (31) and the second telescopic rod (32), the symmetrical clamping block (52) is symmetrically and slidably connected to the inner wall of the fixed connection shell (51), the symmetrical spring (53) is fixedly connected to the inner part of the fixed connection shell (51), the symmetrical clamping block (52) is fixedly connected to the symmetrical spring (53), the pressing separation shell (54) is fixedly connected to the surface of the symmetrical rotating column (6), and the fixed connection shell (51) is slidably connected to the inner wall of the pressing separation shell (54).
8. The printer electronic shaft according to claim 7, wherein the fixed separating mechanism (5) further comprises a symmetrical sliding groove (55) and a separated pressing block (56), the inner wall of the pressing separating shell (54) is symmetrically provided with the symmetrical sliding groove (55), the inner wall of the symmetrical sliding groove (55) is slidably connected with the separated pressing block (56), and the separated pressing block (56) is in surface contact with the symmetrical clamping block (52).
CN202221254218.6U 2022-05-24 2022-05-24 Electronic shaft of printing machine Active CN217553439U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221254218.6U CN217553439U (en) 2022-05-24 2022-05-24 Electronic shaft of printing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221254218.6U CN217553439U (en) 2022-05-24 2022-05-24 Electronic shaft of printing machine

Publications (1)

Publication Number Publication Date
CN217553439U true CN217553439U (en) 2022-10-11

Family

ID=83498500

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221254218.6U Active CN217553439U (en) 2022-05-24 2022-05-24 Electronic shaft of printing machine

Country Status (1)

Country Link
CN (1) CN217553439U (en)

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