CN113955558A

CN113955558A - Winding fast-assembling module and quick installation label winding's marking machine

Info

Publication number: CN113955558A
Application number: CN202111576812.7A
Authority: CN
Inventors: 刘家云
Original assignee: Guangdong Muqing Laser Intelligent Equipment Co ltd
Current assignee: Guangdong Muqing Laser Intelligent Equipment Co ltd
Priority date: 2021-12-22
Filing date: 2021-12-22
Publication date: 2022-01-21
Anticipated expiration: 2041-12-22
Also published as: CN113955558B

Abstract

The utility model provides a winding fast-assembling module, sets up on the mainboard, includes: the driving rotary roller component is rotatably fixed on the main plate; the pressing roller component is arranged on the main board in a vertically sliding manner; the pressing roller assembly is arranged above the driving roller assembly and is used for pressing the label tape between the pressing roller assembly and the driving roller assembly and outwards transmitting the label tape along the rotating direction of the driving roller assembly; the handle assembly is rotatably fixed on the main board; one end of the handle assembly is abutted to the lower portion of the pressing rotary roller assembly and used for lifting the pressing rotary roller assembly to slide upwards to be separated from the driving rotary roller assembly, and therefore the label tape can be rapidly installed.

Description

Winding fast-assembling module and quick installation label winding's marking machine

Technical Field

The invention belongs to the technical field of marking equipment, and particularly relates to a tape fast-assembly module and a laser marking machine using the tape fast-assembly module.

Background

The laser marking machine is to utilize the laser beam to mark on various different material surfaces, wherein to the laser marking machine of label winding tape, the processing is mainly to place the label winding tape that needs processing under the laser beam of high energy density, utilize optothermal effect to make the label winding tape surface take place phenomenons such as oxidation, thereby carve complicated exquisite pattern and lines on the surface of label winding tape, because laser processing has the characteristics such as the surface deflection is little to the processing of label winding tape, machining precision height, laser processing technique seems to be more important in the coil stock production field.

However, the conventional marking machine has the following problems in use:

in the existing marking machine, a tape is tightly pressed by a driving rotary roller and a transmission rotary roller which are fixed at fixed positions, and then the tape is outwards transmitted through the rotation of the driving rotary roller, so that the continuous marking of the tape is realized; if the new label tape needs to be replaced after marking is finished, the new label tape can be installed only after the transmission rotary roller is detached, and the label tape cannot be timely and effectively replaced.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a marking machine, which aims to solve the problems that the label tape can not be timely and effectively replaced because a new label tape can be installed only after a transmission rotary roller is detached when the label tape is replaced in the prior art.

The invention provides a winding fast-assembling module, which is arranged on a mainboard and comprises:

the driving rotary roller component is rotatably fixed on the main plate;

the pressing roller component is arranged on the main board in a vertically sliding manner; the pressing roller assembly is arranged above the driving roller assembly and is used for pressing the label tape between the pressing roller assembly and the driving roller assembly and outwards transmitting the label tape along the rotating direction of the driving roller assembly;

the handle assembly is rotatably fixed on the main board; one end of the handle assembly is abutted to the lower portion of the pressing rotary roller assembly and used for lifting the pressing rotary roller assembly to slide upwards to be separated from the driving rotary roller assembly, and therefore the label tape can be rapidly installed.

As a further preferable aspect of the present invention, the present invention further comprises: the mounting assembly comprises a first mounting plate and a second mounting plate; the main board is provided with a first surface and a second surface; the first mounting plate is arranged on one side of the first surface through a label supporting plate; the second mounting plate is arranged on one side of the second surface; the driving rotary roller component can be rotatably fixed between the first mounting plate and the main plate;

the bearing plate assembly comprises a driving bearing plate and a driven bearing plate; the first mounting plate is provided with a third surface and a fourth surface; the driving shaft bearing plate is arranged on the third surface in a vertically sliding mode; the second mounting plate is provided with a fifth surface and a sixth surface; the driven bearing plate is arranged on the fifth surface in a vertically sliding manner; the pressing roller assembly can be rotatably fixed between the driving bearing plate and the driven bearing plate; the pressing roller assembly is provided with a pressing roller, and the lower end of the pressing roller is in contact with the upper end of the driving roller assembly.

As a further preferable scheme of the present invention, the third surface is longitudinally embedded with a first guide rail, and the first guide rail is slidably provided with a first slider; a driving bearing plate is fixedly arranged on the first sliding block; a second guide rail is longitudinally embedded in the fifth surface, and a second sliding block is arranged on the second guide rail in a sliding manner; and a transmission bearing plate is fixedly arranged on the second sliding block.

As a further preferable scheme of the invention, the handle assembly at least comprises a toggle handle, and the toggle handle comprises a power arm and a resistance arm which are intersected; a handle shaft is fixed at the intersection of the power arm and the resistance arm and horizontally arranged between the main board and the first mounting plate; the handle shaft, the main board and the first mounting plate are rotationally fixed;

and/or the handle assembly comprises a first toggle handle and a second toggle handle; the first toggle handle is positioned outside the third surface; the second toggle handle is positioned on the outer side of the second surface; the second toggle handle is in transmission connection with the first toggle handle through a handle shaft.

As a further preferable aspect of the present invention, the third surface has a first through hole penetrating through to the fourth surface; the fifth surface is provided with a second through hole which penetrates to the sixth surface; the main board is provided with an avoidance hole corresponding to the second through hole, and the height position of the second through hole is the same as that of the first through hole; a first bearing seat is arranged on the outer side of the fourth surface, the first bearing seat is provided with a first connecting rod, and the first connecting rod penetrates through a first through hole to be connected with the driving shaft bearing plate; a second bearing seat is arranged on the outer side of the second surface, the second bearing seat is provided with a second connecting rod, and the second connecting rod penetrates through the second through hole to be connected with the transmission bearing plate; one end of the press-fit rotary roller assembly is rotatably fixed on the first bearing seat, and the other end of the press-fit rotary roller assembly is rotatably fixed on the second bearing seat.

As a further preferable scheme of the present invention, the top of the first mounting plate has a through hole extending vertically to the first through hole, and a guide latch is arranged in the through hole; the guide bolt can movably penetrate through the first connecting rod and is connected to the first mounting plate; a spring is arranged between the upper part of the first connecting rod and the first through hole and is sleeved on the outer ring surface of the guide bolt;

and/or the top of the second mounting plate is provided with a through hole vertically extending to the second through hole, and a guide bolt is arranged in the through hole; the guide bolt can movably penetrate through the second connecting rod and is connected to the second mounting plate; a spring is arranged between the upper part of the second connecting rod and the second through hole and sleeved on the outer ring surface of the guide bolt; the spring is used for pressing the pressing roller assembly downwards on the driving roller assembly.

As a further preferable aspect of the present invention, a marking machine for quickly mounting a label tape includes: the feeding mechanism is used for placing the label tape and transmitting the label tape out;

the tensioning mechanism is arranged on one side of the feeding mechanism and is used for tensioning the label tape;

the tape fast-assembly module comprises a press-fit rotary roller assembly and a driving rotary roller assembly and is used for driving the label tape to continuously mark; the handle assembly is used for lifting the pressing rotary roller assembly to slide upwards to be separated from the driving rotary roller assembly, so that the label tape can be quickly mounted;

the laser marking device is arranged above the position between the tensioning mechanism and the tape fast-assembling module and is used for printing a mark on the label tape;

the winding fast-assembly module is any one of the winding fast-assembly modules in the multiple schemes.

As a further preferred scheme of the present invention, the present invention further comprises a cabinet, wherein the cabinet comprises a cabinet panel, and a first main board support plate, a second main board support plate and a mounting column which are mounted on the cabinet panel; the adjustable position of the laser marking device is fixed on the mounting upright post; the first main board support plate and the second main board support plate are provided with main boards; the tensioning mechanism and the winding fast-assembly module are arranged on the first surface of the main board; the feeding mechanism is arranged on the first main board supporting plate, and the feeding mechanism position main body is located beside the first surface.

As a further preferable scheme of the invention, the feeding mechanism comprises a bearing mounting seat and a turntable shaft which is rotatably fixed on the bearing mounting seat; the bearing mounting seat is fixed on the first main board support plate and is positioned beside the second surface of the main board; the rotary disc shaft is provided with a material blocking disc and a spring pressure disc, and the spring pressure disc faces the material blocking disc and is used for tightly pressing the label tape on the material blocking disc;

and/or the material blocking plate is provided with a first positioning turntable for blocking the label tape; and a second positioning rotary disc parallel to the first positioning rotary disc is arranged on the spring pressure disc and used for pressing the label tape on the first positioning rotary disc.

As a further preferable scheme of the invention, a braking component is arranged on the other side of the feeding mechanism; the brake assembly comprises a brake mounting seat and a brake arranged on the brake mounting seat, and the brake mounting seat is fixed on the cabinet panel; the brake is connected with the rotary disc shaft and used for braking the rotary disc shaft and preventing the label tape fixed on the rotary disc shaft from rotating under the action of inertia.

As a further preferable scheme of the invention, the tensioning mechanism comprises at least one positioning roller and at least one tensioning assembly; a height difference is formed between the positioning roller and the tensioning assembly; the positioning roller is rotatably arranged on the first surface of the main plate; and the positioning roller is provided with a positioning ring for positioning the label tape.

As a further preferable scheme of the present invention, the tensioning assembly includes a first spring seat, a second spring seat, and a sliding roller; the first spring seat is fixed on the first surface of the main plate through a connecting rod, and the second spring seat is fixed on the second surface of the main plate; the first spring seat is provided with a third through hole, and the second spring seat is provided with a fourth through hole; the third through hole and the fourth through hole are positioned at the same height position, and an avoidance hole corresponding to the fourth through hole is formed in the main board; the sliding roller is provided with a sliding roller shaft, the sliding roller shaft is horizontally accommodated in the third through hole and the fourth through hole, and the outer ring of the sliding roller shaft is rotatably fixed with the sliding roller shaft;

and/or the top end of the first spring seat is provided with a through hole penetrating to the third through hole, and the top end of the second spring seat is provided with a through hole penetrating to the fourth through hole; a guide bolt is arranged in the through hole and movably penetrates through the sliding rolling shaft; the guide bolt is characterized in that a spring is arranged on the outer ring surface of the guide bolt, is positioned between the lower end surface of the sliding roller and the bottoms of the third through hole and the fourth through hole, and is used for jacking the sliding roller upwards to tighten a label tape passing through the sliding roller.

As a further preferable scheme of the invention, the driving roller component comprises a driving roller shaft and a driving roller sleeved outside the driving roller shaft; the driving roll shaft is rotatably fixed between the main board and the first mounting plate; two ends of the driving roll shaft are rotatably fixed on the main board and the first mounting plate through bearings;

and/or, the marking machine further comprises a driving mechanism, the driving mechanism is arranged beside the second surface of the main board through a mounting seat, and the driving mechanism is in transmission connection with the driving roll shaft through a synchronous component.

As a further preferable scheme of the invention, the marking machine further comprises a label supporting plate, which is horizontally arranged between the tensioning mechanism and the driving roller assembly and is used for supporting a label tape; the label support plate is provided with a seventh surface and a guide surface; the seventh surface is higher than the lower end surface of the label tape which is transmitted out of the tension mechanism; the guide surface is arranged on one side, facing the tensioning mechanism, of the label supporting plate and used for guiding the transitional label tape so that the label tape is laid on the seventh surface.

As a further preferable scheme of the invention, the outer peripheral surfaces of the pressing roller, the driving roller, the positioning roller and the sliding roller are provided with dustproof grooves for collecting dust in the dustproof grooves and preventing the dust from accumulating on the surfaces of the rollers or the rollers;

and/or the dust-proof groove is a V-shaped groove.

The marking machine for quickly installing the label winding tape provided by the invention has the following beneficial effects:

1. according to the marking machine capable of quickly installing the label tape, when a new label tape is replaced, the handle assembly lifts the pressing roller assembly, the new label tape can be installed without detaching the roller assembly, and the label tape can be timely and effectively replaced.

2. According to the marking machine for quickly installing the label winding tape, the front end of the marking machine is provided with the tensioning mechanism to prevent the winding tape from loosening.

3. According to the marking machine for quickly mounting the label tape, the dust-proof groove is formed in the peripheral surface of the rotary roller or the rotary drum, and dust falling on the surface can gradually collect and fall into the groove walls or the groove bottoms on the two sides of the dust-proof groove along with the rotation of the rotary roller or the rotary drum, so that the dust is prevented from accumulating and gathering on the surface of the rotary roller or the rotary drum, and the cleaning of the peripheral surface of the rotary roller or the rotary drum is ensured. Only the roller or the roller needs to be detached, cleaned and dedusted regularly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of a tape quick-mount module according to the present invention;

FIG. 2 is an exploded view of the tape quick load module of the present invention;

FIG. 3 is a schematic view of the construction of the driving roller of the present invention;

FIG. 4 shows a schematic view of the handle assembly of the present invention;

FIG. 5 is a schematic view of a first toggle handle configuration of the present invention;

FIG. 6 is a perspective view of a first mounting plate of the present invention;

FIG. 7 is a perspective view of another side of the first mounting plate of the present invention;

FIG. 8 is a perspective view of a second mounting plate of the present invention;

FIG. 9 is a perspective view of another side of the second mounting plate of the present invention;

FIG. 10 is a schematic perspective view of the feeding mechanism of the present invention;

FIG. 11 is a schematic front view of the feeding mechanism of the present invention;

fig. 12 shows a schematic structural view of the tensioning mechanism of the invention;

FIG. 13 is a schematic view of the tensioning assembly of the present invention;

FIG. 14 shows a schematic diagram of the internal structure of a marking machine cabinet according to the present invention;

FIG. 15 is a schematic front view of the internal structure of the marking machine cabinet of the present invention;

FIG. 16 is a schematic view of the overall structure of the marking machine of the present invention;

FIG. 17 is a schematic view of another angle structure of the whole marking machine of the present invention;

fig. 18 is a schematic structural view of a dust-proof groove in the marking machine of the present invention.

100, driving roller assembly; 110. actively rotating the roller; 120. a drive mechanism; 130. a synchronization component; 140. a label support plate; 141. a seventh surface; 142. a guide surface;

200. pressing the roller assembly; 210. pressing and rotating the roller;

300. a handle assembly; 310. a first toggle handle; 311. a power arm; 312. a resistance arm; 313. a handle shaft; 320. a second toggle handle;

400. mounting the component; 410. a first mounting plate; 411. a third surface; 412. a fourth surface; 413. a first guide rail; 414. a first through hole; 420. a second mounting plate; 421. a fifth surface; 422. a sixth surface; 423. a second guide rail; 424. a second through hole; 430. a first bearing housing; 431. a first connecting rod; 440. a second bearing housing; 441. a second connecting rod;

500. a bearing plate assembly; 510. a drive bearing plate; 520. a driven bearing plate;

600. a feeding mechanism; 610. a bearing mount; 620. a turntable shaft; 630. a material blocking disc; 631. a first positioning rotary table; 640. a spring platen; 641. a second positioning turntable; 650. a brake assembly; 651. a brake mounting seat; 652. a brake;

700. a tensioning mechanism; 710. positioning the roller; 711. positioning rings; 720. a tensioning assembly; 721. a first spring seat; 722. a second spring seat; 723. a third through hole; 724. a fourth via hole; 730. a sliding drum; 731. a sliding roller;

800. a laser marking device; 810. marking a head by laser;

900. a cabinet; 910. a cabinet panel; 911. a first main board support board; 912. a second main board support board; 913. mounting the upright post; 920. a vertical plate; 921. a first surface; 922. a second surface; 930. a display; 940. an observation window; 950. a paper outlet; 960. a first swing door; 970. a second swing door; 980. a third swing door;

1000. a dustproof groove.

Detailed Description

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

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

One embodiment of the present invention provides a tape quick-assembly module, as shown in fig. 1 to 4, disposed on a vertical plate 920, including:

the driving roller assembly 100 is rotatably fixed on the vertical plate 920;

the pressing roller assembly 200 is arranged on the vertical plate 920 in a vertically sliding manner; the pressing roller assembly 200 is arranged above the driving roller assembly 100, and is used for pressing the label tape between the pressing roller assembly 200 and the driving roller assembly 100 and outwards delivering the label tape along the rotation direction of the driving roller assembly 100;

the handle assembly 300 is rotatably fixed on the vertical plate 920; one end of the handle assembly 300 is abutted to and arranged below the pressing rotary roller assembly 200, and is used for lifting the pressing rotary roller assembly 200 to slide upwards to be separated from the driving rotary roller assembly 100, so that the label tape can be quickly mounted.

In this embodiment, the driving roller assembly 100 is externally connected to a power source, so that the driving roller assembly 100 rotates around a driving roller shaft to provide power for the transportation of the label tape. When the rotating roller in the driving roller assembly 100 rotates, friction force is generated between the label tape passing through the surface of the rotating roller and the rotating roller, and the label tape is driven to be spread outwards.

Further, the pressing roller assembly 200 can be driven by the driving roller assembly 100, so as to realize synchronous movement, the pressing roller assembly 200 presses down on the driving roller assembly 100 through an elastic member, so that the label tape is better attached to the driving roller assembly 100, the static friction between the label tape and the driving roller assembly 100 is improved, meanwhile, the lower end of the roller in the pressing roller assembly 200 drives the label tape in contact with the roller through the friction, and the transmission efficiency of the tape quick-mounting module on the label tape is improved.

And, the handle assembly 300 is rotatably mounted on the vertical plate 920 through a fulcrum, and a handle in the handle assembly 300 forms a lever through the fulcrum. One end of the handle is abutted to the lower portion of the press-fit rotary roller, when the other end of the handle is pulled downwards, one end of the handle abutted to the press-fit rotary roller assembly 200 is lifted upwards, so that the press-fit rotary roller assembly 200 moves upwards and is separated from the driving rotary roller assembly 100 to form a gap, a new label tape is convenient to install through the gap, and the press-fit rotary roller assembly 200 does not need to be dismantled. After the label tape is mounted, the handle is released, and the platen roller assembly 200 is pressed down to be reset, so that a new label tape is clamped between the platen roller assembly 200 and the driving platen roller assembly 100.

In one embodiment, the method further comprises the following steps: a mounting assembly 400, the mounting assembly 400 including a first mounting plate 410, a second mounting plate 420; the vertical plate 920 has a first surface 921 and a second surface 922; the first mounting plate 410 is disposed on the first surface 921 side by the label support plate 140; the second mounting plate 420 is disposed at a side of the second surface 922; the driving roller assembly 100 is rotatably fixed between the first mounting plate 410 and the vertical plate 920;

a bearing plate assembly 500 including a driving shaft bearing plate 510, a driven shaft bearing plate 520; the first mounting plate 410 has a third surface 411, a fourth surface 412; the driving shaft bearing plate 510 is slidably arranged on the third surface 411 up and down; the second mounting plate 420 has a fifth surface 421, a sixth surface 422; the driven bearing plate 520 is arranged on the fifth surface 421 in a vertically sliding manner; the pressing roller assembly 200 can be rotatably fixed between the driving bearing plate 510 and the driven bearing plate 520; the nip roller assembly 200 has a nip roller 210, and the lower end of the nip roller 210 is in contact with the upper end of the active roller assembly 100.

In this embodiment, the driving roller assembly 100 is fixed by the vertical plate 920 and the mounting assembly 400, so that the driving roller 110 in the driving roller assembly 100 can rotate between the first mounting plate 410 and the vertical plate 920, thereby driving the label tape to move; the bearing plate assembly 500 is slidably arranged on the mounting assembly 400, and the stitching roller assembly 200 is fixed through the driving bearing plate 510 and the driven bearing plate 520 of the bearing plate assembly 500, so that the stitching roller 210 in the stitching roller assembly 200 can rotate between the driving bearing plate 510 and the driven bearing plate 520; based on the above design, not only can the flexible movement of the nip roller assembly 200 be realized, but also the fixing structures of the nip roller assembly 200 and the driving roller assembly 100 are mutually independent, and the nip roller assembly 200 or the driving roller assembly 100 can be detached separately during maintenance, thereby facilitating the maintenance.

In one embodiment, the third surface 411 is longitudinally embedded with a first guide rail 413, and the first guide rail 413 is slidably provided with a first slider; a driving bearing plate 510 is fixedly arranged on the first sliding block; a second guide rail 423 is longitudinally embedded in the fifth surface 421, and a second sliding block is slidably arranged on the second guide rail 423; and a driven bearing plate 520 is fixedly arranged on the second sliding block.

In the embodiment, the driving shaft bearing plate 510 and the driven shaft bearing plate 520 are respectively installed through the first slide block and the second slide block on the first guide rail 413 and the second guide rail 423; based on the above design, not only can the up-and-down sliding of the bearing plate assembly 500 be realized, but also the friction force received by the bearing plate is reduced through the first guide rail 413 and the second guide rail 423, so that the sliding of the bearing plate assembly 500 can be smoother.

As shown in FIG. 5, in one embodiment, the handle assembly 300 at least comprises a toggle handle comprising a power arm 311 and a resistance arm 312 which intersect; a handle shaft 313 is fixed at the intersection of the power arm 311 and the resistance arm 312, and the handle shaft 313 is horizontally arranged between the vertical plate 920 and the first mounting plate 410; the handle shaft 313, the vertical plate 920 and the first mounting plate 410 are rotatably fixed;

and/or, the handle assembly 300 includes a first toggle handle 310, a second toggle handle 320; the first toggle handle 310 is located outside the third surface 411; the second toggle handle 320 is positioned outside the second surface 922; the second toggle handle 320 is in transmission connection with the first toggle handle 310 through a handle shaft 313.

In this embodiment, the end of the resistance arm 312 has a semicircular protrusion, and is abutted against the lower end of the driving shaft bearing plate 510 through the semicircular protrusion; when the power arm 311 is toggled to be pressed down, the handle shaft 313 serves as a rotation fulcrum for toggling the handle, so that the resistance arm 312 is lifted upwards, and the smoothness of lifting of the driving shaft bearing plate 510 is improved through the semicircular lug;

and, the second toggle handle 320 has a resistance arm having the same structure as the first toggle handle 310 and a semicircular projection, and the semicircular projection abuts against the lower end of the driven shaft bearing plate 520. In the process of rotation of the handle shaft 313, the second toggle handle 320 outside the second surface 922 is driven to rotate, so that the resistance arm 312 of the second toggle handle 320 is lifted upwards, and the driven bearing plate 520 and the driving shaft bearing plate 510 move synchronously.

Based on the above structural design, it can be ensured that the bearing plate assembly 500 is lifted synchronously when the handle assembly 300 is toggled, so that the press-fit roller assembly 200 is lifted stably, the height difference at the two ends of the press-fit roller assembly 200 is prevented, and the lifting stability of the press-fit roller assembly 200 is improved.

As shown in fig. 6 and 7, in one embodiment, the third surface 411 has a first through hole 414 penetrating to the fourth surface 412; the fifth surface 421 has a second through hole 424 penetrating to the sixth surface 422; an avoidance hole corresponding to the second through hole 424 is formed in the vertical plate 920, and the height positions of the second through hole 424 and the first through hole 414 are the same; a first bearing seat 430 is arranged outside the fourth surface 412, the first bearing seat 430 is provided with a first connecting rod 431, and the first connecting rod 431 passes through the first through hole 414 to be connected with the active bearing plate 510; a second bearing seat 440 is arranged outside the second surface 922, the second bearing seat 440 has a second connecting rod 441, and the second connecting rod 441 passes through the second through hole 424 to be connected with the driven bearing plate 520; one end of the nip roll assembly 200 is rotatably fixed to the first bearing housing 430 and the other end of the nip roll assembly 200 is rotatably fixed to the second bearing housing 440.

In this embodiment, the first connecting rod 431 is fixedly embedded in the driving bearing plate 510, and the second connecting rod 441 is fixedly embedded in the driven bearing plate 520. The first bearing housing 430 is rotatably fixed to one end of the stitching roller shaft of the stitching roller assembly 200 by a bearing, and the second bearing housing 440 is rotatably fixed to the other end of the stitching roller shaft of the stitching roller assembly 200 by a bearing.

And, the first through hole 414 is slightly wider than the width of the first connecting rod 431, and the second through hole 424 is slightly wider than the width of the second connecting rod 441, based on the above design, not only the first connecting rod 431 and the second connecting rod 441 can move up and down in the first through hole 414 and the second through hole 424, but also the first connecting rod 431 and the second connecting rod 441 can be prevented from shifting, thereby ensuring the stable lifting of the stitching roller assembly 200.

As shown in fig. 8 and 9, in one embodiment, the top of the first mounting plate 410 has a through hole extending vertically to the first through hole 414, and a guide pin is disposed in the through hole; the guide pin can movably penetrate through the first connecting rod 431 and is connected to the first mounting plate 410; a spring is arranged between the upper part of the first connecting rod 431 and the first through hole 414, and the spring is sleeved on the outer ring surface of the guide bolt;

and/or the top of the second mounting plate 420 is provided with a through hole vertically extending to the second through hole 424, and a guide bolt is arranged in the through hole; the guide pin can movably penetrate through the second connecting rod 441, and is connected to the second mounting plate 420; a spring is arranged between the upper part of the second connecting rod 441 and the second through hole 424, and the spring is sleeved on the outer ring surface of the guide bolt; the spring is used to press the nip roller assembly 200 down onto the drive roller assembly 100.

In this embodiment, the first through-hole 414 is formed with upper and lower contact end surfaces on the first mounting plate 410, and the second through-hole 424 is formed with upper and lower contact end surfaces on the second mounting plate 420. The guide pin can movably penetrate through the first connecting rod 431 along the through hole of the first mounting plate 410 and then is in threaded connection with the first mounting plate 410 at the lower contact end face of the first through hole 414; the guide bolt can movably penetrate through the second connecting rod 441 along the through hole of the second mounting plate 420, and then is in threaded connection with the second mounting plate 420 at the lower contact end face of the second through hole 424 behind the second connecting rod 441; the springs are arranged between the contact end surfaces of the first connecting rod 431 and the first through hole 414 and between the contact end surfaces of the second connecting rod 441 and the second through hole 424.

Specifically, the spring pushes the first connecting rod 431 and the second connecting rod 441 to the lower contact end face, so that the pressing rotary roller assembly 200 connected to the first bearing seat 430 and the second bearing seat 440 is pressed downwards, and the label tape is pressed on the driving rotary roller assembly 100. Based on the above design, when the pressure roller assembly 200 is lifted up by the handle assembly 300 to mount the label tape, the spring contracts to accumulate elastic potential energy. After the handle assembly 300 is loosened, the spring relaxes to release elastic potential energy, so that the pressing rotary roller assembly 200 is pressed downwards to press the replaced label tape onto the driving rotary roller assembly 100, and the purpose of replacing the label tape can be achieved simply and quickly.

As shown in fig. 14 and 15, in one embodiment, the label printer for quick mounting of label tape includes: a feeding mechanism 600 for placing the label tape and delivering the label tape;

the tensioning mechanism 700 is arranged on one side of the feeding mechanism 600 and used for tensioning the label tape;

the tape fast-assembly module comprises a press-fit roller assembly 200 and a driving roller assembly 100 and is used for driving the label tape to continuously mark; the handle assembly 300 is used for lifting the pressing rotary roller assembly 200 to slide upwards to be separated from the driving rotary roller assembly 100, so that the label tape can be quickly mounted;

the laser marking device 800 is arranged above the position between the tensioning mechanism 700 and the tape fast-assembling module and is used for printing a mark on the label tape;

the tape quick-assembly module is any one of the tape quick-assembly modules in the embodiments.

In this embodiment, the feeding mechanism 600 is rotatably fixed with the label tape, and the label tape is fed out by rotation of the label tape.

Then, the label tape delivered from the feeding mechanism 600 is transported through the outer circumferential surfaces of the rollers of the tensioning mechanism 700, and the tensioning mechanism 700 tightens the label tape to prevent the label tape from being wrinkled.

And the driving roller assembly 100 is externally connected with a power source, so that the driving roller assembly 100 rotates by a driving roller shaft to provide power for the transmission of the label tape. When the rotating roller in the driving roller assembly 100 rotates, friction force is generated between the label tape passing through the surface of the rotating roller and the rotating roller, and the label tape is driven to be spread outwards. The press-fit rotary roller assembly 200 can be driven by the driving rotary roller assembly 100 to realize synchronous movement, the press-fit rotary roller assembly 200 is pressed down on the driving rotary roller assembly 100 through an elastic piece, so that the label tape is better attached to the driving rotary roller assembly 100, the static friction force between the label tape and the driving rotary roller assembly 100 is improved, meanwhile, the lower end of the rotary roller in the press-fit rotary roller assembly 200 drives the label tape contacted with the lower end of the rotary roller through the friction force, and the transmission efficiency of the tape quick-assembly module on the label tape is improved.

Further, the laser marking device 800 is provided with a laser marking head 810, the laser marking head 810 is located above the position between the tensioning mechanism 700 and the tape fast-assembly module, a laser beam generated by a fiber laser of the laser marking device 800 passes through a light path inside the laser marking device 800, is emitted downwards by the laser marking head 810, and is irradiated on a label tape tightly stretched between the tensioning mechanism 700 and the tape fast-assembly module in a plane, and finally marking operation is completed.

In one embodiment, the cabinet 900 further comprises a cabinet panel 910, and the cabinet 900 comprises a first main board support plate 911, a second main board support plate 912 and a mounting column 913 mounted on the cabinet panel 910; the laser marking device 800 is fixed on the mounting column 913 at an adjustable position; vertical plates 920 are arranged on the first main plate supporting plate 911 and the second main plate supporting plate 912; the tensioning mechanism 700 and the winding fast-assembly module are arranged on the first surface 921 of the vertical plate 920; the feeding mechanism 600 is disposed on the first main board support plate 911, and the feeding mechanism 600 is located beside the first surface 921.

In this embodiment, the laser marking device 800 is fixed on the mounting column 913 through a bracket in a position-adjustable manner, a screw rod is arranged inside the mounting column 913, the screw rod is in transmission connection with the bracket, and a rotary driving plate is connected to the top end of the screw rod. The bracket is moved up and down along the lead screw by rotating the rotary dial, thereby adjusting the position height of the laser marking device 800.

And as shown in fig. 16 and 17, a display 930 is arranged on the front surface of the cabinet 900, an observation window 940 is arranged below the display 930, the observation window 940 corresponds to the tape fast-assembling module in position, so that the working condition of the laser marking machine and the tightening state of the tension mechanism 700 on the label tape can be observed conveniently, and an acrylic protection plate is embedded in the observation window 940. A paper outlet 950 is arranged below the observation window, and the paper outlet 950 corresponds to the position of the tape fast-assembling module and is used for transmitting the marked label tape.

Further, the cabinet 900 is provided with a first rotating door 960, a second rotating door 970 and a third rotating door 980 which can be opened in a rotating manner, the first rotating door 960 corresponds to the height position of the laser marking device 800, the second rotating door 970 corresponds to the height position of the tape quick-loading module, and the first rotating door 960 and the second rotating door 970 are located on the same side of the cabinet; the third rotating door 980 is located on the other side of the cabinet 900 from the first rotating door 960.

As shown in fig. 10 and 11, in one embodiment, the feeding mechanism 600 includes a bearing mounting seat 610 and a turntable shaft 620 rotatably fixed on the bearing mounting seat 610; the bearing mounting seat 610 is fixed on the first main board support plate 911, and the bearing mounting seat 610 is located beside the second surface 922 of the vertical plate 920; the rotary table shaft 620 is provided with a material blocking plate 630 and a spring pressing plate 640, and the spring pressing plate 640 faces the material blocking plate 630 and is used for pressing the label tape on the material blocking plate 630;

and/or the material blocking plate 630 is provided with a first positioning turntable 631 for blocking the label tape; the spring platen 640 is provided with a second positioning turntable 641 parallel to the first positioning turntable 631, and is used for pressing the label tape on the first positioning turntable 631.

In this embodiment, the bearing mount 610 has a bearing thereon, and the turntable shaft 620 is rotatably fixed by the bearing; the material blocking plate 630 is arranged on the position of the turntable shaft 620 close to the bearing mounting seat 610, and the spring pressing plate 640 is arranged on the position of the turntable shaft 620 far away from the bearing mounting seat 610;

further, the first positioning turntable 631 and the second positioning turntable 641 adopt transparent acrylic discs, so that the surplus of the fixed label tape can be clearly seen, and a worker can timely prepare a new label tape.

In one embodiment, the other side of the feeding mechanism 600 is provided with a brake assembly 650; the brake assembly 650 includes a brake mounting base 651 and a brake 652 disposed on the brake mounting base 651, the brake mounting base 651 is fixed on the cabinet panel 910; the stopper 652 is connected to the turntable shaft 620 and is used for stopping the turntable shaft 620 to prevent the label tape fixed on the turntable shaft 620 from rotating under the inertia effect.

Because the rotating disc shaft 620 cannot be stopped in time due to inertia when the driving rotating roller assembly 100 stops, the feeding mechanism 600 continues to transmit the label tape outwards, so that the amount of the transmitted label tape exceeds the adjusting range of the tensioning mechanism 700, the label tape is loosened to generate a curved surface, and the marking effect of the laser marking device 800 is affected.

In this embodiment, the brake assembly 650 mainly brakes the turntable shaft 620 of the feeding mechanism 600, the brake assembly 650 is disposed at an end of the turntable shaft 620 far from the material blocking plate 630, and a friction force exists between the brake 652 of the brake assembly 650 and the turntable shaft 620, the friction force is smaller than a pulling force of the driving turntable assembly 100 to the label tape, after the driving turntable assembly 100 stops moving, the turntable shaft 620 stops rotating through the friction force between the brake 652 and the turntable shaft 620, and the feeding mechanism 600 is prevented from continuously transmitting an excessive label tape outwards.

As shown in fig. 12, in one embodiment, the tensioning mechanism 700 includes at least one positioning roller 710 and at least one tensioning assembly 720; the positioning roller 710 and the tensioning assembly 720 have a height difference; the positioning roller 710 is rotatably arranged on the first surface 921 of the vertical plate 920; the positioning roller 710 is provided with a positioning ring 711 for positioning the label tape.

When the label tape is transported on the surface of the positioning roller 710, due to slight unevenness of friction and tension, after the label tape is transported by the positioning rollers 710, the transport direction of the label tape may deviate, even deviate from the range of the positioning rollers 710, which is not beneficial to marking the label tape.

In this embodiment, the label tape is limited by the positioning rings 711 provided at both side ends of the positioning roller 710, and particularly, when a plurality of positioning rollers 710 are provided, the label tape which is finally delivered out can be stably transferred to the driving roller assembly 100 along a straight line by gradually correcting the label tape transfer direction through the plurality of positioning rollers 710 and the positioning rings 711.

As shown in fig. 13, in one embodiment, the tension assembly 720 includes a first spring seat 721, a second spring seat 722, a sliding roller 730; the first spring seat 721 is fixed on the first surface 921 of the main plate through a connecting rod, and the second spring seat 722 is fixed on the second surface 922 of the vertical plate 920; the first spring seat 721 is provided with a third through hole 723, and the second spring seat 722 is provided with a fourth through hole 724; the third through hole 723 and the fourth through hole 724 are located at the same height position, and the vertical plate 920 is provided with an avoidance hole corresponding to the fourth through hole 724; the sliding roller 730 is provided with a sliding roller 731, the sliding roller 731 is horizontally accommodated in the third through hole 723 and the fourth through hole 724, and the sliding roller 730 is rotatably fixed on the outer ring of the sliding roller 731;

and/or the top end of the first spring seat 721 is provided with a through hole penetrating to a third through hole 723, and the top end of the second spring seat 722 is provided with a through hole penetrating to a fourth through hole 724; a guide bolt is arranged in the through hole and movably penetrates through the sliding rolling shaft 731; the outer ring surface of the guide bolt is provided with a spring, and the spring is positioned between the lower end surface of the sliding roller 731 and the bottoms of the third through hole 723 and the fourth through hole 724 and is used for jacking up the sliding roller 731 so as to tighten a label tape passing through the sliding roller 730.

When the driving roller assembly 100 pulls the label tape, the tension applied to the label tape increases, and if the tension assembly 720 is not adjusted, the label tape may be deformed.

In this embodiment, the spring pushes the sliding roller 731 to the top ends of the third through hole 723 and the fourth through hole 724, so that the sliding roller 731 is lifted up, and the label tape is tightened on the sliding roller 730. Based on the above design, when the driving roller assembly 100 pulls the label tape and the label tape is too tight, the label tape applies downward pressure to the sliding roller 731 through the sliding roller 730, the sliding roller 731 moves downward, and the spring contracts to accumulate elastic potential energy; meanwhile, the transmission path of the label tape is reduced, and the tightness of the label tape is relieved. When more label tape is fed out and the label tape is loose, the spring relaxes to release elastic potential energy, so that the sliding roller 731 rises to tighten the label tape passing through the sliding roller 730.

In one embodiment, the driving roller assembly 100 includes a driving roller shaft 111 and a driving roller 110 sleeved outside the driving roller; the driving roll shaft 111 can be rotatably fixed between the vertical plate 920 and the first mounting plate 410; two ends of the driving roll shaft 111 are rotatably fixed on the vertical plate 920 and the first mounting plate 410 through bearings;

and/or the marking machine further comprises a driving mechanism 120, the driving mechanism 120 is arranged beside the second surface 922 of the vertical plate 920 through a mounting seat, and the driving mechanism 120 is in transmission connection with the driving roller shaft 111 through a synchronizing assembly 130.

In this embodiment, when the driving mechanism 120 moves, the synchronizing assembly 130 enables the driving roller shaft 111 of the driving roller assembly 100 to rotate synchronously, so as to drive the driving roller 110 sleeved outside the driving roller shaft 111, and the label tape passing through the outside of the driving roller 110 is sent out.

Further, the synchronizing assembly 130 includes a first synchronizing gear disposed on the output shaft of the driving mechanism 120, and a second synchronizing gear disposed at one end of the driving roller shaft 111; the first synchronous gear and the second synchronous gear are synchronously driven through a synchronous belt.

In one embodiment, the label printer further comprises a label pallet 140 horizontally disposed between the tension mechanism 700 and the active roller assembly 100 for supporting the label tape; the label support 140 has a seventh surface 141 and a guide surface 142; the seventh surface 141 is higher than the lower end surface of the label tape which is transmitted out of the tensioning mechanism 700; the guiding surface 142 is disposed on a side of the label support 140 facing the tensioning mechanism 700, and is used for guiding the transitional label tape to lay the label tape flat on the seventh surface 141.

In the process of laser marking, the flatness of the processing surface of the label tape is required, and if the surface to be processed of the label tape is not flat, the marking effect can be influenced, so that the printed image or character is deformed.

In this embodiment, the seventh surface 141 of the label support plate 140 provides a horizontal supporting surface for the label tape, and the label tape modified by the tensioning mechanism 700 firstly enters the label support plate 140 through the guide surface 142 and then transitions to the seventh surface 141 along the guide surface 142, so as to prevent the label tape from being printed with convex marks by the edge of the label support plate 140 in the process of entering the seventh surface 141.

And the seventh surface 141 is higher than the lower end face of the label tape which is transmitted out by the tension mechanism 700, so that the label tape can be tightly pressed on the seventh surface 141, the two sides of the label tape are prevented from tilting, and the marking effect is improved.

As shown in fig. 18, in one embodiment, the outer peripheral surfaces of the pressing roller 210, the driving roller 110, the positioning roller 710 and the sliding roller 730 are provided with a dust-proof groove 1000 for collecting dust in the dust-proof groove 1000 to prevent the dust from accumulating on the surface of the roller or the roller;

and/or the dustproof groove 1000 is a V-shaped groove.

In the marking process, if dust is accumulated on a roller or a roller for conveying a label tape, the label tape is stained with the dust, the irradiation effect of laser beams on the surface of the label tape is influenced, and the loss of marked images or character parts is caused.

In this embodiment, by providing the dust-proof groove 1000 on the outer circumferential surface of the roller or the drum, the dust falling on the surface will gradually collect and fall into the groove walls or the groove bottoms on both sides of the dust-proof groove 1000 along with the rotation of the roller or the drum, so as to prevent the dust from accumulating on the surface of the roller or the drum and ensure the cleanness of the outer circumferential surface of the roller or the drum. Only the roller or the roller needs to be detached, cleaned and dedusted regularly.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a winding fast-assembling module, sets up on the mainboard, its characterized in that includes:

the driving rotary roller component is rotatably fixed on the main plate;

2. The web quick-install module of claim 1, further comprising:

the mounting assembly comprises a first mounting plate and a second mounting plate; the main board is provided with a first surface and a second surface; the first mounting plate is arranged on one side of the first surface through a label supporting plate; the second mounting plate is arranged on one side of the second surface; the driving rotary roller component can be rotatably fixed between the first mounting plate and the main plate;

3. The fast-assembly tape reel module of claim 2, wherein the third surface is longitudinally embedded with a first rail, and the first rail is slidably provided with a first slider; a driving bearing plate is fixedly arranged on the first sliding block; a second guide rail is longitudinally embedded in the fifth surface, and a second sliding block is arranged on the second guide rail in a sliding manner; and a transmission bearing plate is fixedly arranged on the second sliding block.

4. The tape quick-loading module of any one of claims 2-3 wherein the handle assembly includes at least one toggle handle, the toggle handle including intersecting power and resistance arms; a handle shaft is fixed at the intersection of the power arm and the resistance arm and horizontally arranged between the main board and the first mounting plate; the handle shaft, the main board and the first mounting plate are rotationally fixed;

5. The tape quick-mount module of claim 4 wherein the third surface has a first through hole therethrough to the fourth surface; the fifth surface is provided with a second through hole which penetrates to the sixth surface; the main board is provided with an avoidance hole corresponding to the second through hole, and the height position of the second through hole is the same as that of the first through hole; a first bearing seat is arranged on the outer side of the fourth surface, the first bearing seat is provided with a first connecting rod, and the first connecting rod penetrates through a first through hole to be connected with the driving shaft bearing plate; a second bearing seat is arranged on the outer side of the second surface, the second bearing seat is provided with a second connecting rod, and the second connecting rod penetrates through the second through hole to be connected with the transmission bearing plate; one end of the press-fit rotary roller assembly is rotatably fixed on the first bearing seat, and the other end of the press-fit rotary roller assembly is rotatably fixed on the second bearing seat.

6. The fast-assembling tape module according to claim 5, wherein the top of the first mounting plate has a through hole extending vertically to the first through hole, and a guide pin is disposed in the through hole; the guide bolt can movably penetrate through the first connecting rod and is connected to the first mounting plate; a spring is arranged between the upper part of the first connecting rod and the first through hole and is sleeved on the outer ring surface of the guide bolt;

7. The utility model provides a quick installation label winding's marking machine which characterized in that includes:

the feeding mechanism is used for placing the label tape and transmitting the label tape out;

the tape quick-assembling module set is as claimed in any one of claims 1 to 6.

8. The marking machine of claim 7, further comprising a cabinet, the cabinet comprising a cabinet panel, and a first motherboard support plate, a second motherboard support plate, a mounting post mounted on the cabinet panel; the adjustable position of the laser marking device is fixed on the mounting upright post; the first main board support plate and the second main board support plate are provided with main boards; the tensioning mechanism and the winding fast-assembly module are arranged on the first surface of the main board; the feeding mechanism is arranged on the first main board supporting plate, and the feeding mechanism position main body is located beside the first surface.

9. The marking machine of claim 8 wherein said feeding mechanism comprises a bearing mount and a turntable shaft rotatably secured to the bearing mount; the bearing mounting seat is fixed on the first main board support plate and is positioned beside the second surface of the main board; the rotary disc shaft is provided with a material blocking disc and a spring pressure disc, and the spring pressure disc faces the material blocking disc and is used for tightly pressing the label tape on the material blocking disc;

10. The marking machine of claim 9, wherein the other side of the feeding mechanism is provided with a brake assembly; the brake assembly comprises a brake mounting seat and a brake arranged on the brake mounting seat, and the brake mounting seat is fixed on the cabinet panel; the brake is connected with the rotary disc shaft and used for braking the rotary disc shaft and preventing the label tape fixed on the rotary disc shaft from rotating under the action of inertia.

11. The marking machine of claim 8, wherein the tensioning mechanism comprises at least one positioning roller and at least one tensioning assembly; a height difference is formed between the positioning roller and the tensioning assembly; the positioning roller is rotatably arranged on the first surface of the main plate; and the positioning roller is provided with a positioning ring for positioning the label tape.

12. The marking machine of claim 11, wherein the tensioning assembly comprises a first spring seat, a second spring seat, a sliding roller; the first spring seat is fixed on the first surface of the main plate through a connecting rod, and the second spring seat is fixed on the second surface of the main plate; the first spring seat is provided with a third through hole, and the second spring seat is provided with a fourth through hole; the third through hole and the fourth through hole are positioned at the same height position, and an avoidance hole corresponding to the fourth through hole is formed in the main board; the sliding roller is provided with a sliding roller shaft, the sliding roller shaft is horizontally accommodated in the third through hole and the fourth through hole, and the outer ring of the sliding roller shaft is rotatably fixed with the sliding roller shaft;

13. The marking machine of claim 8, wherein the active roller assembly comprises an active roller shaft and an active roller sleeved outside the active roller; the driving roll shaft is rotatably fixed between the main board and the first mounting plate; two ends of the driving roll shaft are rotatably fixed on the main board and the first mounting plate through bearings;

14. The marking machine of claim 13, further comprising a label pallet horizontally disposed between the tensioning mechanism and the active roller assembly for holding up a label web; the label support plate is provided with a seventh surface and a guide surface; the seventh surface is higher than the lower end surface of the label tape which is transmitted out of the tension mechanism; the guide surface is arranged on one side, facing the tensioning mechanism, of the label supporting plate and used for guiding the transitional label tape so that the label tape is laid on the seventh surface.

15. The marking machine according to any one of claims 8 to 14, wherein the outer peripheral surfaces of the pressing roller, the driving roller, the positioning roller and the sliding roller are provided with dustproof grooves for collecting dust in the dustproof grooves and preventing the dust from accumulating on the surfaces of the rollers or the rollers;

and/or the dust-proof groove is a V-shaped groove.