CN113231265B - Even glue dyestripping trades membrane device - Google Patents

Abstract

The application discloses a spin-coating film tearing and changing device, which comprises: the glue homogenizing, tearing and film changing device provided by the application comprises a supporting plate (21), a rolling mechanism (22), a curing mechanism (23), a supporting plate driving mechanism (24), a bottom plate (25), a lifting plate (31), a first support (32) and a second support (33), a template frame (41) and a turnover driving mechanism (42), wherein the rolling and illumination operation is carried out on a texture template through a hollowed-out area of the bottom plate, so that glue between the texture template and a glass panel can be uniformly and cured by the roller; then, the rotation of the bottom plate is realized by using the structure between the bottom plate and the lifting plate and using the rotary driving mechanism, so that the texture template on the template frame and the solidified glue can be separated from one side. When the texture template needs cleaning or replacement, the template frame is driven to rotate by the overturning driving mechanism, and the template frame is far away from the bottom plate, so that the operation is convenient.

Description

Even glue dyestripping trades membrane device

Technical Field

The application relates to the technical field of glass processing machinery, in particular to a glue homogenizing and film tearing and changing device.

Background

In the processing process of electronic equipment such as mobile phones and tablet personal computers, patterns are often formed on a glass panel for attractive appearance or use, the conventional operation is to glue the glass panel, then cover a texture template on the glass panel, uniformly push UV glue by using a glue roller, solidify the UV glue by irradiation, and form the patterns on the surface of the glass panel.

At present, the glass panel is operated in the processing process, namely a dispensing valve, a texture template, a rubber roller and a UV lamp are needed to be used for operating the glass panel in sequence, the structure is complex, and the occupied space is large; after the UV glue is cured by illumination, the texture template is tightly contacted with the glue, so that the texture template is difficult to separate and the texture template or the UV glue is easy to damage; or require manual assistance in the separation of the texture templates, resulting in inefficiency in the process.

Disclosure of Invention

In order to solve the technical problems, the application aims to provide a spin-coating film stripping and changing device; according to the glue homogenizing and film tearing and changing device, rolling and illumination operations are carried out on the texture template through the hollowed-out area of the bottom plate, so that glue between the texture template and the glass panel can be homogenized and solidified by the rollers; then, the rotation of the bottom plate is realized by using the structure between the bottom plate and the lifting plate and using the rotary driving mechanism, so that the texture template on the template frame and the solidified glue can be separated from one side. When the texture template needs cleaning or replacement, the template frame is driven to rotate by the overturning driving mechanism, and the template frame is far away from the bottom plate, so that the operation is convenient.

The technical scheme provided by the application is as follows:

even membrane trade membrane device that tears includes: the device comprises a supporting plate, a rolling mechanism, a curing mechanism, a supporting plate driving mechanism, a bottom plate, a lifting plate, a first support column, a second support column, a template frame and a turnover driving mechanism, wherein the bottom plate is provided with a hollowed-out area matched with a texture template;

the rolling mechanism is connected with the supporting plate and can move relative to the supporting plate; the curing mechanism is fixedly connected with the supporting plate; the supporting plate is in sliding connection with the bottom plate, and at least part of the moving path of the supporting plate is positioned in the hollowed-out area; the supporting plate driving mechanism is arranged on the bottom plate and drives the supporting plate to move along the plane where the bottom plate is positioned;

the first support and the second support are arranged between the lifting plate and the bottom plate, one end of the first support is fixedly connected with the lifting plate, and the other end of the first support is hinged with the bottom plate; one end of the second support is fixedly connected with the lifting plate, the other end of the second support is provided with an arc-shaped guide rail, and one side, far away from the first support, of the bottom plate is matched with the arc-shaped guide rail; the lifting device is also provided with a rotary driving mechanism for driving the bottom plate to rotate, and two ends of the rotary driving mechanism are respectively hinged with the bottom plate and the lifting plate;

the texture template is arranged on the template frame; one side of the template frame is hinged with the bottom plate, and the overturning driving mechanism is used for driving the template frame to rotate; the turnover driving mechanism comprises a turnover seat body and a turnover output shaft, and the turnover seat body and the turnover output shaft are respectively hinged with the bottom plate and the template frame.

Preferably, the bottom plate is provided with 2-8 rollers, and the rollers are clamped on two sides of the arc-shaped guide rail.

Preferably, two first struts are arranged, and the circle centers of the arc-shaped guide rails are positioned on the connecting line of the hinge points of the two first struts and the bottom plate; and the included angle between the arc-shaped guide rail and the circle center is-15 degrees to 15 degrees.

Preferably, the rotary drive mechanism is disposed adjacent to the second strut; the rotary driving mechanism comprises a driving base 251 and a driving output shaft 252, wherein the driving base 251 is hinged with the lifting plate, and the driving output shaft 252 is hinged with the bottom plate.

Preferably, a lifting driving mechanism is further provided, and the lifting driving mechanism is used for driving the lifting plate to move along the vertical direction.

Preferably, the bottom plate is provided with guide rails at two sides of the hollow area, and two ends of the supporting plate are respectively provided with a sliding block matched with the guide rails.

Preferably, the supporting plate is perpendicular to the bottom plate, and the rolling mechanism and the curing mechanism are respectively arranged at two sides of the supporting plate.

Preferably, one end of the turnover seat body, which is close to the turnover output shaft, is hinged with the bottom plate, and one end of the turnover output shaft, which is far away from the turnover seat body, is hinged with the template frame.

Preferably, the template frame is provided with two pull rod assemblies, the pull rod assemblies comprise a first pull rod and a second pull rod, and the second pull rod is detachably connected with the first pull rod and clamps the texture template in the middle;

one of the two pull rod assemblies is fixedly connected with the template frame, the other one of the two pull rod assemblies is in sliding connection with the template frame, and a pull rod power mechanism for driving the pull rod assemblies to slide is arranged.

The application provides a glue homogenizing and film tearing and changing device, which is characterized in that a texture template is rotatably arranged on a bottom plate by utilizing a template frame, a supporting plate can carry a rolling mechanism and a curing mechanism pair, and the texture template is rolled and illuminated through a hollowed-out area of the bottom plate, so that glue between the texture template and a glass panel can be uniformly rolled and cured; then, the rotation of the bottom plate is realized by using the structure between the bottom plate and the lifting plate and using the rotary driving mechanism, so that the texture template on the template frame and the solidified glue can be separated from one side. When the texture template needs cleaning or replacement, the template frame is driven to rotate by the overturning driving mechanism, and the template frame is far away from the bottom plate, so that the operation is convenient.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a schematic structural diagram of a film changer for spin-coating and film tearing in an embodiment of the application;

FIG. 2 is a schematic side view (with a horizontal bottom plate) of a spin-on film changing device according to an embodiment of the present application;

FIG. 3 is a schematic side view (rotation of the base plate) of a spin-on film changing device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a film-changing device (with a template frame turned over) for film-stripping with spin coating in an embodiment of the application;

FIG. 5 is a schematic side view of a film changer (with a template frame turned over) for film stripping;

FIG. 6 is a schematic diagram of a configuration of a spin-film changing device and other devices according to an embodiment of the present application;

FIG. 7 is a schematic structural diagram of a rolling mechanism and a curing mechanism in a spin-film peeling and film changing device according to an embodiment of the present application;

FIG. 8 is a schematic view of another angle of the rolling mechanism and the curing mechanism in the spin-film peeling and film changing device according to the embodiment of the application;

FIG. 9 is a schematic diagram of a side view of a rolling mechanism and a curing mechanism in a spin-film peeling and film changing device according to an embodiment of the present application;

FIG. 10 is a schematic structural view of a rolling mechanism in a spin-on film changing device according to an embodiment of the present application;

FIG. 11 is a schematic structural view of a curing mechanism in a spin-on film changing device according to an embodiment of the present application;

FIG. 12 is a schematic diagram of a bottom plate and a lifting plate in a spin-film stripping and film changing device according to an embodiment of the present application;

FIG. 13 is a schematic view of the structure of an arc-shaped guide rail in a film changer for spin-coating and film tearing in an embodiment of the application;

fig. 14 is a schematic structural diagram of a template frame and a bottom plate in a film-changing device for spin-coating and film-tearing in an embodiment of the application;

reference numerals: 21-a support plate; 22-a rolling mechanism; 221-a rubber roller frame; 222-rubber roller; 223-rolling linkage frame; 23-a curing mechanism; 24-a support plate driving mechanism; 25-a bottom plate; 31-lifting plates; 32-a first strut; 33-a second leg; 34-arc guide rails; 341-a roller; 35-a rotary drive mechanism; 351—rotationally driving the housing; 352-rotary drive output shaft; 36-lifting driving mechanism; 41-a template frame; 411-tie rod assembly; 42-turning driving mechanism; 421-overturning the seat body; 422-turning over the output shaft.

Detailed Description

In order to make the technical solution of the present application better understood by those skilled in the art, the technical solution of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element; when an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" or "a number" means two or more, unless specifically defined otherwise.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for the purpose of understanding and reading the disclosure, and are not intended to limit the scope of the application, which is defined by the claims, but rather by the claims, unless otherwise indicated, and that any structural modifications, proportional changes, or dimensional adjustments, which would otherwise be apparent to those skilled in the art, would be made without departing from the spirit and scope of the application.

The embodiment of the application is written in a progressive manner.

As shown in fig. 1 to 14, an embodiment of the present application provides a spin-film peeling and film changing device, which includes: the device comprises a supporting plate 21, a rolling mechanism 22, a curing mechanism 23, a supporting plate driving mechanism 24, a bottom plate 25, a lifting plate 31, a first support column 32, a second support column 33, a template frame 41 and a turnover driving mechanism 42, wherein the bottom plate 25 is provided with a hollowed-out area matched with a texture template;

the rolling mechanism 22 is connected to the support plate 21 and is movable relative to the support plate 21; the curing mechanism 23 is fixedly connected with the supporting plate 21; the supporting plate 21 is slidably connected with the bottom plate 25, and at least part of the moving path of the supporting plate 21 is located in the hollowed-out area; the supporting plate driving mechanism 24 is mounted on the bottom plate 25 and drives the supporting plate 21 to move along the plane of the bottom plate 25;

the first support column 32 and the second support column 33 are arranged between the lifting plate 31 and the bottom plate 25, one end of the first support column 32 is fixedly connected with the lifting plate 31, and the other end is hinged with the bottom plate 25; one end of the second support column 33 is fixedly connected with the lifting plate 31, the other end is provided with an arc-shaped guide rail 34, and one side of the bottom plate 25 away from the first support column 32 is matched with the arc-shaped guide rail 34; a rotation driving mechanism 35 for driving the bottom plate 25 to rotate is further provided, and two ends of the rotation driving mechanism 35 are respectively hinged with the bottom plate 25 and the lifting plate 31;

a texture template is arranged on the template frame 41; one side of the template frame 41 is hinged with the bottom plate 25, and the overturning driving mechanism 42 is used for driving the template frame 41 to rotate; the turnover driving mechanism 42 includes a turnover seat 421 and a turnover output shaft 422, and the turnover seat 421 and the turnover output shaft 422 are respectively hinged to the bottom plate 25 and the template frame 41.

The application provides a glue homogenizing and film tearing and film changing device, which is characterized in that a template frame 41 is utilized to rotatably arrange a texture template on a bottom plate 25, a supporting plate 21 can carry a pair of a rolling mechanism 22 and a curing mechanism 23, and rolling and illumination operations are carried out on the texture template through a hollowed-out area of the bottom plate 25, so that glue between the texture template and a glass panel can be uniformly rolled and cured; then, the rotation of the base plate 25 is achieved by the rotation driving mechanism by the structure between the base plate 25 and the lifting plate 31, so that the texture template on the template frame 41 can be separated from the cured glue from one side. When the texture template needs cleaning or replacement, the template frame 41 is driven to rotate by the overturning driving mechanism 42, and the texture template is far away from the bottom plate 25, so that the texture template is convenient to operate.

Specifically, the glue homogenizing and film tearing and film changing device provided by the application has the advantages that the rolling mechanism 22 and the curing mechanism 23 are respectively arranged on the supporting plate 21, then the supporting plate 21 is driven to move by using the supporting plate driving mechanism 24, the rolling mechanism 22 is driven to roll materials under the condition that materials such as glass panels and the like are kept stationary, and meanwhile, the curing mechanism 23 is used for curing glue, so that the processing efficiency is high, the moving and processing operations of the rolling and curing mechanisms can be completed by using one set of mechanical mechanism, the occupied space is small, and the space required by the whole processing equipment can be reduced. By controlling the moving direction of the supporting plate 21 during the rolling and curing operation, the rolling mechanism 22 can be ensured to contact the glass panel or the texture template first, and the glue positioned between the glass panel and the texture template is rolled, so that the glue distribution is uniform; and then the curing mechanism 23 irradiates the rolled part to enable the glue which is uniformly distributed between the glass panel and the texture template to be denatured and cured, so that the problem that the effect of a finished product is affected due to the fact that the glue is cured first is avoided. After the glass panel is processed by controlling the moving direction of the support plate 21, the support plate driving mechanism 24 moves the support plate 21 in the opposite direction to retract to the initial position, and then the next panel is processed.

Meanwhile, the template frame 41 is fixed by the base plate 25, then the base plate is associated with the lifting plate 31 by the first support post 32 and the second support post 33, so that the base plate 25 can rotate around a position hinged with the first support post 32 under the drive of the rotation driving mechanism 35, and the arc-shaped guide rail 34 arranged on the second support post 33 can provide guiding and a certain supporting effect for the base plate 25 during rotation, so that the rotation of the base plate 25 is easier to start. The texture template is rotated by rotation of the base plate 25, so that the texture template is separated from the cured glue from the side near the arc-shaped guide rail 34, and then the texture template is completely separated from the glue by rotation or lifting by rotation fit. Compared with the operation of directly and vertically lifting the whole texture template to separate from glue in the prior art, the glue homogenizing and tearing film changing device provided by the application simulates the manual separation operation, and is less in damage to the texture template and the solidified glue, higher in separation efficiency, and high in automation degree, and the whole process is completed by machinery; meanwhile, the bottom plate 25 is utilized to drive the texture template, so that the damage caused by the direct action of the rotation driving force on the texture template can be avoided, and the service life is prolonged.

The first support column 32 and the second support column 33 are arranged so that a space exists between the lifting plate 31 and the bottom plate 25 for the bottom plate 25 to rotate; and can accommodate the rotary drive mechanism 35 and other processing machinery so that the base plate 25 does not interfere with the operation of the other processing machinery while completing the rotary dyestripping operation. In addition, the first support column 32 and the second support column 33 can also play a certain role in protection and support, so that the integrity of the device is enhanced.

The texture template is fixed by the template frame 41, and then the template frame 41 is driven to rotate around the hinge point of the template frame and the bottom plate 25 by the overturning driving mechanism 42, so that the texture template is overturned. When the texture template works, the template frame 41 is kept to be clung to the bottom plate 25, and other processing equipment can roll, irradiate and the like the texture template through the hollowed-out area on the bottom plate 25; when the texture template needs cleaning or replacement, the turnover driving mechanism 42 works to push the template frame 41 to rotate, so that the template frame 41 is far away from the bottom plate 25 and forms a certain angle with the bottom plate 25, and the texture template fixed on the template frame 41 is convenient to clean or replace. The spin-coating film-tearing and film-changing device provided by the application is simple and convenient to operate, small in occupied space and capable of improving the cleaning or changing efficiency of the texture template.

In the spin-coating film-changing device provided by the application, the support plate 21 is preferably positioned above the bottom plate 25 and below the support plate 31, so that the space surrounded by the support plate 31, the bottom plate 25, the first support post 32 and the second support post 33 is used for not only rotating the bottom plate 25 to separate the texture template, but also rolling and photo-curing the texture template (the glass panel and the UV adhesive below the texture template) by the rolling mechanism 22 and the curing mechanism 23. The template frame 41 is preferably arranged below the bottom plate 25, so that rolling and solidification are facilitated, and meanwhile, the template frame 41 can be turned over conveniently and does not interfere with a mechanism carried by the supporting plate 21.

Preferably, the bottom plate 25 is provided with 2-8 rollers 341, and the rollers 341 are clamped at two sides of the arc-shaped guide rail 34.

The engagement of the bottom plate 25 with the arcuate guide rail 34 may be achieved by a sliding or rolling engagement. Specifically, a slider or a roller 341 may be provided. Preferably, the bottom plate 25 is provided with 2-8 rollers 341 clamped on both sides of the arcuate guide rail 34. When the rotation driving mechanism 35 operates, the rollers on both sides of the arc guide 34 rotate along the arc guide 34, guiding the rotation of the bottom plate 25. More preferably, the bottom plate 25 is provided with 4-6 rollers 341 evenly distributed on both sides of the arcuate guide rail 34.

Preferably, two first struts 32 are provided, and the center of the arc-shaped guide rail 34 is located on the connecting line of the hinge points of the two first struts 32 and the bottom plate 25; and the included angle between the arc-shaped guide rail 34 and the circle center is-15 degrees to 15 degrees.

The arcuate guide rails 34 serve to guide and support the base plate 25 as it rotates. The length and the arc of the arc-shaped guide rail 34 are sufficient to smoothly rotate the bottom plate 25. Preferably, the arc of the arc-shaped guide rail 34 is located at the center of the circle on the connecting line of the hinging points of the bottom plate 25 and the two first struts 32, so that when the bottom plate 25 rotates, the curve formed by the rotation of the edge matched with the arc-shaped guide rail 34 is identical to the curvature of the arc-shaped guide rail 34.

Preferably, the length of the arc-shaped guide rail 34 is converted into an included angle between the arc-shaped guide rail 34 and the circle center of-15 degrees to 15 degrees, preferably-9 degrees to 9 degrees, so that the guide function can be achieved, and the work of other devices above the bottom plate 25 is not hindered.

Preferably, the rotary drive mechanism 35 is disposed adjacent to the second leg 33; the rotary driving mechanism 35 includes a driving base 251 and a driving output shaft 252, the driving base 251 is hinged to the lifting plate 31, and the driving output shaft 252 is hinged to the bottom plate 25.

Preferably, the rotary drive mechanism 35 is disposed adjacent the second leg 33 and includes a rotary drive housing 351 and a rotary drive output shaft 352. When the rotation driving mechanism 35 is operated, the rotation driving output shaft 352 is extended and contracted with respect to the rotation driving base 351, thereby changing the angle of the bottom plate 25 with respect to the lifting plate 31. Meanwhile, two ends of the rotary driving mechanism 35 are respectively hinged with the lifting plate 31 and the bottom plate 25, and can rotate for a certain angle when the rotary driving mechanism stretches and shortens, so that the rotary driving mechanism cannot be clamped. The lifting plate 31 and the bottom plate 25 may be provided with projections, holes, etc. to cooperate with the rotation driving mechanism 35.

When two second struts 33 are provided, it is preferable that the rotary drive mechanism 35 is provided between the two second struts 33 at the midpoint of the base plate 25 to provide a relatively uniform force. The rotation driving mechanism 35 may be a hydraulic cylinder, an air cylinder, or the like.

Preferably, two second struts 33 are provided, and arc guide rails 34 are fixedly installed on the two second struts respectively, so that the rotation of the bottom plate 25 is guided from two sides of the bottom plate 25, and the rotation of the bottom plate 25 is more stable, and the problem of lateral deflection is not easy to occur.

Preferably, a lifting driving mechanism 36 is further provided, and the lifting driving mechanism 36 is used for driving the lifting plate 31 to move along the vertical direction.

Preferably, a lifting driving mechanism 36 is arranged to drive the lifting plate 31 to move along the vertical direction, so that the bottom plate 25 is driven to lift together, the action of rotating the film tearing on the bottom plate 25 is better matched, the texture template and the solidified glue are thoroughly separated, the lifting plate 31 is used as the buffer of lifting force, and the structures such as arc guide rails and the like are prevented from being damaged by acting on other parts. Specifically, the rotation driving mechanism 35 is used to drive the bottom plate 25 to rotate, so that the texture template and the glue are separated at one side; then, the lifting driving mechanism 36 is started to drive the lifting plate 31 to lift, so that the texture template is thoroughly separated from the glue. In addition, the rotation angle of the bottom plate 25 can be larger, after the texture template is thoroughly separated from the glue, the lifting driving mechanism 36 is started again to drive the lifting plate 31 to lift, so that the solidified glass panel is exposed, and the blanking or other operations are convenient to carry out.

Preferably, a lifting support is provided and the lifting plate 31 is slidably connected to the lifting support and driven by a lifting drive mechanism 36. More preferably, two lift drive mechanisms 36 are used for driving.

Preferably, the bottom plate 25 is provided with guide rails at two sides of the hollow area, and two ends of the supporting plate 21 are respectively provided with a sliding block matched with the guide rails.

The support plate 21 moves within the hollowed-out area of the bottom plate 25 by providing guide rails at both sides of the hollowed-out area and then providing sliders at both ends of the support plate 21 and making the sliders match the guide rails.

The support plate 21 is also connected to the output end of the support plate driving mechanism 24, and the output shaft of the support plate driving mechanism 24 is parallel to the bottom plate 25 and drives the support plate 21 to move. Specifically, the support plate 21 may be threadedly engaged with the output shaft of the support plate driving mechanism 24, converting rotation of the output shaft into translation of the support plate 21; translation of the support plate 21 may also be accomplished using a drive mechanism such as a linear motor as is commonly used in the art.

Preferably, the supporting plate 21 is perpendicular to the bottom plate 25, and the rolling mechanism 22 and the curing mechanism 23 are respectively disposed at both sides of the supporting plate 21.

Preferably, the supporting plate 21 is perpendicular to the bottom plate 25, and the rolling mechanism 22 and the curing mechanism 23 are respectively arranged at two sides of the supporting plate 21, so that the supporting plate 21 can partially shield the light emitted by the curing mechanism 23, and the sequence of rolling and curing is controlled.

Preferably, the end of the turnover seat 421 close to the turnover output shaft 422 is hinged to the bottom plate 25, and the end of the turnover output shaft 422 far away from the turnover seat 421 is hinged to the template frame 41.

Preferably, the turnover body 421 is hinged to the bottom plate 25, and the turnover output shaft 422 is hinged to the template frame 41, so that the body having a large volume is connected to the bottom plate 25. It is further preferable that one end of the turnover body 421 close to the turnover output shaft 422 is hinged to the bottom plate 25, one end of the turnover output shaft 422 far away from the turnover body 421 is hinged to the template frame 41, the turnover body 421 is located at one side of the bottom plate 25 far away from the template frame 41, and when the turnover output shaft 422 is contracted to the shortest, the template frame 41 can be closely attached to the bottom plate 25 without being hindered by the turnover driving mechanism 42.

More preferably, two tilting drive mechanisms 42 are provided to push the template frame 41 to rotate from two sides adjacent to the side of the template frame 41 hinged to the bottom plate 25, thereby avoiding deflection of the template frame 41.

Preferably, the template frame 41 is provided with two pull rod assemblies 411, the pull rod assemblies 411 comprise a first pull rod and a second pull rod, and the second pull rod is detachably connected with the first pull rod and clamps the texture template in the middle;

one of the two pull rod assemblies 411 is fixedly connected with the template frame 41, the other is slidably connected with the template frame 41, and a pull rod power mechanism for driving the pull rod assemblies 411 to slide is arranged.

Preferably, the texture template is secured to the template frame 41 by a tie bar assembly 411. The tie bar assembly 411 includes a first tie bar and a second tie bar sandwiching the texture template between the two tie bars. The second pull rod is directly detached during replacement. More preferably, one of the two pull rod assemblies 411 is fixedly connected with the template frame 41, and the other is slidably connected with the template frame 41, so that when the texture template is fixed on the two pull rod assemblies, one side is fixed, and the pull rod assembly 411 on the other side can move under the drive of the pull rod power mechanism, so that the texture template is tensioned. Preferably, the first pull rod and the second pull rod are detachably connected through a pin, a hole matched with the pin is also formed in the outer side of the texture template, and the pin passes through the first pull rod, the texture template and the second pull rod to be fixed.

The sliding connection of the tie rod assembly 411 to the formwork 41 is preferably achieved by means of guide rails and slides.

The pull rod power mechanism is preferably a cylinder.

The roll-in mechanism 22 preferably includes a rubber roll frame 221 and a rubber roll 222, the rubber roll 222 rotating during roll-in to achieve spin coating. The rolling linkage frame 223 is further provided, the rubber roller frame 221 is rotatably arranged on the rolling linkage frame 223, and the plane where the rubber roller frame 221 rotates is defined to be coincident with or parallel to the plane where the axis of the rubber roller 222 is located, namely, when the rubber roller frame 221 rotates, the rubber roller 222 swings along the axis direction, so that the heights of the two ends of the rubber roller 222 are adjusted. The rolling linkage frame 223 is arranged, so that the condition of uneven texture templates or panels can be adapted, the rubber roller 222 can be flexibly adjusted along with the angle change of a rolling plane in the working process, the rubber roller 222 can not be suspended in the whole rolling process, and the uniformity of the rubber after rolling is improved. More preferably, a rolling limiting piece is arranged to limit the rotation range of the rubber roll frame 221, so that the phenomenon that the normal operation of the device is influenced due to overlarge or damaged rotation range of the rubber roll frame 221 is avoided.

The connection between the rubber roller frame 221 and the rolling linkage frame 223 can be achieved by: a supporting rod is arranged on the rolling linkage frame 223, then a through hole is arranged on the rubber roller frame 221, and the supporting rod penetrates through the through hole to connect the two; bearings can also be arranged in the through holes, so that the rubber roller frame 221 rotates more smoothly. The rolling limiting piece can also be a supporting rod, and meanwhile, the rubber roller frame 221 is provided with an arc-shaped groove matched with the supporting rod, and the supporting rod is matched with the arc-shaped groove, so that the maximum range of rotation of the rubber roller frame 221 is at two ends of the arc-shaped groove, and limiting is achieved.

The linkage frame driving mechanism drives the rolling linkage frame 223 to drive the rubber roller frame 221 and the rubber roller 222 to move together, and the moving direction is perpendicular to the moving direction of the supporting plate 21, so that the rubber roller 222 can be far away from or close to the supporting plate 21, namely, close to or far away from a glass panel/texture template to be rolled, and rolling is better performed.

Preferably, the curing mechanism 23 is embodied as a UV lamp. More preferably, the UV lamp is disposed parallel to the glue roller 222 (i.e., the axis direction of the UV lamp is parallel to the axis direction of the glue roller 222). The UV lamp which is close to the rubber roller in distance and moves synchronously is arranged, so that the complexity of mechanical design and occupied space can be reduced, the volume of the UV lamp can be reduced, and the energy consumption for curing is reduced.

The device is characterized in that a rolling curing control mechanism and a rolling sensor can be further arranged, the rolling sensor senses whether the rubber roller is in contact with materials or not, or senses whether the force applied by the rubber roller to the materials is certain to reach a set value or not, then the rolling curing control mechanism controls the opening and closing of the UV lamp according to signals of the rolling sensor, the UV lamp can be immediately started when the rubber roller is in contact with the materials, the UV lamp can be started after a certain time, and the device can be flexibly arranged according to actual needs.

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

Claims (9)

1. Even membrane trade membrane device that tears, a serial communication port includes: the device comprises a supporting plate (21), a rolling mechanism (22), a curing mechanism (23), a supporting plate driving mechanism (24), a bottom plate (25), a lifting plate (31), a first support (32), a second support (33), a template frame (41) and a turnover driving mechanism (42), wherein the bottom plate (25) is provided with a hollowed-out area matched with a texture template;

the rolling mechanism (22) is connected with the supporting plate (21) and can move relative to the supporting plate (21); the curing mechanism (23) is fixedly connected with the supporting plate (21); the supporting plate (21) is in sliding connection with the bottom plate (25), and at least part of the moving path of the supporting plate (21) is positioned in the hollowed-out area; the supporting plate driving mechanism (24) is arranged on the bottom plate (25) and drives the supporting plate (21) to move along the plane of the bottom plate (25);

the first support column (32) and the second support column (33) are arranged between the lifting plate (31) and the bottom plate (25), one end of the first support column (32) is fixedly connected with the lifting plate (31), and the other end of the first support column is hinged with the bottom plate (25); one end of the second support column (33) is fixedly connected with the lifting plate (31), the other end of the second support column is provided with an arc-shaped guide rail (34), and one side, far away from the first support column (32), of the bottom plate (25) is matched with the arc-shaped guide rail (34); the device is also provided with a rotary driving mechanism (35) for driving the bottom plate (25) to rotate, and two ends of the rotary driving mechanism (35) are respectively hinged with the bottom plate (25) and the lifting plate (31);

the texture template is arranged on the template frame (41); one side of the template frame (41) is hinged with the bottom plate (25), and the overturning driving mechanism (42) is used for driving the template frame (41) to rotate; the turnover driving mechanism (42) comprises a turnover seat body (421) and a turnover output shaft (422), and the turnover seat body (421) and the turnover output shaft (422) are respectively hinged with the bottom plate (25) and the template frame (41).

2. The spin-film stripping and film changing device according to claim 1, wherein the bottom plate (25) is provided with 2-8 rollers (341), and the rollers (341) are clamped on two sides of the arc-shaped guide rail (34).

3. The film homogenizing and tearing device according to any one of claims 1-2, wherein two first support posts (32) are arranged, and the circle center of the arc-shaped guide rail (34) is positioned on the connecting line of the hinge points of the two first support posts (32) and the bottom plate (25); and the included angle between the arc-shaped guide rail (34) and the circle center is-15 degrees to 15 degrees.

4. A film changer according to claim 3, characterized in that the rotary drive mechanism (35) is arranged close to the second support (33); the rotary driving mechanism (35) comprises a driving base body (351) and a driving output shaft (352), the driving base body (351) is hinged with the lifting plate (31), and the driving output shaft (352) is hinged with the bottom plate (25).

5. The spin-film peeling and film changing device according to claim 1, further comprising a lifting driving mechanism (36), wherein the lifting driving mechanism (36) is used for driving the lifting plate (31) to move in a vertical direction.

6. The spin-film peeling and film changing device according to claim 1, wherein the bottom plate (25) is provided with guide rails at two sides of the hollow area, and two ends of the supporting plate (21) are respectively provided with a sliding block matched with the guide rails.

7. The spin-film peeling and film changing device according to any one of claims 1-2 and 4-6, wherein the support plate (21) is perpendicular to the bottom plate (25), and the rolling mechanism (22) and the curing mechanism (23) are respectively arranged on two sides of the support plate (21).

8. The spin film peeling and changing device according to claim 1, wherein one end of the turnover seat body (421) close to the turnover output shaft (422) is hinged to the bottom plate (25), and one end of the turnover output shaft (422) far away from the turnover seat body (421) is hinged to the template frame (41).

9. The film homogenizing and tearing device according to claim 1, wherein the template frame (41) is provided with two pull rod assemblies (411), the pull rod assemblies (411) comprise a first pull rod and a second pull rod, and the second pull rod is detachably connected with the first pull rod and clamps the texture template in the middle;

one of the two pull rod assemblies (411) is fixedly connected with the template frame (41), the other one is in sliding connection with the template frame (41), and a pull rod power mechanism for driving the pull rod assemblies (411) to slide is arranged.