CN219544012U - Full-automatic magnetic sheet rubberizing device - Google Patents

Abstract

The utility model belongs to the technical field of rubberizing equipment, and particularly relates to a full-automatic magnetic sheet rubberizing device which comprises a rack, and magnetic sheet conveying mechanisms, a glue film taking mechanism, a label stripping mechanism and a CCD (charge coupled device) positioning mechanism which are all arranged on the rack; the magnetic sheet conveying mechanism is arranged on the rack and used for conveying the magnetic sheets; the CCD positioning mechanism is arranged above the magnetic sheet conveying mechanism and is used for detecting the position of the magnetic sheet positioned at the upper end of the magnetic sheet conveying mechanism; the adhesive film taking mechanism is arranged on one side of the magnetic sheet conveying mechanism and is used for clamping the adhesive film in the label peeling mechanism onto the magnetic sheet of the magnetic sheet conveying mechanism; the label peeling mechanism is arranged on one side of the magnetic sheet conveying mechanism and is used for conveying the adhesive film.

Description

Full-automatic magnetic sheet rubberizing device

Technical Field

The utility model belongs to the field of automatic adhesive films, and particularly relates to a full-automatic magnetic sheet adhesive device.

Background

In industrial manufacture, the magnetic sheet is made of iron material and has magnetic conduction effect, and the produced magnetic sheet needs to be attached to specific equipment to play a role of magnetic conduction, so that a layer of double-sided adhesive film needs to be attached to the outer surface of the magnetic sheet for attaching the magnetic sheet to the specific equipment. The double-sided adhesive film is formed by combining a base material, an adhesive and release paper, has strong adhesiveness and is used for fixedly connecting two objects together.

At present, a magnetic sheet to be glued is manually glued on the market, namely, a worker manually picks up the magnetic sheet, tears off the isolation paper on one side of the double-sided glue film, attaches the isolation paper to the magnetic sheet, and then places the isolation paper on a conveying belt to convey the isolation paper. Because the manual operation rubberizing membrane of workman need tear double-sided adhesive film and paste on the magnetic sheet to get the material and receive the material and all need extra operation, consume more time, manual operation leads to the double-sided adhesive film to paste to the position different with the magnetic sheet shell moreover easily, make double-sided adhesive film not paste with the surface of magnetic sheet to be neat, this kind of condition often need to paste the magnetic sheet of double-sided adhesive film again to doing the reworking and handle, and the reworking means that the adhesive film can be torn and paste again, because the magnetic sheet surface is comparatively coarse, the adhesive film section can lead to the adhesive film section to be polluted by debris such as dust by the secondary operation, and then the viscidity that influences the adhesive film leads to the adhesive film to be scrapped, need to change new adhesive film, greatly reduced production efficiency.

Therefore, there is a need to provide a new device, which replaces manual operation, improves production efficiency, and solves the defects in the prior art.

Disclosure of Invention

The utility model aims to provide a full-automatic magnetic sheet rubberizing device, which aims to solve the problem of low production efficiency of magnetic sheet rubberizing.

In order to achieve the above-mentioned object,

further, the machine frame comprises a machine frame, a magnetic sheet conveying mechanism, a CCD positioning mechanism, a label peeling mechanism, a glue film taking mechanism, a pressing mechanism and a magnetic sheet conveying mechanism, wherein the magnetic sheet conveying mechanism is arranged on the machine frame and used for conveying magnetic sheets. The CCD positioning mechanism is arranged above the magnetic sheet conveying mechanism and is used for detecting the position of the magnetic sheet positioned at the upper end of the magnetic sheet conveying mechanism. The label peeling mechanism is arranged on one side of the magnetic sheet conveying mechanism and is used for conveying the adhesive film. The adhesive film taking mechanism comprises a movable taking hand which moves along the X-axis and Y-axis directions and is used for clamping the adhesive film in the label peeling mechanism onto the magnetic sheet of the magnetic sheet conveying mechanism. The pushing mechanism is arranged on the upper side of the magnetic sheet conveying mechanism and used for compressing the adhesive film on the magnetic sheet.

Further, the magnetic sheet conveying mechanism comprises a first conveying belt assembly and a second conveying belt assembly which are sequentially arranged forwards; one end of the first conveyor belt assembly extending rearward is disposed above the second conveyor belt assembly; the upper side of first conveyer belt subassembly is equipped with the charge-in board, is equipped with the clearance that is used for supplying the magnetic sheet to pass through between the bottom of charge-in board and the first conveyer belt subassembly.

Further, two straight bars extending forward are arranged at the tail end of the adjacent first conveying belt and positioned on the second conveying belt assembly, and the front ends of the two straight bars are inwards close to each other for guiding the magnetic sheets.

Further, the label peeling mechanism comprises a bracket, and an adhesive tape driving mechanism, a resistance adjusting mechanism and a material receiving mechanism which are arranged on the bracket; the label stripping plate is arranged at the front end of the adhesive tape driving mechanism and is used for separating the adhesive film from the material tape; the resistance adjusting mechanism comprises a driving roller and a swing arm; the swing arm is rotatably connected to the bracket, and the rotating part of the swing arm is connected with a spring assembly; the driving roller horizontally extends towards the direction of the second conveying belt assembly and is connected to the first end of the swing arm to be used for conveying the adhesive film.

Further, an open slot is formed in the support, and the second end of the swing arm is arranged in the open slot and used for rotating and swinging.

Further, the swing arm is provided with a limiting groove which is opened upwards at two sides of the edge of the opening groove.

Further, a transmission mechanism is arranged at the back of the material receiving mechanism, and the material receiving mechanism is provided with a transmission mechanism, a material receiving rotating shaft and a tightening rotating shaft mechanism; the transmission mechanism comprises a first transmission wheel, a second transmission wheel and a belt; the first driving wheel is connected with the second driving wheel through a belt, and the first driving wheel and the second driving wheel keep rotating in the same direction; the first driving wheel is connected with the material receiving rotating shaft, and the second driving wheel is connected with the tightening rotating shaft mechanism.

Further, the pressing mechanism comprises a pressing roller mounting table, a pressing roller and a buffer component; the pressing roller is movably arranged on the pressing roller mounting table, and the buffer component is connected with the pressing roller and is used for buffering the pressing roller.

Further, the adhesive film taking mechanism further comprises a descending mechanism and an attracting mechanism; the descending mechanism comprises a descending cylinder, a telescopic rod and a top plate; the descending cylinder is fixedly connected to the movable material taking hand, a telescopic rod extends downwards, and the bottom of the telescopic rod is connected with the top plate; the suction mechanism is connected with the descending mechanism and is used for adsorbing the adhesive film.

Further, a visual lens is arranged on one side of the adhesive film taking mechanism, and the direction of the lens is aligned to the suction mechanism and is used for positioning the adhesive film at the position of the suction mechanism.

The above technical solutions in the full-automatic magnetic sheet rubberizing device provided by the embodiment of the utility model have at least the following technical effects:

traditional pure manual operation or semi-automatization pad pasting, complex operation, the convenience is not strong, and production efficiency is not high. This full-automatic magnetic sheet rubberizing device only need place the product to the assigned position of device can, follow-up operation whole journey is automatic, and is convenient and save the manual work, improves production efficiency. The device comprises a plurality of mechanisms for controlling the process, and the conveying mechanism controls the feeding and the movement of the magnetic sheet, so that the feeding automation is easily realized; the CCD positioning mechanism detects and limits the position of the magnetic sheet; the label stripping mechanism separates the adhesive film from the material belt for picking up by the adhesive film taking mechanism; after the adhesive film taking mechanism drives the suction mechanism to absorb the adhesive film, the visual lens is used for positioning the adhesive film, the movable seat is driven to accurately adhere the adhesive film to the upper surface of the magnetic sheet, then the adhesive film is stably adhered to the magnetic sheet by the downward pressing mechanism, and the finished magnetic sheet flows away through the conveying mechanism. The utility model has the advantages of feeding, rubberizing and discharging matched with automatic operation, can replace manual rubberizing, has accurate rubberizing position and stable quality, and greatly improves the production efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a fully automatic magnetic sheet rubberizing device according to an embodiment of the utility model.

Fig. 2 is a structural diagram 1 of a label stripping mechanism of a full-automatic magnetic sheet rubberizing device provided by the embodiment of the utility model.

Fig. 3 is a structural diagram 2 of a label stripping mechanism of the full-automatic magnetic sheet rubberizing device provided by the embodiment of the utility model.

Fig. 4 is a structural diagram of a pressing mechanism of the full-automatic magnetic sheet rubberizing device according to an embodiment of the utility model.

Fig. 5 is a structural diagram of a glue film taking mechanism of the full-automatic magnetic sheet rubberizing device provided by the embodiment of the utility model.

The main reference numerals illustrate:

100 racks.

200 magnetic sheet conveying mechanism, 201 feeding plate, 210 first conveyer belt assembly, 220 second conveyer belt assembly, 230 straight bar.

300 label peeling mechanism, 301 label peeling plate, 302 bracket, 310 adhesive tape driving mechanism, 320 resistance adjusting mechanism, 321 driving roller, 322 swing arm, 323 spring assembly, 330 material receiving mechanism, 331 driving mechanism, first driving wheel 332, second driving wheel 333, belts 334, 340 material receiving rotating shaft, 341 tightening rotating shaft mechanism.

400 glue film taking mechanism, 410X-axis moving taking hand, 420Y-axis moving taking hand, 440 descending mechanism, 441 descending cylinder, 442 telescopic link, 443 bottom plate, 444 suction mechanism.

500CCD positioning mechanism, 510 visual lens.

600 hold down mechanism, 610 hold down roller, 620 hold down roller mount, 630 buffer assembly.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in fig. 1-5, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functionality throughout. The embodiments described below by referring to fig. 1 to 5 are exemplary and intended to illustrate embodiments of the present utility model and should not be construed as limiting the utility model.

In the description of the embodiments of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the embodiments of the present utility model and simplify description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

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 embodiments of the present utility model, the meaning of "plurality" is two or more, unless explicitly defined otherwise.

In the embodiments of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured" and the like are to be construed broadly and include, for example, either permanently connected, removably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the embodiments of the present utility model will be understood by those of ordinary skill in the art according to specific circumstances.

In one embodiment of the utility model, the full-automatic magnetic sheet rubberizing device is provided, the magnetic sheet is transported to a characteristic position, the adhesive film separated from the material belt is pasted on the magnetic sheet, and the adhesive film flows away after being pressed.

The device comprises a rack 100, a magnetic sheet conveying mechanism 200, a glue film taking mechanism 400, a label peeling mechanism 300 and a CCD positioning mechanism 500 which are all arranged on the rack; the magnetic sheet conveying mechanism 400 is arranged on the frame 100 and is used for conveying magnetic sheets; the CCD positioning mechanism 500 is arranged above the magnetic sheet conveying mechanism 400 and is used for detecting the position of the magnetic sheet positioned at the upper end of the magnetic sheet conveying mechanism 400; the adhesive film taking mechanism 400 is arranged at one side of the magnetic sheet conveying mechanism 200, and comprises a movable taking hand 410 moving along an X axis, a movable taking hand 420 moving along a Y axis and a fixed seat 430 in a Z axis direction, and is used for clamping the adhesive film in the label peeling mechanism 300 onto the magnetic sheet of the magnetic sheet conveying mechanism 200; the label peeling mechanism 300 is disposed at one side of the magnetic sheet conveying mechanism 200, and is used for conveying the adhesive film.

The pressing mechanism 600 is disposed at one side of the magnetic sheet conveying mechanism 200, and is used for pressing the adhesive film on the magnetic sheet. Traditional pure manual operation or semi-automatization pad pasting, the convenience is not strong, and production efficiency is not high. This full-automatic magnetic sheet rubberizing device only need place the product to the assigned position of device can, follow-up operation whole journey is automatic, and is convenient and save the manual work, improves production efficiency. The device comprises a plurality of mechanisms for controlling the process, the conveying mechanism 200 controls the magnetic sheet to move to a positioning point limited by the CCD positioning mechanism 500, so that the feeding automation can be easily realized; then the label stripping mechanism 300 separates the adhesive film from the material belt for the CCD mechanism 500 to pick up; after the adhesive film taking mechanism 400 drives the suction mechanism 444 to absorb the adhesive film, the visual lens 510 is used for positioning the adhesive film, the movable seat is driven to accurately adhere the adhesive film to the upper surface of the magnetic sheet, the pressing mechanism 600 is used for pressing down to stably adhere the adhesive film to the magnetic sheet, and then the finished magnetic sheet flows away through the magnetic sheet conveying mechanism 200. The utility model has the advantages of feeding, rubberizing and discharging matched with automatic operation, can replace manual rubberizing, has accurate rubberizing position and stable quality, and greatly improves the production efficiency.

Further, the feeding plate 201 is disposed at an upper end of the first conveyor belt assembly 210, and a gap for passing the magnetic sheet is disposed between a bottom of the feeding plate and the first conveyor belt assembly, for positioning and conveying the magnetic sheet raw material. The first conveyor belt assembly 210 is disposed at the front end of the second conveyor belt assembly 220, and the first conveyor belt assembly 210 is higher than the second conveyor belt assembly 220, and one end of the first conveyor belt assembly 210 extending backward is disposed above the second conveyor belt assembly 220, and the length of the extending end is smaller than the length from the front end of the second conveyor belt assembly 220 to the distance from the CCD positioning mechanism 400. In this embodiment, the feeding plate 201 is vertically disposed at the upper end of the first conveyor belt assembly 210, so as to play a role in limiting magnetic sheets, and the magnetic sheets are stacked in a downward sequence under the action of gravity, and the first conveyor belt assembly 210 conveys the magnetic sheets one by one; the first conveyor belt assembly 210 extends to a higher end than the second conveyor belt assembly 220 and is positioned on the second conveyor belt assembly 220 to form a height difference, so that the effect of singly separating and transporting the magnetic sheets is achieved; after the magnetic sheet rubberizing is completed, the second conveyor belt assembly 220 continues to transport it, and the magnetic sheet completes all the processes of the device.

Further, two straight bars 230 with one fixed end position are arranged at the tail end of the adjacent first conveyor belt assembly 210 and located on the second conveyor belt assembly in a forward extending manner, and the other end is close to the other end inwards, in this embodiment, the two straight bars 230 enclose an eight shape, the guidance of the magnetic sheet is limited, and a condition foundation is built for the position of the translation mechanism 500, which is precisely attached to the lower adhesive film.

Further, the label peeling mechanism 300 comprises a label peeling plate 301, a bracket 302, and an adhesive tape driving mechanism 310, a resistance adjusting mechanism 320 and a material receiving mechanism 330 which are arranged on the bracket 302. A label stripping plate 301 is arranged at the front end of the adhesive tape driving mechanism 310 and is used for providing a platform for separating the adhesive film and the material tape; the resistance adjustment mechanism 320 includes a driving roller 321, a swing arm 322, and a spring assembly 323. The driving roller 321 extends horizontally toward the second conveyor belt assembly 220, and the driving roller 321 is connected to the first end of the swing arm 322 for conveying the adhesive film. In this embodiment, the label peeling plate 301 is disposed at the front end of the tape driving mechanism 310 and has a height flush with the first conveyor belt 210. The adhesive tape driving mechanism 310 is fixed at the top end of the bracket 302, the resistance adjusting mechanism 320 comprises a driving roller 321, a swing arm 322 and a spring assembly 323, one end of the driving roller 321 horizontally extends towards the direction of the second conveying belt assembly 220, and the driving roller 321 is connected to the first end of the swing arm 322 for conveying the adhesive film.

Further, the support 201 is provided with an open slot, and the second end of the swing arm 322 is disposed in the open slot for rotation and swing. In this embodiment, since the adhesive film raw material is tightened to generate pressure when rotating, the resistance adjusting mechanism 320 is pressed down by the driving roller 321 to drive the spring assembly 323 on one side of the swing arm 322, the spring assembly 323 is retracted and restored to its original shape, and the driving roller 321 is restored to its original position by the swing arm 322. The purpose of this approach is to avoid collapsing the hardware structure of the label stripping mechanism 300 during the process of rolling the film raw material, and to provide a resistance adjustment mechanism 320 for buffering and protecting.

Further, the swing arm 322 is provided with a limiting groove which is opened upwards at two sides of the edge of the opening groove. In this embodiment, the concave portions located at two sides of the swing arm 322 of the open slot are used for limiting the swing arm 322, the upper surface of the swing arm 322 is easy to be bumped and damaged by the limit slot when the swing arm 322 swings, and the concave portion is provided to absorb shock and limit the rotation amplitude of the swing arm 322, so that the effects of buffering and limiting the position can be achieved.

Further, a transmission mechanism 331 is arranged at the back of the material receiving mechanism 330, and comprises a first transmission wheel 332, a second transmission wheel 333 and a belt 334, wherein the first transmission wheel 332 and the second transmission wheel 333 are connected through the belt and keep rotating in the same direction. In this embodiment, the label peeling mechanism 300 is powered by the transmission mechanism 331, and the separated material tape passes through the second transmission wheel 333 and then is wound around the first transmission wheel 332 to finish the waste material bundling.

Further, the pressing mechanism 600 includes a pressing roller 610, a pressing roller mount 620, and a buffer member 630. The pressing roller mounting table 620 is disposed on the magnetic sheet conveying mechanism 200, and the buffer assembly 630 is connected to the pressing roller 610 and is used for buffering the pressing roller 610. The length of the pressing roller 610 is flush with the width of the second conveyor belt 220. In this embodiment, a detecting photo-electricity is provided at the rear end of the pressing roller 610 for positioning the magnetic sheet. The magnetic sheet with the adhesive film is likely to be attached loose, the adhesive film is easy to drop, and the pressing mechanism 600 is provided to effectively press the adhesive film and not to deform the magnetic sheet under the buffering of the buffering component 620.

Further, the Z-axis fixing base 430 is connected to a lowering mechanism 440, which includes a lowering cylinder 441, a telescopic rod 442, a bottom plate 443, and a suction mechanism 444. The lowering mechanism 440 is used for pressing the adhesive film to be tightly attached to the magnetic sheet, and the suction mechanism 444 is connected to the bottom of the lowering mechanism 441 and is used for sucking the adhesive film. In this embodiment, the descending cylinder 441 controls the telescopic rod 442 to be pressed down in a pneumatic mode, the adhesive film is sucked and taken down from the label stripping plate 301 by the suction mechanism 444, the adhesive film taking mechanism 400 moves to be right above the magnetic sheet, the descending cylinder 441 drives the telescopic rod 442 to stretch and retract, thereby the adhesive film is attached to the magnetic sheet by the suction mechanism 444,

further, the vision lens 510 is disposed on one side of the film taking mechanism 400, and the lens direction is aligned to the engaging mechanism 443, so as to position the film on the engaging mechanism 443.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A full-automatic magnetic sheet rubberizing device for paste glued membrane on the magnetic sheet, its characterized in that includes:

a frame;

the magnetic sheet conveying mechanism is arranged on the rack and used for conveying the magnetic sheets;

the CCD positioning mechanism is arranged above the magnetic sheet conveying mechanism and is used for detecting the position of the magnetic sheet at the upper end of the magnetic sheet conveying mechanism;

the label peeling mechanism is arranged on one side of the magnetic sheet conveying mechanism and is used for conveying the adhesive film;

the adhesive film taking mechanism comprises a movable taking hand which moves along the X-axis and Y-axis directions and is used for clamping the adhesive film in the label peeling mechanism onto the magnetic sheet of the magnetic sheet conveying mechanism;

and the pressing mechanism is arranged on the upper side of the magnetic sheet conveying mechanism and used for pressing the adhesive film on the magnetic sheet.

2. The fully automatic magnetic sheet rubberizing device of claim 1, wherein: the magnetic sheet conveying mechanism comprises a first conveying belt assembly and a second conveying belt assembly which are arranged forwards in sequence; one end of the first conveyor belt assembly extending backwards is arranged above the second conveyor belt assembly; the upper side of first conveyer belt subassembly is equipped with the feed plate, the bottom of feed plate with be equipped with the clearance that is used for supplying magnetic sheet to pass through between the first conveyer belt subassembly.

3. The fully automatic magnetic sheet rubberizing device of claim 2, wherein: two straight bars extending forwards are arranged adjacent to the tail end of the first conveying belt and located on the second conveying belt assembly, and the front ends of the two straight bars are close inwards to be used for guiding magnetic sheets.

4. The fully automatic magnetic sheet rubberizing device of claim 1, wherein: the label peeling mechanism comprises a bracket, and an adhesive tape driving mechanism, a resistance adjusting mechanism and a material receiving mechanism which are arranged on the bracket; the label stripping plate is arranged at the front end of the adhesive tape driving mechanism and is used for separating the adhesive film from the material tape; the resistance adjusting mechanism comprises a driving roller and a swing arm; the swing arm is rotatably connected to the bracket, and a spring assembly is connected to the rotating part of the swing arm; the driving roller horizontally extends towards the direction of the second conveying belt assembly, and is connected to the first end of the swing arm to be used for conveying the adhesive film.

5. The fully automatic magnetic sheet rubberizing device of claim 4, wherein: the support is provided with an open slot, and the second end of the swing arm is arranged in the limit slot and used for rotating and swinging.

6. The fully automatic magnetic sheet rubberizing device of claim 5, wherein: the swing arm is provided with a limiting groove which is opened upwards at two sides of the edge of the opening groove.

7. The fully automatic magnetic sheet rubberizing device of claim 4, wherein: the material receiving mechanism is provided with a transmission mechanism, a material receiving rotating shaft and a tightening rotating shaft mechanism; the transmission mechanism comprises a first transmission wheel, a second transmission wheel and a belt; the first driving wheel is connected with the second driving wheel through the belt, and the first driving wheel and the second driving wheel keep rotating in the same direction; the first driving wheel is connected with the material receiving rotating shaft, and the second driving wheel is connected with the tightening rotating shaft mechanism.

8. The fully automatic magnetic sheet rubberizing device of claim 1, wherein said hold-down mechanism comprises a hold-down roller mounting table, a hold-down roller, and a buffer assembly; the pressing roller is movably arranged on the pressing roller mounting table, and the buffer component is connected with the pressing roller and used for buffering the pressing roller.

9. The fully automatic magnetic sheet rubberizing device according to claim 1, wherein said adhesive film take-off mechanism further comprises a lowering mechanism and a suction mechanism; the descending mechanism comprises a descending cylinder, a telescopic rod and a bottom plate; the descending air cylinder is fixedly connected to the movable material taking hand, the descending air cylinder extends downwards to form the telescopic rod, and the bottom of the telescopic rod is connected with the bottom plate; the suction mechanism is connected with the descending mechanism and is used for adsorbing the adhesive film.

10. The fully automatic magnetic sheet rubberizing device according to claim 8, wherein said visual lens is disposed at one side of said adhesive film pick-up mechanism, and the lens direction is aligned with said engaging mechanism for positioning the adhesive film at the position of said engaging mechanism.