CN214027288U - Paster device - Google Patents

Abstract

The application discloses a paster device. The paster device comprises an installation plate, a material belt transfer mechanism, a product to be pasted transfer mechanism, a peeling mechanism and a pressing mechanism. The material belt transfer mechanism is arranged on the mounting plate and used for transferring the material belt. The to-be-pasted product transfer mechanism is arranged on the mounting plate and used for transferring to-be-pasted products. The stripping mechanism is arranged on the mounting plate and used for stripping the sheet materials from the material belt. The pressing mechanism is arranged on the mounting plate and used for pressing the stripped flaky material on a product to be pasted with the patch. The application provides a technical scheme it can set up the sheet material on treating the paster product accurately, and does not produce the bubble.

Description

Paster device

Technical Field

The application relates to the technical field of patches, in particular to a patch device.

Background

The mask becomes a necessary article for people in special periods, such as epidemic situations, and is not only a life, but also a work or a study. In order to ensure the comfort of the mask, the mask is provided with a silica gel pad/sponge strip at the nose bridge part; however, in the manufacturing process of the mask, air bubbles can be generated between the silica gel pad/sponge strip and the mask, or the silica gel pad/sponge strip can not be accurately arranged on the nose bridge strip of the mask, so that the comfort level is not good.

SUMMERY OF THE UTILITY MODEL

The application provides a paster device, it can set up the sheet material accurately on treating the paster product, and does not produce the bubble.

In a first aspect, the present invention provides a patch device, including:

mounting a plate;

the material belt transfer mechanism is arranged on the mounting plate and used for transferring the material belt;

the to-be-pasted product transferring mechanism is arranged on the mounting plate and used for transferring the to-be-pasted product;

the stripping mechanism is arranged on the mounting plate and is used for stripping the sheet materials from the material belt; and

and the pressing mechanism is arranged on the mounting plate and is used for pressing the stripped flaky material on the product to be pasted with the patch.

In the implementation process, the material belt is arranged on the material belt transfer mechanism, and under the work of the material belt transfer mechanism, the material belt advances along the material belt transfer path. The product to be pasted is arranged on the product to be pasted transferring mechanism, and under the operation of the product to be pasted transferring mechanism, the product to be pasted advances along the transferring path of the product to be pasted. The material area is at the in-process of transferring, and the sheet material on the material area can be peeled off in peeling means department, and the sheet material of being peeled off can laminate with the paster position of treating the paster product accurately under the work of pressing mechanism, accomplishes the paster, guarantees to treat the wearing comfort level of paster product. In an actual working condition, the material belt is moved for a certain distance, part of the sheet-shaped material can be separated from the material belt through the action of the stripping mechanism, and the material belt moving mechanism stops working; meanwhile, the product to be pasted is transferred for a certain distance, so that the position of the paste on the product to be pasted corresponds to the part of the flaky material separated from the material belt, and the transfer mechanism of the product to be pasted stops working as well; the pressing mechanism works to accurately press the part of the sheet material separated from the material belt on the position of the patch so that the sheet material and the patch material are mutually attached; and then, the material belt transfer mechanism and the product transfer mechanism to be pasted continue to work, the material belt and the product to be pasted continue to advance, the rest flaky material is peeled from the material belt under the action of the peeling mechanism and the pressing mechanism and is completely pasted on the position of the pasting, no air bubble is generated between the rest flaky material and the pasting position, the pasting is completed, and then the pressing mechanism is reset to prepare for the next pasting.

In an alternative embodiment, the sheet device further comprises a sheet material sensor disposed on the mounting plate for detecting the sheet material and generating a first control signal, the sheet material sensor feeding the first control signal back to the central control system.

In the process of realizing, the flaky material sensor is arranged on the material belt transferring path, and when the flaky material sensor detects the flaky material, the flaky material sensor feeds back a first control signal to the central control system to drive the material belt transferring mechanism to transfer the material belt to a specific distance so as to control the length of the flaky material peeled by the peeling mechanism, thereby ensuring the accurate fitting of the flaky material and the paster position of the product to be pasted.

In an optional embodiment, the patch device further includes a patch position sensor disposed on the mounting plate for detecting a position of the patch and generating a second control signal, and the patch position sensor feeds the second control signal back to the central control system.

In the process of realizing, the paster position sensor is arranged on a transfer path of the paster product, when the paster position sensor senses the paster position, a second control signal is fed back to the central control system, the paster product transfer mechanism is driven to transfer the paster product to a specific distance, so that the sheet material corresponds to the sheet material, and the accurate fitting of the sheet material and the paster position is ensured.

In an alternative embodiment, the tape transfer mechanism comprises an unwinding shaft, a tape passing roller assembly and a tape drive assembly;

the unwinding shaft, the material belt passing roller assembly and the material belt driving assembly are all arranged on the mounting plate;

the material belt is coiled on the unwinding shaft and is arranged on the material belt passing roller assembly and the stripping mechanism in a penetrating mode, and the material belt is driven to advance by the material belt driving assembly.

In the implementation process, the material belt is arranged on the unwinding shaft in a roll shape, the end part of the material belt penetrates through the material belt passing roller assembly and the stripping mechanism to the material belt driving assembly, and the material belt is transferred and moved forward when the material belt driving assembly works; wherein the material area crosses the roller subassembly and provides tension for the material area to and confirm the material area and transfer the route, guarantee that the flaky material on the material area can be peeled off by peeling mechanism.

In an alternative embodiment, the tape drive assembly comprises a tape drive part and a take-up shaft structure;

the material belt driving part is positioned at the upstream of the winding shaft structure and used for driving the material belt to move, and the flaky materials are peeled by the peeling mechanism under the driving of the material belt driving part;

the winding shaft structure is used for winding the material belt.

In the implementation process, in the working process of the chip mounting device, the material belt driving part works to drive the material belt to transfer a certain distance, and the stripping mechanism is matched to separate part of the flaky materials from the material belt, so that the pressing mechanism works to accurately press the part of the flaky materials separated from the material belt onto the chip mounting position, then the material belt driving part continues to work, and the rest part of the flaky materials is completely attached to a product to be chip mounted; at the moment, a waste belt without sheet materials is generated, and the winding shaft structure works to wind the waste belt, so that the waste belt is convenient to collect; the material belt driving part and the winding shaft structure are clear in division of labor, so that the sheet material can be favorably carried out from partial peeling to complete fitting on a product to be pasted, the quality and the accuracy of pasting of the sheet material and the product to be pasted are ensured, and meanwhile, an old material belt is timely recycled.

In an optional embodiment, the tape drive assembly further comprises a buffer part, and the buffer part is arranged between the tape drive part and the winding shaft structure;

the buffer part comprises a buffer slide rail, a gravity slide block, an induction sheet, a top inductor and a bottom inductor;

the buffer slide rail is arranged on the mounting plate in the vertical direction;

the gravity sliding block is slidably arranged on the buffer sliding rail and has a vertical downward movement trend under the action of gravity, and the material belt penetrates through the gravity sliding block;

the top end inductor and the bottom end inductor are arranged on the mounting plate at intervals along the vertical direction;

the gravity slider is located to the response piece, along with the motion of gravity slider to trigger top inductor and bottom inductor respectively.

In the implementation process, the cache part is used for caching the material belt driven to advance by the material belt driving part so as to control the frequency of the chip-shaped material to be attached to the product to be attached by the chip-attaching device; illustratively, in an initial state, the gravity slider is under the tension of the material belt and is positioned at the top end of the buffer memory slide rail, the sensing piece triggers the top end sensor, the top end sensor can feed back a signal to the material belt driving part to control the material belt driving part to work so as to drive the material belt to transfer a certain distance for stripping part of sheet materials, and at the moment, due to the transfer of the material coil, the tension of the gravity slider is reduced, and the gravity slider can slide downwards for a certain distance; along with the work of material area drive division, complete sheet material laminating is in when treating the paster product, the gravity slider can slide to the bottom of buffer memory slide rail, the response piece triggers the bottom inductor, the bottom inductor can be to the rolling axle structure feedback signal, in order to control rolling axle structure work, retrieve the waste material book of current production, and simultaneously, the gravity slider can be when the rolling is taken to the material, the top of buffer memory slide rail is returned to again under the effect of material area tension, in order to repeat above-mentioned engineering, accomplish the paster work of next bridge of the nose pad.

In an alternative embodiment, the pressing mechanism comprises a cylinder, a pressing roller and a pressing roller;

the cylinder is fixed in on the mounting panel, and the execution end and the compression roller of cylinder are connected for order about the compression roller and go up and down, be used for the flaky material that will be peeled off with wait that the paster product supports and holds in the pressfitting roller.

In the implementation process, the air cylinder drives the compression roller to rise, the compression roller acts on the stripped flaky material and the product to be pasted, and the flaky material and the product to be pasted are abutted to the pressing roller together, so that the lamination of the flaky material and the product to be pasted is realized; after the paster is in place, the air cylinder drives the compression roller to descend to prepare for next paster.

In an alternative embodiment, the end of the pressing roller is provided with a roller for rolling contact with the sheet material and supporting the sheet material and the product to be pasted on the pressing roller.

In the process of the realization, the compression roller acts on the sheet material and the product to be pasted through the roller, so that the material belt and the product to be pasted continuously advance is facilitated, the residual sheet material is ensured to be accurately and uniformly pasted on the product to be pasted through stress, and the quality of the pasted product is ensured.

In an alternative embodiment, the stripping mechanism comprises a stripping plate, and the stripping plate is obliquely arranged on the mounting plate;

the peeling end of the peeling plate is positioned between the pressing roller and the pressing roller.

In the implementation process, the material belt penetrates through the stripping plate, the sheet material is stripped at the stripping end along with the advance of the material belt, and the stripped sheet material enters a space between the press roller and the press roller along with the advance of the material belt due to the inclined arrangement of the stripping plate, so that the paster product is accurately pressed on the press roller under the action of the press roller.

In an alternative embodiment, the placement device further comprises a table and a sled slide assembly;

the mounting plate is slidably arranged on the workbench through the sliding rail sliding seat assembly;

the slide rail slide carriage assembly has a configuration adjustment portion for adjusting the relative position of the mounting plate with respect to the table.

In the process of realizing, when the power source of the paster product transferring mechanism is arranged outside the mounting plate, the mounting plate moves relative to the workbench along the slide rail slide seat assembly through controlling the adjusting part, so that the forward posture of the paster product is adjusted, and the accuracy of the paster is facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a perspective view of the patch device of this embodiment;

FIG. 2 is a front view of the patch device in this embodiment;

FIG. 3 is a schematic diagram of the operation of the patch device in this embodiment;

FIG. 4 is a rear view of the patch device of this embodiment;

FIG. 5 is an enlarged view taken at V in FIG. 3;

fig. 6 is an enlarged view taken at vi in fig. 2.

Icon: 10-a patch device; 11-a mounting plate; 12-a material belt transfer mechanism; 13-a transfer mechanism for the product to be pasted; 14-a peeling mechanism; 15-a pressing mechanism; 16-a sheet material sensor; 17-patch position sensor; 18-unwinding the reel; 19-the strip pass roller assembly; 20-a tape drive assembly; 21-passing the first material belt through a roller; 22-passing the second material belt through a roller; 23-passing a third material belt through a roller; 24-a material belt driving part; 25-a wind-up shaft structure; 26-a cache section; 27-cache slide; 28-gravity slide block; 29-a sensing piece; 30-a top inductor; 31-a bottom end inductor; 32-cylinder; 33-a press roll; 34-a stitching roller; 35-a roller; 36-a peel plate; 37-a workbench; 38-a slide carriage assembly; 39-an adjustment section; 40-the product to be pasted is moved through the roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present application, it is to be understood that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, refer to the orientation or positional relationship as shown in the drawings, or as conventionally placed in use of the product of the application, or as conventionally understood by those skilled in the art, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be considered as limiting the present application.

In the description of the embodiments of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The technical solution in the present application will be described below with reference to the accompanying drawings.

The present embodiment provides a sheet attaching device 10 capable of accurately setting a sheet material at a position of attaching a sheet material to a product to be attached, without generating air bubbles.

Referring to fig. 1 to 4, fig. 1 is a perspective view of a patch device 10 in the present embodiment, fig. 2 is a front view of the patch device 10 in the present embodiment, fig. 3 is a schematic working diagram of the patch device 10 in the present embodiment, and fig. 4 is a rear view of the patch device 10 in the present embodiment.

The sheet attaching device 10 includes a mounting plate 11, a material belt transfer mechanism 12, a transfer mechanism 13 for a product to be attached with sheets, a peeling mechanism 14, and a pressing mechanism 15.

The tape transfer mechanism 12 is provided on the mounting plate 11 and is used for transferring a tape.

The to-be-pasted-sheet product transfer mechanism 13 is arranged on the mounting plate 11 and used for transferring to-be-pasted-sheet products.

A peeling mechanism 14 is provided to the mounting plate 11 for peeling the sheet material from the web.

The pressing mechanism 15 is disposed on the mounting plate 11 and is used for pressing the peeled sheet material onto a product to be pasted.

The paster means that a sheet material (a silica gel pad/a sponge strip) is attached to a product to be pasted. In the above implementation process, the material belt is disposed on the material belt transfer mechanism 12, and under the operation of the material belt transfer mechanism 12, the material belt advances along the material belt transfer path. The product to be pasted is arranged on the product to be pasted transferring mechanism 13, and under the operation of the product to be pasted transferring mechanism 13, the product to be pasted advances along the transferring path of the product to be pasted. In fig. 3, the arrows are used to illustrate: "a" indicates a transfer path of the tape; the arrow with the icon "B" indicates the path of transfer of the product to be sheeted.

In the transferring process of the material belt, the sheet material on the material belt can be peeled off at the peeling mechanism 14, and the peeled nose piece gasket can be accurately attached to the position of the patch of the product to be patch under the work of the pressing mechanism 15, so that the patch is completed.

In one practical situation, for example, the tape is moved a certain distance, and the strip material moving mechanism 12 stops working when the strip material moving mechanism 14 is operated and a portion of the sheet material is separated from the tape; meanwhile, the product to be pasted is transferred for a certain distance, so that the position of the paste on the product to be pasted corresponds to the part of the flaky material separated from the material belt, and the transfer mechanism 13 of the product to be pasted stops working as well; under the condition that the two materials stop advancing, the pressing mechanism 15 works to accurately press the part of the sheet materials separated from the material belt onto the position of the patch so as to mutually fit the two materials; subsequently, the material belt transfer mechanism 12 and the product to be pasted transfer mechanism 13 both continue to work, the material belt and the product to be pasted continue to advance, so that the residual sheet material is peeled off from the material belt under the action of the peeling mechanism 14 and the pressing mechanism 15 and is completely attached to the position of the pasting, no air bubble is generated between the two, the pasting is completed, and then the pressing mechanism 15 resets to prepare for the next pasting.

It should be noted that the sheet material may include silica gel pad or sponge strip, and treat that the paster product can be the gauze mask, and the paster position indicates the position of nose bridge strip on the gauze mask, through paster device 10, it can set up silica gel pad or sponge strip on the nose bridge strip of gauze mask accurately, and does not produce the bubble, improves the comfort level of wearing of gauze mask.

In the present disclosure, the sheet device 10 further includes a sheet sensor 16 disposed on the mounting plate 11 for detecting the sheet material and generating a first control signal, and the sheet sensor 16 feeds the first control signal back to the central control system.

In the implementation process, the sheet material sensor 16 is disposed on the material belt transfer path, and when the sheet material sensor 16 detects a sheet material, the first control signal is fed back to the central control system to drive the material belt transfer mechanism 12 to transfer the material belt to a specific distance, so as to control the length of the sheet material peeled by the peeling mechanism 14, and ensure accurate attachment of the sheet material to the patch position.

In the present disclosure, the patch device 10 further includes a patch position sensor 17 disposed on the mounting plate 11 for detecting a patch position and generating a second control signal, and the patch position sensor 17 feeds the second control signal back to the central control system.

In the process of the realization, the patch position sensor 17 is arranged on a transfer path of the patch product, and when the patch position sensor 17 senses the patch position, the second control signal is fed back to the central control system to drive the patch product transfer mechanism 13 to transfer the patch product to a specific distance, so that the patch position corresponds to the sheet material, and the sheet material is accurately attached to the patch position.

In the present disclosure, the tape transfer mechanism 12 includes an unwinding shaft 18, a tape passing roller assembly 19, and a tape drive assembly 20.

The unwind spool 18, the tape passing roller assembly 19, and the tape drive assembly 20 are all disposed on the mounting plate 11. The roll of tape is placed on the unwind shaft 18 and threaded onto the tape pass-through roller assembly 19 and the peeling mechanism 14, and advanced by the tape drive assembly 20.

In the above implementation process, the material belt is arranged on the unwinding shaft 18 in a roll shape, the end part of the material belt passes through the material belt passing roller assembly 19 and the peeling mechanism 14 to the material belt driving assembly 20, and the material belt is transferred and advanced when the material belt driving assembly 20 works; wherein the tape passing roller assembly 19 provides tension to the tape and defines a tape transfer path that ensures that the sheet material on the tape can be peeled off by the peeling mechanism 14.

Referring to fig. 1, 2 and 3, the tape pass-through roller assembly 19 includes a first tape pass-through roller 21, a second tape pass-through roller 22 and a third tape pass-through roller 23. The stripping mechanism 14 is located between the first strip-passing roller 21 and the second strip-passing roller 22, and provides tension for the strip, and changes the advancing direction of the strip, so as to realize stripping of the sheet-shaped material. The tape is guided to the tape drive assembly 20 via a third tape passing roller 23.

In the present disclosure, the tape drive assembly 20 includes a tape drive 24 and a take-up reel structure 25. The tape driving part 24 is located upstream of the winding shaft structure 25 and is used for driving the tape to move, and the sheet-shaped material is peeled by the peeling mechanism 14 under the driving of the tape driving part 24. The winding shaft structure 25 is used for winding the material belt.

In the implementation process, in the working process of the patch device 10, the material belt driving portion 24 may receive the first control signal and then work to drive the material belt to move a certain distance, and cooperate with the peeling mechanism 14 to separate a part of the sheet material from the material belt, so that the pressing mechanism 15 works to precisely press the part of the sheet material separated from the material belt onto the patch position, and then the material belt driving portion 24 continues to work, and the rest of the sheet material is completely attached to the product to be patch; at this time, a waste tape without sheet materials is generated, and the winding shaft structure 25 works to wind the waste tape so as to facilitate the collection of the waste tape; the above-described material belt driving portion 24 and the winding shaft structure 25 are clearly separated, which is beneficial to executing the work of partially stripping the sheet material to completely attaching the sheet material to the product to be attached, so as to ensure the quality and accuracy of the sheet material and the product to be attached, and simultaneously, to recover the old material belt in time.

It should be noted that, in the present disclosure, the unwinding shaft 18 has no power output, the forward power and the winding power of the tape are provided by the tape driving portion 24 and the winding shaft structure 25, and fig. 4 shows the power output devices of the tape driving portion 24 and the winding shaft structure 25, which may be motors or the rotating cylinders 32.

Referring back to fig. 1-3 in conjunction with fig. 5, fig. 5 is an enlarged view of v in fig. 3.

In the present disclosure, the tape drive assembly 20 further includes a buffer portion 26, and the buffer portion 26 is disposed between the tape drive portion 24 and the winding shaft structure 25.

The buffer part 26 comprises a buffer slide rail 27, a gravity slide 28, a sensing piece 29, a top sensor 30 and a bottom sensor 31.

The buffer slide rail 27 is vertically arranged on the mounting plate 11. The gravity slider 28 is slidably disposed on the buffer slide rail 27, and has a vertical downward movement trend under the action of gravity, and the material belt is disposed on the gravity slider 28 in a penetrating manner.

The top end inductor 30 and the bottom end inductor 31 are provided at intervals in the vertical direction on the mounting plate 11. The sensing piece 29 is disposed on the gravity slider 28 and moves with the gravity slider 28 to trigger the top sensor 30 and the bottom sensor 31, respectively.

In the implementation process, the buffer unit 26 is configured to buffer the material tape driven to advance by the material tape driving unit 24, so as to control the frequency of the chip mounting device 10 for attaching the sheet material to the product to be mounted; illustratively, in an initial state, the gravity slider 28 is under the tension of the material tape and is located at the top end of the buffer slide rail 27, the sensor sheet 29 triggers the top end sensor 30, the top end sensor 30 can feed back a signal to the material tape driving portion 24 to control the material tape driving portion 24 to work, so as to drive the material tape to move a certain distance for peeling off a part of the sheet material, at this time, due to the movement of the material roll, the tension thereof is reduced, and the gravity slider 28 will slide downward a certain distance; along with the work of material area drive division 24, complete sheet material laminating is in when treating the paster product, gravity slider 28 can slide to buffer memory slide rail 27's bottom, response piece 29 triggers bottom inductor 31, bottom inductor 31 can be to the feedback signal of rolling axle structure 25, in order to control rolling axle structure 25 work, retrieve the waste material book of current production, and simultaneously, gravity slider 28 can be when the material area rolling, the effect of material area tension is the top of returning to buffer memory slide rail 27 again down, in order to repeat above-mentioned engineering, accomplish the paster work of next bridge of the nose pad.

In the present disclosure, the pressing mechanism 15 includes an air cylinder 32, a pressing roller 33, and a pressing roller 34;

the cylinder 32 is fixed on the mounting plate 11, and an execution end of the cylinder 32 is connected with the press roller 33, and is used for driving the press roller 33 to lift, and is used for abutting the stripped sheet material and the product to be pasted on the pressing roller.

In the implementation process, the air cylinder 32 drives the compression roller 33 to ascend, acts on the stripped sheet material and the product to be pasted, and enables the stripped sheet material and the product to be pasted to be abutted against the pressing roller together, so that the sheet material and the product to be pasted are attached; after the patch is in place, the air cylinder 32 drives the compression roller 33 to descend to prepare for next patch mounting.

Please refer to fig. 6, wherein fig. 6 is an enlarged view of vi in fig. 2.

The end of the press roller 33 is provided with a roller 35 for rolling contact with the sheet material and pressing the sheet material and the product to be pasted against the press roller.

In the process of realizing, the pressing roller 33 acts on the flaky material and the product to be pasted through the roller 35, so that the material belt and the product to be pasted continuously advance is facilitated, the residual flaky material is accurately attached to the product to be pasted under stress, and the quality of the pasted product is ensured.

In the present disclosure, the peeling mechanism 14 includes a peeling plate 36, and the peeling plate 36 is obliquely provided on the mounting plate 11. The peeling end of the peeling plate 36 is between the pressure roller 33 and the nip roller 34.

In the implementation process, the material belt passes through the stripping plate 36, the sheet material is stripped at the stripping end along with the advance of the material belt, and as the stripping plate 36 is obliquely arranged, the stripped sheet material enters between the press roller 33 and the press roller 34 along with the advance of the material belt, and under the action of the press roller 33, the product to be pasted is accurately pressed on the press roller 34.

Referring back to fig. 1 and 2, the placement device 10 further includes a table 37 and a sled carriage assembly 38. The mounting plate 11 is slidably mounted on a table 37 by a rail slide assembly 38. The slide carriage assembly 38 has a configuration adjustment portion 39 for adjusting the relative position of the mounting plate 11 with respect to the table 37.

In the implementation process, referring to fig. 1 to 3, four to-be-pasted-product transfer rollers 40 of the to-be-pasted-product transfer mechanism 13 are disposed on the mounting plate 11, and the four to-be-pasted-product transfer rollers 40 determine a transfer path of the to-be-pasted-product. The power equipment of the to-be-pasted product transfer mechanism 13 is arranged outside the mounting plate 11, and the adjusting part 39 is controlled, so that the mounting plate 11 moves relative to the workbench 37 along the sliding rail sliding seat assembly 38, the posture of the to-be-pasted product entering the mounting plate 11 is adjusted, and the pasting precision is facilitated.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A patch device, comprising:

mounting a plate;

the material belt transfer mechanism is arranged on the mounting plate and used for transferring the material belt;

the to-be-pasted product transferring mechanism is arranged on the mounting plate and used for transferring the to-be-pasted product;

the stripping mechanism is arranged on the mounting plate and is used for stripping the sheet materials from the material belt; and

and the pressing mechanism is arranged on the mounting plate and is used for pressing the stripped flaky material on the product to be pasted.

2. A patch device as claimed in claim 1,

the chip mounting device further comprises a sheet material sensor which is arranged on the mounting plate and used for detecting the sheet material and generating a first control signal, and the sheet material sensor feeds the first control signal back to the central control system.

3. A patch device as claimed in claim 2,

the paster device further comprises a paster position sensor which is arranged on the mounting plate and used for detecting the paster position of the product with the paster and generating a second control signal, and the paster position sensor feeds the second control signal back to the central control system.

4. A patch device as claimed in claim 1,

the material belt transfer mechanism comprises an unwinding shaft, a material belt passing roller assembly and a material belt driving assembly;

the unwinding shaft, the material belt passing roller assembly and the material belt driving assembly are all arranged on the mounting plate;

the material belt roll is arranged on the unwinding shaft and penetrates through the material belt passing roller assembly and the stripping mechanism, and the material belt drive assembly drives the material belt to advance.

5. A patch device as claimed in claim 4,

the material belt driving assembly comprises a material belt driving part and a winding shaft structure;

the material belt driving part is positioned at the upstream of the winding shaft structure and used for driving the material belt to move, and the sheet-shaped material is peeled by the peeling mechanism under the driving of the material belt driving part;

the winding shaft structure is used for winding the material belt.

6. A patch device as claimed in claim 5,

the material belt driving assembly further comprises a buffer part, and the buffer part is arranged between the material belt driving part and the winding shaft structure;

the buffer part comprises a buffer slide rail, a gravity slide block, an induction sheet, a top inductor and a bottom inductor;

the buffer slide rail is arranged on the mounting plate in the vertical direction;

the gravity sliding block is slidably arranged on the buffer sliding rail and has a vertical downward movement trend under the action of gravity, and the material belt penetrates through the gravity sliding block;

the top end inductor and the bottom end inductor are arranged on the mounting plate at intervals along the vertical direction;

the sensing piece is arranged on the gravity sliding block and moves along with the gravity sliding block so as to respectively trigger the top end sensor and the bottom end sensor.

7. A patch device as claimed in claim 1,

the pressing mechanism comprises an air cylinder, a pressing roller and a pressing roller;

the cylinder is fixed on the mounting plate, and the execution end of the cylinder is connected with the press roll, is used for driving the press roll to lift, and is used for supporting the stripped sheet material and the product to be pasted on the pressing roller.

8. A patch device as claimed in claim 7,

and the end part of the press roller is provided with a roller which is used for rolling and contacting with the sheet material and supporting the sheet material and the product to be pasted on the pressing roller.

9. A patch device as claimed in claim 7,

the stripping mechanism comprises a stripping plate, and the stripping plate is obliquely arranged on the mounting plate;

the peeling end of the peeling plate is positioned between the pressing roller and the pressing roller.

10. A patch device as claimed in claim 1,

the paster device also comprises a workbench and a sliding rail sliding seat assembly;

the mounting plate is slidably arranged on the workbench through a sliding rail sliding seat assembly;

the slide rail slide carriage assembly has a configuration adjustment portion for adjusting the relative position of the mounting plate with respect to the table.

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