CN218401143U - Processing system integrating feeding, assembling, film pasting and material receiving functions - Google Patents

Abstract

The utility model discloses a processing system of material function is received to collection material loading assembly pad pasting, include: the film sticking device comprises a first feeding device, a second feeding device, a third feeding device, an assembling device, a film sticking device and a receiving device, wherein the first feeding device is used for providing an assembling material belt for the assembling device; the second feeding device is used for providing a second assembly part for the assembly device; the assembling device is used for assembling the second assembling part on the first assembling part of the assembling material belt and providing the assembling material belt assembled with the second assembling part for the film sticking device; the third feeding device is used for providing a film pasting material belt for the film pasting device; the film sticking device is used for sticking the film sticking material belt to the ingredient belt matched with the second assembly part through the adhesive strip; the material receiving device is used for collecting the assembly material belt attached with the film pasting material belt. The processing system can automatically complete the functions of feeding, assembling, film pasting, material receiving and the like.

Description

Processing system integrating feeding, assembling, film pasting and material receiving functions

Technical Field

The utility model relates to a precision processing field especially relates to a processing system of material function is received to collection material loading assembly pad pasting.

Background

In the industry fields of electronics and electrician industry, automobile manufacturing industry, flat panel display industry and the like, two or more precise parts are often assembled together to form an assembly body, and then the assembly body is assembled in a terminal. Some precision parts including the die-cutting part and the plastic part are still assembled by adopting a jig and manual operation during assembly, and the assembly efficiency and the assembly precision are very low.

Chinese patent No. CN201921412352.2 discloses an assembling and bonding device for assembling and bonding a product with adhesive with a protective film on one side and a product to be bonded with adhesive; the assembling and fitting device comprises a lower die assembly and an upper die assembly; the product to be attached is positioned on the lower die assembly, the product with the adhesive is positioned on the upper die assembly, and the adhesive layer of the product with the adhesive faces outwards; the upper die assembly can rotate so as to be matched with the lower die assembly and enable the product with the adhesive to be attached to the product to be attached; the upper die assembly is provided with a vacuum suction nozzle for tearing off the protective film; the upper die assembly further comprises a positioning groove matched with the adhesive product, and the vacuum suction nozzle is arranged at the positioning groove; the lower die assembly is provided with a positioning block/positioning groove for positioning a product to be attached. This equipment laminating device makes the product of taking glue and wait to laminate the product through rotatory and counterpoint the laminating, increases vacuum generator and makes the product of taking glue fixed, and pneumatic vacuum suction nozzle accomplishes and tears the mould action. The size of the assembled product is accurate, and the appearance is attached to be smooth. The operation is simple and convenient, and the production efficiency, and the stability and consistency of the quality are improved.

Before the assembly and the attachment of the adhesive tape product and the product to be attached, manual feeding of the adhesive tape product and the product to be attached is needed, a release film needs to be manually torn off the surface of the adhesive tape product, manual collection of the adhesive tape product and the product to be attached needs to be carried out after the adhesive tape product and the product to be attached are assembled and attached, a protective film needs to be manually covered in order to avoid deviation of the product to be attached on the adhesive tape product in subsequent collection and transportation processes, and the processing steps still need to be manually completed.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a processing system which can automatically complete the functions of feeding, assembling, film pasting, material receiving and the like.

The utility model discloses the technical problem that will solve realizes through following technical scheme:

the utility model provides a processing system that material function is received to collection material loading assembly pad pasting, includes: first loading attachment, second loading attachment, third loading attachment, assembly quality, pad pasting device and material collecting device, wherein

The first feeding device is used for providing an assembly material belt for the assembly device, and the assembly material belt comprises a material belt film and a plurality of first assembly parts attached to the material belt film;

the second feeding device is used for providing a second assembly part for the assembly device;

the assembling device is used for assembling the second assembling part on the first assembling part of the assembling material belt and providing the assembling material belt assembled with the second assembling part for the film sticking device;

the third feeding device is used for providing a film pasting material belt for the film pasting device, and the film pasting material belt comprises a protective film and adhesive strips attached to two sides of the protective film;

the film sticking device is used for sticking the film sticking material belt to the ingredient belt matched with the second assembly part through the adhesive strip;

the material receiving device is used for collecting the assembly material belt attached with the film pasting material belt.

Further, the first feeding device comprises a first feeding assembly and a first film tearing assembly which are oppositely arranged, wherein the first feeding assembly and the first film tearing assembly are oppositely arranged

The first feeding assembly is used for loading the assembly material belt in a roll for feeding, and the loaded assembly material belt further comprises a first release film attached to the first assembly part;

the first film tearing assembly is used for tearing off the first release film on the assembly material belt when the first feeding assembly supplies materials.

Further, the second feeding device comprises a feeding vibration disc, a feeding direct vibration table and a loading die assembly which are sequentially connected, wherein the feeding vibration disc, the feeding direct vibration table and the loading die assembly are sequentially connected

The feeding vibration disc is used for feeding the second assembly parts into the feeding vertical vibration table in sequence, the bottom of the feeding vibration disc is provided with a seismic source, the inner side wall of the feeding vibration disc is provided with a spiral feeding groove, the top of the feeding vibration disc is provided with at least one first optical fiber sensor and at least one second optical fiber sensor, the side wall of the feeding vibration disc is provided with at least one first air blowing hole and at least one second air blowing hole, the first optical fiber sensor is used for detecting the front and back surfaces of the second assembly parts on the feeding groove, the first air blowing hole is used for blowing off the second assembly parts of which the front and back surfaces are not in compliance on the feeding groove, one first optical fiber sensor corresponds to one first air blowing hole, the optical fiber sensor is used for detecting the orientation of the second assembly parts on the feeding groove, the second air blowing hole is used for blowing off the second assembly parts of which the front and back surfaces are not in compliance on the feeding groove, and one second optical fiber sensor corresponds to one second air blowing hole;

the feeding vertical vibration table is used for continuously feeding the second assembly parts fed by the feeding vibration disc into the loading die assembly;

the material loading die assembly is used for loading a second assembly part sent by the material loading vertical vibration table for being taken away by the assembly device.

Furthermore, the material loading die assembly comprises a material loading die, a material loading sliding rail and a material loading driver, and a plurality of material loading notches are formed in one side edge, facing the material loading straight vibration table, of the material loading die; the loading die is arranged on the loading slide rail and can move on the loading slide rail; the loading driver is connected with and drives the loading die to move on the loading slide rail, so that a plurality of loading notches on the loading die are sequentially aligned with the discharge hole of the feeding vertical vibration table.

Further, the assembling device comprises a conveying assembly and an assembling assembly, wherein

The conveying assembly comprises a conveying bottom plate, and two conveying mechanisms and two limiting mechanisms which are respectively arranged on the front end and the rear end of the conveying bottom plate, wherein the conveying mechanisms are used for driving the assembling material belt on the conveying bottom plate to be conveyed forwards, and the limiting mechanisms are used for limiting the relative position of the assembling material belt on the conveying bottom plate;

the assembly component comprises a suction head moving mechanism and a lifting suction head mechanism arranged on the suction head moving mechanism, the suction head moving mechanism is used for driving the lifting suction head mechanism to move, and the lifting suction head mechanism is used for sucking and assembling the second assembly part.

Furthermore, the conveying mechanism comprises a first conveying wheel, two conveying pressing wheels, a conveying pressing shaft and two first pressure regulators, the first conveying wheel and the two conveying pressing wheels are oppositely arranged on the upper side and the lower side of the conveying bottom plate, the two conveying pressing wheels are coaxially connected to the conveying pressing shaft and are respectively arranged on the left side and the right side of the assembling material belt, and the first conveying wheel and the two conveying pressing wheels are jointly pressed on the two sides of the assembling material belt; the two first pressure regulators are arranged on the conveying bottom plate and are respectively connected with two ends of the conveying pressing shaft so as to apply downward adjustable pressure to the two conveying pressing wheels through the conveying pressing shaft; stop gear includes two first stoppers, set up the first mounting groove that the left right direction extends on the both ends respectively around the conveyor shoe, two first stoppers of same stop gear install in the first mounting groove that corresponds, and can be adjusting mounted position in the first mounting groove, one side of first mounting groove is provided with first scale.

Further, the lifting suction head mechanism comprises a plurality of groups of vacuum suction heads, a lifting slide rail and a lifting driver, the vacuum suction heads are arranged on the lifting slide rail, the lifting driver is connected with and drives the vacuum suction heads to lift on the lifting slide rail, and the vacuum suction heads are used for sucking and assembling the second assembly parts through vacuum negative pressure; the sucker moving mechanism comprises a first moving slide rail arranged along a first horizontal direction, a second moving slide rail arranged along a second horizontal direction, a first moving driver and a second moving driver, wherein the second moving slide rail is arranged on the first moving slide rail, and the first moving driver is connected with and drives the second moving slide rail to move on the first moving slide rail; the lifting sucker mechanism is arranged on the second movable slide rail, and the second movable driver connector drives the lifting sucker to move on the second movable slide rail; the first horizontal direction is perpendicular to the second horizontal direction.

Further, the third feeding device comprises a third feeding assembly and a second film tearing assembly which are oppositely arranged, wherein the third feeding assembly and the second film tearing assembly are oppositely arranged

The third feeding assembly is used for loading the film-coated material belt in a roll for feeding, and the loaded film-coated material belt further comprises a second release film attached to the adhesive strip;

the second film tearing assembly is used for tearing off the second release film on the film pasting material belt when the third feeding assembly supplies materials.

Further, the film sticking device comprises a film sticking bottom plate, and two film sticking assemblies and two limiting assemblies which are respectively arranged on the front end and the rear end of the film sticking bottom plate, wherein the film sticking assemblies are used for sticking the film sticking material belt provided by the third feeding device to the material loading belt provided by the assembling device through sticky strips of the film sticking assemblies; the limiting assembly is used for limiting the relative positions of the film pasting material belt and the assembling material belt on the film pasting bottom plate.

Furthermore, the film pasting component comprises a second conveying wheel, two film pasting pinch rollers, a film pasting press shaft and two second pressure regulators, the second conveying wheel and the two film pasting pinch rollers are oppositely arranged on the upper side and the lower side of the film pasting bottom plate, the two film pasting pinch rollers are coaxially connected to the film pasting press shaft and are respectively arranged on the left side and the right side of the film pasting material belt and the assembling material belt, and the second conveying wheel and the two film pasting pinch rollers jointly press the two sides of the film pasting material belt and the assembling material belt; the two second pressure regulators are arranged on the film pasting bottom plate and are respectively connected with two ends of the film pasting pressing shaft so as to apply downward adjustable pressure to the two film pasting pressing wheels through the film pasting pressing shaft; the limiting assembly comprises two second limiting blocks, second mounting grooves extending in the left-right direction are formed in the front end and the rear end of the film base plate respectively, the two second limiting blocks of the same limiting assembly are mounted in the corresponding second mounting grooves and can be adjusted to mounting positions in the second mounting grooves, and a second graduated scale is arranged on one side of each second mounting groove.

The utility model discloses following beneficial effect has: according to the processing system, in the assembly stage, the first assembly part and the second assembly part are respectively and automatically loaded through the first loading device and the second loading device, the assembly between the first assembly part and the second assembly part is automatically completed through the assembly devices, in the film pasting stage, the protection film is automatically loaded through the third loading device, the protection film is automatically pasted on the first assembly part and the second assembly part through the film pasting device, and finally the first assembly part and the second assembly part which are assembled and pasted with the protection film are automatically received through the receiving device, so that the full-automatic processing processes of loading, assembly, film pasting, receiving and the like between the first assembly part and the second assembly part are realized, and the processing efficiency is extremely high.

Drawings

Fig. 1 is a plan view of a processing system provided by the present invention;

fig. 2 is an elevation view of a processing system provided by the present invention;

fig. 3 is a schematic view of the assembly material belt and the film-coated material belt in the processing system provided by the present invention;

fig. 4 is a cross-sectional view of the processing system provided by the present invention after the assembly material belt and the film-coated material belt are laminated;

fig. 5 is a schematic view of a second feeding device in the processing system provided by the present invention;

fig. 6 is a schematic view of a material-taking module in the processing system provided by the present invention;

fig. 7 is a schematic view of an assembly device in a processing system according to the present invention;

fig. 8 is a schematic view of a conveying assembly in a processing system provided by the present invention;

fig. 9 is a schematic view of a conveying mechanism in the processing system provided by the present invention;

fig. 10 is a schematic view of a limiting mechanism in the processing system provided by the present invention;

fig. 11 is a schematic view of a film sticking device in the processing system provided by the present invention;

fig. 12 is a schematic view of a film sticking assembly in the processing system provided by the present invention;

fig. 13 is a schematic view of a limiting component in the processing system provided by the present invention.

Detailed Description

The invention is described in detail below with reference to the drawings, wherein examples of the embodiments are shown in the drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, 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 used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

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

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be interconnected between two elements or may be in an interactive relationship between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Example one

As shown in fig. 1 to 4, a processing system integrating functions of feeding, assembling, film sticking and receiving comprises: a first feeding device 1, a second feeding device 2, a third feeding device 3, an assembling device 4, a film sticking device 5 and a material receiving device 6, wherein

The first loading device 1 is used for providing an assembly material belt 7 for the assembling device 4, and the assembly material belt 7 comprises a material belt film 71 and a plurality of first assembling pieces 72 attached to the material belt film 71;

the second feeding device 2 is used for providing a second assembly part 9 for the assembly device 4;

the assembling device 4 is used for assembling the second assembling part 9 on the first assembling part 72 of the assembling material belt 7 and providing the assembling material belt 7 assembled with the second assembling part 9 for the film sticking device 5;

the third feeding device 3 is used for providing a film pasting material belt 8 for the film pasting device 5, and the film pasting material belt 8 comprises a protective film 81 and adhesive strips 82 attached to two sides of the protective film 81;

the film sticking device 5 is used for sticking the film sticking material belt 8 to the assembly material belt 7 provided with the second assembly part 9 through the adhesive strip 82;

the receiving device 6 is used for collecting the assembly material belt 7 attached with the film material belt 8.

In the assembly stage, the first assembly part 72 and the second assembly part 9 are automatically loaded through the first loading device 1 and the second loading device 2 respectively, the assembly between the first assembly part 72 and the second assembly part 9 is automatically completed through the assembly device 4, in the film pasting stage, the protection film 81 is automatically loaded through the third loading device 3, the protection film 81 is automatically pasted on the first assembly part 72 and the second assembly part 9 through the film pasting device 5, and finally the first assembly part 72 and the second assembly part 9 which are assembled and pasted with the protection film 81 are automatically received through the receiving device 6, so that the full-automatic processing processes of loading, assembly, film pasting, receiving and the like between the first assembly part 72 and the second assembly part 9 are realized, and the processing efficiency is high.

As shown in fig. 5, the second feeding device 2 comprises a feeding vibration disc 21, a feeding vertical vibration table 22 and a loading die assembly 23 which are connected in sequence, wherein the feeding vibration disc, the feeding vertical vibration table and the loading die assembly are connected in sequence, and the feeding vibration disc 21, the feeding vertical vibration table 22 and the loading die assembly 23 are connected in sequence

The feeding vibration tray 21 is used for sequentially feeding the second assembly parts 9 into the feeding vertical vibration table 22, the bottom of the feeding vibration tray is provided with a seismic source, the inner side wall of the feeding vibration tray is provided with a spiral feeding groove 211, the top of the feeding vibration tray is provided with at least one first optical fiber sensor 212 and at least one second optical fiber sensor 213, the side wall of the feeding vibration tray is provided with at least one first air blowing hole 214 and at least one second air blowing hole 215, the first optical fiber sensor 212 is used for detecting the front and back surfaces of the second assembly parts 9 on the feeding groove 211, the first air blowing hole 214 is used for blowing off the second assembly parts 9 with the front and back surfaces being not in accordance with the feeding groove 211, one first optical fiber sensor 212 corresponds to one first air blowing hole 214, the optical fiber sensor is used for detecting the orientation of the second assembly parts 9 on the feeding groove 211, the second air blowing holes 215 are used for blowing off the second assembly parts 9 with the front and back surfaces being not in accordance with the feeding groove 211, and one second optical fiber sensor 213 corresponds to one second air blowing hole 215;

the feeding vertical vibration table 22 is used for feeding the second assembly parts 9 sent by the feeding vibration disc 21 into the loading die assembly 23;

the loading die assembly 23 is used for loading the second assembly parts 9 sent by the feeding vertical vibration table 22 for being taken away by the assembly device 4.

In operation, the feeding vibration tray 21 vibrates to vibrate the second assembly member 9 on the bottom thereof into the feeding chute 211 in order, the second assembly member 9 is conveyed forward in the feeding chute 211 and sequentially passes through the first optical fiber sensor 212, the first air blowing hole 214, the second optical fiber sensor 213 and the second air blowing hole 215, the first optical fiber sensor 212 detects the front and back of the second assembly member 9 when the second assembly member 9 passes through the first optical fiber sensor 212, if the front and back of the second assembly member 9 are not in a proper state, the second assembly member 9 is blown down through the first air blowing hole 214, if the second assembly member 9 passes through the second optical fiber sensor 213, the second optical fiber sensor 213 detects the orientation of the second assembly member 9, and if the orientation of the second assembly member 9 is not in a proper state, the second assembly member 9 is blown down through the second air blowing hole 215.

The front surface of the second assembly member 9 is provided with a first identifier for the first optical fiber sensor 212 to detect and judge the front and back surfaces, and the front end of the second assembly member 9 is provided with a second identifier for the second optical fiber sensor 213 to detect and judge the orientation.

In this embodiment, the reflectivity of the first mark and the second mark is not consistent with the reflectivity of the main body of the second assembly 9, and the first optical fiber sensor 212 and the second optical fiber sensor 213 emit optical signals to the second assembly 9, and detect the first mark and the second mark according to the optical signals reflected by the second assembly 9.

The feeding vibration plate 21 is characterized in that at least two signal amplifiers, at least two air valves, an air pump, an air pressure gauge and the like are further arranged beside the feeding vibration plate 21, the signal amplifiers are connected with the corresponding first optical fiber sensors 212 and the corresponding second optical fiber sensors 213, the air valves are connected with the corresponding first air blowing holes 214 and the corresponding second air blowing holes 215, the air pump is communicated with the air valves, and the air pressure gauge is connected with the air pump.

As shown in fig. 6, the loading die assembly 23 includes a loading die 231, a loading sliding rail 232, and a loading driver 233, and a plurality of loading notches 230 are provided on one side edge of the loading die 231 facing the loading vertical vibration table 22; the loading die 231 is arranged on the loading slide rail 232 and can move on the loading slide rail 232; the loading driver 233 is connected to drive the loading mold 231 to move on the loading slide rail 232, so that the loading notches 230 on the loading mold 231 are aligned with the discharge ports of the feeding vertical vibration table 22 in sequence.

In this embodiment, the number of the material loading notches 230 is four, and the four material loading notches 230 are sequentially arranged on one side edge of the material loading die 231 facing the material loading vertical vibration table 22, one material loading notch 230 is correspondingly loaded with one second assembly part 9, that is, the material loading die 231 can simultaneously load four second assembly parts 9, and when all four material loading notches 230 are fed with the second assembly parts 9 by the material loading vertical vibration table 22, the assembling device 4 simultaneously takes away the four second assembly parts 9.

As shown in FIG. 7, the assembling device 4 comprises a conveying assembly 41 and an assembling assembly 42, wherein

As shown in fig. 8, the conveying assembly 41 includes a conveying bottom plate 411, and two conveying mechanisms 412 and two limiting mechanisms 413 respectively disposed at front and rear ends of the conveying bottom plate 411, where the conveying mechanisms 412 are configured to drive the assembly material belt 7 on the conveying bottom plate 411 to be conveyed forward, and the limiting mechanisms 413 are configured to limit relative positions of the assembly material belt 7 on the conveying bottom plate 411;

the assembly component 42 comprises a suction head moving mechanism 422 and a lifting suction head mechanism 421 arranged on the suction head moving mechanism 422, the suction head moving mechanism 422 is used for driving the lifting suction head mechanism 421 to move, and the lifting suction head mechanism 421 is used for sucking and assembling the second assembly part 9.

As shown in fig. 9, the conveying mechanism 412 includes a first conveying wheel 4121, two conveying pressing wheels 4122, a conveying pressing shaft 4123, and two first pressure regulators 4124, the first conveying wheel 4121 and the two conveying pressing wheels 4122 are disposed opposite to each other on the upper and lower sides of the conveying base plate 411, the two conveying pressing wheels 4122 are coaxially connected to the conveying pressing shaft 4123 and are disposed on the left and right sides of the assembly material tape 7, and the first conveying wheel 4121 and the two conveying pressing wheels 4122 press both sides of the assembly material tape 7 together; two first pressure regulators 4124 are disposed on the conveying base plate 411 and respectively connected to two ends of the conveying pressure shaft 4123, so as to apply downward adjustable pressure to the two conveying pressure wheels 4122 through the conveying pressure shaft 4123.

The conveying mechanism 412 further includes one or two conveying drivers 414, if there are two conveying drivers 414, the two conveying drivers 414 are respectively connected to drive the corresponding first conveying wheels 4121 to rotate, and if there is one conveying driver 414, the conveying driver 414 preferentially drives the first conveying wheel 4121 located at one end of the conveying bottom plate 411 facing the film sticking device 5 to rotate, and synchronously rotates the other first conveying wheel 4121 located at one end of the conveying bottom plate 411 facing the first feeding device 1 through the corresponding first synchronizing wheel 415 and the first synchronizing belt 416.

As shown in fig. 10, the limiting mechanism 413 includes two first limiting blocks 4131, the front end and the rear end of the conveying base plate 411 are respectively provided with a first mounting groove 4111 extending in the left-right direction, the two first limiting blocks 4131 of the same limiting mechanism 413 are mounted in the corresponding first mounting grooves 4111, the mounting position of the same limiting mechanism 413 in the first mounting groove 4111 can be adjusted, and one side of the first mounting groove 4111 is provided with a first scale 4132.

The lifting suction head mechanism 421 comprises a plurality of groups of vacuum suction heads 4211, lifting slide rails 4213 and a lifting driver 4212, wherein the vacuum suction heads 4211 are arranged on the lifting slide rails 4213, the lifting driver 4212 is connected with and drives the vacuum suction heads 4211 to lift on the lifting slide rails 4213, and the vacuum suction heads 4211 are used for sucking and assembling the second assembly part 9 through vacuum negative pressure.

In this embodiment, there are four sets of the vacuum suction head 4211, the lifting slide 4213 and the lifting driver 4212 to simultaneously suck four second assemblies 9 from the material loading mold assembly 23.

The suction head moving mechanism 422 comprises a first movable slide rail 4221 arranged along a first horizontal direction, a second movable slide rail 4222 arranged along a second horizontal direction, a first movable driver 4223 and a second movable driver 4224, wherein the second movable slide rail 4222 is arranged on the first movable slide rail 4221, and the first movable driver 4223 is connected with and drives the second movable slide rail 4222 to move on the first movable slide rail 4221; the lifting and lowering suction head mechanism 421 is arranged on the second movable slide rail 4222, and the second movable driver 4224 connector drives the lifting and lowering suction head to move on the second movable slide rail 4222; the first horizontal direction is perpendicular to the second horizontal direction.

In this embodiment, the first horizontal direction is parallel to the vertical vibration table 22.

The film sticking device 5 comprises a film sticking bottom plate 51, and two film sticking components 52 and two limiting components 53 which are respectively arranged on the front end and the rear end of the film sticking bottom plate 51, wherein the film sticking components 52 are used for sticking the film sticking material belt 8 provided by the third feeding device 3 to the assembly material belt 7 provided by the assembly device 4 through sticky strips 82 of the film sticking components; the limiting component 53 is used for limiting the relative positions of the film pasting material belt 8 and the assembling material belt 7 on the film pasting bottom plate 51.

As shown in fig. 12, the film pasting assembly 52 includes a second conveying wheel 521, two film pasting press wheels 522, a film pasting press shaft 523 and two second pressure regulators 524, the second conveying wheel 521 and the two film pasting press wheels 522 are oppositely disposed on the upper and lower sides of the film pasting bottom plate 51, the two film pasting press wheels 522 are coaxially connected to the film pasting press shaft 523 and respectively disposed on the left and right sides of the film pasting material strip 8 and the assembly material strip 7, and the second conveying wheel 521 and the two film pasting press wheels 522 jointly press the two sides of the film pasting material strip 8 and the assembly material strip 7; the two second pressure regulators 524 are disposed on the film base plate 51, and are respectively connected to two ends of the film pressing shaft 523, so as to apply downward adjustable pressure to the two film pressing wheels 522 through the film pressing shaft 523.

The film sticking assembly 52 further comprises one or two film sticking drivers 54, if there are two film sticking drivers 54, the two film sticking drivers 54 are respectively connected to drive the corresponding second conveying wheels 521 to rotate, and if there is one film sticking driver 54, the film sticking driver 54 preferentially drives the second conveying wheel 521 located at one end of the film sticking bottom plate 51 facing the material receiving device 6 to rotate, and synchronously rotates the other second conveying wheel 521 located at one end of the film sticking bottom plate 51 facing the assembling device 4 through the corresponding second synchronizing wheel 55 and the second synchronizing belt 56.

As shown in fig. 13, the limiting component 53 includes two second limiting blocks 531, the front end and the rear end of the film base plate 51 are respectively provided with second mounting grooves 511 extending in the left-right direction, the two second limiting blocks 531 of the same limiting component 53 are mounted in the corresponding second mounting grooves 511, the mounting positions in the second mounting grooves 511 can be adjusted, and one side of the second mounting groove 511 is provided with a second scale 532.

The limiting component 53 further comprises a limiting material frame 533, wherein the limiting material frame 533 is rotatably connected to the film base plate 511, and the connection angle between the limiting material frame 533 and the film base plate 511 is adjustable.

Example two

As an optimization of the first embodiment, as shown in FIG. 2, the first feeding device 1 in this embodiment comprises a first feeding assembly 11 and a first tearing assembly 12 which are oppositely arranged, wherein

The first feeding assembly 11 is used for loading the assembly tape 7 on a roll for feeding, and the loaded assembly tape 7 further comprises a first release film 73 attached to the first assembly 72;

the first film tearing assembly 12 is used for tearing off the first release film 73 on the assembly material tape 7 when the first feeding assembly 11 feeds.

In this embodiment, the first feeding assembly 11 does not have any driver, and the assembling device 4 provides the power required for loading the assembling material belt 7; the first film tearing assembly 12 comprises a first film tearing driver for providing power for tearing off the first release film 73.

In operation, the assembling device 4 pulls in the assembling material belts 7 on the first feeding assembly 11 through self power, and when the assembling material belts 7 leave the first feeding assembly 11, the first film tearing assembly 12 tears off the first release films 73 on the assembling material belts 7 through the power provided by the first film tearing driver.

EXAMPLE III

As an optimization of the first or second embodiment, as shown in FIGS. 1 and 2, the third feeding device 3 of the present embodiment comprises a third feeding assembly and a second tearing assembly 32 which are oppositely arranged, wherein

The third feeding assembly is used for loading the film-coated material strip 8 in a roll for feeding, and the loaded film-coated material strip 8 further comprises a second release film 83 attached to the adhesive strip 82;

the second film tearing assembly 32 is used for tearing off the second release film 83 on the film pasting material belt 8 when the third feeding assembly feeds.

In this embodiment, the third feeding assembly does not have any driver, and the film sticking device 5 provides the power required by feeding the film sticking material belt 8; the second film tearing assembly 32 comprises a second film tearing driver for providing power required for tearing off the second release film 83.

During operation, pad pasting device 5 will through self power draw in pad pasting material area 8 on the second feed assembly 31, work as pad pasting material area 8 leaves when the second feed assembly 31, second dyestripping subassembly 32 passes through the power that the second dyestripping driver provided will second on the pad pasting material area 8 is torn from type membrane 83.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the embodiments of the present invention and not for limiting the same, and although the embodiments of the present invention are described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the embodiments of the present invention can still be modified or replaced with equivalents, and these modifications or equivalent replacements cannot make the modified technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a processing system that material function was received to collection material loading assembly pad pasting which characterized in that includes: first loading attachment, second loading attachment, third loading attachment, assembly quality, pad pasting device and material collecting device, wherein

The first feeding device is used for providing an assembly material belt for the assembly device, and the assembly material belt comprises a material belt film and a plurality of first assembly parts attached to the material belt film;

the second feeding device is used for providing a second assembly part for the assembly device;

the assembling device is used for assembling the second assembling part on the first assembling part of the assembling material belt and providing the assembling material belt assembled with the second assembling part for the film sticking device;

the third feeding device is used for providing a film pasting material belt for the film pasting device, and the film pasting material belt comprises a protective film and adhesive strips attached to two sides of the protective film;

the film sticking device is used for sticking the film sticking material belt to the material loading belt matched with the second assembly part through the adhesive strip;

the receiving device is used for retracting the assembly material belt attached with the film material belt.

2. The processing system with the functions of material loading, assembly, film covering and material receiving as claimed in claim 1, wherein the first loading device comprises a first feeding assembly and a first film tearing assembly which are oppositely arranged, wherein the first feeding assembly and the first film tearing assembly are oppositely arranged, and the processing system is characterized in that the first feeding device comprises a first feeding assembly and a first film tearing assembly which are oppositely arranged

The first feeding assembly is used for loading the assembly material belt in a roll for feeding, and the loaded assembly material belt further comprises a first release film attached to the first assembly part;

the first film tearing assembly is used for tearing off the first release film on the assembly material belt when the first feeding assembly supplies materials.

3. The processing system with the functions of material loading, assembly, film sticking and material receiving as claimed in claim 1, wherein the second loading device comprises a loading vibration disc, a loading vertical vibration table and a loading die assembly which are connected in sequence, wherein the loading vibration disc, the loading vertical vibration table and the loading die assembly are connected in sequence

The feeding vibration disc is used for feeding the second assembly parts into the feeding vertical vibration table in sequence, the bottom of the feeding vibration disc is provided with a seismic source, the inner side wall of the feeding vibration disc is provided with a spiral feeding groove, the top of the feeding vibration disc is provided with at least one first optical fiber sensor and at least one second optical fiber sensor, the side wall of the feeding vibration disc is provided with at least one first air blowing hole and at least one second air blowing hole, the first optical fiber sensor is used for detecting the front and back surfaces of the second assembly parts on the feeding groove, the first air blowing hole is used for blowing off the second assembly parts of which the front and back surfaces are not in compliance on the feeding groove, one first optical fiber sensor corresponds to one first air blowing hole, the optical fiber sensor is used for detecting the orientation of the second assembly parts on the feeding groove, the second air blowing hole is used for blowing off the second assembly parts of which the front and back surfaces are not in compliance on the feeding groove, and one second optical fiber sensor corresponds to one second air blowing hole;

the feeding vertical vibration table is used for continuously feeding the second assembly parts fed by the feeding vibration disc into the loading die assembly;

the material loading die assembly is used for loading a second assembly part sent by the material loading vertical vibration table for being taken away by the assembly device.

4. The processing system integrating the functions of feeding, assembling, film sticking and material receiving as claimed in claim 3, wherein the loading die assembly comprises a loading die, a loading slide rail and a loading driver, and a plurality of loading notches are formed in one side edge of the loading die facing the feeding vertical vibration table; the loading die is arranged on the loading slide rail and can move on the loading slide rail; the loading driver is connected with and drives the loading die to move on the loading slide rail, so that a plurality of loading notches on the loading die are sequentially aligned with the discharge hole of the feeding vertical vibration table.

5. The processing system with the functions of material loading, assembly, film covering and material receiving as claimed in claim 1, characterized in that the assembly device comprises a conveying component and an assembly component, wherein

The conveying assembly comprises a conveying bottom plate, and two conveying mechanisms and two limiting mechanisms which are respectively arranged on the front end and the rear end of the conveying bottom plate, wherein the conveying mechanisms are used for driving the assembling material belt on the conveying bottom plate to be conveyed forwards, and the limiting mechanisms are used for limiting the relative position of the assembling material belt on the conveying bottom plate;

the assembly component comprises a suction head moving mechanism and a lifting suction head mechanism arranged on the suction head moving mechanism, the suction head moving mechanism is used for driving the lifting suction head mechanism to move, and the lifting suction head mechanism is used for sucking and assembling the second assembly part.

6. The processing system with the functions of material loading, assembly, film coating and material receiving as claimed in claim 5, wherein the conveying mechanism comprises a first conveying wheel, two conveying press wheels, a conveying press shaft and two first pressure regulators, the first conveying wheel and the two conveying press wheels are oppositely arranged on the upper side and the lower side of the conveying bottom plate, the two conveying press wheels are coaxially connected to the conveying press shaft and are respectively arranged on the left side and the right side of the assembly material belt, and the first conveying wheel and the two conveying press wheels jointly press two sides of the assembly material belt; the two first pressure regulators are arranged on the conveying bottom plate and are respectively connected with two ends of the conveying pressing shaft so as to apply downward adjustable pressure to the two conveying pressing wheels through the conveying pressing shaft; stop gear includes two first stoppers, set up the first mounting groove that the left right direction extends on the both ends respectively around the conveyor shoe, two first stoppers of same stop gear install in the first mounting groove that corresponds, and can be adjusting mounted position in the first mounting groove, one side of first mounting groove is provided with first scale.

7. The processing system with the functions of material loading, film coating and material receiving as claimed in claim 5, wherein the lifting and lowering head mechanism comprises a plurality of sets of vacuum heads, a lifting and lowering slide rail and a lifting and lowering driver, the vacuum heads are arranged on the lifting and lowering slide rail, the lifting and lowering driver is connected to drive the vacuum heads to lift and lower on the lifting and lowering slide rail, and the vacuum heads are used for assembling the second assembling part through vacuum negative pressure suction; the sucker moving mechanism comprises a first moving slide rail arranged along a first horizontal direction, a second moving slide rail arranged along a second horizontal direction, a first moving driver and a second moving driver, wherein the second moving slide rail is arranged on the first moving slide rail, and the first moving driver is connected with and drives the second moving slide rail to move on the first moving slide rail; the lifting sucker mechanism is arranged on the second movable slide rail, and the second movable driver connector drives the lifting sucker to move on the second movable slide rail; the first horizontal direction is perpendicular to the second horizontal direction.

8. The processing system with the functions of material loading, assembling, film covering and material receiving as claimed in claim 1, wherein the third material loading device comprises a third material loading component and a second film tearing component which are oppositely arranged, and the third material loading device comprises a second material loading device and a second film tearing device which are oppositely arranged

The third feeding assembly is used for loading the film-coated material belt in a roll for feeding, and the loaded film-coated material belt further comprises a second release film attached to the adhesive strip;

the second film tearing assembly is used for tearing off the second release film on the film pasting material belt when the third feeding assembly supplies materials.

9. The processing system with the functions of collecting, loading, assembling, sticking film and receiving material of claim 1, wherein the film sticking device comprises a film sticking bottom plate, and two film sticking assemblies and two limiting assemblies which are respectively arranged on the front end and the rear end of the film sticking bottom plate, and the film sticking assemblies are used for sticking a film sticking material belt provided by the third loading device to a loading and batching belt provided by the assembling device through sticky strips of the film sticking assemblies; the limiting assembly is used for limiting the relative positions of the film pasting material belt and the assembling material belt on the film pasting bottom plate.

10. The processing system with the functions of collecting materials, assembling and receiving films as claimed in claim 9, wherein the film-sticking assembly comprises a second conveying wheel, two film-sticking press wheels, a film-sticking press shaft and two second pressure regulators, the second conveying wheel and the two film-sticking press wheels are oppositely arranged on the upper side and the lower side of the film-sticking bottom plate, the two film-sticking press wheels are coaxially connected to the film-sticking press shaft and are respectively arranged on the left side and the right side of the film-sticking material belt and the assembling material belt, and the second conveying wheel and the two film-sticking press wheels jointly press the two sides of the film-sticking material belt and the assembling material belt; the two second pressure regulators are arranged on the film pasting bottom plate and are respectively connected with two ends of the film pasting pressing shaft so as to apply downward adjustable pressure to the two film pasting pressing wheels through the film pasting pressing shaft; the limiting assembly comprises two second limiting blocks, second mounting grooves extending in the left-right direction are formed in the front end and the rear end of the film base plate respectively, the two second limiting blocks of the same limiting assembly are mounted in the corresponding second mounting grooves and can be adjusted to mounting positions in the second mounting grooves, and a second graduated scale is arranged on one side of each second mounting groove.

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