CN111994347A - Feeding mechanism of hub film sticking machine and hub film sticking machine - Google Patents

Abstract

The application discloses a feeding mechanism of a hub film sticking machine and the hub film sticking machine, which comprise a plurality of discharging tables, wherein the plurality of discharging tables are sequentially arranged from top to bottom; the lifting device comprises a lifting mechanism and a fixed support, the lifting mechanism is arranged on the fixed support, and the plurality of discharging tables are connected with the lifting mechanism so as to enable the plurality of discharging tables to have lifting strokes relative to the fixed support; the wheel hub protective film stacking device comprises a plurality of material placing discs, a plurality of material placing tables and a plurality of control modules, wherein the material placing discs are respectively used for placing a wheel hub protective film which is arranged in a stacking mode; wherein, the blowing platform disposes into can sliding in or the roll-off blowing platform, and traditional feeding mode adopts artifical feeding is solved to this application, and work efficiency is too low, and current feed arrangement feeding is single, can only supply the rim membrane of single size, and the suitability is too low, need change corresponding feed arrangement at the in-process that needs carry out the pad pasting to the rim of equidimension not, reduces work efficiency's problem.

Description

Feeding mechanism of hub film sticking machine and hub film sticking machine

Technical Field

The application relates to auto parts protection, especially relates to a feeding mechanism and wheel hub sticking film machine of wheel hub sticking film machine.

Background

When an automobile is manufactured and leaves a factory, in order to ensure that a wheel is kept in a brand-new state before being sold, a protective film is generally adhered to a rim of the automobile wheel to isolate the wheel rim from an external environment, so that damage caused by scratch in the driving and conveying processes is avoided, or dust and impurities are adhered to the wheel rim, and the service life of the wheel rim is further influenced.

Carry out wheel hub pad pasting in-process to the car of newly producing and need use rim sticking film machine, wheel hub sticking film machine needs continuous feeding at the pad pasting in-process, and traditional feeding mode adopts artifical feeding, and work efficiency is too low, and current feed arrangement feeding is single, can only supply the rim membrane of single size, and the suitability is too low, need change corresponding feed arrangement at the in-process that needs carry out the pad pasting to the rim of equidimension not, reduces work efficiency.

Disclosure of Invention

The application provides a feeding mechanism and wheel hub sticking film machine of wheel hub sticking film machine can accelerate the work efficiency of wheel hub sticking film machine.

The feeding mechanism comprises a plurality of discharging tables, and the discharging tables are sequentially arranged from top to bottom; the lifting device comprises a lifting mechanism and a fixed support, the lifting mechanism is arranged on the fixed support, and the plurality of discharging tables are connected with the lifting mechanism so as to enable the plurality of discharging tables to have lifting strokes relative to the fixed support; the wheel hub protective film stacking device comprises a plurality of material placing discs, a plurality of material placing tables and a plurality of control modules, wherein the material placing discs are respectively used for placing a wheel hub protective film which is arranged in a stacking mode; wherein the discharge table is configured to be able to slide in or out of the discharge table.

According to some embodiments, the fixed bolster of feed mechanism in this application includes horizontal bracing piece and support frame, the support frame includes first longitudinal support pole, second longitudinal support pole, first gag lever post, second gag lever post and support chassis, the one end of horizontal bracing piece is connected to the one end of first longitudinal support pole, the other end joint support chassis of first longitudinal support pole, the other end of horizontal bracing piece is connected to the one end of second longitudinal support pole, the other end joint support chassis of second longitudinal support pole, first gag lever post sets up on first longitudinal support pole, first gag lever post is parallel to first longitudinal support pole, the second gag lever post sets up on second longitudinal support pole, second gag lever post is parallel to second longitudinal support pole.

According to some embodiments, the lifting mechanism of the feeding mechanism in the present application comprises a power wheel, a first driving wheel, a second driving wheel, a first fixed pulley, the second fixed pulley, first conveyer belt, the second conveyer belt, third conveyer belt and transfer line, the top of first longitudinal support pole is provided with the driving wheel mount table, the perpendicular first longitudinal support pole of driving wheel mount table, power wheel and first drive wheel set up on the driving wheel mount table, the power wheel passes through first conveyer belt and connects first drive wheel, the second drive wheel sets up in the top of second longitudinal support pole, first drive wheel and second drive wheel are connected to the both ends of transfer line, first fixed pulley sets up in the bottom of first longitudinal support pole, first fixed pulley is connected through the second conveyer belt to first drive wheel, the second fixed pulley sets up in the bottom of second longitudinal support pole, the second drive wheel passes through the third conveyer belt and connects the second fixed pulley.

According to some embodiments, the lifting mechanism of the feeding mechanism in the present application further comprises a first sliding assembly and a second sliding assembly, one end of the first sliding assembly is connected to the plurality of discharging stations, the second conveyor belt passes through the first sliding assembly, the second conveyor belt is fixedly connected to the first sliding assembly, one end of the second sliding assembly is connected to the plurality of discharging stations, the third conveyor belt passes through the second sliding assembly, and the third conveyor belt is fixedly connected to the second sliding assembly.

According to some embodiments, the first sliding assembly of the feeding mechanism in the present application includes a first connecting plate, a first sliding block and a first limiting member, the first connecting plate is fixed to the side surfaces of the plurality of material placing tables, the first sliding block is fixedly connected to the first connecting plate, the second conveyor belt passes through the first sliding block, the first limiting member is fixedly connected to the first sliding block, and the first limiting member is slidably connected to the first limiting rod.

According to some embodiments, a plurality of limiting holes are formed in a first limiting rod of the feeding mechanism, the limiting holes are evenly formed in the length direction of the first limiting rod, the distance between the limiting holes is the same, the first limiting part comprises a first through hole and a first bolt, the size of the first through hole is the same as that of the limiting holes, and the first bolt can penetrate through the first through hole and be fixed in the limiting holes.

According to some embodiments, the second limiting member structure of the feeding mechanism is the same as the first limiting member structure, and the second limiting rod is the same as the first limiting rod structure.

According to some embodiments, each of the plurality of discharging platforms of the feeding mechanism in the present application is provided with a guiding mechanism, the guiding mechanism comprises a transverse pulley, a longitudinal pulley, a connecting plate and a bearing plate, the connecting plate is arranged on the bearing plate, the connecting plate is perpendicular to the bearing plate, the transverse pulley is arranged on the upper surface of the bearing plate, the axis of the transverse pulley is perpendicular to the upper surface of the bearing plate, the longitudinal pulley is arranged on the side surface of the bearing plate, and the longitudinal pulley is perpendicular to the side surface of the bearing plate.

According to some embodiments, the feeding mechanism in the present application is provided with a rotating device on the material placing tray, the rotating device is arranged on the side surface of the material placing tray, and the rotating device is further connected with a controller.

In a second aspect of the present application, a hub laminator is provided, the hub laminator includes the first aspect the feed mechanism.

The beneficial effects brought by the technical scheme provided by the embodiment of the disclosure at least comprise:

the lifting mechanism is started, a power wheel of the lifting mechanism drives a first driving wheel to rotate through a first conveying belt, the first driving wheel drives a second driving wheel to rotate through a driving rod, the first driving wheel drives a first fixed pulley to rotate through a second conveying belt, the second driving wheel drives a second fixed pulley to rotate through a third conveying belt, the second conveying belt drives a first sliding assembly to move, the third conveying belt drives a second sliding assembly to move, the first sliding assembly and the second sliding assembly drive a discharging table to move, a worker finds a required discharging disc, places a hub protective film required to be fed on the corresponding discharging disc, and moves the discharging table corresponding to the discharging disc out to a working area. The suitability is too low, need change corresponding feed arrangement at the in-process that need carry out the pad pasting to the rim of equidimension not, reduces work efficiency's problem.

Drawings

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

Fig. 1 is a schematic perspective view of a feeding table of a feeding mechanism of a hub laminator according to an embodiment of the disclosure;

FIG. 2 is a schematic perspective view of an embodiment of a feeding table of a feeding mechanism of a hub laminator according to an embodiment of the disclosure;

FIG. 3 is a schematic perspective view of a lifting mechanism of a feeding mechanism of a hub laminator according to an embodiment of the disclosure;

FIG. 4 is a perspective view of a fixing bracket of a feeding mechanism of a hub laminator according to an embodiment of the disclosure;

FIG. 5 is a perspective view of a first slide assembly of a feed mechanism of a hub laminator in one embodiment provided herein;

FIG. 6 is a schematic perspective view of an emptying table of a feeding mechanism of a hub laminator according to an embodiment of the disclosure;

FIG. 7 is a schematic perspective view of a feed mechanism of a hub laminator to a lead-out assembly in one embodiment provided herein;

FIG. 8 is a schematic perspective view of a hub laminator in one embodiment provided herein;

FIG. 9 is a schematic perspective view of a suction film assembly and a detection assembly of a hub laminator in an embodiment provided herein;

FIG. 10 is a schematic perspective view of a film tearing assembly of a hub laminator in one embodiment provided herein;

FIG. 11 is a schematic perspective view of a film separating knife of a hub laminator according to an embodiment of the disclosure;

FIG. 12 is a schematic perspective view of a film separating blade of a hub laminator according to an embodiment of the disclosure;

FIG. 13 is a schematic structural view of a hub laminator with a film separating blade pressed down in an embodiment provided by the present application;

FIG. 14 is a schematic structural view of a hub laminator with a film separating blade rotating according to an embodiment of the disclosure;

fig. 15 is a partially enlarged view of fig. 14.

Detailed Description

When an automobile is manufactured and leaves a factory, in order to ensure that a wheel is kept in a brand-new state before being sold, a protective film is generally adhered to a rim of the automobile wheel to isolate the wheel rim from an external environment, so that damage caused by scratch in the driving and conveying processes is avoided, or dust and impurities are adhered to the wheel rim, and the service life of the wheel rim is further influenced.

Need use rim sticking film machine at the car to new product wheel hub pad pasting in-process, wheel hub sticking film machine 10 needs continuous feeding at the pad pasting in-process, traditional feeding mode adopts artifical feeding, work efficiency is too low, current feed arrangement feeding is single, can only supply the rim membrane of single size, the suitability is too low, need change corresponding feed arrangement at the in-process that needs carry out the pad pasting to the rim of equidimension not, reduce work efficiency

According to the embodiment of the feeding mechanism of the hub laminator 10 provided by the application shown in fig. 1-7, the feeding mechanism 20 in this embodiment is used for feeding a protective film to an automobile hub after the automobile is manufactured, the feeding mechanism 20 in this embodiment includes a plurality of discharging tables 200, and the plurality of discharging tables 200 are sequentially arranged from top to bottom; the lifting device 300 comprises a lifting mechanism 310 and a fixed bracket 320, the lifting mechanism 310 is arranged on the fixed bracket 320, and the plurality of discharging tables 200 are connected with the lifting mechanism 310, so that the plurality of discharging tables 200 have lifting strokes relative to the fixed bracket 320; the multiple discharging trays 400 are respectively used for placing the hub protective films which are arranged in a stacked mode, and each discharging platform 200 is used for placing one discharging tray 400; wherein the discharge table 200 is configured to be able to slide in and out of the discharge table 200.

The feeding mechanism 20 in this embodiment is also equipped with a preparation table 30 and a feeding table 40 in use, and the discharging table 200 can slide in and out to the preparation table 30 and the feeding table 40, and during actual use of the feeding mechanism 20 in this embodiment, the lifting mechanism 310 drives the plurality of discharging tables 200 to move, when the discharging tables 200 with corresponding sizes are moved to the material preparing table 30 with the same height, the discharging tables 200 slide out to the material preparing table 30 for material preparation, the required wheel hub protective film is placed in the corresponding discharging tray 400, then the material is slid into the material inlet table 40 to complete the material feeding, the embodiment solves the problems that the work efficiency is too low due to the adoption of manual material feeding in the prior art, the prior material feeding device has single material feeding, only can supplement rim films with single size, the applicability is too low, need change corresponding feed arrangement at the in-process that need carry out the pad pasting to the rim of equidimension not, reduce work efficiency's problem.

In the above embodiment, the fixing bracket 320 of the feeding mechanism 20 in this embodiment includes a transverse support rod 321 and a support frame 322, the support frame 322 includes a first longitudinal support rod 323, a second longitudinal support rod 324, a first limit rod 325, a second limit rod 326 and a support bottom frame 327, one end of the first longitudinal support rod 323 is connected to one end of the transverse support rod 321, the other end of the first longitudinal support rod 323 is connected to the support bottom frame 327, one end of the second longitudinal support rod 324 is connected to the other end of the transverse support rod 321, the other end of the second longitudinal support rod 324 is connected to the support bottom frame 327, the first limit rod 325 is disposed on the first longitudinal support rod 323, the first limit rod 325 is parallel to the first longitudinal support rod 323, the second limit rod 326 is disposed on the second longitudinal support rod 324, and the second limit rod 326 is parallel to the second longitudinal support rod 324.

The fixed bolster 320 in this embodiment plays the holistic supporting role to feed mechanism 20 of this application, can strengthen the holistic mechanism of feed mechanism 20 in this implementation and stabilize the top through being connected of first longitudinal support bar 323, second longitudinal support bar 324 and horizontal bracing piece 321, supports chassis 327 and plays the effect that bears the weight of and stabilize to the device in this embodiment, and the firm support structure of this application is simple, and the steadiness is strong.

In the above embodiment, the lifting mechanism 310 of the feeding mechanism 20 in this embodiment includes a power wheel 311, a first driving wheel 312, a second driving wheel 313, a first fixed pulley 314, a second fixed pulley 315, a first driving belt 316, a second driving belt 317, a third driving belt 318 and a driving rod 319, the top of the first longitudinal supporting rod 323 is provided with a driving wheel mounting platform 323A, the driving wheel mounting platform 323A is perpendicular to the first longitudinal supporting rod 323, the power wheel 311 and the first driving wheel 312 are arranged on the driving wheel mounting platform 323A, the power wheel 311 is connected with the first driving wheel 312 through the first driving belt 316, the second driving wheel 313 is arranged at the top of the second longitudinal supporting rod 324, two ends of the driving rod 319 are connected with the first driving wheel 312 and the second driving wheel 313, the first fixed pulley 314 is arranged at the bottom of the first longitudinal supporting rod 323, the first driving wheel 312 is connected with the first fixed pulley 314 through the second driving belt 317, the second fixed pulley 315 is disposed at the bottom of the second longitudinal support bar 324, and the second transmission wheel 313 is connected to the second fixed pulley 315 via the third transmission belt 318.

In this embodiment, the power of the lifting mechanism 310 is provided by the power wheels 311, a plurality of power wheels 311 or power wheels 311 with larger power are provided according to the number of the actual discharging tables 200, the power wheels 311 are driven by a motor for easy control, when the lifting mechanism 310 is started, the power wheels 311 of the lifting mechanism 310 drive the first driving wheels 312 to rotate through the first transmission belts 316, the first driving wheels 312 drive the second transmission wheels 313 to rotate through the transmission rods 319, the first driving wheels 312 drive the first fixed pulleys 314 to rotate through the second transmission belts 317, the second driving wheels 313 drive the second fixed pulleys 315 to rotate through the third transmission belts 318, the second transmission belts drive the first sliding assemblies 330 to move, the third transmission belts 318 drive the second sliding assemblies 340 to move, the first sliding assemblies 330 and the second sliding assemblies 340 drive the discharging tables 200 to move, the power transmission of the lifting mechanism 310 of this embodiment is continuous, stable in structure, first drive wheel 312, second drive wheel 313, first fixed pulley 314 and the second fixed pulley 315 of this embodiment simple structure, the quality is light and handy, and control is convenient and low price, has reduced the cost of manufacture of feed mechanism 20 in this embodiment, makes the simple structure of feed mechanism 20 in this embodiment light and handy and easily operation simultaneously.

In the implementation process of the above embodiment, the lifting mechanism 310 of the feeding mechanism 20 in this embodiment further includes a first sliding assembly 330 and a second sliding assembly 340, one end of the first sliding assembly 330 is connected to the plurality of discharging tables 200, the second conveyor belt 317 passes through the first sliding assembly 330, the second conveyor belt 317 is fixedly connected to the first sliding assembly 330, one end of the second sliding assembly 340 is connected to the plurality of discharging tables 200, the third conveyor belt 318 passes through the second sliding assembly 340, and the third conveyor belt 318 is fixedly connected to the second sliding assembly 340.

The effect of elevating system 310 is in order to drive blowing platform 200 to go up and down in this embodiment, goes up and down to pull a plurality of blowing platforms 200 in opposite both sides through first sliding component 330 and second sliding component 340 in this embodiment, guarantees blowing platform 200 at the stability of the in-process that goes up and down, is convenient for the control to the lift of blowing platform 200 simultaneously.

In the above embodiment, the first sliding assembly 330 of the feeding mechanism 20 in this embodiment includes a first connecting plate 331, a first sliding block 332, and a first limiting member 333, the first connecting plate 331 is fixed to the side surfaces of the plurality of material placing tables 200, the first sliding block 332 is fixedly connected to the first connecting plate 331, the second conveying belt 317 passes through the first sliding block 332, the first limiting member 333 is fixedly connected to the first sliding block 332, and the first limiting member 333 is slidably connected to the first limiting rod 325.

In this embodiment, the first connecting plate 331 of the first sliding assembly 330 is used to connect the first slider 332 and the discharging table 200, the first slider 332 is used to connect the second conveyor belt 317, the first limiting member 333 is used to fix the first sliding assembly 330 after being lifted, the existing conveyor belt drives the sliding assembly to connect the conveyor belt to the side surface of the sliding assembly, the second conveyor belt 317 in this embodiment passes through the first slider 332 and is fixedly connected to the first slider 332, the connection is more stable than the existing side surface connection, and the problem that the conveyor belt is easy to fall off when being driven in the prior art is solved.

In the implementation process of the above embodiment, the first limiting rod 325 of the feeding mechanism 20 in this embodiment is provided with a plurality of limiting holes 325A, the plurality of limiting holes 325A are uniformly arranged along the length direction of the first limiting rod 325, the distances between the plurality of limiting holes 325A are the same, the first limiting member 333 includes a first through hole and a first bolt, the size of the first through hole is the same as that of the plurality of limiting holes 325A, and the first bolt can pass through the first through hole and be fixed in the plurality of limiting holes 325A.

After the lifting is completed, all the discharging tables 200 in this embodiment need to be fixed, due to the reason of the gravity of the discharging tables 200 and the fact that the first sliding blocks 332 in the first limiting members 333 slide downward, the power wheels 311 in this embodiment must be kept in a normally open state to maintain overall stability, in this embodiment, the first limiting members 333 and the first limiting rods 325 are fixed through the first bolts, so as to solve the problem of the downward sliding caused by the gravity of the discharging tables 200, reduce the workload required when the power wheels 311 do not need to be pulled, save the energy consumption of the hub laminator 10, and reduce the working cost of the hub laminator 10.

In the above embodiment, the second limiting member structure of the feeding mechanism 20 in this embodiment is the same as the first limiting member 333, and the second limiting rod 326 is the same as the first limiting rod 325.

In the above embodiment, each of the plurality of material discharging platforms 200 of the feeding mechanism 20 in this embodiment is provided with a guiding mechanism 210, the guiding mechanism 210 includes a transverse pulley 211, a longitudinal pulley 212, a connecting plate 213 and a bearing plate 214, the connecting plate 213 is disposed on the bearing plate 214, the connecting plate 213 is perpendicular to the bearing plate 214, the transverse pulley 211 is disposed on the upper surface of the bearing plate 214, the axis of the transverse pulley 211 is perpendicular to the upper surface of the bearing plate 214, the longitudinal pulley 212 is disposed on the side surface of the bearing plate 214, and the longitudinal pulley 212 is perpendicular to the side surface of the bearing plate 214.

The discharging table 200 in this embodiment needs to slide in and out back and forth between the material preparing table 30 and the feeding material, in this embodiment, by arranging the guiding-out mechanism 210, the transverse pulley 211 of the guiding-out mechanism 210 can reduce the friction force received by the sliding of the side surface of the discharging table 200, the longitudinal pulley 212 can reduce the friction force received by the sliding of the bottom surface of the discharging table 200, so that the sliding is smooth and free from jamming, and the understanding between the guiding-out mechanism 210 and the discharging table 200 is stable through the connecting plate 213 and the bearing plate 214.

In the implementation process of the above embodiment, the feeding mechanism 20 in this embodiment is provided with a rotating device 800 on the placing tray 400, the rotating device 800 is arranged at the bottom of the placing tray 400, and the rotating device is further connected with a controller.

As shown in fig. 8 to 10, the present application further discloses a hub laminator, which includes the feeding mechanism of any one of the hub laminator assemblies shown in fig. 1 to 7, the hub laminator includes the feeding mechanism 20 and the film tearing mechanism 50, and the feeding mechanism 20, the film tearing mechanism 50 and the protection mechanism 10 are sequentially arranged along the feeding direction of the hub protection film. The initial automobile wheel hub protection film includes pastes the layer and can tears the layer, need tear the layer earlier and tear during the use, will paste the layer and attach to wheel hub's surface promptly and accomplish the pad pasting again. Feeding mechanism 20 is used for the feeding of initial automobile wheel hub protection film, transmits initial automobile wheel hub protection film to dyestripping mechanism 50.

The film tearing mechanism 50 includes a film sucking assembly 500, a detecting assembly 600 and a film tearing assembly 700, in this embodiment, the detecting assembly 600 is used for detecting the placement position of the hub protection film, when the protection film is placed in the material placing tray 400, the position may be misaligned, when the position is incorrect, the position of the subsequent film pasting operation may be misaligned, the position of the hub protection film may be detected by the position detector, and the misalignment may be transmitted to the controller by the signal transmission unit, after the controller receives the misalignment information, the misalignment information is transmitted to the rotating device 800, the rotating device 800 drives the protection film on the material placing tray 400 to rotate, so that the center seam of the hub protection film coincides with the preset position, so that the relative position between the film sucking assembly 500 and the hub protection film is the relative position of normal operation, by providing the detecting device in this embodiment, the feeding precision can be improved, and the waste of raw materials is reduced.

The initial automobile wheel hub protection film includes pastes the layer and can tears the layer, need tear the layer earlier and tear during the use, will paste the layer and attach to wheel hub's surface promptly and accomplish the pad pasting again. Feeding mechanism 60 is used for the feeding of initial automobile wheel hub protection film, transmits initial automobile wheel hub protection film to dyestripping mechanism 50.

The film tearing mechanism 50 comprises a film absorbing assembly 600, a detecting assembly 700, a film tearing assembly 800 and a rotating device 900, wherein the detecting assembly 700 in this embodiment is used for detecting the placement position of the hub protection film, when the protection film is placed in the feeding mechanism 60, the protection film may have an incorrect position, when the incorrect position occurs, the subsequent film pasting work positions may all shift, the position shift of the hub protection film may be detected by a position detector, and transmitted to a controller by a signal transmission unit, after the controller receives the shift information, the shift information is transmitted to the rotating device 900, the rotating device 900 drives the protection film on the feeding mechanism 60 to rotate, so that the center seam of the hub protection film coincides with a preset position, and the relative position between the film absorbing assembly 600 and the hub protection film is the relative position of normal work, by providing the detecting device in this embodiment, the feeding precision can be improved, and the waste of raw materials is reduced.

The film tearing assembly 800 comprises a film separating knife 810, two clamping jaws 820 and a first driving device 830, wherein the film separating knife 810 is arranged above the middle of the two clamping jaws 820, and the film separating knife 810 is configured to be capable of ascending and descending in the vertical direction and is driven by the first driving device 830 to rotate around an axis arranged in the vertical direction. Exemplarily, in the embodiment of the present disclosure, the hub protection film is circular and matched with an automobile hub, and includes a film coated with an adhesive and a release paper adhered to one side having the adhesive, where the release paper is in two involutory semicircles, and a gap for tearing and separating is formed in a radial direction of the hub protection film. When the film tearing mechanism 50 of the hub film sticking machine provided by the embodiment of the disclosure works, when a hub protective film is taken out from a tray and moved to a specified separation position through a film sucking device, two clamping jaws 820 are controlled to move oppositely, a film separating knife 810 is aligned with a gap between two pieces of involutory release paper, the film separating knife 810 is controlled to descend and abut against the hub protective film, the middle part of the hub protective film is abutted downwards in the radial direction of the hub protective film, so that the hub protective film is integrally deformed into a V shape in the horizontal direction, then the film separating knife is driven to rotate around an axis arranged in the vertical direction through a first driving device 830, the hub protective film abutted with the film separating knife 810 is deformed again, the edges of the two pieces of involutory release paper are separated from a film coated with an adhesive, at this time, the release paper can be easily separated from the hub protective film by tearing the edges of the release paper and the film separated from the hub protective film, simple structure, it is convenient to realize, has further improved auto wheel's wheel hub pad pasting quality and pad pasting efficiency.

As shown in fig. 11-15, the present application further provides another specific embodiment, in which the film scraping knife 810 includes a first film scraping portion 200, a second film scraping portion 210, and a connecting member 230, the connecting member 230 may be a connecting rod, one end of the connecting rod is connected to the first film scraping portion 200, the other end of the connecting rod 230 is connected to the second film scraping portion 210, the bottom of the first film scraping portion 200 abuts against one end of the center line of the hub protection film 300, and the second film scraping portion 210 abuts against the other end of the center line of the hub protection film 300. The hub protection film 300 comprises an adhesive layer 310 and a tearable layer 320, wherein the adhesive layer 310 is a circular protection film, the tearable layer 320 comprises two involutory semicircles, and the involutory position is parallel to the central line of the adhesive layer 310 on the same vertical plane.

The inventor finds that the contact area between the conventional film separating cutter 810 and the hub protection film 300 is too large, and the hub protection film is easily damaged in the rotating process. The film separating knife 810 in this embodiment only needs the bottom of the first film scraping portion 200 and the bottom of the second film scraping portion 210 to contact with the hub protection film 300, and the semicircular end portion in the tearable layer 320 of the hub protection film 300 can be tilted up by rotating and pressing the first film scraping portion 200 and the second film scraping portion 210, so that the film tearing mechanism 50 can tear the film. The film separating knife 810 in this embodiment does not need the connecting piece 230 to move in contact with the hub protection film 300, so that the contact surface between the film scraping knife and the hub protection film 300 is reduced, the movement track on the hub protection film 300 is reduced, and the hub protection film 300 is protected.

In the above solution, the first membrane scraping portion 200 in this embodiment may also be in an elliptic cylinder shape, and the first membrane scraping portion 200 includes two first elliptic end surfaces arranged oppositely, the connecting member 230 is connected to one of the first elliptic end surfaces, and the connecting member 230 is connected to a position of the first elliptic end surface close to the focus of the hub membrane. The second film scraping portion 210 may also be in an elliptic cylinder shape, and the second film scraping portion 210 includes two second elliptic end surfaces arranged oppositely, the connecting member 230 is connected to one of the second elliptic end surfaces, and the connecting member 230 is connected to a position of the second elliptic end surface close to the focus of the hub film.

The split-film knife 810 is eccentrically connected with the first film scraping portion 200 and the second film scraping portion 210 through the connecting piece 230 in the embodiment, the connecting piece 230 rotates to drive the first film scraping portion 200 and the second film scraping portion 210 to rotate, the connecting piece 230 rotates by a small angle, the first film scraping portion 200 and the second film scraping portion 210 rotate by a large angle, meanwhile, the first film scraping portion 200 and the second film scraping portion 210 which are oval can also perform pressing movement on the hub protection film 300 in the rotating process, and the adhering layer 310 and the tearing layer 320 of the hub protection film 300 are separated. Compared with the existing membrane separation knife 810, when the membrane separation knife 810 in the embodiment enables the first membrane scraping part 200 and the second membrane scraping part 210 to sweep paths with the same length on the hub membrane, the rotation angle of the connecting piece 230 is smaller, the failure rate of the connecting piece 230 after being used for a long time is lower, and the overall occupied space of the membrane scraping component is smaller. In other words, when the membrane of the hub membrane and the release paper need to be separated by the same area (the area separated by the two is proportional to the size of the path swept by the first membrane scraping portion 200 and the second membrane scraping portion 210 on the hub membrane), the connecting member 230 only needs to rotate by a smaller angle to achieve the same effect compared to the scheme that the first membrane scraping portion 200 and the second membrane scraping portion 210 are cylindrical and the rotation axis is located at the center. This results in a lower failure rate and less wear of the connection 230 after prolonged use and a smaller overall footprint for the wiper assembly.

The inventor finds that the conventional film separating knife 810 adopts the connecting piece 230 to drive the first film scraping part 200 and the second film scraping part 210 to rotate, and has the problem that the friction force between the first film scraping part 200 and the hub protective film 300 and the friction force between the second film scraping part 210 and the hub protective film are too large, so that the hub protective film is easily damaged. In the above scheme, the film separating knife in this embodiment further includes a first motor 240 and a second motor 250, and further includes a first motor and a second motor, the first motor 240 is disposed at one end of the connecting member 230 close to the first film scraping portion 200, the first motor 240 is configured to drive the first film scraping portion 200 to rotate relative to the connecting member 230, the second motor 250 is disposed at one end of the connecting member 230 close to the second film scraping portion 210, and the second motor 250 is configured to drive the second film scraping portion 210 to rotate relative to the connecting member 230 and drive the first film scraping portion 200 to rotate as the first motor 240. In this embodiment, the first motor 240 is used to drive the first film scraping portion 200 to rotate, the second motor 250 is used to drive the second film scraping portion 210 to rotate, the medium for force transmission is reduced, the rotation efficiency can be improved, the friction between the first film scraping portion 200 and the second film scraping portion 210 and the hub protection film 300 can be reduced, and the hub protection film is protected.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and claims of the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, which may also change accordingly when the absolute position of the object being described changes.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a feeding mechanism of hub sticking film machine which characterized in that includes:

the plurality of discharging tables are sequentially arranged from top to bottom;

the lifting device comprises a lifting mechanism and a fixed support, the lifting mechanism is arranged on the fixed support, and the plurality of discharging tables are connected with the lifting mechanism so as to enable the plurality of discharging tables to have lifting strokes relative to the fixed support;

the wheel hub protective films are stacked on the material placing plates, each material placing table is used for placing one material placing plate, and the material placing plates are configured to be suitable for different wheel hub protective films;

wherein the discharge table is configured to be slidable in and out of the discharge table.

2. The feeding mechanism of a hub laminator according to claim 1,

the fixed bolster includes horizontal bracing piece and support frame, the support frame includes first longitudinal support pole, second longitudinal support pole, first gag lever post, second gag lever post and supports the chassis, the one end of first longitudinal support pole is connected the one end of horizontal bracing piece, the other end of first longitudinal support pole is connected support the chassis, the one end of second longitudinal support pole is connected the other end of horizontal bracing piece, the other end of second longitudinal support pole is connected support the chassis, first gag lever post set up in on the first longitudinal support pole, first gag lever post is parallel first longitudinal support pole, the second gag lever post set up in on the second longitudinal support pole, the second gag lever post is parallel the second longitudinal support pole.

3. The feeding mechanism of a hub laminator according to claim 2,

the lifting mechanism comprises a power wheel, a first driving wheel, a second driving wheel, a first fixed pulley, a second fixed pulley, a first conveying belt, a second conveying belt, a third conveying belt and a driving rod, a driving wheel mounting table is arranged at the top of the first longitudinal supporting rod and is perpendicular to the first longitudinal supporting rod, the power wheel and the first driving wheel are arranged on the driving wheel mounting table, the power wheel is connected with the first driving wheel through the first conveying belt, the second driving wheel is arranged at the top of the second longitudinal supporting rod, two ends of the driving rod are connected with the first driving wheel and the second driving wheel, the first fixed pulley is arranged at the bottom of the first longitudinal supporting rod, the first driving wheel is connected with the first fixed pulley through the second conveying belt, and the second fixed pulley is arranged at the bottom of the second longitudinal supporting rod, the second driving wheel is connected with the second fixed pulley through the third conveying belt.

4. The feeding mechanism of a hub laminator according to claim 3,

elevating system still includes first slip subassembly and second slip subassembly, the one end of first slip subassembly is connected put a plurality of blowing platforms, the second conveyer belt passes first slip subassembly, second conveyer belt fixed connection first slip subassembly, the one end of second slip subassembly is connected a plurality of blowing platforms, the third conveyer belt passes second slip subassembly, third conveyer belt fixed connection second slip subassembly.

5. The feeding mechanism of a hub laminator according to claim 4,

the first sliding assembly comprises a first connecting plate, a first sliding block and a first limiting part, the first connecting plate is connected with the plurality of discharging tables, the first sliding block is fixedly connected with the first connecting plate, the second conveyor belt penetrates through the first sliding block, the first limiting part is fixedly connected with the first sliding block, and the first limiting part is slidably connected with the first limiting rod.

6. The feeding mechanism of a hub laminator according to claim 5,

be provided with a plurality of spacing holes on the first gag lever post, a plurality of spacing holes are followed first gag lever post length direction evenly sets up, the distance is the same between a plurality of spacing holes, first locating part includes first perforation and first bolt, first fenestrate size with the size in a plurality of spacing holes is the same, first bolt can pass first perforation is fixed in a plurality of spacing downtheholess.

7. The feeding mechanism of a hub laminator according to claim 6,

the second limiting part structure is the same as the first limiting part structure, and the second limiting rod is the same as the first limiting rod structure.

8. The feeding mechanism of a hub laminator according to claim 1,

the discharging tables are provided with a guiding mechanism, the guiding mechanism comprises transverse pulleys, longitudinal pulleys, a connecting plate and a bearing plate, the connecting plate is arranged on the bearing plate and is perpendicular to the bearing plate, the transverse pulleys are arranged on the upper surface of the bearing plate, the axis of each transverse pulley is perpendicular to the upper surface of the bearing plate, the longitudinal pulleys are arranged on the side surfaces of the bearing plate, and the longitudinal pulleys are perpendicular to the side surfaces of the bearing plate.

9. The feeding mechanism of a hub laminator according to claim 1,

the feeding disc is provided with a rotating device, the rotating device is arranged on the side face of the feeding disc, and the rotating device is further connected with a controller.

10. A hub laminator, comprising the feed mechanism of any of claims 1-9.

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