CN212556959U - Automatic film coating equipment for rotating shaft shell of notebook computer - Google Patents

Abstract

The utility model discloses an automatic diolame equipment of notebook computer pivot shell, it includes frame, position control mechanism, extension board, the rotatory feed mechanism of carousel, initiative friction rotary mechanism, shell membrane mechanism, press mold mechanism, feed roll and receipts material book. The utility model has the advantages of ingenious structural design, it is reasonable, carry notebook computer pivot shell by the rotatory feed mechanism of carousel, when carrying to preset position, it makes the one end of protection film extend notebook computer pivot shell on the surface to shell the membrane mechanism, at this moment the one end that the press mold mechanism pushed down and made the protection film is pasted on notebook computer pivot shell, initiative friction rotary mechanism drive rotating head drives notebook computer pivot shell rotation after that, thereby realize coiling the protection film on notebook computer pivot shell, and is easy to operate, and convenient, thereby great improvement work efficiency, the labor intensity of operating personnel is reduced, and the production income is increased.

Description

Automatic film coating equipment for rotating shaft shell of notebook computer

Technical Field

The utility model relates to a notebook computer pivot shell diolame technical field, concretely relates to automatic diolame equipment of notebook computer pivot shell.

Background

With the continuous improvement of the industrial automation degree, the traditional manual assembly method can not meet the development requirements of the society, and with the continuous improvement of the labor cost and the continuous improvement of the social competitiveness, the traditional manual assembly method needs to have a strong industrial automation to be used as a backdrop in the fierce competition, and can not be eliminated.

After the notebook computer rotating shaft shell is produced and processed, the notebook computer rotating shaft shell needs to be subjected to film coating protection, so that the phenomenon that the shell surface is scratched due to damage is avoided. Then, the existing coating process of the rotating shaft shell of the notebook computer is to position the rotating shaft shell of the notebook computer on a product jig, then rotate the product jig by one hand and coat a protective film on the rotating shaft shell of the notebook computer by the other hand, thereby playing a role in protection. However, along with the long-time work of the operator, the hand of the operator is not only easy to feel fatigue, but also has high labor cost and low working efficiency, and the requirement of actual production cannot be met.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the utility model is to provide a structural design is ingenious, reasonable, and convenient operation can conveniently carry out the automatic diolame equipment of notebook computer pivot shell of diolame to notebook computer pivot shell.

In order to achieve the above purpose, the utility model provides a technical scheme is:

an automatic film coating device for a rotating shaft shell of a notebook computer comprises a rack, a position adjusting mechanism, a support plate, a rotary table rotary feeding mechanism, a driving friction rotating mechanism, a film stripping mechanism, a film pressing mechanism, a material feeding roll and a material collecting roll, wherein the rotary table rotary feeding mechanism comprises a support, a rotary table driving device and a rotating head, the support is arranged on the rack, the rotary table driving device is arranged on the support, the rotary table is arranged on an output shaft of the rotary table driving device, a plurality of assembling holes for mounting the rotating head are symmetrically arranged at the peripheral position of the rotary table in a circle center manner, a product jig is arranged at one end of the rotating head, the middle part of the rotating head is arranged on the assembling holes through a bearing, and a friction driven; the driving friction rotating mechanism can be matched with the friction driven wheel and drives the friction driven wheel to rotate; the film pressing mechanism is arranged on the support plate corresponding to the upper position of the rotary disc feeding mechanism, and the feeding roll and the receiving roll are arranged on the support plate.

As a preferred scheme of the utility model, a braking device is arranged on the frame corresponding to the position of the rotary feeding mechanism of the turntable, the braking device comprises a braking cylinder and a braking block, and the braking block is arranged on a piston rod of the braking cylinder; when the protective film is coated, the coating effect is improved by braking through the braking device.

As an optimized scheme of the utility model, initiative friction rotary mechanism includes friction fixing base, initiative friction pulley, friction slide, friction guide rail, friction motor and is close to the cylinder, the friction guide rail is fixed on the friction fixing base, the friction slide activity sets up on the friction guide rail, the initiative friction pulley sets up on the friction slide through the pivot, the friction motor sets up on the friction slide, and can drive the initiative friction pulley rotates, be close to the cylinder setting on the friction fixing base, and can drive the friction slide to the friction from the removal of driving wheel one side direction make this friction from the driving wheel with the initiative friction pulley contacts.

As a preferred scheme of the utility model, the outside position that corresponds the friction from the driving wheel is in be equipped with the roof pressure device on the carousel, this roof pressure device includes roof pressure cylinder and sets up the knock-pin on this roof pressure cylinder piston rod. The friction driven wheel is supported through the jacking device, and the friction matching effect is improved.

As an optimal scheme of the utility model, it includes the stripping plate, shells the membrane seat, goes up the deflector roll and lower deflector roll to shell membrane mechanism, it sets up on the extension board to shell the membrane seat, the tail end of stripping plate is fixed on the stripping seat, the front end that should shell the membrane plate to the carousel drive arrangement direction extends, it sets up on the extension board to go up the deflector roll top position that corresponds the membrane seat of shelling, the deflector roll corresponds the below position setting of the membrane seat of shelling down on the extension board.

As a preferred scheme of the utility model, press mold mechanism includes branch, press mold cylinder and compression roller, the tail end setting of branch is on the extension board, and the front end of this branch extends to shell the front end top position of lamina membranacea, the front end at branch is fixed to the press mold cylinder, the compression roller sets up on the piston rod of press mold cylinder.

As an optimal scheme of the utility model, the front end slope downwardly extending of branch, the angle of slope is 17 ~ 20 degrees, more does benefit to and carries the protection film.

As a preferred scheme of the utility model, position control mechanism includes X axle moving mechanism, inclination adjustment mechanism, elevating system and Y axle moving mechanism, inclination adjustment mechanism sets up on X axle moving mechanism to receive X axle moving mechanism's drive to make reciprocating motion along X axle direction, elevating system sets up inclination adjustment mechanism is last, Y axle moving mechanism sets up on elevating system to receive elevating system's drive to make reciprocating motion along Z axle direction, the extension board sets up on Y axle moving mechanism.

As a preferred scheme of the utility model, inclination adjustment mechanism includes PMKD, pivot seat, regulating plate, lower rotation piece, goes up rotation piece and adjustment handle, the pivot seat is fixed PMKD's a side position, the terminal surface of lower rotation piece sets up at this PMKD's opposite side limit position through the pivot activity, the middle part position of rotation piece under this be equipped with the screw of adjustment handle's screw rod looks adaptation, a side pin joint of regulating plate is in on the pivot seat, the terminal surface of going up the rotation piece sets up at this PMKD's opposite side limit position through the pivot activity, adjustment handle passes through the bearing setting on last rotation piece, and this adjustment handle's screw rod twists the screw.

As a preferred embodiment of the present invention, the feeding roll is located above the material collecting roll.

The utility model has the advantages that: the utility model has the advantages of ingenious structural design, it is reasonable, carry notebook computer pivot shell by the rotatory feed mechanism of carousel, when carrying to preset position, it makes the one end of protection film extend notebook computer pivot shell on the surface to shell the membrane mechanism, at this moment the one end that the press mold mechanism pushed down and made the protection film is pasted on notebook computer pivot shell, initiative friction rotary mechanism drive rotating head drives notebook computer pivot shell rotation after that, thereby realize coiling the protection film on notebook computer pivot shell, and is easy to operate, and convenient, thereby great improvement work efficiency, the labor intensity of operating personnel is reduced, and the production income is increased.

The present invention will be further explained with reference to the drawings and the embodiments.

Drawings

Fig. 1 is a schematic perspective view 1 of the present invention.

Fig. 2 is a schematic perspective view of the present invention 2.

Fig. 3 is a schematic structural diagram 1 of the rotary feeding mechanism of the middle rotary table of the present invention.

Fig. 4 is a schematic structural diagram 2 of the rotary feeding mechanism of the middle rotary table of the present invention.

Fig. 5 is a schematic structural diagram of the active friction rotating mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the middle position adjusting mechanism of the present invention.

Fig. 7 is a schematic structural diagram of the middle inclination angle adjusting mechanism of the present invention.

Fig. 8 is a schematic structural diagram of the film peeling mechanism and the film pressing mechanism of the present invention.

Fig. 9 is a schematic structural diagram of the middle membrane material of the present invention.

Detailed Description

In an embodiment, referring to fig. 1 to 8, the automatic film wrapping apparatus for a rotating shaft housing of a notebook computer provided in this embodiment includes a frame 1, a position adjusting mechanism 2, a support plate 3, a turntable rotating feeding mechanism 4, an active friction rotating mechanism 5, a film peeling mechanism 6, a film pressing mechanism 7, a feeding roll 8, and a material receiving roll 9, wherein a controller is disposed on the frame 1, and the position adjusting mechanism 2, the turntable rotating feeding mechanism 4, the active friction rotating mechanism 5, the film pressing mechanism 7, the feeding roll 8, and the material receiving roll 9 are all connected to and controlled by the controller 10.

Referring to fig. 3 and 4, the turntable rotary feeding mechanism 4 includes a bracket 41, a turntable 42, a turntable driving device 43, and a rotary head 44, the bracket 41 is disposed on the rack 1, the turntable driving device 43 is disposed on the bracket 41, the turntable 42 is disposed on an output shaft of the turntable driving device 43, a plurality of assembling holes for mounting the rotary head 44 are symmetrically disposed at a peripheral position of the turntable 42 in a circle center manner, a product fixture 45 is disposed at one end of the rotary head 44, a middle portion of the rotary head is disposed on the assembling holes through a bearing, and a friction driven wheel 46 is disposed at the other end of the rotary head 44; the driving friction rotating mechanism 5 can be matched with the friction driven wheel 46 and drives the friction driven wheel 46 to rotate; the position adjusting mechanism 2 is arranged on the frame 1 corresponding to one side of the rotary feeding mechanism 4 of the rotary table 42, the support plate 3 is arranged on the position adjusting mechanism 2, the film stripping mechanism 6 is arranged on the support plate 3 corresponding to one side of the rotary feeding mechanism 4 of the rotary table 42, the film pressing mechanism 7 is arranged on the support plate 3 corresponding to the upper position of the rotary feeding mechanism 4 of the rotary table 42, and the feeding roll 8 and the receiving roll 9 are arranged on the support plate 3. Preferably, the feeding roll 8 is positioned above the receiving roll 9, and the structural design is reasonable. The feeding coil 8 is driven by a feeding motor to realize the purpose of unwinding. The material receiving coil 9 is driven by a material receiving motor to achieve the purpose of winding.

In order to improve the film coating effect, a braking device 47 is arranged on the frame 1 at a position corresponding to the rotating feeding mechanism 4 of the turntable 42, the number of the braking devices 47 is preferably two, the braking device 47 comprises a braking cylinder and a braking block, and the braking block is arranged on a piston rod of the braking cylinder; the brake block is provided with a concave position matched with the rotating head 44, when the film is manufactured, a piston rod of the brake cylinder rises to push the brake block to move upwards, the brake block is just clamped on the rotating head 44 through the concave position on the brake block, the rotating disc 42 is braked, the phenomenon of shaking in the film coating process is avoided, and the film coating quality is improved.

Referring to fig. 5, the driving friction rotating mechanism 5 includes a friction fixing seat 51, a driving friction wheel 52, a friction sliding seat 53, a friction guide rail 54, a friction motor 55 and an approaching cylinder 56, the friction guide rail 54 is fixed on the friction fixing seat 51, the friction sliding seat 53 is movably disposed on the friction guide rail 54, the driving friction wheel 52 is disposed on the friction sliding seat 53 through a rotating shaft, the friction motor 55 is disposed on the friction sliding seat 53 and can drive the driving friction wheel 52 to rotate, and the approaching cylinder 56 is disposed on the friction fixing seat 51 and can drive the friction sliding seat 53 to move towards one side of the friction driven wheel 46 so that the friction driven wheel 46 contacts with the driving friction wheel 52. When the rotating head 44 needs to be driven to rotate, the piston rod close to the air cylinder 56 retracts to pull the friction sliding seat 53 to move towards one side of the friction driven wheel 46, so that the friction driven wheel 46 is in contact with the driving friction wheel 52. The driving shaft of the friction motor 55 is connected to the rotating shaft through a coupling, and at this time, the friction motor 55 drives the driving friction wheel 52 to rotate through the coupling 57, and the driving friction wheel 52 drives the friction driven wheel 46 to rotate through friction fit, so as to achieve the purpose of rotating the rotating head 44.

In order to prevent the friction driven wheel 46 from shifting, a pressing device 58 is arranged on the turntable 42 corresponding to the outer side position of the friction driven wheel 46, and the pressing device 58 comprises a pressing cylinder and a pressing wheel arranged on a piston rod of the pressing cylinder. The friction driven wheel 46 is supported by the jacking device 58, so that the friction matching effect is improved.

Referring to fig. 6, the position adjusting mechanism 2 includes an X-axis moving mechanism 21, an inclination angle adjusting mechanism 22, a lifting mechanism 23, and a Y-axis moving mechanism 24, the inclination angle adjusting mechanism 22 is disposed on the X-axis moving mechanism 21 and driven by the X-axis moving mechanism 21 to reciprocate along the X-axis direction, the lifting mechanism 23 is disposed on the inclination angle adjusting mechanism 22, the Y-axis moving mechanism 24 is disposed on the lifting mechanism 23 and driven by the lifting mechanism 23 to reciprocate along the Z-axis direction, and the support plate 3 is disposed on the Y-axis moving mechanism 24.

Referring to fig. 7, the tilt angle adjusting mechanism 22 includes a fixed base plate 221, a pivot base 222, an adjusting plate 223, a lower rotating block 224, an upper rotating block 225 and an adjusting handle 226, the pivot base 222 is fixed at a position of one side of the fixed base plate 221, an end surface of the lower rotating block 224 is movably disposed at a position of the other side of the fixed base plate 221 through a rotating shaft, a screw hole adapted to a screw rod of the adjusting handle 226 is disposed at a middle position of the lower rotating block 224, one side of the adjusting plate 223 is pivotally connected to the pivot base 222, an end surface of the upper rotating block 225 is movably disposed at a position of the other side of the fixed base plate 221 through a rotating shaft, the adjusting handle 226 is disposed on the upper rotating block 225 through a bearing, and the screw rod of the adjusting handle 226 is screwed into the screw hole. The inclination angle of the adjusting plate 223 relative to the fixed base plate 221 can be adjusted by screwing the adjusting handle 226, so as to achieve the purpose of adjusting the inclination angle.

Referring to fig. 8, the film peeling mechanism 6 includes a film peeling plate 61, a film peeling seat 62, an upper guide roller 63 and a lower guide roller 64, the film peeling seat 62 is disposed on the support plate 3, the tail end of the film peeling plate 61 is fixed on the film peeling seat 62, the front end of the film peeling plate 61 extends toward the direction of the turntable driving device 43, the upper guide roller 63 is disposed on the support plate 3 corresponding to the upper position of the film peeling seat 62, and the lower guide roller 64 is disposed on the support plate 3 corresponding to the lower position of the film peeling seat 62. As an optimal scheme of the utility model, the front end slope downwardly extending of skinning board 61, the angle of slope is 17 ~ 20 degrees, more does benefit to and carries the protection film.

Squeeze film mechanism 7 includes branch 71, squeeze film cylinder 72 and compression roller 73, the tail end setting of branch 71 is on extension board 3, and the front end of this branch 71 extends to peel off the front end top position of membrane board 61, squeeze film cylinder 72 fixes the front end at branch 71, compression roller 73 sets up on squeeze film cylinder 72's piston rod.

Referring to fig. 9, the membrane material includes from type base film 12 and along this from the attached protection film 13 of type base film 12 interval arrangement in proper order, this protection film 13 with from being equipped with adhesive tape 14 on the attached face mutually of type base film 12, it is higher for the compliance of protection film 13 to leave type base film 12, when leaving type base film 12 around the front end through peeling off membrane board 61, when from type base film 12 fifty percent discount, and because the compliance of protection film 13 is lower can continuously extend forward automatically with from type base film 12 phase separation, the front end when protection film 13 extends to notebook computer pivot shell 11 on the surface. Preferably, a protrusion is disposed at the middle of the front end of the protective film 13, which is more favorable for extending to the surface of the notebook computer spindle housing 11. When the pressing roller 73 presses the protective film 13, the adhesive tape 14 on the bottom surface of the protective film 13 can be attached to the notebook computer hinge housing 11.

When the rotating mechanism works, a worker or a manipulator places the notebook computer rotating shaft shell 11 on a product jig 45 of the rotating head 44, then the turntable 42 rotates the feeding mechanism 4 to convey the notebook computer rotating shaft shell 11 in a rotating mode, when the notebook computer rotating shaft shell is conveyed to a preset position, the film peeling mechanism 6 peels a film to enable one end of the protective film 13 to extend to the surface of the notebook computer rotating shaft shell 11, at the moment, the film pressing mechanism 7 presses down to enable one end of the protective film 13 to be adhered to the notebook computer rotating shaft shell 11, then the rotating mechanism 5 is actively rubbed to drive the rotating head 44 to drive the notebook computer rotating shaft shell 11 to rotate, and therefore the protective film 13 is wound and coated on the notebook computer rotating shaft shell 11.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are used in the description, these terms are used for convenience of description and do not limit the present invention in any way, and it is within the scope of the present invention to use the same or similar machines.

Claims (10)

1. An automatic film coating device for a rotating shaft shell of a notebook computer comprises a rack and is characterized by further comprising a position adjusting mechanism, a support plate, a rotating disc rotary feeding mechanism, a driving friction rotating mechanism, a film stripping mechanism, a film pressing mechanism, a material feeding roll and a material collecting roll, wherein the rotating disc rotary feeding mechanism comprises a support, a rotating disc driving device and a rotating head; the driving friction rotating mechanism can be matched with the friction driven wheel and drives the friction driven wheel to rotate; the film pressing mechanism is arranged on the support plate corresponding to the upper position of the rotary disc feeding mechanism, and the feeding roll and the receiving roll are arranged on the support plate.

2. The automatic coating equipment for the rotating shaft shell of the notebook computer according to claim 1, wherein: and a braking device is arranged on the machine frame corresponding to the position of the rotary feeding mechanism of the rotary table, and comprises a braking cylinder and a braking block, and the braking block is arranged on a piston rod of the braking cylinder.

3. The automatic coating equipment for the rotating shaft shell of the notebook computer according to claim 1, wherein: initiative friction rotary mechanism includes friction fixing base, initiative friction pulley, friction slide, friction guide rail, friction motor and is close to the cylinder, the friction guide rail is fixed on the friction fixing base, the friction slide activity sets up on the friction guide rail, the initiative friction pulley sets up on the friction slide through the pivot, friction motor sets up on the friction slide, and can drive the initiative friction pulley rotates, be close to the cylinder setting on the friction fixing base, and can drive the friction slide to the friction from the removal of driving wheel one side direction messenger this friction from the driving wheel with the initiative friction pulley contacts.

4. The automatic coating equipment for the rotating shaft shell of the notebook computer, according to claim 2, is characterized in that: the outer side of the corresponding friction driven wheel is arranged on the turntable, and the jacking device comprises a jacking cylinder and a jacking wheel arranged on a piston rod of the jacking cylinder.

5. The automatic coating equipment for the rotating shaft shell of the notebook computer according to claim 1, wherein: the film peeling mechanism comprises a film peeling plate, a film peeling seat, an upper guide roller and a lower guide roller, the film peeling seat is arranged on the support plate, the tail end of the film peeling plate is fixed on the film peeling seat, the front end of the film peeling plate extends towards the direction of the rotary table driving device, the upper position of the upper guide roller corresponding to the film peeling seat is arranged on the support plate, and the lower position of the lower guide roller corresponding to the film peeling seat is arranged on the support plate.

6. The automatic coating equipment for the rotating shaft shell of the notebook computer, according to claim 5, is characterized in that: the film pressing mechanism comprises a supporting rod, a film pressing cylinder and a pressing roller, the tail end of the supporting rod is arranged on the supporting plate, the front end of the supporting rod extends to the position above the front end of the film stripping plate, the film pressing cylinder is fixed at the front end of the supporting rod, and the pressing roller is arranged on a piston rod of the film pressing cylinder.

7. The automatic coating equipment for the rotating shaft shell of the notebook computer, according to claim 6, is characterized in that: the front end of the supporting rod extends downwards in an inclined mode, and the inclined angle is 17-20 degrees.

8. The automatic coating equipment for the rotating shaft shell of the notebook computer according to claim 1, wherein: position adjustment mechanism includes X axle moving mechanism, inclination adjustment mechanism, elevating system and Y axle moving mechanism, inclination adjustment mechanism sets up on X axle moving mechanism to reciprocating motion is made along X axle direction to the drive that receives X axle moving mechanism, elevating system sets up on the inclination adjustment mechanism, Y axle moving mechanism sets up on elevating system to reciprocating motion is made along Z axle direction to the drive that receives elevating system, the extension board sets up on Y axle moving mechanism.

9. The automatic coating equipment for the rotating shaft shell of the notebook computer, according to claim 8, is characterized in that: inclination adjustment mechanism includes PMKD, pivot seat, regulating plate, lower rotation piece, goes up rotation piece and adjustment handle, the pivot seat is fixed PMKD's a side position, the terminal surface of lower rotation piece sets up the opposite side position at this PMKD through the pivot activity, the middle part position of this lower rotation piece be equipped with the screw of adjustment handle's screw rod looks adaptation, a side pin joint of regulating plate is in on the pivot seat, the terminal surface of going up the rotation piece sets up the opposite side position at this PMKD through the pivot activity, adjustment handle passes through the bearing and sets up on last rotation piece, and this adjustment handle's screw rod twists the screw.

10. The automatic coating equipment for the rotating shaft shell of the notebook computer according to claim 1, wherein: the feeding roll is positioned above the collecting roll.

Images