CN111361985A - Device for bearing and assembling LED lampshade - Google Patents

Abstract

The invention relates to a device for carrying and assembling an LED lampshade, which comprises a rotating shaft which is rotatably assembled on a carrying disc, wherein an expansion component is arranged on the rotating shaft, and the expansion component is inserted into an inner cavity of a workpiece to expand and retract so as to realize the assembly and the disassembly of the workpiece. The automatic feeding and discharging device is stable in structure and reasonable in layout, and realizes the automatic feeding and discharging function, so that the coating efficiency can be improved due to continuous processing operation.

Description

Device for bearing and assembling LED lampshade

Technical Field

The invention relates to the field of automatic production lines, in particular to a device for carrying and assembling an LED lampshade.

Background

In the fields of electronic equipment, lamps and lanterns etc., often need to the one deck protective layer of coating of column, drum form casing surface, the most manual operation of current application operation is accomplished, and production efficiency is low, is difficult to adapt to large batch production demand, consequently needs to provide a device that satisfies the automated production demand.

Disclosure of Invention

The invention aims to provide a device for carrying and assembling an LED lampshade, which can realize automatic feeding and discharging, carrying and conveying and improve the production efficiency.

The technical scheme adopted by the invention is as follows.

The utility model provides a device for carrying out bearing assembly to LED equipment which characterized in that: the bearing mechanism comprises a rotating shaft (120) which is rotatably assembled on the bearing disc (110), an expansion component is arranged on the rotating shaft (120), and the expansion component is inserted into the inner cavity of the workpiece to expand and retract so as to realize the assembly and the unloading of the workpiece to be coated;

preferably, it is characterized in that: a bevel gear A is respectively assembled on the shaft body of each rotating shaft (120) positioned at the inner side of the bearing disc (110), each expansion assembly is respectively arranged on the shaft body of each rotating shaft (120) extending to the outer side of the bearing disc (110), a bevel gear B is arranged beside the bearing disc (110) and is concentrically arranged with the bearing disc (110), the bevel gear B is fixedly installed relative to the bearing disc (110), and each bevel gear A is respectively connected with the bevel gear B in a meshing manner.

Preferably, it is characterized in that: the expansion assembly comprises an expansion claw (122) and an adjusting rod (123), the expansion claw (122) is rotatably installed on the pipe wall of the tubular section, the rotation direction of the expansion claw (122) is perpendicular to the radial direction of the rotation shaft (120), a cam abutting part is arranged at the part of the expansion claw (122) extending to the outer side of the tubular section, sector teeth are arranged at the part of the expansion claw (122) extending to the inner side of the tubular section, the expansion claw (122) is arranged along the length direction and/or the circumferential direction of the rotation shaft (120) at intervals, the adjusting rod (123) is assembled in the tubular section in a sliding mode along the length direction, the length directions of the adjusting rod (123) and the rotation shaft (120) are kept consistent and concentrically, an adjusting surface part is arranged on the adjusting rod (123), the adjusting surface part is formed by a straight rack, the straight rack is meshed with the sector teeth, and the sliding adjusting rod (123) synchronously adjusts the cam abutting part on each expansion claw (122) to realize a tensioning clamp for a workpiece Sustained and released.

Preferably, it is characterized in that: a driving spring (121) is arranged between the adjusting rod (123) and the rotating shaft (120), the driving spring (121) drives the adjusting rod (123) to be separated from the tubular section, the cam abutting portion performs tensioning clamping on the workpiece when the distance between the outer end of the adjusting rod (123) and the A bevel gear is maximum, and the cam abutting portion and the workpiece are loosened when the distance between the outer end of the adjusting rod (123) and the A bevel gear is gradually reduced.

Preferably, it is characterized in that: the adjusting rod (123) is provided with adjusting grooves (124) at intervals along the circumferential direction, and the groove bottoms of the adjusting grooves (124) form the adjusting surface part.

Preferably, it is characterized in that: the feeding device (200) comprises a feeding mechanical arm (210), the feeding mechanical arm (210) comprises a clamping piece (211) used for clamping a workpiece and an A abutting rod used for penetrating through an assembling hole 630 on the surface B620 to abut against and push an adjusting rod (123) at a feeding station, and the feeding mechanical arm (210) can move at least along the radial direction of the bearing disc (110).

Preferably, it is characterized in that: feeding manipulator (210) arrange the tail end at cloth slot (220), and the work piece is arranged in cloth slot (220) form and is arranged, and holder (211) include the clamping cover body, and the shape phase-match of the shape of the clamping cover body and work piece is provided with clamping fittings on the internal face of the clamping cover body, and A supports the pole and installs in the clamping cover body, and the clamping cover body possesses following station state at least:

the method comprises the following steps: retracting the workpiece in the distributing chute (220) to move to an avoiding position arranged corresponding to the clamping cover body;

the second is as follows: the work piece at the tail end of the material distribution groove (220) is clamped and pushed to be assembled on the work position of the expansion component at the material loading station.

Preferably, it is characterized in that: the clamping fittings are formed by air inflation and exhaust air bags.

Preferably, it is characterized in that: the discharging device (500) comprises a B abutting rod (510) which penetrates through an assembly hole on the surface B and abuts against and pushes an adjusting rod (123) at the discharging station, and the B abutting rod (510) at least has the following station states:

the method comprises the following steps: the B abutting rod (510) is used for abutting against the adjusting rod (123) to enable the dried workpiece to be unloaded from the expansion assembly at the unloading station and to follow the rod body of the B abutting rod (510) to slide downwards;

the second is as follows: the B abutting rod (510) moves out of the inside of the workpiece after sliding downwards to form an avoidance position which enables the workpiece after sliding downwards to be moved away.

An apparatus for coating an LED lamp cover: the device for carrying and assembling the LED lampshade comprises the device for carrying and assembling the LED lampshade, which is disclosed by any one of claims 1-9.

Compared with the prior art, the technical scheme provided by the invention can realize automatic feeding and discharging, bearing and conveying, so that the coating efficiency can be improved due to continuous processing operation, and the automatic production requirement can be met.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a coating mechanism according to the present invention;

FIG. 2 is a schematic view of the position distribution of the devices at each station of the apparatus;

FIG. 3 is a schematic view of a coating station;

FIG. 4 is a schematic structural diagram of a carrier;

FIG. 5 is a schematic view of a rotating shaft;

FIG. 6 is a schematic structural diagram of a loading and unloading station;

fig. 7 is a schematic structural view of a workpiece to be coated.

The drawings are related as follows: 100-bearing device, 110-bearing disc, 120-rotation figure, 121-driving spring, 122-expansion claw, 123-adjusting rod, 124-adjusting groove, 300-feeding device, 210-feeding mechanical arm, 211-clamping piece, 220-distributing groove, 300-coating device, 310-coating piece, 320-coating groove, 321-feeding port, 322-discharging port, 330-liquid groove, 400-drying device, 410-drying cover body, 500-discharging device, 510-B support rod, 600-workpiece to be coated, 610-A surface and 620-B surface.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As used herein, the terms "parallel," "perpendicular," and the like are not limited to their strict geometric definition, but include tolerances for machining or human error, reasonable and inconsistent.

Referring to fig. 1-2, the coating apparatus includes a bearing device 100 for assembling a workpiece 600 to be coated and a coating device 300 for transferring a coating liquid onto a coating surface of the workpiece 600 to be coated assembled on the bearing device 100, the bearing device 100 and the coating device 300 are correspondingly arranged, and the coating device 300 is provided with a coating mechanism which is matched with the structure of the coating surface.

Referring to fig. 3 and 7, the coating surface comprises an a surface 610 on the outer surface of the workpiece, the coating mechanism comprises a coating member 310, the coating member 310 is provided with a coating groove 320, and the cross section shape of the coating groove 320 is consistent with the shape of the revolution surface, so that the coating in the coating ‍ groove is only coated on the outer surface of the workpiece and does not enter the workpiece. When the workpiece is positioned in the coating tank, the workpiece 600 to be coated and the coating tank 320 rotate relatively around the rotating shaft of the rotating surface, so that the coating can be uniformly coated.

The coating tank 320 may adopt a linear tank embodiment, and the workpiece 600 to be coated may relatively move along the length direction of the coating tank 320 during operation, but this embodiment requires the reciprocating movement of the linear tank, which is not favorable for the implementation of a continuous production line.

The coating tank 320 may be one of an arc-shaped tank, a circular tank and a spiral tank, and the workpiece 600 to be coated in the working position may relatively rotate along the axis/center line of the coating tank 320. Compared with a straight line groove, the coating device can prolong the time of the workpiece to be coated staying in the coating groove 320 without stopping so as to ensure that the workpiece is coated fully and uniformly,

the application is preferably carried out in such a manner that the applicator 310 is annular or disk-shaped, the applicator 310 is rotatably attached, the application tank 320 is provided in the peripheral wall of the applicator 310 as a spiral line tank, and the outer periphery of the application tank 320 is provided with a liquid replenishment mechanism for replenishing the application liquid into the application tank 320. The device is convenient for the liquid supplementing mechanism to supplement liquid, reduces the liquid supplementing time, and can be provided with a coating and drying integrated continuous production line.

Preferably, the coating tank 320 is a spiral tank, a feeding port 321 through which the workpiece 600 to be coated enters the coating tank 320 is arranged on a tank wall at a head end of the spiral tank, a discharging port 322 through which the coated workpiece leaves the coating tank 320 is arranged on a tank wall at a tail end of the spiral tank, the feeding port 321 and the discharging port 322 are correspondingly arranged, directions of the feeding port 321 and the discharging port 322 are the same or parallel, the coated workpiece at a previous time is removed from the coating tank 320 when the next workpiece 600 to be coated enters the coating tank 320, and a guiding surface portion is formed on a tank wall provided with the feeding port 321 and the discharging port 322 and forms an inclined surface guiding fit with the workpiece so that the workpiece enters and exits the coating tank 320. The guide surface part arranged on the coating groove 320 can enable the workpiece to move into and out of the coating groove more smoothly, and the workpiece is prevented from damaging the coated surface due to rigid impact.

Preferably, the number of turns of the spiral wire slot is set to 1, which is set to control the rotational speed of the coating member 310. if the number of turns is too large, to ensure that the workpiece passes through the coating tank 320 within a fixed time, the rotational speed of the coating member 310 will inevitably be raised, resulting in uneven coating of the workpiece in the coating tank 320.

The spiral groove is not strictly a spiral groove, and in fact, the spiral groove is arranged to be adapted to the outer surface of the workpiece, and the groove depth direction of the spiral groove slightly changes along with the change of the rotation posture of the workpiece, so as to meet the coating requirement. The adjustment can be carried out by those skilled in the art according to the corresponding requirements.

Further, the liquid replenishment mechanism includes a liquid tank 330 for holding the coating liquid, the coating member 310 is arranged in a standing state, the lower portion of the coating member 310 is immersed in the coating liquid, and the work 600 to be coated in the working position is located in the upper coating tank 320 of the coating member 310. Therefore, when the coating device works, the coating piece rotates, and the coating liquid in the liquid groove 330 is automatically supplemented into the coating groove, so that the production line is prevented from stopping and supplementing the coating liquid, and the waste of the coating can be effectively reduced.

Further, a coating nap layer for adsorbing the coating liquid and coating the coating liquid on the coated surface of the work is provided on the groove wall and the groove bottom of the coating groove 320. The paint can be fully absorbed when the liquid is replenished, and can be fully coated when the paint is coated. Compared with spraying, the coating is saved, and the method is suitable for mass production.

Referring to fig. 7, the workpiece is in a shape of a cap, the cap of the workpiece is provided with an assembly hole 630, and the coating surface further includes a cap surface on the outer surface of the workpiece 600 to be coated.

Referring to fig. 2, 4 and 5, the carrying device 100 includes a carrying tray 110, the carrying tray 110 is rotatably installed, carrying mechanisms for carrying the workpieces 600 to be coated are arranged at intervals around the carrying tray 110, the workpieces 600 to be coated are detachably mounted on the carrying mechanisms, and the carrying mechanisms are rotatably mounted on the carrying tray 110. The arrangement can ensure that the workpiece rotates along with the bearing disc, and the motion trail is in a circular shape.

Preferably, a loading station, a coating station, a drying station and an unloading station are sequentially arranged on the periphery of the bearing disc 110 along the rotation direction of the bearing disc 110, the coating station is located right below the turntable, the coating device 300 is arranged at the coating station, the loading station is provided with the loading device 200 for assembling a workpiece on the bearing device 100, the drying station is provided with the drying device 400 for drying the coated workpiece, and the unloading station is provided with the unloading device 500 for unloading the dried workpiece on the bearing device 100. When the workpiece rotates along with the bearing plate, the workpiece can sequentially pass through the stations to complete the whole processes of feeding, coating, drying and discharging, and a large amount of space is saved compared with the stations arranged longitudinally.

Preferably, the rotation axis of the carrier tray 110 and the rotation axis of the coating member 310 are arranged perpendicularly. Compared with the arrangement that the rotating shaft of the bearing disc 110 and the rotating shaft of the coating piece 310 are arranged in parallel, the arrangement can enable the workpiece to stay in the coating groove 320 for a longer time, and the coating is more sufficient.

Preferably, the bearing mechanism comprises a rotating shaft 120 rotatably assembled on the bearing plate 110, and an expansion assembly is arranged on the rotating shaft 120 and inserted into the inner cavity of the workpiece to expand and retract so as to assemble and disassemble the workpiece to be coated. The expansion component is inserted into the inner cavity of the workpiece for fixation, so that the surface of the workpiece to be coated can be avoided, and the workpiece can be completely coated.

Preferably, the shaft body of each rotating shaft 120 located at the inner side of the carrier plate 110 is respectively provided with an a bevel gear, each expansion assembly is respectively arranged on the shaft body of each rotating shaft 120 extending to the outer side of the carrier plate 110, a B bevel gear is arranged beside the carrier plate 110 and is concentrically arranged with the carrier plate 110, the B bevel gear is fixedly mounted relative to the carrier plate 110, and each a bevel gear is respectively in meshed connection with the B bevel gear. When bearing the dish 110 and rotating like this, install and install that rotation axis 120 extends to the work piece that bears the dish 110 outside axle body and not only follow and bear dish 110 and rotate, still rotation simultaneously, can make the coating of work piece, dry more abundant in follow-up coating, the drying station like this.

Preferably, the shaft body of the rotating shaft 120 extending to the outer side of the bearing disc 110 is provided as a tubular section, the expansion assembly comprises expansion claws 122 and adjusting rods 123, the expansion claws 122 are rotatably mounted on the pipe wall of the tubular section, the rotating direction of the expansion claws 122 is perpendicular to the radial direction of the rotating shaft 120, the parts of the expansion claws 122 extending to the outer side of the tubular section are provided with cam abutting parts, the parts of the expansion claws 122 extending to the inner side of the tubular section are provided with sector teeth, the expansion claws 122 are arranged at intervals along the radial direction and/or the circumferential direction of the rotating shaft 120, the adjusting rods 123 are slidably assembled in the tubular section along the length direction thereof, the length directions of the adjusting rods 123 and the rotating shaft 120 are kept consistent and concentrically, the adjusting rods 123 are provided with adjusting surface parts, the adjusting surface parts are formed by straight racks, the straight racks are engaged with the sector teeth, and the sliding adjusting rods 123 synchronously adjust the cam abutting parts on. If the expansion assembly is controlled by a pneumatic or electric element, the integral structure is more complex and bloated inevitably, so the mechanism adopts a mechanical structure, has a simple structure and is more stable in work.

Preferably, a driving spring 121 is arranged between the adjusting rod 123 and the rotating shaft 120, the driving spring 121 drives the adjusting rod 123 to separate from the tubular section, the cam abutting portion performs tensioning clamping on the workpiece when the distance between the outer end of the adjusting rod 123 and the bevel gear A is maximum, and the cam abutting portion performs loosening between the outer end of the adjusting rod 123 and the workpiece when the distance between the outer end of the adjusting rod 123 and the bevel gear A is gradually reduced. When the device works, the abutting rod pushes the adjusting rod 123, the driving spring 121 is compressed, and the expansion claw 122 releases the workpiece; when the holding rod retracts, the driving spring 121 rebounds, and the expansion claw 122 clamps the workpiece.

Preferably, the adjusting rod 123 is provided with adjusting grooves 124 at intervals along the circumferential direction thereof, and the groove bottoms of the adjusting grooves 124 constitute the adjusting surface portion. The arrangement can ensure that the workpiece is clamped and prevent the workpiece from falling off in the conveying process.

Referring to fig. 1 and 6, the drying device 400 includes a drying enclosure 410 having an arc-shaped outer contour, a heating element is disposed in the drying enclosure 410, the heating element is disposed along two outer sides of a moving path of the workpiece, and the drying enclosure 410 is further connected to an air inducing element. After the workpiece is coated, the workpiece needs to be heated and blown by a drying station to achieve the purpose of drying.

The loading device 200 comprises a loading manipulator 210, the loading manipulator 210 comprises a clamping piece 211 for clamping a workpiece and an A abutting rod for penetrating through a mounting hole 630 on the B surface 620 and abutting against an adjusting rod 123 at a loading station, and the loading manipulator 210 can move at least along the radial direction of the carrier tray 110. When the clamping device works, the A abutting rod can penetrate through the assembly hole 630 to abut against and push the adjusting rod, so that the purposes of loosening and clamping a workpiece are achieved.

Feeding manipulator 210 arranges the tail end at distributing trough 220, and the work piece is arranged in distributing trough 220 the form and is arranged, and holder 211 includes the clamping cover body, and the shape of the clamping cover body and the shape phase-match of work piece are provided with clamping fittings on the internal face of the clamping cover body, and A supports the pole and installs in the clamping cover body, and the clamping cover body possesses following station state at least:

the method comprises the following steps: retracting the workpiece in the distribution chute 220 and moving the workpiece to an avoidance position arranged corresponding to the clamping cover body;

the second is as follows: the work piece at the tail end of the material distribution groove 220 is clamped and pushed to be assembled on the work position of the expansion component at the feeding station.

The time that the clamping piece still need adjust the gesture after the centre gripping work piece has been practiced thrift in this setting, has improved material loading efficiency greatly.

Preferably, the clamping fitting is formed as an inflatable bladder. The air bag can avoid damaging the surface of the workpiece to be coated during clamping.

The discharging device 500 comprises a B-shaped abutting rod 510 which penetrates through a mounting hole 630 on the B surface 620 and abuts against the adjusting rod 123 at the discharging station, and the B-shaped abutting rod 510 at least has the following station states:

the method comprises the following steps: the B abutting rod 510 is used for abutting against the adjusting rod 123 to enable the dried workpiece to be unloaded from the expansion component at the unloading station and to follow the working position where the rod body of the B abutting rod 510 slides downwards;

the second is as follows: and the B abutting rod 510 is moved out of the inside of the workpiece after sliding downwards, so that the workpiece after sliding downwards can be moved away.

The device has the advantages that the workpiece slides down along the pushing rod by using gravity when unloading, the structure is simple, and the space is saved.

The invention also comprises an automatic coating method applied in the equipment, and the specific scheme is as follows:

the scheme is that the workpiece 600 to be coated is conveyed at intervals according to a preset track, and the workpiece 600 to be coated is automatically coated in the conveying process.

The technical scheme provided by the embodiment can replace manual spraying, improve the coating efficiency and meet the requirement of large-scale production.

Further, the workpieces 600 to be coated are mounted at intervals on the periphery of the carrier tray 110, and the workpieces 600 to be coated are conveyed along a circumferential track as the carrier tray 110 rotates.

Further, the expansion claws 122 of the carrier tray 110 extend into the inner surface of the workpiece 600 to be coated to clamp the workpiece, so that the workpiece rotates along with the carrier tray 110.

Further, during the conveyance, the workpiece 600 to be coated rotates along its own axis while following the rotation of the carrier tray 110.

Further, a loading station, a coating station, a drying station and an unloading station are sequentially arranged on the periphery of the bearing disc 110 along the rotation direction of the bearing disc 110, and the expansion claw 122 clamps the workpiece 600 to be coated at the loading station and releases the workpiece to the unloading station after passing through the coating station, the drying station.

Further, at the loading and/or unloading station, the pushing and/or pushing rod of the loading and/or unloading device is pushed and/or retracted, the driving spring 121 is compressed and/or rebounded, the adjusting rod 123 is slid, and the expansion claw 122 is loosened and/or the workpiece is clamped.

Further, the workpiece 600 to be coated enters the coating groove 320 on the coating member 310 through a predetermined trajectory for roll coating.

Further, the coating tank 320 is a spiral tank opened on the peripheral wall of the coating member 310, and when the workpiece 600 to be coated enters the coating tank 320, the workpiece and the coating tank 320 relatively rotate along the axis/center line of the coating tank.

Further, when the workpiece 600 to be coated enters the coating station, the coating member 310 is rotated, and the liquid replenishment is completed by the liquid tank 330 containing the coating liquid placed below the coating member 310.

Further, a coating nap layer capable of adsorbing the coating liquid is provided on the groove wall and the groove bottom of the coating groove 320, and when the coating member 310 rotates, the coating nap layer adsorbs the coating liquid entering the groove, thereby completing the liquid replenishment.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a device that bears assembly to LED lamp shade which characterized in that: the bearing mechanism comprises a rotating shaft (120) which is rotatably assembled on the bearing disc (110), an expansion assembly is arranged on the rotating shaft (120), and the expansion assembly is inserted into an inner cavity of a workpiece to expand and retract so as to realize the assembly and the unloading of a workpiece to be coated.

2. The apparatus for carrying an assembly of LED lampshades according to claim 1, characterized in that: a bevel gear A is respectively assembled on the shaft body of each rotating shaft (120) positioned at the inner side of the bearing disc (110), each expansion assembly is respectively arranged on the shaft body of each rotating shaft (120) extending to the outer side of the bearing disc (110), a bevel gear B is arranged beside the bearing disc (110) and is concentrically arranged with the bearing disc (110), the bevel gear B is fixedly installed relative to the bearing disc (110), and each bevel gear A is respectively connected with the bevel gear B in a meshing manner.

3. The apparatus for carrying an assembly of LED lampshades according to claim 2, characterized in that: the expansion assembly comprises an expansion claw (122) and an adjusting rod (123), the expansion claw (122) is rotatably installed on the pipe wall of the tubular section, the rotation direction of the expansion claw (122) is perpendicular to the radial direction of the rotation shaft (120), a cam abutting part is arranged at the part of the expansion claw (122) extending to the outer side of the tubular section, sector teeth are arranged at the part of the expansion claw (122) extending to the inner side of the tubular section, the expansion claw (122) is arranged along the length direction and/or the circumferential direction of the rotation shaft (120) at intervals, the adjusting rod (123) is assembled in the tubular section in a sliding mode along the length direction, the length directions of the adjusting rod (123) and the rotation shaft (120) are kept consistent and concentrically, an adjusting surface part is arranged on the adjusting rod (123), the adjusting surface part is formed by a straight rack, the straight rack is meshed with the sector teeth, and the sliding adjusting rod (123) synchronously adjusts the cam abutting part on each expansion claw (122) to realize a tensioning clamp for a workpiece Sustained and released.

4. The apparatus for carrying an assembly of LED lampshades according to claim 2, characterized in that: a driving spring (121) is arranged between the adjusting rod (123) and the rotating shaft (120), the driving spring (121) drives the adjusting rod (123) to be separated from the tubular section, the cam abutting portion performs tensioning clamping on the workpiece when the distance between the outer end of the adjusting rod (123) and the A bevel gear is maximum, and the cam abutting portion and the workpiece are loosened when the distance between the outer end of the adjusting rod (123) and the A bevel gear is gradually reduced.

5. The apparatus for carrying an assembly of LED lampshades according to claim 4, characterized in that: the adjusting rod (123) is provided with adjusting grooves (124) at intervals along the circumferential direction, and the groove bottoms of the adjusting grooves (124) form the adjusting surface part.

6. The apparatus for carrying an assembly of LED lampshades according to claim 1, characterized in that: the feeding device (200) comprises a feeding mechanical arm (210), the feeding mechanical arm (210) comprises a clamping piece (211) used for clamping a workpiece and an A abutting rod used for penetrating through an assembling hole 630 on the surface B620 to abut against and push an adjusting rod (123) at a feeding station, and the feeding mechanical arm (210) can move at least along the radial direction of the bearing disc (110).

7. The apparatus for carrying an assembly of LED lampshades according to claim 6, characterized in that: feeding manipulator (210) arrange the tail end at cloth slot (220), and the work piece is arranged in cloth slot (220) form and is arranged, and holder (211) include the clamping cover body, and the shape phase-match of the shape of the clamping cover body and work piece is provided with clamping fittings on the internal face of the clamping cover body, and A supports the pole and installs in the clamping cover body, and the clamping cover body possesses following station state at least:

the method comprises the following steps: retracting the workpiece in the distributing chute (220) to move to an avoiding position arranged corresponding to the clamping cover body;

the second is as follows: the work piece at the tail end of the material distribution groove (220) is clamped and pushed to be assembled on the work position of the expansion component at the material loading station.

8. The apparatus for carrying an assembly of LED lampshades according to claim 7, wherein: the clamping fittings are formed by air inflation and exhaust air bags.

9. The apparatus for carrying an assembly of LED lampshades according to claim 6, characterized in that: the discharging device (500) comprises a B abutting rod (510) which penetrates through an assembly hole on the surface B and abuts against and pushes an adjusting rod (123) at the discharging station, and the B abutting rod (510) at least has the following station states:

the method comprises the following steps: the B abutting rod (510) is used for abutting against the adjusting rod (123) to enable the dried workpiece to be unloaded from the expansion assembly at the unloading station and to follow the rod body of the B abutting rod (510) to slide downwards;

the second is as follows: the B abutting rod (510) moves out of the inside of the workpiece after sliding downwards to form an avoidance position which enables the workpiece after sliding downwards to be moved away.

10. An apparatus for coating an LED lamp cover: the device for carrying and assembling the LED lampshade comprises the device for carrying and assembling the LED lampshade, which is disclosed by any one of claims 1-9.

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