阅读说明：本技术 一种led灯具的加工机构 (Processing mechanism of LED lamp ) 是由 沈克文 于 2020-12-01 设计创作，主要内容包括：本发明公开了一种LED灯具的加工机构,属于灯具外壳加工领域,包括模具组件,所述模具组件包括下模块,下模块固定安装,所述下模块的上方安装有上模块,且下模块顶端的两侧设置有穿插圆杆,穿插圆杆从上模块中穿过,上模块的两侧设置有和穿插圆杆相匹配的开孔,且上模块和穿插圆杆滑动连接,所述下模块的一侧固定安装有固定铰接块。本发明对灯具外壳壳体的打磨效率较高。(The invention discloses a processing mechanism of an LED lamp, which belongs to the field of lamp shell processing and comprises a die assembly, wherein the die assembly comprises a lower die block, the lower die block is fixedly installed, an upper die block is installed above the lower die block, inserting round rods are arranged on two sides of the top end of the lower die block and penetrate through the upper die block, holes matched with the inserting round rods are formed in two sides of the upper die block, the upper die block is connected with the inserting round rods in a sliding mode, and a fixed hinge block is fixedly installed on one side of the lower die block. The polishing efficiency of the lamp shell body is high.)

1. The utility model provides a processing agency of LED lamps and lanterns which characterized in that: comprises a die assembly (1), wherein the die assembly (1) comprises a lower die block (101), the lower die block (101) is fixedly installed, an upper die block (102) is arranged above the lower die block (101), penetrating round rods (103) are respectively arranged at two opposite ends of the top surface of the lower die block (101), the two penetrating round rods (103) penetrate through the upper die block (102), holes matched with the penetrating round rods (103) are respectively arranged at two opposite ends of the upper die block (102), the upper die block (102) is in sliding connection with the two penetrating round rods (103), a fixed hinge block (104) is fixedly installed at one side of the lower die block (101), a movable hinge block (105) is fixedly installed at one side of the upper die block (102), a bottom hinge rod (107) is installed at one side of the fixed hinge block (104), the end of the bottom hinge rod (107) is hinged with the fixed hinge block (104), a top hinge rod (106) is installed at one side of the movable hinge block (105), the end of top articulated rod (106) is articulated with removal articulated piece (105), and top articulated rod (106) and bottom articulated rod (107) one end that is close to each other are articulated each other, and one side that bottom articulated rod (107) were kept away from in fixed articulated piece (104) is provided with motor (108) that opens and shuts, and the motor that opens and shuts is fixed in down on the module, and fixed articulated piece (104) are passed to the output of motor (108) that opens and shuts to with bottom articulated rod (107) fixed connection.

2. The processing mechanism of the LED lamp according to claim 1, wherein: the top of lower module (101) is provided with die cavity (112), and the inboard of die cavity (112) is provided with two jack-up pieces (113), the both sides arm of lower module (101) all opens bar chute (109), the bar chute extends along vertical direction, and the inboard interlude of every bar chute (109) has extension rod (110), the end of extension rod (110) is connected through erectting quarter butt and jack-up piece (113), erect the quarter butt and alternate in the guiding hole of erectting of module down with sliding, another end of extension rod (110) is provided with the montant perpendicularly, the top of montant is provided with elevating platform (111), the middle part of extension rod is protruding downwards and is equipped with the gag lever post, the gag lever post is inserted in the lower guiding hole of locating lower module with sliding.

3. The processing mechanism of the LED lamp according to claim 2, wherein: the lower parts of the two opposite ends of the lower module (101) are respectively provided with a base plate (114), the top surface of each base plate (114) is connected with the bottom surface of the corresponding lifting platform (111) through a reset tension spring (115), the two ends of the upper module (102) are respectively provided with a lifting rod (116), the bottom end of each lifting rod (116) is provided with a lifting block (117), and each lifting block (117) is positioned under the lifting platform (111).

4. The processing mechanism of the LED lamp according to claim 3, wherein: one side of mould subassembly (1) is provided with two fortune material guide rails (2), two fortune material guide rails (2) independent fixed mounting, be provided with ejection of compact platform (3) on fortune material guide rail (2), and the bottom of ejection of compact platform (3) be provided with two fortune material guide rail (2) assorted ejection of compact slider (301), ejection of compact slider (301) and fortune material guide rail (2) sliding connection, one side of ejection of compact platform (3) is provided with rack (303), and one side of rack (303) is provided with gear (304), gear (304) and rack (303) intermeshing, gear (304) are installed on the output of carrying motor (305), carrying motor (305) fixed mounting, the length direction of fortune material guide rail and lower module is perpendicular.

5. The processing mechanism of the LED lamp according to claim 4, wherein: driven plate (306) is installed on the top of ejection of compact platform (3), driven plate (306) and ejection of compact platform (3) swivelling joint, the top fixed mounting of driven plate (306) twists reverse platform (307), twist reverse the bottom of platform (307) and install vacuum generator (308), the sucking disc (309) are installed on the top of platform (307) of twisting, the output of vacuum generator (308) passes through the pipeline and is connected with sucking disc (309), the pipeline between vacuum generator (308) and sucking disc (309) is arranged in the inboard of twisting platform (307).

6. The processing mechanism of the LED lamp according to claim 5, wherein: one side of ejection of compact platform (3) is equipped with extension piece (302) to the evagination, and action wheel (312) are installed on the top of extension piece (302), establish through belt (311) cover between action wheel (312) and driven plate (306) and connect, and the bottom fixed mounting of extension piece (302) has rotating electrical machines (310), and the output of rotating electrical machines (310) passes extension piece (302) to be connected with action wheel (312).

7. The processing mechanism of the LED lamp according to claim 6, wherein: two suspension guide rails (4) are arranged above the discharge table (3), the two suspension guide rails (4) are respectively and independently and fixedly installed, three groups of hoisting sliding blocks (401) are sleeved on the two suspension guide rails (4), the bottom ends of the three groups of hoisting sliding blocks (401) are respectively and fixedly installed with a left side objective table, a middle objective table and a right side objective table (402), a lifting cylinder (409) is installed at the bottom end of the middle objective table (402), a pressure plate (410) is installed at the output end of the lifting cylinder (409), a power motor (411) is installed at the bottom end of the pressure plate (410), a polishing disc (412) is installed at the output end of the power motor (411), square pipes (403) are respectively arranged on the left side objective table and the right side objective table (402), telescopic rods (404) are inserted into the inner sides of the square pipes (403), the telescopic rods (404) are slidably connected with the, and the bottom of telescopic link (404) is provided with elevating platform (406), and the elevating platform is located the below of left side objective table/right side objective table, and two grinding motor (407) are installed to the bottom of elevating platform (406) of left side objective table below, and bulb (408) are installed to the output of grinding motor (407), and cutting machine (413) are installed to the bottom of elevating platform (406) of right side objective table below, and the suspension guide rail is perpendicular with the fortune material guide rail.

8. The processing mechanism of the LED lamp according to claim 7, wherein: the top of suspension guide rail is provided with link (6), the bottom of link (6) is provided with three montant (7), three montant (7) respectively with the top surface fixed connection of left side/centre/right side objective table (402), one side of link (6) is installed and is twisted reverse motor (9), torsion bar (8) are installed to the output of twisting motor (9), the end fixed mounting of torsion bar (8) has crane (10), the middle part vertical fixation of crane is on the torsion bar, the torsion bar is perpendicular with the suspension guide rail, the crane is located the middle part of two suspension guide rails, two horizontal poles (405) alternate the inboard at crane (10) relative both ends respectively, horizontal pole (405) and crane (10) sliding connection.

9. The processing mechanism of the LED lamp according to claim 8, wherein: one side of suspension guide rail (4) is provided with locking platform (5), the top surface of locking platform (5) is provided with circular stand, the cover is equipped with toothed disc (501) on the circular stand in the middle of locking platform (5), reduction gear (502) are installed to one side of toothed disc (501), reduction gear (502) and toothed disc (501) intermeshing, gear motor (503) are installed to the bottom of locking platform (5), the output of gear motor (503) passes locking platform (5), in order to be connected with reduction gear (502), the top fixed mounting of toothed disc (501) has notch frame (504), notch frame is perpendicular with the suspension guide rail, wherein be in the spout inboard of notch frame (504) of interlude of montant (7) at the middle part, montant (7) and notch frame (504) sliding connection.

Technical Field

The invention relates to the field of lamp shell processing, in particular to a processing mechanism of an LED lamp.

Background

The lamp shell is an important device for home decoration, the LED lamp shell is required to be used in batches during decoration of buildings which are decorated uniformly, the lamp shell is made of most of plastic products, burrs and flashes need to be ground during production, the burrs and the flashes usually need to be manually processed by workers, and grinding efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a processing mechanism of an LED lamp, when the device is used, an opening and closing motor drives a bottom end hinge rod and a top end hinge rod to rotate, an upper module at the moment moves upwards along an inserting round rod, when lifting rods and lifting blocks at two sides of the upper module contact a lifting platform, the lifting platform moves upwards together with a jacking sheet, a lamp shell at the top end of the jacking sheet is jacked up, a carrying motor drives a rack to move through a gear, a discharging platform moves synchronously with the rack, when a twisting platform is inserted into the bottom end of the lamp shell, the upper module falls a small distance to be attached to a sucker, a vacuum generator extracts air in the sucker, the lamp shell and the sucker are adsorbed together, a rotating motor can drive a driven wheel and the twisting platform to rotate through a belt, and then a twist can reach three stations, the function of automatic transposition is realized.

In order to solve the above problems, the present invention provides the following technical solutions: the utility model provides a processing agency of LED lamps and lanterns which characterized in that: the die comprises a die assembly, wherein the die assembly comprises a lower die block, the lower die block is fixedly installed, an upper die block is arranged above the lower die block, two opposite ends of the top surface of the lower die block are respectively provided with an inserting round rod, the two inserting round rods penetrate through the upper die block, two opposite ends of the upper die block are respectively provided with an opening matched with the inserting round rods, the upper die block is in sliding connection with the two inserting round rods, one side of the lower die block is fixedly provided with a fixed hinge block, one side of the upper die block is fixedly provided with a movable hinge block, one side of the fixed hinge block is provided with a bottom hinge rod, the end of the bottom hinge rod is hinged with the fixed hinge block, one side of the movable hinge block is provided with a top hinge rod, the end of the top hinge rod is hinged with the movable hinge block, the adjacent ends of the top hinge rod and the bottom hinge rod are hinged with, the opening and closing motor is fixed on the lower module, and the output end of the opening and closing motor penetrates through the fixed hinge block to be fixedly connected with the bottom hinge rod.

In one of them embodiment, the top of lower module is provided with the die cavity, and the inboard of die cavity is provided with two jack-up pieces, the both sides arm of lower module has all been opened bar chute, bar chute extends along vertical direction, and the inboard interlude of every bar chute has the extension rod, the end of extension rod is connected through erectting quarter butt and jack-up piece, erect the quarter butt and slidingly alternate in the guiding hole of erectting of module down, another end of extension rod is provided with the montant perpendicularly, the top of montant is provided with the elevating platform, the middle part of extension rod is protruding downwards and is equipped with the gag lever post, the gag lever post is slidingly inserted and is located the lower guiding hole of module down.

In one embodiment, the lower parts of the two opposite ends of the lower module are respectively provided with a base plate, the top surface of each base plate is connected with the bottom surface of the corresponding lifting platform through a reset tension spring, the two ends of the upper module are respectively provided with a lifting rod, the bottom end of each lifting rod is provided with a lifting block, and each lifting block is positioned right below the lifting platform.

In one of them embodiment, one side of mould subassembly is provided with two fortune material guide rails, two fortune material guide rail independent fixed mounting, be provided with out the work or material rest on the fortune material guide rail, and the bottom of going out the work or material rest be provided with two fortune material guide rail assorted ejection of compact sliders, ejection of compact slider and fortune material guide rail sliding connection, one side of going out the work or material rest is provided with the rack, and one side of rack is provided with the gear, gear and rack intermeshing, the gear is installed on the output of carrying motor, delivery motor fixed mounting, fortune material guide rail is perpendicular with the length direction of lower module.

In one embodiment, a driven plate is installed at the top end of the discharging table and is rotatably connected with the discharging table, a twisting table is fixedly installed at the top end of the driven plate, a vacuum generator is installed at the bottom end of the twisting table, a sucking disc is installed at the top end of the twisting table, the output end of the vacuum generator is connected with the sucking disc through a pipeline, and the pipeline between the vacuum generator and the sucking disc is arranged on the inner side of the twisting table.

In one embodiment, one side of the discharging table is provided with an extending piece protruding outwards, the top end of the extending piece is provided with a driving wheel, the driving wheel is connected with a driven disc through a belt sleeve, the bottom end of the extending piece is fixedly provided with a rotating motor, and the output end of the rotating motor penetrates through the extending piece to be connected with the driving wheel.

In one embodiment, two suspension guide rails are arranged above the discharging table, the two suspension guide rails are respectively and independently and fixedly installed, three groups of hoisting slide blocks are sleeved on the two suspension guide rails, the bottom ends of the three groups of hoisting slide blocks are respectively and fixedly installed with a left side objective table, a middle objective table and a right side objective table, the bottom end of the middle objective table is provided with a lifting cylinder, the output end of the lifting cylinder is provided with a pressure plate, the bottom end of the pressure plate is provided with a power motor, the output end of the power motor is provided with a polishing disc, the left side objective table and the right side objective table are respectively provided with a square tube, the inner side of the square tube is inserted with a telescopic rod, the telescopic rod is in sliding connection with the square tube, the top end of the telescopic rod is provided with a lifting table, the lifting table is positioned below the left side, the bulb is installed to the output of motor of polishing, and the cutting machine is installed to the bottom of elevating platform below the right side objective table, and the suspension guide rail is perpendicular with the fortune material guide rail.

In one of them embodiment, the top of suspension guide rail is provided with the link, the bottom of link is provided with three montant, three montant respectively with the top surface fixed connection of left side/middle/right side objective table, the motor that twists reverse is installed to one side of link, the torsion bar is installed to the output that twists reverse the motor, the end fixed mounting of torsion bar has the crane, the middle part vertical fixation of crane is on the torsion bar, the torsion bar is perpendicular with the suspension guide rail, the crane is located the middle part of two suspension guide rails, two horizontal poles alternate the inboard at the relative both ends of crane respectively, horizontal pole and crane sliding connection.

In one of them embodiment, one side of suspension guide rail is provided with the locking platform, the top surface of locking platform is provided with circular stand, the cover is equipped with the toothed disc on the circular stand in the middle of the locking platform, reduction gear is installed to one side of toothed disc, reduction gear and toothed disc intermeshing, gear motor is installed to the bottom of locking platform, gear motor's output passes the locking platform, in order to be connected with reduction gear, the top fixed mounting of toothed disc has the notch frame, the notch frame is perpendicular with the suspension guide rail, wherein the montant that is in the middle part alternates at the spout inboard of notch frame, montant and notch frame sliding connection.

The invention has the beneficial effects that:

one of them, the device is when using, it is rotatory that the motor that opens and shuts is through driving bottom hinge bar and top hinge bar, module of going up at this moment so can be along interlude round bar rebound, when the lifting rod and the lifting piece of module both sides contact the elevating platform, the elevating platform can with jack-up piece rebound together, the lamps and lanterns shell on jack-up piece top has just been jack-up so, the delivery motor passes through the gear and drives the rack and move, it can and rack synchronous motion to go out the material platform, when twisting the platform and inserting lamps and lanterns shell bottom so, module of going up whereabouts a segment distance is laminated on the sucking disc, the air in the sucking disc is taken out to vacuum generator so, lamps and lanterns shell just adsorbs together with the sucking disc, the rotating electrical machines can drive from the driving wheel through the belt and twist reverse the platform rotation, it will reach three station so to turn round the revolving stage.

Two, gear motor passes through reduction gear and drives the toothed disc rotation, and the notch frame on toothed disc top passes through the three objective table in montant top and changes the station, so three objective table can arrive by turns and turn round the top of revolving stage, when twisting the rotation of motor top crane, two telescopic links can move down by turns, bulb and cutting machine can contact the lamps and lanterns shell respectively and process, have realized automatic processing's function, and increase the efficiency of polishing of the overlap of lamps and lanterns shell and burr.

Drawings

Fig. 1 is a schematic front view of a processing mechanism of an LED lamp.

FIG. 2 is a schematic diagram of a side view of a processing mechanism of the LED lamp.

FIG. 3 is a schematic view of a machining mechanism mold assembly of the LED lamp.

FIG. 4 is a schematic view of a processing mechanism mold assembly of an LED lamp at a second viewing angle.

Fig. 5 is a schematic sectional view of a processing mechanism of the LED lamp.

Fig. 6 is a schematic sectional view of a second viewing angle of the processing mechanism of the LED lamp.

Fig. 7 is a schematic diagram of a material conveying guide rail of a processing mechanism of an LED lamp.

Fig. 8 is a schematic view of a machining mechanism suspension rail of an LED lamp.

Description of reference numerals:

1-mould assembly, 101-lower mould block, 102-upper mould block, 103-insertion round bar, 104-fixed hinged block, 105-movable hinged block, 106-top hinged bar, 107-bottom hinged bar, 108-opening and closing motor, 109-bar chute, 110-extension bar, 111-lifting table, 112-mould cavity, 113-jacking piece, 114-base plate, 115-reset tension spring, 116-lifting bar, 117-lifting block, 2-material conveying guide rail, 3-discharging table, 301-discharging slide block, 302-extension piece, 303-rack, 304-gear, 305-conveying motor, 306-driven plate, 307-twisting table, 308-vacuum generator, 309-suction cup, 310-rotating motor, 311-belt, 312-driving wheel, 4-suspension guide rail, 401-hoisting slide block, 402-object stage, 403-square tube, 404-telescopic rod, 405-cross rod, 406-lifting stage, 407-grinding motor, 408-ball head, 409-lifting cylinder, 410-pressure plate, 411-power motor, 412-grinding disc, 413-cutting machine, 5-locking stage, 501-gear disc, 502-reduction gear, 503-reduction motor, 504-notch frame, 6-connecting frame, 7-vertical rod, 8-torsion rod, 9-torsion motor and 10-lifting frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 8, the processing mechanism of an LED lamp includes a mold assembly 1, the mold assembly 1 includes a lower mold block 101, the lower mold block 101 is fixedly installed, for example, fixedly installed relative to the ground, an upper mold block 102 is disposed above the lower mold block 101, two penetrating rods 103 are respectively disposed at two opposite ends of the top surface of the lower mold block 101, the two penetrating rods 103 penetrate through the upper mold block 102, two opposite ends of the upper mold block 102 are respectively provided with openings matched with the penetrating rods 103, the upper mold block 102 is slidably connected to the two penetrating rods 103, a fixed hinge block 104 is fixedly installed at one side of the lower mold block 101, a movable hinge block 105 is fixedly installed at one side of the upper mold block 102, a bottom hinge rod 107 is installed at one side of the fixed hinge block 104, the end of the bottom hinge rod 107 is hinged to the fixed hinge block 104, a top hinge rod 106 is installed at one side of the movable hinge block 105, the end of top articulated rod 106 is articulated with removal articulated piece 105, and the one end that top articulated rod 106 and bottom articulated rod 107 are close to each other is articulated each other, one side that bottom articulated rod 107 was kept away from to fixed articulated piece 104 is provided with motor 108 that opens and shuts, and the motor that opens and shuts is fixed in down on the module or is fixed in ground, and the output of motor 108 that opens and shuts passes fixed articulated piece 104 and bottom articulated rod 107 and connect, and when motor 108 that opens and shuts drove bottom articulated rod 107 rotatory, top articulated rod 106 also followed the rotation to impel to go up module 102 along interlude round bar 103 rebound. The combination of the upper and lower modules may be used to manufacture a lamp housing.

The top of lower module 101 is provided with die cavity 112, and the inboard of die cavity 112 is provided with two jack-up pieces 113, the both sides wall of lower module 101 has all been opened bar chute 109, the bar chute extends along vertical direction, and the inboard interlude of every bar chute 109 has extension rod 110, extension rod 110's end is connected through erectting quarter butt and jack-up piece 113, erect during the quarter butt wears to locate the module down erectting the guiding hole with sliding, another end of extension rod 110 is provided with the montant perpendicularly, the top of montant is provided with elevating platform 111, the middle part of extension rod is protruding downwards and is equipped with the gag lever post, the gag lever post is inserted in the lower guiding hole of locating module down with sliding.

The lower parts of the two opposite ends of the lower module 101 are respectively provided with a base plate 114, the top surface of the base plate 114 is connected with the bottom surface of the corresponding lifting platform 111 through a reset tension spring 115, the two ends of the upper module 102 are respectively provided with a lifting rod 116, the bottom end of each lifting rod 116 is provided with a lifting block 117, each lifting block 117 is located under the lifting platform 111, the upper module 102 moves upwards, the lifting rods 116 and the lifting blocks 117 on the two sides of the upper module 102 can contact the lifting platform 111, the lifting platform 111 and the reset tension spring can be stretched at the moment, the other end of the extension rod 110 can move the jacking piece 113, and the vertical rod and the limiting rod can ensure that the extension rod is not easy to deflect and is straight up and down. At this time, the lamp housing is also separated from the lower module 101, and when the upper module 102 is reset, the lifting table 111 falls down by the reset tension spring 115.

One side of the mould assembly 1 is provided with two material conveying guide rails 2, and the two material conveying guide rails 2 are independently and fixedly installed, for example, fixedly installed relative to the ground. Fortune is provided with out material platform 3 on the material guide rail 2, and the bottom of going out material platform 3 be provided with two fortune material guide rail 2 assorted ejection of compact sliders 301, ejection of compact slider 301 and fortune material guide rail 2 sliding connection, one side of going out material platform 3 is provided with rack 303, and one side of rack 303 is provided with gear 304, gear 304 and rack 303 intermeshing, and gear 304 is installed on the output of carrying motor 305, and carrying motor 305 fixed mounting, for example, fortune material guide rail fixed mounting relatively. The carrying motor 305 drives the rack 303 to operate through the gear 304, so that the discharging table 3 and the rack 303 run synchronously, and the discharging table 3 slides along the material conveying guide rail 2 through the discharging slide block 301. The material conveying guide rail is vertical to the length direction of the lower module.

Driven plate 306 is installed on the top of ejection of compact platform 3, driven plate 306 and ejection of compact platform 3 swivelling joint, driven plate 306's top fixed mounting twists reverse platform 307, twist reverse platform 307's bottom and install vacuum generator 308, twist reverse platform 307's top and install sucking disc 309, vacuum generator 308's output passes through the pipeline and is connected with sucking disc 309, the pipeline between vacuum generator 308 and sucking disc 309 is arranged at the inboard that twists reverse platform 307, when twisting reverse platform 307's end and inserting module 101 and last module 102 in the middle of, go up module 102 and drive the lamp housing a little down a bit a little again, until lamp housing and sucking disc 309 laminating together, vacuum generator 308 takes out the air in sucking disc 309, lamp housing at this moment just with sucking disc 309 adsorb together, thereby lamp housing will be transported out with ejection of compact platform 3 rotates together.

Go out one side of material platform 3 and outwards protruding be equipped with extension piece 302, extension piece 302's top is installed action wheel 312, establish through belt 311 cover between action wheel 312 and the driven plate 306 and be connected, the bottom fixed mounting who extends piece 302 has rotating electrical machines 310, rotating electrical machines 310's output passes extension piece 302, with be connected with action wheel 312, rotating electrical machines 310 drives driven plate 306 rotatory through belt 311, so driven plate 306 can rotate three angle and change the station, for example, rotatory module and lower module between getting into, thereby realized the function of automatic change station.

Two suspension guide rails 4 are arranged above the discharging table 3, the two suspension guide rails 4 are respectively and independently and fixedly installed, for example, fixedly installed relative to the ground, three groups of hoisting sliding blocks 401 are sleeved on the two suspension guide rails 4, the bottom ends of the three groups of hoisting sliding blocks 401 are respectively and fixedly installed with a left side objective table, a middle objective table and a right side objective table 402, a lifting cylinder 409 is installed at the bottom end of the middle objective table 402, a pressure plate 410 is installed at the output end of the lifting cylinder 409, a power motor 411 is installed at the bottom end of the pressure plate 410, a polishing disc 412 is installed at the output end of the power motor 411, a square pipe 403 is arranged on each of the left side objective table and the right side objective table 402, a telescopic rod 404 is inserted into the inner side of the square pipe 403, the telescopic rod 404 is in sliding connection with the square pipe 403, a cross rod 405 is arranged at, two grinding motors 407 are installed at the bottom end of the lifting platform 406 below the left object stage, a ball head 408 is installed at the output end of the grinding motor 407, a cutting machine 413 is installed at the bottom end of the lifting platform 406 below the right object stage, the three object stages 402 can slide along the suspension guide rail 4 respectively, the torsion platform 307 is also in rotating fit when the object stages 402 slide, and then the three object stages 402 can reach the upper part of the torsion platform 307 in turn. The suspension guide rail is perpendicular to the material conveying guide rail.

A connecting frame 6 is arranged above the suspension guide rails, three vertical rods 7 are arranged at the bottom end of the connecting frame 6, the three vertical rods 7 are respectively and fixedly connected with the top surfaces of the left/middle/right object stages 402, a torsion motor 9 is arranged at one side of the connecting frame 6, a torsion rod 8 is arranged at the output end of the torsion motor 9, a lifting frame 10 is fixedly arranged at the end head of the torsion rod 8, the middle part of the lifting frame is vertically fixed on the torsion rod, the torsion rod is vertical to the suspension guide rails, the lifting frame is positioned at the middle parts of the two suspension guide rails, two cross rods 405 are respectively inserted at the inner sides of the two opposite ends of the lifting frame 10, the cross rods 405 are in sliding connection with the lifting frame 10, the three object stages 402 are connected into a whole through the connecting frame 6, when the lifting frame 10 is driven by the torsion motor 9 to rotate, one of the telescopic rods 404 can fall down, when the lifting frame 406, when twisting table 307 is oriented towards the neutral position, power motor 411 and grinding disc 412 fall directly to remove burrs and fins from the lamp housing.

One side of the suspension guide rail 4 is provided with a locking platform 5 which is fixedly arranged relative to the ground, the top surface of the locking platform 5 is provided with a circular upright post, a gear disc 501 is sleeved on the circular upright post in the middle of the locking platform 5, one side of the gear disc 501 is provided with a reduction gear 502, the reduction gear 502 and the gear disc 501 are mutually meshed, the bottom end of the locking platform 5 is provided with a reduction motor 503, the output end of the reduction motor 503 passes through the locking platform 5, so as to be connected with a reduction gear 502, a notch frame 504 is fixedly arranged at the top end of the gear plate 501, the notch frame is vertical to the suspension guide rail, the vertical rod 7 in the middle is inserted into the inner side of the sliding groove of the notch frame 504, the vertical rod 7 is connected with the notch frame 504 in a sliding mode, the gear wheel 501 is driven by the speed reducing motor 503 through the speed reducing gear 502 to rotate, the gear wheel 501 drives the vertical rod 7 to rotate through the notch frame 504, and then the speed reducing motor 503 indirectly provides power for replacing stations for the three object stages 402.

When the lamp is used, when the opening and closing motor 108 drives the bottom end hinge rod 107 to rotate, the top end hinge rod 106 rotates, the upper module 102 moves upwards along the penetrating round rod 103, the lifting rods 116 and the lifting blocks 117 on the two sides of the upper module 102 contact the lifting table 111 in the upward movement process of the upper module 102, the lifting table 111 is stretched, the jacking piece 113 is moved by the other end of the extension rod 110, the lamp shell is separated from the lower module 101, when the upper module 102 is reset, the lifting table 111 falls down through the reset tension spring 115, the carrying motor 305 drives the rack 303 to operate through the gear 304, the discharging table 3 and the rack 303 run synchronously, the discharging table 3 slides along the material conveying guide rail 2 through the discharging slide block 301, when the end of the twisting table 307 is inserted into the middle of the lower module 101 and the upper module 102, the upper module 102 slightly falls down, until the lamp shell and the suction cup 309 are attached together, the vacuum generator 308 draws air in the suction cup 309, the lamp shell and the suction cup 309 are adsorbed together, the upper module ascends again, the lamp shell and the discharge table 3 rotate together to be conveyed out, the rotary motor 310 drives the driven plate 306 to rotate through the belt 311, the driven plate 306 can rotate three angles to replace stations, namely, three stations on the left side and the right side in the middle, the function of automatically replacing stations is realized, the three object stages 402 can respectively slide along the suspension guide rail 4, the torsion table 307 is also in rotating fit when the object stages 402 slide, the three object stages 402 can alternately reach the upper part of the torsion table 307, the three object stages 402 are connected into a whole through the connecting frame 6, the torsion motor 9 drives the lifting frame 10 to rotate, one of the telescopic rods 404 can fall down, when the lifting platform 406 falls down, the other lifting platform rises, the grinding motor 407/cutting machine 413 at the bottom end of the falling lifting platform 406 can machine the lamp shell, when the twisting platform 307 is in the middle position, the power motor 411 and the grinding disc 412 directly fall down to remove burrs and fins, the gear motor 503 drives the gear disc 501 to rotate through the reduction gear 502, the gear disc 501 drives the vertical rod 7 to operate through the notch frame 504, and then the reduction motor 503 indirectly provides power for replacing stations for the three object stages 402.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.