CN116900733A - Automatic assembly system of wall washer lamp - Google Patents

Abstract

The invention discloses an automatic assembly system of a wall washing lamp, which relates to the technical field of lamp assembly and comprises a double-speed chain conveying mechanism, wherein a feeding mechanism for feeding lamp profiles is arranged at the starting position of the double-speed chain conveying mechanism, the double-speed chain conveying mechanism passes through the feeding mechanism, a plasma cleaning mechanism, a laser marking mechanism and the gluing mechanism.

Description

Automatic assembly system of wall washer lamp

Technical Field

The invention relates to the technical field of lamp assembly, in particular to an automatic assembly system for a wall washer lamp.

Background

The wall washer has the advantages that the wall washer is used for washing the wall surface like water, is mainly used for building decoration and illumination, and is also used for outlining a large building, and the LED has the characteristics of energy conservation, high light efficiency, rich colors, long service life and the like, so that the wall washer of other light sources is gradually replaced by the LED wall washer, and the technical parameters of the LED wall washer are generally similar to those of the LED projection lamp;

most of the wall washing lamps in the same process in the same industry have the following defects:

firstly, the processing stations are scattered, the turnover links are more, and the waste of working hours is caused; secondly, the personnel utilization rate is low, and the production line balance is poor; thirdly, the line changing time is long, and the production efficiency is low; fourthly, more manual work is performed, and consistency of assembly effects is affected; fifth, observability is poor;

in some factories adopting automatic assembly, the adhesive property between the glass of the product and the lamp section bar is poor, the sealing is poor, and the problem is that the adhesive quality is greatly reduced due to the fact that the glass and the section bar are not tightly adhered in the adhesive coating process.

Disclosure of Invention

The present invention is directed to an automatic assembly system for wall washer, which solves the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a wash pinup automatic assembly system, includes doubly fast chain transport mechanism, doubly fast chain transport mechanism's home position department is provided with the feed mechanism that is used for lamps and lanterns section bar material loading, feed mechanism will doubly fast chain transport mechanism parcel is inside, the feed mechanism right side is provided with the plasma wiper mechanism that is used for lamps and lanterns section bar abluent, the plasma wiper mechanism right side is provided with the laser marking mechanism that is used for marking for lamps and lanterns section bar, doubly fast chain transport mechanism end position department is provided with the rubber coating mechanism that is used for lamps and lanterns encapsulation, doubly fast chain transport mechanism passes feed mechanism plasma wiper mechanism laser marking mechanism with the inside of rubber coating mechanism.

Preferably, the speed-doubling chain conveying mechanism comprises a speed-doubling chain controller and speed-doubling chain tail parts and speed-doubling chain head parts at two ends, an intermediate bearing frame is arranged between the speed-doubling chain tail parts and the speed-doubling chain head parts, the speed-doubling chain controller is arranged on one side of the speed-doubling chain tail parts, the speed and residence time and the like of the speed-doubling chain conveying mechanism are controlled and set by the speed-doubling chain controller, a carrier plate jig is arranged on the intermediate bearing frame, induction plates are distributed at medium distance in the intermediate bearing frame, each induction plate is arranged between two adjacent carrier plate jigs, induction bases are respectively arranged at the intermediate positions of the induction plates, L-shaped blocks are fixedly connected to the induction bases, spring induction needles are arranged on the L-shaped blocks, triangular bodies are connected in a rotating mode, rollers are arranged at the upper ends of the triangular bodies, the lower end faces of the triangular bodies are in butt joint with the spring induction needles, the speed-doubling chain conveying mechanism serves as a conveying line of the whole system, on the carrier plate jig is provided with an automatic rolling wheel, on the carrier plate is provided with a roller, on the basis of the triangular bodies, the roller plate is in a rolling line, the automatic rolling plate is arranged at the time, the time can be controlled by the roller plate rolling wheels, on the carrier plate is not to pass through the carrier plate, on the carrier plate is in a certain time, on the side can be stable, and can be simultaneously, and the problem can be solved by the roller can be solved, and the roller carrier plate is simultaneously, and the problem can be stably and can be simultaneously conveyed by the roller and can be stably by means and stably by means.

Preferably, the feeding mechanism comprises an external feeding machine door plate and a first section bar frame supported by the internal part, two first servo moving slide rails are fixedly installed on the first section bar frame, the two first servo moving slide rails are symmetrically distributed and arranged at the center of the feeding machine door plate, two support slide plates are connected to the first servo moving slide rails in a sliding mode, a Z-axis lifting assembly is fixedly installed on the support slide plates, a clamping jaw mounting plate is fixedly connected to the lower end of the Z-axis lifting assembly, a section bar clamping jaw assembly is detachably installed on the clamping jaw mounting plate, a lamp section bar shelf is arranged on the lower side of the clamping jaw mounting plate, the first servo moving slide rails are utilized to drive the support slide plates to move, so that a recycling system controls the Z-axis lifting assembly to move up and down to drive the section bar assembly at the lower end of the clamping jaw mounting plate to clamp section bars of the lamp section bar shelf, the problem of carrying the section bar on a production line is solved, the section bar is required to be manually arranged, and then the section bar clamping device is used for clamping the section bar according to the beat of the production line.

Preferably, the lamp section goods shelf comprises a second section bar frame fixedly arranged on the first section bar frame at two sides of the bottom, two motors are fixedly arranged on transverse section bars of the second section bar frame, each motor is fixedly connected with L-shaped limit bars on output ends of the motors, roller plates are respectively arranged on longitudinal section bars at two sides of the second section bar frame, novel goods shelves are arranged in the second section bar frame, universal wheels are respectively arranged at four corners of the bottom of each novel goods shelf, loading frames are slidably arranged at equidistant distribution in the upper and lower directions of the novel goods shelf, concave racks are respectively arranged at two sides of the loading frames, grooves are formed in equidistant distribution on the concave racks and used for placing lamp section bars, the novel goods shelf bottom outer side frames are in contact with rubber roller wheels on sponge pads arranged on inner side surfaces of the second section bar frame, the L-shaped limit bars are respectively clamped on inner sides of the novel goods shelf bottom outer side frames, so that the lamp is formed, when the two sponge roller plates are pushed into the inner sides of the second section bar frame, the two sponge roller plates are not in contact with each other, and the position of the novel goods shelf bottom outer side frames is not in contact with each other, so that the position of the sponge roller plates is guaranteed to be in the opposite directions, and the position of the two sponge section bars can be moved on the side frame frames.

Preferably, the plasma cleaning mechanism comprises a third profile frame and a plasma protection door arranged outside, a second servo moving slide rail is fixedly arranged on the third profile frame, a slave servo moving slide rail is slidably arranged on the second servo moving slide rail, two plasma emitters are slidably arranged on the slave servo moving slide rail, each plasma emitter is connected with an output port of an external plasma device, a spray pipe is arranged at the lower end of each plasma emitter, the slave servo moving slide rail is driven to transversely move by controlling the second servo moving slide rail, and the slave servo moving slide rail controls the plasma emitters on the slave servo moving slide rail to longitudinally move, so that the spray pipe outputs to perform plasma treatment on lamp profiles on the carrier disc, and further plasma treatment is performed on a profile powder spraying part, the problem that when the traditional process sprays powder on the surface of the profile, glue spraying parts need to be sprayed to prevent glue from being in contact with the powder spraying to cause the reduction of the contact cost of the glue and the powder spraying is avoided, and the processing cost of the profile is increased; the powder spraying position is treated by the plasma equipment, the molecular structure of the surface of the powder spraying position is changed, the viscosity of glue and the powder spraying position can be kept, the spray-shielding cost of the profile is reduced, and meanwhile, the quality problems of plasma time control, position accuracy and the like of the profile can be effectively controlled by adding automation, so that the labor and the efficiency are reduced, and the production cost is reduced.

Preferably, the laser marking mechanism comprises a marking section bar frame built inside and a marking machine door plate installed on the marking section bar frame, a marking machine servo moving sliding rail is fixedly installed on the marking section bar frame, a marking machine installing plate is installed on the marking machine servo moving sliding rail in a sliding mode, a screw fine-tuning shifter is fixedly installed on the marking machine installing plate, a laser marking machine is installed at the upper and lower lifting ends of the screw fine-tuning shifter, the screw fine-tuning shifter is controlled to longitudinally move through driving the marking machine servo moving sliding rail, and a regulating disc on the screw fine-tuning shifter is rotated to conduct fine-tuning on the laser marking machine, so that the laser marking distance of the laser marking machine is guaranteed, the marking definition of laser marking can be maximized, meanwhile, the moving direction of the laser marking machine is controlled to be opposite to the running direction of a speed doubling chain, the laser marking machine is enabled to face to move with a lamp section bar on the carrying disc jig, the laser marking machine can be further improved, meanwhile, the manual marking efficiency of a plurality of workers can be improved, and the production efficiency of the laser marking machine is improved.

Preferably, the gluing mechanism comprises a 2600ML double-gear pump glue filling machine and a gluing machine frame, the gluing machine frame is composed of an internally built gluing profile frame and an external gluing door plate, a main servo driving sliding rail is fixedly arranged in the gluing machine frame, an auxiliary servo driving sliding rail is slidably connected to the main servo driving sliding rail, two gluing devices are slidably connected to the auxiliary servo driving sliding rail, the upper ends of the gluing devices are communicated with an output port of the 2600ML double-gear pump glue filling machine, glue pipes are arranged at the lower ends of the gluing devices, clamping profiles are fixedly arranged at the left side and the right side of the gluing machine frame respectively, two mounting plates are respectively arranged on the inner side end surfaces of the clamping profiles, air cylinders are fixedly arranged on the mounting plates respectively, clamping assemblies are arranged between the air cylinders, the glue outlet quantity in the ML double-gear pump glue filling machine is firstly adjusted according to the running speed of the main servo driving sliding rail and the auxiliary servo driving sliding rail, the glue outlet quantity in the 2600ML double-gear pump glue filling machine is utilized, the clamping devices are arranged at the positions of the horizontal lamp, and the horizontal lamp fixture is combined with the positions of the glass lamp clamping devices, and the horizontal lamp clamping positions are guaranteed to be respectively, and the positions of the glass lamp clamping devices are combined with the horizontal lamp clamping devices.

Preferably, the clamping assembly comprises a clamping transverse plate fixedly installed between the output ends of the two cylinders on the same side, round holes are distributed and communicated in medium distance in the clamping transverse plate, sliding sleeves are fixedly embedded in the round holes respectively, spring columns are slidably installed in the sliding sleeves respectively, rubber blocks are fixedly connected to the spring columns respectively, when gluing is carried out, the cylinders on two sides are started to push the rubber blocks to be abutted to the two ends of the lamp, the position of the lamp can be controlled in the center, meanwhile, the stability of the lamp can be greatly improved, the stability of gluing is further guaranteed, and the quality of gluing is further improved.

Preferably, the upper end surface of the clamping transverse plate is fixedly provided with a notch long slat, rectangular notches are equidistantly distributed in the notch long slat, each rectangular notch corresponds to one rubber block, each rectangular notch is respectively rotatably provided with a pressing plate, the lower end surface of each pressing plate is respectively provided with a latex block, the bottom surface of each latex block is respectively provided with a honeycomb groove, the outer side end of each spring column is respectively provided with a rear cover cap, each rear cover cap is respectively provided with a top plate, the inclined surface on each top plate is respectively abutted with the corresponding lower end surface of the pressing plate, each pressing plate is respectively provided with a thickening protruding part at one end close to the top plate, the weight of the tail part is improved, meanwhile, the thickening protruding part area is thickened, and a step surface appears, so that when gluing is carried out, the cylinders at the two sides are started to push the rubber blocks to be abutted to the two ends of the lamp, at the moment, the spring columns retract to drive the rear cap to move away from the direction of the clamping transverse plate, so that the top plate slides outwards along the lower end face of the pressing plate, the pressing plate rotates to a horizontal position, the latex blocks are pressed on the glass face of the lamp, the latex blocks are further pressed on the glass face of the lamp when the top plate moves to the thickening protruding part, the glass is tightly combined with the lamp profile, the combination between the glass and the lamp profile is firmer, the tightness is better, double limiting in the horizontal and vertical directions is formed between the latex blocks when the latex blocks are pressed for gluing, the gluing quality is more uniform, the gluing quality is further improved, the waterproof requirement of the lamp is effectively ensured, the problem that the traditional manual gluing has inconsistent gluing paths, glue quantity control and the like is avoided, and the manual handling of the upper line and the lower line is required.

Preferably, the tray carrier comprises a tray carrier bottom plate, two grooves are formed in the upper end face of the tray carrier bottom plate and are symmetrically distributed, rubber gaskets are respectively embedded in each groove, a first section carrier plate is respectively installed in each groove, the rubber gaskets completely wrap the lower end face of the section carrier plate, a second section carrier plate is respectively installed on the outer end face of the first section carrier plate, the second section carrier plate is respectively connected with the corresponding first section carrier plate through strip-shaped holes in an adjustable mode through bolts, carrier grooves are distributed between the second section carrier plate and the first section carrier plate and used for placing lamp sections to load the lamps for transportation, and the rubber gaskets arranged at the bottom can effectively reduce the influence of vibration on the lamps in the transportation process.

Preferably, the profile clamping jaw assembly comprises a clamping jaw connecting plate fixedly mounted on the clamping jaw mounting plate, five cylinder clamping jaws are mounted on the lower end face of the clamping jaw connecting plate at equal intervals on the left side and the right side, the five cylinder clamping jaws on the left side and the right side are arranged in a staggered corresponding mode, each of the two clamping jaws of the cylinder clamping jaw are fixedly provided with fixing clamping plates respectively, ten lamp profiles can be clamped by the whole clamping jaw assembly at one time due to the fact that the staggered cylinder clamping jaws are distributed, meanwhile, the minimum area is occupied, and efficiency can be greatly improved.

In summary, the invention has the beneficial effects that:

1. the invention replaces manual operation by automatic assembly, is a trend of development of factories in the future, is a system engineering integrating machine, electricity, light, information and communication technologies, can effectively save manpower, can improve labor productivity by adopting an automatic line in mass production, stabilizes and improves product quality, improves labor conditions, reduces production occupied area, reduces production cost, shortens production period, ensures production balance and has obvious economic benefit.

2. In carrying out automatic rubber coating, carry out spacing of four directions about between to lamp glass and the lamps and lanterns section bar for combine between glass and the lamps and lanterns section bar inseparabler, thereby make the combination between glass and the lamps and lanterns section bar after the rubber coating more firm, the leakproofness is better, thereby let the quality of rubber coating further improve, effectively ensure that lamps and lanterns realize waterproof requirement, avoided traditional manual work to beat to glue to have the inconsistent problem such as gluing route, glue volume control.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an overall structure of an automatic assembly system for a wall washer;

FIG. 2 is a schematic diagram of a double-speed chain conveying mechanism 1 in an automatic assembly system of wall washing lamps according to the present invention;

FIG. 3 is a schematic view of the structure of the present invention shown in FIG. 2 at a partially enlarged scale;

FIG. 4 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 3;

FIG. 5 is a schematic view of the whole glue spreading mechanism 2 in an automatic assembly system of a wall washer according to the present invention;

FIG. 6 is a schematic view of another view angle of the glue spreading mechanism 2 in an automatic assembly system of a wall washer according to the present invention;

FIG. 7 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 5;

fig. 8 is a schematic structural view of a clamping assembly 29 in the glue spreading mechanism 2 of the automatic wall washer lamp assembling system according to the present invention;

FIG. 9 is a schematic illustration of the rear cap 2909 of the component of FIG. 8 in accordance with the present invention;

FIG. 10 is a schematic illustration of the structure of the part platen 2907 of FIG. 8 in accordance with the present invention;

FIG. 11 is a schematic diagram of a laser marking mechanism 3 in an automatic assembly system for wall washer lamps according to the present invention;

FIG. 12 is a schematic view of a plasma cleaning mechanism 4 in an automatic assembly system for wall washer lamps according to the present invention;

FIG. 13 is a schematic view of a feeding mechanism 5 in an automatic assembly system for a wall washer according to the present invention;

fig. 14 is a schematic structural view of driving components in a feeding mechanism 5 of an automatic assembly system for wall washer according to the present invention;

FIG. 15 is a schematic view of the structure of a lamp section shelf 7 in the automatic assembly system of the wall washer;

fig. 16 is a schematic view showing a bottom view of a lamp section bar shelf 7 in the automatic assembly system of the wall washer according to the present invention;

FIG. 17 is a schematic view of a structure of a tray fixture 6 in an automatic assembly system of a wall washer according to the present invention;

FIG. 18 is a schematic view of a profile clamping jaw assembly in an automatic assembly system for a wall washer according to the present invention;

fig. 19 is an overall schematic diagram of another embodiment of the glue spreading mechanism 2 in an automatic assembly system for a wall washer according to the present invention;

fig. 20 is a schematic view of the entire compression assembly 8 of fig. 19 in accordance with the present invention.

The index marks in the drawings are as follows: a double speed chain transport mechanism 1; a gluing mechanism 2; a laser marking mechanism 3; a plasma cleaning mechanism 4; a feeding mechanism 5; a tray carrier 6; a lamp section bar shelf 7; a hold-down assembly 8; a speed-doubling chain controller 11; a speed-doubling chain tail 12; an intermediate carrier 13; a speed-doubling chain head 14; a sensing plate 15; a sense base 16; an L-shaped block 17; a spring sensing needle 18; a triangle 19;2600ML double gear pump glue-pouring machine 20; a coater frame 21; clamping the profile 22; a main servo drive slide rail 23; a secondary servo drive slide rail 24; a glue applicator 25; a glue-applying tube 26; a mounting plate 27; a cylinder 28; a clamping assembly 29; a marking machine door panel 31; marking a section bar frame 32; a screw fine adjustment shifter 33; a laser marking machine 34; a marking machine mounting plate 35; a servo moving slide 36 of the marking machine; a plasma protective door 41; a third profile frame 42; a second servo moving slide rail 43; a slave servo-movement slide 44; a plasma emitter 45; a nozzle 46; a loader gate 51; a first profile frame 52; a first servo moving slide rail 53; a support slide plate 54; a Z-axis lift assembly 55; a jaw mounting plate 56; a jaw connecting plate 57; cylinder jaw 58; a fixed clamping plate 59; carrier tray base 61; a groove 62; a latex pad 63; profile carrier plate one 64; profile carrier plate two 65; a carrier slot 66; a second profile frame 71; a motor 72; an L-shaped limit bar 73; a new shelf 74; a loading frame 75; a concave rack 76; the pressing fixing plate 81; a receiving plate 82; a lifting slide bar 83; a platen 84; a hold down slide 85; a long cylinder 86; a joint block 87; the pressing rotary shaft 88; a pressing plate 89; clamping a transverse plate 2901; sliding sleeve 2902; spring posts 2903; rubber block 2904; notched long slat 2905; rectangular notch 2906; a platen 2907; latex block 2908; rear cap 2909; a top plate 2910; the boss 2911 is thickened.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically linked, may be directly linked, may be indirectly linked through an intermediary, and may be in communication with the interior of at least two elements or in an interaction relationship between at least two elements, unless explicitly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The invention will now be described in detail with reference to fig. 1-20, wherein for convenience of description, the orientations described below are now defined as follows: the vertical, horizontal, vertical, front-to-back directions described below are the same as the vertical, horizontal, vertical, and horizontal directions of the view of fig. 1. Fig. 1 is a front view of the device of the present invention, and the direction of fig. 1 is the same as the vertical, horizontal, vertical, front-to-back, horizontal, and horizontal directions of the device of the present invention.

Referring to fig. 1-20, an embodiment of the present invention is provided: the automatic assembly system of the wall washer lamp takes a double-speed chain as a main transmission mechanism for assembly and transportation, automatically rotates according to a set beat, loads ten lamp components at one time by utilizing a carrying disc jig 6 and conveys the lamp components to each node for process assembly, wherein the tail part 12 of the double-speed chain is taken as the tail part of the double-speed chain, the head part 14 of the double-speed chain is taken as the head part of the double-speed chain, a feeding mechanism 5 for feeding lamp profiles is arranged at the position of the head part 14 of the double-speed chain, a gluing mechanism 2 for lamp encapsulation is arranged at the position close to the tail part 12 of the double-speed chain, a plasma cleaning mechanism 4 for cleaning the lamp profiles and a laser marking mechanism 3 for marking the lamp profiles are respectively arranged at the position close to the feeding mechanism 5 in the double-speed chain, and the whole frames of the feeding mechanism 5, the plasma cleaning mechanism 4, the laser marking mechanism 3 and the gluing mechanism 2 are all arranged in a middle through shape, so that the double-speed chain transportation mechanism 1 passes through the whole, and the whole assembly is convenient;

Firstly, workers lay lamp sectional materials to be assembled in lamp sectional material shelves 7 respectively at the outside, then directly push the shelves into a feeding mechanism 5, at the moment, a sectional material clamping jaw assembly in the feeding mechanism 5 gradually clamps the sectional materials on the shelves according to electric control drive and places the sectional materials on a carrier jig plate 6 on a double-speed chain head 14, the carrier jig plate 6 filled with the lamp sectional materials carries out plasma treatment on the lamp sectional materials on the carrier plate jig 6 along with the double-speed chain to a plasma cleaning mechanism 4, further carries out plasma treatment on the powder spraying part of the sectional materials, and then continues to carry out laser marking in a laser marking mechanism 3, the model batch, the production date, the company mark and the like of the product are engraved, then a plurality of assemblies of the lamp circuit board, the lamp beads and the surface glass plate are manually carried out in a double-speed chain interval between the laser marking mechanism 3 and the gluing mechanism 2, and then the lamp circuit board, the lamp beads and the surface glass plate are directly transported to the gluing mechanism 2 to glue the joint of the section bar and the glass, so that the waterproof requirement of the lamp is ensured, the labor is effectively saved for factories, the labor productivity can be improved by adopting an automatic line in mass production, the product quality is stabilized and improved, the labor condition is improved, the production occupied area is reduced, the production cost is reduced, the production period is shortened, the production balance is ensured, and the economic benefit is remarkable.

It should be noted that, in this embodiment, the carrier disc fixture 6 includes a carrier disc bottom plate 61, two grooves 62 are provided on an upper end surface of the carrier disc bottom plate 61, the two grooves 62 are symmetrically distributed, a latex pad 63 is embedded in each groove 62, a first section carrier plate 64 is installed in each groove 62, the latex pad 63 completely wraps a lower end surface of the first section carrier plate 64, a second section carrier plate 65 is installed on an outer end surface of each first section carrier plate 64, each second section carrier plate 65 is connected with the corresponding first section carrier plate 64 through adjustable bolts of strip holes, carrier grooves 66 are distributed between the second section carrier plates 65 and the first section carrier plates 64 for placing lamp sections for carrying the lamps, and the latex pad 63 arranged at the bottom can effectively reduce the influence of vibration on the lamps in the transportation process.

It should be further noted that, in this embodiment, the multiple speed chain transporting mechanism 1 includes a multiple speed chain controller 11, a multiple speed chain tail 12 and a multiple speed chain head 14, and an intermediate carrier 13 between the multiple speed chain tail 12 and the multiple speed chain head 14, where the carrier plate jig 6 is placed on the intermediate carrier 13 to circulate, and sensing plates 15 are distributed in the intermediate carrier 13 at equal intervals, each sensing plate 15 is disposed between two adjacent carrier plate jigs 6, a sensing base 16 is installed in the middle of each sensing plate 15, an L-shaped block 17 is fixedly connected to the sensing base 16, a spring sensing needle 18 is installed on the L-shaped block 17, a triangle 19 is rotationally connected to the L-shaped block 17, a roller is installed at the upper end of the triangle 19, and a lower end face of the triangle 19 is abutted between the spring sensing needle 18;

When the carrying disc jig 6 is transported to pass through the induction plate 15, the lower end face of the carrying disc jig 6 can be abutted to the roller on the triangular body 19, meanwhile, the triangular body 19 is pressed to be extruded downwards to the spring induction needle 18 to retract, on one hand, induction control can be carried out, problems can be timely treated at fixed points, on the other hand, the transportation performance can be improved by utilizing the roller, automatic circulation according to the set beat is realized, the problems of unstable manual line beat, product carrying and moving and the like are solved, and meanwhile, personnel reduction and synergy are realized.

It should be noted that, in this embodiment, the feeding mechanism 5 includes a first profile frame 52 as an inner frame and a door plate 51 of the feeding machine with an external baffle, the first profile frame 52 is used for mounting a first servo moving slide rail 53, the first servo moving slide rail 53 is used as a longitudinal moving control, two first servo moving slide rails 53 are slidably connected with a supporting slide plate 54, a Z-axis lifting assembly 55 is fixedly mounted on the supporting slide plate 54, the Z-axis lifting assembly 55 is controlled to move up and down, the lower end of the Z-axis lifting assembly 55 is fixedly connected with a clamping jaw mounting plate 56, the clamping jaw mounting plate 56 is detachably mounted with a profile clamping jaw assembly, the clamping jaw can be pneumatic or electric, the clamping jaw can be set as required, the second profile frame 71 and the novel shelf 74 with the bottom of the lamp profile shelf 7 at the lower side are mainly provided with universal wheels at the four corners of the bottom of the novel shelf 74, the novel shelf 74 is provided with loading frames 75 which are arranged on the inner side of the novel shelf 74 in an equidistant sliding manner in the up-down direction, concave racks 76 are respectively arranged on the two sides of each loading frame 75, grooves which are arranged on the concave racks 76 in an equidistant manner are used for placing lamp sectional materials, the lamp sectional materials are paved on the concave racks 76 by workers, the whole loading frame 75 can be directly pushed onto the novel shelf 74 by the workers, the novel shelf 74 is conveniently pushed by the workers, roller plates are respectively arranged on the longitudinal sectional materials on the two sides of the second sectional material frame 71, the novel shelf 74 is further conveniently pushed into the second sectional material frame 71 by the workers, the outer side frame at the bottom of the novel shelf 74 is abutted with rubber rollers on the roller plates on the two sides, the position adjustment is convenient, two motors 72 are fixedly arranged on the transverse sectional materials of the second sectional material frame 71, L-shaped limiting bars 73 are respectively fixedly connected on the output ends of each motor 72, the novel horizontal frame limit of goods shelves 74 bottom butt is on the foam-rubber cushion that the horizontal section bar medial surface of second section bar frame 71 set up, and two L type spacing 73 block respectively in the inboard of the horizontal frame limit of novel goods shelves 74 bottom, thereby form spacingly, and then the effectual position coordinates who guarantees the goods shelves, can not appear the position deviation when making feed mechanism 5 press from both sides and get the lamps and lanterns section bar, and lead to the lamps and lanterns section bar unbalance, utilize first servo removal slide rail 53 drive to control and support slide plate 54 and remove, thereby reuse system control Z axle elevating system 55 reciprocates the section bar clamping jaw subassembly of drive clamping jaw mounting panel 56 lower extreme and press from both sides the lamps and lanterns section bar of getting to lamps and lanterns section bar goods shelves 7, solve the transport problem of producing the line on the section bar on the manual work line, traditional technical equipment need snatch by equipment after the range of artifical section bar, and place the section bar on carrying tray tool 6 according to producing the line.

It should be noted that, in this embodiment, the plasma cleaning mechanism 4 is mainly a main body frame composed of an inner third profile frame 42 and an outer plasma protection door 41, a second servo moving rail 43 is installed on the third profile frame 42 in a transverse control manner, a slave servo moving rail 44 which is longitudinally controlled to move is installed on the second servo moving rail 43, two plasma emitters 45 are slidably installed on the slave servo moving rail 44, each plasma emitter 45 is connected with an output port of an outer plasma device, a spray pipe 46 is arranged at the lower end of each plasma emitter 45, the slave servo moving rail 44 is driven to transversely move by controlling the second servo moving rail 43, and the slave servo moving rail 44 is also controlled to longitudinally move, so that the spray pipe 46 outputs a lamp profile on the carrier disc jig 6 to carry out plasma treatment, and further, when the traditional process is carried out on the surface of the profile, the traditional process is required to carry out plasma treatment on the surface of the profile, the adhesive masking part is required to carry out, the adhesive masking part is prevented from being contacted with the profile, the adhesive masking part is prevented from being carried out, the adhesive masking part is reduced, the automatic processing is realized, the adhesive masking part is reduced, the adhesive masking part is controlled to be automatically by controlling the position of the plasma spraying device, and the adhesive masking part is reduced, and the adhesive masking part is easy to be produced.

It should be noted that, in this embodiment, the laser marking mechanism 3 is similar to the main body frame of the plasma cleaning mechanism 4, and is also a marking profile frame 32 built inside and a marking machine door plate 31 outside, a marking machine servo moving slide rail 36 is fixedly installed on the marking profile frame 32 to perform longitudinal control movement, a marking machine mounting plate 35 is slidingly installed on the marking machine servo moving slide rail 36, a screw fine adjustment mobile 33 is fixedly installed on the marking machine mounting plate 35, the screw fine adjustment mobile 33 can perform fine adjustment through a regulating disc at the upper end, and the regulating distance is very precise, so that the laser marking distance of the laser marking machine 34 is ensured, the laser marking machine 34 is enabled to be maximized, the laser marking machine 34 is installed at the upper and lower lifting ends of the screw fine adjustment mobile 33, the laser marking machine 34 is controlled to move longitudinally by driving the marking machine servo moving slide rail 36, and meanwhile, the moving direction of the laser marking machine 34 is also controlled to be opposite to the running direction of a double-speed chain, so that the laser marking machine 34 and the lamp profile on the carrying disc tool 6 face to move, the marking tool can further improve the efficiency of the manual marking machine, and the production efficiency of the manual marking staff can be improved, and the production efficiency of the manual marking process can be further improved.

It is worth mentioning that, in this embodiment, the glue coating mechanism 2 comprises 2600ML dual gear pump glue filling machine 20 and a glue coating machine frame 21, wherein the glue coating machine frame 21 is composed of an internally built glue coating profile frame and an external glue coating door plate, the inside of the glue coating machine frame 21 is provided with a main servo driving sliding rail 23 which transversely controls movement and a sub servo driving sliding rail 24 which longitudinally controls movement, two glue coating machines 25 are arranged on the sub servo driving sliding rail 24, the upper end of each glue coating machine 25 is communicated with the output port of the 2600ML dual gear pump glue filling machine 20, the lower end of each glue coating machine 25 is provided with a glue coating pipe 26, two clamping profile 22 are respectively fixedly arranged on the left side and the right side of the inside of the glue coating machine frame 21, two mounting plates 27 are respectively arranged on the inner side surfaces of each clamping profile 22, two air cylinders 28 are respectively fixedly arranged on each mounting plate 27, a clamping assembly 29 is arranged between the two air cylinders 28 on the same side, wherein the clamping assembly 29 is composed of a clamping transverse plate 2901, a sliding sleeve 2902 and a spring 2903 which are arranged between the output ends of the two air cylinders 28 on the same side, wherein the clamping assembly 2901 is communicated with the output ends of the main servo driving sleeve 24 and the corresponding to the main servo driving sleeve 24, when the two air cylinders 24 are respectively arranged in the two circular hole side of the main servo driving sleeve 24, the main servo driving sleeve 24 and the main servo driving sleeve 24 are respectively, the two air cylinders 20 are fixedly arranged, the sealing assembly 24, the sealing assembly is fixedly arranged at the inner end of the inner side of the two mounting plates, and the mounting plates of the mounting plates 27, and the mounting plates 28, and the two mounting plates 28, the cylinder 28, and the cylinder 28, the cylinder assembly 29, and the cylinder assembly, and the cylinder assembly. The two ends of the lamp are tightly pressed, so that the position of the lamp can be controlled at the center, and meanwhile, the stability of the lamp can be greatly improved, the stability of gluing is further ensured, and the quality of gluing is further improved.

In addition, referring to fig. 8-10, in an embodiment, in which a notch long slat 2905 is fixedly installed on the upper end face of the clamping transverse slat 2901, rectangular notches 2906 are equidistantly distributed in the notch long slat 2905, each rectangular notch 2906 corresponds to one rubber block 2904, a pressing plate 2907 is rotatably installed in each rectangular notch 2906, latex blocks 2908 are respectively installed on the lower end face of each pressing plate 2907, a honeycomb groove is respectively formed on the bottom face of each latex block 2908, a rear cap 2909 is respectively installed on the outer end of each spring column 2903, a top plate 2910 is respectively installed on each rear cap 2909, an inclined face on each top plate 2910 is respectively abutted against the lower end face of the corresponding pressing plate 2907, a thickening boss 1 is respectively installed on one end 2910 close to the top plate 2910, not only the weight of the tail is improved, simultaneously, the area of the thickening convex part 2911 is thickened, a stepped surface appears, when gluing is carried out, the air cylinders 28 at two sides are started, the rubber block 2904 is pushed to abut against two ends of the lamp, at the moment, the spring columns 2903 retract, thereby driving the rear cap 2909 to move away from the clamping transverse plate 2901, the top plate 2910 slides outwards along the lower end face of the pressing plate 2907, the pressing plate 2907 rotates to a horizontal position, the latex block 2908 is pressed on the glass surface of the lamp, when the top plate 2910 moves on the thickening convex part 2911, the latex block 2908 is further pressed on the glass, the glass is tightly combined with the lamp profile, the combination between the glued glass and the lamp profile is firmer, the tightness is better, double limiting in the horizontal and vertical directions is formed between the latex block 2908 and the rubber block 2904 when gluing is carried out after the latex block 2908 is pressed, therefore, the quality of the gluing is further improved, the waterproof requirement of the lamp is effectively ensured, the inconsistent problems of gluing paths, glue quantity control and the like in the traditional manual gluing are avoided, and the manual handling of the upper line and the lower line is required.

In addition, with reference to fig. 19 and 20, in one embodiment, the difference from the above-described embodiment of the gluing mechanism 2 is that a pressing assembly 8 is fixedly mounted on the outer end face of each clamping profile 22, respectively;

the compressing assembly 8 comprises a compressing and fixing plate 81 fixedly arranged on the clamping section bar 22, a platform plate 84 is arranged on the upper side of the compressing and fixing plate 81, four lifting slide bars 83 are fixedly arranged on the lower end face of the platform plate 84, two lifting slide bars 83 penetrate through the compressing and fixing plate 81 in a sliding mode, the other two lifting slide bars 83 are connected with a bearing plate 82 in a sliding mode, the bearing plate 82 is fixed on a section bar frame, a lifting cylinder is fixedly arranged on the back face of the compressing and fixing plate 81, the telescopic end of the lifting cylinder is fixedly connected with the lower end of the platform plate 84, the upper end face of the platform plate 84 is connected with a compressing slide plate 85 through a line rail, the upper end face of the platform plate 84 is provided with a pushing cylinder, the telescopic end of the pushing cylinder is fixedly arranged on the compressing slide plate 85, a long cylinder 86 is fixedly arranged on the compressing slide plate 85, the telescopic end of the long cylinder 86 is fixedly provided with a connecting block 87, the upper end face of the pressing sliding plate 85 is rotationally connected with the pressing rotating shaft 88 through two protruding blocks, ten pressing plates 89 are fixedly arranged on the pressing rotating shaft 88 in an equidistant distribution mode, the pressing rotating shaft 88 and the connecting block 87 are clamped through two groove plates, when the glue is applied, the air cylinders 28 on two sides are started to push the rubber block 2904 to be abutted to two ends of the lamp, the two ends of the lamp are pressed, meanwhile, the lifting air cylinders on the bottom are started to push the upper platform plate 84 to rise, then the air cylinders are started to push the pressing sliding plate 85 to push towards the center direction of the lamp, at the moment, the long cylinder 86 is started to pull back to enable the pressing plates 89 to move to the position right above the lamp, the pressing plates 89 are downwards pressed on the lamp, glue is applied to the lamp, the glue is applied to the lamp after full limiting, the glue is applied to be more uniform, the glue application quality is further improved, and waterproof requirements of the lamp are effectively ensured.

The above is merely a specific embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that do not undergo the inventive work should be covered in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides an automatic equipment system of wall washer lamp, includes doubly quick chain transport mechanism (1), its characterized in that: the automatic feeding device is characterized in that a feeding mechanism (5) is arranged at the starting position of the double-speed chain conveying mechanism (1), the feeding mechanism (5) wraps the double-speed chain conveying mechanism (1) inside, a plasma cleaning mechanism (4) is arranged on the right side of the feeding mechanism (5), a laser marking mechanism (3) is arranged on the right side of the plasma cleaning mechanism (4), a gluing mechanism (2) is arranged at the tail end position of the double-speed chain conveying mechanism (1), and the double-speed chain conveying mechanism (1) penetrates through the feeding mechanism (5) and the plasma cleaning mechanism (4), and the laser marking mechanism (3) and the inside of the gluing mechanism (2).

2. The automatic wall washer lamp assembly system of claim 1, wherein: the double-speed chain conveying mechanism (1) comprises a double-speed chain controller (11) and double-speed chain tail parts (12) and double-speed chain head parts (14) at two ends, an intermediate bearing frame (13) is arranged between the double-speed chain tail parts (12) and the double-speed chain head parts (14), the double-speed chain controller (11) is installed on one side of the double-speed chain tail parts (12), the double-speed chain controller (11) is used for controlling and setting the running speed, the residence time and the like of the double-speed chain conveying mechanism (1), a carrier disc jig (6) is arranged on the intermediate bearing frame (13), sensing plates (15) are distributed at medium distance in the middle of the carrier disc jigs (6), sensing bases (16) are respectively installed on the intermediate positions of the sensing plates (15), L-shaped blocks (17) are fixedly connected, spring sensing blocks (18) are installed on the L-shaped blocks, and triangular sensing bodies (19) are installed on the triangular bodies (19) and are connected with the triangular bodies (19).

3. The automatic wall washer lamp assembly system of claim 1, wherein: the feeding mechanism (5) comprises an outer feeding machine door plate (51) and an inner first section bar frame (52), two first servo moving slide rails (53) are fixedly installed on the first section bar frame (52), the two first servo moving slide rails (53) are symmetrically distributed and arranged with respect to the center of the feeding machine door plate (51), a supporting slide plate (54) is slidingly connected to the two first servo moving slide rails (53), a Z-axis lifting assembly (55) is fixedly installed on the supporting slide plate (54), a clamping jaw mounting plate (56) is fixedly connected to the lower end of the Z-axis lifting assembly (55), section bar clamping jaw assemblies are detachably installed on the clamping jaw mounting plate (56), and a lamp section bar shelf (7) is arranged on the lower side of the clamping jaw mounting plate (56).

4. A wall washer light automatic assembly system as recited in claim 3 wherein: lamps and lanterns section bar goods shelves (7) are including fixed mounting in the bottom both sides second section bar frame (71) on first section bar frame (52), fixed mounting has two motors (72) on the horizontal section bar of second section bar frame (71), every on the output of motor (72) respectively fixedly connected with L type spacing (73), install the gyro wheel board on the vertical section bar of second section bar frame (71) both sides respectively, be provided with novel goods shelves (74) in second section bar frame (71), universal wheel is installed respectively in novel goods shelves (74) bottom four corners, novel goods shelves (74) inboard equidistance distributes the slip in the upper and lower direction and is provided with loading frame (75), every on loading frame (75) both sides are installed respectively concave rack (76), the equidistance distributes on concave rack (76) and is provided with the recess, novel goods shelves (74) bottom outside frame and both sides rubber gyro wheel butt on the gyro wheel board, novel goods shelves (74) bottom horizontal frame butt are in the horizontal frame limit of second section bar frame (71) sets up two inside the horizontal limit of sponge profile (73) and is in the horizontal limit of two side of the inside profile (73) are in the horizontal limit of the profile bar (73) respectively.

5. The automatic wall washer lamp assembly system of claim 1, wherein: plasma wiper mechanism (4) are including third section bar frame (42) and plasma protection door (41) that outside set up, fixed mounting has second servo removal slide rail (43) on third section bar frame (42), slidable mounting has subordinate servo removal slide rail (44) on second servo removal slide rail (43), slidable mounting has two plasma emitter (45) on subordinate servo removal slide rail (44), every plasma emitter (45) all are connected between the export of outside plasma equipment, every plasma emitter (45) lower extreme is equipped with spray tube (46).

6. The automatic wall washer lamp assembly system of claim 1, wherein: the laser marking mechanism (3) comprises a marking section bar frame (32) and a marking machine door plate (31) arranged on the marking section bar frame (32), a marking machine servo moving sliding rail (36) is fixedly arranged on the marking section bar frame (32), a marking machine mounting plate (35) is arranged on the marking machine servo moving sliding rail (36) in a sliding mode, a screw fine adjustment mobile device (33) is fixedly arranged on the marking machine mounting plate (35), and a laser marking machine (34) is arranged at the upper lifting end and the lower lifting end of the screw fine adjustment mobile device (33).

7. The automatic wall washer lamp assembly system of claim 1, wherein: the gluing mechanism (2) comprises a double-gear pump glue filling machine (20) and a gluing machine frame (21), the gluing machine frame (21) is composed of an internal gluing profile frame and an external gluing door plate, a main servo driving sliding rail (23) is fixedly installed inside the gluing machine frame (21), an auxiliary servo driving sliding rail (24) is connected to the main servo driving sliding rail (23) in a sliding mode, two gluing devices (25) are connected to the auxiliary servo driving sliding rail (24) in a sliding mode, the upper ends of the gluing devices (25) are communicated with output ports of the double-gear pump glue filling machine (20), gluing tubes (26) are arranged at the lower ends of the gluing devices (25), clamping profiles (22) are fixedly installed inside the gluing machine frame (21) at the left side and the right side respectively, two mounting plates (27) are installed on the inner side end faces of the clamping profiles (22), two air cylinders (28) are fixedly installed on the mounting plates (27), and clamping assemblies (29) are installed between the two air cylinders (28) on the same side.

8. The automatic wall washer lamp assembly system of claim 7, wherein: the clamping assembly (29) comprises a clamping transverse plate (2901) fixedly installed between output ends of two air cylinders (28) on the same side, round holes are distributed and penetrated in a medium distance mode in the clamping transverse plate (2901), sliding sleeves (2902) are fixedly embedded into the round holes respectively, spring columns (2903) are slidably installed in the sliding sleeves (2902) respectively, and rubber blocks (2904) are fixedly connected to the spring columns (2903) respectively.

9. The automatic wall washer lamp assembly system of claim 8, wherein: the novel rubber sealing device is characterized in that a notch long slat (2905) is fixedly arranged on the upper end face of the clamping transverse slat (2901), rectangular notches (2906) are distributed at equal intervals in the notch long slat (2905), each rectangular notch (2906) corresponds to one rubber block (2904) in position, a pressing plate (2907) is rotatably arranged in each rectangular notch (2906), a latex block (2908) is arranged on the lower end face of each pressing plate (2907), a honeycomb groove is formed in the bottom face of each latex block (2908), a rear cap (2909) is arranged on the outer side end of each spring column (2903), a top plate (2910) is arranged on each rear cap (2909), a slope on each top plate (2910) is in butt joint with the corresponding lower end face of each pressing plate (2907), and a thickening boss (2911) is arranged on one end, close to the top plate (2910), of each pressing plate is provided with a thickening boss (2911).

10. An automatic wall washer lamp assembly system as recited in claim 2, wherein: the carrier plate jig (6) comprises a carrier plate bottom plate (61), two grooves (62) are formed in the upper end face of the carrier plate bottom plate (61), the grooves (62) are symmetrically distributed, latex pads (63) are respectively embedded into the grooves (62), first section carrier plates (64) are respectively arranged in the grooves (62), the latex pads (63) completely wrap the lower end face of the first section carrier plates (64), second section carrier plates (65) are respectively arranged on the outer end face of the first section carrier plates (64), the second section carrier plates (65) are respectively connected with the corresponding first section carrier plates (64) through strip-shaped holes in an adjustable mode, and carrier grooves (66) are respectively formed in the second section carrier plates (65) and the first section carrier plates (64).