CN112692151A - Machining mechanism for LED spotlight shell for suspended ceiling - Google Patents

Abstract

The invention discloses a processing mechanism of an LED spot light shell for a suspended ceiling, which belongs to the field of lamp processing and comprises a material conveying assembly, wherein the material conveying assembly comprises two material conveying guide rails, the material conveying guide rails are independently and fixedly installed, material conveying sliding blocks are installed on the material conveying guide rails and are in sliding connection with the material conveying guide rails, a material conveying platform is fixedly installed on the material conveying sliding blocks, an L-shaped suspension beam is arranged at the top end of the material conveying platform, a material taking cylinder is arranged at the end head of the L-shaped suspension beam, and the output end of the material taking cylinder penetrates through the L-shaped suspension beam. The slotting efficiency of the LED spotlight shell is high.

Description

Machining mechanism for LED spotlight shell for suspended ceiling

Technical Field

The invention relates to the field of lamp housing processing, in particular to a processing mechanism of an LED spotlight housing for a suspended ceiling.

Background

The spot lamp is typical modern school lighting without a main lamp and a fixed scale, can create an indoor lighting atmosphere, and if a row of small spot lamps are combined, light can change wonderful patterns. Because the small spot light can freely change the angle, the effect of combined illumination is also changeable. The spotlight is soft in light, graceful and graceful, and can be used for locally lighting and setting atmosphere. The spot light can be arranged around the suspended ceiling or on the upper part of furniture, in the wall, in the dado or skirting line.

In order to facilitate installation, an installation wire slot needs to be formed in the shell of the LED spotlight, and the common grooving mechanism is low in grooving efficiency.

Disclosure of Invention

The invention aims to provide a processing mechanism of an LED spot lamp shell for a suspended ceiling, which aims to overcome the defects of the prior art.

In order to solve the above problems, the present invention provides the following technical solutions: a processing mechanism of an LED spotlight shell for a suspended ceiling comprises a material conveying assembly, wherein the material conveying assembly comprises two material conveying guide rails, the material conveying guide rails are independently and fixedly installed, each material conveying guide rail is provided with a material conveying sliding block, the material conveying sliding blocks are in sliding connection with the material conveying guide rails, a material conveying platform is fixedly installed on the two material conveying sliding blocks together, the top end of the material conveying platform is provided with an L-shaped suspension beam, the end of the L-shaped suspension beam is provided with a material taking cylinder, the output end of the material taking cylinder penetrates through the L-shaped suspension beam, the output end of the material taking cylinder is provided with a material taking plate, the bottom end of the material taking plate is provided with four suckers, the top end of the material taking plate is provided with a pump air piece, the pump air piece is connected with the L-shaped suspension beam through a pipeline, the pipeline between the L-shaped suspension beam and the pump air piece is arranged on the inner side of the material taking, transfer gear and locking pedestal swivelling joint, establish the connection through the belt cover between two transfer gears, one of them transfer gear is installed on servo motor's output, servo motor fixes on the lateral wall of the locking pedestal that corresponds, through support body bridge fixed connection between the top surface of belt and fortune material platform, one side that fortune material subassembly deviates from servo motor is provided with the material loading subassembly, the material loading subassembly includes two material loading axle beds, the fortune roller is installed to one side of every material loading axle bed, fortune roller and material loading axle bed swivelling joint, establish the connection through the conveyer belt cover between two fortune rollers, one of them fortune roller is installed on the output of transfer motor, the transfer motor is fixed on the lateral wall of the material loading axle bed that corresponds, the direction of transfer of conveyer belt is parallel with the fortune material guide rail, the one end of conveyer belt is in the below of getting the flitch.

In one embodiment, one side fixed mounting of fortune material subassembly has the board of twisting, twist the one end that the board is close to the conveyer belt, the bottom of twisting the board is provided with four lower margins, and the top of twisting the board is provided with the column spinner, column spinner and twist reverse board swivelling joint, the top fixed mounting of column spinner has the bar to lock the platform, bar lock platform and column spinner fixed connection, the cover is equipped with the gear ring on the column spinner, and drive gear is installed to one side of gear ring, drive gear and gear ring intermeshing, drive gear installs on driving motor's output, driving motor and the top surface fixed connection who twists reverse the board.

In one embodiment, the rotary column is further sleeved with a locking ring, the locking ring is located above the gear ring, one side of the locking ring is provided with a locking assembly, the locking assembly comprises an installation table, the installation table is independently and fixedly installed, one side of the installation table is provided with a clamping arm, the end of the clamping arm is hinged to the side wall of the installation table through a locking hinge block, the side face of the clamping arm is connected with the side face of the installation table through a reset spring, the other end of the clamping arm is provided with a concave arc locking plate, the top end of the clamping arm is provided with a double-head cylinder, two output ends of the double-head cylinder are respectively provided with a bending output rod, the bending output rods at two ends of the double-head cylinder are respectively and rotatably connected with the top faces of the installation table and the clamping arm, the concave arc locking plate is attached to the circumferential.

In one of them embodiment, the top fixed mounting of bar lock platform has the plane axle bed, two arm lock are installed to one side of plane axle bed, the tip turning of two arm lock all with plane axle bed swivelling joint, two arm lock opposite sides are provided with the rectangle opening, the middle part corner of every arm lock all articulates there is the connecting rod, an end and the arm lock of connecting rod are articulated, the one end that the plane axle bed was kept away from to the connecting rod is articulated each other, the hinge point alternate of two connecting rods is in the inboard of removing articulated piece, remove the bottom of articulated piece and install the square, and the top surface of bar lock platform be provided with square assorted bar groove, square and bar groove sliding connection, the bar groove is in the plane axle bed and keeps away from one side of arm lock, the extension line symmetry setting of the axis.

In one of them embodiment, the one end that the plane axle bed was kept away from in the bar groove is provided with the baffle, pass through spring coupling between baffle and the square, bar collet still fixed mounting has the swivel axis seat on the top of bar groove, the swivel axis seat is located one side in bar groove, the top of swivel axis seat is provided with the driving beam arm, the bar spout has been seted up respectively to the relative both ends of driving beam arm, the middle part and the swivel axis seat swivelling joint of driving beam arm, be provided with the inserted bar that alternates at a bar spout inboard of driving beam arm on the square, fixed mounting has the centre gripping cylinder on the lateral wall of bar collet chuck, the output of centre gripping cylinder is provided with the drive montant, the drive montant alternates in the bar spout that square one end was kept away from to.

In one embodiment, a rotating plate is arranged above the bar-shaped lock platform, two torsion guide rails are arranged at the top end of the rotating plate, the torsion guide rails are parallel to the bar-shaped lock platform and are perpendicular to the material conveying guide rails, a torsion slider is arranged on each torsion guide rail and is in sliding connection with the torsion guide rails, a propulsion platform is fixedly arranged at the top ends of the two torsion sliders together, a propulsion shaft seat is fixedly arranged in the middle of the rotating plate and is positioned between the two torsion guide rails, a propulsion wheel disc is arranged on the propulsion shaft seat and is in rotating connection with the propulsion shaft seat, the edge of the top surface of the propulsion wheel disc is connected with one end of the top surface of the propulsion platform through a connecting arm, openings are formed in two ends of the connecting arm, insertion columns matched with the openings in two ends of the connecting arm are arranged on the top surfaces of the propulsion wheel, the propulsion wheel disc is installed on the output end of grooving motor, and the output end of grooving motor passes from the rotor plate, and grooving motor fixed mounting is in the bottom surface of rotor plate.

In one of them embodiment, the propulsion platform is kept away from one side of impelling the rim plate and is provided with the extension arm, the inboard interlude of extension arm has vertical pole, the top of vertical pole is provided with heavily pressing the bulb, fixed mounting has the extrusion cylinder on the tip top surface of extension arm, the inclined plane piece is installed to the output of extrusion cylinder, the side bottom of inclined plane piece laminating heavily pressing the bulb, one side recess of inclined plane piece is equipped with the U-shaped groove, the U-shaped groove is used for holding vertical pole, the bottom of vertical pole is provided with the pressure plate, and the cover is equipped with pressure spring on the vertical pole, pressure spring's top is connected in the bottom surface of extension arm, the bottom of pressure plate is provided with the cutter, pressure spring's bottom is supported and is held in the top of cutter, the cutter is.

In one embodiment, one end fixed mounting that the fortune material guide rail was kept away from to the rotor plate has vertical board, one side of vertical board is provided with two articulated blocks of bearing, the rotor plate is articulated through the side of two articulated blocks of bearing and vertical board, the side upper portion of vertical board is provided with the arc nozzle stub, the inboard of arc nozzle stub is installed and is slided the guide arm, slide guide arm and arc nozzle stub sliding connection, slide the end and the rotor plate fixed connection of guide arm, the articulated cylinder of holding of installing in vertical board lateral wall upper portion, the output pole is installed to the output that holds the cylinder of pulling, the one end that holds the cylinder of pulling is articulated through the side of articulated block of end and vertical board, the end of output pole and the lateral.

In one of them embodiment, one side that the material loading subassembly was kept away from to bar lock platform is provided with washs the subassembly, washs the subassembly and is located one side of fortune material guide rail, and it includes the loading board, and washing liquid box and water pump are installed on the top of loading board, and the input of water pump passes through the connecting pipe and is connected with the washing liquid box, and the output tube is installed to the output of water pump, and the end of output tube is provided with the nozzle, and the top of loading board is provided with the fan, and the fan passes through the.

The invention has the beneficial effects that:

one of them, this mechanism is when using, put the LED shot-light lamps and lanterns shell of handling on the conveyer belt, wait to convey LED shot-light lamps and lanterns shell when transporting preset position, get the material cylinder and drive and get the flitch and fall down, then pump the air piece and take out the air in the sucking disc, LED shot-light lamps and lanterns shell at this moment is in the same place with the sucking disc absorption promptly, then servo motor passes through the belt and drives the fortune material platform and slide along the fortune material guide rail, LED shot-light lamps and lanterns shell can be put down on the bar lock bench, then arm lock rotary clamping LED shot-light lamps and lanterns shell, the function of automatic feeding has been realized.

Two, the output of holding the cylinder is when stretching, the rotor plate can rotate and fall down, grooving motor drive this moment impel the rim plate rotatory in, impel the platform also along twisting reverse guide rail reciprocating motion, extrusion cylinder at this moment drives the inclined plane piece shrink, heavily press bulb and cutter to fall down, the cutter can realize die-cut wire casing when reciprocating motion around promoting the drive of platform, the ring gear is in the rotation, bar lock platform will rotate ninety degrees, four wire casings will be surely gone out to lamps and lanterns, automatic processing's function has been realized, grooving efficiency has been improved.

Drawings

Fig. 1 is a schematic front view of a machining mechanism of an LED spotlight shell for a suspended ceiling.

Fig. 2 is a schematic diagram of a side view of a processing mechanism of an LED spotlight housing for a suspended ceiling.

FIG. 3 is a schematic diagram of a material conveying assembly of a machining mechanism of an LED spotlight shell for a suspended ceiling.

Fig. 4 is a schematic sectional view of a processing mechanism of the LED spotlight housing for the suspended ceiling.

Fig. 5 is a schematic diagram of a second viewing angle of a section of a processing mechanism of the LED spotlight shell for the suspended ceiling.

Fig. 6 is a schematic diagram of a strip-shaped locking table of a processing mechanism of an LED spotlight shell for a suspended ceiling.

FIG. 7 is a schematic diagram of a machining mechanism locking assembly of an LED spotlight housing for a suspended ceiling.

Fig. 8 is a schematic diagram of a machining mechanism rotating plate of an LED spotlight shell for a suspended ceiling.

Fig. 9 is a schematic view of a rotating plate of a processing mechanism of an LED spotlight housing for a suspended ceiling.

Description of reference numerals:

1-material conveying component, 101-material conveying guide rail, 102-material conveying sliding block, 103-material conveying platform, 104-L-shaped suspension beam, 105-material taking cylinder, 106-material taking plate, 107-air pumping piece, 108-suction cup, 109-locking base body, 110-conveying wheel, 111-belt, 112-servo motor, 113-frame bridge, 2-material feeding component, 201-material feeding shaft base, 202-operation roller, 203-conveying belt, 204-conveying motor, 3-torsion plate, 301-ground foot, 302-rotating column, 303-gear ring, 304-driving gear, 305-driving motor, 306-locking ring, 4-rotating plate, 401-torsion guide rail, 402-torsion sliding block, 403-propelling shaft base, 404-propelling wheel disc, 405-propelling stage, 406-connecting arm, 407-extruding cylinder, 408-inclined block, 409-vertical rod, 410-heavy-duty bulb, 411-extending arm, 412-grooving motor, 413-pressure spring, 414-pressure plate, 415-cutter, 5-cleaning component, 501-cleaning liquid tank, 502-connecting pipe, 503-water pump, 504-output pipe, 505-fan, 506-bracket, 507-nozzle, 508-bearing plate, 6-bar-shaped locking stage, 601-plane shaft seat, 602-clamping arm, 603-rectangular notch, 604-bar-shaped groove, 605-square, 606-movable hinged block, 607-connecting rod, 608-driving beam arm, 609-clamping cylinder, 610-spring, 611-baffle, 612-a rotating shaft seat, 7-a vertical plate, 701-a bearing hinged block, 702-a sliding guide rod, 703-an arc short pipe, 8-a locking assembly, 801-a mounting table, 802-a locking hinged block, 803-a clamping arm, 804-a concave arc locking plate, 805-a return spring, 806-a double-head cylinder, 9-a pulling and holding cylinder, 901-an end hinged block and 902-an output rod.

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 9, the processing mechanism for the LED spotlight housing for the suspended ceiling includes a material transporting assembly (1), where the material transporting assembly (1) includes two material transporting guide rails 101, and the material transporting guide rails 101 are independently and fixedly installed, for example, fixedly installed relative to the ground. Each material conveying guide rail 101 is provided with a material conveying slide block 102, the material conveying slide blocks 102 are connected with the material conveying guide rails 101 in a sliding manner, two material conveying slide blocks 102 are jointly and fixedly provided with a material conveying table 103, the top end of the material conveying table 103 is provided with an L-shaped suspension beam 104, the end head of the L-shaped suspension beam 104 is provided with a material taking cylinder 105, the output end of the material taking cylinder 105 penetrates through the L-shaped suspension beam 104, the output end of the material taking cylinder 105 is provided with a material taking plate 106, the bottom end of the material taking plate 106 is provided with four suction cups 108, the top end of the material taking plate 106 is provided with an air pumping element 107, the air pumping element 107 is connected with the L-shaped suspension beam 104 through a pipeline, the pipeline between the L-shaped suspension beam 104 and the air pumping element 107 is arranged on the inner side of the material taking plate 106, the opposite two ends of one material conveying guide rail 101 are respectively provided with a locking, the conveying wheels 110 are rotatably connected with the locking base 109, the two conveying wheels 110 are connected with each other through a belt 111 in a sleeved mode, one conveying wheel 110 is installed at the output end of the servo motor 112, the servo motor 112 is fixed on the side wall of the corresponding locking base 109, the belt 111 is fixedly connected with the top surface of the conveying table 103 through a frame body bridge 113, one side, away from the servo motor, of the conveying assembly 1 is provided with a feeding assembly 2, the feeding assembly 2 comprises two feeding shaft bases 201, one side of each feeding shaft base 201 is provided with a conveying roller 202, the conveying rollers 202 are rotatably connected with the feeding shaft bases 201, the two conveying rollers 202 are connected with each other through a conveying belt 203 in a sleeved mode, one conveying roller 202 is installed at the output end of the conveying motor 204, and the conveying direction of the conveying belts is parallel to conveying guide rails. One end of the conveyor belt is positioned below the material taking plate, and the conveyor motor 204 is fixed on the side wall of the corresponding feeding shaft base 201.

During feeding, a square LED spotlight shell to be processed is placed on the conveyor belt 203, when the LED spotlight shell is conveyed to a preset position by the conveyor belt 203, the conveyor motor 204 drives the conveying table 103 to slide through the belt 111, the material taking cylinder 105 drives the material taking plate 106 to fall down, the air pumping piece 107 pumps air in the four suckers 108, and the LED spotlight shell and the four suckers 108 are adsorbed together. The material transporting assembly is used for transporting the LED spotlight lamp shell to a torsion plate or a cleaning assembly.

Fortune material subassembly 1 one side fixed mounting has twist plate 3, the one end of twisting the adjacent conveyer belt of board, the bottom of twisting plate 3 is provided with four lower margins 301, and the top of twisting plate 3 is provided with column spinner 302, column spinner 302 and 3 swivelling joint of twisting plate, the top fixed mounting of column spinner 302 has bar lock platform 6, bar lock platform 6 and column spinner 302 fixed connection, the cover is equipped with gear ring 303 on the column spinner 302, and drive gear 304 is installed to one side of gear ring 303, drive gear 304 and gear ring 303 intermeshing, drive gear 304 is installed on driving motor 305's output, driving motor 305 and the top surface fixed connection who twists reverse plate 3. The driving motor 305 drives the gear ring 303 to rotate through the driving gear 304, the rotating column 302 and the gear ring 303 synchronously rotate, and the bar-shaped locking platform 6 can be installed and changed with stations at four angles.

The rotating column 302 is further sleeved with a locking ring 306, the locking ring is located above the gear ring, one side of the locking ring 306 is provided with a locking assembly 8, the locking assembly 8 comprises an installation platform 801, the installation platform 801 is independently and fixedly installed, for example, fixedly installed relative to the ground, one side of the installation platform 801 is provided with a clamping arm 803, the end of the clamping arm 803 is hinged to the side wall of the installation platform 801 through a locking hinge block 802, the side face of the clamping arm 803 and the side face of the installation platform 801 are connected through a return spring 805, the other end of the clamping arm 803 is provided with a concave arc locking plate 804, the top end of the clamping arm 803 is provided with a double-head cylinder 806, two output ends of the double-head cylinder 806 are respectively provided with a bending output rod, and the bending output rods at two ends of the double-head cylinder. After the bar lock table 6 and the rotary column 302 are rotationally indexed, the output end of the double-headed cylinder 806 is released to release the load, and the clamp arm 803 locks the lock ring 306 by the return spring 805. The concave arc locking plate is attached to and abutted against the circumferential surface of the locking ring.

The top fixed mounting of bar lock platform 6 has plane axle bed 601, two arm lock 602 are installed to one side of plane axle bed 601, the tip corner of arm lock 602 all with plane axle bed 601 swivelling joint, two arm lock 602's one side in opposite directions all is provided with rectangle opening 603, the middle part corner of every arm lock 602 all articulates there is the connecting rod 607, an end and the arm lock 602 of every connecting rod 607 are articulated, the one end that plane axle bed was kept away from to two connecting rods 607 is articulated each other, the hinge point alternate of two connecting rods 607 is in the inboard of removing articulated piece 606, square 605 is installed to the bottom of removing articulated piece 606, and the top surface of bar lock platform 6 be provided with square 605 assorted bar groove 604, square 605 and bar groove 604 sliding connection. The bar groove is in the one side that the arm lock was kept away from to the plane axle bed, and the extension line symmetry of the axis in the relative bar groove of two arm lock sets up, and the one end of bar lock platform is fixed in the top of column spinner.

After the material conveying assembly sucks the LED spotlight shell from the conveyor belt, the LED spotlight shell can be placed between the two clamping arms 602, and when the square block 605 and the movable hinging block 606 are pushed forwards and pushed towards the plane shaft base, the LED spotlight shell is clamped when the two clamping arms 602 are driven to rotate.

One end that the plane axle bed was kept away from to bar groove 604 is provided with baffle 611, connect through spring 610 between baffle 611 and the square 605, bar lock platform 6's top still fixed mounting has swivel axis seat 612, swivel axis seat is located one side in bar groove, swivel axis seat 612's top is provided with drive beam arm 608, the bar spout has been seted up respectively to the relative both ends of drive beam arm, the middle part and the swivel axis seat 612 swivelling joint of drive beam arm 608, be provided with the inserted bar of interlude in a bar spout inboard of drive beam arm 608 on the square 605, fixed mounting has centre gripping cylinder 609 on the lateral wall of bar lock platform 6, centre gripping cylinder 609's output is provided with the drive montant, the drive montant alternates in the bar spout that the square one end was kept away from at drive beam arm 608, the drive montant. Clamping cylinder 609 rotates drive beam arm 608, and drive beam arm 608 moves block 605 back and forth along the bar slot.

A rotating plate 4 is arranged above the bar-shaped locking platform 6 and is fixedly arranged relative to the ground. Two torsion guide rails 401 are mounted at the top end of the rotating plate 4, the torsion guide rails are parallel to the strip-shaped locking platform and are vertical to the material conveying guide rails, a torsion slider 402 is mounted on each torsion guide rail 401, the torsion sliders 402 are connected with the torsion guide rails 401 in a sliding manner, a propelling platform 405 is fixedly mounted at the top ends of the two torsion sliders 402, the middle part of rotor plate 4 fixed mounting has propulsion axle bed 403, the propulsion axle bed is located between two torsion guide rails, be provided with on the propulsion axle bed 403 and impel rim plate 404, impel rim plate 404 and impel axle bed 403 swivelling joint, the top surface edge that impels rim plate 404 and the top surface one end of impelling platform 405 pass through the linking arm 406 to be connected, the both ends of linking arm 406 are provided with the trompil, impel the top surface of rim plate 404 and impel platform 405 all to be provided with the linking arm 406 both ends trompil assorted insert the post, two insert the post respectively rotatably insert locate in the trompil. The pushing wheel disc 404 is installed on the output end of the grooving motor 412, the output end of the grooving motor 412 penetrates through the rotating plate 4, the grooving motor 412 drives the connecting arm 406 to operate through the pushing wheel disc 404, and then the connecting arm 406 drives the pushing table 405 to reciprocate. The grooving motor is fixedly arranged on the bottom surface of the rotating plate and used for grooving the LED spotlight shell.

One side that impels platform 405 to keep away from and impel the rim plate is provided with extension arm 411, the inboard interlude of extension arm 411 has vertical pole 409, the top of vertical pole 409 is provided with heavily pressing bulb 410, fixed mounting has extrusion cylinder 407 on the tip top surface of extension arm 411, inclined plane piece 408 is installed to extrusion cylinder 407's output, inclined plane piece 408 laminating heavily presses bulb 410's side bottom, the concave U-shaped groove that is equipped with in one side of inclined plane piece, the U-shaped groove is used for holding vertical pole, the bottom of vertical pole 409 is provided with pressure plate 414, and vertical pole 409 goes up the cover and is equipped with pressure spring 413, pressure spring's top is connected in the bottom surface of extension arm, the bottom of pressure plate 414 is provided with cutter 415, pressure spring's. The cutter is positioned right above the rectangular opening. The rectangle opening is located the column spinner directly over, and the cutter of propulsion platform 405 bottom can be slotted in LED shot-light lamp shell, and when extrusion cylinder 407 output was shrink, vertical pole 409 just can fall under the effect of heavily pressing bulb and compression spring, injects in the LED shot-light lamp shell of rectangle opening location.

The material conveying device is characterized in that a vertical plate 7 is fixedly installed at one end, far away from a material conveying guide rail, of a rotating plate 4, two bearing hinging blocks 701 are arranged on one side of the vertical plate 7, the rotating plate 4 is hinged to the side face of the vertical plate 7 through the two bearing hinging blocks 701, an arc-shaped short pipe 703 is arranged on the upper portion of the side face of the vertical plate 7, a sliding guide rod 702 is installed on the inner side of the arc-shaped short pipe 703, the sliding guide rod 702 is connected with the arc-shaped short pipe 703 in a sliding mode, the end of the sliding guide rod 702 is fixedly connected with the rotating plate 4, a pulling cylinder 9 is installed on the upper portion of the side wall of the vertical plate 7 in a hinged mode, an output rod 902 is installed at the output end of the pulling cylinder 9. The pulling cylinder 9 is used for driving the rotating plate 4 to rotate, and the sliding guide rod 702 is inserted into the arc-shaped short pipe 703 at the moment, so that the rotating plate is lifted to release the LED spotlight shell on the bar-shaped locking platform.

For example, the material conveying assembly clamps and conveys the LED spot lamp shell after the groove is formed in the strip-shaped lock table to the cleaning assembly. For example, the cleaning assembly 5 is disposed on one side of the bar-shaped locking platform 6 away from the feeding assembly, and the cleaning assembly 5 is disposed on one side of the material conveying guide rail and includes a bearing plate 508, which is fixedly mounted relative to the ground. Cleaning solution tank 501 and water pump 503 are installed to the top of loading board 508, and the input of water pump 503 passes through connecting pipe 502 and is connected with cleaning solution tank 501, and output tube 504 is installed to the output of water pump 503, and the tip of output tube 504 is provided with nozzle 507, the top of loading board 508 is provided with fan 505, and fan 505 passes through the top surface of support 506 and loading board 508 to be connected, and LED shot-light lamps and lanterns shell next transports on loading board 508, and water pump 503 extracts the cleaning solution of cleaning solution tank 501 and impresses in nozzle 507, and fan 505 gives LED shot-light lamps and lanterns shell quick air-dries again.

When the LED spot lamp is used, a square LED spot lamp shell to be processed is placed on the conveyor belt 203, when the LED spot lamp shell is conveyed to a preset position by the conveyor belt 203, the conveyor motor 204 drives the conveying table 103 to slide through the belt 111, the material taking cylinder 105 drives the material taking plate 106 to fall down, the air pumping piece 107 pumps air in the four suction cups 108, the LED spot lamp shell and the four suction cups 108 are adsorbed together, the driving motor 305 drives the gear ring 303 to rotate through the driving gear 304, the rotating column 302 and the gear ring 303 synchronously rotate, the bar-shaped locking table 6 can be installed and changed at four-angle stations, after the bar-shaped locking table 6 and the rotating column 302 are rotationally changed, the output end of the double-head cylinder 806 looses loads, and the clamping arm 803 locks the locking ring 306 through the reset spring 805.

Four suckers on the material taking plate release the LED spotlight shell, the LED spotlight shell is placed between two clamping arms 602, when the square 605 and the movable hinging block 606 are pushed forward, the clamping arms 602 clamp the LED spotlight shell when rotating, the clamping cylinder 609 drives the driving beam arm 608 to rotate, the driving beam arm 608 drives the square 605 to push forward, the grooving motor 412 runs through the pushing rotary disc 404 and the connecting arm 406, then the connecting arm 406 drives the pushing table 405 to move back and forth, and a cutter at the bottom end of the pushing table 405 can be grooved in the LED spotlight shell. When the output end of the extrusion cylinder 407 contracts, the vertical rod 409 on the rotating plate falls down to be inserted into the housing of the LED spotlight, the cylinder 9 is pulled to drive the rotating plate 4 to rotate, and the sliding guide rod 702 is inserted into the arc-shaped short pipe 703. Thereafter, the slotted LED spot light fixture housing is gripped to the cleaning assembly, such as by the material handling assembly. Then, the water pump 503 pumps the cleaning liquid in the cleaning liquid tank 501 and presses the cleaning liquid into the nozzle 507, and the fan 505 quickly dries the LED spotlight shell.

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.

Claims (9)

1. The utility model provides a processing agency of LED shot-light shell for furred ceiling which characterized in that: the material conveying assembly comprises a material conveying assembly (1), wherein the material conveying assembly (1) comprises two material conveying guide rails (101), the material conveying guide rails (101) are independently and fixedly installed, a material conveying sliding block (102) is installed on each material conveying guide rail (101), the material conveying sliding blocks (102) are in sliding connection with the material conveying guide rails (101), a material conveying platform (103) is fixedly installed on the two material conveying sliding blocks (102) together, an L-shaped suspension beam (104) is arranged at the top end of the material conveying platform (103), a material taking cylinder (105) is arranged at the end of the L-shaped suspension beam (104), the output end of the material taking cylinder (105) penetrates through the L-shaped suspension beam (104), a material taking plate (106) is installed at the output end of the material taking cylinder (105), four suction cups (108) are arranged at the bottom end of the material taking plate (106), a pump air piece (107) is arranged at the top end of the material taking plate (106), the pump air piece (107) is connected with the L-shaped suspension beam (104) through a pipeline, and a pipeline between the L-shaped, wherein, the two opposite ends of one material conveying guide rail (101) are respectively provided with a locking base body (109), one side of each locking base body (109) is provided with a transmission wheel (110), the transmission wheel (110) is rotationally connected with the locking base body (109), the two transmission wheels (110) are sleeved and connected through a belt (111), one transmission wheel (110) is arranged at the output end of a servo motor (112), the servo motor (112) is fixed on the side wall of the corresponding locking base body (109), the belt (111) is fixedly connected with the top surface of a material conveying platform (103) through a frame body bridge (113), one side of the material conveying component (1) departing from the servo motor is provided with a material feeding component (2), the material feeding component (2) comprises two material feeding shaft seats (201), one side of each material feeding shaft seat (201) is provided with a conveying roller (202), the conveying roller (202) is rotationally connected with the material feeding shaft seats (201), the two conveying rollers (202) are connected in a sleeved mode through a conveying belt (203), one conveying roller (202) is installed at the output end of a conveying motor (204), the conveying motor (204) is fixed on the side wall of a corresponding feeding shaft seat (201), the conveying direction of the conveying belt is parallel to a conveying guide rail, and one end of the conveying belt is located below the material taking plate.

2. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 1, wherein: one side fixed mounting of fortune material subassembly (1) has board (3) of twisting, the one end of the board neighbouring conveyer belt that twists reverse, the bottom of twisting board (3) is provided with four lower margins (301), and the top of twisting board (3) is provided with column spinner (302), column spinner (302) and board (3) swivelling joint twist, the top fixed mounting of column spinner (302) has bar lock platform (6), bar lock platform (6) and column spinner (302) fixed connection, the cover is equipped with gear ring (303) on column spinner (302), and drive gear (304) are installed to one side of gear ring (303), drive gear (304) and gear ring (303) intermeshing, drive gear (304) are installed on the output of driving motor (305), the top surface fixed connection of driving motor (305) and board (3) twists reverse.

3. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 2, wherein: the rotary column (302) is further sleeved with a locking ring (306), the locking ring is located above the gear ring, one side of the locking ring (306) is provided with a locking assembly (8), the locking assembly (8) comprises an installation table (801), the installation table (801) is independently and fixedly installed, one side of the installation table (801) is provided with a clamping arm (803), the end of the clamping arm (803) is hinged to the side wall of the installation table (801) through a locking hinge block (802), the side face of the clamping arm (803) is connected with the side face of the installation table (801) through a return spring (805), the other end of the clamping arm (803) is provided with a concave arc locking plate (804), the top end of the clamping arm (803) is provided with a double-head cylinder (806), two output ends of the double-head cylinder (806) are respectively provided with bending output rods, the bending output rods at the two ends of the double-head cylinder (806) are respectively connected with the top faces of, the concave arc locking plate is attached to and abutted against the circumferential surface of the locking ring, and one end of the strip-shaped locking platform is fixed at the top end of the rotating column.

4. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 3, wherein: the top end of the strip-shaped locking platform (6) is fixedly provided with a plane shaft seat (601), one side of the plane shaft seat (601) is provided with two clamping arms (602), the end corners of the two clamping arms (602) are rotatably connected with the plane shaft seat (601), one opposite side of the two clamping arms (602) is provided with a rectangular notch (603), the middle corner of each clamping arm (602) is hinged with a connecting rod (607), one end of each connecting rod (607) is hinged with the clamping arm (602), one ends of the connecting rods (607) far away from the plane shaft seat are hinged with each other, the hinged points of the two connecting rods (607) are inserted into the inner side of the movable hinged block (606), the bottom end of the movable hinged block (606) is provided with a square block (605), the top surface of the strip-shaped locking platform (6) is provided with a strip-shaped groove (604) matched with the square block (605), the square block (605) is slidably connected, the two clamping arms are symmetrically arranged relative to the extension line of the central axis of the strip-shaped groove.

5. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 4, wherein: one end of the strip-shaped groove (604) far away from the plane shaft seat is provided with a baffle (611), the baffle (611) and the square block (605) are connected through a spring (610), a rotary shaft seat (612) is further fixedly mounted at the top end of the strip-shaped locking platform (6), the rotary shaft seat is located on one side of the strip-shaped groove, a driving beam arm (608) is arranged at the top end of the rotary shaft seat (612), strip-shaped sliding grooves are respectively formed in the two opposite ends of the driving beam arm, the middle of the driving beam arm (608) is rotatably connected with the rotary shaft seat (612), an insertion rod penetrating into one strip-shaped sliding groove on the driving beam arm (608) is arranged on the square block (605), a clamping cylinder (609) is fixedly mounted on the side wall of the strip-shaped locking platform (6), the output end of the clamping cylinder (609) is provided with a driving vertical rod, the driving vertical rod penetrates into the strip.

6. The processing mechanism of the LED spotlight shell for the suspended ceiling according to claim 5, characterized in that: a rotating plate (4) is arranged above the bar-shaped locking platform (6), two torsion guide rails (401) are installed at the top end of the rotating plate (4), the torsion guide rails are parallel to the bar-shaped locking platform and are perpendicular to the material conveying guide rails, a torsion slider (402) is installed on each torsion guide rail (401), the torsion slider (402) is in sliding connection with the torsion guide rails (401), a propelling table (405) is fixedly installed at the top ends of the two torsion sliders (402) together, a propelling shaft seat (403) is fixedly installed in the middle of the rotating plate (4), the propelling shaft seat is located between the two torsion guide rails, a propelling wheel disc (404) is arranged on the propelling shaft seat (403), the propelling wheel disc (404) is in rotating connection with the propelling shaft seat (403), the edge of the top surface of the propelling wheel disc (404) is connected with one end of the top surface of the propelling table (405) through a connecting arm (406), openings are formed in two ends of the connecting arm (406), openings The two inserting columns are respectively and rotatably inserted into the openings at the two opposite ends of the connecting arm, the pushing wheel disc (404) is installed at the output end of the grooving motor (412), the output end of the grooving motor (412) penetrates through the rotating plate (4), and the grooving motor is fixedly installed on the bottom surface of the rotating plate.

7. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 6, wherein: an extension arm (411) is arranged on one side, away from a propulsion wheel disc, of a propulsion platform (405), a vertical rod (409) is inserted into the inner side of the extension arm (411), a heavy pressure ball head (410) is arranged at the top end of the vertical rod (409), an extrusion cylinder (407) is fixedly mounted on the top surface of the end portion of the extension arm (411), a bevel block (408) is mounted at the output end of the extrusion cylinder (407), the bevel block (408) is attached to the bottom of the side surface of the heavy pressure ball head (410), a U-shaped groove is concavely formed in one side of the bevel block and used for accommodating the vertical rod, a pressure plate (414) is arranged at the bottom end of the vertical rod (409), a pressure spring (413) is sleeved on the vertical rod (409), the top end of the pressure spring is connected to the bottom surface of the extension arm, a cutter (415) is arranged at the bottom end of the pressure, the rectangular gap is positioned right above the rotary column.

8. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 7, wherein: one end of the rotating plate (4) far away from the material conveying guide rail is fixedly provided with a vertical plate (7), one side of the vertical plate (7) is provided with two bearing hinged blocks (701), the rotating plate (4) is hinged with the side face of the vertical plate (7) through the two bearing hinged blocks (701), the upper portion of the side face of the vertical plate (7) is provided with an arc-shaped short pipe (703), the inner side of the arc-shaped short pipe (703) is provided with a sliding guide rod (702), the sliding guide rod (702) is in sliding connection with the arc-shaped short pipe (703), the end of the sliding guide rod (702) is fixedly connected with the rotating plate (4), the upper portion of the side wall of the vertical plate (7) is hinged with a pulling cylinder (9), an output rod (902) is installed at the output end of the pulling cylinder (9), one end of the pulling cylinder (9) is hinged with the side face of the vertical plate (7) through an end hinged.

9. The processing mechanism of the LED spotlight shell for the suspended ceiling as claimed in claim 8, wherein: one side that material loading subassembly was kept away from in bar lock platform (6) is provided with washing subassembly (5), washing subassembly (5) are located one side of fortune material guide rail, it includes loading board (508), washing liquid box (501) and water pump (503) are installed on the top of loading board (508), the input of water pump (503) is passed through connecting pipe (502) and is connected with washing liquid box (501), output tube (504) are installed to the output of water pump (503), the end of output tube (504) is provided with nozzle (507), the top of loading board (508) is provided with fan (505), fan (505) are connected through the top surface of support (506) and loading board (508).

Images