CN215469353U - Multistation LED lamp kludge - Google Patents

Abstract

The utility model relates to a multi-station LED lamp assembling machine which can comprise a turntable, wherein an upper lamp cup station, a wire arranging and driving height fixing station, a gluing station, an upper lamp holder station, a lamp holder rotating station, a lamp cutting and pressing line station, a lamp holder soldering station, a soldering tin CCD detection station, an electrifying detection station, an OK product blanking station and an NG product eliminating station are uniformly distributed on the turntable along the circumferential direction, each station is correspondingly provided with a lamp cup jig, the upper lamp cup device, the wire arranging and driving height fixing device, the gluing device, the upper lamp holder device, the lamp holder rotating device, the lamp cutting and pressing line device, the lamp holder soldering tin device, the soldering CCD detection device, the electrifying detection device, the OK product blanking device and the NG product eliminating device are arranged on corresponding stations around the turntable, the turntable is driven by the intermittent power driving mechanism to intermittently rotate so as to complete the automatic assembly operation of the LED lamp by matching with a corresponding device.

Description

Multistation LED lamp kludge

Technical Field

The utility model relates to LED lamp assembling equipment, in particular to a multi-station LED lamp assembling machine.

Background

The LED lamp assembling process mainly comprises the following steps: arranging lamp wires, gluing, twisting lamp caps, trimming and pressing the lamp wires, welding the lamp wires, inspecting products and the like. These steps are performed manually by workers in a conventional production line, so that a large number of skilled workers are required, labor cost is high, and the problems of low production efficiency, high product reject ratio and the like due to fatigue of the workers are easily caused. Therefore, it is urgently required to develop an LED lamp assembling machine with a high degree of automation.

Disclosure of Invention

The utility model aims to provide a multi-station LED lamp assembling machine to realize automatic assembling of LED lamps. Therefore, the utility model adopts the following specific technical scheme:

a multi-station LED lamp assembling machine can comprise a rotary table, wherein an upper lamp cup station, a wire arranging and driving height fixing station, a gluing station, an upper lamp head station, a lamp head rotating station, a lamp wire cutting and pressing station, a lamp head soldering station, a soldering tin CCD detection station, a power-on detection station, an OK product blanking station and an NG product eliminating station are uniformly distributed on the rotary table along the circumferential direction, each station is correspondingly provided with a lamp cup jig, the upper lamp cup device, the wire arranging and driving height fixing device, the gluing device, the upper lamp head device, the lamp head rotating device, the lamp wire cutting and pressing device, the lamp head soldering tin device, the soldering tin CCD detection device, the power-on detection device, the OK product blanking device and the NG product eliminating device are arranged on the corresponding stations around the rotary table, the turntable is driven by the intermittent power driving mechanism to intermittently rotate so as to complete the automatic assembly operation of the LED lamp by matching with a corresponding device.

Further, lamp cup feeding device includes the two-dimensional motion module and with the double-layered material subassembly of two-dimensional motion module drive connection, press from both sides the material subassembly and include the finger cylinder and fix about chuck on the finger of finger cylinder, the clamping surface of controlling the chuck is the arc surface.

Further, the distance between the left chuck and the right chuck is adjustable.

Furthermore, the gluing device comprises a glue supply quantitative system, a gluing mechanism, a glue brushing pen, a rotating assembly and a lifting assembly, the gluing mechanism comprises a gluing lifting component, a gluing controller and a gluing head, the gluing controller is in driving connection with the gluing lifting component, a glue inlet of the gluing controller is communicated with the fluid of the glue supply quantitative system, the gluing head is fixedly connected with a glue outlet of the gluing controller, the lamp cap mounting part is used for filling glue into a lamp cup of the LED lamp, the glue brushing pen is fixedly mounted between the glue outlet head and the lamp cup jig, is used for brushing glue overflowing the lamp holder mounting part uniformly, the rotating component is mounted below the lamp cup jig, the lifting assembly is used for driving the rotating assembly to ascend and descend so that the rotating assembly can be connected with or disconnected from the lamp cup jig.

Further, the glue supply and dosing system may comprise two glue tanks, each of which is connected to the glue inlet of the glue outlet controller via a glue hose.

Further, the lamp cap feeding device comprises a lamp cap feeding vibration disc assembly, a mechanism lifting assembly and a lamp cap feeding mechanism, wherein the mechanism lifting assembly is installed above a discharge port of the lamp cap feeding vibration disc assembly and used for driving the lamp cap feeding mechanism to ascend and descend, the lamp cap feeding mechanism comprises a lamp cap lifting assembly and a lamp cap finger clamp, the lamp cap lifting assembly is used for driving the lamp cap finger clamp to ascend and descend, and the lamp cap finger clamp is used for clamping a lamp cap leaving the discharge port of the lamp cap feeding vibration disc assembly.

Further, it embraces the finger clamp tightly including revolving lamp holder mechanism and lamp cup to revolve the lamp holder device, it embraces the finger clamp tightly including lifting unit, driving motor, rotation axis and lamp holder to revolve lamp holder mechanism, lifting unit is used for the drive the rotation axis goes up and down, driving motor is used for the drive the rotation axis is rotatory, the lamp holder embrace the finger clamp fixed connection in the rotation axis for the centre gripping lamp holder, the lamp cup embraces the finger clamp and is located under the lamp holder embraces the finger clamp tightly, is used for centre gripping lamp cup.

Furthermore, the lamp holder soldering device comprises a lamp holder soldering mechanism and a tin blocking finger clamp assembly, the lamp holder soldering mechanism comprises an arm advancing and retreating assembly, an arm lifting assembly, an electric soldering iron and an automatic tin feeding assembly, the arm advancing and retreating assembly and the arm lifting assembly are used for driving the electric soldering iron to move forwards and backwards and move upwards and downwards, and the automatic tin feeding assembly is used for conveying a tin bar to a welding position to be in contact with the electric soldering iron.

Further, soldering tin CCD detection device includes fixed stay bar, CCD industry camera and coaxial light source, CCD industry camera with coaxial light source install on the fixed stay bar, be located and wait to detect the LED lamp directly over.

Further, the electrification detection device comprises an anode electrification component, a cathode electrification finger clamp and a photosensitive detector, wherein the anode electrification component comprises an air cylinder and a contact, the air cylinder drives the contact to be in contact with the anode of the lamp cap of the LED lamp, the cathode electrification finger clamp comprises a finger air cylinder and a pair of metal springs fixed on the finger air cylinder, the pair of metal springs are arranged in a splayed shape, and the photosensitive detector is arranged under the LED lamp to be detected.

By adopting the technical scheme, the utility model has the beneficial effects that: the LED lamp automatic assembling device can realize automatic assembling operation of the LED lamp, has high production efficiency, greatly reduces the labor cost, can automatically remove defective products, and reduces the risk of the defective products flowing into the market.

Drawings

To further illustrate the various embodiments, the utility model provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the utility model and, together with the description, serve to explain the principles of the embodiments. Those skilled in the art will appreciate still other possible embodiments and advantages of the present invention with reference to these figures. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

FIG. 1 is a perspective view of a multi-station LED lamp assembly machine of the present invention;

FIG. 2 is a top view of the multi-station LED lamp assembly machine shown in FIG. 1;

FIG. 3 is a perspective view of the upper cup assembly of the multi-station LED lamp assembly machine shown in FIG. 1;

FIG. 4 is a perspective view of a wire arranging and driving height setting device of the multi-station LED lamp assembling machine shown in FIG. 1;

FIG. 5 is a perspective view of a glue applicator of the multi-station LED lamp assembly machine shown in FIG. 1;

FIG. 6 is a perspective view of an upper base assembly of the multi-station LED lamp assembly machine shown in FIG. 1;

FIG. 7 is a perspective view of a screw cap assembly of the multi-station LED lamp assembly machine shown in FIG. 1;

FIG. 8 is a perspective view of a light line cutting and pressing device of the multi-station LED lamp assembling machine shown in FIG. 1;

FIG. 9 is a perspective view of a lamp holder soldering apparatus of the multi-station LED lamp assembling machine shown in FIG. 1;

FIG. 10 is a perspective view of a solder CCD detecting device of the multi-station LED lamp assembling machine shown in FIG. 1;

fig. 11 is a perspective view of the energization detecting device of the multi-station LED lamp assembling machine shown in fig. 1.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings and detailed description.

As shown in figures 1 and 2, a multistation LED lamp kludge can include carousel 1, carousel 1 has lamp cup station I, reason line and drive along the circumference equipartition to decide high station II, rubberizing station III, go up lamp holder station IV, revolve lamp holder station V, cut lamp line and press lamp line station VI, lamp holder soldering tin station VII, soldering tin CCD detects station VIII, circular telegram detection station IX, OK product unloading station X and NG product rejection station XI etc. and every station correspondence is equipped with a lamp cup tool 2, and lamp cup tool 2 is used for the lamp cup of LED lamp of location, can do the horizontal rotation when needing. The lamp cap feeding device 3, the wire arranging and driving height fixing device 4, the gluing device 5, the lamp cap feeding device 6, the lamp cap rotating device 7, the lamp wire cutting and pressing device 8, the lamp cap soldering device 9, the soldering CCD detection device 10, the electrifying detection device 11, the OK product discharging device 12 and the NG product removing device 13 are arranged on corresponding stations around the turntable 1. The turntable 1 is driven by an intermittent power driving mechanism to intermittently rotate so as to be matched with a corresponding device to complete the automatic assembly operation of the LED lamp. The intermittent power driving mechanism can comprise a motor and a force output rotating shaft in driving connection with the motor, the rotating disc 1 is installed on the force output rotating shaft, and the motor drives the force output rotating shaft to rotate to drive the rotating disc 1 to rotate intermittently. The specific mechanism of each of the above-described apparatuses will be described below.

As shown in fig. 3, the lamp cup loading device 3 may include an arm advancing and retreating assembly 31, an arm lifting cylinder 32 and a material clamping assembly 33, wherein the arm advancing and retreating assembly 31 and the arm lifting cylinder 32 form a two-dimensional movement module for driving the material assembly 33 to advance, retreat and move up and down to complete the transfer of the lamp cups from the material tray 16 to the lamp cup jigs 2 of the turntable 1. Specifically, the arm retraction assembly 31 may include a retraction cylinder 311, a slide rail 312, a slide block 313, and the like, wherein the mounting seat 321 of the arm lift cylinder 32 is fixed on the slide block 313, and a piston rod of the retraction cylinder 311 is connected to the mounting seat 321. The clamping assembly 33 may include a finger cylinder 331 and left and right clamps 332 fixed to fingers of the finger cylinder. The finger cylinder 331 is fixedly connected to the piston rod of the arm lifting cylinder 32. The clamping surfaces of the left and right clamping heads 332 are arc surfaces to increase the contact area with the lamp cup and ensure that the lamp cup cannot fall off in the feeding process. Preferably, the spacing between the left and right clamps 332 is adjustable to accommodate different sized LED lamps.

As shown in fig. 4, the wire dress and drive height setting device 4 may include a lamp cup positioning finger grip 41, a wire dress correction finger grip 42, and a drive height setting assembly 43. The lamp cup positioning finger clamp 41 is used for clamping the lamp cup, and the wire arranging and correcting finger clamp 42 is used for arranging the lamp wires on the lamp cup. The drive height assembly 43 may include a lift cylinder 431 and a correction rod 432 fixedly connected to a piston rod of the lift cylinder 431. The lifting cylinder 431 drives the correction rod 432 to move downwards so as to press the driving module in the lamp cup to a required position, and the follow-up is ensured

As shown in fig. 5, the glue applicator 5 may include a glue supply system 51, a glue applicator 52, a brush pen 53, a rotating assembly 54, a lifting assembly 55, and the like. The glue dosing system 51 for supplying glue (e.g. AB glue) may comprise a holder 511 and two glue tanks 512 fixedly placed on the holder 511. The two glue tanks 512 are filled with glue A and glue B respectively. The bracket 511 has a step 5111 to facilitate the glue replenishing operation of the glue tank 512. Each glue tank 512 is connected to a glue inlet of a glue outlet controller 522 of the gluing mechanism 52 by a glue hose 513. The glue applying mechanism 52 may include a glue applying lifting assembly 521, a glue outlet controller 522 and a glue outlet 523, wherein the glue outlet controller 522 is in driving connection with the glue applying lifting assembly 521, and a glue inlet thereof is in fluid communication with the glue supply quantitative system 51 (specifically, the glue tank 512), and the glue outlet 523 is fixedly connected to a glue outlet of the glue outlet controller 522 for filling glue into a lamp holder mounting portion of a lamp cup of the LED lamp. The glue brushing pen 53 is fixedly arranged between the glue outlet head 523 and the rotating component 54. The rotating assembly 54 is located below the glue brushing pen 53 and used for driving the lamp cup to rotate, and the glue brushing pen 53 brushes glue overflowing the lamp cap installation part uniformly along with the rotation of the lamp cup, so that the subsequent reliable bonding of the lamp cap and the lamp cup is ensured. The lifting assembly 55 is used to drive the rotating assembly 54 up and down so that the rotating assembly 54 can be connected to or disconnected from the lamp cup positioning mold containing the lamp cup.

As shown in fig. 6, the upper lamp head device 6 includes a lamp head feeding vibration disk assembly 61, a mechanism lifting assembly 62 and an upper lamp head mechanism 63, wherein the mechanism lifting assembly 62 is installed above the discharge port of the lamp head feeding vibration disk assembly 61 and is used for driving the upper lamp head mechanism 63 to ascend and descend so as to move the upper lamp head mechanism 63 to the discharge port of the lamp head feeding vibration disk assembly 61. The upper lamp head mechanism 63 includes a lamp head lifting assembly 631 and a lamp head finger clamp 632, the lamp head finger clamp 632 is used for clamping the lamp head leaving the discharge hole of the lamp head feeding vibration plate assembly, and the lamp head lifting assembly 631 is used for driving the lamp head finger clamp 632 to ascend and descend so as to connect the lamp head to the lamp cup.

As shown in fig. 7, the lamp cap rotating device 7 may include a lamp cap rotating mechanism 71 and a lamp cup clasping finger clamp 72, the lamp cap rotating mechanism 71 includes a lifting component 711, a rotating shaft 712, a driving motor 713, a lifting spring component 714 and a lamp cap clasping finger clamp 715, the lifting component 711 is configured to drive the rotating shaft 712 to lift, the driving motor 713 is configured to drive the rotating shaft 712 to rotate, the lifting spring component 714 may include a limiting block 7141 and a spring 7142, the limiting block 7141 is slidably disposed on the rotating shaft 712, the spring 7142 is disposed on the rotating shaft 712, an upper end of the spring abuts against the limiting block 7141, and a lower end of the spring abuts against the lamp cup clasping finger clamp 72. The cap clasping finger grips 72 are fixedly attached to the lower end of the rotating shaft 712 for gripping the cap. The lamp cup clasping finger clamp 72 is positioned right below the lamp holder clasping finger clamp 72 and is used for clamping the lamp cup. When the lamp cap is screwed, the lamp cup holding finger clamp 72 clamps the lamp cup, the lifting assembly 711 drives the lamp cap holding finger clamp 715 to descend, the lamp cap holding finger clamp 715 clamps the lamp cap, and then the motor 713 is driven to rotate to screw the lamp cap tightly. Preferably, the driving motor 713 is a servo motor, which can set and control the torque to ensure that the lamp cap can be screwed tightly without slipping due to over-screwing.

As shown in fig. 8, the light wire cutting and pressing device 8 may include a wire cutting assembly 81, a light wire collecting assembly 82, and a pressing wire assembly 83. The trimming assembly 81 is used to trim excess lamp cord. The lamp collection assembly 82 is used to blow the cut lamp wires to the collection box. The press wire assembly 83 is used to press the lamp wire against the contacts of the lamp head.

As shown in fig. 9, the lamp holder soldering device 9 may include a lamp holder soldering mechanism 91 and a tin blocking finger clip assembly 92, wherein the lamp holder soldering mechanism 91 includes an arm advancing and retreating assembly 911, an arm lifting assembly 912, an electric soldering iron 913 and an automatic tin feeding assembly 914, the arm advancing and retreating assembly 911 and the arm lifting assembly 912 are used for driving the electric soldering iron 913 to move back and forth and up and down to move the electric soldering iron 913 to a soldering position, and the automatic tin feeding assembly 914 automatically feeds a tin bar to the soldering position to contact with the electric soldering iron 913, so as to solder a lamp wire on a contact of the lamp holder. During soldering, the baffles of the tin blocking finger clip assembly 92 are closed to prevent the solder from falling onto the lamp cup of the LED lamp.

As shown in fig. 10, the solder CCD detecting device 10 may include a fixed support rod 101, a CCD industrial camera 102 and a coaxial light source 103, wherein the CCD industrial camera 101 and the coaxial light source 103 are mounted on the fixed support rod 101 and located right above the LED lamp to be detected. The image collected by the CCD industrial camera 101 is sent to an industrial personal computer for identification, whether welding is qualified or not is judged, and a detection result is output.

As shown in fig. 11, the energization detecting device 11 may include a positive energization component 111, a negative energization finger 112 and a photosensitive detector 113, wherein the positive energization component 111 may include an air cylinder 1111 and a contact 1112, the air cylinder 1111 drives the contact 1112 to contact with a positive electrode of a lamp cap of the LED lamp, the negative energization finger 112 includes a finger air cylinder 1121 and a pair of metal springs 1122 fixed to the finger air cylinder 1121, the pair of metal springs 1122 is arranged in a splayed shape, and the finger air cylinder 1121 drives the metal springs 1122 to contact with a negative electrode of the lamp cap of the LED lamp. The photosensitive detector 113 is disposed directly below the LED lamp to be detected. When the photosensitive detector 113 detects that the brightness of the LED lamp meets the standard requirement, a qualified signal is sent to the control system, otherwise, a unqualified signal is sent.

Returning to fig. 1, the structure of the OK product discharging device 12 and the NG product rejecting device 13 is substantially the same as that of the upper cup device 3, and will not be described in detail here. When the detection results of the soldering CCD detection device 10 and the electrifying detection device 11 are both qualified, the OK product blanking device 12 operates to transfer the products from the rotary table 1 to the qualified product conveying line 14, otherwise, the NG product rejecting device 13 operates to transfer the products from the rotary table 1 to the unqualified product conveying line 15.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. A multi-station LED lamp assembling machine is characterized by comprising a rotary table, wherein an upper lamp cup station, a wire arranging and driving height fixing station, a gluing station, an upper lamp head station, a lamp head rotating station, a lamp wire cutting and pressing station, a lamp head soldering station, a soldering tin CCD detection station, a power-on detection station, an OK product blanking station and an NG product eliminating station are uniformly distributed on the rotary table along the circumferential direction, each station is correspondingly provided with a lamp cup jig, the upper lamp cup device, the wire arranging and driving height fixing device, the gluing device, the upper lamp head device, the lamp head rotating device, the lamp wire cutting and pressing device, the lamp head soldering tin device, the soldering tin CCD detection device, the power-on detection device, the OK product blanking device and the NG product eliminating device are arranged on the corresponding stations around the rotary table, the turntable is driven by the intermittent power driving mechanism to intermittently rotate so as to complete the automatic assembly operation of the LED lamp by matching with a corresponding device.

2. A multi-station LED lamp assembling machine according to claim 1, wherein said lamp cup mounting device comprises a two-dimensional motion module and a material clamping assembly drivingly connected to said two-dimensional motion module, said material clamping assembly comprises a finger cylinder and left and right chucks fixed to fingers of said finger cylinder, and clamping surfaces of said left and right chucks are circular arc surfaces.

3. A multi-station LED lamp assembling machine according to claim 2, wherein the distance between said left and right chucks is adjustable.

4. The multi-station LED lamp assembling machine according to claim 1, wherein the gluing device comprises a glue supply quantitative system, a gluing mechanism, a glue brushing pen, a rotating assembly and a lifting assembly, the gluing mechanism comprises a glue lifting assembly, a glue outlet controller and a glue outlet head, the glue outlet controller is in driving connection with the glue lifting assembly, a glue inlet of the glue outlet controller is in fluid communication with the glue supply quantitative system, the glue outlet head is fixedly connected to a glue outlet of the glue outlet controller and used for filling glue to a lamp holder mounting part of a lamp cup of an LED lamp, the glue brushing pen is fixedly installed between the glue outlet head and the lamp cup jig and used for uniformly brushing the glue overflowing the lamp holder mounting part, the rotating assembly is installed below the lamp cup jig and used for driving the lamp cup jig to rotate, and the lifting assembly is used for driving the rotating assembly to ascend and descend, so that the rotating assembly can be connected with or disconnected from the lamp cup jig.

5. A multi-station LED lamp assembling machine as claimed in claim 4, wherein said glue supply and dosing system comprises two glue tanks, each of which is connected to the glue inlet of said glue outlet controller by a glue hose.

6. A multi-station LED lamp assembling machine according to claim 1, wherein said lamp head loading device comprises a lamp head feeding vibration disk assembly, a mechanical lifting assembly and a lamp head loading mechanism, said mechanical lifting assembly is mounted above the discharge port of said lamp head feeding vibration disk assembly for driving said lamp head loading mechanism to ascend and descend, said lamp head loading mechanism comprises a lamp head lifting assembly and a lamp head finger clamp, said lamp head lifting assembly is used for driving said lamp head finger clamp to ascend and descend, said lamp head finger clamp is used for clamping the lamp head leaving the discharge port of said lamp head feeding vibration disk assembly.

7. The multi-station LED lamp assembling machine according to claim 1, wherein the lamp rotating head device comprises a lamp rotating head mechanism and a lamp cup holding finger clamp, the lamp rotating head mechanism comprises a lifting assembly, a driving motor, a rotating shaft and a lamp cap holding finger clamp, the lifting assembly is used for driving the rotating shaft to lift, the driving motor is used for driving the rotating shaft to rotate, the lamp cap holding finger clamp is fixedly connected to the rotating shaft and used for clamping a lamp cap, and the lamp cup holding finger clamp is located right below the lamp cap holding finger clamp and used for clamping a lamp cup.

8. A multi-station LED lamp assembling machine as claimed in claim 1, wherein said lamp holder soldering device comprises a lamp holder soldering mechanism and a tin blocking finger clip assembly, said lamp holder soldering mechanism comprises an arm advancing and retreating assembly, an arm lifting assembly, an electric soldering iron and an automatic tin feeding assembly, said arm advancing and retreating assembly and said arm lifting assembly are used for driving said electric soldering iron to move forward and backward and up and down, said automatic tin feeding assembly is used for feeding tin bars to a soldering position to contact with said electric soldering iron.

9. A multi-station LED lamp assembling machine as claimed in claim 1, wherein said soldering CCD detecting device comprises a fixed support bar, a CCD industrial camera and a coaxial light source, said CCD industrial camera and said coaxial light source are mounted on said fixed support bar, and are located right above the LED lamp to be detected.

10. The multi-station LED lamp assembling machine according to claim 1, wherein the electrification detecting device comprises an anode electrification component, a cathode electrification finger clamp and a photosensitive detector, the anode electrification component comprises an air cylinder and a contact, the air cylinder drives the contact to be in contact with the anode of the lamp cap of the LED lamp, the cathode electrification finger clamp comprises a finger air cylinder and a pair of metal springs fixed on the finger air cylinder, the pair of metal springs are arranged in a splayed shape, and the photosensitive detector is arranged right below the LED lamp to be detected.

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