CN109420896B - Assembly machine of LED lamp with automatic AB silica gel function of irritating - Google Patents

Assembly machine of LED lamp with automatic AB silica gel function of irritating Download PDF

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Publication number
CN109420896B
CN109420896B CN201710717861.5A CN201710717861A CN109420896B CN 109420896 B CN109420896 B CN 109420896B CN 201710717861 A CN201710717861 A CN 201710717861A CN 109420896 B CN109420896 B CN 109420896B
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CN
China
Prior art keywords
led lamp
glue
rotary
turntable
gluing
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CN201710717861.5A
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Chinese (zh)
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CN109420896A (en
Inventor
赖勇清
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福建永德吉灯业股份有限公司
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Publication of CN109420896A publication Critical patent/CN109420896A/en
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Publication of CN109420896B publication Critical patent/CN109420896B/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23POTHER WORKING OF METAL; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P21/00Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23POTHER WORKING OF METAL; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P21/00Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control
    • B23P21/004Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control the units passing two or more work-stations whilst being composed
    • B23P21/006Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control the units passing two or more work-stations whilst being composed the conveying means comprising a rotating table

Abstract

The invention relates to the field of LED lamp processing equipment, in particular to an LED lamp assembling method and an LED lamp assembling machine with an automatic AB silica gel filling function. The assembly method of the present invention comprises the steps of: the method comprises the following steps: assembling a light source and a driving power supply into a photoelectric component; step two: assembling the lamp holder and the lamp housing into a lamp housing assembly; step three: assembling the photoelectric assembly and the lamp holder and lamp shell assembly into an LED lamp main body, and then filling A B glue into the LED lamp main body through a glue filling hole on a substrate of the light source; step four: and assembling the bulb shell and the LED lamp main body into a finished LED lamp. The substrate of the light source of the assembly machine is provided with a glue filling hole, and the assembly machine comprises a rotary table, a feeding mechanism, a gluing mechanism, a glue filling mechanism, a bubble shell mounting mechanism and a discharging mechanism; the rotary table is provided with a rotary table, and the rotary table is provided with a processing station. The invention has short flow time consumption and high production efficiency, and can realize continuous mechanical automatic production and assembly.

Description

Assembly machine of LED lamp with automatic AB silica gel function of irritating

Technical Field

The invention relates to the field of LED lamp processing equipment, in particular to an assembling machine of an LED lamp.

Background

As the lumens of the LED lamp increase, the temperature of the driving power supply may increase significantly. In order to reduce the temperature of the driving power supply, A B silica gel is filled in the lamp housing to fill the gap of the driving power supply device, so as to reduce the temperature of the driving power supply device. The conventional LED lamp mainly comprises a lamp cap, a lamp shell, a driving power supply, a light source and a bulb shell, wherein the light source and the driving power supply form a photoelectric assembly, the lamp cap and the lamp shell form a lamp cap lamp shell assembly, and the photoelectric assembly and the lamp cap lamp shell assembly form an LED lamp main body and then are assembled with the bulb shell to form the finished LED lamp.

The existing flow of filling A B silica gel is as follows: 1. assembling a driving power supply and a lamp housing, pouring A B glue, drying A B glue, 2, and then assembling a light source plate, a lamp cap and a bulb shell, wherein the process is time-consuming, low in production efficiency and high in electric energy consumption, and continuous mechanical automatic production and assembly cannot be realized.

Disclosure of Invention

The first object of the present invention is to: the LED lamp assembling method is short in process time consumption, high in production efficiency and convenient for continuous automatic production and assembly.

Another object of the invention is: the LED lamp assembling machine with the automatic AB silica gel filling function is short in flow time consumption, high in production efficiency and capable of achieving continuous mechanical automatic production and assembly.

The first invention object of the invention is realized by the following scheme: an assembling method of an LED lamp is characterized in that: the LED lamp mainly comprises a lamp cap, a lamp shell, a driving power supply, a light source and a bulb shell, wherein a base plate of the light source is provided with a glue pouring hole, and the assembling method of the LED lamp comprises the following steps:

the method comprises the following steps: assembling a light source and a driving power supply into a photoelectric component;

step two: assembling the lamp holder and the lamp housing into a lamp housing assembly;

step three: assembling the photoelectric assembly and the lamp holder and lamp shell assembly into an LED lamp main body, and then filling A B glue into the LED lamp main body through a glue filling hole on a substrate of the light source;

step four: and assembling the bulb shell and the LED lamp main body into a finished LED lamp.

For better implementation of the scheme, the following optimization scheme is also provided:

furthermore, in the third step, A B glue is poured into the LED lamp body through the glue pouring hole on the substrate of the light source, and at the same time, the base part of the LED lamp body is heated.

The purpose of this step is that make the LED lamp can heat AB glue when irritating AB glue to the drying process of AB glue is quickened, the production course of processing of LED lamp.

Further, the method also comprises the following step five: and 4, aging the finished product of the LED lamp obtained in the fourth step.

Another object of the present invention is achieved by the following scheme: the utility model provides an assembly machine of LED lamp with automatic AB silica gel function of irritating, can assemble into off-the-shelf LED lamp with LED lamp main part, cell-shell, its characterized in that: the LED lamp assembling machine with the automatic AB silica gel pouring function comprises a rotary table, and a feeding mechanism, a gluing mechanism, a glue pouring mechanism, a bulb shell installing mechanism and a discharging mechanism which are sequentially arranged on the rotary table along the rotation direction of the rotary table;

the rotary table is provided with a rotary table capable of intermittently rotating, and the rotary table is provided with a plurality of processing stations for placing the lamp holder substrate assembly; the feeding mechanism is used for placing the lamp cap substrate assembly on the adjacent processing stations when the turntable is in a rotating and static period; the glue coating mechanism coats the packaging glue on the periphery of the upper surface of the lamp holder substrate assembly when the turntable is in a rotating and static period; the glue pouring mechanism pours the AB glue into the lamp cap substrate assembly from the glue pouring port when the turntable is in a rotating static period; the bulb shell mounting mechanism mounts the bulb shell on the upper part of the lamp holder substrate assembly when the turntable is in a rotating and static period so as to assemble the LED lamp; the blanking mechanism moves the LED lamp out of the rotary disc when the rotary disc is in a rotating static period.

The working process is as follows:

the invention relates to a coating and glue pouring link in an LED lamp production line, wherein a lamp holder substrate assembly assembled by a substrate and a lamp holder in the previous link is grabbed into a processing station on a turntable through a feeding mechanism, then a finished LED lamp is processed through a glue coating mechanism, a glue pouring mechanism and a bulb shell mounting mechanism in sequence along the rotation direction of the turntable, and finally the finished LED lamp is transferred to the next processing link (generally, an aging link) through a discharging mechanism.

For better implementation of the scheme, the following optimization scheme is also provided:

furthermore, the rotary table also comprises a frame, a rotating shaft and an intermittent motion mechanism;

the rotating disc is arranged on the rack, the rotating shaft is arranged at the center of the rotating disc and can drive the rotating disc to rotate, and the intermittent motion mechanism is connected with the rotating shaft and can drive the rotating shaft to intermittently rotate; and each processing station is provided with a positioning groove for placing the lamp holder substrate assembly.

Furthermore, the feeding mechanism comprises a feeding mounting seat and a first mechanical arm arranged on the feeding mounting seat, and when the turntable is in a rotating static period, the first mechanical arm grabs the lamp holder substrate assembly and then places the lamp holder substrate assembly on an adjacent processing station.

Further, the gluing mechanism comprises a first glue storage tank, a gluing mounting base, a gluing driving motor and a gluing head;

the gluing head is communicated with the interior of the first gluing tank; the gluing driving motor is arranged on the gluing mounting base, and the upper part of the gluing head is fixedly arranged on an output shaft of the gluing driving motor; the central shaft of the gluing head and the axis of the output shaft of the gluing driving motor form a set angle, and a circular track is marked on a processing station by the lower end of the gluing head when the turntable is in a rotating and static period.

Here, the angle at which the central axis of the head is inclined is adjusted according to the radius of the substrate.

Further, the glue filling mechanism comprises a glue filling mounting seat, a second glue storage tank arranged on the glue filling mounting seat, a flow pump arranged on the second glue storage tank, and a glue filling head arranged on the flow pump and communicated with the interior of the second glue storage tank; and when the turntable is in a rotating static period, the flow pump pumps the packaging glue in the second glue storage tank to the interior of the lamp holder substrate assembly through the glue filling hole.

Further, the bulb shell mounting mechanism comprises a bulb shell storage table installed on the rack, a bulb shell mounting seat and a second mechanical arm arranged on the bulb shell mounting seat, and when the turntable is in a rotating static period, the bulb shell is captured by the second mechanical arm and then is installed on the lamp holder substrate assembly of the adjacent processing station to be spliced into a finished LED lamp.

Furthermore, the blanking mechanism comprises a blanking mounting seat arranged on the rack and a third mechanical arm arranged on the blanking mounting seat, and when the turntable is in a rotating static period, the third mechanical arm grabs the LED lamp and then moves out of the LED lamp assembling machine with the function of automatically filling AB silica gel.

Furthermore, a heating device is arranged below each corresponding processing station on the turntable.

The heating device is used for heating the packaging glue and the AB glue in the gluing and glue filling processing processes so as to accelerate the solidification of the glue and shorten the processing and production time of the whole LED lamp, so that the AB silica gel is dried without external electric energy, and the production efficiency is improved.

Can be heating plate, hot plate or some other common heating structures all, thereby heating plate, hot plate and the power connection of the assembly machine that has the LED lamp of automatic AB silica gel function of irritating obtain the energy supply, also can set up independent power source or portable power source alone according to actual needs of course.

The invention has the beneficial effects that:

1. according to the invention, A B silica gel is filled through the middle hole of the light source substrate after the light source, the driving power supply, the lamp holder and the lamp housing are assembled on the assembly machine, the lamp holder is heated, the bulb shell is assembled, and aging and drying are carried out on A B glue, so that the glue filling can be continuously completed on the assembly machine, the process is short, the production efficiency is high, when the glue is filled, the lamp holder is heated, A B glue which is not solidified yet can be prevented from overflowing from the joint of the lamp holder and the lamp housing, the problem of glue overflowing of the existing glue filling light source is solved, the bulb shell is aged immediately after being assembled, the A B glue is heated and dried by using heat generated by the aged lighting lamp, an external heat source is not needed, electric energy is saved, and the drying efficiency.

Drawings

FIG. 1 is a perspective view of a substrate in a light source;

FIG. 2 is a schematic cross-sectional view of an LED lamp body;

FIG. 3 is a schematic cross-sectional view of an LED lamp;

FIG. 4 is a top view of the present invention;

FIG. 5 is a perspective view of one embodiment of the present invention;

FIG. 6 is a second perspective view of the present invention.

Description of reference numerals: 1-a rotary table, 11-a rotary table, 111-a processing station, 1111-a positioning groove, 12-a frame, 13-a rotating shaft, 14-an intermittent motion mechanism, 2-a feeding mechanism, 21-a feeding mounting seat, 22-a first mechanical arm, 3-a gluing mechanism, 31-a first glue storage tank, 32-a gluing mounting seat, 33-a gluing driving motor, 34-a gluing head, 4-a gluing mechanism, 41-a gluing mounting seat, 42-a second glue storage tank, 43-a flow pump, 44-a gluing head, 5-a foam shell mounting mechanism, 51-a foam shell storage table, 52-a foam shell mounting seat, 53-a second mechanical arm, 6-a blanking mechanism, 61-a blanking mounting seat and 62-a third mechanical arm;

7000-LED lamps and lanterns, 7100-LED lamp main part, 7110-optoelectronic component, 7111-light source, 7112-drive power supply, 7120-lamp bulb shell component, 7121-lamp holder, 7122-lamp shell, 7200-bulb shell, 7300-encapsulating hole.

Detailed Description

The invention is described in detail below with reference to the following description of the drawings:

example 1:

as shown in fig. 1 to 6, in the assembly method of this embodiment, the LED lamp 7000 mainly includes a lamp cap 7121, a lamp housing 7122, a driving power source 7112, a light source 7111, and a bulb 7200, a glue filling hole 7300 is formed in a substrate of the light source 7111, and the assembly method of the LED lamp includes the following steps:

the method comprises the following steps: assembling a light source 7111 and a driving power source 7112 into a photoelectric assembly 7110;

step two: assembling a lamp base 7121 and a lamp housing 7122 into a lamp base housing assembly 7120;

step three: assembling the photoelectric assembly 7110 and the lamp holder and lamp housing assembly 7120 into an LED lamp main body 7100, and then pouring A B glue into the LED lamp main body 7100 through a glue pouring hole 7300 on a substrate of the light source 7111;

in the third step, A B glue is poured into the LED lamp body 7100 through a glue pouring hole 7300 on the substrate of the light source 7111, and the base 7121 of the LED lamp body 7100 is heated.

Step four: the bulb 7200 and the LED lamp body 7100 are assembled to form a finished LED lamp 7000.

Step five: the finished LED lamp 7000 obtained in the fourth step is aged.

Furthermore, the assembly machine with the following structure can be adopted for assembly and glue filling in the third step and the fourth step.

The assembly machine comprises a rotary table 1, and a feeding mechanism 2, a gluing mechanism 3, a glue pouring mechanism 4, a bubble shell 7200 installation mechanism 5 and a blanking mechanism 6 which are sequentially arranged on the rotary table 1 along the rotation direction of the rotary table 1;

the turntable 1 is provided with a turntable 11 capable of intermittently rotating, and the turntable 11 is provided with a plurality of processing stations 111 for placing the LED lamp main body 7100; the feeding mechanism 2 places the LED lamp main body 7100 on the adjacent processing station 111 when the turntable 11 is in the rotation stationary period; the glue coating mechanism 3 coats the packaging glue around the upper surface of the LED lamp main body 7100 when the turntable 11 is in a rotating and static period; the glue filling mechanism 4 fills the AB glue into the LED lamp main body 7100 from the glue filling opening when the turntable 11 is in a rotating and static period; the bulb 7200 mounting mechanism 5 mounts the bulb 7200 on the upper part of the LED lamp main body 7100 when the turntable 11 is in a rotation static period so as to assemble the LED lamp 7000; the blanking mechanism 6 moves the LED lamp 7000 out of the turntable 11 when the turntable 11 is in a rotating stationary period.

Further, the revolving platform 1 further comprises a frame 12, a rotating shaft 13 and an intermittent motion mechanism 14;

the rotary table 11 is arranged on the frame 12, the rotating shaft 13 is arranged in the center of the rotary table 11 and can drive the rotary table 11 to rotate, and the intermittent motion mechanism 14 is connected with the rotating shaft 13 and can drive the rotating shaft 13 to intermittently rotate; and each processing station 111 is provided with a positioning groove 1111 for placing the LED lamp main body 7100.

Further, the feeding mechanism 2 includes a feeding mounting base 21 and a first mechanical arm 22 disposed on the feeding mounting base 21, and the first mechanical arm 22 picks up the LED lamp body 7100 and places the LED lamp body 7100 at an adjacent processing station 111 when the turntable 11 is in a rotation and stationary period.

Further, the glue coating mechanism 3 comprises a first glue storage tank 31, a glue coating installation base 32, a glue coating driving motor 33 and a glue coating head 34;

the glue applying head 34 is communicated with the interior of the first glue storage tank 31; the gluing driving motor 33 is arranged on the gluing mounting base 32, and the upper part of the gluing head 34 is fixedly arranged on an output shaft of the gluing driving motor 33; the central axis of the gluing head 34 and the axis of the output shaft of the gluing driving motor 33 form a set angle, and when the turntable 11 is in a rotation and static period, the lower end of the gluing head 34 draws a circular track on the processing station 111.

Further, the glue filling mechanism 4 comprises a glue filling mounting base 41 mounted on the frame 12, a second glue storage tank 42 arranged on the glue filling mounting base 41, a flow pump 43 mounted on the second glue storage tank 42, and a glue filling head 44 mounted on the flow pump 43 and communicated with the inside of the second glue storage tank 42; the flow pump 43 pumps the potting adhesive in the second adhesive tank 42 to the inside of the LED lamp main body 7100 through the filling hole 7300 when the turntable 11 is in the rotation stationary period.

Further, the bulb 7200 mounting mechanism 5 includes a bulb 7200 storage table 51 mounted on the frame 12, a bulb 7200 mounting seat 52, and a second mechanical arm 53 disposed on the bulb 7200 mounting seat 52, wherein when the turntable 11 is in a rotation stationary period, the second mechanical arm 53 picks the bulb 7200, mounts the picked bulb 7200 on the LED 7100 of the adjacent processing station 111, and splices the picked bulb 7200 to form a finished LED 7000.

Furthermore, the blanking mechanism 6 includes a blanking mounting seat 61 installed on the frame 12, and a third mechanical arm 62 disposed on the blanking mounting seat 61, and when the turntable 11 is in a rotation stationary period, the third mechanical arm 62 picks the LED lamp 7000 and then moves out of the assembly machine of the LED lamp 7000 with the function of automatically filling AB silicone gel.

Further, a heating device is disposed below each corresponding processing station 111 on the turntable 11.

Example 2:

in this embodiment, the LED lamp main body 7100 and the bulb 7200 can be assembled into a finished LED lamp 7000, the substrate of the light source 7111 is provided with a glue filling hole 7300, the assembly machine of this embodiment comprises a rotary table 1, and a feeding mechanism 2, a glue coating mechanism 3, a glue filling mechanism 4, a bulb 7200 installation mechanism 5 and a blanking mechanism 6 which are sequentially arranged on the rotary table 1 along the rotation direction of the rotary table 1;

the turntable 1 is provided with a turntable 11 capable of intermittently rotating, and the turntable 11 is provided with a plurality of processing stations 111 for placing the LED lamp main body 7100; the feeding mechanism 2 places the LED lamp main body 7100 on the adjacent processing station 111 when the turntable 11 is in the rotation stationary period; the glue coating mechanism 3 coats the packaging glue around the upper surface of the LED lamp main body 7100 when the turntable 11 is in a rotating and static period; the glue filling mechanism 4 fills the AB glue into the LED lamp main body 7100 from the glue filling opening when the turntable 11 is in a rotating and static period; the bulb 7200 mounting mechanism 5 mounts the bulb 7200 on the upper part of the LED lamp main body 7100 when the turntable 11 is in a rotation static period so as to assemble the LED lamp 7000; the blanking mechanism 6 moves the LED lamp 7000 out of the turntable 11 when the turntable 11 is in a rotating stationary period.

Further, the revolving platform 1 further comprises a frame 12, a rotating shaft 13 and an intermittent motion mechanism 14;

the rotary table 11 is arranged on the frame 12, the rotating shaft 13 is arranged in the center of the rotary table 11 and can drive the rotary table 11 to rotate, and the intermittent motion mechanism 14 is connected with the rotating shaft 13 and can drive the rotating shaft 13 to intermittently rotate; and each processing station 111 is provided with a positioning groove 1111 for placing the LED lamp main body 7100.

Further, the feeding mechanism 2 includes a feeding mounting base 21 and a first mechanical arm 22 disposed on the feeding mounting base 21, and the first mechanical arm 22 picks up the LED lamp body 7100 and places the LED lamp body 7100 at an adjacent processing station 111 when the turntable 11 is in a rotation and stationary period.

Further, the glue coating mechanism 3 comprises a first glue storage tank 31, a glue coating installation base 32, a glue coating driving motor 33 and a glue coating head 34;

the glue applying head 34 is communicated with the interior of the first glue storage tank 31; the gluing driving motor 33 is arranged on the gluing mounting base 32, and the upper part of the gluing head 34 is fixedly arranged on an output shaft of the gluing driving motor 33; the central axis of the gluing head 34 and the axis of the output shaft of the gluing driving motor 33 form a set angle, and when the turntable 11 is in a rotation and static period, the lower end of the gluing head 34 draws a circular track on the processing station 111.

Further, the glue filling mechanism 4 comprises a glue filling mounting base 41 mounted on the frame 12, a second glue storage tank 42 arranged on the glue filling mounting base 41, a flow pump 43 mounted on the second glue storage tank 42, and a glue filling head 44 mounted on the flow pump 43 and communicated with the inside of the second glue storage tank 42; the flow pump 43 pumps the potting glue in the second glue tank 42 to the inside of the LED lamp body 7100 via the glue filling hole 7300500 when the turntable 11 is in a rotational resting period.

Further, the bulb 7200 mounting mechanism 5 includes a bulb 7200 storage table 51 mounted on the frame 12, a bulb 7200 mounting seat 52, and a second mechanical arm 53 disposed on the bulb 7200 mounting seat 52, wherein when the turntable 11 is in a rotation stationary period, the second mechanical arm 53 picks the bulb 7200, mounts the picked bulb 7200 on the LED 7100 of the adjacent processing station 111, and splices the picked bulb 7200 to form a finished LED 7000.

Furthermore, the blanking mechanism 6 includes a blanking mounting seat 61 installed on the frame 12, and a third mechanical arm 62 disposed on the blanking mounting seat 61, and when the turntable 11 is in a rotation stationary period, the third mechanical arm 62 picks the LED lamp 7000 and then moves out of the assembly machine of the LED lamp 7000 with the function of automatically filling AB silicone gel.

Further, a heating device is disposed below each corresponding processing station 111 on the turntable 11.

Further, the use method of the assembly machine in the embodiment includes the following steps:

the method comprises the following steps: a B glue is poured into the LED lamp body 7100 through a glue pouring hole 7300 on the substrate of the light source 7111, and the base 7121 part of the LED lamp body 7100 is heated.

Step two: the bulb 7200 and the LED lamp body 7100 are assembled to form a finished LED lamp 7000.

Step three: the finished LED lamp 7000 obtained in the fourth step is aged.

While the invention has been illustrated and described with respect to specific embodiments and alternatives thereof, it will be understood that various changes and modifications can be made without departing from the spirit and scope of the invention. It is understood, therefore, that the invention is not to be in any way limited except by the appended claims and their equivalents.

Claims (8)

1. The utility model provides an assembly machine of LED lamp with automatic AB silica gel function of irritating, can assemble into off-the-shelf LED lamp (7000) with the LED lamp main part (7100), cell-shell (7200) that the optoelectronic component (7110) and the lamp holder lamp housing subassembly (7120) that constitute by light source (7111) and drive power supply (7112), its characterized in that: the LED lamp assembling machine with the automatic AB silica gel pouring function comprises a rotary table (1), and a feeding mechanism (2), a gluing mechanism (3), a glue pouring mechanism (4), a bubble shell (7200) mounting mechanism (5) and a discharging mechanism (6) which are sequentially arranged on the rotary table (1) along the rotation direction of the rotary table (1);
the rotary table (1) is provided with a rotary table (11) capable of intermittently rotating, and the rotary table (11) is provided with a plurality of processing stations (111) for placing the LED lamp main body (7100); the LED lamp main body (7100) is placed on the adjacent processing stations (111) by the feeding mechanism (2) when the turntable (11) is in a rotating and static period; the glue coating mechanism (3) coats packaging glue around the upper surface of the LED lamp main body (7100) when the turntable (11) is in a rotating and static period; the glue pouring mechanism (4) is used for pouring AB glue into the LED lamp main body (7100) from the glue pouring port when the turntable (11) is in a rotating and static period; the bulb shell (7200) mounting mechanism (5) is used for mounting the bulb shell (7200) on the upper part of the LED lamp main body (7100) when the turntable (11) is in a rotating static period so as to assemble an LED lamp (7000); the blanking mechanism (6) moves the LED lamp (7000) out of the rotary table (11) when the rotary table (11) is in a rotating and static period.
2. The assembly machine of LED lamps with automatic AB silica gel filling function of claim 1 is characterized in that: the rotary table (1) also comprises a frame (12), a rotating shaft (13) and an intermittent motion mechanism (14);
the rotary table (11) is arranged on the rack (12), the rotating shaft (13) is arranged at the center of the rotary table (11) and can drive the rotary table (11) to rotate, and the intermittent movement mechanism (14) is connected with the rotating shaft (13) and can drive the rotating shaft (13) to intermittently rotate; and each processing station (111) is provided with a positioning groove (1111) for placing the LED lamp main body (7100).
3. The assembly machine of LED lamps with automatic AB silica gel filling function of claim 1 is characterized in that: therefore, the feeding mechanism (2) comprises a feeding mounting seat (21) and a first mechanical arm (22) arranged on the feeding mounting seat (21), and when the turntable (11) is in a rotating and static period, the first mechanical arm (22) grabs the LED lamp main body (7100) and then places the LED lamp main body to an adjacent processing station (111).
4. The assembly machine of LED lamps with automatic AB silica gel filling function of claim 1 is characterized in that: the gluing mechanism (3) comprises a first glue storage tank (31), a gluing mounting base (32), a gluing driving motor (33) and a gluing head (34);
the gluing head (34) is communicated with the interior of the first glue storage tank (31); the gluing driving motor (33) is arranged on the gluing mounting base (32), and the upper part of the gluing head (34) is fixedly arranged on an output shaft of the gluing driving motor (33); the central shaft of the gluing head (34) and the axis of the output shaft of the gluing driving motor (33) form a set angle, and when the turntable (11) is in a rotating and static period, the lower end of the gluing head (34) draws a circular track on the processing station (111).
5. The assembly machine of LED lamps with automatic AB silica gel filling function of claim 1 is characterized in that: the glue filling mechanism (4) comprises a glue filling mounting seat (41) arranged on the rack (12), a second glue storage tank (42) arranged on the glue filling mounting seat (41), a flow pump (43) arranged on the second glue storage tank (42), and a glue filling head (44) arranged on the flow pump (43) and communicated with the inside of the second glue storage tank (42); the flow pump (43) pumps the packaging glue in the second glue storage tank (42) to the interior of the LED lamp main body (7100) through the glue filling hole (7300) when the turntable (11) is in a rotation static period.
6. The assembly machine of LED lamps with automatic AB silica gel filling function of claim 1 is characterized in that: the bulb shell (7200) mounting mechanism (5) comprises a bulb shell (7200) storage table (51) mounted on the rack (12), a bulb shell (7200) mounting seat (52) and a second mechanical arm (53) arranged on the bulb shell (7200) mounting seat (52), and when the turntable (11) is in a rotating and static period, the second mechanical arm (53) picks the bulb shell (7200) and then mounts the bulb shell on the LED lamp main body (7100) of the adjacent processing station (111) to be spliced into a finished LED lamp (7000).
7. The assembly machine of LED lamps with automatic AB silica gel filling function of claim 1 is characterized in that: therefore, the blanking mechanism (6) comprises a blanking mounting seat (61) arranged on the rack (12) and a third mechanical arm (62) arranged on the blanking mounting seat (61), and when the turntable (11) is in a rotating static period, the third mechanical arm (62) picks the LED lamp (7000) and then moves out of the LED lamp assembling machine with the function of automatically filling AB silica gel.
8. The assembly machine of LED lamps with automatic AB silicone rubber filling function of any one of claims 1 to 7, is characterized in that: and a heating device is arranged below each corresponding processing station (111) on the turntable (11).
CN201710717861.5A 2017-08-21 2017-08-21 Assembly machine of LED lamp with automatic AB silica gel function of irritating CN109420896B (en)

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CN110270477B (en) * 2019-07-11 2020-10-16 聊城国奥信息技术有限公司 Automatic assembly process of guitar humidifier
CN111215886B (en) * 2019-12-01 2020-12-01 安徽蓝锐电子科技有限公司 Lamp holder mounting device

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