CN110701497A - Bulb production equipment capable of automatically clamping core column and production method thereof - Google Patents

Abstract

The invention discloses bulb production equipment capable of automatically clamping a core column and a production method thereof. Wherein the wick can be independently snatched by the stem feeding machine, the workload of workers can be effectively reduced, and the product quality is improved. The invention has the advantages of high production efficiency and good product quality, and can effectively liberate labor force.

Description

Bulb production equipment capable of automatically clamping core column and production method thereof

Technical Field

The invention relates to bulb production equipment and a bulb production method, in particular to bulb production equipment capable of automatically clamping a core column and a bulb production method.

Background

The LED lamp is a lighting device which is rapidly developed and widely applied due to energy conservation and rich change of colors, and the demand of the LED lamp in daily life and production is large. LED lamps generally comprise two main parts, a bulb and a base. The bulb and the lamp holder are generally manufactured separately. The bulb is provided with two LED lamp pins which are matched with the pin through holes on the LED lamp holder. The bulb mainly comprises a lampshade and a lamp wick, and the lampshade and the lamp wick are assembled and sealed after being filled with inert gas when the bulb is prepared. The prior lamp bulb preparation mostly adopts a sectional operation mode, and systematic flow line production is not formed. The production efficiency is low, which results in waste of labor and increase of cost.

The lamp wick that present LED lamp wick delivery platform can once only be placed is too few, need the manual work to place lamp wick and cell-shell on LED lamp wick and delivery platform and the cell-shell material loading frame ceaselessly, leads to the workman can not keep up with the speed of equipment operation sometimes at the machine operation process, leads to the productivity of bad product to promote and the decline of productivity.

Disclosure of Invention

The invention aims to solve the technical problem that one worker cannot simultaneously place a lamp wick and a bulb shell for a long time in the existing assembly line, and provides bulb production equipment for automatically clamping a core column and a production method thereof.

The invention realizes the purpose through the following technical scheme: a bulb production apparatus for automatically clamping a stem, wherein: the device comprises a stem feeding machine, a bulb shell feeding frame, a bulb shell manipulator, a sealing machine, a conveying table, a row filling machine and a rack, wherein the conveying table is positioned between the sealing machine and the row filling machine; the bulb feeding frame, the bulb shell manipulator, the sealing machine, the conveying table and the filling and discharging machine are all arranged on the rack, and the stem feeding machine is independent of the rack;

the stem feeding machine comprises an automatic mechanical arm and a feeding frame, the automatic mechanical arm is mounted on the feeding frame, the automatic mechanical arm comprises an automatic chuck, a vertical guide rail, a longitudinal guide rail and a transverse guide rail, the automatic chuck is arranged on the vertical guide rail in a sliding mode, the vertical guide rail is arranged on the longitudinal guide rail in a sliding mode, the longitudinal guide rail is arranged on the transverse guide rail in a sliding mode, the transverse guide rail is fixed on the feeding frame, and the automatic chuck is electrically connected with the vertical guide rail and the longitudinal guide rail; the feeding frame is of a U-shaped structure, a core column plate is stacked on the feeding frame, and wick supports are uniformly distributed on the core column plate.

As a further optimization scheme of the invention, the blister loading frame is a circular rotating loading frame, blister supports are uniformly arranged on the blister loading frame, and the blister manipulator is a mechanical arm with functions of identifying blisters and lamp wicks. The bulb shell manipulator is set to be a mechanical arm with functions of identifying the bulb shell and the lamp wick, and the bulb shell manipulator can independently complete assembly of the bulb shell and the lamp wick.

As a further optimization scheme of the invention, the sealing machine is a circular rotating table top, a bulb baking sealing point is arranged on the sealing machine, and a slag removing device is arranged in the bulb baking sealing point.

As a further optimization scheme of the invention, the bulb rack is arranged on the conveying table, the first mechanical arm and the second mechanical arm are arranged on the side edge of the conveying table, and the rotary table of the conveying table is in transmission connection with the first mechanical arm and the second mechanical arm through gears.

As a further optimization scheme of the invention, the filling and discharging machine is a circular rotary table, a bulb vacuumizing point, a bulb inflating point, a sealing fire nozzle, a third mechanical arm, an upper slide way and a lower slide way are arranged on the filling and discharging machine, a plurality of sealing fire nozzles, bulb conveying supports and bulb conveying supports are uniformly arranged on the filling and discharging machine, the sealing fire nozzles are arranged on one side of the bulb conveying supports and are positioned outside the bulb vacuumizing point and the bulb inflating point, the third mechanical arm is arranged on one side of the upper slide way, the lower slide way is arranged below the upper slide way, and the third mechanical arm is in transmission connection with the rotary table of the filling and discharging machine through a gear.

As a further optimization scheme of the invention, the automatic chuck is provided with an inductor, and the inductor is connected with the lifting platform. Through setting up inductor and elevating platform, can realize that automatic chuck detects and has not had the stem on the stem board to realize the automatic core board of changing.

A bulb production device capable of automatically clamping a core column and a production method thereof comprise the following steps,

combining a bulb shell and a lamp wick, clamping the bulb shell from a bulb shell feeding frame to a core column plate provided with the lamp wick through a bulb shell manipulator, and waiting for further processing;

step two, packaging the bulb, namely clamping the bulb shell and the lamp wick combined in the step one from the core column plate to a sealing machine by an automatic clamping head to bake and package the bulb shell and the lamp wick, and reserving an exhaust pipe on the packaged bulb;

and step three, transferring and sealing the bulb, transferring the packaged bulb to a filling and exhausting machine through a first mechanical arm and a second mechanical arm on a conveying table, vacuumizing, filling inert gas, and then burning off and sealing the reserved exhaust pipe.

The invention has the beneficial effects that:

through setting up the automatic arm, effectively realized that the arm accurately grabs the wick on the post board, and guaranteed to go up the work or material rest and can not take place to snatch the mistake after taking place the skew, solved the workman and can't place wick and cell-shell for a long time, reduced the generation probability of defective products.

By arranging the laminated core column plates, the storage capacity of the core to be processed is effectively increased, and the stable operation of the bulb production equipment for automatically clamping the core column and the production method thereof is ensured.

The storage capacity of the wick to be processed is increased by arranging the feeding frame, so that the problem that workers need to take both sides into consideration easily is avoided.

The lamp core is placed on the lamp bulb, so that the core column feeding machine structure and the bulb shell manipulator synchronously work, the production efficiency is improved, the reject ratio is reduced, and no vacant position is guaranteed.

Drawings

FIG. 1 is a schematic structural view of a bulb manufacturing apparatus for automatically clamping a stem according to the present invention and a method for manufacturing the bulb;

FIG. 2 is a schematic structural diagram of a stem feeder of the apparatus for producing a bulb with a stem clamped automatically according to the present invention;

FIG. 3 is a schematic structural diagram of the bulb production equipment for automatically clamping the stem and the production method thereof after the bulb shell manipulator is combined with the bulb shell feeding frame;

FIG. 4 is a schematic structural view of a bulb manufacturing apparatus for automatically clamping a stem and a sealing machine for manufacturing the bulb;

FIG. 5 is a schematic view of a conveying table of the apparatus for manufacturing a bulb with an automatically clamping stem according to the present invention;

FIG. 6 is a schematic view of a bulb manufacturing apparatus and a bulb manufacturing method with an automatic stem clamping mechanism of the present invention;

the device comprises a core column feeding machine 1, a bulb shell feeding frame 2, a bulb shell mechanical arm 3, a bulb shell mechanical arm 5, a sealing machine 6, a conveying table 7, a filling and discharging machine 8, a rack 11, a mechanical arm 12, a bulb shell support 21, a bulb baking and sealing point 51, a deslagging device 52, a bulb support 61, a first mechanical arm 62, a second mechanical arm 63, a bulb vacuum point 71, a bulb inflation point 72, a sealing fire nozzle 73, a third mechanical arm 74, a slide rail 75, a slide rail 76, an automatic chuck 111, a vertical guide rail 112, a longitudinal guide rail 113, a transverse guide rail 114, a lifting table 120, a core column plate 121 and a wick support 122.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

Fig. 1 shows bulb production equipment capable of automatically clamping a stem and a production method thereof, wherein the bulb production equipment comprises a stem feeding machine 1, a bulb shell feeding frame 2, a bulb shell manipulator 3, a sealing machine 5, a conveying table 6, a row filling machine 7 and a rack 8, the conveying table 6 is positioned between the sealing machine 5 and the row filling machine 7, and the stem feeding machine 1, the bulb shell feeding frame 2 and the bulb shell manipulator 3 are positioned on one side of the bulb shell feeding frame 2. And bulb feeding frame 2, capper 5, conveying platform 6, fill row machine 7 and all install in frame 8, stem feeding machine 1, cell-shell manipulator 3 are independent of frame 8, and can connect through gear drive between cell-shell feeding frame 2, capper 5, conveying platform 6, the row machine 7 that fills, and every transmission of gear once, each part carries out an action, realizes mechanized repetitive operation work.

As shown in fig. 2, the stem feeding machine 1 includes a robot arm 11 and a feeding frame 12, the robot arm 11 is mounted on the feeding frame 12, and the robot arm 11 and the feeding frame 12 are electrically connected to each other and can be controlled by the robot arm 11 to operate. The automatic mechanical arm 11 comprises an automatic chuck 111, a vertical guide rail 112, a longitudinal guide rail 113 and a transverse guide rail 114, wherein the automatic chuck 111 is arranged on the vertical guide rail 112 in a sliding manner, the vertical guide rail 112 is arranged on the longitudinal guide rail 113 in a sliding manner, the longitudinal guide rail 113 is arranged on the transverse guide rail 114 in a sliding manner, the transverse guide rail 114 is fixed on the feeding frame 12, an inductor and other components are arranged on the automatic chuck 111, the automatic chuck can be used for detecting lampwicks on the feeding frame 12, and has the function of automatically identifying and controlling the clamping of the lampwicks, the automatic chuck 111 is electrically connected with the vertical guide rail 112 and the longitudinal guide rail 113, and after the automatic chuck 111 identifies the lampwicks. The inside of the feeding frame 12 is provided with a lifting table 120, a core column plate 121 is stacked on the lifting table 120, wick supports 122 are uniformly distributed on the core column plate 121, the lifting table 120 is also electrically connected with the automatic chuck 111, when the automatic chuck 111 detects that no wick exists on the core column plate 121, the automatic chuck 111 clamps the core column plate 121, an empty plate is conveyed to one side, and meanwhile, the lifting table 120 is controlled to lift upwards to start clamping a lower-layer wick.

As shown in fig. 4, the sealing machine 5 is a circular rotary table, a bulb baking sealing point 51 is provided on the sealing machine 5, and a slag removing device 52 is provided at the bulb baking sealing point 51, the slag removing device 52 can remove glass slag under the bulb after baking sealing.

As shown in fig. 5, the transfer table 6 is provided with a bulb holder 61, a first robot 62 and a second robot 63 are provided on a side of the transfer table 6, and a turntable of the transfer table 6 is connected to the first robot 62 and the second robot 63 by a gear.

As shown in fig. 6, the row filling machine 7 is a circular turntable, a bulb vacuumizing point 71, a bulb inflating point 72, a sealing burner 73, a third manipulator 74, an upper slide way 75 and a lower slide way 76 are arranged on the row filling machine 7, the sealing burners 73, the bulb conveying supports 75 and the bulb conveying supports 75 are uniformly arranged on the row filling machine 7, the sealing burner 73 is arranged on one side of the bulb conveying supports 75 and is positioned outside the bulb vacuumizing point 71 and the bulb inflating point 72, the third manipulator 74 is arranged on one side of the upper slide way 75, the lower slide way 76 is arranged below the upper slide way 75, and the third manipulator 74 is in gear transmission connection with the turntable of the row filling machine 7.

The production method of the bulb production equipment capable of automatically clamping the core column comprises the following steps,

combining a bulb shell and a lamp wick, clamping the bulb shell from a bulb shell feeding frame 2 to a core column plate 121 with the lamp wick placed on the bulb shell feeding frame through a bulb shell manipulator 3, and waiting for further processing;

step two, packaging the bulb, namely clamping the bulb shell and the lamp wick combined in the step one onto a sealing machine 5 from a core column plate 121 by an automatic clamping head 111 to bake and package the bulb shell and the lamp wick, and reserving an exhaust pipe on the packaged bulb;

and step three, transferring and sealing the bulb, transferring the sealed bulb to the exhaust filling machine 7 through a first manipulator 62 and a second manipulator 63 on the conveying table 6, vacuumizing and filling inert gas, and then burning off and sealing the reserved exhaust pipe.

When the bulb production equipment and the production method thereof are used, the stem plate 121 with the lampwick placed is manually stacked on the lifting platform of the upper material rack 12, the bulb production equipment capable of automatically clamping the stem is started, and the bulb feeding rack 2, the bulb manipulator 3, the sealing machine 5, the conveying platform 6 and the filling and discharging machine 7 start to work. And the bulb shell manipulator 3 clamps the bulb shell on the bulb shell feeding frame 2 to the stem column plate 121 provided with the lamp core to complete the combination of the stem column and the bulb shell. Then, an automatic mechanical arm 11 on the core column feeding machine 1 clamps the combined bulb shell and the lamp wick to a conveying frame of a sealing machine 5, the sealing machine 5 rotates anticlockwise, meanwhile, a lampshade mechanical arm 3 sleeves the bulb shell to the conveying frame with the lamp wick, the sealing machine 5 rotates anticlockwise, the bulb shell and the lamp wick enter a baking sealing point 51, and redundant glass residues of the bulb are removed through a deslagging device 52 in the baking sealing process. An exhaust pipe is reserved on the bulb after the sealing is baked, after the bulb rotates to a cooling point 53, the bulb is clamped to a bulb frame 61 on a conveying table 6 through a first mechanical arm 62 on the conveying table 6, then the bulb is clamped to an exhaust filling machine 7 through a second mechanical arm 63, the exhaust filling machine 7 rotates anticlockwise, the bulb enters a bulb vacuumizing point 71 to extract redundant air in the bulb, the bulb after air extraction passes through a bulb inflating point 72, the exhaust pipe on the bulb is burnt off and sealed through a sealing fire nozzle 73 after the air is filled, the bulb is grabbed to an upper slide rail 75 through a third mechanical arm 74 and is conveyed to a lower slide rail 76 through the upper slide rail to be collected, and the production of the bulb is finished.

Example 2

The bulb production equipment and the bulb production method capable of automatically clamping the core column in the embodiment 1 are different only in that, as shown in fig. 3, the bulb shell feeding frame 2 is a circular rotating feeding frame, and bulb shell supports 21 are uniformly arranged on the bulb shell feeding frame 2. The bulb shell manipulator 3 is a manipulator with a function of identifying a bulb shell, the head of the bulb shell manipulator is provided with a sensor, after the bulb shell is clamped, the sensor identifies the bulb shell, and the bulb shell manipulator 3 can automatically place the bulb shell on the corresponding bulb shell to complete the combination of the bulb shell and the bulb shell.

Example 3

The bulb production equipment and the production method thereof capable of automatically clamping the core column as shown in embodiment 1 are different only in that the bulb manipulator 3 can be integrated on the core column feeding machine 1 under the condition that the bulb manipulator 3 is not interfered with the automatic manipulator 11 on the core column feeding machine 1, and the core column feeding machine 1 is provided with the automatic manipulator 11 and the bulb manipulator 3 with the function of combining the bulb and the lamp core, so that the space occupied by the equipment is effectively saved.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical solutions of the present invention may be made by those skilled in the art without departing from the design concept of the present invention, and the technical contents of the present invention are all described in the claims.

Claims (7)

1. The utility model provides an automatic bulb production facility of centre gripping stem which characterized in that: the device comprises a stem feeding machine (1), a bulb shell feeding frame (2), a bulb shell manipulator (3), a sealing machine (5), a conveying table (6), a row filling machine (7) and a machine frame (8), wherein the conveying table (6) is positioned between the sealing machine (5) and the row filling machine (7), and the stem feeding machine (1), the bulb shell feeding frame (2) and the bulb shell manipulator (3) are positioned on one side of the bulb shell feeding frame (2); the bulb feeding frame (2), the sealing machine (5), the conveying table (6) and the filling and discharging machine (7) are all arranged on the rack (8), and the stem feeding machine (1) is independent of the rack (8);

the stem feeding machine (1) comprises an automatic mechanical arm (11) and a feeding frame (12), wherein the automatic mechanical arm (11) is installed on the feeding frame (12), the automatic mechanical arm (11) comprises an automatic chuck (111), a vertical guide rail (112), a longitudinal guide rail (113) and a transverse guide rail (114), the automatic chuck (111) is arranged on the vertical guide rail (112) in a sliding mode, the vertical guide rail (112) is arranged on the longitudinal guide rail (113) in a sliding mode, the longitudinal guide rail (113) is arranged on the transverse guide rail (114) in a sliding mode, the transverse guide rail (114) is fixed on the feeding frame (12), and the automatic chuck (111) is electrically connected with the vertical guide rail (112) and the longitudinal guide; the lifting table (120) is arranged in the feeding frame (12), the core column plates (121) are stacked on the lifting table (120), and the core column plates (121) are uniformly provided with the core support frames (122).

2. The apparatus for producing a bulb with a stem clamped automatically as set forth in claim 1, wherein: the bulb shell feeding frame (2) is a circular rotating feeding frame, the bulb shell feeding frame is evenly provided with a bulb shell support (21), and the bulb shell manipulator (3) is a mechanical arm with functions of identifying a bulb shell and a lamp wick.

3. The apparatus for producing a bulb with a stem clamped automatically as set forth in claim 1, wherein: the sealing machine (5) is a circular rotating table board, a bulb baking sealing point (51) is arranged on the sealing machine (5), and a deslagging device (52) is arranged at the bulb baking sealing point (51).

4. The apparatus for producing a bulb with a stem clamped automatically as set forth in claim 2, wherein: the bulb holder (61) is arranged on the conveying table (6), the first mechanical arm (62) and the second mechanical arm (63) are arranged on the side edge of the conveying table (6), and the rotary table of the conveying table (6) is connected with the first mechanical arm (62) and the second mechanical arm (63) through gear transmission.

5. The apparatus for producing a bulb with a stem clamped automatically as set forth in claim 1, wherein: the filling and discharging machine (7) is a circular rotary table, a bulb vacuumizing point (71), a bulb inflating point (72), a sealing fire nozzle (73), a third mechanical arm (74), an upper slide way (75) and a lower slide way (76) are arranged on the filling and discharging machine (7), the sealing fire nozzles (73), a bulb conveying support (75) and the bulb conveying support (75) are uniformly arranged on the filling and discharging machine (7), the sealing fire nozzles (73) are arranged on one side of the bulb conveying support (75) and are positioned outside the bulb vacuumizing point (71) and the bulb inflating point (72), the third mechanical arm (74) is arranged on one side of the upper slide way (75), the lower slide way (76) is arranged below the upper slide way (75), and the third mechanical arm (74) is in gear transmission connection with the rotary table of the filling and discharging machine (7).

6. The apparatus for producing a bulb with an automatically clamping stem as set forth in claim 1, wherein the automatic chuck (111) is provided with an inductor, and the inductor is connected to the elevating table (120).

7. The production method of a bulb production apparatus for automatically clamping a stem as set forth in claims 1 to 6, wherein: comprises the following steps of (a) carrying out,

combining a bulb shell and a lamp wick, clamping the bulb shell from a bulb shell feeding frame (2) to a core column plate (121) with the lamp wick by a bulb shell manipulator (3), and waiting for further processing;

step two, packaging the bulb, namely clamping the bulb shell and the lamp wick combined in the step one onto a sealing machine (5) from a core column plate (121) by an automatic clamping head (111) to bake and package the bulb shell and the lamp wick, and reserving an exhaust pipe on the packaged bulb;

and step three, transferring and sealing the bulb, transferring the sealed bulb to a filling and exhausting machine (7) through a first mechanical arm (62) and a second mechanical arm (63) on a conveying table (6), vacuumizing and filling inert gas, and then burning off and sealing the reserved exhaust pipe.

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