CN214264617U - Automatic assembling equipment for bulb plastic core base - Google Patents

Abstract

The utility model discloses a bulb plastics core print automatic assembly equipment, include and make pivoted carousel by motor control, be equipped with a plurality of material loading clamps on the carousel, the material loading presss from both sides including the holder, is equipped with the last flitch that connects the work piece greatly on the holder, goes up to be equipped with the locating piece on the flitch, rotate the double-layered hook that is connected with the centre gripping work piece on the holder, be equipped with the swing arm on the double-layered hook, rotate in the swing arm and be connected with the pulley, still include the top and push up the first push rod cylinder of pulley, the carousel is outer to be cooperated and is provided with feed mechanism, positioning mechanism, the mechanism of punching, the mechanism of going up the standard grade, broken line mechanism and unloading mechanism. The automatic assembly equipment has the characteristics of quick assembly, high standardization degree, high processing efficiency, perfect overall function and strong practicability.

Description

Automatic assembling equipment for bulb plastic core base

Technical Field

The utility model relates to a mechanical automation technical field, more specifically say, it relates to a bulb plastics core print automatic assembly equipment.

Background

As shown in fig. 19 and 20, a structural schematic diagram of a plastic core holder of a conventional bulb is shown, which includes a plastic core holder 1000, a tail seat 1001 is disposed at the bottom of the plastic core holder 1000, and a set of insertion holes 1002 is disposed on the tail seat 1001, after injection molding, the insertion holes 1002 are easy to block or have dimensions not in accordance with specifications, and need to be processed and punched, which is inconvenient.

After the hole 1002 is drilled, a first wire 1003 and a second wire 1004 (shown in fig. 21) with different lengths are respectively inserted into the hole, and ends of the first wire 1003 and the second wire 1004, which are far away from the tailstock 1001, are bent to form a first lamp pin 1005 and a second lamp pin 1006 (shown in fig. 22). Wherein, insert operation and the operation of bending are often accomplished by the manual work, and the standardization level is low, and is inefficient, and whole effect is not good. Therefore, the utility model provides a bulb plastics core print automatic assembly equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome not enough among the above-mentioned prior art, provide a bulb plastics core print automatic assembly equipment, this automatic assembly equipment has the assembly swift, and degree of standardization is high, characteristics that machining efficiency is high.

In order to solve the technical problem, the purpose of the utility model is to realize like this: the utility model relates to a bulb plastics core print automatic assembly equipment, include and make pivoted carousel by motor control, be equipped with a plurality of material loading clamps on the carousel, the material loading presss from both sides including the holder, is equipped with the last flitch that connects the work piece greatly on the holder, goes up to be equipped with the locating piece on the flitch, rotate the double-layered hook that is connected with the centre gripping work piece on the holder, be equipped with the swing arm on the double-layered hook, rotate in the swing arm and be connected with the pulley, still include the top and push up the first push rod cylinder of pulley, the carousel is outer to be cooperated and is provided with feed mechanism, positioning mechanism, the mechanism of punching, mechanism of going up the standard grade, broken line mechanism and unloading mechanism.

The utility model discloses further set up to: the feeding mechanism comprises a material channel provided with a material groove, the discharge end of the material channel faces the feeding clamp, a moving mechanism is arranged between the material channel and the feeding clamp, and the moving mechanism comprises an air claw arranged below the material groove, a rotating mechanism for controlling the air claw to rotate and a first linear reciprocating mechanism for controlling the rotating mechanism to move back and forth; the tank bottom of silo is equipped with and makes the constant head tank that extends along its length direction, go up the material loading breach of offering the embedding of air feed claw head on the flitch, rotary mechanism is including fixing gear, the meshing gear on the gas claw and controlling it and making pivoted rack.

The utility model discloses further set up to: the material channel is arranged at the feeding end of the material channel, the material channel is provided with a first limiting part, and the material channel is provided with a second limiting part; when the movable plate is close to the material channel, the first limiting part extends out of the material channel, the second limiting part blocks the material channel discharging port, and when the movable plate is far away from the material channel, the first limiting part extends into the material channel, and the second limiting part is moved out of the material channel discharging port.

The utility model discloses further set up to: the positioning mechanism comprises an ejector pin assembly arranged above the feeding clamp, and the ejector pin assembly comprises an ejector pin and a second linear reciprocating mechanism for controlling the ejector pin to vertically move up and down.

The utility model discloses further set up to: the positioning mechanism further comprises a clamping assembly arranged below the feeding clamp, the clamping assembly comprises a fixing seat, a first slide rail extending horizontally and a second slide rail extending vertically are arranged on the fixing seat, a first slide block and a second slide block are connected to the first slide rail in a sliding mode, a first chuck is arranged on the first slide block, a second chuck is arranged on the second slide block, a third slide block is connected to the second slide rail in a sliding mode, a third straight reciprocating motion mechanism controlling the third slide block to move vertically up and down is arranged on the third slide rail, and the positioning mechanism further comprises a first transmission arm with one end hinged to the first slide block, a first transmission arm with the other end hinged to the third slide block and a second transmission arm with one end hinged to the second slide block and the other end hinged to the third slide block.

The utility model discloses further set up to: the punching mechanism is arranged above the feeding clamp and comprises a base, a control motor is arranged on the base, a vertically downward drill bit is arranged on an output shaft of the control motor, and a fourth linear reciprocating mechanism for controlling the punching mechanism to vertically move up and down is further arranged on the base.

The utility model discloses further set up to: the wire feeding mechanism comprises a winding drum arranged above the feeding clamp, a wire feeding assembly arranged between the winding drum and the feeding clamp, and a wire shearing assembly arranged between the wire feeding assembly and the feeding clamp;

the wire feeding assembly comprises a third slide rail vertically extending up and down, a fourth slide block is connected to the third slide rail in a sliding manner, a third push rod cylinder for pressing or loosening a metal wire is arranged on the fourth slide block, and the wire feeding assembly further comprises a fifth linear reciprocating mechanism for controlling the fourth slide block to slide on the third slide rail;

the wire cutting assembly comprises a fourth sliding rail extending leftwards and rightwards, a fifth sliding block is connected onto the fourth sliding rail in a sliding mode, pneumatic scissors for cutting metal wires are arranged on the fifth sliding block, and the wire cutting assembly comprises a sixth linear reciprocating motion mechanism for controlling the fifth sliding block to slide on the fourth sliding rail.

The utility model discloses further set up to: the feeding mechanism also comprises a fixing component arranged below the feeding clamp, the fixing component comprises a fixed seat, a fifth slide rail horizontally extending left and right is arranged on the fixed seat, a sixth slide block and a seventh slide block are connected on the fifth slide rail in a sliding way, the sixth slide block is provided with a first guide post, the seventh slide block is provided with a second guide post, the fixing component comprises an adjusting plate which vertically moves up and down relative to the fixing seat, the adjusting plate is provided with a first guide hole and a second guide hole, the first guide hole and the second guide hole are in an inverted V shape, the first guide post is connected in the first guide hole in a sliding way, the second guide pillar is connected in the second guide hole in a sliding mode, the fixing assembly further comprises a seventh linear reciprocating mechanism for controlling the adjusting plate to vertically move up and down relative to the fixing seat, and third chucks are arranged on the sixth sliding block and the seventh sliding block respectively.

The utility model discloses further set up to: the mechanism of going up line still includes first alignment unit and second alignment unit, be equipped with first alignment seat on the first alignment unit, rotate on the first alignment seat and be connected with the first alignment wheelset that is located the wire left, be located the second alignment wheelset on wire right side, be equipped with the second alignment seat on the second alignment unit, rotate on the second alignment seat and be connected with the third alignment wheelset that is located the wire front side, be located the fourth alignment wheelset of wire rear side.

The utility model discloses further set up to: a bending assembly is arranged below the feeding clamp, the bending assembly comprises a bending seat, a sixth sliding rail is arranged on the bending seat, a sliding table is connected on the sixth sliding rail in a sliding manner, a seventh sliding rail perpendicular to the sixth sliding rail is arranged on the sliding table, an eighth sliding block, a ninth sliding block and a tenth sliding block are connected on the seventh sliding rail in a sliding manner, the tenth sliding block is arranged between the eighth sliding block and the ninth sliding block, a first clamping part is arranged on the eighth sliding block, a second clamping part is arranged on the ninth sliding block, a bending part below the first clamping part and the second clamping part is arranged on the tenth sliding block, the bending mechanism also comprises an eighth linear reciprocating mechanism for controlling the sliding table to slide on the sixth sliding rail, a ninth linear reciprocating mechanism for controlling the eighth sliding block to slide on the seventh sliding rail, and a tenth linear reciprocating mechanism for controlling the ninth sliding block to slide on the seventh sliding rail, and the eleventh linear reciprocating mechanism controls the tenth sliding block to slide on the seventh sliding rail.

The utility model discloses further set up to: the blanking mechanism comprises a blanking groove connected with the feeding clamp and a fourth push rod cylinder pushing the pulley.

To sum up, the utility model discloses following beneficial effect has: the utility model relates to a bulb plastics core print automatic assembly equipment through each mechanism linkage, realizes carrying out material loading, location, punching, line, broken line and unloading operation to bulb plastics core print, accomplishes a series of automatic assembly, and degree of standardization is high, and the assembly is swift high-efficient, and whole function is perfect, and the practicality is strong.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the present invention for showing the turntable and the blanking mechanism;

fig. 3 is a schematic structural view of the loading clamp of the present invention;

fig. 4 is a schematic structural diagram of the feeding mechanism according to the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 from another perspective;

fig. 6 is a schematic structural diagram of the transfer mechanism according to the present invention;

fig. 7 is a schematic structural diagram of the limiting mechanism of the present invention;

fig. 8 is a schematic structural diagram of the positioning mechanism according to the present invention;

fig. 9 is a schematic structural view for embodying the clamping assembly of the present invention;

fig. 10 is a schematic view of the overall structure of the punching mechanism according to the present invention;

fig. 11 is a schematic structural diagram of a part of the punching mechanism according to the present invention;

fig. 12 is a schematic view of the overall structure of the mechanism for threading the thread according to the present invention;

fig. 13 is a partial structural schematic diagram of the mechanism for threading the thread of the present invention;

fig. 14 is a schematic structural view of the wire feeding assembly according to the present invention;

fig. 15 is a schematic structural view of the fixing assembly according to the present invention;

fig. 16 is a schematic structural diagram of the present invention for embodying the first straightening unit and the second straightening unit;

fig. 17 is a schematic structural view of the bending assembly according to the present invention;

FIG. 18 is a schematic view of the structure of FIG. 17 from another perspective;

FIG. 19 is a schematic view of the overall structure of a plastic socket for a conventional light bulb;

FIG. 20 is a schematic view of the internal structure of FIG. 19;

fig. 21 is a schematic view of the plastic socket of the bulb of fig. 20 after insertion of a metal wire;

fig. 22 is a schematic view of the bulb of fig. 20 after bending of the wires on the plastic socket;

Detailed Description

In order to better understand the technical solutions of the present invention for those skilled in the art, the following preferred embodiments of the present invention are described in conjunction with the specific examples, but it should be understood that these descriptions are only for the purpose of further explaining the features and advantages of the present invention, and are not intended to limit the patent requirements of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The invention will be further described with reference to the accompanying drawings and preferred embodiments.

Example 1

Referring to fig. 1 to 22, the automatic assembling equipment for a plastic bulb core holder according to the present embodiment includes a rotating plate 100 controlled by a motor to rotate, the rotating plate 100 is provided with a plurality of feeding clamps 200, each feeding clamp 200 includes a clamp holder 201, each clamp holder 201 is provided with a feeding plate 202 for receiving a workpiece, each feeding plate 202 is provided with a positioning block 203, each clamp holder 201 is rotatably connected with a clamp hook 204 for clamping the workpiece, each clamp hook 204 is provided with a swing arm 205, each swing arm 205 is rotatably connected with a pulley 206, the automatic assembling equipment further includes a first push rod cylinder 207 for pushing the pulley 206, and the rotating plate 100 is externally provided with a feeding mechanism 300, a positioning mechanism 400, a punching mechanism 500, an on-line mechanism 600, a fold line mechanism 700, and a blanking mechanism 800 in a matching manner.

Further, the feeding mechanism 300 includes a material channel 302 provided with a material channel 301, a discharging end of the material channel 302 faces the feeding clamp 200, a moving mechanism 303 is arranged between the material channel 302 and the feeding clamp 200, and the moving mechanism 303 includes an air claw 3031 arranged below the material channel 301, a rotating mechanism 3032 for controlling the air claw 3031 to rotate, and a first linear reciprocating mechanism 3033 for controlling the rotating mechanism 3032 to move back and forth; the bottom of the trough 301 is provided with a positioning groove 304 extending along the length direction, the feeding plate 202 is provided with a feeding notch 208 for embedding the claw head of the gas claw 3031, and the rotating mechanism 3032 comprises a gear 3034 fixed on the gas claw 3031 and a rack 3035 engaged with the gear 3034 and controlling the rotation of the gear 3034.

Further, the device further comprises a limiting mechanism 305 close to the discharging end of the trough 301, the limiting mechanism 305 comprises a second push rod cylinder 3051 arranged on one side of the trough 302, a movable plate 3052 moving close to or away from the trough 302 is arranged on the second push rod cylinder 3051, and a first limiting part 3053 extending into the trough 301 and a second limiting part 3054 blocking the discharging end of the trough 301 are arranged on the movable plate 3052; when the movable plate 3052 is close to the chute 302, the first stopper 3053 extends out of the chute 301, and the second stopper 3054 blocks the blanking port of the chute 301, and when the movable plate 3052 is far away from the chute 302, the first stopper 3053 extends into the chute 301, and the second stopper 3054 is moved out of the blanking port of the chute 301.

Further, the positioning mechanism 400 includes a thimble assembly 401 disposed above the loading clamp 200, and the thimble assembly 401 includes a thimble 4011 and a second linear reciprocating mechanism (not shown in the figure) for controlling the thimble 4011 to move vertically up and down.

Further, the positioning mechanism 400 further includes a clamping assembly 402 disposed below the loading clamp 200, the clamping assembly 402 includes a fixing seat 4021, the fixing seat 4021 is provided with a first slide rail 4022 extending horizontally and a second slide rail 4023 extending vertically, the first slide rail 4022 is connected to a first slider 4024 and a second slider 4025 in a sliding manner, the first slider 4024 is provided with a first collet 4026, the second slider 4025 is provided with a second collet 2027, the second slide rail 4023 is connected to a third slider 4028 in a sliding manner, the third slider 4028 is provided with a third linear reciprocating mechanism 4029 for controlling the third slider to move vertically and vertically on the second slide rail 4023, and the positioning mechanism further includes a first transmission arm 4030 having one end hinged to the first slider 4024 and the other end hinged to the third slider 4028, and a second transmission arm 4031 having one end hinged to the second slider 4025 and the other end hinged to the third slider 4028.

Further, the punching mechanism 500 is arranged above the loading clamp 200, the punching mechanism 500 comprises a base 501, a control motor 502 is arranged on the base 501, a vertically downward drill 503 is arranged on an output shaft of the control motor 502, and a fourth linear reciprocating mechanism 504 for controlling the base 501 to vertically move up and down is further arranged on the base 501.

Further, the thread feeding mechanism 600 comprises a bobbin 601 arranged above the feeding clamp 200, a thread feeding assembly 602 arranged between the bobbin 601 and the feeding clamp 200, and a thread trimming assembly 603 arranged between the thread feeding assembly 602 and the feeding clamp 200;

the wire feeding assembly 602 comprises a third slide rail 6021 vertically extending up and down, a fourth slide block 6022 is connected to the third slide rail 6021 in a sliding manner, a third push rod cylinder 6023 for pressing or loosening a metal wire is arranged on the fourth slide block 6022, and the wire feeding assembly 602 further comprises a fifth linear reciprocating mechanism (not shown in the figure) for controlling the fourth slide block 6022 to slide on the third slide rail 6021;

the wire cutting assembly 603 comprises a fourth slide rail 6031 extending left and right, a fifth slide block 6032 is connected to the fourth slide rail 6031 in a sliding manner, a pneumatic scissors 6033 for cutting off a metal wire is arranged on the fifth slide block 6032, and the wire cutting assembly 603 comprises a sixth linear reciprocating mechanism (not shown in the figure) for controlling the fifth slide block 6032 to slide on the fourth slide rail 6031.

Further, the feeding mechanism 600 further includes a fixing assembly 604 disposed below the feeding clamp 200, the fixing assembly 604 includes a fixing base 6041, the fixing base 6041 is provided with a fifth slide rail 6042 extending horizontally and horizontally, the fifth slide rail 6042 is slidably connected with a sixth slide 6043 and a seventh slide 6044, the sixth slide 6043 is provided with a first guide pillar 6045, the seventh slide 6044 is provided with a second guide pillar 6046, the fixing assembly 604 includes an adjusting plate 6047 moving vertically and vertically with respect to the fixing base 6041, the adjusting plate 6047 is provided with a first guide hole 6048 and a second guide hole 6049, the first guide hole 6048 and the second guide hole 6049 are inverted "eight" shaped, the first guide pillar 6045 is slidably connected in the first guide hole 6048, the second guide pillar 6046 is slidably connected in the second guide hole 6049, the fixing assembly 604 further includes a seventh linear reciprocating mechanism (not shown in the figure) for controlling the adjusting plate 6047 to move vertically and vertically with respect to the fixing base 6041, and a third chuck 6050 is respectively arranged on the sixth sliding block 6043 and the seventh sliding block 6044.

Further, the mechanism 600 of going up standard grade still includes first alignment unit 605 and second alignment unit 606, be equipped with first alignment seat 6051 on the first alignment unit 605, rotate on the first alignment seat 6051 and be connected with the first alignment wheelset 6052 that is located the wire left side, be located the second alignment wheelset 6053 on wire right side, be equipped with second alignment seat 6061 on the second alignment unit 606, rotate on the second alignment seat 6061 and be connected with the third alignment wheelset 6062 that is located the wire front side, be located the fourth alignment wheelset 6063 of wire rear side.

Further, a bending assembly 700 is arranged below the loading clamp 200, the bending assembly 700 includes a bending base 701, a sixth sliding rail 702 is arranged on the bending base 701, a sliding table 703 is connected on the sixth sliding rail 702 in a sliding manner, a seventh sliding rail 704 perpendicular to the sixth sliding rail 702 is arranged on the sliding table 703, an eighth sliding block 705, a ninth sliding block 706 and a tenth sliding block 707 are connected on the seventh sliding rail 704 in a sliding manner, the tenth sliding block 707 is arranged between the eighth sliding block 705 and the ninth sliding block 706, a first clamping portion 708 is arranged on the eighth sliding block 705, a second clamping portion 709 is arranged on the ninth sliding block 706, a bending portion 710 located below the first clamping portion 708 and the second clamping portion 709 is arranged on the tenth sliding block 707, the bending assembly further includes an eighth linear reciprocating mechanism (not shown) for controlling the sliding table 703 to slide on the sixth sliding rail 702, a ninth linear reciprocating mechanism (not shown) for controlling the eighth sliding block 705 to slide on the seventh sliding rail 704, a tenth linear reciprocating mechanism (not shown) for controlling the ninth slider 706 to slide on the seventh slide rail 704, and an eleventh linear reciprocating mechanism (not shown) for controlling the tenth slider 707 to slide on the seventh slide rail 704.

Further, the blanking mechanism 800 includes a blanking slot 801 connected to the feeding clamp 200 and a fourth push rod cylinder 802 pushing the pulley 206.

In this embodiment, first, the plastic core holder 1000 is fed to the corresponding feeding clamp 200 on the rotary table 100 through the feeding mechanism 300, and after the rotary table 100 is transported and then enters the next process, the positioning mechanism 400 positions the workpiece, after the positioning is completed, the rotary table 100 rotates, the punching mechanism 500 punches the hole 1003 formed by the primary injection molding again, after the punching is completed, the rotary table 100 rotates, the wire feeding mechanism 600 inserts the first metal wire 1004 into one of the holes 1003, the rotary table 100 rotates, the wire folding mechanism 700 bends the first metal wire 1004 to form the first lamp pin 1005, then the rotary table 100 rotates to position and punch the other hole 1003, the wire feeding mechanism 600 provided at the back completes the operation of inserting the second metal wire 1005 into the other hole 1003, and the wire folding mechanism 700 provided with the wire feeding mechanism 600 bends the second metal wire 1005, and forming a second lamp pin 1006, and finally, blanking by the blanking mechanism 800 to finish assembly.

Wherein, the theory of operation of feed mechanism 300 is: the first push rod cylinder 207 extends to push the pulley 206, the swing arm 205 drives the clamp hook 204 to move away from the positioning block 203, so as to open the feeding clamp 200, the workpiece (i.e. the plastic core holder 1000) is fed from one end of the material channel 302, pushed by the rear workpiece and fed out from the other end of the material channel 302, the tail seat 1001 is clamped by the lower air claw 3031 at the outlet position of the material channel 301, the first linear reciprocating mechanism 3033 operates, so that the air claw 3031 moves towards the feeding clamp 200, the rotating mechanism 3032 realizes 90-degree steering of the air claw 3031, at least the claw head is embedded into the feeding gap 208, the workpiece is positioned on the feeding plate 202, the feeding clamp 200 resets after the workpiece is shortened by the first push rod cylinder 207, so as to finish the fixing of the workpiece, and the feeding is realized (the workpiece is fed into the material channel 302 by manual one-by-one placement or vibration of a vibration plate).

The working principle of the positioning mechanism 400 is as follows: the second straight reciprocating motion mechanism carries the thimble 4011 to descend, inserts a jack position (originally thimble 4011 and jack do not have the coaxial line setting, have the deviation slightly), and the pushing down of thimble 4011 causes the pointed end to insert the jack, forms and carries out the position to jack and plastics core print 1000 and leads, and at leading the in-process, the material loading clamp 200 is opened, and it is fixed to form preliminary centre gripping by the centre gripping tailstock 1002 of below centre gripping subassembly 402.

The motion principle of the clamping assembly 402 is as follows: by pushing and pulling the third slider 4028 up and down, the first and second transfer arms 4030 and 4031 hinged thereon drive the first and second sliders 4024 and 4025 to move in opposite directions on the first slide rail 4022, so as to open or close the first and second jaws 4026 and 4027.

Wherein, the theory of operation of mechanism 500 of punching is: the fourth linear reciprocating mechanism 504 carries the base 501 to vertically move up and down to drive the control motor 502 and the drill 503 on the output shaft to synchronously move, and during the period, the control motor 502 operates to enable the drill 503 to rotate at a high speed, so that the drill 503 is inserted into a jack 1002 positioned by the positioning mechanism 400 to punch holes, and a blockage is prevented from blocking the jack 1002.

Wherein, the theory of operation of mechanism 600 of getting on the line does: the first wire 1003 or the first wire 1004 is unreeled from the reel 601, and is straightened by the first straightening unit 605 and the second straightening unit 606 in sequence, and during the straightening, the wire feeding assembly 602 performs traction and conveying. The wire feeding assembly 602 compresses the wire through the third push rod cylinder 6023, and then the wire is pushed downward by the fifth linear reciprocating mechanism until the wire is inserted into the corresponding insertion hole 1002 on the tailstock 1001 and partially extends out, the wire above the insertion hole 1002 is cut by the wire cutting assembly 603, and the wire is cut stably below the insertion hole 1002 by the fixing assembly 604. Wherein, accomplish by thread trimming component 603 and cut the wire action, the theory of operation is: the sixth linear reciprocating mechanism carries the pneumatic scissors 6033 to move forward and approach the metal wire, so that the metal wire is positioned between the cutting pliers of the pneumatic scissors 6033, the pneumatic scissors 6033 is supplied with air, the cutting pliers are folded, and the metal wire cutting is completed. Wherein, accomplish by fixed subassembly 604 and fix the centre gripping when cutting, the theory of operation is: the seventh linear reciprocating mechanism carries the adjusting plate 6047 to move downwards, and the first guide hole 6048 and the second guide hole 6049 in the shape of an inverted "eight" pull the first guide pillar 6045 and the second guide pillar 6046, so that the sixth sliding block 6043 and the seventh sliding block 6044 slide on the fifth sliding rail 6042 and approach each other, and the third chuck 6050 is clamped.

Wherein, the theory of operation of bending assembly 700 is: the first wire 1003 or 1004 partially extending out of the lower portion of the insertion hole 1002 is clamped and fixed by the first clamping portion 708 and the second clamping portion 709 which are close to each other, and then the wire is impacted by the bending portion 710 which also horizontally moves from the lower portion, so that the linear wire is bent to form the first lamp foot 1005 and the second lamp foot 1006 in an L shape, and the folding operation is completed. The eighth linear reciprocating mechanism controls the sliding table 703 to slide back and forth on the sixth sliding rail 702; the ninth linear reciprocating mechanism controls the eighth sliding block 705 to slide on the seventh sliding rail 704 in a reciprocating manner; the tenth linear reciprocating mechanism controls the ninth sliding block 706 to slide on the seventh sliding rail 704 in a reciprocating manner; the eleventh linear reciprocating mechanism controls the tenth sliding block 707 to slide on the seventh sliding rail 704 in a reciprocating manner.

Wherein, the theory of operation of unloading mechanism 800 does: the fourth push rod cylinder 802 pushes the pulley 206 to open the feeding clamp 200, so that the workpiece falls out of the feeding clamp 200 and falls into the blanking groove 801, and blanking operation is achieved.

The linear reciprocating mechanism can be a push rod cylinder, but is not limited to a push rod cylinder, and can also be a mechanical structure for completing the same action.

The utility model relates to a bulb plastics core print automatic assembly equipment through each mechanism linkage, realizes carrying out material loading, location, punching, line, broken line and unloading operation to bulb plastics core print, accomplishes a series of automatic assembly, and degree of standardization is high, and the assembly is swift high-efficient, and whole function is perfect, and the practicality is strong.

Unless otherwise specified, in the present invention, if the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate an orientation or positional relationship based on the actual orientation or positional relationship shown, it is only for convenience of describing the present invention and simplifying the description, rather than to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, therefore, the terms describing orientation or positional relationship in the present invention are used for illustrative purposes only, and should not be construed as limiting the present patent, it is possible for those skilled in the art to combine the embodiments and understand the specific meanings of the above terms according to specific situations.

Unless expressly stated or limited otherwise, the terms "disposed," "connected," and "connected" are used broadly and encompass both fixed and removable connections, or integral connections; the connection may be direct or indirect via an intermediate medium, and may be a communication between the two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. The utility model provides a bulb plastics core print automatic assembly equipment, includes and makes pivoted carousel by motor control, its characterized in that: the rotary table is provided with a plurality of feeding clamps, each feeding clamp comprises a clamp holder, a feeding plate containing a workpiece is arranged on each clamp holder, a positioning block is arranged on each feeding plate, a clamp hook used for clamping the workpiece is rotatably connected onto each clamp holder, a swing arm is arranged on each clamp hook, a pulley is rotatably connected onto each swing arm, the rotary table further comprises a first push rod cylinder for pushing the pulley, and the rotary table is externally provided with a feeding mechanism, a positioning mechanism, a punching mechanism, a line feeding mechanism, a line folding mechanism and a discharging mechanism in a matched mode.

2. The automatic assembling apparatus for plastic lamp sockets according to claim 1, wherein: the feeding mechanism comprises a material channel provided with a material groove, the discharge end of the material channel faces the feeding clamp, a moving mechanism is arranged between the material channel and the feeding clamp, and the moving mechanism comprises an air claw arranged below the material groove, a rotating mechanism for controlling the air claw to rotate and a first linear reciprocating mechanism for controlling the rotating mechanism to move back and forth; the tank bottom of silo is equipped with and makes the constant head tank that extends along its length direction, go up the material loading breach of offering the embedding of air feed claw head on the flitch, rotary mechanism is including fixing gear, the meshing gear on the gas claw and controlling it and making pivoted rack.

3. The automatic assembling apparatus for plastic lamp sockets according to claim 2, wherein: the material channel is arranged at the feeding end of the material channel, the material channel is provided with a first limiting part, and the material channel is provided with a second limiting part; when the movable plate is close to the material channel, the first limiting part extends out of the material channel, the second limiting part blocks the material channel discharging port, and when the movable plate is far away from the material channel, the first limiting part extends into the material channel, and the second limiting part is moved out of the material channel discharging port.

4. The automatic assembling apparatus for plastic lamp sockets according to claim 1, wherein: the positioning mechanism comprises an ejector pin assembly arranged above the feeding clamp, and the ejector pin assembly comprises an ejector pin and a second linear reciprocating mechanism for controlling the ejector pin to vertically move up and down.

5. The automatic assembling apparatus for plastic lamp sockets according to claim 4, wherein: the positioning mechanism further comprises a clamping assembly arranged below the feeding clamp, the clamping assembly comprises a fixing seat, a first slide rail extending horizontally and a second slide rail extending vertically are arranged on the fixing seat, a first slide block and a second slide block are connected to the first slide rail in a sliding mode, a first chuck is arranged on the first slide block, a second chuck is arranged on the second slide block, a third slide block is connected to the second slide rail in a sliding mode, a third straight reciprocating motion mechanism controlling the third slide block to move vertically up and down is arranged on the third slide rail, and the positioning mechanism further comprises a first transmission arm with one end hinged to the first slide block, a first transmission arm with the other end hinged to the third slide block and a second transmission arm with one end hinged to the second slide block and the other end hinged to the third slide block.

6. The automatic assembling apparatus for plastic lamp sockets according to claim 1, wherein: the punching mechanism is arranged above the feeding clamp and comprises a base, a control motor is arranged on the base, a vertically downward drill bit is arranged on an output shaft of the control motor, and a fourth linear reciprocating mechanism for controlling the punching mechanism to vertically move up and down is further arranged on the base.

7. The automatic assembling apparatus for plastic lamp sockets according to claim 1, wherein: the wire feeding mechanism comprises a winding drum arranged above the feeding clamp, a wire feeding assembly arranged between the winding drum and the feeding clamp, and a wire shearing assembly arranged between the wire feeding assembly and the feeding clamp;

the wire feeding assembly comprises a third slide rail vertically extending up and down, a fourth slide block is connected to the third slide rail in a sliding manner, a third push rod cylinder for pressing or loosening a metal wire is arranged on the fourth slide block, and the wire feeding assembly further comprises a fifth linear reciprocating mechanism for controlling the fourth slide block to slide on the third slide rail;

the wire cutting assembly comprises a fourth sliding rail extending leftwards and rightwards, a fifth sliding block is connected onto the fourth sliding rail in a sliding mode, pneumatic scissors for cutting metal wires are arranged on the fifth sliding block, and the wire cutting assembly comprises a sixth linear reciprocating motion mechanism for controlling the fifth sliding block to slide on the fourth sliding rail.

8. The automatic assembling apparatus for plastic sockets for light bulbs of claim 7, wherein: the feeding mechanism also comprises a fixing component arranged below the feeding clamp, the fixing component comprises a fixed seat, a fifth slide rail horizontally extending left and right is arranged on the fixed seat, a sixth slide block and a seventh slide block are connected on the fifth slide rail in a sliding way, the sixth slide block is provided with a first guide post, the seventh slide block is provided with a second guide post, the fixing component comprises an adjusting plate which vertically moves up and down relative to the fixing seat, the adjusting plate is provided with a first guide hole and a second guide hole, the first guide hole and the second guide hole are in an inverted V shape, the first guide post is connected in the first guide hole in a sliding way, the second guide pillar is connected in the second guide hole in a sliding mode, the fixing assembly further comprises a seventh linear reciprocating mechanism for controlling the adjusting plate to vertically move up and down relative to the fixing seat, and third chucks are arranged on the sixth sliding block and the seventh sliding block respectively.

9. The automatic assembling apparatus for plastic lamp sockets according to claim 8, wherein: the mechanism of going up line still includes first alignment unit and second alignment unit, be equipped with first alignment seat on the first alignment unit, rotate on the first alignment seat and be connected with the first alignment wheelset that is located the wire left, be located the second alignment wheelset on wire right side, be equipped with the second alignment seat on the second alignment unit, rotate on the second alignment seat and be connected with the third alignment wheelset that is located the wire front side, be located the fourth alignment wheelset of wire rear side.

10. The automatic assembling apparatus for plastic lamp sockets according to claim 1, wherein: a bending assembly is arranged below the feeding clamp, the bending assembly comprises a bending seat, a sixth sliding rail is arranged on the bending seat, a sliding table is connected on the sixth sliding rail in a sliding manner, a seventh sliding rail perpendicular to the sixth sliding rail is arranged on the sliding table, an eighth sliding block, a ninth sliding block and a tenth sliding block are connected on the seventh sliding rail in a sliding manner, the tenth sliding block is arranged between the eighth sliding block and the ninth sliding block, a first clamping part is arranged on the eighth sliding block, a second clamping part is arranged on the ninth sliding block, a bending part below the first clamping part and the second clamping part is arranged on the tenth sliding block, the bending mechanism also comprises an eighth linear reciprocating mechanism for controlling the sliding table to slide on the sixth sliding rail, a ninth linear reciprocating mechanism for controlling the eighth sliding block to slide on the seventh sliding rail, and a tenth linear reciprocating mechanism for controlling the ninth sliding block to slide on the seventh sliding rail, and the eleventh linear reciprocating mechanism controls the tenth sliding block to slide on the seventh sliding rail.

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