CN211047765U - Double-station L ED lamp strip chip mounter - Google Patents

Abstract

The utility model discloses a duplex position L ED lamp area chip mounter, its main mobile device is equipped with the portal frame, the portal frame is installed two sets of axle drive module about, every set of axle drive module all sharp drive is connected with about the axle extension board, every about all install two sets of upper and lower axle drive module of axle extension board, every set of upper and lower axle drive module all sharp drive is connected with about the axle extension board, every upper and lower axle extension board all fixed mounting has component to paste the dress head, component feeding device and component unwinding device are all installed to portal frame left part and right part, main mobile device's quantity is established to two sets, two sets of main mobile device front and back symmetrical arrangement, L ED lamp area circuit board conveyor's quantity is established to two sets, L ED lamp area circuit board conveyor passes the square hole that crotch and portal frame enclose down, the utility model aims at providing a duplex position L ED lamp area chip mounter, it can be simultaneously the L ED lamp area of two kinds of different specifications, be favorable to improving production efficiency.

Description

Double-station L ED lamp strip chip mounter

Technical Field

The utility model relates to a L ED lamp area chip mounter's technical field, concretely relates to duplex position L ED lamp area chip mounter.

Background

At present, an L ED lamp strip placement machine is a device for placing L ED lamp beads and a resistor element on a L ED lamp strip circuit board coated with solder paste, generally, L ED lamp beads and the resistor are arranged at intervals, L ED lamp strip circuit board is a flexible circuit board formed by compounding multiple layers of plastic films and hollowed-out copper foils, the hollowed-out shapes of the copper foils form specific circuits, the plastic films are used for separating the hollowed-out copper foils of all layers or used for enhancing the overall tensile property of L ED lamp strip circuit board, L ED lamp strip circuit board is generally 250 mm wide, the length is generally 50 m or 100 m, L ED lamp strip circuit board is longitudinally cut into strips with the width of 8 mm or 10 mm or 12 mm and other industry standard specifications, only a small part is connected between every two strips at intervals, L ED lamp strip circuit board needs to be torn apart after being placed on a patch, and finally manufactured into L ED lamp strips on the market after being torn.

The L ED lamp strip chip mounter in the prior art is provided with four sets of component mounting heads, the four sets of component mounting heads are arranged on the same cross beam, specifically, two sets of component mounting heads are arranged in front of each other and behind each other, each set of component mounting head is driven by an independent driving module, the two sets of component mounting heads positioned on the same side are respectively used for mounting L ED lamp beads or resistors, each driving module is a linear driving device consisting of a servo motor and a ball screw pair, each set of component mounting head is correspondingly provided with a component supply device, the middle part of the L ED lamp strip chip mounter in the prior art is provided with a L ED lamp strip circuit board conveying device, the L ED lamp strip mounter in the prior art is respectively provided with two sets of component mounting heads on the front side and the back side of the cross beam and aims to enable mounting specifications to be converted quickly, for example, the component mounting heads on the front side of the cross beam correspond to circuit boards with circuit strips L LED lamp strips with the width of 10 mm, the component mounting heads on the back side of the cross beam correspond to mount circuit boards with the LED lamp strips with the width of 12, and another LED lamp strip mounting head can mount components with the other specifications of the other cross beam and mount components of the ED lamp strips and mount devices with.

During the mounting process, the L ED light strip circuit board is stationary, after the L ED light strip circuit board is mounted for 1 meter, the L ED light strip circuit board conveying device conveys the L ED light strip circuit board forward for 1 meter, the component mounting head walks back and forth at the position of the component supply device and the position of the L ED light strip circuit board, the component mounting head mounts the component at the specific position of the L ED light strip circuit board, the beam moves forward for a certain distance, so that the component mounting head returns to the L ED light strip circuit board again to mount the component at the next position, since the distance moved by the beam each time is related to the specific circuit of the L ED light strip circuit board, generally, one L ED lamp bead is mounted every 8 mm or 16 mm, only the component mounting head at the front side works at the working time or the component mounting head at the rear side works, both cannot work at the same time, otherwise, only the mounting machine with one side component mounting head at the same time can produce L ED light strips at the same specification at the same time, and therefore, the mounting efficiency is low.

Disclosure of Invention

An object of the utility model is to overcome prior art's not enough, provide a duplex position L ED lamp area chip mounter, it is favorable to improving production efficiency.

The purpose of the utility model is realized by the following technical scheme.

The utility model discloses a duplex position L ED lamp area chip mounter includes frame, L ED lamp area circuit board conveyor, component feeding device, component unwinding device and component mounting head, the component feeding device is equipped with a plurality of flies to reach, wherein, including main mobile device, main mobile device is equipped with the portal frame, the portal frame is installed two sets of left and right sides axle drive module, two sets of left and right sides axle drive module bilateral symmetry and is arranged, every set of left and right axle drive module all linear drive is connected with left and right axle extension board, left and right axle extension board and portal frame sliding connection, every left and right axle extension board all installs two sets of upper and lower axle drive modules, every set of upper and lower axle drive module all linear drive is connected with upper and lower axle extension board, upper and lower axle extension board sliding connection with left and right axle extension board sliding connection, every upper and lower axle all fixed mounting head has the component mounting head, the component feeding device is installed to the left portion and right portion of the component feeding device, two sets of components feeding device with the component mounting head is located the component mounting head, main mobile device is equipped with the front and back drive circuit board of portal frame, the front and back drive module is equipped with the lower side of portal frame, the mount device is equipped with the front and back drive module, portal frame drive the mount drive circuit board, portal frame front and back drive module are equipped with the crotch drive module, the mount drive module, the mount drive module is equipped with the mount drive circuit board, the mount device is equipped with the front and the mount the front and back drive circuit board, the front and rear drive module, the mount device, the mount the.

Preferably, the first fixed mounting of component subsides has the pole fixed block of inhaling, it is formed with a plurality of equidistant through-holes of arranging to inhale the pole fixed block, and each through-hole adaptation fixed mounting has the pole of inhaling that is used for absorbing or releasing the paster component respectively.

Preferably, the suction stem is equipped with the spacer ring groove and is used for preventing the suction nozzle pivoted spacing steel ball of suction stem, the downside fixed mounting of suction stem fixed block has the spacer, every suction stem the spacer ring groove all with the spacer ring adaptation is leaned on and is leaned on the setting, suction stem fixed block fixed mounting has colludes the form clamp plate, collude the form clamp plate and include inclined plane portion and pressure plate portion, inclined plane portion with the pressure plate portion forms 79 to 81 acute angles, inclined plane portion and corresponding the surface of suction stem fixed block forms 9 to 10 acute angles, compression screw is installed to suction stem fixed block spiro union, compression screw passes inclined plane portion, the tip edge of pressure plate portion is leaned on spacing steel ball.

Preferably, the component supplying device is provided with a feeder fixing seat, the feeder fixing seat is fixedly provided with a plurality of sliding groove blocks, the feeder fixing seat is formed with an upper positioning round hole and a lower positioning long hole, the feeder sliding rail portion of the feeder is in sliding buckling connection with the sliding groove blocks, and the feeder positioning cylinders of the feeder are respectively inserted into the upper positioning round hole and the lower positioning long hole.

Preferably, both sides of the rear end of the L ED lamp strip circuit board conveying device are fixedly connected with swing arm support plates respectively, the swing arm support plates are pivoted with swing arms, the swing arms are rotatably connected with compression rollers, and the compression rollers can be pressed on a conveying flat belt of the L ED lamp strip circuit board conveying device through self gravity.

Preferably, the upper and lower shaft support plates have upper and lower shaft nut seats fixedly mounted on back surfaces thereof for mounting and connecting ball nuts of the upper and lower shaft driving modules, and the upper and lower shaft support plates further include tension springs, upper ends of the tension springs are fixedly connected to the left and right shaft support plates, and lower ends of the tension springs are fixedly connected to the upper and lower shaft support plates.

Preferably, the left side and the right side of the base are fixedly provided with the object placing platforms.

Compared with the prior art, the utility model has the advantages that the utility model discloses a main mobile device is equipped with the portal frame, the portal frame is installed two sets of left and right sides axle drive module, two sets of left and right sides axle drive module bilateral symmetry arrange, every set of left and right sides axle drive module all linear drive is connected with left and right axle extension board, left and right axle extension board and portal frame sliding connection, every left and right axle extension board all installs two sets of upper and lower axle drive module, every set of upper and lower axle drive module all linear drive is connected with upper and lower axle extension board, upper and lower axle extension board and left and right axle extension board sliding connection, every upper and lower axle extension board all fixed mounting has the component head, portal frame left part and right part all installs the component feeding device, portal frame left part and right part all install component unwinding device, main mobile device is equipped with front and rear axle drive module, front and rear axle drive module installs on the frame, the left end portion and front and rear axle guide rail of frame all fixed mounting have the crotch, front and rear axle drive module linear drive connects lower side light strip, portal frame right-hand side and front and rear drive device pass through the LED light string, the LED light string device, the utility model discloses a 3632 LED light string is installed in two sets of the LED light string, the LED light string is favorable to pass through the LED light string on the portal frame, the LED light string that the portal frame drives the LED light string that the LED.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the main moving device of the present invention.

Fig. 3 is a left side view schematic diagram of the upper and lower shaft driving modules and the upper and lower shaft support plate mounting structure of the present invention.

Fig. 4 is a schematic perspective view of the component mounting head of the present invention.

Fig. 5 is an enlarged view of fig. 4 at a.

Fig. 6 is a sectional view of the component mounting head of the present invention.

Fig. 7 is a cross-sectional view showing another installation method of the suction rod of the present invention.

Fig. 8 is a perspective view of the mounting structure of the upper and lower shaft driving modules and the upper and lower shaft support plates of the present invention.

Fig. 9 is a schematic view of the connection structure of the extension spring, the left and right axle support plates, and the upper and lower axle support plates of the present invention.

Fig. 10 is a schematic perspective view of the component supply apparatus according to the present invention.

Fig. 11 is a schematic view of a three-dimensional structure of the present invention.

Fig. 12 is an enlarged view of fig. 10 at B.

Fig. 13 is an enlarged view of fig. 11 at C.

Fig. 14 is a schematic perspective view of the L ED lamp strip circuit board conveying device of the present invention.

Fig. 15 is a front view structure diagram of the L ED lamp strip circuit board conveying device of the present invention.

Fig. 16 is a cross-sectional view taken along line D-D of fig. 15.

Fig. 17 is a schematic perspective view of the base of the present invention.

Fig. 18 is a schematic view of the component reel.

The number specification includes 1-machine base, 101-rectangular tube frame, 102-guide rail mounting plate, 103-rear mounting plate, 104-front mounting plate, 105-middle mounting plate, 11-front and rear shaft guide rail, 13-object placing platform, 2-L ED lamp strip circuit board conveying device, 21-driving roller, 22-driven roller, 23-conveying servo motor, 24-conveying flat belt, 29-compression roller, 2901-swing arm, 2902-swing arm support plate, 3-main moving device, 31-front and rear shaft driving module, 32-left and right shaft driving module, 33-upper and lower shaft driving module, 34-portal frame, 3401-lower fork, 35-left and right shaft support plate, 36-upper and lower shaft support plate, 3601-upper and lower shaft nut seat, 37-stretching spring, 4-element supply device, 41-feeder fixed seat, 4101-sliding groove block, 4102-upper positioning round hole, 4103-lower positioning long hole, 42-feeder sliding rail, steel part, 996302-positioning steel plate, 5-element unreeling device, 4101-groove block, 4202-upper positioning round hole, 4103-lower positioning ring, 6402-positioning ring groove, 6402-holding screw, 6402-holding ring positioning ring, 6405-holding ring for sucker element, 6405-holding ring, 6402-holding ring positioning device, 6405-holding ring, 6402-holding ring groove for steel bar, 6405-holding element, 6402-holding ring, 6402-holding ring for holding element, and the like positioning device, and the like positioning ring groove for the like elements.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The double-station L ED light strip chip mounter described in the present embodiment is, as shown in fig. 1, including a base 1, a L ED light strip circuit board conveying device 2, a component feeding device 4, a component unreeling device 5, and a component mounting head 6, the component feeding device 4 is provided with a plurality of flying heads 42, as shown in fig. 12 and 16, a driving roller 21 is provided at a front end of the L ED light strip circuit board conveying device 2, a driven roller 22 is provided at a rear end of the L ED light strip circuit board conveying device 2, the driving roller 21 and the driven roller 22 are sleeved with a flat conveyor belt 24, it is noted that, in each drawing, only fig. 16 schematically shows the flat conveyor belt 24, the flat conveyor 24 is tensioned by the driving roller 21 and the driven roller 22, the conveyor servo motor 23 is connected to the driving roller 21 by a synchronous belt drive, a 56 ED light strip is placed on the flat conveyor 24, the flat conveyor 24 drives the flat conveyor L ED circuit board to move by friction force, the moving speed is 5 meters/minute of the flying heads 42 in a whole chip mounting row of the chip, the chip mounter is a vending machine, the chip mounting line, the chip mounting machine is a chip mounting machine, the chip mounting components, the chip mounting machine is generally, the chip mounting machine is a chip mounting components, the chip mounting machine is a chip mounting machine, the chip mounting machine is provided with no chip mounting components, the components of a plurality of steel ball mounting head is provided with no chip mounting head 6404, the components 645, the components are mounted on the components, the components are mounted on the components, the components mounted on the components, the chip mounting head mounting.

The front and rear shaft driving module 31, the left and right shaft driving module 32, and the upper and lower shaft driving module 33 are standard components sold in the market, and they are linear driving devices composed of servo motors and ball screw pairs, and only their specification models are different.

As shown in fig. 1 and fig. 2, the present embodiment further includes a main moving device 3, the main moving device 3 is provided with a portal frame 34, where the portal frame 34 is a door frame, the portal frame 34 is provided with two sets of left and right axis driving modules 32, the two sets of left and right axis driving modules 32 are arranged in bilateral symmetry, each set of left and right axis driving modules 32 is linearly and drivingly connected with a left and right axis support plate 35, the left and right axis support plates 35 are slidably connected with the portal frame 34 through a pair of linear guide rails, as shown in fig. 4 and fig. 8, each set of left and right axis support plates 35 is provided with two sets of up and down axis driving modules 33, each set of up and down axis driving modules 33 is linearly and drivingly connected with an up and down axis support plate 36, and the up and down axis support plates 36 are slidably connected; each of the upper and lower shaft support plates 36 is fixedly mounted with the component mounter 6.

As shown in fig. 1, the component supply device 4 is installed on both left and right portions of the gantry 34, and the component unwinding device 5 is installed on both left and right portions of the gantry 34. The component supply device 4 and the component unreeling device 5 are located on the same side as the component mounting head 6, and are both located on the front side of the gantry 34 located in front as viewed in fig. 1. The main moving device 3 is provided with a front-rear shaft driving module 31, the front-rear shaft driving module 31 is installed on the machine base 1, a front-rear shaft guide rail 11 is fixedly installed at the left end part and the right end part of the machine base 1, the portal frame 34 is connected with the front-rear shaft guide rail 11 in a sliding mode, the lower side face of the portal frame 34 is fixedly provided with a lower fork frame 3401, and the front-rear shaft driving module 31 is in linear driving connection with the lower fork frame 3401.

The number of the main moving devices 3 is two, the two main moving devices 3 are symmetrically arranged in front and back, the number of the L ED lamp strip circuit board conveying devices 2 is two, the two L ED lamp strip circuit board conveying devices 2 are arranged on the upper side face of the middle of the base 1 side by side, the L ED lamp strip circuit board conveying devices 2 penetrate through a square hole formed by the lower fork frame 3401 and the portal frame 34, and the front-rear shaft driving module 31 is arranged below the middle of the two L ED lamp strip circuit board conveying devices 2, so that the front-rear shaft driving module 31 is shielded by the L ED lamp strip circuit board conveying devices 2 in the view of figure 1.

The principle of the embodiment is briefly described, the function of the flying reach 42 has been described above, which is not described herein, the control system controls the L ED light tape and circuit board conveying device 2 to respectively transfer two L ED light tape circuit boards of different specifications to respective corresponding mounting stations and then stop, it should be noted that only one of the two sets of up-and-down shaft driving modules 33 mounted on the same left and right shaft support boards 35 is in operation, the other set is in standby for another mounting specification, the up-and-down shaft driving module 33 on the left side of the front main moving device 3 drives the corresponding component mounting head 6 to move downward, the component mounting head 6 sucks the L ED light bead on the flying reach 42 of the left front component supply device 4 through the suction rod 64 after the component mounting head 6 moves up with the light bead L bead on the light tape, then the component mounting head 6 drives the corresponding component mounting head 6 to move upward with the light bead L, the light bead 64 on the light tape and the light bead 638 on the left side of the left front and right shaft drive the light tape mounting head 6 to move forward through the light tape mounting head 638, the light tape mounting head 636 to move forward mounting head 638 to move forward after the light tape mounting head 636, the light tape mounting head 636 is moved forward, the light tape mounting head 6 and the light tape mounting head 6, the light tape mounting module before the light tape mounting module, the light tape mounting module moves forward mounting module, the light tape mounting head 6 to move forward, the light tape mounting module before the light tape mounting module, the light tape mounting modules 6 to move forward, the light tape mounting modules 6 to move forward, the right after the light tape mounting modules, the light tape mounting modules 6 to move forward, the lighting tape mounting modules, the lighting tape mounting devices 6 to move forward, the lighting tape mounting modules 6 to move forward, the lighting tape mounting modules, the lighting.

In addition, the gantry 34 structure of the embodiment is beneficial to arranging two sets of L ED lamp strip circuit board conveying devices 2 side by side, is beneficial to corresponding arrangement of subsequent process equipment on the same production line with the embodiment, and is beneficial to saving the space of a workshop.

Further, as shown in fig. 3, 4 and 7, the element mounting head 6 is fixedly provided with a suction rod fixing block 61, the suction rod fixing block 61 is formed with a plurality of through holes arranged at equal intervals, each through hole is respectively and fixedly fitted with a suction rod 64 for sucking or releasing a patch element, as shown in fig. 7, each suction rod 64 can be locked by a positioning screw 66, since the minimum diameter of the rod body of the suction rod 64 on the market is 8 mm, when the arrangement interval is larger than 8 mm, for example, when 10 mm interval, the shaft circlips 6405 of the adjacent suction rods 64 cannot interfere with each other, so the mounting mode shown in fig. 7 can be directly adopted. In the prior art, each suction rod 64 is independently inserted into a support, and then is fixedly mounted on an upper shaft support plate and a lower shaft support plate (which are different from the upper shaft support plate and the lower shaft support plate 36 in the embodiment) through the support, in this way, although the distance between each suction rod 64 can be finely adjusted, in actual operation, the adjustment is very inconvenient, because the distance needs to be measured and fixed at the same time, mounting errors are accumulated, and as a result, the relative position of each suction rod 64 and the relative position of each flight arrival 42 are difficult to correspond; this embodiment adopts the mode of the unified installation of suction rod 64 of suction rod fixed block 61, is favorable to utilizing the machining precision of suction rod fixed block 61 in order to guarantee the relative position and the interval precision of each suction rod 64, and because the interval of suction rod 64 is generally exactly 10 millimeters or 12 millimeters or 16 millimeters several kinds of circumstances, so set up like this and be favorable to making several sets of different specifications with suction rod fixed block 61 and suction rod 64, whole set of change when needing to change the specification, be favorable to improving work efficiency.

In some embodiments, as shown in fig. 4 to 6, the suction rod 64 is provided with a positioning ring groove 6401 and a limiting steel ball 6403 for preventing the rotation of the suction nozzle 6404 of the suction rod 64, a positioning plate 62 is fixedly mounted on the lower side surface of the suction rod fixing block 61, the positioning ring groove 6401 of each suction rod 64 is in fit abutment with the positioning plate 62, the suction rod fixing block 61 is fixedly mounted with a hook-shaped pressing plate 63, the hook-shaped pressing plate 63 comprises a slope part 6301 and a pressing plate part 6302, the slope part 6301 forms an acute angle of 79 ° to 81 ° with the pressing plate part 6302, the slope part 6301 forms an acute angle of 9 ° to 10 ° with the surface of the corresponding suction rod fixing block 61, the suction rod fixing block 61 is threadedly mounted with a pressing screw 65, the pressing screw 65 penetrates through the slope part 6301, and the edge of the end of the pressing plate part 6302 abuts against the limiting steel ball 6403, which can be used when the arrangement pitch of the suction rods 64 is required to be, the suction rods 64 are abutted so that the circlip 6405 for the shaft of the suction rod 64 and the wire retaining ring 6406 for the shaft need to be removed or interfered with each other, in which case the suction rod 64 may be fixed by hot melt adhesive to prevent the suction rod 64 from rotating. Through the arrangement, the hook-shaped pressing plate 63 can replace the function of an original shaft steel retainer ring 6406, and the positioning plate 62 replaces the function of an original shaft elastic retainer ring 6405, so that the suction rod 64 sold in the market can adapt to the use condition of 8 mm intervals, and the suction rod 64 can be prevented from being customized and processed to cause cost rise.

Further, as shown in fig. 10 to 13, the component supplying apparatus 4 is mounted with a feeder holder 41, the feeder holder 41 mainly comprises two aluminum alloy plates fixedly connected vertically, a plurality of sliding groove blocks 4101 are fixedly mounted on the feeder holder 41, the sliding groove blocks 4101 are provided with T-shaped grooves, the feeder holder 41 is formed with an upper positioning round hole 4102 and a lower positioning long hole 4103, a feeder rail portion 4201 of the feeder 42 is slidably engaged with the sliding groove blocks 4101, and a feeder positioning column 4202 of the feeder 42 is inserted into the upper positioning round hole 4102 and the lower positioning long hole 4103, respectively. The fixed seats of the flies in the prior art are split, that is, each fly 42 is independently installed on the corresponding fly fixed seat and then respectively fixed on the seat body of the element supply device 4, the fixing mode of the flies 42 in the prior art is time-consuming when the distance needs to be adjusted, and the installation height of each fly 42 is difficult to be ensured to be consistent, which is not beneficial to the suction rod 64 to suck patch elements; the integrated feeder fixing base 41 of the embodiment is beneficial to ensuring the positioning accuracy of each feeder 42 through the processing accuracy of the integrated feeder fixing base, and is beneficial to replacing the feeder fixing base 41 with other interval specifications when the interval needs to be adjusted, so that the working efficiency is improved.

In some embodiments, as shown in fig. 15 and 16, swing arm supporting plates 2902 are fixedly connected to two sides of the rear end of the L ED light strip circuit board conveying device 2, the swing arm supporting plates 2902 are pivoted with swing arms 2901, the swing arms 2901 are rotatably connected with pressing rollers 29, the pressing rollers 29 can press the flat conveying belt 24 of the L ED light strip circuit board conveying device 2 through self gravity, the pressing rollers 29 are arranged at the rear end of the L ED light strip circuit board conveying device 2 because no component is mounted on the L ED light strip circuit board at the position, and by arranging the pressing rollers 29, the friction force between the L ED light strip circuit board and the flat conveying belt 24 can be increased, which is beneficial to preventing the L ED light strip circuit board from slipping, and is beneficial to improving the positioning accuracy of the ED L ED.

Further, as shown in fig. 9, the back of the upper and lower shaft support plate 36 is fixedly provided with an upper and lower shaft nut seat 3601 for installing and connecting the ball nut of the upper and lower shaft driving module 33, and further includes an extension spring 37, the upper end of the extension spring 37 is fixedly connected with the left and right shaft support plate 35, and the lower end of the extension spring 37 is fixedly connected with the upper and lower shaft support plate 36, specifically, the left and right shaft support plate 35 and the upper and lower shaft support plate 36 are respectively and fixedly provided with a pin shaft, and both ends of the extension spring 37 are actually hung on the pin shaft, it should be noted that only fig. 9 schematically shows the extension spring 37 in the drawing, by such arrangement, the extension spring 37 can provide an upward pulling force to the component mounting head 6, so that the gravity load when the upper and lower shaft driving module 33 lifts the component mounting head 6 is favorably reduced, and the operation speed of the upper and.

Further, as shown in fig. 1, the left and right sides of the base 1 are fixedly provided with the object placing platforms 13, and the arrangement of the object placing platforms 13 facilitates the placement of tools or measuring tools for operators.

Further, as shown in fig. 17, the base 1 may be welded by a rectangular steel pipe to form a rectangular pipe frame 101, the rectangular pipe frame 101 is welded with a guide rail mounting plate 102 for mounting the front and rear axle guide rails 11, and the rectangular pipe frame 101 is welded with a rear mounting plate 103, a front mounting plate 104 and a middle mounting plate 105 for mounting the front and rear axle driving modules 31 and the L ED lamp strip circuit board conveying device 2.

Claims (7)

1. A double-station L ED lamp strip chip mounter comprises a base (1), a L ED lamp strip circuit board conveying device (2), a component supply device (4), a component unreeling device (5) and a component mounting head (6), wherein the component supply device (4) is provided with a plurality of booms (42), the double-station L ED lamp strip chip mounter is characterized by comprising a main moving device (3), the main moving device (3) is provided with a portal frame (34), the portal frame (34) is provided with two sets of left and right shaft driving modules (32), the two sets of left and right shaft driving modules (32) are arranged in bilateral symmetry, each set of left and right shaft driving module (32) is in linear driving connection with a left and right shaft supporting plate (35), the left and right shaft supporting plates (35) are in sliding connection with the portal frame (34), each left and right shaft supporting plate (35) is provided with two sets of upper and lower shaft driving modules (33), each set of upper and lower shaft driving module (33) is in linear driving connection with an upper and lower shaft supporting plate (36), and the upper and lower shaft supporting plates (36) are in sliding connection with the left and right;

the component feeding device (4) is mounted on the left portion and the right portion of the portal frame (34), the component unwinding device (5) is mounted on the left portion and the right portion of the portal frame (34), the component feeding device (4) and the component unwinding device (5) are located on the same side with the component mounting head (6), the main moving device (3) is provided with a front-rear shaft driving module (31), the front-rear shaft driving module (31) is mounted on the machine base (1), a front-rear shaft guide rail (11) is fixedly mounted on the left end portion and the right end portion of the machine base (1), the portal frame (34) is in sliding connection with the front-rear shaft guide rail (11), a lower fork frame (3401) is fixedly arranged on the lower side face of the portal frame (34), and the front-rear shaft driving module (31) is in linear driving connection with the lower fork frame (3401);

the number of the main moving devices (3) is set to two, the two main moving devices (3) are symmetrically arranged front and back, the number of the L ED lamp strip circuit board conveying devices (2) is set to two, the two L ED lamp strip circuit board conveying devices (2) are arranged on the upper side face of the middle part of the machine base (1) side by side, and the L ED lamp strip circuit board conveying devices (2) penetrate through a square hole formed by the lower fork frame (3401) and the portal frame (34) in a surrounding mode.

2. The double-station L ED lamp strip placement machine according to claim 1, wherein the component placement head (6) is fixedly provided with a suction rod fixing block (61), the suction rod fixing block (61) is formed with a plurality of through holes arranged at equal intervals, and each through hole is respectively and fixedly provided with a suction rod (64) for sucking or releasing a patch component.

3. The double-station L ED lamp strip placement machine according to claim 2, wherein the suction rod (64) is provided with a positioning ring groove (6401) and a limiting steel ball (6403) for preventing a suction nozzle (6404) of the suction rod (64) from rotating, a positioning plate (62) is fixedly mounted on the lower side surface of the suction rod fixing block (61), the positioning ring groove (6401) of each suction rod (64) is matched and attached to the positioning plate (62), a hook-shaped pressing plate (63) is fixedly mounted on the suction rod fixing block (61), the hook-shaped pressing plate (63) comprises an inclined surface portion (6301) and a pressing plate portion (6302), the inclined surface portion (6301) and the pressing plate portion (6302) form an acute angle of 79-81 degrees, the inclined surface portion (6301) and the corresponding surface of the suction rod fixing block (61) form an acute angle of 9-10 degrees, a pressing screw (65) is mounted on the suction rod (61), the pressing screw (65) passes through the pressing plate portion (6301), and the end of the limiting steel ball (6403) is attached to the end of the inclined surface of the pressing rod fixing block (6302).

4. The double-station L ED lamp strip placement machine according to claim 1, wherein the component supply device (4) is provided with a feeder holder (41), the feeder holder (41) is fixedly provided with a plurality of sliding groove blocks (4101), the feeder holder (41) is formed with an upper positioning round hole (4102) and a lower positioning long hole (4103), a feeder sliding rail portion (4201) of the feeder (42) is slidably fastened with the sliding groove blocks (4101), and feeder positioning cylinders (4202) of the feeder (42) are respectively inserted into the upper positioning round hole (4102) and the lower positioning long hole (4103).

5. The double-station L ED lamp strip chip mounter according to claim 1, wherein swing arm support plates (2902) are fixedly connected to two sides of the rear end portion of the L ED lamp strip circuit board conveying device (2), the swing arm support plates (2902) are pivoted with swing arms (2901), the swing arms (2901) are rotatably connected with press rollers (29), and the press rollers (29) can press on a conveying flat belt (24) of the L ED lamp strip circuit board conveying device (2) through self gravity.

6. The double-station L ED lamp strip placement machine according to claim 1, wherein the upper and lower shaft support plates (36) are fixedly provided at their back surfaces with upper and lower shaft nut holders (3601) for mounting and connecting ball nuts of the upper and lower shaft driving modules (33), and further comprising tension springs (37), the upper ends of the tension springs (37) are fixedly connected with the left and right shaft support plates (35), and the lower ends of the tension springs (37) are fixedly connected with the upper and lower shaft support plates (36).

7. The double-station L ED lamp strip placement machine according to claim 1, wherein the left and right sides of the base (1) are fixedly provided with object placing platforms (13).

Images