CN211110271U - Processing system for light bar fitting - Google Patents

Abstract

The utility model discloses a system of processing for lamp strip laminating. The processing system includes: the device comprises a feeding mechanism, a testing mechanism, a fitting mechanism and a second feeding device; the feeding mechanism comprises a first feeding device and a material tray, and the first feeding device is used for taking out the light bars in the material tray so as to feed the light bars; the testing mechanism comprises a rotary disc and a first testing assembly, wherein a discharging groove is formed in the rotary disc and used for receiving the light bar taken out by the first feeding device; the first testing assembly is used for connecting the light bar on the rotary disc with a power supply when the light bar rotates to a first preset position along with the rotary disc so as to detect whether the light bar normally emits light; the second feeding device is used for transmitting the qualified lamp strips detected by the testing mechanism to a position close to the laminating mechanism, the laminating mechanism is used for setting glue on the surface of the lamp strips, and the second feeding device is used for setting the glued lamp strips to be pasted on a preset workpiece. Through the scheme, the qualified lamp strips can be quickly and efficiently attached to the preset workpiece, so that the machining efficiency is improved.

Description

Processing system for light bar fitting

Technical Field

The utility model relates to an automation equipment technical field, in particular to a system of processing for lamp strip laminating.

Background

In the production of display panels, L EDs are usually used as a backlight source, and L EDs are usually made into a light bar, and then the light bar is attached to a display frame so that the light bar is aligned with the side surface of a light guide plate, and the light bar is guided by the light guide plate to form a surface light source.

In the existing production process, the lamp strip is lighted on to detect and is pasted and establish the lamp strip to the display frame, and manual operation is generally adopted, so that the production efficiency of the display panel is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a system of processing for lamp strip laminating to solve among the prior art lamp strip and show that the frame subsides establish the problem of inefficiency.

In order to solve the technical problem, the utility model discloses a technical scheme be: a processing system for light bar fitting is provided, the processing system comprising:

the feeding mechanism comprises a first feeding device and a material tray, wherein the first feeding device is used for taking out the light bars in the material tray so as to feed the light bars;

the testing mechanism comprises a rotary disc and a first testing assembly, wherein a discharging groove is formed in the rotary disc and used for receiving the light bar taken out by the first feeding device; the first testing assembly is arranged adjacent to the rotary disc and used for connecting a light bar on the rotary disc with a power supply when the light bar rotates to a first preset position along with the rotary disc so as to detect whether the light bar normally emits light;

laminating mechanism and second loading attachment, second loading attachment is used for taking out the process the qualified lamp strip that accredited testing organization detected, and will the lamp strip transmits to being close to laminating mechanism's position, laminating mechanism is used for setting up gluing the surface of lamp strip, second loading attachment will set up after gluing the lamp strip subsides and establish to predetermine on the work piece.

In one embodiment of the method of the present invention,

the first testing component comprises a pressing piece which can move towards the direction close to or away from the turntable; the pressing part is provided with a pressing part which is used for abutting against the light bar and being electrically connected with the light bar when the pressing part moves close to the turntable so as to electrically connect the light bar with an external power supply.

In one embodiment, the testing mechanism further comprises a second testing component comprising:

a second driving device;

the first sensing device is connected with the power output end of the second driving device, and the second driving device drives the first sensing device to move along the length direction parallel to the light bar so as to detect the appearance of the light bar.

In one embodiment, a plurality of discharging grooves are arranged on the rotary table, the plurality of discharging grooves are arranged on the side surface perpendicular to the rotary table, and the plurality of discharging grooves are uniformly distributed along the circumferential direction of the rotary table;

each discharging groove is internally provided with an adsorption hole which is communicated with a vacuumizing device so as to be used for adsorbing and fixing the lamp strip in the discharging groove.

In one embodiment, the processing system further comprises a code scanning sensor for identifying the light bar before the first feeding device places the light bar into the discharge chute.

In one embodiment, the feeding mechanism comprises at least two material trays and at least two adjusting components, and the adjusting components are arranged in one-to-one correspondence with the material trays;

the adjustment assembly includes: the two screws are perpendicular to each other, a first thread part and a second thread part with opposite rotation directions are respectively arranged on each screw, two baffles are connected to each screw in a threaded manner, and the two baffles are respectively connected with the first thread part and the second thread part in a threaded manner; when each screw rod rotates, the two baffle plates in threaded connection with the screw rod are pushed to move towards or away from each other so as to position the material tray.

In one embodiment, the attaching mechanism includes: a transmission component and a rubberizing component;

the transmission assembly is used for transmitting the workpiece to a third preset position;

the adhesive tape pasting component is used for pasting a double-sided adhesive tape to a preset area of the light bar; the second feeding device enables the light bar attached with the double-sided adhesive tape to be attached to a preset area of the workpiece, so that the light bar is fixedly bonded with the workpiece through the double-sided adhesive tape.

In one embodiment, the processing system further includes a second sensing device, the second sensing device is disposed adjacent to the third preset position, the second sensing device is configured to detect positions of the light bar and the workpiece to which the double-sided tape is attached, respectively, and the second feeding device adjusts the position of the light bar to which the double-sided tape is attached according to position information of the light bar and the workpiece detected by the second sensing device.

In one embodiment, the taping assembly includes:

the material belt transmission assembly is used for transmitting the material belt with the double-sided adhesive tape;

the material belt pressing and pasting component is arranged on one side, back to the light bar, of the material belt and comprises a stripping block, one end, close to the material belt, of the stripping block is used for pressing one surface of the material belt, and the double-sided adhesive tape on the other surface of the material belt is made to contact the surface of the light bar;

the driving component is used for driving the material belt pressing and pasting component to move relative to the surface of the light bar;

the stripping block inclines towards the moving direction and is in friction fit with one surface of the material belt at least in the moving process of the material belt pressing and pasting assembly relative to the surface of the light bar; and in the process that the material belt pressing and pasting component moves relative to the surface of the light bar, the material belt transmission component drives the material belt pressed and pasted by the material belt pressing and pasting component to peel off the double-sided adhesive tape.

In one embodiment, the transmission assembly comprises:

the two groups of transmission assemblies are arranged in parallel at intervals and are used for driving the workpiece to be transmitted along a preset transmission path;

the jacking component is arranged between the two groups of transmission components, and when the workpiece is transmitted to the position below the third preset position on the transmission components, the jacking component is used for driving the workpiece to ascend so that the workpiece reaches the third preset position

Be different from prior art, the utility model provides a system of processing for lamp strip laminating. The qualified light bar can be quickly identified by carrying out automatic lighting detection on the light bar; the double-sided adhesive tape can be precisely attached to the light bar through the adhesive attaching component, and the light bar can be directly attached to a preset workpiece through the feeding device; therefore, the degree of automation in the whole light bar fitting and assembling process can be improved, and the processing efficiency can be improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural view of a light bar provided by the present invention;

fig. 2 is a schematic structural view of an embodiment of a processing system for light bar lamination according to the present invention;

fig. 3 is a schematic structural diagram of an embodiment of a first testing assembly provided by the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of a second testing assembly provided by the present invention;

FIG. 5 is a schematic diagram of an embodiment of a transfer assembly in the processing system of FIG. 2;

FIG. 6 is a schematic diagram of an embodiment of a taping assembly in the processing system of FIG. 2;

FIG. 7 is a schematic diagram of an embodiment of an adjustment assembly in the processing system of FIG. 2.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Please refer to fig. 1, fig. 1 is a schematic structural diagram of a light bar according to the present invention.

The light bar 400 can include a circuit board 410 and a plurality of L ED lamps 420 arranged on the circuit board at intervals, a lighting area 430 can be arranged on one side of the light bar, the lighting area 430 includes at least two metal sheets, the two metal sheets are respectively connected with the positive and negative electrodes of the L ED lamps 420, and all the L ED lamps 420 can be lighted by connecting the two metal sheets with the positive and negative electrodes of a power supply, wherein the circuit board 410 can be a flexible circuit board (FPC board) or a printed circuit board (PCB board).

In this embodiment, the shape of the light bar is not limited.

The utility model provides a processing system can be used for laminating the equipment to this lamp strip 400.

Please refer to fig. 2, wherein fig. 2 is a schematic structural diagram of an embodiment of a processing system for light bar lamination according to the present invention.

The processing system 10 includes a feeding mechanism 100, a testing mechanism 200, and a bonding mechanism 300.

The feeding mechanism 100 is used for feeding the light bar 400, wherein the feeding mechanism 100 comprises a first feeding device 110 and a tray 120, and the first feeding device 110 is used for taking out the light bar 400 in the tray 120 to transfer the light bar 400 to the testing mechanism 200.

The first feeding device 110 may be a manipulator, and the light bar 400 in the tray 120 is taken out by the manipulator to feed the light bar 400.

The testing mechanism 200 can receive the light bar 400 taken out by the first feeding device 110 and detect the light bar 400.

In particular, the testing mechanism 200 may include a carousel 210 and a first testing component 220. Can set up discharging groove 211 on carousel 210, after first loading attachment 110 takes out lamp strip 400 from the charging tray, can place lamp strip 400 in discharging groove 211, can set up in discharging groove 211 and adsorb the hole, adsorb hole intercommunication evacuating device, consequently through the evacuation adsorption effect, can fix lamp strip 400 in discharging groove 211.

The turntable 210 can rotate 360 ° around its axis, so that when the light bar 400 is placed in the trough 211, it can move synchronously with the rotation of the turntable 210.

The first testing component 220 is disposed in a region adjacent to the first preset position 201 of the turntable 210, and when the light bar 400 moves to the first preset position 201 along with the rotation of the turntable 210, the first testing component 220 can connect the light bar 400 to an external power source, so as to perform a lighting test on the light bar 400, and determine whether the light bar 400 emits light normally.

In this embodiment, the lighting test is performed on the light bar 400 to determine whether the light bar 400 emits light normally, specifically, the light bar 400 is connected to an external power supply to determine whether all L ED lights emit light and whether all L ED lights emit light with substantially the same brightness.

When all L ED lights are illuminated and all L ED lights are substantially the same, it can be said that the light bar 400 is illuminated normally, otherwise the light bar 400 is not illuminated normally.

The detected light bar 400 with abnormal light emission moves to a blanking recovery area along with the rotation of the turntable 210 for recovery; and for the lamp strip 400 which normally emits light, the lamp strip can move to the next station along with the rotation of the turntable 210, and subsequent processing is carried out.

In this embodiment, the first testing component 220 automatically performs lighting detection on the light bar 400 when the light bar 400 enters the first preset position along with the turntable 210.

Referring to fig. 2 and 3, fig. 3 is a schematic structural diagram of an embodiment of a first testing assembly according to the present invention.

The first testing assembly 220 includes a first driving device 221 and a pressing member 222, wherein the pressing member 222 is connected to a power output end of the first driving device 221, and the pressing member 222 can be driven by the first driving device 221 to move toward or away from the turntable 210. The press-fit piece 222 is provided with a press-fit part 223, and the press-fit part 223 can be driven by the first driving device 221 to move towards the direction close to the turntable 210, so that the press-fit part 223 abuts against the lighting area 430 of the light bar 400 and is electrically connected with the light bar 400 through the lighting area 430, and the light bar 400 can be electrically connected with an external power supply through the press-fit part 223.

In order to improve the accuracy of the abutting alignment between the press-connecting part 223 and the lighting area 430 of the light bar 400, a positioning component may be further provided.

The positioning assembly includes a positioning post 224 and a positioning hole 212, wherein the positioning post 224 and the positioning hole 212 can be disposed on the pressing member 222 or the rotating disc 210, respectively.

For example, when the positioning column 224 is disposed on the pressing member 222, the positioning hole 212 is disposed on the turntable 210, and when the positioning column 224 is disposed on the turntable 210, the positioning hole 212 is disposed on the pressing member 222; when the first driving device 221 drives the pressing member 222 to move toward the turntable 210, the positioning posts 224 are gradually inserted into the positioning holes 212, so that the pressing portions 223 and the lighting area 430 can be accurately aligned.

In this embodiment, a plurality of limiting blocks 2111 can be arranged in the discharging groove 211 of the turntable 210, and the limiting blocks 2111 are respectively used for abutting different sides of the light bar 400, so that the setting position of the light bar 400 in the discharging groove 211 is positioned.

In this embodiment, the depth of discharging trough 211 can be less than or equal to the thickness of circuit board 410, and wherein the shape of discharging trough 211 can match with the appearance of lamp strip 400, through setting up lamp strip 400 in this discharging trough 211 to fix a position lamp strip 400.

In this embodiment, after the detection of the light bar 400 is completed and the light bar 400 is detected to be emitting light normally, the turntable 210 further rotates, so as to drive the light bar 400 to the second preset position 202. Wherein a second test assembly 230 is also provided in an area adjacent to the second predetermined location 202. The second testing component 230 is used for performing appearance detection on the light bar 400.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an embodiment of a second testing assembly according to the present invention.

The second testing component 230 includes a second driving device 231 and a first sensing device 232, wherein the first sensing device 232 is connected to a power output end of the second driving device 231, and the second driving device 231 is used for driving the first sensing device 232 to move along a direction parallel to the length direction of the light bar 400, so as to perform appearance detection on the light bar, thereby determining whether the appearance of the light bar 400 is damaged.

If the appearance of the light bar 400 is not damaged, the turntable 210 further rotates, so that the light bar 400 is driven to the next station for subsequent processing.

If the appearance of the light bar 400 is damaged, the turntable 210 further rotates, so that the light bar 400 is driven to the blanking recovery area for recovery.

In this embodiment, the qualified lamp strip 400 after the detection of the first testing component 210 and the second testing component 230 can be subsequently attached and processed by the attaching mechanism 300, and specifically, the lamp strip 400 can be attached to the surface of the preset workpiece by the attaching mechanism 300.

In this embodiment, preset the work piece and can be the display frame, through pasting lamp strip 400 and establish the display frame on, then set up the light guide plate in the display frame for L ED lamp 420's on the lamp strip 400 light emitting area is just to this light guide plate, thereby can turn into the area source with lamp strip 400's light, and then can form display panel's backlight.

Please further refer to fig. 2.

Wherein, system of processing 10 still includes: a second loading device 310 and a laminating mechanism 300. The attaching mechanism 300 comprises a transmission assembly 600 and an adhesive attaching assembly 500;

the transmission assembly 600 is used for transmitting the workpiece to a third preset position, and the rubberizing assembly 500 is used for rubberizing the light bar 400 reaching the third preset position so as to affix a double-sided tape to a preset area of the light bar 400; the second feeding device 310 is configured to grab the light bar 400 that passes through the second preset position 202 and can normally emit light, and transfer the light bar 400 to the third preset position for gluing; after the light bar 400 is glued, the second feeding device 310 is further used for gluing the glued light bar 400 to a preset area of a workpiece.

The second feeding device 310 may also be a robot, and the second feeding device 310 takes out the qualified light bar 400 from the turntable 210, which is detected by the detection mechanism 200. The second feeding device 310 is used for conveying the light bar 400 to a third preset position after the glue is pasted on the light bar 400, and pasting the light bar 400 on a preset workpiece.

Wherein, the position in adjacent third default position can also set up second induction system 540, and second induction system 540 can detect the gluey position of subsides on lamp strip 400, detects the predetermined region on the work piece of predetermineeing simultaneously, and when the gluey of subsides on lamp strip 400 was accurate with the predetermined regional counterpoint of work piece, can adjust the position of lamp strip 400 through second loading attachment 310, then pastes lamp strip 400 accurate the predetermined region of work piece in.

In this embodiment, the adhesive component 500 is used to attach a double-sided adhesive to the light bar 400; in other embodiments, the adhesive dispensing assembly can further comprise a dispensing needle, and the dispensing needle can dispense the adhesive onto the light bar 400.

Specifically, the second sensing device 540 may include two sensors, a first sensor 541 and a second sensor 542. The first sensor 541 and the second sensor 542 may be CCD (Charge-coupled Device) cameras. The first sensor 541 may be installed on a preset moving member, and the moving member may be disposed in parallel along the transmission direction of the transmission assembly 600; the movable member can move in a direction parallel to the transmission direction of the transmission assembly 600, so that the first sensor 541 can be driven to move in a direction parallel to the transmission direction of the transmission assembly 600, and therefore, the first sensor 541 can shoot and identify the workpiece transmitted on the transmission assembly 600, and can detect the position information of the workpiece transmitted on the transmission assembly 600, the position information of the workpiece frame and the like; second inductor 542 can set up in adjacent third default position to can be used for detecting the lamp strip 400 that arrives third default position, wherein second inductor 542 can also detect the positional information of the lamp strip 400 of third default position, and further, after the lamp strip 400 of third default position pasted and established double-sided tape, second inductor 542 also can detect this double-sided tape at the positional information on lamp strip 400.

Therefore, finally, by integrating the position information of the workpiece detected by the first sensor 541 and the position information of the double-sided tape on the light bar 400, the position of the light bar 400 attached with the double-sided tape can be adjusted through the second feeding device 310, so that the double-sided tape on the light bar 400 is aligned with the preset position of the workpiece, and therefore, the light bar 400 can be accurately attached to the preset position of the workpiece.

After the lamp strip 400 is attached to the preset area of the workpiece, the attaching piece of the lamp strip 400 and the workpiece can fall into the transmission assembly 600, and the attaching piece of the lamp strip 400 and the workpiece can be transmitted to the subsequent processing station through the transmission assembly 600.

In this embodiment, referring to fig. 5, the transmission assembly 600 includes two sets of transmission members 610 and a jacking assembly 620, where the two sets of transmission members 610 are arranged in parallel at intervals and used for driving the workpiece to be transmitted along a predetermined transmission path; the two groups of transmission members 610 are provided with transmission belts 611, the two transmission belts 611 are arranged in parallel and at intervals, the lower surfaces of the workpieces can be arranged on the two transmission belts 611 in a lapping mode, and the workpieces can be synchronously transmitted through the transmission belts 611, so that the workpieces can be transported.

When the workpiece is transported to the adjacent third predetermined position, the lifting assembly 620 can lift the workpiece, so that the workpiece is separated from the surface of the conveyor belt 611, and the workpiece reaches the third predetermined position. Therefore, the aforementioned time when the workpiece is transported to the adjacent third predetermined position means that the workpiece is transported to the lower side of the third predetermined position along with the conveyor belt 611.

The jacking component 620 is disposed between the two sets of transmission components 610, and when the workpiece is transmitted to the position below the third preset position on the transmission components 610, the jacking component 620 is used for driving the workpiece to ascend, so that the workpiece is far away from the transmission surface of the transmission components 610, and the workpiece can be transmitted to the third preset position. After the light bar 400 is attached to the workpiece, the attaching part of the light bar 400 and the workpiece falls onto the jacking component 620, and the jacking component 620 can descend, so that the attaching part of the light bar 400 and the workpiece falls onto the transmission component 610 for transmission.

In this embodiment, still be provided with third induction system 710 and transport subassembly 720 on one side of transmission subassembly 600, third induction system 710 can detect the laminating position of lamp strip 400 and work piece, and when detecting that the laminating counterpoint of lamp strip 400 and work piece is inaccurate (i.e. the laminating position of lamp strip 400 on the work piece is inaccurate), transport subassembly 720 then can take out the laminating piece that laminating counterpoint of lamp strip 400 and work piece is inaccurate from transmission subassembly 600, and then carries the waste recovery station and retrieve.

The first sensing device 232 and the third sensing device 710 may also be CCD cameras.

Referring to fig. 6, fig. 6 is a schematic structural diagram of an embodiment of a rubberizing assembly of the processing system shown in fig. 2.

The tape adhering assembly 500 includes a tape transport assembly 510, a tape pressing assembly 520, and a drive assembly 530.

The material belt transmission assembly 510 may include an unwinding roller 511, a winding roller 512 and a plurality of rollers 513, wherein the unwinding roller 511 may unwind the material belt 501 with the double-sided tape, and one end of the material belt 501 unwound by the unwinding roller 511 is wound around the plurality of rollers 513 and then disposed on the winding roller 512, so that the winding roller 512 may be driven by a motor to rotate, thereby transmitting the material belt 501.

The material tape pressing and pasting component 520 is arranged on one side, back to the workpiece, of the material tape 501, the material tape pressing and pasting component 520 comprises a stripping block 521, one end, close to the material tape 501, of the stripping block 521 is used for pressing one side of the material tape 501, and the double-sided adhesive tape on the other side of the material tape 501 contacts the surface of the light bar 400;

the driving component 530 is used for driving the tape 501 pressing component to move relative to the surface of the light bar 400; during the movement of the material tape pressing component 520 relative to the surface of the light bar 400, the peeling block 521 inclines towards the moving direction and is in friction fit with one surface of the material tape 501. Therefore, the strip 501 and the light bar 400 can be scraped through the peeling block 521, so that the double-sided adhesive tape on the strip 501 can be tightly attached to the surface of the light bar 400.

In this embodiment, the material tape 501 may include a double-sided tape and a base film, the base film may be a continuous tape (for example, may be a plastic film), the double-sided tape may be cut into a shape matching with the light bar 400 in advance, and a plurality of double-sided tapes may be sequentially disposed on the base film of the material tape 501 at intervals, where each double-sided tape is used for being attached to one light bar 400. When driving material and pressing subassembly 520 and removing for lamp strip 400 surface, peel off piece 521 and also can remove along lamp strip 400 surface, at this moment, peel off friction fit between piece 521 and the material area 501 one side, consequently, can paste the back of establishing lamp strip 400 with double-sided tape, further drive the base film transmission through wind-up roll 512 and make the base film convolute on wind-up roll 512 to make double-sided tape and base film phase separation.

In this embodiment, when the material pressing and adhering component 520 moves relative to the surface of the light bar 400, so as to press the light bar 400 and the double-sided tape together, the winding roller 512 is in a static state; after the material tape pressing component 520 moves a preset distance (for example, pressing of the light strip 400 and the double-sided tape is completed) relative to the surface of the light strip 400, the winding roller 512 can be triggered to rotate, so that the base film can be wound on the winding roller 512, and the double-sided tape is separated from the base film.

In this embodiment, a fourth sensing device 550 can be further disposed at the position where the adjacent light bars 400 are attached to the double-sided tape, where the fourth sensing device 550 is used to detect the position information of the double-sided tape on the material tape 501, and the second sensor 542 in the second sensing device 540 can also be used to detect the position information of the light bars 400 grabbed by the second feeding device 310, and the position information of the double-sided tape detected by the fourth sensing device 550 and the position information of the light bars 400 grabbed by the second feeding device 310 detected by the second sensor 542 are integrated, so that the second feeding device 310 can adjust the positions of the light bars 400 grabbed by the second feeding device 310, and therefore the light bars 400 grabbed by the second feeding device 310 can be aligned accurately with the double-sided tape.

After the light bar 400 is glued, the winding roller 512 can further wind and recycle the glued material belt 501.

Therefore, qualified light bars can be quickly identified by automatically lighting the light bars; the double-sided adhesive tape can be precisely attached to the light bar through the adhesive attaching component, and the light bar can be directly attached to a preset workpiece through the second feeding device; therefore, the degree of automation in the whole light bar fitting and assembling process can be improved, and the processing efficiency can be improved.

In this embodiment, a plurality of discharging slots 211 as described above may be disposed on the turntable 210, the plurality of discharging slots 211 are disposed on a side surface perpendicular to the turntable 210, and the plurality of discharging slots 211 are uniformly disposed along a circumferential direction of the turntable; therefore, the rotation of the turntable 210 can continuously detect the plurality of light bars 400, so that the detection efficiency of the light bars 400 can be improved.

Further, system of processing 10 is still including sweeping yard sensor 700, sweeps yard sensor 700 and can set up between carousel 210 and charging tray 120, sweeps yard sensor 700 and can be used for taking out the lamp strip after first loading attachment 110 takes out from charging tray 120, and before placing light strip 400 in storing trough 211, right the lamp strip discerns to can discern the identification code on this lamp strip 400, consequently can conveniently carry out the record to the information of lamp strip.

For example, by recognizing the number of the light bar 400, the detection result of the light bar 400 detected by the testing mechanism 200 and the identification code of the light bar 400 can be subjected to information binding, so that each light bar 400 is conveniently tracked and controlled.

Further, in this embodiment, the feeding mechanism 10 includes at least two trays 120 and at least two adjusting assemblies 130, and the adjusting assemblies 130 are disposed in one-to-one correspondence with the trays 120;

referring to fig. 7, fig. 7 is a schematic structural diagram of an embodiment of a conditioning assembly in the processing system shown in fig. 2.

The adjustment assembly 130 includes: the two screw rods 131 and the four baffles 132, the two screw rods 131 are perpendicular to each other, a first thread part 1311 and a second thread part 1312 with opposite rotation directions are respectively arranged on each screw rod 131, the two baffles 132 are screwed on each screw rod 131, and the two baffles 132 are respectively screwed with the first thread part 1311 and the second thread part 1312; when each screw 131 rotates, the two baffles 132 screwed with the screw are pushed to move towards or away from each other so as to position the tray 120.

Therefore, the two baffle plates which are in threaded connection with the screw rod can be driven to move towards or away from each other by rotating one of the screw rods, so that the positioning of the material tray in one direction is realized; similarly, the other screw rod is rotated to realize the positioning in the other vertical direction, so that the positioning requirements of the material tray in two directions vertical to each other can be realized. Through this kind of mode of setting, not only adjustment mechanism's simple structure can satisfy the charging tray location requirement of different specifications moreover to can shorten the charging tray and trade the type time, improve regulation efficiency.

To sum up, the utility model provides a system of processing for lamp strip laminating. The qualified light bar can be quickly identified by carrying out automatic lighting detection on the light bar; the double-sided adhesive tape can be precisely attached to the light bar through the adhesive attaching component, and the light bar can be directly attached to a preset workpiece through the second feeding device; therefore, the degree of automation in the whole light bar fitting and assembling process can be improved, and the processing efficiency can be improved.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A system of processing for light bar fitting, characterized in that, the system of processing includes:

the feeding mechanism comprises a first feeding device and a material tray, wherein the first feeding device is used for taking out the light bars in the material tray so as to feed the light bars;

the testing mechanism comprises a rotary disc and a first testing assembly, wherein a discharging groove is formed in the rotary disc and used for receiving the light bar taken out by the first feeding device; the first testing assembly is arranged adjacent to the rotary disc and used for connecting a light bar on the rotary disc with a power supply when the light bar rotates to a first preset position along with the rotary disc so as to detect whether the light bar normally emits light;

laminating mechanism and second loading attachment, second loading attachment is used for taking out the process the qualified lamp strip that accredited testing organization detected, and will the lamp strip transmits to being close to laminating mechanism's position, laminating mechanism is used for setting up gluing the surface of lamp strip, second loading attachment will set up after gluing the lamp strip subsides and establish to predetermine on the work piece.

2. The processing system of claim 1,

the first testing component comprises a pressing piece which can move towards the direction close to or away from the turntable; the pressing part is provided with a pressing part which is used for abutting against the light bar and being electrically connected with the light bar when the pressing part moves close to the turntable so as to electrically connect the light bar with an external power supply.

3. The tooling system of claim 1, wherein the testing mechanism further comprises a second testing assembly, the second testing assembly comprising:

a second driving device;

the first sensing device is connected with the power output end of the second driving device, and the second driving device drives the first sensing device to move along the length direction parallel to the light bar so as to detect the appearance of the light bar.

4. The processing system according to claim 1, wherein a plurality of said discharge slots are provided on said turntable, each of said plurality of said discharge slots is provided on a side surface perpendicular to said turntable, and said plurality of said discharge slots are uniformly distributed along a circumferential direction of said turntable;

each discharging groove is internally provided with an adsorption hole which is communicated with a vacuumizing device so as to be used for adsorbing and fixing the lamp strip in the discharging groove.

5. The processing system of claim 1, further comprising a code scanning sensor for identifying the light bar prior to the first feeding device placing the light bar into the discharge chute.

6. The processing system according to any one of claims 1 to 5, wherein the feeding mechanism comprises at least two trays and at least two adjusting components, and the adjusting components are arranged in one-to-one correspondence with the trays;

the adjustment assembly includes: the two screws are perpendicular to each other, a first thread part and a second thread part with opposite rotation directions are respectively arranged on each screw, two baffles are connected to each screw in a threaded manner, and the two baffles are respectively connected with the first thread part and the second thread part in a threaded manner; when each screw rod rotates, the two baffle plates in threaded connection with the screw rod are pushed to move towards or away from each other so as to position the material tray.

7. The tooling system of claim 6, wherein the conforming mechanism comprises: a transmission component and a rubberizing component;

the transmission assembly is used for transmitting the workpiece to a third preset position;

the adhesive tape pasting component is used for pasting a double-sided adhesive tape to a preset area of the light bar; the second feeding device enables the light bar attached with the double-sided adhesive tape to be attached to a preset area of the workpiece, so that the light bar is fixedly bonded with the workpiece through the double-sided adhesive tape.

8. The processing system of claim 7, further comprising a second sensing device disposed adjacent to the third preset position, wherein the second sensing device is configured to detect positions of the light bar and the workpiece to which the double-sided tape is attached, respectively, and the second feeding device adjusts the position of the light bar to which the double-sided tape is attached according to the position information of the light bar and the workpiece detected by the second sensing device.

9. The processing system of claim 7, wherein the taping assembly includes:

the material belt transmission assembly is used for transmitting the material belt with the double-sided adhesive tape;

the material belt pressing and pasting component is arranged on one side, back to the light bar, of the material belt and comprises a stripping block, one end, close to the material belt, of the stripping block is used for pressing one surface of the material belt, and the double-sided adhesive tape on the other surface of the material belt is made to contact the surface of the light bar;

the driving component is used for driving the material belt pressing and pasting component to move relative to the surface of the light bar;

the stripping block inclines towards the moving direction and is in friction fit with one surface of the material belt at least in the moving process of the material belt pressing and pasting assembly relative to the surface of the light bar; and in the process that the material belt pressing and pasting component moves relative to the surface of the light bar, the material belt transmission component drives the material belt pressed and pasted by the material belt pressing and pasting component to peel off the double-sided adhesive tape.

10. The processing system of claim 7, wherein the transport assembly comprises:

the two groups of transmission assemblies are arranged in parallel at intervals and are used for driving the workpiece to be transmitted along a preset transmission path;

and the jacking component is arranged between the two groups of transmission components, and when the workpiece is transmitted to the position below the third preset position on the transmission components, the jacking component is used for driving the workpiece to ascend so as to enable the workpiece to reach the third preset position.

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