CN210339484U - FPC tray feeding assembly - Google Patents

Abstract

The utility model discloses a FPC tray feed subassembly for the drive is loaded with FPC's tray automatic feed and is cleaned to FPC wiper mechanism, a serial communication port, include: the first conveying mechanism is used for receiving the tray loaded with the FPC and conveying the tray to a preset station; the tray separating mechanism is used for separating a single tray from the trays which are loaded with the FPC and stacked and placing the tray on the first conveying mechanism; and the first conveying mechanism and the disc distributing mechanism are respectively arranged on the base. Separate single tray from the pile up neatly that is loaded with FPC through the pallet mechanism, the first conveying mechanism of rethread is carried single tray to predetermined station and is waited for cleanly, the utility model discloses the realization is loaded with the automatic feed of FPC tray, and degree of automation is high, compares traditional manual separation tray feed, improves work efficiency.

Description

FPC tray feeding assembly

Technical Field

The utility model relates to a FPC cleaning equipment technical field especially relates to a FPC tray feed subassembly.

Background

FPC (Flexible Printed Circuit Board), also called "FPC Flexible Board", is a Printed Circuit made of a Flexible insulating base material, and has many advantages not possessed by a rigid Printed Circuit Board. For example, the device can be freely bent, wound and folded, can be randomly arranged according to the space layout requirement, and can be randomly moved and stretched in a three-dimensional space, so that the integration of component assembly and wire connection is realized. The FPC flexible board can greatly reduce the volume of electronic products, and is suitable for the development of the electronic products in the directions of high density, miniaturization and high reliability. Therefore, the FPC flexible board is widely applied to the fields or products of aerospace, military, mobile communication, laptop computers, computer peripherals, digital cameras and the like.

However, if dust or static electricity exists on the surface of the FPC, the quality and the service life of the electronic product are affected, and thus the surface of the electronic product needs to be cleaned. At present, generally send into FPC washing station one by one through the manual work with the tray that bears the weight of FPC and clean, such FPC tray feed mode is inefficient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a to above-mentioned current track that will load FPC carries out the pile up neatly, send into FPC wiper mechanism one by one through the manual work with the track that bears FPC again and clean, such track feed mode inefficiency is unfavorable for large-scale FPC's clear problem.

The utility model discloses a following technical scheme realizes: the utility model provides a FPC tray feed subassembly for the drive is loaded with FPC's tray automatic feed and is cleaned to FPC wiper mechanism, includes:

the first conveying mechanism is used for receiving the tray loaded with the FPC and conveying the tray to a preset station;

the tray separating mechanism is used for separating a single tray from the trays which are loaded with the FPC and stacked and placing the tray on the first conveying mechanism;

and the base, the first conveying mechanism, the fixing mechanism and the disc separating mechanism are respectively arranged on the base.

As a further improvement of the above technical solution, the first conveying mechanism includes:

a first translational power source;

a base connected to a power output side of the first translational power source:

the first lifting power source is arranged on the base;

and the first bearing platform is arranged above the base and connected with the power output side of the first lifting power source.

As a further improvement of the above technical solution, the tray separating mechanism includes a fixing mechanism for fixing and positioning the tray which is loaded with the FPC and stacked, a left tray separating mechanism disposed on the left side of the first conveying mechanism, and a right tray separating mechanism disposed on the right side of the first conveying mechanism.

As a further improvement of the above technical solution, the fixing mechanism includes a left fixing mechanism and a right fixing mechanism, and the tray is located between the left fixing mechanism and the right fixing mechanism;

the left fixing mechanism comprises a first mounting seat, a first limiting part and a second limiting part, the first limiting part is arranged on the front side of the first mounting seat, the second limiting part is arranged on the rear side of the first mounting seat, the first limiting part is close to the corner part on the left side of the front end of the FPC tray, and the second limiting part is close to the corner part on the left side of the rear end of the FPC tray;

the right fixing mechanism comprises a second mounting seat, a third limiting portion and a fourth limiting portion, the third limiting portion is located on the front side of the second mounting seat, the fourth limiting portion is located on the rear side of the second mounting seat, the third limiting portion is close to the corner portion on the right side of the front end of the FPC tray, and the fourth limiting portion is close to the corner portion on the right side of the rear end of the tray.

As a further improvement of the above technical solution, the left tray dividing mechanism includes a third mounting seat disposed on the first mounting seat, a first telescopic power source disposed on the third mounting seat, and a first separating and supporting block connected to a power output side of the first telescopic power source, the power output side of the first telescopic power source is horizontally disposed, and the first separating and supporting block is flat;

the right tray dividing mechanism comprises a fourth mounting seat arranged on the second mounting seat, a second telescopic power source arranged on the fourth mounting seat and a second separation supporting block connected with the power output side of the second telescopic power source, the power output side of the second telescopic power source is horizontally arranged, and the second separation supporting block is flat.

As a further improvement of the above technical solution, the first separation supporting block and the second separation supporting block are oppositely disposed inward.

As a further improvement of the above technical solution, the thickness of the first and second separation support blocks is smaller than the distance between adjacent trays in the stack of trays.

As a further improvement of the above technical solution, the fixing device further includes a first length adjustment mechanism for adjusting a dimension of the fixing mechanism in the length direction, and a first total width adjustment mechanism for adjusting a dimension of the fixing mechanism in the width direction.

As a further improvement of the above technical solution, the first length adjustment mechanism includes a first left length adjustment mechanism provided on the first mounting seat, and a first right length adjustment mechanism provided on the second mounting seat;

the first left length adjusting mechanism comprises a first guide rail arranged on the first mounting seat, a first sliding block arranged on the first guide rail and used for guiding the first limiting part to move in the length direction, and a first stopping part connected with the first sliding block and used for fixing the first sliding block at the position of the first guide rail, wherein the first limiting part is arranged at the top of the first sliding block;

first right length adjustment mechanism is including locating second guide rail on the second mount pad, locate on the second guide rail and be used for the guide the spacing portion of third is at the second slider that length direction removed, and with the second slider is connected and is used for fixing the second slider is in the second backstop portion of second guide rail position, the spacing portion of third is located the top of second slider.

As a further improvement of the above technical solution, the first total width adjusting mechanism includes a first width adjusting mechanism disposed on a front side of the first mounting seat and a second width adjusting mechanism disposed on a rear side of the first mounting seat;

the first width adjusting mechanism comprises a third guide rail arranged on the machine base, a third sliding block arranged on the third guide rail and used for guiding the first mounting seat to move in the width direction, a first adjusting plate provided with a first through hole in the width direction, and a first width adjusting piece which penetrates through the first through hole, is connected with the front side of the first mounting seat and is used for fixing the first mounting seat at the position of the third guide rail, and the third sliding block is arranged at the front side of the bottom of the first mounting seat;

second width adjustment mechanism locates including locating the fourth guide rail on the frame on the fourth guide rail and be used for the guide first mount pad is equipped with the second regulating plate that is provided with the second through-hole along width direction at the fourth slider that width direction removed, and passes the second through-hole with the rear side of first mount pad is connected, and is used for fixing first mount pad is in the second width control spare of fourth guide rail position, the fourth slider is located the bottom rear side of first mount pad.

Implement the utility model discloses a beneficial effect includes at least: separate single tray from the pile up neatly that is loaded with FPC through the pallet mechanism, the first conveying mechanism of rethread is carried single tray to predetermined station and is waited for cleanly, the utility model discloses the realization is loaded with the automatic feed of FPC tray, and degree of automation is high, compares traditional manual separation tray feed, improves work efficiency.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the FPC tray feeding assembly of the present invention;

fig. 2 is an exploded view of the first conveying mechanism of an embodiment of the FPC tray feeding assembly of the present invention;

fig. 3 is a schematic structural view of a fixing mechanism of an embodiment of the FPC tray feeding assembly of the present invention;

fig. 4 is a schematic structural diagram of a left tray-dividing mechanism according to an embodiment of the FPC tray feeding assembly of the present invention;

fig. 5 is another schematic structural diagram of the left tray-dividing mechanism according to an embodiment of the FPC tray feeding assembly of the present invention;

fig. 6 is a schematic structural view of a first length adjustment mechanism according to an embodiment of the FPC tray feeding assembly of the present invention;

fig. 7 is a schematic structural view of a first total width adjusting mechanism according to an embodiment of the FPC tray feeding assembly of the present invention;

fig. 8 is a schematic structural diagram of the first width adjustment mechanism and the second width adjustment mechanism of an embodiment of the FPC tray feeding assembly of the present invention.

Reference numerals:

FPC tray feeding assembly-100;

a first conveying mechanism-10; a first translational force source-11; a base-12; a first lifting power source-13; a first receiving table-14;

a disc separating mechanism-110;

-a securing mechanism-120;

a left securing mechanism-121; a first mount 1211; a first limiting portion-1212; a second stopper portion-1213;

right securing mechanism-122; a second mounting base-1221; a third stopper-1222; a fourth stopper-1223;

a left tray separating mechanism-111; a third mount-1111; a first telescopic power source-1112; a first separation support block-1113; transition ramp-1114;

right tray separating mechanism-112;

a first length adjustment mechanism-130;

a first left length adjustment mechanism-131; a first guide rail-1311; a first slider-1312; a first stopper portion-1313; a first connection block-1314;

a first right length adjustment mechanism-132; a second rail-1321; a second slider-1322; a second stop-1323; a second connecting block-1324;

a first total width adjustment mechanism-140;

a first width adjustment mechanism-141; a third guide-1411; a third slider-1412; a first via-1413; a first modulation plate-1414; a first width adjustment member-1415;

a second width adjustment mechanism-142; a fourth rail-1421; a fourth slider-1422; a second via-1423; a second adjustment plate-1424; a second width adjustment-1425;

a third width adjustment mechanism-143; a fourth width adjustment mechanism-144.

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. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, an FPC tray feeding assembly 100 for driving a tray loaded with an FPC to be automatically fed to an FPC cleaning mechanism for cleaning includes: the first conveying mechanism 10 is used for receiving the tray loaded with the FPC and conveying the tray to a preset station; a tray separating mechanism 110 for separating individual trays from the trays loaded with FPCs and stacked and placing them on the first conveying mechanism 10; and a base, and the first conveying mechanism 10 and the tray separating mechanism 110 are respectively provided on the base (not shown).

Referring to fig. 2, the first conveying mechanism 10 includes: the power supply device comprises a first translation power source 11, a base 12 connected with the power output side of the first translation power source 11, a first lifting power source 13 arranged on the base 12, and a first bearing table 14 arranged above the base 12 and connected with the power output side of the first lifting power source 13.

In this embodiment, the number of the first lifting/lowering power sources 13 is two, one first lifting/lowering power source 13 is disposed on the left side of the base 12, the other first lifting/lowering power source 13 is disposed on the right side of the base 12, and the first receiving platform 14 is driven together to lift, the first lifting/lowering power source 13 is an air cylinder manufactured by SMC corporation and having a model number of CDQ2a12-20DM, and the air cylinder is a cylinder that can be implemented by a person having ordinary skill in the art by using the existing technology, and is not a focus of the present application, and will not be described in detail herein.

In the embodiment, the first translational force source 11 is a linear slide module manufactured by taiwan TOYO corporation and having a model number of ETB10-L32-1200-L-M10-E5, which can be implemented by a person skilled in the art by using the existing technology, and is not a focus of the present application and will not be described in detail herein.

Referring to fig. 1 and 3, the tray separating mechanism 110 includes a fixing mechanism 120 for positioning and fixing trays loaded with FPCs and stacked on each other, a left tray separating mechanism 111 disposed on the left side of the first conveying mechanism 10, and a right tray separating mechanism 112 disposed on the right side of the first conveying mechanism 10.

Referring to fig. 1 and 3, the fixing mechanism 120 includes a left fixing mechanism 121 and a right fixing mechanism 122, and the tray is located between the left fixing mechanism 121 and the right fixing mechanism 122;

referring to fig. 1 and 3, the left fixing mechanism 121 includes a first mounting seat 1211, a first limiting portion 1212 disposed at a front side of the first mounting seat 1211, and a second limiting portion 1213 disposed at a rear side of the first mounting seat 1211.

In this embodiment, the tray carrying the FPC is approximately rectangular in shape, the first limiting portion 1212 and the second limiting portion 1213 are approximately L-shaped in shape, the first limiting portion 1212 is close to a corner portion on the left side of the front end of the tray, the second limiting portion 1213 is close to a corner portion on the left side of the rear end of the tray, and the left side of the tray is limited between the first limiting portion 1212 and the second limiting portion 1213.

Referring to fig. 1 and 3, the right fixing mechanism 122 includes a second mounting base 1221, a third limiting portion 1222 disposed at a front side of the second mounting base 1221, and a fourth limiting portion 1223 disposed at a rear side of the second mounting base 1221, the third limiting portion 1222 and the fourth limiting portion 1223 are approximately L-shaped in shape, the third limiting portion 1222 is close to a corner portion of the right side of the front end of the tray, the fourth limiting portion 1223 is close to a corner portion of the right side of the rear end of the tray, and the right side of the tray is limited between the third limiting portion 1222 and the fourth limiting portion 1223.

Referring to fig. 1 and 3, the first limiting portion 1212 and the third limiting portion 1222 are symmetrically disposed at left and right sides, the second limiting portion 1213 and the fourth limiting portion 1223 are symmetrically disposed at left and right sides, and the first limiting portion 1212, the second limiting portion 1213, the third limiting portion 1222 and the fourth limiting portion 1223 cooperate to limit and fix four angles of the tray, so as to prevent the tray stack from falling off obliquely in the process of separating the tray.

Referring to fig. 4 and 5, the left tray separating mechanism 111 includes a third mounting seat 1111 disposed on the first mounting seat 1211, a first telescopic power source 1112 disposed on the third mounting seat 1111, and a first separating support block 1113 connected to a power output side of the first telescopic power source 1112, wherein the power output side of the first telescopic power source 1112 is horizontally disposed, and the first separating support block 1113 is flat;

the right tray separating mechanism 112 comprises a fourth mounting seat arranged on the second mounting seat, a second telescopic power source arranged on the fourth mounting seat, and a second separation supporting block connected with the power output side of the second telescopic power source, wherein the power output side of the second telescopic power source is horizontally arranged, and the second separation supporting block is flat.

Referring to fig. 1, 4 and 5, the right disc separating mechanism 112 and the left disc separating mechanism 111 have the same structure, the right disc separating mechanism 112 and the left disc separating mechanism 111 are arranged in bilateral symmetry, and the first separating support 1113 and the second separating support are arranged in an inward opposite manner.

Referring to fig. 4 and 5, the inner side of the first separation supporting block 1113 is provided with a transition inclined surface 1114, and the inner side of the second separation supporting block is provided with a transition inclined surface 1114, in this embodiment, the transition inclined surface 1114 facilitates the insertion of the first separation supporting block 1113 into the gap between the adjacent tray bundles, and the transition inclined surface 1114 facilitates the insertion of the second separation supporting block into the gap between the adjacent tray bundles.

The thickness of the first spaced apart support blocks 1113 and the second spaced apart support blocks is less than the spacing between adjacent trays in a stack of trays.

Referring to fig. 6 and 7, the FPC tray feeding assembly further includes a first length adjusting mechanism 130 for adjusting the dimension of the fixing mechanism 120 in the length direction, and a first total width adjusting mechanism 140 for adjusting the dimension of the fixing mechanism 120 in the width direction.

Referring to fig. 6, the first length adjustment mechanism 130 includes a first left length adjustment mechanism 131 disposed on the first mounting seat 1211, and a first right length adjustment mechanism 132 disposed on the second mounting seat 1221;

referring to fig. 6, the first left length adjustment mechanism 131 includes a first guide rail 1311 disposed on the first mounting seat 1211, a first sliding block 1312 disposed on the first guide rail 1311 and used for guiding the first limiting portion 1212 to move in the length direction, and a first stop portion 1313 connected to the first sliding block 1312 and used for fixing the first sliding block 1312 at the position of the first guide rail 1311, wherein the first limiting portion 1212 is disposed at the top of the first sliding block 1312;

in this embodiment, the first stopping portion 1313 is a rotating fastener, the first left length adjusting mechanism 131 further includes a first connecting block 1314, the first connecting block 1314 is fixedly connected to the bottom of the first limiting portion 1212, and the first stopping portion 1313 passes through the first connecting block 1314 and is in threaded connection with the first guiding rail 1311; when the first stop portion 1313 is tightened, the first limiting portion 1212 is fixed to the first guide rail 1311, and when the first stop portion 1313 is loosened, the first limiting portion 1212 can slide back and forth on the first guide rail 1311 to adjust the position.

Referring to fig. 6, the first right length adjustment mechanism 132 includes a second guide rail 1321 disposed on the second mounting seat 1221, a second slider 1322 disposed on the second guide rail 1321 and used for guiding the third limiting portion 1222 to move in the length direction, and a second stopper portion 1323 connected to the second slider 1322 and used for fixing the second slider 1322 at the second guide rail 1321, wherein the third limiting portion 1222 is disposed at the top of the second slider 1322.

In this embodiment, the second stopping portion 1323 is a rotating fastener, the first right length adjusting mechanism 132 further includes a second connecting block 1324, the second connecting block 1324 is fixedly connected to the bottom of the third limiting portion 1222, and the second stopping portion 1323 penetrates through the second connecting block 1324 and is in threaded connection with the second guiding rail 1321; when the second stopping portion 1323 is tightened, the third position-limiting portion 1222 is fixed on the second rail 1321, and when the second stopping portion 1323 is loosened, the third position-limiting portion 1222 can be adjusted in position by sliding back and forth on the second rail 1321.

Referring to fig. 7, the first total width adjusting mechanism 140 includes a first width adjusting mechanism 141 disposed on the front side of the first mounting seat 1211 and a second width adjusting mechanism 142 disposed on the rear side of the first mounting seat 1211;

referring to fig. 8, the first width adjustment mechanism 141 includes a third guide rail 1411 disposed on the base, a third slider 1412 disposed on the third guide rail 1411 and used for guiding the first mounting seat 1211 to move in the width direction, a first adjustment plate 1414 disposed with a first through hole 1413 in the width direction, and a first width adjustment member 1415 threaded to the front side of the first mounting seat 1211 through the first through hole 1413 and used for fixing the first mounting seat 1211 at the position of the third guide rail 1411, wherein the third slider 1412 is disposed at the front side of the bottom of the first mounting seat 1211.

Referring to fig. 8, the second width adjustment mechanism 142 includes a fourth guide rail 1421 disposed on the base, a fourth slider 1422 disposed on the fourth guide rail 1421 and used for guiding the first mounting seat 1211 to move in the width direction, a second adjustment plate 1424 disposed with a second through hole 1423 in the width direction, and a second width adjustment member 1425 passing through the second through hole 1423 and connected to the rear side of the first mounting seat 1211 and used for fixing the first mounting seat 1211 at the position of the fourth guide rail 1421, wherein the fourth slider 1422 is disposed at the rear side of the bottom of the first mounting seat 1211.

In this embodiment, the first width adjusting member 1415 and the second width adjusting member 1425 are rotating fasteners, the first width adjusting member 1415 is screwed to fix the front end of the first mounting seat 1211 in the first through hole 1413 of the first adjusting plate 1414, and the second width adjusting member 1425 is screwed to fix the rear end of the first mounting seat 1211 in the second through hole 1423 of the second adjusting plate 1424;

when the position of the first mounting seat 1211 in the width direction needs to be adjusted, the first width adjusting part 1415 and the second width adjusting part 1425 are loosened, the first mounting seat 1211 can move leftward or rightward, the third slider 1412 disposed at the front side of the bottom of the first mounting seat 1211 and the fourth slider 1422 disposed at the rear side of the bottom of the first mounting seat 1211 move leftward or rightward together, and the positions of the first mounting seat 1211 in the first through hole 1413 and the second through hole 1423 are changed, so that the position of the first mounting seat 1211 in the width direction is adjusted.

Referring to fig. 7, in the present embodiment, the first total width adjusting mechanism 140 further includes a third width adjusting mechanism 143 disposed at the front end of the second mounting base 1221 and a fourth width adjusting mechanism 144 disposed at the rear end of the second mounting base 1221, the third width adjusting mechanism 143 and the first width adjusting mechanism 141 are symmetrically disposed in the left-right direction, the fourth width adjusting mechanism 144 and the second width adjusting mechanism 142 are symmetrically disposed in the left-right direction, and the third width adjusting mechanism 143 and the fourth width adjusting mechanism 144 have the same composition structure and the same operation principle.

Referring to fig. 6, the first left length adjustment mechanism 131 is used to adjust the distance between the first position-limiting portion 1212 and the second position-limiting portion 1213, and the first right length adjustment mechanism 132 is used to adjust the distance between the third position-limiting portion 1222 and the fourth position-limiting portion 1223, so as to satisfy trays with different length sizes;

referring to fig. 7 and 8, the position of the first installation seat 1211 in the width direction is adjusted by the first width adjustment mechanism 141 and the second width adjustment mechanism 142, and the position of the second installation seat 1221 in the width direction is adjusted by the third width adjustment mechanism 143 and the fourth width adjustment mechanism 144, so as to adjust the width between the first installation seat 1211 and the second installation seat 1221 to meet the requirements of trays with different widths;

in summary, the size of the fixing mechanism 120 in the length direction can be adjusted by adjusting the first length adjusting mechanism 130, and the size of the fixing mechanism 120 in the width direction can be adjusted by adjusting the first total width adjusting mechanism 140, so that the trays with different sizes can be fixed, and the application range and the scene can be enlarged.

Referring to fig. 1 to 8, the working principle of the present embodiment is as follows:

when the feeding is not started, the first separating support block 1113 of the left tray separating mechanism 111 and the second separating support block of the right tray separating mechanism 112 support the bottom of the tray stack loaded with the FPC together,

firstly, a first translation power source 11 of the first conveying mechanism 10 drives the base 12 to move backwards and position right below a tray stack carrying the FPC;

then, the first lifting power source 13 of the first conveying mechanism 10 lifts upwards to lift the first receiving platform 14;

then, the first telescopic power source 1112 of the left tray-dividing mechanism 111 drives the first separation support block 1113 to move leftward, and the second telescopic power source of the right tray-dividing mechanism 112 drives the second separation support block to move rightward, so that the first separation support block 1113 and the second separation support block are separated from the bottom of the tray stack, and the tray stack falls on the top of the first receiving table 14 due to gravity;

then, the first telescopic power source 1112 of the left tray separating mechanism 111 drives the first separating support block 1113 to move rightward and insert between the bottommost tray of the tray stack and the penultimate tray, the second telescopic power source of the right tray separating mechanism 112 drives the second separating support block to move rightward and insert between the bottommost tray of the tray stack and the penultimate tray, the first separating support block 1113 and the second separating support block support the tray stack above the penultimate tray together, and the bottommost tray falls on the first receiving table 14;

finally, the first lifting power source 13 of the first conveying mechanism 10 descends, and the bottommost tray on the first receiving platform 14 moves to a cleaning station to wait for cleaning under the driving of the first translation power source 11.

Implement the utility model discloses a beneficial effect includes at least:

1. separate single tray from the pile up neatly that is loaded with FPC through the pallet mechanism, the first conveying mechanism of rethread is carried single tray to predetermined station and is waited for cleanly, the utility model discloses the realization is loaded with the automatic feed of FPC tray, and degree of automation is high, compares traditional manual separation tray feed, improves work efficiency.

2. Through adjusting first length adjustment mechanism is adjustable fixed establishment is at the size of length direction, through adjusting first total width adjustment mechanism adjusts fixed establishment is at the size of thickness direction, can realize the fixed of not unidimensional tray, application range and scene expand.

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. An FPC tray feed assembly (100) for driving a tray loaded with FPC from an automatic feed to an FPC washing mechanism for cleaning, comprising:

the first conveying mechanism (10) is used for receiving the tray loaded with the FPC and conveying the tray to a preset station;

a tray separating mechanism (110) for separating individual trays from the tray stack loaded with FPC and stacked and placing on the first conveying mechanism (10);

and the first conveying mechanism (10) and the disc separating mechanism (110) are respectively arranged on the base.

2. The FPC tray feeding assembly (100) according to claim 1, wherein the first conveying mechanism (10) comprises:

a first translational power source (11);

a base (12) connected to a power output side of the first translational force source (11);

a first lifting power source (13) arranged on the base (12);

and a first receiving platform (14) which is arranged above the base (12) and is connected with the power output side of the first lifting power source (13).

3. The FPC tray feeding assembly (100) according to claim 1, wherein said tray distributing mechanism (110) comprises a fixing mechanism (120) for positioning and fixing the trays loaded with FPCs and stacked on each other, a left tray distributing mechanism (111) disposed at the left side of said first conveying mechanism (10), and a right tray distributing mechanism (112) disposed at the right side of said first conveying mechanism (10).

4. FPC tray feeding assembly (100) according to claim 3,

the fixing mechanism (120) comprises a left fixing mechanism (121) and a right fixing mechanism (122), and the tray is positioned between the left fixing mechanism (121) and the right fixing mechanism (122);

the left fixing mechanism (121) comprises a first mounting seat (1211), a first limiting part (1212) arranged on the front side of the first mounting seat (1211), and a second limiting part (1213) arranged on the rear side of the first mounting seat (1211), wherein the first limiting part (1212) is close to the corner on the left side of the front end of the FPC tray, and the second limiting part (1213) is close to the corner on the left side of the rear end of the FPC tray;

the right fixing mechanism (122) comprises a second mounting seat (1221), a third limiting portion (1222) arranged on the front side of the second mounting seat (1221), and a fourth limiting portion (1223) arranged on the rear side of the second mounting seat (1221), wherein the third limiting portion (1222) is close to the corner on the right side of the front end of the FPC tray, and the fourth limiting portion (1223) is close to the corner on the right side of the rear end of the tray.

5. FPC tray feeding assembly (100) according to claim 4,

the left tray separating mechanism (111) comprises a third mounting seat (1111) arranged on the first mounting seat (1211), a first telescopic power source (1112) arranged on the third mounting seat (1111), and a first separating and supporting block (1113) connected with the power output side of the first telescopic power source (1112), wherein the power output side of the first telescopic power source (1112) is horizontally arranged, and the first separating and supporting block (1113) is flat;

the right tray dividing mechanism (112) comprises a fourth mounting seat arranged on the second mounting seat, a second telescopic power source arranged on the fourth mounting seat, and a second separation supporting block connected with the power output side of the second telescopic power source, wherein the power output side of the second telescopic power source is horizontally arranged, and the second separation supporting block is flat.

6. The FPC tray feed assembly (100) of claim 5, wherein the first and second split support blocks (1113) are oppositely disposed inwardly.

7. The FPC tray feed assembly (100) of claim 5, wherein the thickness of the first and second discrete support blocks (1113) is less than the spacing between adjacent trays in a stack of trays.

8. The FPC tray feeding assembly (100) according to claim 4, further comprising a first length adjusting mechanism (130) for adjusting a dimension of the fixing mechanism (120) in a length direction, and a first total width adjusting mechanism (140) for adjusting a dimension of the fixing mechanism (120) in a width direction.

9. The FPC tray feeding assembly (100) according to claim 8, wherein the first length adjustment mechanism (130) comprises a first left length adjustment mechanism (131) provided on the first mounting seat (1211) and a first right length adjustment mechanism (132) provided on the second mounting seat (1221);

the first left length adjusting mechanism (131) comprises a first guide rail (1311) arranged on the first mounting seat (1211), a first sliding block (1312) arranged on the first guide rail (1311) and used for guiding the first limiting part (1212) to move in the length direction, and a first stopping part (1313) connected with the first sliding block (1312) and used for fixing the first sliding block (1312) at the position of the first guide rail (1311), wherein the first limiting part (1212) is arranged at the top of the first sliding block (1312);

the first right length adjustment mechanism (132) includes a second guide rail (1321) disposed on the second mounting seat (1221), a second slider (1322) disposed on the second guide rail (1321) and used for guiding the third limiting portion (1222) to move in the length direction, and a second stopper portion (1323) connected to the second slider (1322) and used for fixing the second slider (1322) at the position of the second guide rail (1321), and the third limiting portion (1222) is disposed at the top of the second slider (1322).

10. The FPC tray feeding assembly (100) according to claim 8, wherein the first total width adjusting mechanism (140) comprises a first width adjusting mechanism (141) provided on a front side of the first mounting seat (1211) and a second width adjusting mechanism (142) provided on a rear side of the first mounting seat (1211);

the first width adjusting mechanism (141) comprises a third guide rail (1411) arranged on the machine base, a third sliding block (1412) arranged on the third guide rail (1411) and used for guiding the first mounting seat (1211) to move in the width direction, a first adjusting plate (1414) provided with a first through hole (1413) in the width direction, and a first width adjusting piece (1415) which penetrates through the first through hole (1413) to be connected with the front side of the first mounting seat (1211) and is used for fixing the first mounting seat (1211) at the position of the third guide rail (1411), wherein the third sliding block (1412) is arranged on the front side of the bottom of the first mounting seat (1211);

the second width adjusting mechanism (142) comprises a fourth guide rail (1421) arranged on the machine base, a fourth slider (1422) arranged on the fourth guide rail (1421) and used for guiding the first installation seat (1211) to move in the width direction, a second adjusting plate (1424) provided with a second through hole (1423) in the width direction, and a second width adjusting part (1425) penetrating through the second through hole (1423) to be connected with the rear side of the first installation seat (1211) and used for fixing the first installation seat (1211) at the position of the fourth guide rail (1421), wherein the fourth slider (1422) is arranged on the rear side of the bottom of the first installation seat (1211).

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