CN111834863A - Ultra-thin inductance laser paint stripping connecting line equipment - Google Patents

Abstract

The invention provides ultrathin inductance laser paint stripping connecting line equipment which comprises a first workbench, a second workbench and a lifting basket transplanting mechanism, wherein the first workbench is connected with the second workbench through a lifting basket; the first workbench is provided with a vibrating disc assembly, a filling mechanism and a transfer mechanism, and the second workbench is provided with a material pushing mechanism, a laser and a discharging mechanism; the vibrating disc assembly, the filling mechanism and the transfer mechanism are sequentially connected, and the filling mechanism can load products on the vibrating disc assembly into the product jig; a feeding belt is arranged between one side of the transfer mechanism, which is far away from the filling mechanism, and the pushing mechanism for connection; the material pushing mechanism, the laser and the blanking mechanism are sequentially arranged from front to back, and the material pushing mechanism can sequentially move the product jig to the position below the laser and on the blanking mechanism; the basket transplanting mechanism is arranged on one side of the blanking mechanism, and the blanking mechanism can move the product jig to the basket transplanting mechanism. According to the ultrathin inductance laser paint stripping connecting line equipment, the working efficiency is improved, and the production cost is reduced; and the paint stripping is accurate, and the conductive performance of the inductor can be effectively ensured.

Description

Ultra-thin inductance laser paint stripping connecting line equipment

Technical Field

The invention relates to the technical field of inductor paint stripping equipment, in particular to ultrathin inductor laser paint stripping connecting line equipment.

Background

The inductor is manufactured by winding a magnetic core by generally adopting an enameled wire to form a coil and a pin, and the inductor is electrically connected with an external circuit through the pin, so that the enameled layers on two lead angle ends of the inductor are required to be removed before the inductor is used, so as to meet the conductive requirement of the inductor.

In the prior art, the automation degree of an inductor paint stripping device is low, and many procedures are required to be operated manually, so that the time consumption is long, the working efficiency is low, stripping is not clean or excessive, and the conductivity of an inductor is influenced; and the structure is complicated, and the equipment cost is higher.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the ultrathin inductance laser paint stripping and connecting line equipment which is high in automation degree, high in production efficiency, good in processing effect and low in equipment cost.

In order to achieve the purpose, the invention adopts the following technical scheme:

an ultrathin inductance laser paint stripping connecting line device comprises a first workbench, a second workbench and a lifting basket transplanting mechanism which are arranged in sequence;

the first workbench is provided with a vibrating disc assembly, a filling mechanism and a transfer mechanism, and the second workbench is provided with a material pushing mechanism, a laser and a discharging mechanism;

the vibrating disc assembly, the filling mechanism and the transfer mechanism are sequentially connected, the vibrating disc assembly can orderly move products to the filling mechanism, and the filling mechanism can load the products on the vibrating disc assembly into a product jig;

a feeding belt is arranged between one side of the transfer mechanism, which is far away from the filling mechanism, and the material pushing mechanism for connection, the transfer mechanism can move the product jig from the filling mechanism to the feeding belt and provide an empty product jig for the filling mechanism, and the feeding belt moves the product jig to the material pushing mechanism;

the material pushing mechanism, the laser and the blanking mechanism are sequentially arranged from front to back, and the material pushing mechanism can sequentially move the product jig to the position below the laser and on the blanking mechanism;

the basket transplanting mechanism is arranged on one side of the blanking mechanism, and the blanking mechanism can move the product jig to the basket transplanting mechanism.

Furthermore, the filling mechanism comprises a horizontally arranged trough, a horizontal material rod, a filling rod and a jig moving module;

the horizontal material rod is arranged in the material groove and can move along the material groove under the driving of the horizontal moving cylinder;

the filling rod is arranged above the trough, and the top of the filling rod is connected with the filling moving module; the filling moving module can drive the filling rod to move up and down and horizontally move between the trough and the jig moving module so as to move a product into the product jig on the jig moving module from the trough.

Further, the transfer mechanism comprises a mounting frame, a transition plate, a transplanting pin and a transplanting claw;

the transition plate is arranged on the mounting frame, a movable cylinder is arranged on the lower side of the transition plate and connected with a jacking cylinder, the jacking cylinder is arranged below one side of the transition plate close to the filling mechanism, and the transplanting pin is vertically arranged on the jacking cylinder; the movable cylinder and the jacking cylinder act together to move the product jig to the transition plate from the filling mechanism;

the transplanting clamping jaw is arranged above the transition plate, the top of the transplanting clamping jaw is connected with the clamping jaw cylinder, the clamping jaw cylinder is connected with the transfer module, the clamping jaw cylinder can drive the transplanting clamping jaw to move up and down, the transfer module can drive the clamping jaw cylinder to drive the transplanting clamping jaw to move along the transition plate horizontally, and therefore the product jig can be moved to the feeding belt.

Further, the transfer mechanism further comprises a jig bin and a jig feeding module, a plurality of empty product jigs are arranged in the jig bin, a horizontal discharge port is formed in the bottom of the jig bin, and the jig feeding module is arranged below the jig bin and can move the product jigs located at the discharge port to the filling mechanism.

Further, the material pushing mechanism comprises a material pushing screw rod, a material pushing cylinder and a material pushing plate which are perpendicular to the feeding belt, and the material pushing screw rod, the material pushing cylinder and the material pushing plate are connected in sequence; the pushing screw rod is arranged on one side of the laser and is positioned above the feeding belt;

the material pushing cylinder can drive the material pushing plate to move up and down, and the material pushing lead screw can drive the material pushing cylinder to drive the material pushing plate to be perpendicular to the feeding belt to move horizontally, so that the product jig can be moved to the position below the laser and the position on the discharging mechanism in sequence.

Further, the blanking mechanism comprises a blanking belt, a rubber knocking head, a blocking cylinder, a blanking plate and a blocking strip; one end of the blanking belt is positioned at the rear side of the laser, and the other end of the blanking belt is positioned at the rear side of the basket transplanting mechanism and is parallel to the feeding belt;

the knocking head, the gear separating cylinder and the blanking plate are sequentially arranged along the blanking belt, and the knocking head is obliquely arranged above the blanking belt and driven by the knocking cylinder to move up and down; the two gear separating cylinders are arranged in parallel in front and back above the blanking belt and are positioned on the right side of the knocking head;

the blanking cylinder is arranged on the rear side of one end, far away from the laser, of the blanking belt, and the blanking plate is vertically arranged and connected with the blanking cylinder;

the middle part of the lower side of the blanking plate is provided with a mounting hole, and the barrier strip is positioned in the mounting hole and is vertical to the blanking plate; one end of the blocking strip is located on the blanking belt, the other end of the blocking strip is connected with a first lifting cylinder, and the first lifting cylinder is arranged on the lower side of the blanking cylinder.

Further, unloading mechanism still contains and locates the cylindrical clean brush of unloading belt top, clean brush is located it is close to beat the head one side of laser instrument, clean brush is by clean motor drive work.

Furthermore, the basket transplanting mechanism comprises a third square workbench, a basket, a transplanting mechanism and a second lifting cylinder, and the basket is arranged on the third workbench;

a loading position and a blanking position are transversely arranged at the front end of the third workbench side by side, a loading position and a middle indexing position are transversely arranged at the rear end of the third workbench side by side, and the loading position and the middle indexing position correspond to the loading position and the blanking position one by one;

the transplanting mechanism is arranged on the third workbench and can move the lifting basket from the loading position to the loading position, the middle transposition position and the unloading position in sequence;

the lifting basket corresponds to the front and back of the blanking plate when positioned at the charging position, and a lifting plate is arranged at the charging position; the second lifting cylinder is arranged below the lifting plate and connected with the lifting plate.

Further, the transplanting mechanism comprises a first transplanting module and a first transplanting plate vertically connected with the first transplanting module, a second transplanting module and a second transplanting plate vertically connected with the second transplanting module, and a third transplanting module and a third transplanting plate vertically connected with the third transplanting module;

the first module of transplanting can drive the first board of transplanting will the hand-basket by the material loading level removes extremely well transposition, the second is transplanted the module and can drives the second is transplanted the board will the hand-basket is removed extremely by last material level the material loading level, the third is transplanted the module and can drive the third is transplanted the board will the hand-basket by well transposition removes extremely the material level down.

Furthermore, the lifting cylinder is connected with the middle part of the lifting plate, two ends of the lifting plate are respectively provided with a guide rod, the upper end of the guide rod is connected with the lifting plate, and the lower end of the guide rod penetrates through the top of the third workbench and is positioned in the third workbench; the lower ends of the two guide rods are fixedly connected through a limiting plate;

one side of one guide rod is provided with a vertical connecting frame, the top of the connecting frame is connected with the top of the third workbench, and the middle part and the lower end of the connecting frame are respectively provided with a limit switch; one end of the limiting plate is provided with a limiting piece, the limiting piece can move between two limiting switches, and the two limiting switches are respectively connected with the second lifting cylinder.

Compared with the prior art, the invention has the beneficial technical effects that: according to the ultrathin inductor laser paint stripping connecting line equipment, the inductor paint stripping processes are carried out from product feeding, filling into a jig, transferring, paint stripping and final blanking, collecting and finishing, manual participation is not needed in the whole process, the working efficiency is greatly improved, the processing time is shortened, and the production cost is reduced; the paint stripping is accurate, and the conductive performance of the inductor can be effectively guaranteed not to be affected; in addition, the wiring equipment of the application is simple in structure and low in equipment cost.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is another schematic structural diagram of an embodiment of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic structural view of a vibratory plate assembly and packing mechanism according to an embodiment of the invention;

FIG. 5 is an enlarged view of portion B of FIG. 4;

FIG. 6 is a schematic structural diagram of a transfer mechanism in an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a blanking mechanism in an embodiment of the present invention;

FIG. 8 is a schematic diagram of the internal structure of the basket-lifting transplanting mechanism in the embodiment of the present invention;

fig. 9 is a rear view of the internal structure of the basket transplanting mechanism in the embodiment of the invention.

In the figure: 10-vibration disc assembly, 11-vibration disc, 12-direct vibration runner, 20-transfer mechanism, 21-first moving module, 22-mounting rack, 23-jacking cylinder, 24-transplanting pin, 25-jig feeding module, 26-discharge port, 27-jig bin, 28-transfer module, 29-claw cylinder, 210-transplanting claw, 211-transition plate, 212-moving cylinder, 30-filling mechanism, 31-jig moving module, 32-horizontal moving cylinder, 33-filling moving module, 34-horizontal material rod, 35-trough, 36-filling rod, 40-pushing mechanism, 41-pushing screw rod, 42-pushing cylinder, 43-pushing plate, 50-basket transplanting mechanism, 51-third workbench, 52-basket, 53-second transplanting plate, 54-second transplanting module, 55-first transplanting plate, 56-first transplanting module, 57-third transplanting module, 58-third transplanting plate, 59-second lifting cylinder, 510-guide rod, 511-limit plate, 512-connecting frame, 513-limit switch, 60-laser, 70-blanking mechanism, 71-protective shell, 72-blanking plate, 73-mounting hole, 74-barrier strip, 75-barrier cylinder, 76-knocking head, 77-knocking cylinder, 78-cleaning brush, 79-cleaning cylinder, 710-first lifting cylinder, 711-blanking cylinder, 712-blanking belt, 80-first workbench, 81-second workbench and 82-feeding belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention, are within the scope of the invention.

The technical scheme of the invention is further explained in detail by combining the drawings in the specification.

As shown in fig. 1-9, an ultra-thin inductive laser paint stripping connection device comprises a first workbench 80, a second workbench 81 and a basket-lifting transplanting mechanism 50, which are arranged in sequence along the transverse direction;

specifically, the first workbench 80 is provided with the vibration disc assembly 10, the filling mechanism 30 and the transfer mechanism 20, and the second workbench 81 is provided with the material pushing mechanism 40, the laser 60 and the blanking mechanism 70;

the vibrating disc assembly 10, the filling mechanism 30 and the transfer mechanism 20 are sequentially connected, the vibrating disc assembly 10 comprises a vibrating disc 11 and a direct vibration flow channel 12, the vibrating disc 11 is used for storing products and sequentially moving the products to the direct vibration flow channel 12 until the flow channel 12 is used for sequentially moving the products to the filling mechanism 30, and the filling mechanism 30 is used for loading the products on the filling mechanism into a product jig on the filling mechanism;

a feeding belt 82 is arranged between one side of the transfer mechanism 20, which is far away from the filling mechanism 30, and the material pushing mechanism 40 for connection, the transfer mechanism 20 is used for moving the product jig from the filling mechanism 30 to the feeding belt 82, and providing an empty product jig for the filling mechanism 30 so as to allow the filling mechanism 30 to fill the product; the feeding belt 82 is horizontally arranged, and the feeding belt 82 is used for moving the product jig to the pushing mechanism 40;

the material pushing mechanism 40, the laser 60 and the blanking mechanism 70 are sequentially arranged from front to back, the material pushing mechanism 40 is used for sequentially moving the product jig to the position below the laser 60, and after the laser 60 performs laser paint stripping on the product, the material pushing mechanism 40 moves the product jig loaded with the product to the blanking mechanism 70;

mechanism 50 is transplanted to basket locates one side of unloading mechanism 70, and unloading mechanism 70 is used for removing the product tool to basket transplanting mechanism 50 on, basket transplanting mechanism 50 is used for arranging the back with the product tool in order for the transfer.

Preferably, the filling mechanism 30 comprises a horizontally arranged trough 35, a horizontal material rod 34, a filling rod 36 and a jig moving module 31, and the jig moving module 31 is horizontally arranged in the transverse direction;

the trough 35 is arranged below the outlet of the direct vibration runner 12, and products in the direct vibration runner 12 orderly fall into the middle of the trough 35 through vibration; the horizontal material rod 34 is arranged in the material groove 35, the rear end of the horizontal material rod is connected with the horizontal moving cylinder 32, and the horizontal moving cylinder 32 is used for driving the horizontal material rod 34 to move along the material groove 35 and moving a product in the material groove 35 to the front end of the material groove 35;

the filling rod 36 is arranged above the front end of the trough 35, and the top of the filling rod is connected with the filling moving module 33; the filling moving module 33 comprises a horizontal moving module and a filling cylinder, and the filling cylinder is used for driving the filling rod 36 to move up and down so as to enable the filling rod 36 to be far away from the trough 35 or stretch into the trough 35; the horizontal moving module is used for driving the filling rod 36 to horizontally move between the trough 35 and the jig moving module 31 so as to move the product from the front end of the trough 35 into the product jig on the jig moving module 31;

the jig moving module 31 is used for moving the empty product jig provided by the transfer mechanism 20 to the trough 35, moving the product jig along with the filling of the product, and corresponding the empty product trough on the product jig to the trough 35, so that the filling is smoothly performed; and the product jigs filled with the products are moved to the transfer mechanism 20 for the transfer mechanism 20 to move onto the feeding belt 82.

Optionally, the transfer mechanism 20 comprises a mounting frame 22, a transition plate 211, a transplanting pin 24 and a transplanting claw 210; the bottom of the mounting frame 22 is provided with a first moving module 21, and the first moving module 21 is arranged in parallel with the jig moving module 31 and is positioned at the front side of the jig moving module 31; the first moving module 21 is used for driving the mounting frame 22 to horizontally move;

the transition plate 211 is arranged on the mounting frame 22 and is perpendicular to the first moving module 21, the moving cylinder 212 is arranged on the lower side of the transition plate 211, the moving cylinder 212 is connected with the jacking cylinder 23, the jacking cylinder 23 is arranged below one side of the transition plate 211 close to the filling mechanism 30, and the transplanting pin 24 is vertically arranged on the jacking cylinder 23; a gap is arranged in the middle of one end of the transition plate 211 close to the filling mechanism 30, and the transplanting pin 24 is positioned in the gap;

the movable air cylinder 212 and the jacking air cylinder 23 can move the product jig from the filling mechanism 30 to the transition plate 211 together; firstly, the jacking cylinder 23 drives the transplanting pin 24 to move downwards, the moving cylinder 212 drives the jacking cylinder 23 and the transplanting pin 24 to move to the position below the product jig, the jacking cylinder 23 drives the transplanting pin 24 to move upwards to hook the product jig, and the moving cylinder 212 works to drive the jacking cylinder 23 to drive the transplanting pin 24 to return to the initial position and move the product jig to the transition plate 211;

the transplanting clamping jaw 210 is arranged above the transition plate 211, the top of the transplanting clamping jaw 210 is connected with the clamping jaw air cylinder 29, the clamping jaw air cylinder 29 is connected with the transferring module 28, one end of the transferring module 28 is positioned above the feeding belt 82, and the other end of the transferring module 28 and one end of the transition plate 211, which is close to the filling mechanism 30, are positioned in the same vertical plane;

the claw cylinder 29 can drive the transplanting claws 210 to move up and down, and the transfer module 28 can drive the claw cylinder 29 to drive the transplanting claws 210 to horizontally move along the transition plate 211 so as to move the product jig onto the feeding belt 82;

after the product jig is moved to the transition plate 211, the claw cylinder 29 drives the transplanting claws 210 to move upwards, the transfer module 28 drives the claw cylinder 29 to drive the transplanting claws 210 to move to the upper part of the product jig, and the claw cylinder 29 drives the transplanting claws 210 to move downwards to clamp the product jig; then the transfer module 28 is operated to drive the claw cylinder 29 to drive the transplanting claws 210 to move towards the feeding belt 82, and then the product jigs are moved onto the feeding belt 82.

In some embodiments of the present invention, the transferring mechanism 20 further includes a jig bin 27 and a jig loading module 25, the jig bin 27 is used for storing empty product jigs, a horizontal discharging port 26 is arranged at the bottom of the jig bin, and the discharging port 26 is in interference fit with the product jigs; the jig feeding module 25 is arranged below the jig bin 27 and can move the product jig positioned at the discharge port 26 to the jig moving module 31;

after a plurality of product jigs are placed in the jig bin 27, the product jig positioned at the bottom is positioned in the discharge hole 26; when the product jig filled with the product on the jig moving module 31 is removed, the jig loading module 25 works to move the empty product jig located in the discharge port 26 to the jig moving module 31, and the empty product jig is moved to the outlet of the trough 35 by the jig moving module 31 to be filled.

In other embodiments of the present invention, the pushing mechanism 40 includes a pushing screw 41, a pushing cylinder 42 and a pushing plate 43, which are perpendicular to the feeding belt, and the three are connected in sequence; the pushing screw rod 41 is arranged on one side of the laser 60 and is positioned above the feeding belt 82;

the material pushing cylinder 41 can drive the material pushing plate 43 to move up and down, and the material pushing screw 41 can drive the material pushing cylinder 42 to drive the material pushing plate 43 to move horizontally vertical to the feeding belt 82, so that the product jig is sequentially moved to the position below the laser 60 and on the blanking mechanism 70;

when pushing materials, the material pushing cylinder 42 drives the material pushing plate 43 to move to the same height of the product jig, and the material pushing screw 41 drives the material pushing cylinder 42 to drive the material pushing plate 43 to move the product jig from the upper feeding belt 82 to the lower side of the laser 60 or from the lower side of the laser 60 to the blanking mechanism 70;

when the material pushing plate 43 moves from the rear side of the feeding belt 82 to the front side thereof, the material pushing cylinder 42 drives the material pushing plate 43 to ascend, so that the material pushing plate is driven by the material pushing screw rod 41 to move to the front side of the feeding belt 82 through the upper sides of the feeding belt 82 and the product jigs, and the product jigs on the material pushing plate are pushed backwards to the lower side of the laser 60 to be stripped.

Preferably, the blanking mechanism 70 comprises a blanking belt 712, a rubber knocking head 76, a blocking cylinder 75, a blanking cylinder 711, a blanking plate 72 and a blocking strip 74; one end of the blanking belt 712 is positioned at the rear side of the laser 60, and the other end thereof is positioned at the rear side of the basket transplanting mechanism 50 and is parallel to the feeding belt 82; after the laser 60 strips the paint from the product below, the material pushing mechanism 40 moves the product jig carrying the stripped product to the discharging belt 712;

the knocking head 76, the gear-separating cylinder 75 and the blanking plate 72 are sequentially arranged along the blanking belt 712, and the knocking head 76 is obliquely arranged above the blanking belt 712 and driven by the knocking cylinder 77 to move up and down; because the product has magnetism, two adjacent product jigs can be attracted together, the knocking cylinder 77 is used for driving the knocking head 76 to move up and down, and the two product jigs connected together are knocked apart; the knocking head 76 made of rubber effectively avoids damage to the product in the knocking process;

two gear-separating cylinders 75 are arranged, and the two gear-separating cylinders 75 are arranged above the blanking belt 712 in a front-back side-by-side manner through a mounting plate and are positioned on the right side of the knocking head 76; the lower end of the telescopic rod in the blocking cylinder 75 penetrates through the mounting plate and is positioned above the blanking belt 712, and when the telescopic rod extends out, the blocking cylinder 75 can separate two product jigs separated by the knocking head 76 so as to facilitate blanking; when the telescopic rod retracts, the product jig on the side, close to the laser 60, of the blocking cylinder 75 can move continuously along with the blanking belt 712;

the blanking cylinder 711 is arranged at the rear side of one end, far away from the laser 60, of the blanking belt, and the blanking plate 72 is vertically arranged and connected with the blanking cylinder 711; a protective shell 71 is arranged outside the blanking cylinder 711, and the protective shell 71 is used for protecting the blanking cylinder 711;

the middle part of the lower side of the blanking plate 72 is provided with a mounting hole 73, and the barrier strip 74 is positioned in the mounting hole 73 and is vertical to the blanking plate 72; one end of the barrier strip 74 is positioned on the blanking belt 712, the other end thereof is connected with the first lifting cylinder 710, and the first lifting cylinder 710 is arranged at the lower side of the blanking cylinder 711;

two temporary storage areas are arranged on the blanking belt 712 in parallel along the moving direction corresponding to the blanking plate 72, and the two temporary storage areas are separated by the barrier rib 74; the first lifting cylinder 710 can drive the barrier strip 74 to move upwards, so that the product jig moves to a first temporary storage area at the end part along with the blanking belt 712, and then the first lifting cylinder 710 drives the barrier strip 74 to descend onto the blanking belt 712; then, the telescopic rod of the blocking cylinder 75 is retracted, and the blanking belt 712 drives the second product jig to move to the second temporary storage area; meanwhile, the telescopic rod extends out again to block the third product jig outside the temporary storage area;

then, the blanking cylinder 711 drives the blanking plate 72 to move forward, and the two product jigs are pushed into the basket transplanting mechanism 50 at the same time; the working efficiency is greatly improved, and the production cost is reduced;

repeating the above-mentioned process, knocking head 76 and continuously will passing through its below two product tool parts together, separate and keep off cylinder 75 and pass separately product tool repeatedly, separate the fender, guarantee to move to the product tool of buffers is solitary, unloading belt 712 continuously moves solitary product tool to buffers, unloading cylinder 711 continuously pushes the product tool of buffers into in basket transplanting mechanism 50.

Further, the blanking mechanism 70 further comprises a cylindrical cleaning brush 78 arranged above the blanking belt 712, the cleaning brush 78 is arranged on one side of the knocking head 76 close to the laser 60, and the cleaning brush 78 is driven by a cleaning motor 79 to work;

the cleaning brush 78 is used for cleaning the paint stripped product before the product jig moves below the knocking head 76 so as to remove foreign debris left by paint stripping and ensure the product performance.

Optionally, the basket transplanting mechanism 50 comprises a third square workbench 51, a basket 52, a transplanting mechanism and a second lifting cylinder 59, wherein the basket 52 is arranged on the third workbench 51; two rows of jig storage grooves are arranged in the lifting basket 52, a baffle is arranged between the two rows of storage grooves, and the two temporary storage areas are correspondingly arranged;

the upper front end of the third workbench 51 is transversely provided with a feeding position and a discharging position side by side, the upper rear end of the third workbench 51 is transversely provided with a feeding position and a middle turning position side by side, and the feeding position and the middle turning position correspond to the feeding position and the discharging position one by one;

the transplanting mechanism is arranged on the third workbench 51 and can move the lifting basket 52 from the loading position to the loading position, the middle indexing position and the unloading position in sequence;

the lifting basket 52 corresponds to the front and the back of the blanking plate 72 when positioned at the charging position, and the charging position is provided with a lifting plate; the second lifting cylinder 59 is arranged below the lifting plate and connected with the lifting plate, and the second lifting cylinder 59 is used for driving the lifting plate to drive the lifting basket 52 on the lifting plate to move up and down, so that a storage groove in the lifting basket 52 is always horizontal to the temporary storage area;

the transplanting mechanism moves the empty lifting basket 52 to a lifting plate on a loading position from the loading position, the second lifting cylinder 59 drives the lifting basket 52 to move, so that storage grooves in the lifting basket are horizontal to a temporary storage area, and the blanking cylinder 711 drives the blanking plate 72 to push two product jigs into the two storage grooves at the same time; then the second lifting cylinder 59 drives the lifting basket 52 to move again, so that the empty storage groove of the lifting basket 52 is always horizontal to the temporary storage area;

after the basket 52 is filled with the product jigs, the transplanting mechanism drives the product jigs to move to the blanking area through the transfer area to be transferred; the lifting basket 52 in the same time moves to the loading area under the driving of the transplanting mechanism, and the process is circulated, so that the continuous blanking is realized.

Further, the transplanting mechanism includes a first transplanting module 56 and a first transplanting plate 55 vertically connected thereto, a second transplanting module 54 and a second transplanting plate 53 vertically connected thereto, and a third transplanting module 57 and a third transplanting plate 58 vertically connected thereto;

the first transplanting module 56 and the second transplanting module 54 are arranged on the third workbench 51, the third transplanting module 57 is arranged on the side surface of the workbench, and the first transplanting plate 55, the second transplanting plate 53 and the third transplanting plate 58 are all positioned above the third workbench 51;

the first transplanting module 56 can drive the first transplanting plate 55 to move the lifting basket 52 from the loading position to the middle position, the second transplanting module 54 can drive the second transplanting plate 53 to move the lifting basket 52 from the loading position to the loading position, and the third transplanting module 57 can drive the third transplanting plate 58 to move the lifting basket 52 from the middle position to the unloading position;

the first transplanting module 56, the second transplanting module 54 and the third transplanting module 57 all work independently without mutual interference and can work simultaneously to move a plurality of baskets 52 to corresponding positions respectively, so that the replacement and transfer efficiency of the baskets 52 is improved.

Further, a second lifting cylinder 59 is connected with the middle part of the lifting plate, so that the lifting plate is stressed in a balanced manner, and the moving stability of the lifting plate is improved; two ends of the lifting plate are respectively provided with a guide rod 510, the upper end of the guide rod 510 is connected with the lifting plate, the lower end of the guide rod 510 penetrates through the top of the third workbench 51 and is positioned in the third workbench 51, and the guide rod 510 is used for guiding the lifting plate to move up and down, ensuring the horizontal lifting of the lifting plate and ensuring the stable lifting of the lifting plate;

the lower ends of the two guide rods 510 are fixedly connected through a limiting plate 511; one side of one guide rod 510 is provided with a vertical connecting frame 512, the top of the connecting frame 512 is connected with the top of the third workbench 51, the middle part and the lower end of the connecting frame 512 are respectively provided with a limit switch 513, and the connecting frame 512 is used for installing the two limit switches 513;

one end of the limiting plate 511 is provided with a limiting sheet which can move between the two limiting switches 513, and the two limiting switches 513 are respectively connected with the second lifting cylinder 59; when the second lifting cylinder 59 drives the lifting plate to drive the guide rod 510 and the limiting plate 511 to move up and down, and when the limiting plate triggers the limiting switch 513, the limiting switch 513 sends a signal to the second lifting cylinder 59, the second lifting cylinder 59 stops working, and at this moment, the top layer storage groove or the bottom layer storage groove of the lifting basket 52 is horizontal to the temporary storage area.

According to the ultrathin inductor laser paint stripping connecting line equipment, the paint stripping processes of the inductor are carried out from product feeding, filling into a jig, transferring, paint stripping and final blanking, collecting and finishing, manual participation is not needed in the whole process, the working efficiency is greatly improved, the processing time is shortened, and the production cost is reduced; the paint stripping is accurate, and the conductive performance of the inductor can be effectively guaranteed not to be affected; in addition, the wiring equipment of the application is simple in structure and low in equipment cost.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An ultrathin inductance laser paint stripping connecting line device is characterized by comprising a first workbench, a second workbench and a lifting basket transplanting mechanism which are arranged in sequence;

the first workbench is provided with a vibrating disc assembly, a filling mechanism and a transfer mechanism, and the second workbench is provided with a material pushing mechanism, a laser and a discharging mechanism;

the vibrating disc assembly, the filling mechanism and the transfer mechanism are sequentially connected, the vibrating disc assembly can orderly move products to the filling mechanism, and the filling mechanism can load the products on the vibrating disc assembly into a product jig;

a feeding belt is arranged between one side of the transfer mechanism, which is far away from the filling mechanism, and the material pushing mechanism for connection, the transfer mechanism can move the product jig from the filling mechanism to the feeding belt and provide an empty product jig for the filling mechanism, and the feeding belt moves the product jig to the material pushing mechanism;

the material pushing mechanism, the laser and the blanking mechanism are sequentially arranged from front to back, and the material pushing mechanism can sequentially move the product jig to the position below the laser and on the blanking mechanism;

the basket transplanting mechanism is arranged on one side of the blanking mechanism, and the blanking mechanism can move the product jig to the basket transplanting mechanism.

2. The ultra-thin inductance laser paint stripping and connecting equipment as claimed in claim 1, wherein the filling mechanism comprises a horizontally arranged trough, a horizontal material rod, a filling rod and a jig moving module;

the horizontal material rod is arranged in the material groove and can move along the material groove under the driving of the horizontal moving cylinder;

the filling rod is arranged above the trough, and the top of the filling rod is connected with the filling moving module; the filling moving module can drive the filling rod to move up and down and horizontally move between the trough and the jig moving module so as to move a product into the product jig on the jig moving module from the trough.

3. The ultra-thin inductance laser paint stripping wiring device according to claim 1, wherein the transfer mechanism comprises a mounting frame, a transition plate, a transplanting pin and a transplanting claw;

the transition plate is arranged on the mounting frame, a movable cylinder is arranged on the lower side of the transition plate and connected with a jacking cylinder, the jacking cylinder is arranged below one side of the transition plate close to the filling mechanism, and the transplanting pin is vertically arranged on the jacking cylinder; the movable cylinder and the jacking cylinder act together to move the product jig to the transition plate from the filling mechanism;

the transplanting clamping jaw is arranged above the transition plate, the top of the transplanting clamping jaw is connected with the clamping jaw cylinder, the clamping jaw cylinder is connected with the transfer module, the clamping jaw cylinder can drive the transplanting clamping jaw to move up and down, the transfer module can drive the clamping jaw cylinder to drive the transplanting clamping jaw to move along the transition plate horizontally, and therefore the product jig can be moved to the feeding belt.

4. The ultra-thin inductance laser paint stripping connecting line equipment as claimed in claim 3, wherein the transfer mechanism further comprises a jig bin and a jig feeding module, a plurality of empty product jigs are arranged in the jig bin, a horizontal discharge hole is formed in the bottom of each empty product jig, and the jig feeding module is arranged below the jig bin and can move the product jigs located at the discharge hole to the filling mechanism.

5. The ultrathin inductance laser paint stripping connecting line equipment as claimed in claim 1, wherein the material pushing mechanism comprises a material pushing screw rod, a material pushing cylinder and a material pushing plate which are perpendicular to the feeding belt, and the three are connected in sequence; the pushing screw rod is arranged on one side of the laser and is positioned above the feeding belt;

the material pushing cylinder can drive the material pushing plate to move up and down, and the material pushing lead screw can drive the material pushing cylinder to drive the material pushing plate to be perpendicular to the feeding belt to move horizontally, so that the product jig can be moved to the position below the laser and the position on the discharging mechanism in sequence.

6. The ultrathin inductance laser paint stripping connecting line equipment as claimed in claim 1, wherein the blanking mechanism comprises a blanking belt, a rubber knocking head, a blocking cylinder, a blanking plate and a blocking strip; one end of the blanking belt is positioned at the rear side of the laser, and the other end of the blanking belt is positioned at the rear side of the basket transplanting mechanism and is parallel to the feeding belt;

the knocking head, the gear separating cylinder and the blanking plate are sequentially arranged along the blanking belt, and the knocking head is obliquely arranged above the blanking belt and driven by the knocking cylinder to move up and down; the two gear separating cylinders are arranged in parallel in front and back above the blanking belt and are positioned on the right side of the knocking head;

the blanking cylinder is arranged on the rear side of one end, far away from the laser, of the blanking belt, and the blanking plate is vertically arranged and connected with the blanking cylinder;

the middle part of the lower side of the blanking plate is provided with a mounting hole, and the barrier strip is positioned in the mounting hole and is vertical to the blanking plate; one end of the blocking strip is located on the blanking belt, the other end of the blocking strip is connected with a first lifting cylinder, and the first lifting cylinder is arranged on the lower side of the blanking cylinder.

7. The ultra-thin inductance laser paint stripping connecting line equipment as claimed in claim 6, wherein the blanking mechanism further comprises a cylindrical cleaning brush arranged above the blanking belt, the cleaning brush is arranged on one side of the knocking head close to the laser, and the cleaning brush is driven by a cleaning motor to work.

8. The ultra-thin inductance laser paint stripping connection equipment according to claim 1, wherein the basket transplanting mechanism comprises a third square workbench, a basket, a transplanting mechanism and a second lifting cylinder, and the basket is arranged on the third workbench;

a loading position and a blanking position are transversely arranged at the front end of the third workbench side by side, a loading position and a middle indexing position are transversely arranged at the rear end of the third workbench side by side, and the loading position and the middle indexing position correspond to the loading position and the blanking position one by one;

the transplanting mechanism is arranged on the third workbench and can move the lifting basket from the loading position to the loading position, the middle transposition position and the unloading position in sequence;

the lifting basket corresponds to the front and back of the blanking plate when positioned at the charging position, and a lifting plate is arranged at the charging position; the second lifting cylinder is arranged below the lifting plate and connected with the lifting plate.

9. The ultra-thin inductive laser paint stripping and connection apparatus as claimed in claim 8, wherein the transplanting mechanism comprises a first transplanting module and a first transplanting plate vertically connected thereto, a second transplanting module and a second transplanting plate vertically connected thereto, and a third transplanting module and a third transplanting plate vertically connected thereto;

the first module of transplanting can drive the first board of transplanting will the hand-basket by the material loading level removes extremely well transposition, the second is transplanted the module and can drives the second is transplanted the board will the hand-basket is removed extremely by last material level the material loading level, the third is transplanted the module and can drive the third is transplanted the board will the hand-basket by well transposition removes extremely the material level down.

10. The ultra-thin inductance laser paint stripping and connecting device as claimed in claim 8, wherein the lifting cylinder is connected to the middle of the lifting plate, guide rods are respectively arranged at two ends of the lifting plate, the upper ends of the guide rods are connected with the lifting plate, and the lower ends of the guide rods penetrate through the top of the third workbench and are located in the third workbench; the lower ends of the two guide rods are fixedly connected through a limiting plate;

one side of one guide rod is provided with a vertical connecting frame, the top of the connecting frame is connected with the top of the third workbench, and the middle part and the lower end of the connecting frame are respectively provided with a limit switch; one end of the limiting plate is provided with a limiting piece, the limiting piece can move between two limiting switches, and the two limiting switches are respectively connected with the second lifting cylinder.

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