CN111463003A

CN111463003A - Integrated ultrathin inductance automatic filling machine

Info

Publication number: CN111463003A
Application number: CN202010453501.0A
Authority: CN
Inventors: 郑生广
Original assignee: Jiangsu Huaci Electronic Technology Co ltd
Current assignee: Jiangsu Huaci Electronic Technology Co ltd
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2020-07-28

Abstract

The application provides an integrated ultrathin inductance automatic filling machine which comprises a workbench, wherein a divider with a rotary table is arranged on the workbench; a plurality of suction nozzles are arranged on the rotary disc; the turntable is provided with a gas distribution pipe connected with the suction nozzle; an installation plate is arranged above the rotary table, and a material taking cylinder, a positioning cylinder and a servo pressing mechanism are sequentially arranged on the installation plate and respectively correspond to a suction nozzle; a feeding mechanism, a positioning mechanism and a filling mechanism are sequentially arranged below the material taking cylinder, the positioning cylinder and the servo pressing mechanism and are all positioned below the turntable; the filling mechanism comprises a horizontal moving module, a product jig and a filling plate, the product jig is positioned on the horizontal moving module and is positioned below the filling plate, and a filling hole is formed in the filling plate and corresponds to one suction nozzle; a detection mechanism is arranged between the filling mechanism and the positioning mechanism and is connected with the servo pressing mechanism. The utility model provides an ultra-thin inductance automatic filling machine of integrated into one piece has improved work efficiency, and the cost is reduced improves the production yields.

Description

Integrated ultrathin inductance automatic filling machine

Technical Field

The invention relates to the technical field of inductance processing equipment, in particular to an integrally-formed ultrathin inductance automatic filling machine.

Background

After the inductor finishes winding in the production process, a plurality of inductors need to be loaded into a jig for subsequent batch processing, so that the working efficiency is improved. The uniformity of the inductor in the jig is an important factor for determining the subsequent processing quality, and the efficiency of filling the inductor into the jig affects the production efficiency of the whole processing process.

The filling of inductance in the prior art is generally accomplished by manual work, and is consuming time longer, and is inefficient, and packs quality stability poor, causes the inductance yields low, and the cost is higher.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an integrally formed ultrathin inductance automatic filling machine which is used for mechanizing inductance filling, is accurate in filling, and is high in working efficiency and low in cost.

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

an integrated ultrathin inductance automatic filling machine comprises a workbench, wherein a divider is arranged on the workbench, and a turntable is arranged on the divider;

a plurality of suction rods vertically penetrating through the turntable are arranged on the turntable along the periphery of the turntable, the lower end of each suction rod is connected with a suction nozzle, and the suction rods can drive the suction nozzles to move up and down relative to the turntable under the action of external force;

the middle of the rotary table is provided with a gas distribution pipe, the gas distribution pipe is respectively connected with the plurality of suction nozzles, and the suction nozzles are provided with vacuum breaking valves;

an annular mounting plate is arranged above the rotary table, a material taking cylinder, a positioning cylinder and a servo pressing mechanism are sequentially arranged on the mounting plate, and the material taking cylinder, the positioning cylinder and the servo pressing mechanism respectively correspond to one suction rod and can respectively press the corresponding suction rods;

a feeding mechanism is arranged below the material taking cylinder, a positioning mechanism is arranged below the positioning cylinder, a filling mechanism is arranged below the servo pressing mechanism, and the feeding mechanism, the positioning mechanism and the filling mechanism are all arranged on the workbench and are positioned below the turntable;

the filling mechanism comprises a horizontal moving module, a product jig and a filling plate, the product jig is positioned on the horizontal moving module, the filling plate is positioned above the product jig, a filling hole is formed in the filling plate, and the filling hole corresponds to one suction nozzle;

the material filling mechanism and the positioning mechanism are provided with a detection mechanism for detecting whether the suction nozzle adsorbs a product, and the detection mechanism is connected with the servo pressing mechanism.

Furthermore, feed mechanism contains and locates vibration dish on the workstation and the straight runner that shakes of being connected with it, the one end of straight runner that shakes is located the corresponding below of suction nozzle.

Furthermore, one side of the suction rod is provided with a guide rod, the guide rod vertically penetrates through the rotary table and can move up and down relative to the rotary table, and the upper end of the suction rod is fixedly connected with the top of the guide rod through a connecting plate.

Furthermore, a return spring is sleeved on the suction rod and is positioned between the connecting plate and the turntable.

Furthermore, the positioning mechanism comprises a positioning frame, a central column is arranged in the middle of the top of the positioning frame, and a placing table is arranged on the top of the central column;

the top of locating rack the periphery of center post is equipped with a plurality of location clamping jaws, clamping jaw cylinder is connected to the bottom of location clamping jaw, clamping jaw cylinder drive is a plurality of the location clamping jaw is closed, and with place the platform and inject the locating area jointly, the locating area with the product phase-match.

Furthermore, the servo pressing mechanism comprises a servo motor, a moving block and a pressing rod, the servo motor is installed on the installation plate through a motor frame and is connected with the moving block through a lead screw, and the moving block is connected with the pressing rod.

Furthermore, the lower pressing rod is of a hollow columnar structure, a buffer rod is arranged in the lower pressing rod, the upper end of the buffer rod vertically penetrates through the moving block, and the buffer rod can move up and down in the moving block.

Furthermore, a buffer spring is sleeved on the buffer rod and is positioned between the lower pressing rod and the moving block.

Furthermore, a vertical guide rail is arranged on one side of the motor frame, and one side of the moving block is movably connected with the vertical guide rail through a sliding block.

Further, the packing mechanism further comprises a fixing mechanism of the product jig, the fixing mechanism comprises a positioning plate, two spacing wheels are arranged on the first side of the positioning plate at intervals, fixing clamping jaws with fixing wheels are respectively arranged on two corresponding sides of the positioning plate, and the fixing clamping jaws are driven by a fixing cylinder to be opened or closed.

Compared with the prior art, the invention has the beneficial technical effects that: the integrated ultrathin inductance automatic filling machine is respectively provided with the vibrating disc feeding mechanism, the clamping jaw positioning mechanism, the detection mechanism, the servo pressing mechanism and the horizontally movable filling mechanism, so that the inductance filling automation is realized, the working efficiency is greatly improved, and the cost is reduced; the clamping jaw positioning mechanism accurately positions the inductor and works in cooperation with the filler plate, so that the filling precision of the inductor is effectively improved, and the production yield is improved; the detection mechanism detects whether the corresponding suction nozzle has inductance or not, if not, the servo pressing mechanism does not work, the suction nozzle continues to rotate, the air release is prevented, and the working efficiency is further improved.

Drawings

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

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

FIG. 3 is a further schematic structural diagram of an embodiment of the present application;

FIG. 4 is a further schematic structural diagram of an embodiment of the present application;

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

FIG. 6 is a schematic left side view of an embodiment of the present application;

FIG. 7 is an enlarged view of portion B of FIG. 6;

FIG. 8 is a schematic front view of an embodiment of the present application;

fig. 9 is an enlarged view of the portion C in fig. 8.

In the figure: 1-workbench, 2-vibration disc, 3-support frame, 4-mounting plate, 5-servo pressing mechanism, 6-gas distribution pipe, 7-material taking cylinder, 8-rotary disc, 9-reset spring, 10-suction nozzle, 11-motor frame, 12-vertical guide rail, 13-packing mechanism, 14-pressing rod, 15-buffer spring, 16-buffer rod, 17-moving block, 18-servo motor, 19-horizontal moving module, 20-packing plate, 21-divider, 22-positioning cylinder, 23-detection mechanism, 24-direct vibration channel, 25-positioning frame, 26-center post, 27-positioning clamping jaw, 28-clamping jaw cylinder, 29-spacing wheel, 30-product jig, 31-positioning plate, 32-lead screw, 33-fixing cylinder, 34-fixing wheel, 35-fixing clamping jaw, 36-guide rod and 37-connecting plate.

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 integrated ultrathin inductance automatic filling machine comprises a workbench 1, a divider 21 on the workbench 1, and a turntable 8 on the divider 21;

specifically, a plurality of suction rods vertically penetrating through the turntable 8 are arranged on the turntable 8 at equal intervals along the periphery of the turntable, the lower end of each suction rod is connected with a suction nozzle 10, and the suction rods can drive the suction nozzles 10 to move up and down relative to the turntable 8 under the action of external force;

the middle of the rotary table 8 is provided with a gas distribution pipe 6, the gas distribution pipe 6 is respectively connected with a plurality of suction nozzles 10, and the gas distribution pipe 6 is used for providing vacuum negative pressure for the suction nozzles 10 so that the suction nozzles 10 can adsorb products; a vacuum breaking valve is arranged on the suction nozzle 10 and is used for breaking vacuum on the suction nozzle 10 when the filler is filled, so that the product is separated from the suction nozzle 10;

an annular mounting plate 4 is arranged above the rotary disc 8, and the outer diameter of the mounting plate 4 is the same as the diameter of the rotary disc 8; the mounting plate 4 is sequentially provided with a material taking cylinder 7, a positioning cylinder 22 and a servo pressing mechanism 5, the three correspond to a suction rod respectively, the three are not in contact with the suction rod in a normal state, and the three can press the corresponding suction rods respectively to enable the suction nozzle 10 to move downwards in a working process;

a feeding mechanism is arranged below the material taking cylinder 7 and used for providing products for the suction nozzle 10 below the material taking cylinder 7; a positioning mechanism is arranged below the positioning cylinder 22 and used for accurately positioning the product adsorbed by the suction nozzle 10, so that the product is smoothly filled, the working efficiency and the filling precision of the product in the product jig 30 are improved, and the product yield is improved;

a filling mechanism 13 is arranged below the servo pressing mechanism 5, and the filling mechanism 13 is used for assisting the servo pressing mechanism 5 to fill products; the feeding mechanism, the positioning mechanism and the filling mechanism 13 are all arranged on the workbench 1 and are positioned below the turntable 8;

the filling mechanism 13 comprises a horizontal moving module 19, a product jig 30 and a filling plate 20, wherein the product jig 30 is positioned on the horizontal moving module 19, the filling plate 20 is positioned above the product jig 30, and a filling hole is formed in the filling plate 20 and corresponds to one suction nozzle 10;

the product jig 30 is provided with a plurality of filling grooves, and in the filling process, the horizontal moving module 19 drives the product jig 30 to horizontally move, so that the filling grooves on the product jig 30 respectively correspond to the filling holes, and the suction nozzle 10 is ensured to smoothly discharge materials;

a detection mechanism 23 for detecting whether the suction nozzle 10 adsorbs a product is arranged between the filling mechanism 13 and the positioning mechanism, the detection mechanism 23 is connected with the servo pressing mechanism 5, and the servo pressing mechanism 5 is controlled to work according to a detection result; when the detection mechanism 23 detects that the suction nozzle 10 above the detection mechanism carries a product, the servo pressing mechanism 5 is controlled to press the suction rod downwards, so that the suction nozzle 10 moves downwards, and the product is placed in the product jig 30; when the product cannot be detected, the servo pressing mechanism 5 does not work, and the suction nozzle 10 continues to rotate along with the turntable 8 to take the material to the feeding mechanism;

when the automatic feeding device works, a feeding mechanism moves a product to the position below the material taking cylinder 7, the material taking cylinder 7 drives the corresponding suction rod to drive the suction nozzle 10 to move downwards, and the product is taken away; the divider 21 works to drive the turntable 8 to rotate, so that the suction nozzle 10 loaded with a product moves to the lower part of the positioning cylinder 22, and the positioning cylinder 22 drives the suction nozzle 10 to move downwards to the positioning mechanism for positioning; then the turntable 8 rotates again to drive the product to move to the detection mechanism 23 for detection;

the turntable 8 rotates again to drive the product to move to the position above the filling hole, and the horizontal moving module 19 drives the product jig 30 to move horizontally, so that the empty filling groove is aligned with the filling hole; the servo pressing mechanism 5 drives the suction nozzle 10 to move downwards to the filling hole, the vacuum breaking valve breaks vacuum of the suction nozzle 10, and the product is separated from the suction nozzle 10 and falls into a filling groove corresponding to the filling hole to finish filling;

in the working process, the suction nozzles 10 respectively move above the feeding mechanism, the positioning mechanism, the detection mechanism 23 and the filling mechanism 13 in sequence and respectively execute corresponding operations, and the mechanisms work simultaneously, so that the working efficiency is greatly improved.

In some embodiments of the present application, the feeding mechanism comprises a vibration plate 2 disposed on the working platform 1 and a direct vibration flow channel 24 connected thereto, one end of the direct vibration flow channel 24 is located below the corresponding suction nozzle 10, so that the material taking cylinder 7 presses the suction nozzle 10 to take materials;

the vibration disc 2 and the direct vibration flow channel 24 act together to automatically arrange and arrange products, so that the products are moved to the position below the material taking cylinder 7 according to a corresponding state, and the material taking efficiency is improved.

In other embodiments of the present application, a guide rod 36 is disposed on one side of the suction rod, the guide rod 36 vertically penetrates through the turntable 8 and can move up and down relative to the turntable 8, and the upper end of the suction rod is fixedly connected to the top of the guide rod 36 through a connecting plate 37;

when the suction rod moves up and down under the action of external force, the guide rod 36 moves synchronously with the suction rod, and the guide rod 36 plays a role in moving and guiding the suction rod, so that the suction rod is ensured to move vertically.

Furthermore, a return spring 9 is sleeved on the suction rod, the return spring 9 is positioned between the connecting plate 37 and the turntable 8, and the return spring 9 is in a constant state in a normal state; when the suction rod is pressed downwards by external force to move downwards, the reset spring 9 is compressed to have potential energy, and after the external force disappears, the reset spring 9 converts the potential energy into kinetic energy to upwards bounce the suction rod in a descending state to an initial position, so that the driving of mechanical external force is omitted, and resources are saved.

Preferably, the positioning mechanism comprises a positioning frame 25, a central column 26 is arranged in the middle of the top of the positioning frame 25, and a placing table is arranged on the top of the central column 26 and used for placing the product;

a plurality of positioning clamping jaws 27 are arranged on the periphery of a top center column 26 of the positioning frame 25, the bottoms of the positioning clamping jaws 27 are connected with a clamping jaw air cylinder 28, the clamping jaw air cylinder 28 drives the plurality of positioning clamping jaws 27 to be closed, and a positioning area is defined by the clamping jaw air cylinder and the placing table together and matched with a product;

during positioning, the positioning cylinder 22 drives the corresponding suction rod to drive the suction nozzle 10 to move downwards until the product is placed on the placing table, the clamping jaw cylinder 28 starts to work, the positioning clamping jaw 27 is driven to be closed, the product is limited in a positioning area, and meanwhile, the product is accurately positioned, so that the product is guaranteed to be loaded into a product jig in a set state;

after the positioning is completed, the clamping jaw air cylinder 28 drives the positioning clamping jaw 27 to open, the positioning air cylinder 22 retracts, and the suction rod drives the suction nozzle 10 and the product to return to the initial position under the action of the return spring 9 and moves to the upper part of the detection mechanism 23 along with the turntable 8.

According to one embodiment of the application, the servo pressing mechanism 5 comprises a servo motor 18, a moving block 17 and a pressing rod 14, the servo motor 18 is installed on the installation plate 4 through a motor frame 11 and is connected with the moving block 17 through a lead screw 32, and the moving block 17 is connected with the pressing rod 14;

the servo motor 18 drives the screw rod 32 to rotate and drives the moving block 17 to drive the lower pressure rod 14 to move up and down so as to press down or keep away from the suction rod; the servo motor 18 is adopted to accurately control the moving height and force of the lower pressure rod 14, so that damage to products due to overlarge stress of the suction rod is prevented, the cost is increased, and the working efficiency is reduced.

Further, the lower pressure lever 14 is a hollow columnar structure, a buffer lever 16 is arranged in the lower pressure lever, and the upper end of the buffer lever 16 vertically penetrates through the moving block 17 and can move up and down in the moving block 17; a buffer spring 15 is sleeved on the buffer rod 16, and the buffer spring 15 is positioned between the lower pressing rod 14 and the moving block 17;

servo motor 18 drives movable block 17 and drives depression bar 14 and buffer beam 16 downstream to contact the back with the suction rod, and the in-process that does not stop, movable block 17 compression buffer spring 15 and follow buffer beam 16 and continue downstream, and the effort of depression bar to the suction rod can effectively be cushioned down in this in-process buffer spring 15 and buffer beam 16's design, avoids causing the damage to the product.

Furthermore, a vertical guide rail 12 is arranged on one side of the motor frame 11, and one side of the moving block 17 is movably connected with the vertical guide rail 12 through a sliding block; the moving block 17 is driven by the servo motor 18 to move up and down, and then is lifted and descended along the vertical guide rail 12, so that the accurate butt joint of the lower pressing rod 14 and the suction rod is ensured.

According to another embodiment of the present application, the filling mechanism 13 further comprises a fixing mechanism of the product fixture 30, the fixing mechanism comprises a positioning plate 31, two spacing wheels 29 are arranged on a first side of the positioning plate 31, two corresponding sides of the positioning plate 31 are respectively provided with a fixing clamping jaw 35 with a fixing wheel 34, and the fixing clamping jaw 35 is driven to open or close by a fixing cylinder 33;

when the product jig 30 is installed, the product jig 30 is firstly placed on the positioning plate 31, one side of the positioning plate is limited by the limiting wheel 29, and then the fixing cylinder 33 drives the fixing clamping jaw 35 to limit the other two sides of the product jig 30, so that the product jig 30 installed each time is fixed at the same position, and the filling precision of the product is improved;

the product jig 30 is positioned by the limiting wheel 29 and the fixed wheel 34, so that the product jig 30 is prevented from being damaged mechanically in the positioning process, and the service life of the product jig is prolonged.

The integrated ultrathin inductance automatic filling machine is respectively provided with the vibrating disc feeding mechanism, the clamping jaw positioning mechanism, the detection mechanism, the servo pressing mechanism and the horizontally movable filling mechanism, so that the inductance filling automation is realized, the working efficiency is greatly improved, and the cost is reduced; the clamping jaw positioning mechanism accurately positions the inductor and works in cooperation with the filler plate, so that the filling precision of the inductor is effectively improved, and the production yield is improved; the detection mechanism detects whether the corresponding suction nozzle has inductance or not, if not, the servo pressing mechanism does not work, the suction nozzle continues to rotate, the air release is prevented, and the working efficiency is further improved.

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

1. An integrally formed ultrathin inductance automatic filling machine is characterized by comprising a workbench, wherein a divider is arranged on the workbench and is provided with a turntable;

2. The integrated ultrathin inductance automatic filling machine as claimed in claim 1, wherein the feeding mechanism comprises a vibrating disk arranged on the worktable and a direct vibrating flow channel connected with the vibrating disk, and one end of the direct vibrating flow channel is positioned below the corresponding suction nozzle.

3. The integrated ultrathin inductance automatic filling machine as claimed in claim 1, wherein a guide rod is arranged on one side of the suction rod, the guide rod vertically penetrates through the turntable and can move up and down relative to the turntable, and the upper end of the suction rod is fixedly connected with the top of the guide rod through a connecting plate.

4. The integrated ultrathin inductance automatic filling machine as claimed in claim 3, wherein a return spring is sleeved on the suction rod and is positioned between the connecting plate and the turntable.

5. The integrated ultrathin inductance automatic filling machine as claimed in claim 1, wherein the positioning mechanism comprises a positioning frame, a central column is arranged in the middle of the top of the positioning frame, and a placing table is arranged on the top of the central column;

6. The integrated ultrathin inductance automatic filling machine as claimed in claim 1, wherein the servo pressing mechanism comprises a servo motor, a moving block and a pressing rod, the servo motor is mounted on the mounting plate through a motor frame and connected with the moving block through a lead screw, and the moving block is connected with the pressing rod.

7. The integrated ultrathin inductance automatic filling machine as claimed in claim 6, wherein the lower pressure rod is a hollow columnar structure, a buffer rod is arranged in the hollow columnar structure, the upper end of the buffer rod vertically penetrates through the moving block, and the buffer rod can move up and down in the moving block.

8. The integrated ultrathin inductance automatic filling machine as claimed in claim 7, wherein a buffer spring is sleeved on the buffer rod and is positioned between the lower pressing rod and the moving block.

9. The integrated ultrathin inductance automatic filling machine as claimed in claim 6, wherein a vertical guide rail is arranged on one side of the motor frame, and one side of the moving block is movably connected with the vertical guide rail through a sliding block.

10. The integrated ultrathin inductance automatic filling machine as claimed in claim 1, wherein the filling mechanism further comprises a fixing mechanism of a product jig, the fixing mechanism comprises a positioning plate, two spacing wheels are arranged on a first side of the positioning plate, fixing clamping jaws with fixing wheels are respectively arranged on two corresponding sides of the positioning plate, and the fixing clamping jaws are driven to open or close by a fixing cylinder.