CN111739721A

CN111739721A - Ultra-thin inductance hot-pressing shaping process wiring equipment

Info

Publication number: CN111739721A
Application number: CN202010750356.2A
Authority: CN
Inventors: 郑生广
Original assignee: Jiangsu Huaci Electronic Technology Co ltd
Current assignee: Jiangsu Huaci Electronic Technology Co ltd
Priority date: 2020-07-30
Filing date: 2020-07-30
Publication date: 2020-10-02

Abstract

The invention provides connecting equipment for an ultrathin inductance hot-pressing shaping process, which comprises a filling machine, a detection mechanism, a feeding mechanism, a powder filling machine, a hot-pressing unit and a demolding mechanism, wherein the filling machine is arranged on the detection mechanism; an upper transfer table is arranged on the front side of the feeding mechanism, and the feeding mechanism is connected with the detection mechanism; a conveying belt is arranged between the upper transfer table and the hot press unit, and a transfer structure is arranged on the front side of the upper transfer table; the hot pressing unit comprises two hot presses and a return line, and the return line is longitudinally arranged between the two hot presses; a lower transfer table is arranged on the front side of the demoulding mechanism, and a backflow belt is arranged between the lower transfer table and a backflow line; the hot press is provided with a backflow moving mechanism, and the front side of the hot press is provided with a material pushing cylinder; the jig is moved to the backflow belt by the backflow line through the first backflow cylinder; one side of the demoulding mechanism is provided with a demoulding moving mechanism. The invention improves the automation degree of equipment, reduces the processing cost, improves the working efficiency and the yield of products, and improves the product performance and the quality stability.

Description

Ultra-thin inductance hot-pressing shaping process wiring equipment

Technical Field

The invention relates to the technical field of ultrathin inductor processing equipment, in particular to connecting equipment for a hot-pressing shaping process of an ultrathin inductor.

Background

The inductor processing generally comprises four procedures of filling materials into the jig, filling powder, hot pressing and demolding. Inductance processing equipment among the prior art needs manual operation usually, and degree of automation is lower, and is consuming time longer, and the cost of labor is high, and the finished product yield of processing is low, performance stability is poor.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the connecting line equipment for the ultrathin inductor hot-pressing shaping process, which realizes full-automatic processing, reduces the labor cost and improves the working efficiency and the yield.

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

a connecting line device for an ultrathin inductance hot-pressing shaping process comprises a filling machine, a detection mechanism, a feeding mechanism, a powder filling machine, a hot-pressing unit and a demolding mechanism;

the filling machine and the powder filling machine are respectively arranged on the rear side and the right side of the detection mechanism;

an upper transfer table is arranged on the front side of the feeding mechanism, the feeding mechanism is connected with the detection mechanism and can move the jig to the detection mechanism, the powder filling machine and the upper transfer table in sequence from the filling machine;

a conveying belt is arranged between the upper transfer table and the hot press unit, and a transfer structure for moving the jig to the conveying belt is arranged on the front side of the upper transfer table;

the hot pressing unit comprises two hot presses and a return line, and the return line is longitudinally arranged between the two hot presses; a lower transfer table is arranged on the front side of the demolding mechanism, a backflow belt is arranged between the lower transfer table and the backflow line, and the backflow belt is arranged below the conveying belt in parallel;

each hot press is provided with a backflow moving mechanism, and the jig can be moved to the backflow line from the hot press by the backflow moving mechanism; the jig is moved to the backflow belt by the backflow line through a first backflow cylinder; a material pushing cylinder is arranged on the front side of the hot press and can move the jig on the conveying belt into the hot press;

and a demolding moving mechanism is arranged on one side of the demolding mechanism, and the demolding moving mechanism can move the jig to the demolding mechanism and the filling machine in sequence through the backflow belt.

Further, the feeding mechanism comprises a first moving mechanism, a second moving mechanism and a third moving mechanism, the first moving mechanism and the third moving mechanism are both longitudinally arranged, and the second moving mechanism is transversely arranged at the front ends of the first moving mechanism and the third moving mechanism; the first moving mechanism is in signal connection with the detection mechanism;

the first moving mechanism can move the jig from the filling machine to the position below the detection mechanism; the second moving mechanism can push the jig into and pull the jig out of the powder filling machine; the third moving mechanism can push the jig onto the upper transfer table.

Furthermore, an NG cylinder is arranged on one side behind the detection mechanism.

Further, the backflow moving mechanism comprises a fourth moving mechanism, a first lifting table, a fifth moving mechanism, a backflow table and a backflow line; the first lifting table is arranged on the rear side of the fourth moving mechanism, and the fourth moving mechanism can move the jig from the hot press to the first lifting table;

the backflow platform is arranged at the rear end of the backflow line, and a second backflow cylinder is arranged on the rear side of the backflow platform; the fifth moving mechanism can move the jig from the first lifting table to the backflow table, and the second backflow cylinder moves the jig to the backflow line.

Furthermore, a heat dissipation fan is arranged on the rear side of the hot press, and the fifth moving mechanism can drive the jig to move to the position below the heat dissipation fan.

Further, the demolding moving mechanism comprises a moving cylinder arranged on the lower side of the conveying belt, a longitudinal moving mechanism, a second lifting table and a sixth moving mechanism;

the movable cylinder can move the jig to one side of the longitudinal moving mechanism from the backflow belt, and the demolding mechanism is provided with a jig inlet and a jig outlet which are transversely arranged; the longitudinal moving mechanism sequentially moves the jig to the inlet and the outlet and the second lifting platform;

a feeding cylinder and a discharging cylinder are respectively arranged on the left side and the right side of the inlet and the outlet, the jig is pushed into the demolding mechanism by the feeding cylinder, and the jig can be pushed out of the demolding mechanism by the discharging cylinder; the sixth moving mechanism is arranged above the second lifting table and can move the jig to the filling machine from the second lifting table.

Further, the sixth moving mechanism comprises a sixth moving module and a lifting clamping jaw which are transversely arranged, and the lifting clamping jaw is connected with the sixth moving module and is positioned above the second lifting platform.

Furthermore, the hot press units are provided with two groups, the detection mechanism, the demolding mechanism and the powder filling machine jointly form a processing combination device, and the two groups of hot press units are symmetrically arranged on two sides of the processing combination device.

Compared with the prior art, the invention has the beneficial technical effects that: according to the connecting line equipment for the ultrathin inductor hot-pressing shaping process, the automation degree of the equipment is improved, the processing cost is reduced, the working efficiency and the product yield are improved, and the product performance and the quality stability are improved; in addition, the conveying belt and the backflow belt are respectively arranged to move the jig, so that the jig can be recycled, the demand and the equipment cost of the jig are greatly reduced, the transfer and storage procedures of the jig are reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic top view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of an embodiment of the present invention;

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

FIG. 4 is a schematic top view of a detecting mechanism and a feeding mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a detecting mechanism and a feeding mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a hot press unit according to an embodiment of the present disclosure;

FIG. 7 is another schematic structural diagram of a hot press assembly according to an embodiment of the present disclosure;

FIG. 8 is a schematic top view of the mold releasing mechanism and the mold releasing moving mechanism in the embodiment of the present invention;

fig. 9 is a schematic perspective view of the demolding mechanism and the demolding moving mechanism in the embodiment of the invention.

In the figure: the device comprises a material filling machine 1, a horizontal moving mechanism 2, a sixth moving mechanism 3, a demoulding mechanism 4, a material loading mechanism 5, a detection mechanism 6, a conveying belt 7, a powder filling machine 8, a return line 9, a material pushing cylinder 10, a hot pressing unit 11, a first moving mechanism 12, a third moving mechanism 13, a second moving mechanism 14, an NG cylinder 15, a return belt 16, a moving cylinder 17, a hot pressing machine 18, a first return cylinder 19, a fifth moving mechanism 20, a heat radiating fan 21, a first lifting platform 22, a fourth moving mechanism 23, a second return cylinder 24, a longitudinal moving mechanism 25, a feeding cylinder 26, a discharging cylinder 27, a second lifting platform 28, a lifting jaw 29, a sixth moving module 30, an upper middle turntable 31 and a lower middle turntable 32.

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, a connecting line device for ultra-thin inductor hot-pressing molding process includes a filler 1, a detection mechanism 6, a feeding mechanism 5, a powder filling machine 8, a hot-pressing unit 11 and a demolding mechanism 4;

specifically, the filling machine 1 and the powder filling machine 8 are respectively arranged on the rear side and the right side of the detection mechanism 6, the filling machine 1 is used for filling product inductors into jigs, the filling machine 1 is provided with a horizontal moving mechanism 2, and the horizontal moving mechanism 2 is used for moving the jigs; the detection mechanism 6 is used for detecting whether the jig filled by the filling machine 1 is filled with products or not, and the powder filling machine 8 is used for filling powder into the products in the jig;

an upper transfer table 31 is arranged on the front side of the feeding mechanism 5, the feeding mechanism 5 is connected with the detection mechanism 6, the jigs filled with the products can be sequentially moved to the detection mechanism 6 from the filling machine 1 for detection, the jigs are moved to the powder filling machine 8 for powder filling after detection is finished, and finally the jigs are moved to the upper transfer table 31;

a conveying belt 7 is arranged between the upper transfer table 31 and the hot press unit 11, and a transfer structure for moving the jig to the conveying belt 7 is arranged on the front side of the upper transfer table 31; after powder filling is finished, the feeding mechanism 5 moves the jig to the upper transfer table 31, and the moving mechanism drives the jig to move to the conveying belt 7;

the hot press unit 11 comprises two hot presses 18 and a return line 9, and the hot presses 18 are used for hot press forming of the powder-filled product in the jig; the return line 9 is longitudinally arranged between the two hot presses 18; a lower transfer table 32 is arranged at the front side of the demoulding mechanism 4, a backflow belt 16 is arranged between the lower transfer table 32 and the front end of the backflow line 9, and the backflow belt 16 is arranged below the conveying belt 7 in parallel;

each hot press 18 is provided with a backflow moving mechanism, and the backflow moving mechanism is used for moving out the jig loaded with the hot-pressed product from the hot press 18 and moving the jig to the backflow line 9; a first backflow cylinder 19 is arranged on one side, away from the backflow belt 16, of the front end of the backflow line 9, and the first backflow cylinder 19 is used for pushing the jig onto the backflow belt 16;

a material pushing cylinder 10 is arranged on the front side of the hot press 18, a product after powder filling is moved to the front side of the hot press 18 through a conveying belt 7, and then the product is pushed into the hot press 18 by the material pushing cylinder 10 for shaping;

a demoulding moving mechanism is arranged on one side of the demoulding mechanism 4, and is used for transferring the jig on the backflow belt 16 into the demoulding mechanism for demoulding, and then moving the empty jig after demoulding to the filling machine 1 for recycling;

during work, the empty jig is moved to a filling area of the filling machine 1 by the horizontal moving mechanism 2 for filling, after the filling is completed, the horizontal moving mechanism 2 drives the jig filled with the product to move to the position below the feeding mechanism 5, the feeding mechanism 5 drives the jig to move to the position below the detection mechanism 6 for detection, and then the jig is driven to move continuously to the powder filling machine 8 for filling powder;

after the powder filling is finished, the feeding mechanism 5 drives the jig to move to the upper transfer table 31 again, and the conveying belt 7 is driven by the moving mechanism; the conveying belt 7 drives the jig to move to the hot press 18, the jig is pushed into the hot press 18 by the material pushing cylinder 10 for hot pressing, and after the hot pressing is completed, the jig is moved out by the backflow moving mechanism and moved to the backflow belt 16;

the jig is driven by the backflow belt 16 to move to the lower transfer table 32, the demolding moving mechanism drives the jig to move to the demolding mechanism 4 for demolding, and the empty jig is moved to the horizontal moving mechanism 2 of the filling machine 1 for recycling.

Preferably, the feeding mechanism 5 comprises a first moving mechanism 12, a second moving mechanism 14 and a third moving mechanism 13, the first moving mechanism 12 and the third moving mechanism 13 are both arranged longitudinally, and the second moving mechanism 14 is transversely arranged at the front ends of the first moving mechanism 12 and the third moving mechanism 13; the first moving mechanism 12 is in signal connection with the detection mechanism 6;

the first moving mechanism 12 is used for moving the jig from the horizontal moving mechanism 2 to the position below the detection mechanism 6, the detection structure is qualified, the jig is driven by the first moving mechanism 12 to continuously move forwards to the second moving mechanism 14, the jig is driven by the second moving mechanism 14 to move rightwards to be filled with powder in the powder filling machine 8, after powder filling is finished, the jig is pulled out by the second moving mechanism 4 and moved to the third moving mechanism 13, and the jig is moved forwards to the upper transfer table 31 by the third moving mechanism 13;

detection mechanism 6's rear one side is equipped with NG cylinder 15, and when detecting that the structure is unqualified, first moving mechanism 12 drive tool rearward movement to NG cylinder 15 department, NG cylinder 15 pushes it to the department of retrieving left, improves work efficiency.

Optionally, the reflow movement mechanism includes a fourth movement mechanism 23, a first lifting table 22, a fifth movement mechanism 20, a reflow table, and a reflow line 9; the first lifting platform 22 is arranged at the rear side of the fourth moving mechanism 23, and the fourth moving mechanism 23 is used for moving the hot-pressed product and the jig from the hot press 18 to the first lifting platform 22;

the reflux table is arranged at the rear end of the reflux line 9, and a second reflux cylinder 24 is arranged at the rear side of the reflux table; after the product reaches the first lifting table 22, the first lifting table 24 is lowered to the same height as the reflux table, the jig is moved to the reflux table from the first lifting table 22 by the fifth moving mechanism 20, and the jig is moved to the reflux line 9 by the second reflux cylinder 24; then the first lifting platform 22 is lifted to the initial height and enters the next cycle;

a heat dissipation fan 21 is arranged at the rear side of the hot press 18, and the heat dissipation fan 21 is used for dissipating heat of a hot-pressed product and accelerating cooling; the fifth moving mechanism 20 drives the jig to move to the reflow stage, and the jig is first cooled by the cooling fan 21.

Preferably, the demolding moving mechanism comprises a moving cylinder 17 arranged on the lower side of the conveying belt 7, a longitudinal moving mechanism 25, a second lifting platform 28 and a sixth moving mechanism 3;

when the device works, the jig is moved to one side of the longitudinal moving mechanism 25 by the moving cylinder 17 through the backflow belt 16, the demolding mechanism 4 is provided with a jig inlet and outlet which are transversely arranged, and the left side and the right side of the inlet and the right side are respectively provided with a feeding cylinder 26 and a discharging cylinder 27; the longitudinal moving mechanism 25 moves the jig to the entrance and the second lifting table 28 in sequence;

the feeding cylinder 26 pushes the jig into the demolding mechanism 4, and the discharging cylinder 27 pushes the jig out of the demolding mechanism 4; the sixth moving mechanism is arranged above the second lifting platform 28 of the jig 3, after the jig reaches the second lifting platform 28, the second lifting platform 28 is lifted to the same height with the horizontal moving mechanism 2, and the jig is moved to the horizontal moving mechanism 2 by the sixth moving mechanism 3 for recycling; after the jig is removed, the second lifting platform 28 is lowered to the initial position, and the next cycle is performed.

In some embodiments of the present invention, the sixth moving mechanism 3 includes a sixth moving module 30 and a lifting/lowering clamping jaw 29, which are transversely disposed, and the lifting/lowering clamping jaw 29 is connected to the sixth moving module 30 and located above the second lifting/lowering platform 28; the sixth moving module 30 is used for driving the lifting clamping jaw 29 to horizontally move between the second lifting platform 28 and the upper part of the horizontal moving mechanism 2 so as to transfer the jig.

In other embodiments of the present invention, when the equipment is installed, two sets of hot press units 11 may be arranged according to the requirement of capacity, and assuming that the detection mechanism 6, the demolding mechanism 4 and the powder filling machine 8 jointly form a processing combination device, the two sets of hot press units 11 are symmetrically arranged on two sides of the processing combination device, so as to greatly improve the working efficiency and save the occupied space of the equipment.

According to the connecting line equipment for the ultrathin inductor hot-pressing shaping process, the automation degree of the equipment is improved, the processing cost is reduced, the working efficiency and the product yield are improved, and the product performance and the quality stability are improved; in addition, the conveying belt and the backflow belt are respectively arranged to move the jig, so that the jig can be recycled, the demand and the equipment cost of the jig are greatly reduced, the transfer and storage procedures of the jig are reduced, and the working efficiency is 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. A connecting line device for an ultrathin inductance hot-pressing shaping process is characterized by comprising a filling machine, a detection mechanism, a feeding mechanism, a powder filling machine, a hot-pressing unit and a demolding mechanism;

2. The ultra-thin inductor hot-pressing molding process wiring device as claimed in claim 1, wherein the feeding mechanism comprises a first moving mechanism, a second moving mechanism and a third moving mechanism, the first moving mechanism and the third moving mechanism are both arranged longitudinally, and the second moving mechanism is transversely arranged at the front ends of the first moving mechanism and the third moving mechanism; the first moving mechanism is in signal connection with the detection mechanism;

3. The connecting line equipment for the ultrathin inductance hot-pressing molding process of claim 1, wherein an NG cylinder is arranged on one side behind the detection mechanism.

4. The ultra-thin inductor hot-pressing shaping process connection equipment as claimed in claim 1, wherein the reflow moving mechanism comprises a fourth moving mechanism, a first lifting table, a fifth moving mechanism, a reflow table and a reflow line; the first lifting table is arranged on the rear side of the fourth moving mechanism, and the fourth moving mechanism can move the jig from the hot press to the first lifting table;

5. The ultra-thin inductance hot pressing molding process connecting line equipment as claimed in claim 4, wherein a heat dissipation fan is arranged at the rear side of the hot press, and the fifth moving mechanism can drive the jig to move below the heat dissipation fan.

6. The ultra-thin inductance hot pressing molding process connecting line equipment as claimed in claim 1, wherein the demolding moving mechanism comprises a moving cylinder, a longitudinal moving mechanism, a second lifting table and a sixth moving mechanism, wherein the moving cylinder, the longitudinal moving mechanism, the second lifting table and the sixth moving mechanism are arranged on the lower side of the conveying belt;

7. The ultra-thin inductor hot pressing molding process connecting line equipment as claimed in claim 6, wherein the sixth moving mechanism comprises a sixth moving module and a liftable clamping jaw, the sixth moving module and the liftable clamping jaw are transversely arranged, and the liftable clamping jaw is connected with the sixth moving module and is located above the second lifting table.

8. The ultra-thin inductance hot-pressing molding process connecting line equipment as claimed in claim 1, wherein the hot-pressing units are provided in two groups, the detection mechanism, the demolding mechanism and the powder filling machine jointly form a processing combination device, and the two groups of hot-pressing units are symmetrically arranged on two sides of the processing combination device.