CN203503454U

CN203503454U - Automatic inductor manufacturing device

Info

Publication number: CN203503454U
Application number: CN201320404982.1U
Authority: CN
Inventors: 梁东爔; 蒋飞; 李有敏; 覃广荣; 莫本尧; 王璟
Original assignee: Guangdong Fenghua Advanced Tech Holding Co Ltd
Current assignee: Guangdong Fenghua Advanced Tech Holding Co Ltd
Priority date: 2013-07-08
Filing date: 2013-07-08
Publication date: 2014-03-26
Anticipated expiration: 2023-07-08

Abstract

The utility model provides an automatic inductor manufacturing device. The automatic inductor manufacturing device comprises a rack, a rotary table mechanism, a first magnetic core charging mechanism, a glue filling mechanism, a coil winding mechanism, a second magnetic core charging mechanism, a testing mechanism, a discharging mechanism and a control system, wherein the rotary table mechanism, the first magnetic core charging mechanism, the glue filling mechanism, the coil winding mechanism, the second magnetic core charging mechanism, the testing mechanism and the discharging mechanism are erected on the rack; the first magnetic core charging mechanism, the glue filling mechanism, the coil winding mechanism, the second magnetic core charging mechanism, the testing mechanism and the discharging mechanism surround the rotary table mechanism in sequence; the mechanisms are controlled by the control system. The control system instructs the corresponding mechanisms to perform coil winding, coil and magnetic core assembly, magnetic core glue filling, appearance test and electric performance test completely. The manual operation is eliminated, automatic inductor production is completely realized, the production efficiency is high, and the yield of products can be ensured.

Description

The automatic manufacturing installation of inductance

Technical field

The utility model relates to inductor production device, relates in particular to the automatic manufacturing installation of a kind of inductance.

Background technology

At present, the production technology of EP inductance is divided into following steps: 1, the coiling of coil: enamel covered wire completes coil winding through automatic winding equipment and pin coating removal is zinc-plated, completes the making of coil, and coil is put into loop product box and sent into assembly process.2, coil magnetic core assembling: (1) assembly manipulation personnel take out a magnetic core and a coil from magnetic core product box and loop product box, packs coil in magnetic core into by product regulation, then puts into and treats a glue product box, sends into a glue process; (2) some glue operating personnel pour into bonding glue in accordance with regulations in treating a glue product, then product are proceeded to next assembly process; (3) assembling procedure employee takes out the product that has poured into glue from a glue box, then takes out a magnetic core from magnetic core box, and two products are merged to compacting in accordance with regulations, then packs fixedly lacquer disk(-sc) into and fixes, and sends into next baking-curing operation.3, products solidifying: curing process personnel send the product fixing into baking oven and toast, and magnetic core and coil are firmly pasted together, and pack box to be tested after products solidifying is cooling into, send into test step.4, product test: tester takes out product from box to be measured, clamps respectively two pins of product to be measured with two test fixtures of tester, then press the test trigger button of tester, triggers test; After being completed, the test result that operating personnel show according to tester, puts into different box (qualified products are directly put into packing box) product.

1), operation is many, during batch production, will drop into more personnel the shortcoming that the existing mode of production exists has:, cost of labor is high; 2), owing to being that a plurality of operations are all handwork, speed is slow, causes production efficiency low; 3), adopt hand-sorting product, inevitably have error, so reliability and stability can not be guaranteed.

Utility model content

Based on this, be necessary to provide a kind of and can simplify working process, the automatic manufacturing installation of inductance of labor-saving automation.

Its technical scheme is.The automatic manufacturing installation of inductance, comprises frame, rotating disk mechanism, the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency and control system;

Described rotating disk mechanism, the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency are erected in described frame;

Described the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency are successively around described rotating disk mechanism setting;

Described rotating disk mechanism, the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency are controlled by described control system.

Therein in an embodiment, described rotating disk mechanism comprises rotating disk, signal wheel, driving shaft and drive motors, described rotating disk is arranged on drive motors by driving shaft, described rotating disk is divided into the first feeding station successively, coiling station, encapsulating station, the second feeding station, test station, blanking station, described signal wheel is located at the outer ring of rotating disk, described signal wheel is provided with many group codings, the first described feeding station, coiling station, encapsulating station, the second feeding station, test station, blanking station is a corresponding group coding respectively, described the first magnetic core mechanism and the corresponding setting of described the first feeding station, described encapsulating mechanism and the corresponding setting of described coiling station, described coil-winding mechanism and described coiling station arrange, described the second magnetic core feed mechanism and the corresponding setting of described the second feeding station, the setting corresponding to described test station of described mechanism for testing, described cutting agency and the corresponding setting of described blanking station.

In an embodiment, described in each, station also arranges a sensitive switch therein, and correct to monitor each operation running, described in each, station also arranges an optic fibre detector, to guarantee that each operation accurately triggers.

In an embodiment, inspection station eventually is also set on described rotating disk therein, the described station of inspection is eventually between the first feeding station and blanking station, and correspondence arranges inspection optic fibre detector eventually.

Therein in an embodiment, described encapsulating mechanism comprises syringe, glue pouring machine, and described syringe is communicated with glue pouring machine, described glue pouring machine is provided with photoelectricity trigger head, when photoelectricity trigger head detects the first magnetic core, control system is sent instruction, and glue pouring machine starts syringe plastic emitting until encapsulating operation completes.

Therein in an embodiment, described the second magnetic core feed mechanism comprises second dish that shakes, second groove that shakes, mechanical arm, the second actuator, described second dish that shakes, second groove that shakes, mechanical arm is connected with the second actuator respectively, described second groove that shakes is communicated with the second shake dish and rotating disk, the second the second feeding station next-door neighbour who shakes on the outlet of groove and rotating disk, when shaking to coil from second, the second magnetic core shakes, falling into second groove that shakes shakes to end, then mechanical arm captures the second magnetic core and is placed on the first magnetic core, and the second magnetic core is applied to a downward thrust, guarantee the first magnetic core, coil, the second magnetic core bonding.

In an embodiment, described mechanism for testing comprises two pins of being drawn by electrode therein, and test actuator, and described pin is connected in test actuator.

Therein in an embodiment, also comprise sorting mechanism, described sorting mechanism comprises outward appearance sorting component, electrical property sorting component, described outward appearance sorting component is arranged between described winding mechanism and encapsulating mechanism, and described electrical property sorting component is arranged between described cutting agency and mechanism for testing.

Therein in an embodiment, control system comprises a plurality of programmable logic controller (PLC)s and auxiliary circuit, and described programmable logic controller (PLC) is corresponding and be electrically connected to by auxiliary circuit one by one with the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency, sorting mechanism respectively.

Therein in an embodiment, also comprise curing mechanism, described curing mechanism comprises tunnel curing oven, transfer assembly, solidify motor, described transfer assembly is connected with curing motor, described tunnel curing oven is provided with inner chamber, and described transfer assembly is through inner chamber setting, and described curing mechanism is controlled by control system.

The first magnetic core feed mechanism of the above-mentioned automatic manufacturing installation of inductance, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency are successively around rotating disk mechanism setting.The assembling of the coiling of coil, coil and magnetic core, the encapsulating of magnetic core, outward appearance test, electric performance test, completely by control system, indicates corresponding mechanism to fulfil assignment.Save manual work, realize automated production inductance completely, production efficiency is high, and can guarantee the yield of product.

Accompanying drawing explanation

Fig. 1 is the stereogram of the automatic manufacturing installation of inductance described in the utility model;

Fig. 2 is the partial enlarged drawing of the automatic manufacturing installation of inductance described in the utility model;

Description of reference numerals

100, the automatic manufacturing installation of inductance, 10, frame, 11, the first framework, 12, the second framework, 13, the 3rd framework, 20, rotating disk mechanism, 210, rotating disk, 220, signal wheel, 21, the first feeding station, 22, coiling station, 23, outward appearance sorting station, 24, encapsulating station, 25, the second feeding station, 26, test station, 27, electrical property sorting station, 28, blanking station, 30, the first magnetic core feed mechanism, 31, first dish that shakes, 32, first groove that shakes, 40, encapsulating mechanism, 41, glue pouring machine, 50, winding mechanism, 60, the second magnetic core feed mechanism, 61, second dish that shakes, 62, second groove that shakes, 63, mechanical arm, 70, mechanism for testing, 80, cutting agency, 81, blanking mechanical arm, 90, sorting mechanism, 91, outward appearance sorting component, 92, electrical property sorting component, 300, control system, 400, curing mechanism.

Embodiment

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.In accompanying drawing, provided better embodiment of the present utility model.But the utility model can be realized in many different forms, be not limited to execution mode described herein.On the contrary, providing the object of these execution modes is make the disclosure of the present utility model understand more comprehensively thorough.

It should be noted that, when element is called as " being fixed on " another element, can directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may have centering elements simultaneously.Term as used herein " vertical ", " level ", " left side ", " right side " and similar statement just for illustrative purposes, do not represent it is unique execution mode.

Unless otherwise defined, all technology of using are herein identical with the implication that belongs to the common understanding of those skilled in the art of the present utility model with scientific terminology.The term using in specification of the present utility model herein, just in order to describe the object of concrete execution mode, is not intended to be restriction the utility model.Term as used herein " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.

Below in conjunction with a plurality of diagrams, embodiment of the present utility model is described further.

Refer to Fig. 1, the automatic manufacturing installation 100 of inductance mainly comprises frame 10, rotating disk mechanism 20, the first magnetic core feed mechanism 30, encapsulating mechanism 40, coil-winding mechanism 50, the second magnetic core feed mechanism 60, mechanism for testing 70, cutting agency 80, sorting mechanism 90 and control system.

Described the first magnetic core feed mechanism 30, encapsulating mechanism 40, coil-winding mechanism 50, the second magnetic core feed mechanism 60, mechanism for testing 70, cutting agency arrange around described rotating disk mechanism 20 according to 80 times.

Frame 10 is frame structure, comprises the first framework 11, the second framework 12 and the 3rd framework 13.The second framework 12, the 3rd framework are listed in the both sides of the first framework 11 for 13 minutes.The height of the first framework 11 is higher than the second framework 12, the 3rd framework 13.

Being arranged on the first framework 11 of rotating disk mechanism 20 levels, rotating disk mechanism 20 is controlled by control system.Rotating disk mechanism 20 comprises rotating disk 210, signal wheel 220, optoelectronic switch, driving shaft and drive motors.Rotating disk 30 is arranged on drive motors by driving shaft.Under the driving of drive motors, driving shaft drives dial rotation.In the illustrated embodiment, rotating disk is in the form of annular discs, and rotating disk is divided into the first feeding station 21, coiling station 22, outward appearance sorting station 23, encapsulating station, the 24, second feeding station 25, test station 26, electrical property sorting station 27, blanking station 28 successively.Signal wheel 220 arranges along the outer ring at rotating disk, and signal wheel 220 is provided with many group codings.Aforesaid the first feeding station 21, coiling station 22, outward appearance sorting station 23, encapsulating station 24, the second feeding station 25, test station 26, electrical property sorting station 27, blanking station 28 is a corresponding group coding respectively.The first magnetic core feed mechanism 30 and the corresponding setting of described the first feeding station 21, described encapsulating mechanism 40 and the corresponding setting of described encapsulating station 24, the station 22 that winds the line described in described winding mechanism and 50 arranges, described the second magnetic core feed mechanism 60 and the corresponding setting of described the second feeding station 25, described mechanism for testing 70 and the corresponding setting of described test station 26, described cutting agency 80 and the corresponding setting of described blanking station 28.On each station an optic fibre detector is also set, to guarantee that each operation can accurately trigger.On each station a sensitive switch is also set, monitors each operation running correct.In other embodiments, inspection station eventually is also set on rotating disk, examines eventually station between the first feeding station and blanking station, and corresponding optic fibre detector is set, for stopping product, again forward the first feeding station to.On rotating disk, be also provided with assembly station for the first time, assembly station, between encapsulating station and coiling station, is done outward appearance before encapsulating to the first magnetic core having wound the line and is detected for the first time, guarantees that coil winding is normal.

The first magnetic core feed mechanism 30 is arranged on the second framework 12.The first magnetic core feed mechanism 30 comprises first dish the 31, first shake groove 32, the first actuator that shake.The first shake groove 32 is communicated with first dish 31 and rotating disk 20, the first outlet of groove 32 of shaking of shaking and is communicated with the first magnetic core feeding station 30 on rotating disk 30.First dish 31 and first grooves 32 that shake that shake are connected with the first actuator respectively.The first actuator drives first dish 31 vibrations of shaking, and when the first magnetic core shakes from first dish that shakes, by first groove that shakes, directly falls into the first feeding station of rotating disk.At this, the first actuator is stepping motor.

When the first magnetic core rotates and arrive coiling station on rotating disk, 50 pairs of the first magnetic cores of winding mechanism carry out the coiling of coil.

Encapsulating mechanism 40 is controlled by control system and for carrying out gluing to completing the first magnetic core of coil winding.Encapsulating mechanism 40 comprises syringe, glue pouring machine 41.Syringe is communicated with glue pouring machine 41.Glue pouring machine 41 is provided with photoelectricity trigger head, and when photoelectricity trigger head detects the first magnetic core, control system is sent instruction, and glue pouring machine starts syringe plastic emitting until encapsulating operation completes.

The second magnetic core feed mechanism 60 is arranged on the 3rd framework 13 and is controlled by control system.The second magnetic core feed mechanism 60 comprises second dish the 61, second shake groove 62, mechanical arm 63, the second actuator that shake.Second dish the 61, second shake groove 62, the mechanical arm 63 that shake is connected with the second actuator respectively.The second shake groove 62 is communicated with second the shake outlet of groove 62 of dish 61 and rotating disk 210, the second of shaking and is close to the second feeding station 25 on rotating disk 210.When the second magnetic core 61 shakes from second dish that shakes, falling into second groove 62 that shakes shakes to end, then mechanical arm 63 captures the second magnetic cores and is placed on the first magnetic core, and the second magnetic core is applied to a downward thrust, guarantees the bonding of the first magnetic core, coil, the second magnetic core.At this, the second actuator is stepping motor.

Mechanism for testing 70 comprises two pins of being drawn by electrode, and test actuator.Pin is connected in test actuator.Mechanism for testing is controlled by control system.When product proceeds to after test sub-station, control system is sent instruction, and test actuator drives pin clamp the two ends of above-mentioned coil and carry out electric performance test.

Cutting agency 80 comprises blanking mechanical arm 81, blanking actuator, and blanking mechanical arm 81 is connected with blanking actuator.Cutting agency 80 is controlled by control system.When product introduction arrives blanking station, control system is sent instruction, and blanking actuator drives blanking mechanical arm 81 to capture products and also sends into subsequent processing.

Sorting mechanism 90 comprises outward appearance sorting component, electrical property sorting component.Outward appearance sorting component is arranged between winding mechanism and encapsulating mechanism.Between cutting agency and mechanism for testing that electrical property sorting component arranges.Outward appearance sorting component, electrical property sorting component are cylinder (diagram does not indicate) in the illustrated embodiment, and are controlled by control system, at defective products, arrive after predetermined station, send order-driven cylinder move by control system, realize sorting.

The automatic manufacturing installation 100 of inductance further comprises curing mechanism 400, and curing mechanism comprises tunnel curing oven, transfer assembly, solidifies motor, and transfer assembly is connected with curing motor.Tunnel curing oven is provided with inner chamber, and transfer assembly is through inner chamber setting.Curing mechanism is controlled by control system.

In the illustrated embodiment, control system comprises a plurality of PLC(programmable logic controller (PLC)s) and auxiliary circuit, PLC is corresponding and be electrically connected to by auxiliary circuit one by one with the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency, sorting mechanism respectively.Above-mentioned control system can accomplish that overall process controls automatically; Configuration man-machine interface, various operations all can arrange on interface, facilitate user.

Below in conjunction with its using method, be described further.

First, the first magnetic core is through first dish 31 sortings of shaking, and by first groove 32 that shakes, delivers to the first feeding station 21 of rotating disk 210; Then, by electric machine rotation, the first magnetic core is delivered to coiling station 22, corresponding sensitive switch, optic fibre detector start, and winding mechanism 50 carries out the coiling of coil.The complete coil of coiling falls into magnetic core, and rotating disk is rotated further, and then goes to the first assembly station, and whether the coiling of magnetic test coil is correct, as incorrect, will to substandard product, reject in outward appearance grder man position.Qualified product continues to forward to encapsulating station 24 by rotating disk, by encapsulating mechanism 40, carries out encapsulating.Encapsulating is complete delivers to the second feeding station 25 by rotating disk, by mechanical arm 63, from the second shake groove 62, is drawn the second magnetic cores and delivers to rotating disk 210 and the first magnetic core and coil and complete assembling.Assemble complete product and forward test station to, test fixture, by air cylinder driven, is clamped product two pins and is tested, and is completed just to send into electrical property sorting station and carry out sorting, rejects substandard product.Qualified products are delivered to blanking station, by manipulator folder, from rotating disk, are sent into tunnel curing oven and are cured.

In function setting, get intellectuality simultaneously, when occurring that wireless, outward appearance has problem, sorting fault, equipment meeting automatic alarm, shutdown, and show fault message, handled easily personnel fast processing.The model machine of producing according to technique scheme, speed of production can reach 800-1000/per hour, it is 100% qualified that accuracy reaches.

The above embodiment has only expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims

1. the automatic manufacturing installation of inductance, is characterized in that, comprises frame, rotating disk mechanism, the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency and control system;

2. the automatic manufacturing installation of inductance as claimed in claim 1, it is characterized in that, described rotating disk mechanism comprises rotating disk, signal wheel, driving shaft and drive motors, described rotating disk is arranged on drive motors by driving shaft, described rotating disk is divided into the first feeding station successively, coiling station, encapsulating station, the second feeding station, test station, blanking station, described signal wheel is located at the outer ring of rotating disk, described signal wheel is provided with many group codings, the first described feeding station, coiling station, encapsulating station, the second feeding station, test station, blanking station is a corresponding group coding respectively, described the first magnetic core mechanism and the corresponding setting of described the first feeding station, described encapsulating mechanism and the corresponding setting of described coiling station, described coil-winding mechanism and described coiling station arrange, described the second magnetic core feed mechanism and the corresponding setting of described the second feeding station, the setting corresponding to described test station of described mechanism for testing, described cutting agency and the corresponding setting of described blanking station.

3. the automatic manufacturing installation of inductance as claimed in claim 2, it is characterized in that, described in each, station also arranges a sensitive switch, correct to monitor each operation running, described in each, station also arranges an optic fibre detector, to guarantee that each operation accurately triggers.

4. the automatic manufacturing installation of inductance as claimed in claim 2, is characterized in that, inspection station eventually is also set on described rotating disk, and the described station of inspection is eventually between the first feeding station and blanking station, and correspondence arranges inspection optic fibre detector eventually.

5. the automatic manufacturing installation of inductance as claimed in claim 1, it is characterized in that, described encapsulating mechanism comprises syringe, glue pouring machine, described syringe is communicated with glue pouring machine, described glue pouring machine is provided with photoelectricity trigger head, when photoelectricity trigger head detects the first magnetic core, control system is sent instruction, and glue pouring machine starts syringe plastic emitting until encapsulating operation completes.

6. the automatic manufacturing installation of inductance as claimed in claim 1, it is characterized in that, described the second magnetic core feed mechanism comprises second dish that shakes, second groove that shakes, mechanical arm, the second actuator, described second dish that shakes, second groove that shakes, mechanical arm is connected with the second actuator respectively, described second groove that shakes is communicated with the second shake dish and rotating disk, the second the second feeding station next-door neighbour who shakes on the outlet of groove and rotating disk, when shaking to coil from second, the second magnetic core shakes, falling into second groove that shakes shakes to end, then mechanical arm captures the second magnetic core and is placed on the first magnetic core, and the second magnetic core is applied to a downward thrust, guarantee the first magnetic core, coil, the second magnetic core bonding.

7. the automatic manufacturing installation of inductance as claimed in claim 1, is characterized in that, described mechanism for testing comprises two pins of being drawn by electrode, and test actuator, and described pin is connected in test actuator.

8. the automatic manufacturing installation of inductance as claimed in claim 1, it is characterized in that, also comprise sorting mechanism, described sorting mechanism comprises outward appearance sorting component, electrical property sorting component, described outward appearance sorting component is arranged between described winding mechanism and encapsulating mechanism, and described electrical property sorting component is arranged between described cutting agency and mechanism for testing.

9. the automatic manufacturing installation of inductance as claimed in claim 8, it is characterized in that, control system comprises a plurality of programmable logic controller (PLC)s and auxiliary circuit, and described programmable logic controller (PLC) is corresponding and be electrically connected to by auxiliary circuit one by one with the first magnetic core feed mechanism, encapsulating mechanism, coil-winding mechanism, the second magnetic core feed mechanism, mechanism for testing, cutting agency, sorting mechanism respectively.

10. the automatic manufacturing installation of inductance as described in claim 1-9 any one, it is characterized in that, also comprise curing mechanism, described curing mechanism comprises tunnel curing oven, transfer assembly, solidify motor, described transfer assembly is connected with curing motor, and described tunnel curing oven is provided with inner chamber, described transfer assembly is through inner chamber setting, and described curing mechanism is controlled by control system.