CN112466661B

CN112466661B - Processing equipment of wireless charging coil module

Info

Publication number: CN112466661B
Application number: CN202110133077.6A
Authority: CN
Inventors: 徐耀志; 徐耀立
Original assignee: Liangang Optoelectronic Technology Co ltd
Current assignee: Liangang Optoelectronic Technology Co ltd
Priority date: 2021-02-01
Filing date: 2021-02-01
Publication date: 2021-05-04
Anticipated expiration: 2041-02-01
Also published as: CN112466661A

Abstract

The invention discloses processing equipment of a wireless charging coil module, which comprises a coil storage structure and a clamping and revolving structure, wherein the coil storage structure is arranged above the clamping and revolving structure, a limiting clamping structure is arranged between the coil storage structure and the clamping and revolving structure, an enameled wire is stored in the coil storage structure in a revolving manner, the enameled wire is transferred into the clamping and revolving structure from the coil storage structure under the clamping action of the limiting clamping structure, and the enameled wire in the clamping and revolving structure is revolved according to a fixed inner diameter by the clamping and revolving structure in the continuous transferring process of the enameled wire, so that the enameled wire is revolved to form a coil with a fixed inner diameter. The invention aims at the problems that the wireless charging coil module is easy to shift in the manufacturing process and the manual pressing effect is poor, and the enameled wire revolves in the pressing process, so that the enameled wire has a fixed effect in the revolving process, and the optimal revolving effect is achieved.

Description

Processing equipment of wireless charging coil module

Technical Field

The invention relates to the technical field of wireless charging, in particular to processing equipment of a wireless charging coil module.

Background

In recent years, charging technologies for electronic devices have been rapidly developed, for example, a quick charging technology and a wireless charging technology, and among them, the wireless charging technology is favored by many consumers because it has an advantage of no need of a charging wire. The existing wireless charging technology usually adopts an electromagnetic induction manner, and a power supply device (such as a charger) transmits energy to a charging device, and the charging device charges a battery by using the received energy and simultaneously provides the battery for operation.

Wireless charging coil module belongs to the key part in the cell-phone charger, and wireless charging coil module includes coil unit and ferrite piece, and the coil unit dish becomes the ring form, and the end bends into the vertical state, adopts the mode of artifical and mechanical device's combination more to the production of coil among the prior art, uses earlier that apparatus for producing accomplishes revolving of coil promptly, then artifical manual to the coil press. The current production mode has the following problems:

firstly, when the coil is revolved by the existing production device, the coil is easy to shift, and the revolving quality is poor;

secondly, due to the problem of coil materials, the coil cannot be pressed and formed in the revolving process, so that the coil needs to be pressed manually after being revolved by the production device, and the coil is formed firmly.

The current production mode efficiency is not high, and has the coil to take place to shift easily and the manual work presses the relatively poor scheduling problem of effect revolutionary in-process to lead to the coil yield low, the quality is not high.

Disclosure of Invention

The invention aims to provide processing equipment of a wireless charging coil module, which aims to solve the problems that in the prior art, a coil is easy to shift when revolving and the yield is low due to poor manual pressing effect.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

the invention provides processing equipment of a wireless charging coil module, which comprises a coil receiving structure and a clamping and revolving structure, wherein the coil receiving structure is arranged above the clamping and revolving structure, a limiting and clamping structure is arranged between the coil receiving structure and the clamping and revolving structure, an enameled wire is received in the coil receiving structure in a revolving manner, the enameled wire is transferred into the clamping and revolving structure from the coil receiving structure under the clamping action of the limiting and clamping structure, and the enameled wire in the clamping and revolving structure is revolved according to a fixed inner diameter by the clamping and revolving structure in the continuous transferring process of the enameled wire, so that the enameled wire is revolved to form a coil with a fixed inner diameter.

As a preferable scheme of the invention, the coil accommodating structure comprises an installation base, a rotating disc is installed at the upper end of the installation base, the enameled wire revolves on the rotating disc, and the end of the enameled wire is vertically downward.

As a preferable scheme of the invention, the clamping and revolving structure comprises a pressing component and a revolving component, the pressing component and the revolving component are coaxial, an end of the enameled wire is arranged between the pressing component and the revolving component, and the enameled wire revolves on the revolving component under the cooperation of the pressing component and the revolving component.

As a preferable aspect of the present invention, the pressing assembly includes a first fixed shaft, a first connecting member is mounted on a side of the first fixed shaft close to the revolving assembly, a first rotating shaft is mounted on a side of the first connecting member close to the revolving assembly, the first rotating shaft is electrically connected to a first motor, the first motor is mounted on the first fixed shaft, a pressing electromagnetic plate is mounted on a side of the first rotating shaft close to the revolving assembly, the first motor drives the first rotating shaft to drive the pressing electromagnetic plate and the first rotating shaft to perform the same rotation movement, the pressing electromagnetic plate is electrically connected to an electromagnetic driving element, and the electromagnetic driving element is configured to control an adsorption state of the pressing electromagnetic plate and the revolving assembly through an electromagnetic action.

As a preferable scheme of the invention, the revolving assembly comprises a second fixed shaft, a second connecting piece is arranged on one side of the second fixed shaft close to the pressing assembly, a second rotating shaft is arranged on one side of the second connecting piece close to the pressing component and is electrically connected with a second motor, the second motor is arranged on the second fixed shaft, one side of the second rotating shaft close to the pressing component is provided with a connecting plate, one side of the connecting plate, which is close to the pressing component, is provided with a revolving inner diameter bulge, the second motor drives the second rotating shaft to drive the revolving inner diameter bulge to rotate as same as the second rotating shaft, the pressing electromagnetic plate adsorbs the revolving inner diameter bulge, so that the end of the enameled wire is pressed, and the enameled wire revolves on the revolving inner-diameter bulge under the pressing action of the pressing electromagnetic plate and the revolving inner-diameter bulge.

As a preferable aspect of the present invention, the first rotating shaft and the second rotating shaft perform the same rotating motion at the same frequency, so that the pressing assembly and the revolving assembly maintain the same rotating frequency to revolve the enamel wire.

As a preferable scheme of the invention, the limiting and clamping structure comprises a sliding block, the sliding block is connected with the mounting base in a sliding way through a slide way arranged on the mounting base, the sliding block is electrically connected with a third motor, the third motor drives the sliding block to slide up and down on the slideway, one side of the sliding block is fixedly connected with two clamping plates, one clamping plate is fixedly connected with the sliding block, the other clamping plate is electrically connected with a fourth motor, the fourth motor drives the other clamping plate connected with the fourth motor to be close to the clamping plate fixedly connected with the sliding block, the enameled wire between the two clamping plates is clamped and driven by the sliding block to slide up and down on the mounting base, so that the end of the enameled wire enters between the pressing component and the revolving component;

the upper end of sliding block is installed and is saw cut the cylinder, just saw cut and install the cutting saw bit on the telescopic shaft of cylinder, saw cut the cylinder and promote the cutting saw bit orientation the enameled wire removes and cuts off the enameled wire.

As a preferable aspect of the present invention, an annular expansion plate is disposed on the pressing electromagnetic plate, a shape of the middle of the annular expansion plate is consistent with that of the inner diameter revolving protrusion, and the annular expansion plate is driven by a fifth motor to approach the pressing electromagnetic plate until the annular expansion plate is embedded with the inner diameter revolving protrusion, so that the annular expansion plate presses the enameled wire coil revolving on the inner diameter revolving protrusion.

As a preferred scheme of the present invention, after the enameled wire revolves for several circles around the revolving inner diameter protrusion, the annular expansion plate presses a coil formed by the enameled wire, and the sawing cylinder pushes the cutting saw blade to cut off the enameled wire.

As a preferable scheme of the present invention, the inner diameter revolving bulge is connected to the connecting plate through a telescopic shaft, the telescopic shaft is electrically connected to a fifth motor, the fifth motor drives the telescopic shaft to contract towards the inside of the connecting plate, and the inner diameter revolving bulge contracts towards the inside of the connecting plate, so that the enameled wire coil on the inner diameter revolving bulge falls.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the clamping and revolving structure is divided into two parts, namely the pressing component and the revolving component, and the pressing component and the revolving component are matched with each other, so that an enameled wire between the pressing component and the revolving component is firstly pressed, and the pressing component and the revolving component do rotary motion with the same frequency, so that the enameled wire revolves on the revolving component.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is a schematic diagram of an overall structure provided in an embodiment of the present invention;

FIG. 2 is a schematic side view of a pressing assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a limiting and clamping structure according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a coil housing structure;

11-mounting a base; 12-a rotating disc;

2-clamping and revolving structure;

21-a pressing assembly; 211-a first fixed axis; 212-a first connector; 213-first rotating shaft plate; 214-pressing the electromagnetic plate; 215-an electromagnetic drive element; 216-annular expansion plate;

22-a turn around assembly;

221-a second fixed shaft; 222-a second connector; 223-a second axis of rotation; 224-a connecting plate; 225-raised around the inner diameter of the revolution; 226-telescopic shaft;

3-limiting and clamping structure; 31-a slider; 32-a slide; 33-a splint; 34-a sawing cylinder; 35-cutting blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 3, the invention provides a processing device of a wireless charging coil module, which comprises a coil storage structure 1 and a clamping revolving structure 2, wherein the coil storage structure 1 is arranged above the clamping revolving structure 2, a limiting clamping structure 3 is arranged between the coil storage structure 1 and the clamping revolving structure 2, an enameled wire is stored on the coil storage structure 1 in a revolving manner, the enameled wire is transferred to the clamping revolving structure 2 from the coil storage structure 1 under the clamping action of the limiting clamping structure 3, and the clamping revolving structure 2 revolves the enameled wire in the clamping revolving structure 2 according to a fixed inner diameter in the continuous transferring process of the enameled wire, so that the enameled wire revolves to form a coil with a fixed inner diameter.

This embodiment is directed against, production coil easily shifts and because the manual work presses the problem that the effect is poor to form the low yield among the prior art, 3 centre gripping enameled wires of spacing clamping structure have been designed and have got into the centre gripping and revolute 2 inside accepting of structure, whole device makes the enameled wire receive the pulling force, the completion is revoluted under the effect of pressing force, the aversion of enameled wire at the in-process of revoluting has been avoided, and increase in the device and press down subassembly 21, complete revoluting the back at the enameled wire and press down to whole enameled wire coil, replaced the manual work and pressed, it is better to press the effect, the yield is improved.

The coil accommodating structure 1 comprises an installation base 11, a rotating disc 12 is installed at the upper end of the installation base 11, an enameled wire revolves on the rotating disc 12, and the end of the enameled wire is vertically downward.

It should be added that, in the embodiment, the enamel wire on the coil housing structure 1 needs to be manually rotated on the rotating disc 12 in advance, and after the enamel wire is manually rotated on the rotating disc 12, the end of the enamel wire needs to be vertically placed downwards, so that the subsequent clamping can be performed.

The clamping and revolving structure 2 comprises a pressing component 21 and a revolving component 22, the pressing component 21 and the revolving component 22 are distributed on the same horizontal line and are coaxial, the end of an enameled wire is arranged between the pressing component 21 and the revolving component 22, and the enameled wire revolves on the revolving component 22 under the cooperation of the pressing component 21 and the revolving component 22.

The pressing component 21 includes a first fixing shaft 211, a first connecting member 212 is installed on one side of the first fixing shaft 211 close to the revolving component 22, a first rotating shaft 213 is installed on one side of the first connecting member 212 close to the revolving component 22, the first rotating shaft 213 is electrically connected to a first motor, the first motor is installed on the first fixing shaft 211, a pressing electromagnetic plate 214 is installed on one side of the first rotating shaft 213 close to the revolving component 22, the first motor drives the first rotating shaft 213 to drive the pressing electromagnetic plate 214 and the first rotating shaft 213 to rotate the same, the pressing electromagnetic plate 214 is electrically connected to an electromagnetic driving element 215, and the electromagnetic driving element 215 controls the suction state of the pressing electromagnetic plate 214 and the revolving component 22 through electromagnetic action.

The revolving assembly 22 includes a second fixing shaft 221, a second connecting member 222 is installed on one side of the second fixing shaft 221 close to the pressing assembly 21, a second rotating shaft 223 is installed on one side of the second connecting member 222 close to the pressing assembly 21, the rotating shaft 223 is electrically connected to a second motor, the second motor is installed on the second fixing shaft 221, a connecting plate 224 is installed on one side of the second rotating shaft 223 close to the pressing assembly 21, a revolving inner diameter protrusion 225 is installed on one side of the connecting plate 224 close to the pressing assembly 21, the second motor drives the second rotating shaft 223 to drive the revolving inner diameter protrusion 225 and the second rotating shaft 223 to do the same rotating motion, the pressing electromagnetic plate 214 adsorbs the revolving inner diameter protrusion 225, so that the end of the enameled wire is pressed, and the enameled wire revolves on the revolving inner diameter protrusion 225 under the pressing effect of the pressing electromagnetic plate 214 and the revolving inner diameter protrusion 225.

It should be added that, the end of the enameled wire is firstly pressed by the pressing component 21 and the revolving component 22, and the frequency of the rotating motion of the first rotating shaft 213 and the second rotating shaft 223 is the same, so that the pressing component 21 and the revolving component 22 keep the same rotating frequency to revolve the enameled wire, and as the revolving inner diameter protrusion 225 on the revolving component 22 protrudes outwards, the enameled wire can revolve on the revolving inner diameter protrusion 225 in the rotating process, thereby achieving the effect of the enameled wire continuously revolving into a coil;

further, this embodiment utilizes the electromagnetic effect to make pressing electromagnetic plate 214 and revolving inner diameter protrusion 225 interconnect together, has guaranteed the pressing effect of pressing subassembly 21 and revolving subassembly 22 to revolving inner diameter protrusion 225 is connected through telescopic shaft 226 with connecting plate 224, and the effect of pressing subassembly 21 and revolving subassembly 22 is strengthened more to pressing subassembly 21 to telescopic shaft 226 being close to.

The limiting and clamping structure 3 comprises a sliding block 31, the sliding block 31 is connected with the mounting base 11 in a sliding manner through a slide rail 32 arranged on the mounting base 11, the sliding block 31 is electrically connected with a third motor, the third motor drives the sliding block 31 to slide up and down on the slide rail 32, one side of the sliding block 31 is fixedly connected with two clamping plates 33, one clamping plate 33 is fixedly connected with the sliding block 31, the other clamping plate 33 is electrically connected with a fourth motor, the fourth motor drives the other clamping plate 33 connected with the fourth motor to be close to the clamping plate 33 fixedly connected with the sliding block 31, so that the enameled wire between the two clamping plates 33 is clamped and slides up and down on the mounting base 11 under the driving of the sliding block 31, and the end of the enameled wire enters between the pressing component 21;

the upper end of the sliding block 31 is provided with a sawing cylinder 34, a cutting saw blade 35 is arranged on a telescopic shaft of the sawing cylinder 34, and the sawing cylinder 34 pushes the cutting saw blade 35 to move towards the enameled wire and cut off the enameled wire.

The pressing electromagnetic plate 214 is provided with an annular expansion plate 216, the middle of the annular expansion plate 216 is consistent with the shape of the revolving inner-diameter protrusion 225, and the annular expansion plate 216 is driven by a fifth motor to press the electromagnetic plate 214 to be close to the revolving inner-diameter protrusion 225 until the annular expansion plate is mutually embedded with the revolving inner-diameter protrusion 225, so that the annular expansion plate 216 presses the enameled wire coil revolving around the revolving inner-diameter protrusion 225.

The enameled wire is revolving around protruding 225 of internal diameter and is revolving after a plurality of rings, cyclic annular expansion plate 216 presses the coil that the enameled wire formed, and it is connected through telescopic shaft 226 with connecting plate 224 to revolve protruding 225 of internal diameter, and telescopic shaft 226 electric connection has the fifth motor, fifth motor drive telescopic shaft 226 is to the inside shrink of connecting plate 224, make to revolve protruding 225 of internal diameter to the inside shrink of connecting plate 224, saw cut cylinder 34 and promote cutting saw bit 35 and cut off the enameled wire after that, after cutting off the enameled wire, it is inside to shrink of connecting plate 224 under telescopic shaft 226's drive to revolute protruding 225 of internal diameter, make to revolve the enameled wire coil whereabouts on the protruding 225 of internal diameter.

The specific implementation steps of the embodiment are as follows:

s100: the end of the enameled wire enters between the pressing component 21 and the revolving component 22, the electromagnetic driving element 215 is started, the pressing electromagnetic plate 214 is electrified to generate an electromagnetic action, the telescopic shaft 226 connected with the revolving inner-diameter bulge 225 approaches the pressing electromagnetic plate 214, and the pressing electromagnetic plate 214 and the revolving inner-diameter bulge 225 are mutually adsorbed, so that the end of the enameled wire is pressed and clamped;

s200: the pressing component 21 and the revolving component 22 are started to rotate at the same frequency, and the enameled wire revolves on the revolving inner diameter bulge 225;

s300: after the enameled wire completes the revolution, the electromagnetic driving element 215 is closed, the annular expansion plate 216 approaches to the coil to press the coil, after the pressing is finished, the sawing cylinder 34 is started, and the sawing cylinder 34 pushes the cutting saw blade 35 to move towards the enameled wire and cut off the enameled wire;

s400: the telescopic shaft 226 contracts toward the inside of the connection plate 224, and contracts toward the inside of the connection plate 224 around the inner diameter rotating protrusion 225, so that the enameled wire coil falls.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims

1. A processing device of a wireless charging coil module comprises a coil containing structure (1) and a clamping and revolving structure (2), characterized in that the coil containing structure (1) is arranged above the clamping and revolving structure (2), a limiting and clamping structure (3) is arranged between the coil containing structure (1) and the clamping and revolving structure (2), enameled wires are contained on the coil containing structure (1) in a revolving way, and the enameled wire is transferred to the interior of the clamping and revolving structure (2) from the coil containing structure (1) under the clamping action of the limiting clamping structure (3), in the process of continuously transferring the enameled wire, the clamping and revolving structure (2) revolves the enameled wire in the clamping and revolving structure (2) according to a fixed inner diameter, so that the enameled wire revolves to form a coil with a fixed inner diameter;

the coil accommodating structure (1) comprises an installation base (11), a rotating disc (12) is installed at the upper end of the installation base (11), the enameled wire rotates around the rotating disc (12), and the end of the enameled wire is vertically downward;

the clamping and revolving structure (2) comprises a pressing assembly (21) and a revolving assembly (22), the pressing assembly (21) and the revolving assembly (22) are distributed on the same horizontal line, the end of the enameled wire is arranged between the pressing assembly (21) and the revolving assembly (22), and the enameled wire revolves on the revolving assembly (22) under the matching action of the pressing assembly (21) and the revolving assembly (22);

the pressing assembly (21) comprises a first fixing shaft (211), a first connecting piece (212) is installed on one side, close to the revolving assembly (22), of the first fixing shaft (211), a first rotating shaft (213) is installed on one side, close to the revolving assembly (22), of the first connecting piece (212), the first rotating shaft (213) is electrically connected with a first motor, the first motor is installed on the first fixing shaft (211), a pressing electromagnetic plate (214) is installed on one side, close to the revolving assembly (22), of the first rotating shaft (213), the first motor drives the first rotating shaft (213) to drive the pressing electromagnetic plate (214) and the first rotating shaft (213) to do the same rotating motion, the pressing electromagnetic plate (214) is electrically connected with an electromagnetic driving element (215), and the electromagnetic driving element (215) is used for controlling the adsorption state of the pressing electromagnetic plate (214) and the revolving assembly (22) through electromagnetic action;

the revolving assembly (22) comprises a second fixing shaft (221), the second fixing shaft (221) is close to one side of the pressing assembly (21) and is provided with a second connecting piece (222), one side of the second connecting piece (222) close to the pressing assembly (21) is provided with a second rotating shaft (223), the second rotating shaft (223) is electrically connected with a second motor, the second motor is arranged on the second fixing shaft (221), one side of the second rotating shaft (223) close to the pressing assembly (21) is provided with a connecting plate (224), one side of the connecting plate (224) close to the pressing assembly (21) is provided with a revolving inner diameter bulge (225), the second motor drives the second rotating shaft (223) to drive the revolving inner diameter bulge (225) and the second rotating shaft (223) to do the same rotating motion, and the pressing electromagnetic plate (214) is adsorbed to the revolving inner diameter bulge (225), so that the end of the enameled wire is pressed, and the enameled wire revolves on the revolving inner diameter bulge (225) under the pressing action of the pressing electromagnetic plate (214) and the revolving inner diameter bulge (225).

2. The processing equipment of a wireless charging coil module according to claim 1, characterized in that: the first rotating shaft (213) and the second rotating shaft (223) have the same frequency of rotating motion, so that the pressing assembly (21) and the revolving assembly (22) maintain the same rotating frequency to revolve the enameled wire.

3. The processing equipment of a wireless charging coil module of claim 2, characterized in that: the limiting clamping structure (3) comprises a sliding block (31), the sliding block (31) is connected with the installation base (11) in a sliding mode through a slide way (32) arranged on the installation base (11), the sliding block (31) is electrically connected with a third motor, the third motor drives the sliding block (31) to slide up and down on the slide way (32), one side of the sliding block (31) is fixedly connected with two clamping plates (33), one clamping plate (33) is fixedly connected with the sliding block (31), the other clamping plate (33) is electrically connected with a fourth motor, the other clamping plate connected with the fourth motor is driven by the fourth motor to be close to one clamping plate (33) fixedly connected with the sliding block (31), so that the two enameled wires between the clamping plates (33) are clamped, and the sliding block (31) is driven to slide up and down on the installation base (11), enabling the end of the enameled wire to enter between the pressing assembly (21) and the revolving assembly (22);

saw cut cylinder (34) is installed to the upper end of sliding block (31), just saw cut and install cutting saw piece (35) on the telescopic shaft of cylinder (34), saw cut cylinder (34) promote cutting saw piece (35) orientation the enameled wire removes and cuts off the enameled wire.

4. The processing equipment of a wireless charging coil module according to claim 3, characterized in that: pressing and being provided with cyclic annular expansion plate (216) on electromagnetic plate (214), just in the middle of cyclic annular expansion plate (216) with revolve the protruding (225) shape unanimous of internal diameter, just cyclic annular expansion plate (216) under the drive of fifth motor to pressing electromagnetic plate (214) and being close to until with revolve protruding (225) gomphosis each other of internal diameter, thereby make cyclic annular expansion plate (216) press revolve the enameled wire coil of revolving on protruding (225).

5. The processing equipment of a wireless charging coil module of claim 4, characterized in that: the enameled wire is in after revolving a plurality of rings of revolving inside diameter protruding (225), cyclic annular expansion plate (216) are pressed the coil that the enameled wire formed, just saw cut cylinder (34) promotion cutting saw blade (35) cut off the enameled wire.

6. The processing equipment of the wireless charging coil module according to claim 5, wherein the revolving inner diameter protrusion (225) is connected with the connecting plate (224) through a telescopic shaft (226), the telescopic shaft (226) is electrically connected with a fifth motor, the fifth motor drives the telescopic shaft (226) to contract towards the inside of the connecting plate (224), and the revolving inner diameter protrusion (225) contracts towards the inside of the connecting plate (224), so that the enameled wire coil on the revolving inner diameter protrusion (225) falls down.