CN112458272A - Continuous online semi-hard value control device and method for copper conductor for electromagnetic wire - Google Patents

Abstract

The invention discloses a continuous online semi-hard value control device and method of a copper conductor for an electromagnetic wire, and the device comprises S1, S2, S3 and S4 steps. The semi-hard copper conductor winding device is structurally integrated through different semi-hard values of copper conductors, when the semi-hard copper conductors with different range values need to be manufactured, the copper conductors only need to penetrate through different hole sites of the same device through the structural design, the progressive heating mode through different coils is milder and more stable, the problem that the heated copper conductors are directly broken is solved, the use is more stable, the paying-off structure and the winding-up structure are matched with each other, a rotating disc is used for assisting, the paying-off production is facilitated while the semi-hard copper conductors are wound and stored, and the integrated design is quicker and more efficient.

Description

Continuous online semi-hard value control device and method for copper conductor for electromagnetic wire

Technical Field

The invention relates to the technical field of copper conductor semi-hard value control, in particular to a continuous online copper conductor semi-hard value control device for an electromagnetic wire and a method thereof.

Background

The electromagnetic wire, also known as winding wire, be used for making the insulating wire of coil or winding in the electrical product, the electromagnetic wire divide into the enameled wire usually, around the winding wire, the enameled around winding wire and inorganic insulated wire, the electromagnetic wire needs to use half hard value copper conductor at the in-process of production, half hard value copper conductor needs in time to change different devices and produces to different half hard value ranges in the in-process of production, it is more troublesome, half hard value conductor is comparatively direct at the in-process heating method that forms, cause the copper conductor fracture easily, influence product quality, and traditional half hard value copper conductor needs solitary spiral to accomodate after the preparation finishes, influence preparation efficiency, for this reason, we provide a copper conductor continuous online half hard value controlling means and method for the electromagnetic wire.

Disclosure of Invention

Therefore, the invention aims to provide a continuous online semi-hard value control device and a method for copper conductors for electromagnetic wires, wherein different semi-hard values of the copper conductors form a whole, the structural design only needs to penetrate the copper conductors through different hole sites of the same device when the semi-hard values of different range values of the copper conductors are required to be manufactured, the progressive heating mode of different coils is more mild and stable, the problem of direct breakage of the strongly heated copper conductors is solved, the use is more stable, the paying-off structure and the wire-taking-up structure are matched with each other, a rotating disc is used for assisting, the paying-off production is facilitated, the semi-hard value copper conductors are wound and stored, and the integrated design is quicker and more efficient.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

a continuous on-line semi-hard value control production method of a copper conductor for an electromagnetic wire comprises the following steps:

s1: an operator selects a semi-hard value forming area through which the copper conductor needs to pass according to the semi-hard value range required by the electromagnetic wire, and the targeted copper conductor semi-hard value is formed;

s2: the copper conductor penetrates through the whole semihard value forming area, is heated through different heating coils in an increasing mode to form the required semihard value copper conductor, the heating mode is milder, the temperature rises regularly, the influence of sudden temperature rise on the strength of the copper conductor is prevented, the temperature is reduced through a cooling area, and the copper conductor is finally connected to a semihard value copper conductor recovery disc to drive the whole copper conductor to move to finish manufacturing;

s3, mounting a protection structure at the top of the two winding frames simultaneously to prevent the copper conductor from moving up and down in the moving process;

s4: after the whole device is debugged and installed, the machine is started to move the copper conductor, the paying-off structure pays off the copper conductor which is not manufactured, and the semi-hard copper conductor which is manufactured is taken up by the structure at first, so that the device is suitable for continuous online production.

A continuous on-line semi-hard value control device for copper conductors for electromagnetic wires, comprising:

the supporting component comprises a horizontally arranged mounting flat plate, supporting legs fixed on the bottom surface of the mounting flat plate, a mounting opening formed in the top surface of the mounting flat plate and a mounting outer frame arranged on the top surface of the mounting flat plate;

the copper conductor semi-hard value forming assembly comprises a long frame fixed inside the installation outer frame, a first heating coil, a second heating coil, a third heating coil and a fourth heating coil, wherein the first heating coil, the second heating coil, the third heating coil and the fourth heating coil are installed on the periphery inside the long frame;

the cooling assembly comprises a cooling section frame arranged on the side surface of the long frame and an air outlet arranged in the cooling section frame;

the copper conductor pay-off assembly comprises a first adjusting rod penetrating through the mounting opening, a first rotating tray sleeved at the middle position of the first adjusting rod, a first winding frame sleeved with the first adjusting rod and placed on the surface of the first rotating tray, and a copper conductor body wound on the surface of the first winding frame;

the copper conductor take-up assembly comprises a second adjusting rod penetrating through the mounting flat plate, a second rotating tray sleeved at the middle position of the second adjusting rod and a second winding frame placed on the surface of the second rotating tray;

the protection assembly comprises an internal thread arranged at the top end of the first adjusting rod, an external thread rod connected with the internal thread and a baffle disc fixed at the top end of the external thread rod;

and the maintenance end assembly comprises a maintenance port arranged outside the installation outer frame, a baffle plate covered by the maintenance port and a hinge for connecting the baffle plate with the installation outer frame.

As a preferable aspect of the copper conductor continuous on-line half-hard value control device for the electromagnetic wire according to the present invention, three copper conductor half-hard value forming assemblies (for manufacturing copper conductors having half-hard values in different ranges) are sequentially provided from top to bottom.

As a preferable aspect of the continuous on-line semihard value control device for a copper conductor for an electromagnetic wire according to the present invention, each of the copper conductor semihard value forming members corresponds to a cooling interval frame.

In a preferred embodiment of the continuous in-line semi-hard value control device for a copper conductor for an electromagnetic wire according to the present invention, the first heating coil, the second heating coil, the third heating coil, and the fourth heating coil are distributed in a temperature increasing manner.

In a preferred embodiment of the continuous on-line semi-hard value control device for copper conductors for magnet wires according to the present invention, the first rotating tray and the second rotating tray rotate in the same direction.

As a preferable scheme of the continuous online semi-hard value control device for the copper conductor for the electromagnetic wire, the number of the protection components is two, and the two protection components are symmetrically arranged at the center line position of the installation flat plate.

As a preferable aspect of the continuous online semi-hard value control device for a copper conductor for an electromagnetic wire according to the present invention, the first adjusting lever and the second adjusting lever are locked and fixed by a locking bolt.

Compared with the prior art, the invention has the beneficial effects that: form a whole through the copper conductor semihard value formation structure of difference, such structural design is when the semihard value copper conductor of different scope values of needs preparation, only need with the copper conductor run through the different hole sites of same device can, and the heating methods through different coils are progressive milder stable more, prevent to impose the problem of hot copper conductor direct fracture, use more stably, through the mutually supporting of unwrapping wire structure and receipts line structure, use the rolling disc supplementary, be convenient for like this while unwrapping wire production, half hard value copper conductor is accomodate to the coiling, the integrated design is high efficiency fast more.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a flow chart of a continuous on-line half-hard value control production method of a copper conductor for an electromagnetic wire according to the present invention;

FIG. 2 is a schematic diagram of a continuous in-line semi-hard control device for copper conductors for electromagnetic wires in accordance with the present invention;

FIG. 3 is an external view of a continuous in-line semi-hard control device for copper conductors for electromagnetic wires in accordance with the present invention;

FIG. 4 is a schematic diagram of a copper conductor continuous in-line half-hard value control apparatus for electromagnetic wire of the present invention, the shield assembly of FIG. 2.

In the figure: 100. A support assembly; 110. installing a flat plate; 120. supporting legs; 130. an installation port; 140. installing an outer frame; 200. copper conductor half-hard value forming components; 210. an elongated frame; 220. a first heating coil; 230. a second heating coil; 240. a third heating coil; 250. a fourth heating coil; 300. a cooling assembly; 310. a cooling interval frame; 320. an air outlet; 400. a copper conductor payout assembly; 410. a first adjusting lever; 420. a first rotating tray; 430. a first bobbin frame; 440. a copper conductor body; 500. a copper conductor take-up assembly; 510. a second adjusting lever; 520. a second rotating tray; 530. a second bobbin frame; 600. a guard assembly; 610. an internal thread; 620. an externally threaded rod; 630. a catch tray; 700. maintaining the end assembly; 710. an access port; 720. a baffle plate; 730. and (4) a hinge.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional views illustrating the structure of the device are not enlarged partially according to the general scale for convenience of illustration, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The invention provides a continuous online semi-hard value control device and method of a copper conductor for an electromagnetic wire, wherein different semi-hard values of the copper conductor form a structure to form a whole, when the semi-hard value copper conductor with different range values needs to be manufactured by the structural design, the copper conductor only needs to penetrate through different hole sites of the same device, the progressive heating mode of different coils is more mild and stable, the problem of direct fracture of the strong heating copper conductor is prevented, the use is more stable, the paying-off structure and the wire winding structure are matched with each other, and a rotating disc is used for assisting, so that the paying-off production is facilitated, the semi-hard value copper conductor is wound and stored, and the integrated design is quicker and more efficient.

Referring to fig. 1-4, which are schematic diagrams illustrating an overall structure of an embodiment of a continuous online semi-hard value control device for a copper conductor for a magnet wire and a method thereof according to the present invention, referring to fig. 1-4, a main flow of the continuous online semi-hard value control device for a copper conductor for a magnet wire and a method thereof according to the present embodiment includes: s1, S2, S3 and S4, the concrete structure includes: the support assembly 100, the copper conductor semi-hard value forming assembly 200, the cooling assembly 300, the copper conductor paying-off assembly 400, the copper conductor taking-up assembly 500, the protection assembly 600 and the maintenance end assembly 700.

The supporting assembly 100 is used for basic supporting and construction installation of the whole device, specifically, the supporting assembly 100 comprises a horizontally arranged installation flat plate 110, supporting legs 120 fixed on the bottom surface of the installation flat plate 110, an installation opening 130 formed in the top surface of the installation flat plate 110 and an installation outer frame 140 arranged on the top surface of the installation flat plate 110, when in specific use, a shell structure for forming semi-hard copper conductors is installed inside the installation outer frame 140, and a wire releasing and taking-up structure for matching with copper conductors to penetrate is installed on the surface of the installation flat plate 110.

The copper conductor half-hard value forming assembly 200 is used for forming copper conductors with half-hard values within a required range, and specifically, the copper conductor half-hard value forming assembly 200 comprises a rectangular frame 210 fixed inside the installation outer frame 140, a first heating coil 220, a second heating coil 230, a third heating coil 240 and a fourth heating coil 250 which are installed on the periphery inside the rectangular frame 210, when the copper conductor semi-hard value forming assembly is used specifically, the copper conductor body 440 penetrates into the whole rectangular frame 210, the positions of different heating coils are different in temperature, and an increasing heating mode is adopted, so that the heating structure is mild, the situation that the copper conductor body 440 is broken due to short-time severe temperature rise is prevented, and the three rectangular frames 210 are installed inside the whole installation outer frame 140, so that copper conductors with different half-hard values can be formed conveniently, and a user only needs to insert the copper conductor body 440 into different rectangular frames 210.

The cooling component 300 is used for cooling the copper conductor that forms half hard value, and is concrete, and the cooling component 300 is including setting up the gas outlet 320 in the interval frame 310 of cooling and installing in the interval frame 310 of cooling of rectangular frame 210 side, and when specifically using, gas outlet 320 blows, reduces the temperature in the interval frame 310 of whole cooling, will form half hard value's copper conductor through the heating and cool down.

Copper conductor unwrapping wire subassembly 400 is used for the unwrapping wire, run through copper conductor body 440 to whole copper conductor semihard value and form subassembly 200, specifically, copper conductor unwrapping wire subassembly 400 includes the first regulation pole 410 that runs through installing port 130, cup joint at the first rotation tray 420 of first regulation pole 410 intermediate position, cup joint with first regulation pole 410 and place the first bobbin 430 on first rotation tray 420 surface and twine the copper conductor body 440 on first bobbin 430 surface, when specifically using, driving motor (not marked in the drawing) drive first rotation tray 420 and rotate, first bobbin 430 carries out the unwrapping wire in the rotation process, carry out height control through first regulation pole 410, make things convenient for copper conductor body 440 to run through to different rectangular frame 210 and make.

Copper conductor is received line subassembly 500 and copper conductor unwrapping wire subassembly 400 and is mutually supported, accomplish the preparation of receiving line while unwrapping wire on one side, and the work efficiency is improved, specifically, copper conductor is received line subassembly 500 and is included the second regulation pole 510 that runs through installation flat board 110, cup joint the second rotation tray 520 that adjusts the pole 510 intermediate position and place the second wire winding frame 530 on second rotation tray 520 surface, when specifically using, driving motor (not mark in the drawing) drive second rotation tray 520 rotates, drive second wire winding frame 530 rotates, the semihard value copper conductor who forms like this at the rotation in-process preparation is twined on second wire winding frame 530 surface, the unwrapping wire finishes promptly and finishes, the integrated operation, it is comparatively high-efficient.

The protection assembly 600 is used for preventing the first bobbin 430 from falling off from the first adjusting rod 410 when rotating, specifically, the protection assembly 600 comprises an internal thread 610 arranged at the top end of the first adjusting rod 410, an external thread rod 620 connected with the internal thread 610 and a blocking disc 630 fixed at the top end of the external thread rod 620, when the protection assembly is specifically used, the external thread rod 620 is in threaded connection with the internal thread 610, and the blocking disc 630 is located right above the first bobbin 430 for blocking and preventing the first bobbin from falling off.

The maintenance end assembly 700 facilitates maintenance work and provides a large maintenance interval, and specifically, the maintenance end assembly 700 includes a maintenance port 710 formed outside the installation outer frame 140, a baffle 720 covering the maintenance port 710, and a hinge 730 connecting the baffle 720 and the installation outer frame 140, and when the maintenance end assembly is specifically used and needs to be maintained, a user pulls the baffle 720, and the maintenance port 710 is completely exposed in the pulling process, so that the maintenance work is facilitated.

With reference to fig. 1-4, in the present embodiment, when the device and the method for controlling the continuous on-line semi-hard value of the copper conductor for the electromagnetic wire are used, the copper conductor body 440 penetrates through the whole long frame 210, the positions of different heating coils have different temperatures, and an increasing heating manner is adopted, so that the heating structure is mild, the situation that the copper conductor body 440 is broken due to a short time severe temperature rise is prevented, and three long frames 210 are installed in the whole installation outer frame 140, so that copper conductors with different semi-hard values can be conveniently formed, a user only needs to insert the copper conductor body 440 into different long frames 210, the driving motor (not marked in the drawing) drives the first rotating tray 420 to rotate, the first winding frame 430 performs unwinding during the rotation, and the driving motor (not marked in the drawing) drives the second rotating tray 520 to rotate, drive second wire winding frame 530 and rotate, accomplish copper conductor body 440 and move to the opposite side from one side, in the motion process, different heating coils heat, form half hard value copper conductor after the heating, gas outlet 320 blows, reduce the temperature in the interval frame 310 of whole cooling, the copper conductor that will form half hard value through the heating cools down, and the half hard value copper conductor that the in-process preparation formed is rotated like this and is twined on second wire winding frame 530 surface, the unwrapping wire finishes making promptly, the integration operation, it is comparatively high-efficient, carry out height control through first regulation pole 410, make things convenient for copper conductor body 440 to run through to different microscler frame 210 and make. The user is through with external screw thread pole 620 and internal thread 610 threaded connection, keeps off the dish 630 this moment and is located and shelters from directly over first wire winding frame 430, prevents to drop, when needing to overhaul, and user pulling baffle 720, pulling in-process maintenance port 710 are exposed completely, conveniently overhaul work.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of the invention may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. A continuous on-line semi-hard value control production method of a copper conductor for an electromagnetic wire is characterized by comprising the following steps:

s1: an operator selects a semi-hard value forming area through which the copper conductor needs to pass according to the semi-hard value range required by the electromagnetic wire, and the targeted copper conductor semi-hard value is formed;

s2: the copper conductor penetrates through the whole semihard value forming area, is heated through different heating coils in an increasing mode to form the required semihard value copper conductor, the heating mode is milder, the temperature rises regularly, the influence of sudden temperature rise on the strength of the copper conductor is prevented, the temperature is reduced through a cooling area, and the copper conductor is finally connected to a semihard value copper conductor recovery disc to drive the whole copper conductor to move to finish manufacturing;

s3, mounting a protection structure at the top of the two winding frames simultaneously to prevent the copper conductor from moving up and down in the moving process;

s4: after the whole device is debugged and installed, the machine is started to move the copper conductor, the paying-off structure pays off the copper conductor which is not manufactured, and the semi-hard copper conductor which is manufactured is taken up by the structure at first, so that the device is suitable for continuous online production.

2. The apparatus of claim 1, comprising:

the supporting assembly (100) comprises a horizontally arranged mounting flat plate (110), supporting legs (120) fixed on the bottom surface of the mounting flat plate (110), a mounting opening (130) formed in the top surface of the mounting flat plate (110) and a mounting outer frame (140) arranged on the top surface of the mounting flat plate (110);

a copper conductor semi-hard value forming assembly (200) including an elongated frame (210) fixed inside the installation outer frame (140), a first heating coil (220), a second heating coil (230), a third heating coil (240) and a fourth heating coil (250) installed at the inner and outer peripheries of the elongated frame (210);

the cooling assembly (300) comprises a cooling area frame (310) arranged on the side surface of the elongated frame (210) and an air outlet (320) arranged in the cooling area frame (310);

the copper conductor pay-off assembly (400) comprises a first adjusting rod (410) penetrating through the mounting opening (130), a first rotating tray (420) sleeved at the middle position of the first adjusting rod (410), a first winding frame (430) sleeved with the first adjusting rod (410) and placed on the surface of the first rotating tray (420), and a copper conductor body (440) wound on the surface of the first winding frame (430);

the copper conductor wire-rewinding assembly (500) comprises a second adjusting rod (510) penetrating through the mounting flat plate (110), a second rotating tray (520) sleeved at the middle position of the second adjusting rod (510), and a second wire-rewinding frame (530) placed on the surface of the second rotating tray (520);

the protective assembly (600) comprises an internal thread (610) arranged at the top end of the first adjusting rod (410), an external thread rod (620) connected with the internal thread (610), and a blocking disc (630) fixed at the top end of the external thread rod (620);

a service end assembly (700) comprising a service port (710) opening outside the mounting outer frame (140), a flap (720) covering the service port (710) and a hinge (730) connecting the flap (720) with the mounting outer frame (140).

3. The continuous on-line half-hard value control device of the copper conductor for the electromagnetic wire is characterized in that the number of the copper conductor half-hard value forming assemblies (200) is three, and the three copper conductor half-hard value forming assemblies (200) are used for manufacturing copper conductors with half-hard values in different ranges.

4. The apparatus for controlling continuous in-line semi-hard value of copper conductor for electromagnetic wire according to claim 3, wherein each of said copper conductor semi-hard value forming members (200) is associated with a cooling zone frame (310).

5. The continuous in-line semi-hard value control device of copper conductor for magnet wire of claim 4, characterized in that the first heating coil (220), the second heating coil (230), the third heating coil (240) and the fourth heating coil (250) are distributed in temperature presenting increasing mode.

6. The apparatus for controlling continuous in-line semi-hard value of copper conductor for magnet wire according to claim 5, wherein the first rotating tray (420) and the second rotating tray (520) rotate in the same direction.

7. The continuous in-line semi-hard value control device of copper conductors for electromagnetic wires according to claim 6, wherein there are two said shielding assemblies (600), and two said shielding assemblies (600) are symmetrically arranged at the centerline position of said mounting plate (110).

8. The continuous in-line semi-hard value control device of the copper conductor for the magnet wire according to claim 7, characterized in that the first adjusting rod (410) and the second adjusting rod (510) are locked and fixed by a locking bolt.

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