CN114348774B - Take-up device for aluminum alloy heat-resistant wire and preparation method thereof - Google Patents

Abstract

The invention provides a take-up device for an aluminum alloy heat-resistant wire, which comprises a take-up body, a take-up body and a take-up body, wherein the take-up body is provided with a plurality of guide rails; winding a support; the winding steering roller is arranged on the side wall of the outer side of the winding support; a winding motor is arranged on the side wall of the inner side of the winding support, and an output shaft of the winding motor penetrates through the winding support; the winding roller is inserted on a rotating shaft of the winding motor, a winding fixed plate is fixed on the winding roller, a winding movable plate is sleeved on the winding roller, and a locking part is fixed on the winding movable plate, wherein when the locking part is locked, the winding movable plate is fixed on the winding roller; the winding movable plate is quickly assembled and disassembled with the winding roller through the locking portion, the efficiency of fixing the wire harness end is improved, the structure is simple and reliable, and the use convenience is improved.

Description

Take-up device for aluminum alloy heat-resistant wire and preparation method thereof

Technical Field

The invention relates to a winding device, in particular to a winding device for an aluminum alloy heat-resistant wire and a preparation method thereof.

Background

The allowable temperature of the heat-resistant wire is properly increased, so that the stable current-carrying capacity of the system accident can be increased, and the normal transmission capacity of the line is improved. The research shows that the heat resistance of the aluminum material can be improved by properly adding the metal zirconium (Zr) element into the aluminum material. The lead has the technical characteristics of high temperature resistance, large conveying capacity and the like.

When the wiring harness is wound, the end of the wiring harness is often required to be fixed on the winding roller, but the end of the wiring harness is fixed due to the arrangement of the baffle on the winding roller, so that the working efficiency is greatly influenced, and therefore the wire take-up device for the aluminum alloy heat-resistant wire and capable of quickly disassembling the baffle and the preparation method thereof are necessary.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the wire take-up device for the aluminum alloy heat-resistant wire is capable of quickly disassembling the baffle and the preparation method of the wire take-up device.

The technical scheme adopted by the invention for solving the technical problems is as follows: a take-up device for an aluminum alloy heat-resistant wire comprises a take-up body; winding a support; the winding steering roller is arranged on the side wall of the outer side of the winding support; a winding motor is arranged on the side wall of the inner side of the winding support, and an output shaft of the winding motor penetrates through the winding support; the winding roller is inserted on a rotating shaft of the winding motor, a winding fixing plate is fixed on the winding roller, a winding movable plate is sleeved on the winding roller, a locking portion is fixed on the winding movable plate, and when the locking portion is locked, the winding movable plate is fixed on the winding roller.

Preferably, the locking part comprises a locking ring, the locking ring is inserted into the side wall on the outer side of the rolling movable plate, a through hole matched with the rolling roller is formed in the axis of the locking ring, and the locking ring and the rolling roller are coaxially arranged; the outer side wall of the locking ring is provided with a locking notch, a locking column is rotationally arranged in the locking notch, the circumferential side wall of the locking column is sectioned to form a tangent plane, and the tangent plane can be tangent to the winding roller.

Preferably, the locking column is a cylinder, and the tangent plane is parallel to the axis of the locking column; the lateral wall of locking post is provided with locking spanner, locking spanner sets up and is keeping away from one side of looks tangent plane, and, locking spanner stretches out locking breach.

Preferably, a roller coating support is arranged on the side of the rolling support, the roller coating support and the rolling support are arranged in a back-to-back manner, and shielding plates are covered on the top of the roller coating support and the top of the rolling support; a rolling coating motor is arranged on the side wall of the inner side of the rolling coating support, a rotating shaft of the rolling coating motor penetrates through the rolling coating support, the winding roller for winding the wiring harness can be connected to the rotating shaft of the rolling coating motor in an inserted mode, one side of the wiring harness is attached to the winding fixing plate, a rolling coating movable plate is arranged on the other side of the wiring harness, the rolling coating movable plate is fixed to the winding roller through the locking portion, and the rolling coating movable plate is attached to the other side of the wiring harness; the outer side wall of the roll coating support is rotatably provided with a roll coating roller, a roll coating flow channel is arranged in the roll coating roller, the roll coating flow channel is connected with a roll coating medium source, and a wire harness is wound around the roll coating roller; and a pair of driving rollers is arranged on the outer side wall of the roll coating support behind the movement direction of the wire harness, and the driving rollers can clamp and pull the wire harness so as to roll coat the side wall of the wire harness by the roll coating rollers.

Preferably, the side wall array of the roll coating roller is provided with first roll coating characters, the first roll coating characters are provided with first roll coating holes communicated with the roll coating flow channel, so that a roll coating medium flows onto the first roll coating characters, the axis of the roll coating roller is parallel to the rotating shaft of the roll coating motor, and the roll coating roller is arranged above the wiring harness in the center.

Preferably, the roll-coating movable plate is a cylinder, a second roll-coating character is arranged on the side wall of the roll-coating movable plate, the side wall of the roll-coating roller is attached to the second roll-coating character, and a second roll-coating hole communicated with the roll-coating flow passage is formed in the side wall of the roll-coating roller, so that a roll-coating medium flows onto the second roll-coating character; the outer side wall of the roll coating support is provided with a reversing part, and the reversing part can turn over a wire harness; the outer side wall of the roll coating support is further rotatably provided with a press roller, the press roller is attached to the second roll coating characters, and one side, which is not roll coated, of the press wiring harness is attached to the second roll coating characters.

Preferably, the reversing part comprises a first reversing roller, a distance adjusting roller and a second reversing roller; the first reversing roller is arranged behind the roller coating roller, and the axis of the first reversing roller is perpendicular to the roller coating roller, so that the wire harness is twisted by ninety degrees; the distance adjusting roller is arranged behind the first reversing roller, the axis of the distance adjusting roller is parallel to the first reversing roller, and the side wall of the distance adjusting roller, which is in contact with the wire harness, is arranged in the center of the second roll-coated characters; the second reversing roller is arranged behind the distance adjusting roller, and the axis of the second reversing roller is perpendicular to the distance adjusting roller, so that the wiring harness continues to be twisted ninety degrees in the same direction, and the other side of the wiring harness is roll-coated through the pressing roller.

Preferably, a roll coating sponge is arranged at a position where the roll coating roller is attached to the second roll coating characters, the roll coating sponge can absorb a roll coating medium flowing out of the second roll coating hole, and a roll coating plug matched with the second roll coating hole is arranged inside the roll coating sponge, wherein when the roll coating sponge is extruded by the second roll coating characters, the roll coating plug can abut against an orifice of the second roll coating hole to close the second roll coating hole.

Preferably, two guide rollers are arranged on the side wall of the roll coating support and are arranged between the second reversing roller and the pressing roller and between the pressing roller and the driving roller.

The invention also comprises a method for preparing a wire harness by using the take-up device, which comprises the following steps:

s1, the wrapped wire harness is turned by the winding turning roller and wound by an upper winding roller connected to the winding motor;

s2, mounting the winding roller which is wound on the roller coating motor, and replacing the winding movable plate on the winding roller with the roller coating movable plate;

s3, sequentially winding the wire harness through the roller coating roller, the first reversing roller, the distance adjusting roller, the second reversing roller, the guide roller, the pressing roller, the guide roller and the driving roller;

s4, the roller coating motor and the driving roller rotate synchronously to perform roller coating on the wire harness;

and S5, transferring the rolled and coated wire harness to the subsequent process.

The invention has the beneficial effects that:

1. various parts can be erected through the arrangement of the winding support, and the structure is simple and reliable;

2. the winding roller is inserted on a rotating shaft of a winding motor, and the winding motor drives the winding roller to wind the wiring harness on the winding roller;

3. the winding movable plate is quickly assembled and disassembled with the winding roller through the locking portion, the efficiency of fixing the wire harness end is improved, the structure is simple and reliable, and the use convenience is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of a take-up assembly of the present invention;

FIG. 2 is an exploded view of a preferred embodiment of the locking portion of the present invention;

FIG. 3 is a perspective view of a preferred embodiment of the take-up assembly of the present invention;

FIG. 4 is a perspective view of a preferred embodiment of the take-up assembly of the present invention;

FIG. 5 is a perspective view of a preferred embodiment of the roll-on movable plate of the present invention;

FIG. 6 is a perspective view of a preferred embodiment of the inventive roto-coating roller;

FIG. 7 is a cross-sectional view of a preferred embodiment of the inventive roto-coating roller;

figure 8 is a cross-sectional view of a preferred embodiment of the inventive roto-coating roller.

In the figure:

000. a wire harness;

100. winding a support; 101. winding and turning rollers; 102. a winding motor; 103. a wind-up roll; 104. winding a fixed plate; 105. rolling a movable plate; 106. a locking portion; 1061. locking a ring; 1062. locking the notch; 1063. a locking post; 1064. cutting the surface of the sample; 1065. locking the wrench;

200. rolling and coating the bracket; 201. a shielding plate; 202. a roller coating motor; 203. rolling and coating a movable plate; 2031. secondly, rolling and coating characters; 204. rolling and coating a roller; 2041. rolling and coating a flow channel; 2042. first rolling and coating characters; 2043. a first roll-coating hole; 2044. a second roll-coating hole; 205. a drive roll; 206. a commutation section; 2061. a first reversing roller; 2062. adjusting the distance of the roller; 2063. a second reversing roller; 207. a press-fit roller; 208. rolling and coating sponge; 2081. rolling and coating the plug; 209. and a guide roller.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the present invention.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 8, the present invention provides a take-up device for a heat-resistant aluminum alloy wire, comprising; a winding support 100; a winding steering roller 101 disposed on the outer side wall of the winding support 100; a winding motor 102 is arranged on the side wall of the inner side of the winding support 100, and an output shaft of the winding motor 102 penetrates through the winding support 100; a winding roller 103 inserted on the rotating shaft of the winding motor 102, a winding fixing plate 104 fixed on the winding roller 103, a winding movable plate 105 sleeved on the winding roller 103, and a locking part 106 fixed on the winding movable plate 105, wherein when the locking part 106 is locked, the winding movable plate 105 is fixed on the winding roller 103; in short, various parts can be erected through the arrangement of the winding support 100, and the structure is simple and reliable; further, the winding roller 103 is inserted into the rotating shaft of the winding motor 102, the winding motor 102 drives the winding roller 103, and the wire harness 000 is wound on the winding roller 103; furthermore, the winding movable plate 105 is quickly assembled and disassembled with the winding roller 103 through the locking part 106, the efficiency of fixing the 000 ends of the wire harness is improved, the structure is simple and reliable, and the use convenience is improved.

The locking part 106 comprises a locking ring 1061, the locking ring 1061 is inserted into the side wall on the outer side of the winding movable plate 105, a through hole matched with the winding roller 103 is formed in the axis of the locking ring 1061, and the locking ring 1061 and the winding roller 103 are coaxially arranged; a locking notch 1062 is formed in the outer side wall of the locking ring 1061, a locking column 1063 is rotatably arranged in the locking notch 1062, a tangent plane 1064 is cut on the circumferential side wall of the locking column 1063, and the tangent plane 1064 can be tangent to the winding roller 103; in short, the distance from the tangent plane 1064 to the axis of the locking column 1063 is smaller than the diameter of the locking column 1063, so that the arc-shaped side surface of the locking column 1063 can abut against the winding roller 103 when contacting the winding roller 103, so as to realize the following of the locking part 106, and further, the winding movable plate 105 is fixed with the locking ring 1061 through a bolt and a pressing plate, so that the structure is simple and reliable, and the use convenience is improved.

The locking column 1063 is a cylinder, and the tangent plane 1064 is parallel to the axis of the locking column 1063; a locking wrench 1065 is arranged on the side wall of the locking column 1063, the locking wrench 1065 is arranged on the side far away from the tangent plane 1064, and the locking wrench 1065 extends out of the locking notch 1062; in short, the locking wrench 1065 can rotate the locking column 1063 quickly and portably to mount and dismount the rolling movable plate 105, so that the working efficiency is improved.

A roller coating support 200 is arranged on the side of the rolling support 100, the roller coating support 200 and the rolling support 100 are arranged in a back-to-back manner, and shielding plates 201 are covered on the tops of the roller coating support 200 and the rolling support 100; a roll coating motor 202 is arranged on the side wall of the inner side of the roll coating support 200, a rotating shaft of the roll coating motor 202 penetrates through the roll coating support 200, a winding roller 103 which winds a wiring harness 000 can be inserted into the rotating shaft of the roll coating motor 202, one side of the wiring harness 000 is attached to a winding fixing plate 104, a roll coating movable plate 203 is arranged on the other side of the wiring harness 000, the roll coating movable plate 203 is fixed on the winding roller 103 through a locking part 106, and the roll coating movable plate 203 is attached to the other side of the wiring harness 000; the outer side wall of the roll coating support 200 is rotatably provided with a roll coating roller 204, a roll coating flow passage 2041 is arranged in the roll coating roller 204, the roll coating flow passage 2041 is connected with a roll coating medium source, and a wire harness 000 is wound around the roll coating roller 204; a pair of driving rollers 205 is arranged behind the outer side wall of the roll coating support 200 relative to the movement direction of the wiring harness 000, and the driving rollers 205 can clamp and pull the wiring harness 000 so that the roll coating rollers 204 roll and coat the side wall of the wiring harness 000; in short, the shielding plate 201 can block dust, so that the oil is prevented from contacting with the winding motor 102 and the roll coating motor 202, and the service lives of the winding motor 102 and the roll coating motor 202 are prolonged; further, the wire harness 000 can be paid off through the matching of the roll coating motor 202 and the driving roller 205; furthermore, the roller coating roller 204 can be attached to the wiring harness 000 and driven by the wiring harness 000, so that roller coating printing on the side wall of the wiring harness 000 can be achieved, the structure is simple and reliable, and the use convenience is improved.

The side wall array of the roll-coating roller 204 is provided with first roll-coating characters 2042, the first roll-coating characters 2042 are provided with first roll-coating holes 2043 communicated with the roll-coating flow passage 2041, so that the roll-coating medium flows onto the first roll-coating characters 2042, the axis of the roll-coating roller 204 is parallel to the rotating shaft of the roll-coating motor 202, and the roll-coating roller 204 is arranged above the wiring harness 000 in the center; in short, the first roll-on lettering 2042 uses a material capable of sucking up a roll-on medium, and the first roll-on lettering 2042 can suck up the medium during continuous supply of the roll-on medium to realize continuous roll-on.

The roll-coating movable plate 203 is a cylinder, the side wall of the roll-coating movable plate 203 is provided with second roll-coating characters 2031, the side wall of the roll-coating roller 204 is attached to the second roll-coating characters 2031, and the side wall of the roll-coating roller 204 is provided with second roll-coating holes 2044 communicated with the roll-coating flow channel 2041, so that the roll-coating medium flows onto the second roll-coating characters 2031; the outer side wall of the roll coating bracket 200 is provided with a reversing part 206, and the reversing part 206 can turn over the wiring harness 000; the outer side wall of the roll-coating bracket 200 is also rotatably provided with a press-fit roller 207, the press-fit roller 207 is attached to the second roll-coating characters 2031, and the side of the press-fit wiring harness 000 which is not roll-coated is attached to the second roll-coating characters 2031; in short, by the attachment of the roll coating roller 204 and the roll coating movable plate 203, the medium in the roll coating flow channel 2041 can be guided onto the second roll coating characters 2031, so that roll coating printing on the other side of the wiring harness 000 is realized; furthermore, the reversing part 206 can turn the wiring harness 000 by one hundred eighty degrees in the paying-off process so that the non-roll-coated side is attached to the second roll-coated characters 2031, the structure is simple and reliable, and the use convenience is improved.

The reversing section 206 includes a first reversing roller 2061, a pitch adjusting roller 2062, and a second reversing roller 2063; the first reverse roller 2061 is disposed behind the roll coating roller 204, and the axis of the first reverse roller 2061 is perpendicular to the roll coating roller 204, so that the wiring harness 000 is twisted by ninety degrees; the pitch-adjusting roller 2062 is disposed behind the first reverse roller 2061, and the axis of the pitch-adjusting roller 2062 is parallel to the first reverse roller 2061, and the side wall of the pitch-adjusting roller 2062 that contacts the wiring harness 000 is disposed centrally with respect to the second roll-on letter 2031; the second direction-changing roller 2063 is disposed behind the pitch-adjusting roller 2062, and the axis of the second direction-changing roller 2063 is perpendicular to the pitch-adjusting roller 2062, so that the wire harness 000 continues to be twisted ninety degrees in the same direction and the other side of the wire harness 000 is roll-coated via the nip roller 207; in short, by the perpendicular arrangement of the first reverse roller 2061 and the roll coating roller 204, the wiring harness 000 ninety degrees can be twisted; further, by the distance adjusting roller 2062, the position of the wire harness 000 can be adjusted to be matched with the position of the second roll-coated letter 2031; further, the first direction changing roller 2061 and the distance adjusting roller 2062 are fixed on the side wall of the roll coating support 200 through a support plate; further, by vertically arranging the second reversing roller 2063 and the distance adjusting roller 2062, the wiring harness 000 can be continuously twisted by ninety degrees (so far, the wiring harness 000 is twisted by one hundred eighty degrees), the turn-over of the wiring harness 000 is completed, the structure is simple and reliable, and the use convenience is improved.

A roll coating sponge 208 is arranged at the position, which is attached to the second roll coating characters 2031, of the roll coating roller 204, the roll coating sponge 208 can absorb roll coating media flowing out of the second roll coating holes 2044, and a roll coating plug 2081 which is matched with the second roll coating holes 2044 is arranged inside the roll coating sponge 208, wherein when the roll coating sponge 208 is extruded by the second roll coating characters 2031, the roll coating plug 2081 can prop against the openings of the second roll coating holes 2044 to close the second roll coating holes 2044; in short, since the content of the second roll-on letter 2031 is long, the roll-on contents are directly set on both sides of the wiring harness 000, which would result in an oversized roll-on component, and therefore, the second roll-on letter 2031 is added on the sidewall of the roll-on movable plate 203 that originally blocks the wiring harness 000, which can reduce the volume of the device; further, by the roll coating plug 2081 in the roll coating sponge 208, the second roll coating hole 2044 can be closed when the second roll coating characters 2031 extrude the roll coating sponge 208, so that after the sponge 208 is extruded and roll coated, the medium still flows out of the second roll coating hole 2044, the waste of oil is avoided, the structure is simple and reliable, and the use convenience is improved.

The side wall of the roll-coating stand 200 is provided with two guide rollers 209 arranged between the second reversing roller 2063 and the nip roller 207 and between the nip roller 207 and the drive roller 205; in short, the direction of the wire harness 000 can be effectively adjusted by the guide roller 209 to achieve the consistency of the roll coating on both sides.

Example two:

the present invention also includes a method of making a wire harness 000 using a take-up device:

s1, the wrapped wire harness 000 is turned by a winding turning roller 101 and wound by an upper winding roller 103 connected to a winding motor 102;

s2, mounting the winding roller 103 which is completed by winding on the roller coating motor 202, and replacing the winding movable plate 105 on the winding roller 103 with the roller coating movable plate 203;

s3, winding the wire harness 000 through the roller coating roller 204, the first reversing roller 2061, the distance adjusting roller 2062, the second reversing roller 2063, the guide roller 209, the pressing roller 207, the guide roller 209 and the driving roller 205 in sequence;

s4, the roller coating motor 202 and the driving roller 205 rotate synchronously to roll and coat the wire bundle 000;

and S5, transferring the roll-coated wire harness 000 to the subsequent process.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, a schematic representation of the term does not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. A take-up device for an aluminum alloy heat-resistant wire is characterized by comprising;

a winding support (100);

the winding and turning roller (101) is arranged on the side wall of the outer side of the winding support (100);

a winding motor (102) is arranged on the side wall of the inner side of the winding support (100), and an output shaft of the winding motor (102) penetrates through the winding support (100);

a winding roller (103) inserted on the rotating shaft of the winding motor (102), a winding fixing plate (104) fixed on the winding roller (103), a winding movable plate (105) sleeved on the winding roller (103), and a locking part (106) fixed on the winding movable plate (105), wherein

When the locking portion (106) is locked, the winding movable plate (105) is fixed on the winding roller (103);

the locking part (106) comprises a locking ring (1061), the locking ring (1061) is inserted into the side wall of the outer side of the winding movable plate (105), a through hole matched with the winding roller (103) is formed in the axis of the locking ring (1061), and the locking ring (1061) and the winding roller (103) are coaxially arranged;

a locking notch (1062) is formed in the outer side wall of the locking ring (1061), a locking column (1063) is rotatably arranged in the locking notch (1062), a phase tangent plane (1064) is cut on the circumferential side wall of the locking column (1063), and the phase tangent plane (1064) can be tangent to the winding roller (103);

a roller coating support (200) is arranged on the side of the rolling support (100), the roller coating support (200) and the rolling support (100) are arranged in a back-to-back manner, and shielding plates (201) are covered on the tops of the roller coating support (200) and the rolling support (100);

a roll coating motor (202) is arranged on the side wall of the inner side of the roll coating support (200), a rotating shaft of the roll coating motor (202) penetrates through the roll coating support (200), a winding roller (103) wound with a wiring harness (000) can be inserted into the rotating shaft of the roll coating motor (202), one side of the wiring harness (000) is attached to the winding fixing plate (104), a roll coating movable plate (203) is arranged on the other side of the wiring harness (000), the roll coating movable plate (203) is fixed on the winding roller (103) through the locking part (106), and the roll coating movable plate (203) is attached to the other side of the wiring harness (000);

the outer side wall of the roll coating support (200) is rotatably provided with a roll coating roller (204), a roll coating flow passage (2041) is arranged in the roll coating roller (204), the roll coating flow passage (2041) is connected with a roll coating medium source, and a wire harness (000) winds through the roll coating roller (204);

a pair of driving rollers (205) is arranged behind the outer side wall of the roll coating bracket (200) relative to the movement direction of the wiring harness (000), and the driving rollers (205) can clamp and pull the wiring harness (000) so that the roll coating rollers (204) roll and coat the side wall of the wiring harness (000);

the roller coating movable plate (203) is a cylinder, the side wall of the roller coating movable plate (203) is provided with second roller coating characters (2031), the side wall of the roller coating roller (204) is attached to the second roller coating characters (2031), and the side wall of the roller coating roller (204) is provided with second roller coating holes (2044) communicated with the roller coating flow channel (2041) so that a roller coating medium flows onto the second roller coating characters (2031);

the outer side wall of the roll coating bracket (200) is provided with a reversing part (206), and the reversing part (206) can turn over a wiring harness (000);

the outer side wall of the roll-coating support (200) is further rotatably provided with a press-fit roller (207), the press-fit roller (207) is attached to the second roll-coating characters (2031), and one side, which is not roll-coated, of the press-fit wiring harness (000) is attached to the second roll-coating characters (2031).

2. A take-up device for a heat-resistant aluminum alloy wire as claimed in claim 1,

the locking column (1063) is a cylinder, and the phase section (1064) is parallel to the axis of the locking column (1063);

the side wall of the locking column (1063) is provided with a locking wrench (1065), the locking wrench (1065) is arranged at one side far away from the phase tangent plane (1064), and

the locking wrench (1065) extends out of the locking notch (1062).

3. A take-up device for a heat-resistant aluminum alloy wire as claimed in claim 2,

the side wall array of the roll coating roller (204) is provided with first roll coating characters (2042), first roll coating holes (2043) communicated with the roll coating flow channel (2041) are formed in the first roll coating characters (2042), so that a roll coating medium flows onto the first roll coating characters (2042), and

the axis of the roller coating roller (204) is parallel to the rotating shaft of the roller coating motor (202), and the roller coating roller (204) is arranged above the wiring harness (000) in a centered mode.

4. A take-up device for a heat-resistant aluminum alloy wire as claimed in claim 3,

the reversing part (206) comprises a first reversing roller (2061), a distance adjusting roller (2062) and a second reversing roller (2063);

the first reversing roller (2061) is arranged behind the roller coating roller (204), and the axis of the first reversing roller (2061) is perpendicular to the roller coating roller (204) so that the wiring harness (000) is twisted by ninety degrees;

the distance adjusting roller (2062) is arranged behind the first reversing roller (2061), the axis of the distance adjusting roller (2062) is parallel to the first reversing roller (2061), and the side wall of the distance adjusting roller (2062) contacting with the wire harness (000) is arranged in the center of the second roll-coated characters (2031);

the second reversing roller (2063) is disposed behind the distance adjusting roller (2062), and the axis of the second reversing roller (2063) is perpendicular to the distance adjusting roller (2062), so that the wire harness (000) continues to be twisted ninety degrees in the same direction and the other side of the wire harness (000) is roll-coated through the pressing roller (207).

5. A take-up device for a heat-resistant aluminum alloy wire as claimed in claim 4,

the roll coating sponge (208) is arranged at the position, which is attached to the second roll coating characters (2031), of the roll coating roller (204), and the roll coating sponge (208) can absorb roll coating media flowing out of the second roll coating holes (2044) and

a roll coating plug (2081) matched with the second roll coating hole (2044) is arranged in the roll coating sponge (208), wherein

When the roll-on sponge (208) is pressed by the second roll-on lettering (2031), the roll-on plug (2081) can abut against the opening of the second roll-on hole (2044) to close the second roll-on hole (2044).

6. A take-up device for a heat-resistant aluminum alloy wire as claimed in claim 5,

two guide rollers (209) are arranged on the side wall of the roll coating support (200) and are arranged between the second reversing roller (2063) and the pressing roller (207) and between the pressing roller (207) and the driving roller (205).

7. A method of producing a wire harness (000) using a take-up device according to claim 6,

s1, the wrapped wire harness (000) is turned by the winding turning roller (101) and wound by an upper winding roller (103) connected to the winding motor (102);

s2, mounting the winding roller (103) which is wound on the roller coating motor (202), and replacing the winding movable plate (105) on the winding roller (103) with the roller coating movable plate (203);

s3, sequentially winding a wire harness (000) through the roller coating roller (204), the first reversing roller (2061), the distance adjusting roller (2062), the second reversing roller (2063), the guide roller (209), the press-fit roller (207), the guide roller (209) and the driving roller (205);

s4, synchronously rotating the roll coating motor (202) and the driving roller (205) to roll coat the wire harness (000);

and S5, transferring the rolled and coated wire harness (000) to the subsequent process.

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