CN212990915U - Wire pushing tool for automatic winding equipment of electronic transformer - Google Patents

Abstract

The utility model discloses a push away line frock for automatic spooling equipment of electronic transformer, establish including drive arrangement, guide bar, cover establish on the guide bar and slidable push away line spare and cover establish on the guide bar and slidable fixed knot constructs, fixed knot construct with it is used for fixing to push away line spare connection push away line spare, drive arrangement with fixed knot constructs to be connected with the drive fixed knot constructs along the guide bar motion. The utility model discloses can improve production efficiency.

Description

Wire pushing tool for automatic winding equipment of electronic transformer

Technical Field

The utility model relates to an automatic spooling equipment of electronic transformer especially relates to a push away line frock for automatic spooling equipment of electronic transformer.

Background

With the development of society, the fields of artificial intelligence and the Internet of things are more and more popular, and the electronic transformer is an important component in the fields; the demand for electronic transformers is large. The winding work of the electronic transformer is very important; during the winding operation, it is necessary to mount the leads to the pins.

In the prior art, no relevant professional tool exists, the labor efficiency is low, and the delivery period for a client is long.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a wire pushing tool for automatic winding equipment of an electronic transformer; the production efficiency can be improved.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

the utility model provides a push away line frock for automatic spooling equipment of electronic transformer, includes drive arrangement, guide bar, cover and establish on the guide bar and slidable push away line spare and cover and establish on the guide bar and slidable fixed knot construct, fixed knot construct with it is used for fixing to push away line spare, drive arrangement with fixed knot construct and connect with the drive fixed knot construct along the guide bar motion.

By adopting the structure, the lead wire to be installed is wound on the end part of the guide rod, the driving device drives the fixing structure to slide along the guide rod to the end part of the guide rod, the push wire is fixed on the fixing structure, so that the push wire moves along with the fixing structure to slide along the guide rod to the end part of the guide rod, finally the lead wire wound on the end part of the guide rod is pushed onto a pin of the electronic transformer, and the driving structure drives the fixing structure and the push wire part to reset to complete one-time operation; and circulating the operations to sequentially complete the wire pushing operation of other pins of the electronic transformer.

Winding of the wire around the end of the guide rod can be done manually or by machine.

Further, the wire pushing piece is an elastic piece.

By adopting the structure, the elastic piece has certain deformation capacity, so that the wire pushing piece can ensure that the wire pushing operation is more complete during the wire pushing operation, and the lead can be pushed into pins of the electronic transformer; specifically, the wire pushing piece adopts a spring.

Further, the fixing structure comprises an axial fixing piece and a radial fixing piece; the axial fixing piece is used for limiting the axial movement of the wire pushing piece relative to the axial fixing piece, and the radial fixing piece is used for limiting the radial movement of the wire pushing piece.

By adopting the structure, the radial fixing piece is arranged at the position where the wire pushing piece is arranged and is tightly matched with the wire pushing piece so as to realize the radial movement of the wire pushing piece, so that the radial fixing piece can also realize the primary fixing of the wire pushing piece, and the wire pushing piece moves along with the movement of the radial fixing piece; however, in the wire pushing process, the lead wire can apply a force to the wire pushing piece in the opposite direction, so that the wire pushing piece has a tendency to move away from the end part of the guide rod, and the axial fixing piece acts on the wire pushing piece to limit the axial movement of the wire pushing piece relative to the axial fixing piece.

Further, the radial fixing piece is provided with a first fixing hole penetrating through the radial fixing piece and a first fastening groove; one end of the first fastening groove is communicated with the first fixing hole, and the other end of the first fastening groove extends to the end face of the radial fixing piece; the first fixing hole is used for fixing the wire pushing piece.

By adopting the structure, the size of the first fixing hole can be adjusted due to the arrangement of the first fastening groove; when the two opposite side walls of the first fastening groove are close to each other, the first fixing hole can be made smaller, and the wire pushing piece is more reliable when being fixed in the first fixing hole.

Specifically, the radial fixing piece is provided with a first fastener mounting hole perpendicular to the first fastening groove at the position where the first fastening groove is arranged; the first fastener mounting hole is used for mounting the first fastener, and when the first fastener is mounted in the first fastener mounting hole, the two opposite side walls of the first fastening groove are close to each other; the first fastener is in threaded engagement with the first fastener mounting hole.

Further, the axial fixity piece is provided with the first perforation that runs through itself, first perforation is including the second fixed orifices that is used for fixing that sets gradually push away the line piece and the guide bar perforation that the aperture is less than the second fixed orifices.

With the structure, as the aperture of the guide rod through hole is smaller than that of the second fixing hole, a limiting surface is formed between the second fixing hole and the guide rod through hole, and the limiting surface is used for limiting the axial movement of the wire pushing piece relative to the axial fixing piece to the end part far away from the guide rod in the wire pushing piece.

Further, the wire pushing tool for the automatic winding equipment of the electronic transformer comprises a guide rod fixing piece for fixing the guide rod, and the guide rod fixing piece is provided with a guide rod fixing hole penetrating through the guide rod fixing piece and a second fastening groove; one end of the second fastening groove is communicated with the guide rod fixing hole, and the other end of the second fastening groove extends to the end face of the guide rod fixing piece; the guide rod fixing hole is used for fixing the guide rod.

By adopting the structure, the size of the guide rod fixing hole can be adjusted due to the second fastening groove; when two opposite side walls of the second fastening groove are close to each other, the guide rod fixing hole can be made small, and the guide rod is more reliable when being fixed in the guide rod fixing hole.

Specifically, the guide bar fixing part is provided with a second fastener mounting hole perpendicular to the second fastening groove at the position where the second fastening groove is arranged; the second fastener mounting hole is used for mounting a second fastener, and when the second fastener is mounted in the second fastener mounting hole, two opposite side walls of the second fastening groove are close to each other; the second fastener is in threaded engagement with the second fastener mounting hole.

Further, the axes of the first fixing hole of the radial fixing piece, the first through hole of the axial fixing piece and the guide rod fixing hole of the guide rod fixing piece are on the same straight line; the guide rod sequentially penetrates through the first fixing hole, the first through hole and the guide rod fixing hole and is fixed through the guide rod fixing hole; the wire pushing piece penetrates through the first fixing hole to reach the second fixing hole of the first through hole, and one end of the wire pushing piece is abutted to the limiting surface between the second fixing hole and the guide rod through hole.

Further, the driving device comprises a sliding table cylinder, and the sliding table cylinder comprises a cylinder body and a driving sliding part which is slidably arranged on the cylinder body; the fixed structure is connected with the driving sliding part, and an action rod of the cylinder body is connected with the driving sliding part to drive the driving sliding part.

By adopting the structure, the action rod of the cylinder body acts on the driving sliding part, and the driving sliding part slides on the cylinder body and drives the fixing structure connected with the driving sliding part.

Further, the driving sliding part comprises a transverse plate part and a vertical plate part connected with the transverse plate part, a first sliding fit structure is arranged on the side surface of the cylinder body, and a second sliding fit structure matched with the first sliding fit structure is arranged on the transverse plate part; the action rod of the cylinder body is connected with the vertical plate part.

Specifically, the horizontal plate portion and the vertical plate portion of the driving slider are designed integrally.

By adopting the structure, the first sliding fit structure arranged on the cylinder body and the second sliding fit structure arranged on the transverse plate part in the driving sliding part are matched to realize the sliding between the driving sliding part and the cylinder body.

The radial fixing piece is of an L-shaped structure and is fixed on the transverse plate part of the driving sliding piece, and a space for mounting the axial fixing piece is reserved between the radial fixing piece and the vertical plate part of the driving sliding piece; the axial fixing member is fixed to the vertical plate portion of the driving slider.

Specifically, the driving device adopts a side rail type precision sliding table air cylinder.

Further, the wire pushing tool for the automatic winding equipment of the electronic transformer comprises a driving device mounting plate, wherein the driving device is fixedly mounted on the driving device mounting plate; the guide rod is connected with the driving device mounting plate through a guide rod fixing piece.

Furthermore, the end part of the guide rod is provided with a needle point end head; by adopting the structure, the design of the tip of the needle point is convenient for the winding of the lead.

Further, the wire pushing tool for the automatic winding equipment of the electronic transformer comprises a control device, wherein the control device is connected with the driving device so as to control the operation of the driving device; by adopting the structure, the wire pushing tool for the automatic winding equipment of the electronic transformer is more intelligent and automatic.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses a study very little electronic transformer of size, the design processing is directed against the push away line frock in the wire winding of the electronic transformer of this characteristic, and is with low costs, and the benefit is big, and the structure is ingenious and the outward appearance is graceful.

(2) The utility model discloses can realize wire winding work to the electronic transformer that the size is little, guarantee the quality and the production efficiency of product when reducing the cost of labor for the enterprise.

Drawings

FIG. 1 is a schematic diagram of an electronic transformer;

fig. 2 is a schematic structural view of the wire pushing tool for the automatic winding device of the electronic transformer of the present invention;

fig. 3 is a schematic view of the cross-sectional structure of the wire pushing tool for the automatic winding device of the electronic transformer of the present invention;

fig. 4 is a schematic structural view of the radial fixing member of the wire pushing tool for the automatic winding device of the electronic transformer according to the present invention;

fig. 5 is a schematic structural view of the axial fixing member of the wire pushing tool for the automatic winding device of the electronic transformer according to the present invention;

fig. 6 is a schematic view of the internal structure of the axial fixing member of the wire pushing tool for the automatic winding device of the electronic transformer according to the present invention;

fig. 7 is a schematic structural view of a guide bar fixing member of a wire pushing tool for an automatic winding device of an electronic transformer according to the present invention;

reference numerals: a stitch; b, leading;

1a driving device; 101 a cylinder body; 102 driving the slide; 1021 horizontal plate part; 1022 vertical plate parts; 2, a guide rod; 3, pushing the wire; 4, fixing a structure; 401 axial fixings; 4011a first perforation; 4011a second fixing hole; 4011b guide bar bore; 402 a radial fixing member; 4021 a first fixing hole; 4022 a first fastening slot; 4023 a first fastener mounting hole; 5, a guide rod fixing part; 501 guide rod fixing holes; 502 second fastening slots; 503 second fastener mounting holes; 6 driving device mounting plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1-7, a push away line frock for automatic spooling equipment of electronic transformer, establish including drive arrangement 1, guide bar 2, cover and establish on guide bar 2 and slidable push away line piece 3 and cover and establish on guide bar 2 and slidable fixed knot constructs 4, fixed knot constructs 4 with push away line piece 3 and be connected and be used for fixing push away line piece 3, drive arrangement 1 with fixed knot constructs 4 and connects in order to drive fixed knot constructs 4 along the motion of guide bar 2.

By adopting the structure, the lead wire to be installed is wound on the end part of the guide rod 2, the driving device 1 drives the fixed structure 4 to slide along the guide rod 2 to the end part of the guide rod 2, the push wire is fixed on the fixed structure 4, so that the push wire slides along the guide rod 2 to the end part of the guide rod 2 along with the movement of the fixed structure 4, finally, the lead wire wound on the end part of the guide rod 2 is pushed to a pin of an electronic transformer, and the driving structure drives the fixed structure 4 and the push wire piece 3 to reset, thereby completing one-time operation; and circulating the operations to sequentially complete the wire pushing operation of other pins of the electronic transformer.

Winding of the wire around the end of the guide bar 2 can be done manually or by machine.

Preferably, the wire pushing member 3 is an elastic member.

By adopting the structure, the elastic piece has certain deformation capacity, so that the wire pushing piece 3 can ensure that the wire pushing operation is more complete during the wire pushing operation, and the lead can be pushed into pins of the electronic transformer; specifically, the wire pushing member 3 is a spring.

Preferably, the fixing structure 4 comprises an axial fixing member 401, and a radial fixing member 402; the axial fixing member 401 is used for limiting the axial movement of the wire pushing member 3 relative to the axial fixing member 401, and the radial fixing member 402 is used for limiting the radial movement of the wire pushing member 3.

With the above structure, the radial fixing member 402 is tightly fitted with the wire pushing member 3 at the position where the wire pushing member 3 is installed, so as to realize the radial movement of the wire pushing member 3, and therefore, the radial fixing member 402 can also realize the initial fixing of the wire pushing member 3, so that the wire pushing member 3 moves along with the movement of the radial fixing member 402; however, in the wire pushing process, the lead wire exerts a force on the wire pushing member 3 in the opposite direction, so that the wire pushing member 3 tends to move away from the end of the guide rod 2, and the axial fixing member 401 acts on the wire pushing member 3 to limit the axial movement of the wire pushing member 3 relative to the axial fixing member 401 toward the end away from the guide rod 2.

Preferably, the radial fixing piece 402 is provided with a first fixing hole 4021 penetrating through itself and a first fastening groove 4022; one end of the first fastening slot 4022 communicates with the first fastening hole 4021, and the other end extends to the end surface of the radial fastener 402; the first fixing hole 4021 is used for fixing the wire pushing member 3.

With the above structure, since the first fastening groove 4022 is provided, the size of the first fixing hole 4021 can be adjusted; when the two opposite side walls of the first fastening groove 4022 are close to each other, the first fixing hole 4021 can be made smaller, and the wire pushing member 3 can be more reliably fixed in the first fixing hole 4021.

Specifically, the radial fixing member 402 is provided with a first fastener mounting hole 4023 perpendicular to the first fastening groove 4022 at a position where the first fastening groove 4022 is provided; the first fastener mounting hole 4023 is used for mounting a first fastener, so that two opposite side walls of the first fastening groove 4022 are close to each other when the first fastener is mounted in the first fastener mounting hole; the first fastener is threadedly engaged with the first fastener mounting hole 4023.

Preferably, the axial fixing member 401 is provided with a first through hole 4011 penetrating through itself, and the first through hole 4011 includes a second fixing hole 4011a for fixing the wire pushing member 3 and a guide rod through hole 4011b having a smaller diameter than the second fixing hole 4011a, which are sequentially arranged.

With the above structure, since the aperture of the guide rod through hole 4011b is smaller than the aperture of the second fixing hole 4011a, a limiting surface is formed between the second fixing hole 4011a and the guide rod through hole 4011b, and the limiting surface is used for limiting the axial movement of the wire pushing member 3 relative to the axial fixing member 401 toward the end portion away from the guide rod 2 in the wire pushing direction.

Preferably, the wire pushing tool for the automatic winding equipment of the electronic transformer comprises a guide rod fixing part 5 for fixing the guide rod 2, wherein the guide rod fixing part 5 is provided with a guide rod fixing hole 501 penetrating through the guide rod fixing hole and a second fastening groove 502; one end of the second fastening groove 502 is communicated with the guide rod fixing hole 501, and the other end extends to the end surface of the guide rod fixing member 5; the guide bar fixing hole 501 is used for fixing the guide bar 2.

With the above structure, the size of the guide rod fixing hole 501 can be adjusted due to the second fastening groove 502; when the opposite sidewalls of the second fastening groove 502 are close to each other, the guide bar fixing hole 501 can be made small, and the guide bar 2 can be more reliably fixed in the guide bar fixing hole 501.

Specifically, the guide bar fixing member 5 is provided with a second fastener mounting hole 503 perpendicular to the second fastening groove 502 at the position where the second fastening groove 502 is provided; the second fastener mounting hole 503 is used for mounting a second fastener, when the second fastener is mounted in the second fastener mounting hole, two opposite side walls of the second fastening groove 502 are close to each other; the second fastener is threadedly engaged with the second fastener mounting hole 503.

Preferably, the axes of the first fixing hole 4021 of the radial fixing member 402, the first through hole 4011 of the axial fixing member 401, and the guide rod fixing hole 501 of the guide rod fixing member 5 are collinear; the guide rod 2 sequentially passes through the first fixing hole 4021, the first through hole 4011 and the guide rod fixing hole 501 and is fixed through the guide rod fixing hole 501; the wire pushing member 3 passes through the first fixing hole 4021 to reach the second fixing hole 4011a of the first through hole 4011, and one end of the wire pushing member abuts against a limiting surface between the second fixing hole 4011a and the guide rod through hole 4011 b.

Preferably, the driving device 1 comprises a sliding table cylinder, and the sliding table cylinder comprises a cylinder body 101 and a driving sliding part 102 slidably arranged on the cylinder body 101; the fixed structure 4 is connected to the driving slider 102, and the actuating rod of the cylinder body 101 is connected to the driving slider 102 to drive the driving slider 102.

With the above structure, the action rod of the cylinder body 101 acts on the driving slider 102, and the driving slider 102 slides on the cylinder body 101 and drives the fixing structure 4 connected thereto.

Preferably, the driving slider 102 includes a horizontal plate portion 1021 and a vertical plate portion 1022 connected to the horizontal plate portion 1021, a first sliding fit structure is provided on a side surface of the cylinder body 101, and a second sliding fit structure matched with the first sliding fit structure is provided on the horizontal plate portion 1021; the action rod of the cylinder body 101 is connected to the riser part 1022.

Specifically, the horizontal plate portion 1021 and the vertical plate portion 1022 of the drive slider 102 are integrally formed.

With the above structure, the first sliding fit structure provided in the cylinder body 101 and the second sliding fit structure provided in the horizontal plate 1021 of the driving slider 102 cooperate to realize the sliding between the driving slider 102 and the cylinder body 101.

The radial fixing member 402 is of an "L" shaped structure and is fixed to the horizontal plate portion 1021 of the driving slider 102, and a space for installing the axial fixing member 401 is left between the radial fixing member 402 and the vertical plate portion 1022 of the driving slider 102; the axial securing element 401 is fixed to the riser part 1022 of the drive slide 102.

Specifically, the driving device 1 adopts a side rail type precision sliding table cylinder.

Preferably, the wire pushing tool for the automatic winding equipment of the electronic transformer comprises a driving device mounting plate 6, and the driving device 1 is fixedly mounted on the driving device mounting plate 6; the guide bar 2 is connected with the driving device mounting plate 6 through a guide bar fixing piece 5.

Preferably, the end part of the guide rod 2 is provided with a needle tip; by adopting the structure, the design of the tip of the needle point is convenient for the winding of the lead.

Preferably, the wire pushing tool for the automatic winding equipment of the electronic transformer comprises a control device, wherein the control device is connected with the driving device 1 so as to control the operation of the driving device 1; by adopting the structure, the wire pushing tool for the automatic winding equipment of the electronic transformer is more intelligent and automatic.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a push away line frock for automatic spooling equipment of electronic transformer which characterized in that: establish including drive arrangement (1), guide bar (2), cover establish guide bar (2) are gone up and slidable pushes away line piece (3) and cover establish guide bar (2) are gone up and slidable fixed knot constructs (4), fixed knot structure (4) with push away line piece (3) and connect and be used for fixing push away line piece (3), drive arrangement (1) with fixed knot constructs (4) and connects in order to drive fixed knot constructs (4) along guide bar (2) motion.

2. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 1, wherein: the wire pushing piece (3) is an elastic piece.

3. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 1, wherein: the fixing structure (4) comprises an axial fixing piece (401) and a radial fixing piece (402); the axial fixing piece (401) is used for limiting the axial movement of the wire pushing piece (3) relative to the axial fixing piece (401), and the radial fixing piece (402) is used for limiting the radial movement of the wire pushing piece (3).

4. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 3, wherein: the radial fixing piece (402) is provided with a first fixing hole (4021) penetrating through the radial fixing piece and a first fastening groove (4022); one end of the first fastening groove (4022) is communicated with the first fixing hole (4021), and the other end of the first fastening groove extends to the end face of the radial fixing piece (402); the first fixing hole (4021) is used for fixing the wire pushing piece (3).

5. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 3, wherein: axial fixity piece (401) are provided with and run through its own first perforation (4011), first perforation (4011) is including setting gradually be used for fixing push away the second fixed orifices (4011a) of line spare (3) and aperture are less than the guide bar perforation (4011b) of second fixed orifices (4011 a).

6. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 1, wherein: the fixing device comprises a guide rod fixing part (5) used for fixing the guide rod (2), wherein the guide rod fixing part (5) is provided with a guide rod fixing hole (501) penetrating through the guide rod fixing part and a second fastening groove (502); one end of the second fastening groove (502) is communicated with the guide rod fixing hole (501), and the other end of the second fastening groove extends to the end face of the guide rod fixing piece (5); the guide rod fixing hole (501) is used for fixing the guide rod (2).

7. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 1, wherein: the driving device (1) comprises a sliding table cylinder, and the sliding table cylinder comprises a cylinder body (101) and a driving sliding part (102) which is slidably arranged on the cylinder body (101); the fixed structure (4) is connected with the driving sliding part (102), and an action rod of the cylinder body (101) is connected with the driving sliding part (102) to drive the driving sliding part (102).

8. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 7, wherein: the driving sliding piece (102) comprises a transverse plate part (1021) and a vertical plate part (1022) connected with the transverse plate part (1021), a first sliding fit structure is arranged on the side surface of the cylinder body (101), and a second sliding fit structure matched with the first sliding fit structure is arranged on the transverse plate part (1021); the action rod of the cylinder body (101) is connected with the vertical plate part (1022).

9. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 1, wherein: the device comprises a driving device mounting plate (6), wherein the driving device (1) is fixedly mounted on the driving device mounting plate (6); the guide rod (2) is connected with the driving device mounting plate (6) through a guide rod fixing piece (5).

10. The wire pushing tool for the automatic winding equipment of the electronic transformer as claimed in claim 1, wherein: the end part of the guide rod (2) is provided with a needle point end.

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