CN219180284U - Enameled wire particle blocking device - Google Patents

Abstract

The utility model provides an enameled wire particle blocking device which comprises a mounting seat, a sizing die, a sliding seat, a supporting seat, a sliding rod, a first bushing, a second bushing and a locking piece. The sizing die is fixed on the sliding seat, the supporting seats are fixed on the mounting seat, the two supporting seats are oppositely arranged along the first direction, and the sliding rod extends between the two supporting seats; the sliding seat is provided with penetrating through holes, the sliding rod penetrates through the penetrating through holes of the sliding seats, and the sliding seats are arranged at intervals along the first direction; the plurality of first bushings are sleeved on the sliding rod, and the first bushings are arranged between any two adjacent sliding seats; the two second bushings are sleeved on the sliding rod, the second bushings are fixedly connected with the sliding rod through locking pieces, and the two second bushings limit the sliding seats from two opposite sides in the first direction. The enameled wire particle blocking device can carry out translational adjustment on the positions of the sliding seats according to actual wiring requirements, and has good adaptability.

Description

Enameled wire particle blocking device

Technical Field

The utility model relates to the technical field of enameled wire production, in particular to an enameled wire particle blocking device.

Background

At present, particles appear on the surface of an enameled wire, which is a common quality problem in the production process, mainly is a phenomenon that bare copper wires are subjected to painting baking, and the surface of the enameled wire is normally uniform and smooth after paint liquid is solidified into a film in the painting process. However, if the paint liquid of the bare copper wire is excessively coated, the paint liquid is locally accumulated, and paint film particles are formed after baking. These particles have a great influence on the quality of the enamelled wire and therefore need to be blocked by a particle blocking device. The existing blocking device is provided with a row of a plurality of sizing dies, taper holes used for penetrating the enameled wires are formed in the sizing dies, the inner diameter of each sizing die is as large as the outer diameter of each enameled wire, and particles can be effectively blocked.

The problem that this kind of separation device of current exists is that sizing mould is fixed to be set up, and the position of crossing line taper hole can't be adjusted according to crossing line actual conditions, and adaptability is relatively poor.

Disclosure of Invention

The utility model aims to provide an enameled wire particle blocking device capable of adjusting a sizing die.

The enameled wire particle blocking device comprises a mounting seat and a sizing die, wherein a wire passing taper hole is formed in the sizing die; the enameled wire particle blocking device also comprises a sliding seat, a supporting seat, a sliding rod, a first bushing, a second bushing and a locking piece; the sizing die is fixed on the sliding seat, the supporting seats are fixed on the mounting seat, the two supporting seats are oppositely arranged along the first direction, the sliding rod extends along the first direction, and the extending two ends of the sliding rod are respectively connected with the two supporting seats; the sliding seat is provided with penetrating through holes, the sliding rod penetrates through the penetrating through holes of the sliding seats, and the sliding seats are arranged at intervals along the first direction; the plurality of first bushings are sleeved on the sliding rod, and the first bushings are arranged between any two adjacent sliding seats; the two second bushings are sleeved on the sliding rod, the second bushings are fixedly connected with the sliding rod through locking pieces, and the two second bushings limit the sliding seats from two opposite sides in the first direction.

According to the scheme, the sliding seats are inserted on the sliding rod, after the locking piece is removed, the second bushing releases the limitation on the sliding seats, the positions of the sliding seats in the first direction can be adjusted, and after the adjustment is completed, the second bushing is fixed through the locking piece, so that the sliding seats are limited again. Therefore, the enameled wire particle blocking device can carry out translational adjustment on the positions of the sliding seats according to actual wiring requirements, and has good adaptability.

After the locking piece is disassembled, the first bushing, the second bushing and the sliding seat can slide along the first direction on the sliding rod.

Therefore, compared with other relative movement modes, the first bushing, the second bushing, the sliding seat and the sliding rod can slide relatively, so that the operation difficulty in adjusting the position can be reduced.

In a still further scheme, after the locking piece is disassembled, the sliding seat can rotate by taking the sliding rod as the axis.

Further, the outer contour of the sliding rod is round, and/or the penetrating through hole is a round hole.

From the above, under this setting, the sliding seat not only can carry out position adjustment, can also carry out pitch angle and adjust, therefore has better adaptability to different wiring demands.

In another further scheme, the enameled wire particle blocking device further comprises a blocking rod; the stop lever extends along the first direction, and the extending two ends of the stop lever are respectively connected with the two supporting seats; the sliding seat comprises a far part far away from the sliding rod, and the stop lever limits the sliding seat from the rotating direction of the sliding seat.

In a direction perpendicular to the first direction, the sliding seat comprises a first part and a second part which are oppositely arranged, the first part and the second part are respectively positioned at two opposite sides of the sliding rod, and the sizing die is arranged at the first part; the second part is a far part.

From the above, under this setting, the pin can carry out the restriction and the location to the rotation of sliding seat to a certain extent.

The further scheme is that the locking piece is a locking screw, a locking screw hole is formed in the second bushing, and the screw penetrates through the screw hole and then is abutted to the sliding rod.

From the above, the locking piece is set as a locking screw, so that the operation is simple, the fixing effect is good, and the second bushing is ensured to be stably kept at the current position.

The mounting seat comprises a side plate, a bottom plate and a reinforcing rib; the bottom plate extends along a first direction, and the supporting seat is connected to the bottom plate; the side plates are connected with the bottom plate in a bending way, and the reinforcing ribs are connected between the side plates and the bottom plate.

As can be seen from the above, the installation seat has stronger structural strength and supporting capability.

Further, the side plate is provided with a mounting through hole which is a long hole.

As can be seen from the above, this arrangement enables the mounting position of the mounting base to be adjusted.

Drawings

Fig. 1 is a block diagram of an embodiment of the wire particle blocking device of the present utility model.

Fig. 2 is a cross-sectional view of an embodiment of the wire particle blocking device of the present utility model.

Fig. 3 is a schematic view illustrating an embodiment of the wire particle blocking device according to the present utility model, which is adjusted along a first direction.

Fig. 4 is a schematic view of an embodiment of the present utility model for adjusting the particle blocking device of enameled wire along the axis of the sliding rod.

Detailed Description

Referring to fig. 1, the enameled wire particle blocking device of the embodiment comprises a mounting seat 1, a supporting seat 2, a sliding rod 31, a stop rod 32, a sliding seat 4, a sizing die 5, a first bushing 61, a second bushing 62 and a locking screw 7, wherein the locking screw 7 is a locking piece of the utility model.

The x-axis direction is shown as the first direction of the present utility model. The mounting seat 1 is a positioning angle iron, the mounting seat 1 comprises a bottom plate 11 extending along the x-axis direction, a side plate 12 extending along the vertical direction and a reinforcing rib 13, the side plate 12 is connected with the bottom plate 11 in a bending way, and the reinforcing rib 13 is connected between the bottom surface of the side plate 12 and the bottom plate 11. The side plate 12 is provided with a mounting through hole 120 penetrating along the x-axis direction, the mounting through hole 120 is a long hole, and the mounting through hole 120 is vertically elongated. This arrangement enables the mounting position of the mounting base 1 to be adjusted up and down, while enabling the position of the sizing die 5 to be adjusted up and down.

The two supporting seats 2 are fixed on the mounting seat 1, the supporting seats 2 extend vertically, and the two supporting seats 2 are oppositely arranged along the first direction; the sliding rod 31 and the stop rod 32 both have circular outer contours, the sliding rod 31 extends along the first direction, two extending ends of the sliding rod 31 are respectively connected with the two supporting seats 2, the stop rod 32 extends along the first direction, and two extending ends of the stop rod 32 are respectively connected with the two supporting seats 2. In addition, the slide bar 31 is located above the horizontal position of the bar 32, and as shown in fig. 2, the slide bar 31 is not located directly above the bar 32.

Referring to fig. 1 and 2, the sliding seat 4 is an aluminum sliding block, the sliding seat 4 is rectangular, and the sliding seat 4 includes a first portion 41 and a second portion 42 which are oppositely disposed along a length direction of the sliding seat 4. The first part 41 is provided with a penetrating through hole 401 penetrating along the x-axis direction, the first part 41 is provided with a line passing through hole 402, the line passing through hole 402 is perpendicular to the penetrating through hole 401, the sizing die 5 is fixedly arranged at the line passing through hole 402, the sizing die 5 is internally provided with a line passing taper hole 50, and the line passing taper hole 50 and the line passing through hole 402 are sequentially communicated along the penetrating direction of the line passing through hole 402. In addition, the second portion 42 is distant from the insertion through hole 401 with respect to the first portion 41, and the second portion 42 is a distal portion of the present utility model.

Referring to fig. 1, the slide bar 31 passes through the penetration holes 401 of the plurality of slide seats 4, thus allowing the plurality of slide seats 4 to be sequentially arranged in the x-axis direction, and the slide seats 4 can be rotated about the slide bar 31 as an axis without being restricted. Further, a first bushing 61 is sleeved on the slide bar 31 between any two adjacent sliding seats 4, and the first bushing 61 is arranged so that the interval distance between any two adjacent sliding seats 4 in the x-axis direction is fixed; still further, two second bushings 62 are sleeved on the slide rod 31, and two sliding seats 4 on the outermost sides of two opposite directions of the two second bushings 62 in the x-axis direction are adjacent; and because the second bushing 62 is provided with a screw hole, the locking screw 7 is matched with the screw hole, and the locking screw 7 is abutted against the surface of the slide rod 31 after passing through the screw hole, so that the second bushing 62 is fixed on the slide rod 31 and cannot move along the x-axis direction, and the second bushing 62 can limit a plurality of sliding seats 4 from two opposite sides of the x-axis direction at the moment. In addition, as shown in fig. 2, when the plurality of sliding seats 4 are engaged with the slide bar 31, the second portion 42 is located at one side of the bar 32, and the bar 32 restricts the sliding seats 4 from the rotation direction of the sliding seats 4.

Referring to fig. 2 and 3, after the locking screw 7 is removed, the second bush 62 can be moved in the x-axis direction to release the blocking of the slide block 4 and the first bush 61, so that the first bush 61, the second bush 62 and the slide block 4 are all slidable on the slide bar 31 in the x-axis direction. Thus the transverse position of the sliding seat 4 and the sizing die 5 thereon can be adjusted; referring to fig. 2 and 4, similarly, after the locking screw 7 is removed, the sliding seat 4 can be rotated about the sliding rod 31, so that the pitch angle of the wire passing taper hole 50 on the sizing die 5 can be adjusted. In addition, the height of the enameled wire particle blocking device can be adjusted through the arrangement of the long mounting through holes 120, so that the enameled wire particle blocking device can translate and adjust the positions of the sliding seats 4 and the sizing dies 5 on the sliding seats according to actual wiring requirements, and has good adaptability.

In other embodiments, the locking structure is a bolt, a bolt through hole is formed in the second bushing, bolt blind holes are formed in the sliding rod at intervals along the first direction, and the second bushing can be locked at the current position after the bolt is inserted into the bolt blind holes through the bolt through hole.

Finally, it should be emphasized that the foregoing description is merely illustrative of the preferred embodiments of the utility model, and that various changes and modifications can be made by those skilled in the art without departing from the spirit and principles of the utility model, and any such modifications, equivalents, improvements, etc. are intended to be included within the scope of the utility model.

Claims (9)

1. The enamelled wire particle blocking device comprises a mounting seat and a sizing die, wherein a wire passing taper hole is formed in the sizing die, a plurality of sizing dies are sequentially arranged along a first direction, and the penetrating direction of the wire passing taper hole is perpendicular to the first direction;

the method is characterized in that:

the enameled wire particle blocking device further comprises a sliding seat, a supporting seat, a sliding rod, a first bushing, a second bushing and a locking piece;

the sizing die is fixed on the sliding seat;

the support seats are fixed on the mounting seats, the two support seats are oppositely arranged along the first direction, the sliding rod extends along the first direction, and the extending two ends of the sliding rod are respectively connected with the two support seats;

the sliding seat is provided with penetrating through holes, the sliding rods penetrate through the penetrating through holes of a plurality of sliding seats, and the sliding seats are arranged at intervals;

the plurality of first bushings are sleeved on the sliding rod, and the first bushings are arranged between any two adjacent sliding seats;

the two second bushings are sleeved on the sliding rod, the second bushings are fixedly connected with the sliding rod through the locking pieces, and the two second bushings limit a plurality of sliding seats from two opposite sides in the first direction.

2. The wire particle blocking device according to claim 1, wherein:

after the locking piece is detached, the first bushing, the second bushing and the sliding seat are all arranged on the sliding rod and can move along the first direction.

3. The wire particle blocking device according to claim 2, wherein:

after the locking piece is disassembled, the sliding seat can rotate by taking the sliding rod as an axle center.

4. The wire particle blocking device according to claim 3, wherein:

the outer contour of the sliding rod is round, and the penetrating through hole is a round hole.

5. The wire particle blocking device according to claim 3, wherein:

the enameled wire particle blocking device also comprises a stop lever;

the stop lever extends along the first direction, and the extending two ends of the stop lever are respectively connected with the two supporting seats;

the sliding seat comprises a far part far away from the sliding rod, and the stop lever limits the sliding seat from the rotating direction of the sliding seat.

6. The wire particle blocking device according to claim 5, wherein:

in the direction perpendicular to the first direction, the sliding seat comprises a first part and a second part which are oppositely arranged, the first part and the second part are respectively positioned at two opposite sides of the sliding rod, and the sizing die is arranged at the first part;

the second portion is the distal portion.

7. The wire particle blocking device according to any one of claims 1 to 6, wherein:

the locking piece is a locking screw, a screw hole is formed in the second bushing, and the locking screw passes through the screw hole and then abuts against the sliding rod.

8. The wire particle blocking device according to any one of claims 1 to 6, wherein:

the mounting seat comprises a side plate, a bottom plate and reinforcing ribs;

the bottom plate extends along the first direction, and the supporting seat is connected to the bottom plate;

the side plates are connected with the bottom plate in a bending way, and the reinforcing ribs are connected between the side plates and the bottom plate.

9. The wire particle blocking device of claim 8, wherein:

the side plates are provided with mounting through holes, and the mounting through holes are long holes.

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