CN219936859U - Magnetic core steering clamp of winding machine - Google Patents

Abstract

The utility model discloses a magnetic core steering clamp of a winding machine, which comprises a rotating base, wherein a first moving assembly and a second moving assembly are symmetrically arranged on the rotating base in the central position, a first rotating clamping arm is arranged on the first moving assembly, a second rotating clamping arm is arranged on the second moving assembly, the first rotating clamping arm and the second rotating clamping arm synchronously rotate in the same direction, the magnetic core can be longitudinally turned by the steering clamp and horizontally rotated, the position of the magnetic core is not required to be changed manually in the production process, the degree of automation is improved, the standardized production efficiency is improved, and meanwhile, the influence of the condition of manual misoperation on the yield is avoided.

Description

Magnetic core steering clamp of winding machine

Technical Field

The utility model belongs to the technical field of fixed clamps, and particularly relates to a magnetic core steering clamp of a winding machine.

Background

The inductor is an indispensable component in the electronic field, has different size specifications and different coil quantity requirements according to purposes, but always cannot be separated from the combination of the magnetic core and the wire core, the wire core with smaller specification is usually only wound on the periphery of the magnetic core, a round hollow magnetic core is usually adopted for the inductor with larger specification, the inductor needs to pass through the center position of the magnetic core and then be wound on the magnetic core during winding, the inductor of a single coil winding can be completed once, but the inductor of a multi-coil winding needs to be manually changed in position, or the inductor of a semi-finished product is transferred into another winding mechanism through a movable clamp, so that the volume of winding equipment cannot be further reduced, and the production efficiency is reduced.

Disclosure of Invention

The utility model aims to provide a magnetic core steering clamp of a winding machine, which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a coiling machine magnetic core turns to anchor clamps, includes the rotating base, moving assembly one and moving assembly two are installed with central point symmetry to the rotating base, moving assembly one is last to install rotatory arm lock, moving assembly two is last to install rotatory arm lock two, rotatory arm lock and rotatory arm lock two synchronous and the syntropy rotation.

Further technical scheme, the rotating base includes the fixing base, the fixing base rotates and is connected with rotary rod one, the one end of rotary rod one is connected with the rotor plate, is equipped with at least one spiral strip hole one along the lateral wall of rotary rod one, wear to be equipped with movable rod one in the spiral strip hole one, movable rod one is connected with the output of cylinder one.

According to a further technical scheme, the first rotating rod is of a hollow structure along the extending direction of the first spiral strip holes, the first spiral strip holes are symmetrically arranged, the output end of the first air cylinder extends into the first rotating rod and is connected with the first movable rod, and the two ends of the first movable rod extend out of the first spiral strip holes respectively.

According to a further technical scheme, the fixing seat comprises a fixing portion, a first cylinder body wrapping the first rotary rod is arranged on the fixing portion, a first straight line hole is formed in the first cylinder body along the first extending direction of the cylinder, and the first movable rod extends out of the first straight line hole.

Further technical scheme, remove subassembly one and remove subassembly two structural identity, remove subassembly two and include the cylinder two, the output of cylinder two is connected with and removes the seat, it is connected with the sliding pair of establishing on rotating base to remove the seat, rotatory arm lock two is installed on removing the seat.

Further technical scheme, rotatory arm lock is the same with rotatory arm lock structure, rotatory arm lock includes the rotary rod second of being connected with the rotation of moving seat, the one end of rotary rod second is connected with the chuck, is equipped with at least one spiral strip hole second along the lateral wall of rotary rod second, wear to be equipped with movable rod second in the spiral strip hole second, movable rod second is connected with the output of cylinder three, the cylinder three is installed on moving seat.

Further technical scheme, the extension direction along spiral strip hole two of rotary rod is hollow structure in the inside, and spiral strip hole two quantity is two, and two spiral strip hole two symmetry settings, cylinder three output stretches into in the rotary rod two and is connected with movable rod two, two both ends of movable rod are stretched out from two spiral strip hole two departments respectively.

Further technical scheme, remove the seat and include the movable part, be equipped with the barrel second of parcel rotary rod second on the movable part, barrel second is equipped with straight line hole second along the direction of stretching out of cylinder three, movable rod second stretches out straight line hole second.

The utility model has the beneficial effects that:

the steering clamp can longitudinally turn over the magnetic core and horizontally rotate, the position of the magnetic core does not need to be changed manually in the production process, the degree of automation is improved, standardized production is facilitated, the production efficiency is improved, and meanwhile the influence on the yield due to the fact that manual misoperation is avoided.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

Fig. 1: the utility model is a whole perspective structure diagram.

Fig. 2: the utility model relates to a structure diagram of a rotating base, a second moving assembly and a second rotating clamping arm.

Fig. 3: explosion diagram of the present utility model.

Reference numerals: 1-rotating base, 11-fixing seat, 111-fixing part, 112-barrel, 113-straight line hole, 12-rotating rod, 13-rotating plate, 14-spiral line hole, 15-movable rod, 16-cylinder, 17-sliding pair, 2-moving component, 3-moving component, 31-cylinder, 32-moving seat, 321-moving part, 322-barrel, 323-straight line hole, 4-rotating clamp arm, 5-rotating clamp arm, 51-rotating rod, 52-clamp head, 53-spiral line hole, 54-movable rod and 55-cylinder.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Please refer to fig. 1-3;

the clamp is usually used together with a winding machine, has a steering function and is suitable for production of multi-winding inductors, and specifically comprises a rotary base 1, wherein a first moving component 2 and a second moving component 3 are symmetrically arranged on the rotary base 1 in a central position, a first rotating clamping arm 4 is arranged on the first moving component 2, and a second rotating clamping arm 5 is arranged on the second moving component 3;

the magnetic core is arranged between the first rotary clamping arm 4 and the second rotary clamping arm 5 in the working process, then the first rotary clamping arm 4 and the second rotary clamping arm 5 are driven to approach each other in the magnetic core direction through the first moving component 2 and the second moving component 3 respectively, finally the first rotary clamping arm 4 and the second rotary clamping arm 5 are clamped and fixed, the wire core can be wound on the magnetic core through the winding machine, in the process, the winding machine can only form a single coil winding on the upper half part or the lower half part of the magnetic core, and then the first rotary clamping arm 4 and the second rotary clamping arm 5 synchronously and synchronously rotate in the same direction to enable the magnetic core to overturn, preferably 180 DEG overturn, and the winding machine corresponds to the other part of the magnetic core and processes another coil winding; in addition, according to different requirements of the inductance wire outlet direction, the rotary clamping arm I4 and the rotary clamping arm II 5 can be driven to horizontally rotate through the rotary base 1, preferably to horizontally rotate by 180 degrees, the steering clamp can longitudinally turn over the magnetic core and horizontally rotate in combination with the process, the position of the magnetic core does not need to be manually changed in the production process, the degree of automation is improved, standardized production is facilitated, the production efficiency is improved, and the influence of the condition of manual misoperation on the yield is avoided.

In this embodiment, the first moving component 2 and the second moving component 3 are independent of each other, and although the first moving component 2 and the second moving component 3 are symmetrically arranged, the displacement distance of the first moving component 2 can be changed according to actual production requirements, for example, the displacement distance of the first moving component 2 is small, the displacement distance of the second moving component 3 is large, so that the placement position of the magnetic core can be changed, and winding machines of different types can be satisfied.

The utility model relates to one embodiment of a rotating base 1, which particularly comprises a fixed seat 11, wherein the fixed seat 11 is rotatably connected with a rotating rod I12, one end of the rotating rod I12 is connected with a rotating plate 13, at least one spiral strip hole I14 is arranged along the side wall of the rotating rod I12, a movable rod I15 is penetrated in the spiral strip hole I14, and the movable rod I15 is connected with the output end of a cylinder I16; when the rotary rod is in operation, the first air cylinder 16 stretches out and drives the first movable rod 15 to longitudinally move, the position of the first spiral strip hole 14 is changed under the limit of the first movable rod 15, so that the first rotary rod 12 rotates, namely the first rotary rod 12 drives the rotary plate 13 to rotate, and a bearing can be arranged at the joint of the first rotary rod 12 and the fixed seat 11, so that the rotation is smoother;

further, the inside of the rotary rod I12 is of a hollow structure along the extending direction of the spiral strip holes I14, the number of the spiral strip holes I14 is two, the two spiral strip holes I14 are symmetrically arranged, the output end of the air cylinder I16 extends into the rotary rod I12 to be connected with the movable rod I15, the two ends of the movable rod I15 extend out of the two spiral strip holes I14 respectively, the movable rod I15 moves along a straight line under the action of the air cylinder I16, and the two spiral strip holes I14 can enable the rotary rod I12 to bear better force and act more stably;

further describing the structure of the fixing seat 11, the fixing seat 11 includes a fixing portion 111, a first cylinder 112 wrapping the first rotary rod 12 is disposed on the fixing portion 111, and first linear holes 113 are disposed on the first cylinder 112 along the extending direction of the first cylinder 16, in this embodiment, the number of the first linear holes 113 may be two, two ends of the first movable rod 15 extend from the first two linear holes 113, and the first movable rod 15 can be ensured to move along a straight line by limiting the first linear holes 113.

The first moving component 2 and the second moving component 3 have the same structure, and the second moving component 3 is exemplified and described as an example, and specifically, the utility model comprises a second cylinder 31, the output of the second cylinder 31 is connected with a moving seat 32, the moving seat 32 is connected with a sliding pair 17 arranged on the rotating base 1, the sliding pair 17 can enable the moving seat 32 to move more smoothly, the rotating clamping arm II is arranged on the moving seat 32, and the moving seat 32 moves back and forth through the action of the second cylinder 31.

The first rotary clamping arm 4 and the second rotary clamping arm 5 have the same structure, and the second rotary clamping arm 5 is taken as an example for illustration, and specifically comprises a second rotary rod 51 which is rotationally connected with a movable seat 32, one end of the second rotary rod 51 is connected with a chuck 52, at least one second spiral strip hole 53 is arranged along the side wall of the second rotary rod 51, a second movable rod 54 is penetrated in the second spiral strip hole 53, the second movable rod 54 is connected with the output end of a third air cylinder 55, and the third air cylinder 55 is arranged on the movable seat 32;

when the rotary rod is in operation, the third air cylinder 55 stretches out and drives the second movable rod 54 to longitudinally move, the position of the second spiral strip hole 53 is changed under the limit of the second movable rod 54, so that the second rotary rod 51 rotates, namely the second rotary rod 51 drives the chuck 52 to rotate, and a bearing can be arranged at the joint of the second rotary rod 51 and the movable seat 32, so that the rotation is smoother;

further, the inside of the second rotating rod 51 is of a hollow structure along the extending direction of the second spiral strip holes 53, the number of the second spiral strip holes 53 is two, the second spiral strip holes 53 are symmetrically arranged, the output end of the third air cylinder 55 stretches into the second rotating rod 51 to be connected with the second movable rod 54, the two ends of the second movable rod 54 respectively stretch out from the second spiral strip holes 53, the second movable rod 54 moves along a straight line under the action of the third air cylinder 55, and the second spiral strip holes 53 can enable the second rotating rod 51 to be better stressed and the action to be more stable;

in addition, the moving seat 32 includes a moving portion 321, a second cylinder 322 wrapping the second rotary rod 51 is disposed on the moving portion 321, and a second linear hole 323 is disposed on the second cylinder 322 along the extending direction of the third cylinder 55, where the number of the second linear holes 323 in the embodiment may be two, and two ends of the second movable rod 54 extend from the second linear holes 323, so that the second movable rod 54 can be ensured to move along a straight line by limiting the second linear hole 323.

Based on all the embodiments, the steering clamp provided by the utility model is composed of a plurality of air cylinders, and the linear motion is converted into the rotary motion through the mutual matching of the spiral strip holes and the movable rods, so that the steering clamp has smaller volume and lower cost compared with a mode of directly using a motor to perform rotary motion.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (1)

1. The utility model provides a coiling machine magnetic core turns to anchor clamps which characterized in that: the device comprises a rotating base (1), wherein a first moving component (2) and a second moving component (3) are symmetrically arranged on the rotating base (1) in a central position, a first rotating clamping arm (4) is arranged on the first moving component (2), a second rotating clamping arm (5) is arranged on the second moving component (3), and the first rotating clamping arm (4) and the second rotating clamping arm (5) synchronously and co-rotate;

the rotary base (1) comprises a fixed seat (11), the fixed seat (11) is rotationally connected with a rotary rod I (12), one end of the rotary rod I (12) is connected with a rotary plate (13), at least one spiral strip hole I (14) is formed along the side wall of the rotary rod I (12), a movable rod I (15) is arranged in the spiral strip hole I (14) in a penetrating mode, and the movable rod I (15) is connected with the output end of a cylinder I (16);

the inside of the rotary rod I (12) is of a hollow structure along the extending direction of the spiral strip holes I (14), the number of the spiral strip holes I (14) is two, the two spiral strip holes I (14) are symmetrically arranged, the output end of the air cylinder I (16) extends into the rotary rod I (12) to be connected with the movable rod I (15), and the two ends of the movable rod I (15) extend out of the two spiral strip holes I (14) respectively;

the fixed seat (11) comprises a fixed part (111), a first cylinder body (112) for wrapping the first rotary rod (12) is arranged on the fixed part (111), a first straight line hole (113) is formed in the first cylinder body (112) along the extending direction of the first cylinder (16), and the first movable rod (15) extends out of the first straight line hole (113);

the first moving assembly (2) and the second moving assembly (3) are identical in structure, the second moving assembly (3) comprises a second air cylinder (31), a moving seat (32) is output and connected to the second air cylinder (31), the moving seat (32) is connected with a sliding pair (17) arranged on the rotating base (1), and the second rotating clamping arm (5) is arranged on the moving seat (32);

the rotary clamping arm I (4) and the rotary clamping arm II (5) have the same structure, the rotary clamping arm II (5) comprises a rotary rod II (51) which is rotationally connected with the movable seat (32), one end of the rotary rod II (51) is connected with a chuck (52), at least one spiral strip hole II (53) is arranged along the side wall of the rotary rod II (51), a movable rod II (54) is arranged in the spiral strip hole II (53) in a penetrating manner, the movable rod II (54) is connected with the output end of a cylinder III (55), and the cylinder III (55) is arranged on the movable seat (32);

the inside of the second rotating rod (51) is of a hollow structure along the extending direction of the second spiral strip holes (53), the number of the second spiral strip holes (53) is two, the second spiral strip holes (53) are symmetrically arranged, the output end of the third air cylinder (55) extends into the second rotating rod (51) to be connected with the second movable rod (54), and the two ends of the second movable rod (54) extend out of the second spiral strip holes (53) respectively;

the movable seat (32) comprises a movable part (321), a second cylinder body (322) wrapping the second rotary rod (51) is arranged on the movable part (321), a second straight line hole (323) is formed in the second cylinder body (322) along the extending direction of the third cylinder (55), and the second movable rod (54) extends out of the second straight line hole (323).