CN218546495U - Cord thread bulge detection device - Google Patents

Abstract

The application provides a cord thread bulging detection device, which relates to the technical field of cord thread production detection and is used for a cord thread stranding machine tool and is provided with a first pressing ring and a second pressing ring which are oppositely arranged, wherein a pressing hole for the cord thread to pass through is arranged between the first pressing ring and the second pressing ring, and an adjusting mechanism for adjusting the positions of the first pressing ring and the second pressing ring is arranged; the adjusting mechanism is provided with a first rotating mechanism for driving the first pressing ring to rotate and a second rotating mechanism for driving the second pressing ring to rotate; the first rotating mechanism is provided with a first support and a first turnover plate hinged with the first support, and the first pressing ring is arranged on the first turnover plate; the second rotating mechanism is provided with a second support and a second turnover plate hinged with the second support, and the second pressing ring is arranged on the second turnover plate.

Description

Cord thread bulge detection device

Technical Field

The application belongs to the technical field of cord thread production detection, and particularly relates to a cord thread bulging detection device.

Background

The cord is a structure consisting of two or more metal wires, or a combination of strands and wires; in the process of combining the cords, the paying-off tension is not matched, the cord wheel is not flexible, or the cords are locally bent due to abrasion and grooving of cord passing points, so that the cords are foamed and bulged, the appearance is influenced, and the rolling is difficult, so the bulged cords need to be detected.

The working principle of the existing device for detecting cord thread bulging is that a cord thread is pressed by moving a sliding block and adding rated gravity between two rubber pads on the sliding block, the sliding block is driven to push from the head end to the tail end of the cord thread by a motor at a constant speed, and the state of the cord thread after rolling by the sliding block is observed, so that whether the cord thread has the defects of foaming and bulging is judged.

Disclosure of Invention

The utility model aims to remedy prior art's weak point, provide a cord line detection device that blooms, the technical scheme that this application adopted is:

a cord thread bulge detection device is used for a cord thread stranding machine tool and is characterized in that: the cord thread pressing device is characterized by comprising a first pressing ring and a second pressing ring which are oppositely arranged, wherein a pressing hole for the cord thread to pass through is formed between the first pressing ring and the second pressing ring, and an adjusting mechanism for adjusting the positions of the first pressing ring and the second pressing ring is arranged; the adjusting mechanism is provided with a first rotating mechanism for driving the first pressing ring to rotate and a second rotating mechanism for driving the second pressing ring to rotate; the first rotating mechanism is provided with a first support and a first turnover plate hinged with the first support, and the first pressing ring is arranged on the first turnover plate; the second rotating mechanism is provided with a second support and a second turnover plate hinged with the second support, and the second pressing ring is arranged on the second turnover plate.

Preferably, the adjusting mechanism is further provided with a limiting mechanism, and the limiting mechanism is provided with a first limiting mechanism for limiting the position of the first pressing ring and a second limiting mechanism for limiting the position of the second pressing ring; the first limiting mechanism is provided with a first limiting surface for limiting the first turnover plate to rotate backwards, and the second limiting mechanism is provided with a second limiting surface for limiting the second turnover plate to rotate backwards.

Preferably, the first limiting mechanism is further provided with a third limiting surface for limiting the first turnover plate to rotate forwards, and the second limiting mechanism is further provided with a fourth limiting surface for limiting the second turnover plate to rotate forwards.

Preferably, the adjusting mechanism is further provided with a pressing mechanism, and the pressing mechanism is provided with a first pressing mechanism for pressing the first turnover plate to the first limiting surface and a second pressing mechanism for pressing the second turnover plate to the second limiting surface.

Preferably, the first pressing mechanism is provided with a first sucker pointing to the first turnover plate, and the first sucker is arranged on the first limiting surface; the second pressing mechanism is provided with a second sucker pointing to the second turnover plate, and the second sucker is arranged on the second limiting surface.

Preferably, the device is also provided with an induction mechanism and a transmission mechanism, wherein the induction mechanism is provided with a first sensor for identifying whether the first turnover plate is separated from the first limit surface and a second sensor for identifying whether the second turnover plate is separated from the second limit surface; the transmission mechanism is provided with a transmission line which is connected with the sensing mechanism and the cord stranding machine tool and transmits signals of the first sensor and the second sensor to the cord stranding machine tool.

Preferably, the first pressure ring and the second pressure ring are both semicircular, and the radius of the first pressure ring is the same as that of the second pressure ring.

The utility model has the advantages as follows:

the adjusting mechanism adjusts the relative positions of the first pressing ring and the second pressing ring, the first pressing ring is opposite to the second pressing ring, the first pressing ring and the second pressing ring tightly press the cord threads in the pressing holes, the cord threads are rolled, the surface of the cord threads bears the same pressure, the cord threads penetrate through the pressing holes to move forwards, the tension of the cord threads is kept consistent front and back, meanwhile, the bulging and foaming detection of the surface of the cord threads is completed, and the accuracy of the detection result is guaranteed; the cord thread surface bulges or foams, the first pressing ring or the second pressing ring is pushed to move forwards and outwards, and the first pressing ring and the second pressing ring are prevented from being abraded at the cord thread surface bulge position.

The limiting mechanism is used for accurately limiting the positions of the first pressing ring and the second pressing ring, and the accuracy of the cord thread detection result is further guaranteed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of a spacing mechanism and a hold-down mechanism;

FIG. 3 is a schematic diagram of the present invention for detecting cord;

fig. 4 is a schematic diagram of the present invention detecting cord bulge.

The symbols in the figures illustrate:

1 is a first pressure ring;

2 is a second pressure ring;

3 is a pressure hole;

4 is an adjusting mechanism, 41 is a first rotating mechanism, 411 is a first support, 412 is a first turnover plate, 413 is a first hinge shaft, 42 is a second rotating mechanism, 421 is a second support, 422 is a second turnover plate, 423 is a second hinge shaft, 43 is a limiting mechanism, 431 is a first limiting mechanism, 4311 is a first limiting surface, 4312 is a third limiting surface, 432 is a second limiting mechanism, 4321 is a second limiting surface, 4322 is a fourth limiting surface, 44 is a pressing mechanism, 441 is a first pressing mechanism, 4411 is a first suction cup, 442 is a second pressing mechanism, 4421 is a second suction cup, 45 is a sensing mechanism, 451 is a first sensor, and 452 is a second sensor;

5 is a cord;

and 6 is a bracket.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The cord raising detection device provided in the embodiment of the present application will now be described.

Example, as shown in fig. 1 to 4:

a cord thread bulge detection device is used for a cord thread stranding machine tool and is characterized in that: the cord clamping device is provided with a first pressing ring 1 and a second pressing ring 2 which are oppositely arranged, a pressing hole 3 for a cord 5 to pass through is arranged between the first pressing ring 1 and the second pressing ring 2, and an adjusting mechanism 4 for adjusting the positions of the first pressing ring 1 and the second pressing ring 2 is arranged;

the adjusting mechanism 4 is provided with a first rotating mechanism 41 for driving the first pressing ring 1 to rotate and a second rotating mechanism 42 for driving the second pressing ring 2 to rotate;

the first rotating mechanism 41 is provided with a first support 411 and a first turnover plate 412 hinged with the first support 411, a first hinge shaft 413 is arranged at the joint of the first support 411 and the first turnover plate 412, and the first press ring 1 is arranged on the first turnover plate 412; the first turnover plate 412 rotates around the first hinge shaft 413 to drive the first press ring 1 to move;

the second rotating mechanism 42 is provided with a second support 421 and a second turnover plate 422 hinged to the second support 421, a second hinge shaft 423 is arranged at the joint of the second support 421 and the second turnover plate 422, and the second pressing ring 2 is arranged on the second turnover plate 422; the second turnover plate 422 rotates around the second hinge shaft 423 to drive the second press ring 2 to move;

in this embodiment, the first press ring 1 is detachably fixed on the first flipping plate 412, and can be replaced according to the type of the cord 5; the second press ring 2 is detachably fixed on the second turnover plate 422 and can be replaced according to the type of the cord 5.

In this embodiment, the first support 411 and the second support 421 are both disposed on the bracket 6.

The adjusting mechanism 4 is further provided with a limiting mechanism 43, and the limiting mechanism 43 is provided with a first limiting mechanism 431 for limiting the position of the first pressure ring 1 and a second limiting mechanism 432 for limiting the position of the second pressure ring 2;

the first limiting mechanism 431 is provided with a first limiting surface 4311 for limiting the backward rotation of the first turnover plate 412, and the second limiting mechanism 432 is provided with a second limiting surface 4321 for limiting the backward rotation of the second turnover plate 422; the first limiting surface 4311 forms a rear limiting position for the backward rotation of the first flipping board 412, and the second limiting surface 4321 forms a rear limiting position for the backward rotation of the second flipping board 422;

the inner end of the first turnover plate 412 abuts against the first limiting surface 4311, the inner end of the second turnover plate 422 abuts against the second limiting surface 4321, and the first pressing ring 1 is opposite to the second pressing ring 2; the cord thread 5 in the pressing hole 3 is pressed tightly by the first pressing ring 1 and the second pressing ring 2, rolling effect is achieved on the cord thread 5, the surface of the cord thread 5 bears the same pressure, the cord thread 5 penetrates through the pressing hole 3 to move forwards, the tension of the cord thread 5 is kept consistent front and back, meanwhile, the surface bulging and blistering detection of the cord thread 5 is completed, and the accuracy of a detection result is guaranteed.

The first limiting mechanism 431 is further provided with a third limiting surface 4312 for limiting the forward rotation of the first turnover plate 412, and the second limiting mechanism 432 is further provided with a fourth limiting surface 4322 for limiting the forward rotation of the second turnover plate 422; the third limiting surface 4312 forms a front limiting position for the forward rotation of the first flipping plate 412, and the fourth limiting surface 4322 forms a front limiting position for the forward rotation of the second flipping plate 422;

the surface of the cord thread 5 is bulged or foamed, the first pressing ring 1 or the second pressing ring 2 is pushed to move forwards and outwards, and the first turnover plate 412 or the second turnover plate 422 is further pushed to rotate forwards;

the outer end of the first flipping board 412 abuts against the third limiting surface 4312, so that the first flipping board 412 is prevented from excessively rotating forwards, and unnecessary abrasion on the hinged part of the first flipping board 412 and the first support 411 is avoided;

the outer end of the second flipping board 422 abuts against the fourth limiting surface 4322, so that the second flipping board 422 is prevented from rotating forward excessively, and the hinge joint between the second flipping board 422 and the second support 412 is prevented from being worn unnecessarily.

The adjusting mechanism 4 is further provided with a pressing mechanism 44, and the pressing mechanism 44 is used for preventing the first pressing ring 1 or the second pressing ring 2 from moving forwards and outwards due to accidental factors, so that the accuracy of the detection result is ensured.

The press mechanism 44 is provided with a first pressing mechanism 441 which presses the first turning plate 412 against the first limit surface 4311, and a second pressing mechanism 442 which presses the second turning plate 422 against the second limit surface 4321;

the first pressing mechanism 441 is provided with a first suction disc 4411 pointing to the first turnover plate 412, the first suction disc 4411 is arranged on the first limiting surface 4311, and the first suction disc 4411 sucks the first turnover plate 412 to the first limiting surface 4311;

the second pressing mechanism 442 is provided with a second suction cup 4421 pointing to the second flipping board 422, the second suction cup 4421 is provided on the second limiting surface 4321, and the second suction cup 4421 sucks the second flipping board 422 to the second limiting surface 4321.

The sensing mechanism 45 and the transmission mechanism are further arranged, the sensing mechanism 45 is provided with a first sensor 451 for identifying whether the first turnover plate 412 is separated from the first limit surface 4311, and a second sensor 452 for identifying whether the second turnover plate 422 is separated from the second limit surface 4321; the transmission mechanism is provided with a transmission line for connecting the sensing mechanism 45 and the cord stranding machine tool, signals of the first sensor 451 and the second sensor 452 are transmitted to the cord stranding machine tool, the first turnover plate 412 is separated from the first limiting surface 4311 or the second turnover plate 422 is separated from the second limiting surface 4321, and the cord stranding machine tool controls the cord 5 to stop moving forwards.

The first compression ring 1 and the second compression ring 2 are both semi-circular and annular, and the radius of the first compression ring 1 is the same as that of the second compression ring 2. Wherein, first clamping ring 1 and second clamping ring 2 all adopt coefficient of friction moderate and wear-resisting material to make.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (7)

1. A cord thread bulge detection device is used for a cord thread stranding machine tool and is characterized in that: the cord thread clamping device is characterized by comprising a first pressing ring and a second pressing ring which are oppositely arranged, wherein a pressing hole for a cord thread to pass through is formed between the first pressing ring and the second pressing ring, and an adjusting mechanism for adjusting the positions of the first pressing ring and the second pressing ring is arranged; the adjusting mechanism is provided with a first rotating mechanism for driving the first pressing ring to rotate and a second rotating mechanism for driving the second pressing ring to rotate; the first rotating mechanism is provided with a first support and a first turnover plate hinged with the first support, and the first pressing ring is arranged on the first turnover plate; the second rotating mechanism is provided with a second support and a second turnover plate hinged to the second support, and the second pressing ring is arranged on the second turnover plate.

2. The cord raising detection device according to claim 1, characterized in that: the adjusting mechanism is also provided with a limiting mechanism, and the limiting mechanism is provided with a first limiting mechanism for limiting the position of the first pressing ring and a second limiting mechanism for limiting the position of the second pressing ring; the first limiting mechanism is provided with a first limiting surface for limiting the first turnover plate to rotate backwards, and the second limiting mechanism is provided with a second limiting surface for limiting the second turnover plate to rotate backwards.

3. The cord raising detection device according to claim 2, characterized in that: the first limiting mechanism is further provided with a third limiting surface for limiting the first turnover plate to rotate forwards, and the second limiting mechanism is further provided with a fourth limiting surface for limiting the second turnover plate to rotate forwards.

4. A cord lifting detection device according to claim 2 or 3, characterized in that: the adjusting mechanism is further provided with a pressing mechanism, and the pressing mechanism is provided with a first pressing mechanism for pressing the first turnover plate to the first limiting surface and a second pressing mechanism for pressing the second turnover plate to the second limiting surface.

5. The cord raising detection device according to claim 4, characterized in that: the first pressing mechanism is provided with a first sucker pointing to the first turnover plate, and the first sucker is arranged on the first limiting surface; the second pressing mechanism is provided with a second sucker pointing to the second turnover plate, and the second sucker is arranged on the second limiting surface.

6. A cord lifting detection device according to claim 2 or 3, characterized in that: the sensing mechanism is provided with a first sensor for identifying whether the first turnover plate is separated from the first limit surface and a second sensor for identifying whether the second turnover plate is separated from the second limit surface; the transmission mechanism is provided with a transmission line which is connected with the induction mechanism and the cord stranding machine tool and transmits signals of the first sensor and the second sensor to the cord stranding machine tool.

7. The cord raising detection device according to any one of claims 1 to 3, characterized in that: the first compression ring and the second compression ring are both semicircular and annular, and the radius of the first compression ring is the same as that of the second compression ring.

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