CN218545536U - Flat cable size detection device - Google Patents

Abstract

The utility model provides a winding displacement size detection device, include: a frame; the wire arranging shaft sleeve is rotatably arranged on the rack and used for mounting a wire arranging shaft to be detected; the sliding component is arranged above the flat cable shaft sleeve and is arranged on the rack, and the sliding component is provided with a sliding part which can be movably arranged along the axial direction of the flat cable shaft; the measuring assembly is connected with the sliding part and comprises a first testing part and a second testing part, and the first testing part is matched with the flat cable of the flat cable shaft so as to detect the distance between the top of a high leg of the flat cable positioned on the flat cable shaft and the outer peripheral surface of the flat cable shaft and the distance between the top of a low leg of the flat cable and the outer peripheral surface of the flat cable shaft; the second test member is in contact with the outer circumferential surface of the traverse shaft to detect the parallelism of the traverse shaft. The utility model provides a detection method efficiency lower problem of winding displacement size among the prior art.

Description

Flat cable size detection device

Technical Field

The utility model relates to a detect the frock field, particularly, relate to a winding displacement size detection device.

Background

The flat cable is required to be used in the glass fiber drawing production process, and whether the conditions of the height of a flat cable copper wire, the radian and the like meet the production requirements or not has great influence on the quality of products in the production process, so that the flat cable copper wire is required to be detected.

In the prior art, the height and the radian of the copper wire of the flat cable can be detected only manually by workers, the detection of the parallelism condition of the flat cable can be judged only by visual inspection of naked eyes, and the detection result is greatly influenced by the subjectivity of personnel and has large error. Meanwhile, the manual operation is carried out, time and labor are wasted, and the whole detection process is low in efficiency.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a flat cable size detection device to solve the problem of low efficiency of the flat cable size detection method in the prior art.

In order to achieve the above object, the utility model provides a winding displacement size detection device, include: a frame; the wire arranging shaft sleeve is rotatably arranged on the rack and used for mounting a wire arranging shaft to be detected; the sliding component is arranged above the flat cable shaft sleeve and is arranged on the rack, and the sliding component is provided with a sliding part which can be movably arranged along the axial direction of the flat cable shaft; the measuring assembly is connected with the sliding part and comprises a first testing part and a second testing part, and the first testing part is matched with the flat cable of the flat cable shaft so as to detect the distance between the top of a high leg of the flat cable positioned on the flat cable shaft and the outer peripheral surface of the flat cable shaft and the distance between the top of a low leg of the flat cable and the outer peripheral surface of the flat cable shaft; the second test member is in contact with the outer circumferential surface of the traverse shaft to detect the parallelism of the traverse shaft.

Further, the flat cable size detection device further includes: and the driving mechanism is arranged on the rack and is in driving connection with the flat cable shaft sleeve so as to drive the flat cable shaft to rotate.

Further, the flat cable size detection device further includes: and the switch assembly is arranged on the rack and is connected with the driving mechanism so as to control the driving mechanism to be opened and closed through the switch assembly.

Further, the driving mechanism comprises a driving motor, and the flat cable shaft sleeve comprises a first shaft sleeve part and a second shaft sleeve part which are oppositely arranged; the rack comprises a rack main body and a flat cable turning plate, and the flat cable turning plate is connected with the rack main body in an adjustable position; the first shaft sleeve component is arranged on an output shaft of the driving motor, and the second shaft sleeve component is rotatably arranged on the flat cable turning plate.

Further, the slide module includes: the sliding rail extends along the axial direction of the winding displacement shaft; the sliding part comprises a first sliding block and a second sliding block, the first sliding block and the second sliding block are movably mounted on the sliding rail, the first testing part is mounted on the first sliding block, and the second testing part is mounted on the second sliding block.

Further, the slide assembly includes: the sliding screw rod extends along the axial direction of the traverse shaft; the sliding component comprises a first sliding nut and a second sliding nut, the first sliding nut and the second sliding nut are both in threaded connection with the sliding screw rod, the first testing component is detachably mounted on the first sliding nut, and the second testing component is detachably mounted on the second sliding nut.

Further, the first testing part is a scale to measure the distance between the top of the high leg of the flat cable and the outer peripheral surface of the flat cable shaft and the distance between the top of the low leg of the flat cable and the outer peripheral surface of the flat cable shaft respectively through the scale.

Further, the measurement assembly further comprises: the stop plate is movably arranged on the graduated scale along the extension direction of the graduated scale so as to observe the position of the stop plate on the graduated scale after the stop plate is respectively abutted against the top of the high foot or the top of the low foot, and respectively obtain the distance between the top of the high foot of the flat cable and the outer peripheral surface of the flat cable, and the distance between the top of the low foot of the flat cable shaft and the outer peripheral surface of the flat cable shaft.

Further, the second testing component is a dial indicator, and a probe of the dial indicator is used for being in contact with the outer peripheral surface of the winding displacement shaft.

Further, the flat cable size detection device further includes: the caster wheel is arranged at the bottom of the frame; and/or a push handrail, wherein the push handrail is arranged on the frame.

By applying the technical scheme of the utility model, the winding displacement size detection device of the utility model comprises a frame, a winding displacement shaft sleeve, a sliding component and a measuring component, wherein the winding displacement shaft sleeve is rotatably arranged on the frame and is used for installing a winding displacement shaft to be detected, the sliding component is arranged above the winding displacement shaft sleeve and is arranged on the frame, and the sliding component is provided with a sliding part which can be movably arranged along the axis direction of the winding displacement shaft; the measuring assembly is connected with the sliding part and comprises a first testing part and a second testing part, the first testing part is matched with the flat cable of the flat cable shaft so as to detect the distance between the top of the high leg of the flat cable positioned on the flat cable shaft and the outer peripheral surface of the flat cable shaft and the distance between the top of the low leg of the flat cable and the outer peripheral surface of the flat cable shaft, and therefore the relative positions between the low leg and the high leg of the flat cable and the flat cable shaft, namely the heights of the low leg and the high leg of the flat cable, can be detected; the second test member is in contact with the outer circumferential surface of the traverse shaft to detect the parallelism of the traverse shaft. Like this, can detect the high foot of winding displacement and the height of low foot and the depth of parallelism of winding displacement axle through the winding displacement size detection device of this application, improve detection efficiency, like this, can effectively avoid because of the unusual shut down that winding displacement size problem caused, reduce the bad yarn group of shaping and produce. The parallelism of the winding displacement shafts refers to the distance between two axial points of the outer peripheral surfaces of the winding displacement shafts and the axial lines of the winding displacement shafts.

Drawings

The accompanying drawings, which form a part of the specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the scope of the invention. In the drawings:

fig. 1 is a schematic view showing an overall structure of an embodiment of a flat cable size detection device according to the present invention.

Wherein the figures include the following reference numerals:

10. a frame; 20. a flat cable shaft sleeve; 100. a winding displacement shaft; 30. a sliding assembly; 40. a measurement assembly; 41. a first test member; 42. a second test member; 101. arranging wires; 102. a high foot; 103. a low leg; 50. a drive mechanism; 60. a switch assembly; 21. a first bushing member; 11. a rack main body; 12. a flat cable turning plate; 31. a slide rail; 301. a first slider; 302. a second slider; 70. and a caster.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, the present invention provides a flat cable dimension detecting device, including: a frame 10; the flat cable shaft sleeve 20 is rotatably arranged on the rack 10 and used for mounting a flat cable shaft 100 to be detected; a sliding assembly 30, the sliding assembly 30 is arranged above the winding displacement shaft sleeve 20 and is installed on the frame 10, the sliding assembly 30 is provided with a sliding part which is movably arranged along the axial direction of the winding displacement shaft 100; a measuring assembly 40, the measuring assembly 40 is connected with the sliding part, the measuring assembly 40 comprises a first testing part 41 and a second testing part 42, the first testing part 41 is matched with the flat cable 101 of the flat cable 100 to detect the distance between the top of a high foot 102 of the flat cable 101 on the flat cable 100 and the outer circumferential surface of the flat cable 100 and the distance between the top of a low foot 103 of the flat cable 101 and the outer circumferential surface of the flat cable 100; the second test member 42 is in contact with the outer circumferential surface of the traverse shaft 100 to detect the parallelism of the traverse shaft 100.

The utility model discloses a winding displacement size detection device includes frame 10, winding displacement axle sleeve 20, slip subassembly 30 and measuring subassembly 40, and winding displacement axle sleeve 20 is rotationally installed on frame 10, and winding displacement axle sleeve 20 is used for installing the winding displacement axle 100 that awaits measuring, and slip subassembly 30 sets up above winding displacement axle sleeve 20 and installs on frame 10, and slip subassembly 30 has the movable sliding part who sets up along the axis direction of winding displacement axle 100; the measuring assembly 40 is connected with the sliding part, the measuring assembly 40 comprises a first testing part 41 and a second testing part 42, the first testing part 41 is matched with the flat cable 101 of the flat cable shaft 100 to detect the distance between the top of a high foot 102 of the flat cable 101 on the flat cable shaft 100 and the outer peripheral surface of the flat cable shaft 100 and the distance between the top of a low foot 103 of the flat cable 101 and the outer peripheral surface of the flat cable shaft 100, and therefore the relative positions between the low foot and the high foot of the flat cable 101 and the flat cable shaft, namely the heights of the low foot and the high foot of the flat cable 101 can be detected; the second test member 42 is in contact with the outer circumferential surface of the traverse shaft 100 to detect the parallelism of the traverse shaft 100. Like this, can detect the high foot of winding displacement and the height of low foot and the depth of parallelism of winding displacement axle through the winding displacement size detection device of this application, improve detection efficiency, like this, can effectively avoid shutting down because of the unusual that winding displacement size problem caused, reduce the bad yarn group of shaping and produce. The parallelism of the traverse shaft 100 is defined as the distance between two points in the axial direction of the outer peripheral surface of the traverse shaft and the axis of the traverse shaft.

Specifically, the flat cable 101 has a first arc section and a second arc section, the first arc section is correspondingly connected with the high leg 102, the second arc section is correspondingly connected with the low leg 103, the first arc section and the second arc section both have a plurality of vertexes to be detected, the first testing component 41 is matched with the flat cable 101, and can detect a plurality of distances between the vertexes to be detected on the first arc section or the second arc section and the outer peripheral surface of the flat cable shaft 100, so that the radian of the second arc section can be calculated by combining the distances between the corresponding vertexes to be detected and the outer peripheral surface of the flat cable shaft 100 and the relative positions between the low leg of the flat cable 101 and the flat cable shaft; the radian of the first radian section of the flat cable 101 can be calculated by combining the distances between the corresponding vertexes to be detected and the outer peripheral surface of the flat cable shaft 100 and the relative positions between the high foot of the flat cable shaft 100 and the outer peripheral surface of the flat cable shaft.

Specifically, the flat cable size detection device further includes: the driving mechanism 50, the driving mechanism 50 is installed on the rack 10, and the driving mechanism 50 is drivingly connected with the winding displacement shaft sleeve 20 to drive the winding displacement shaft 100 to rotate, so as to drive the winding displacement on the winding displacement shaft to rotate, so that the winding displacement rotates to a proper measuring position.

Specifically, the flat cable size detection device further includes: and the switch assembly 60, the switch assembly 60 being mounted on the frame 10, the switch assembly 60 being connected to the driving mechanism 50 to control the driving mechanism 50 to be turned on and off through the switch assembly 60.

Specifically, an operator controls the operation of the flat cable size detection device through the control switch assembly, each detected flat cable shaft 100 needs to be assembled and disassembled, when the flat cable 101 is abnormal in the glass fiber drawing production process, the flat cable size detection device can detect abnormal points (including the positions of the high legs and the low legs of the flat cable and the radian of the flat cable) of the flat cable 101, and then the flat cable 101 is repaired according to actual production requirements.

Specifically, the driving mechanism 50 includes a driving motor, and the traverse shaft housing 20 includes a first shaft housing part 21 and a second shaft housing part which are oppositely arranged; the rack 10 comprises a rack main body 11 and a flat cable turning plate 12, wherein the flat cable turning plate 12 is connected with the rack main body 11 in an adjustable position; the first bushing member 21 is mounted on the output shaft of the driving motor, and the second bushing member is rotatably mounted on the winding displacement flap 12 to allow the winding displacement shaft to rotate smoothly.

In order to facilitate detection, observation and searching for the reason of the abnormal point, the driving motor is a constant-speed motor. Wherein, the running rotating speed can be set according to actual requirements.

Optionally, the sliding assembly 30 comprises: a slide rail 31, the slide rail 31 extending along the axial direction of the traverse shaft 100; the sliding part comprises a first sliding block 301 and a second sliding block 302, the first sliding block 301 and the second sliding block 302 are movably mounted on the sliding rail 31, the first testing part 41 is mounted on the first sliding block 301, and the second testing part 42 is mounted on the second sliding block 302, so that the first testing part 41 and the second testing part 42 can move smoothly on the sliding rail, and the sizes of the flat cables at different positions on the flat cable shaft can be measured through the movement of the first testing part and the second testing part on the sliding rail.

Optionally, the sliding assembly 30 comprises: a slide screw extending in the axial direction of the traverse shaft 100; the sliding part comprises a first sliding nut and a second sliding nut, the first sliding nut and the second sliding nut are both in threaded connection with the sliding screw rod, the first testing part 41 is detachably mounted on the first sliding nut, and the second testing part 42 is detachably mounted on the second sliding nut.

In the embodiment of the present application, the first test member 41 is a scale to measure the distance between the top of the high leg 102 of the flat cable 101 and the outer circumferential surface of the flat cable shaft 100 and the distance between the top of the low leg 103 of the flat cable 101 and the outer circumferential surface of the flat cable shaft 100, respectively, by the scale. Specifically, the scale is a steel scale.

Specifically, the measurement assembly 40 further includes: the utility model provides a line bank size detection device, including the baffle, the baffle is movably set up on the scale along the extending direction of scale, with behind the baffle respectively with the top of high foot 102 or the top butt of low foot 103, observe the position of baffle on the scale, with the distance between the top of the high foot 102 of reacing winding displacement 101 and the outer peripheral face of winding displacement 101 respectively, the distance between the top of the low foot 103 of winding displacement axle 100 and the outer peripheral face of winding displacement axle 100, and like this, make the detection of the line bank size detection device of this application convenient.

In an embodiment of the present application, the second testing member 42 is a dial indicator, the probe of which is adapted to contact the outer circumferential surface of the traverse shaft 100. Wherein, the dial indicator is a parallelism dial indicator.

Specifically, the flat cable size detection device further includes: a caster 70, the caster 70 being installed at the bottom of the frame 10 to move the entire flat cable size detecting device via the caster 70; and/or a push handrail provided on the frame 10 to facilitate a person to push the entire cable size measuring device by the handle.

Specifically, the caster 70 is a universal wheel, and the plurality of casters 70 are provided at intervals in the circumferential direction of the frame 10 of the caster 70.

In the embodiment of the present application, the frame 10, the flat cable shaft sleeve 20, the slide rail 31 and the flat cable flap 12 are made of the same material; specifically, the frame 10, the flat cable shaft sleeve 20, the slide rail 31 and the flat cable flap 12 are made of stainless steel.

From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects:

the utility model discloses a winding displacement size detection device includes frame 10, winding displacement axle sleeve 20, slip subassembly 30 and measuring subassembly 40, and winding displacement axle sleeve 20 is rotationally installed on frame 10, and winding displacement axle sleeve 20 is used for installing the winding displacement axle 100 that awaits measuring, and slip subassembly 30 sets up above winding displacement axle sleeve 20 and installs on frame 10, and slip subassembly 30 has the movable sliding part that sets up along the axis direction of winding displacement axle 100; the measuring assembly 40 is connected with the sliding part, the measuring assembly 40 comprises a first testing part 41 and a second testing part 42, the first testing part 41 is matched with the flat cable 101 of the flat cable shaft 100 to detect the distance between the top of the high foot 102 of the flat cable 101 on the flat cable shaft 100 and the outer peripheral surface of the flat cable shaft 100 and the distance between the top of the low foot 103 of the flat cable 101 and the outer peripheral surface of the flat cable shaft 100, and therefore the relative positions between the low foot and the high foot of the flat cable 101 and the flat cable shaft, namely the heights of the low foot and the high foot of the flat cable 101 can be detected; the second test member 42 is in contact with the outer circumferential surface of the traverse shaft 100 to detect the parallelism of the traverse shaft 100. Like this, can detect the high foot of winding displacement and the height of low foot and the depth of parallelism of winding displacement axle through the winding displacement size detection device of this application, improve detection efficiency, like this, can effectively avoid because of the unusual shut down that winding displacement size problem caused, reduce the bad yarn group of shaping and produce. Here, the parallelism of the traverse shaft 100 refers to the parallelism of the traverse shaft 100 with the horizontal direction.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A flat cable size detection device, comprising:

a frame (10);

the flat cable shaft sleeve (20), the flat cable shaft sleeve (20) is rotatably mounted on the rack (10) and is used for mounting a flat cable shaft (100) to be detected;

a sliding assembly (30), wherein the sliding assembly (30) is arranged above the winding displacement shaft sleeve (20) and is installed on the rack (10), and the sliding assembly (30) is provided with a sliding part which is movably arranged along the axial direction of the winding displacement shaft (100);

a measuring assembly (40), the measuring assembly (40) being connected to the sliding member, the measuring assembly (40) including a first testing member (41) and a second testing member (42), the first testing member (41) being fitted to the flat cable (101) of the flat cable shaft (100) to detect a distance between a top of a high leg (102) of the flat cable (101) on the flat cable shaft (100) and an outer circumferential surface of the flat cable shaft (100), and a distance between a top of a low leg (103) of the flat cable (101) and an outer circumferential surface of the flat cable shaft (100); the second test member (42) is in contact with the outer circumferential surface of the winding displacement shaft (100) to detect the parallelism of the winding displacement shaft (100).

2. The cable size detection device according to claim 1, further comprising:

the driving mechanism (50) is installed on the rack (10), and the driving mechanism (50) is in driving connection with the flat cable shaft sleeve (20) to drive the flat cable shaft (100) to rotate.

3. The flat cable size detection device according to claim 2, further comprising:

the switch assembly (60) is installed on the rack (10), and the switch assembly (60) is connected with the driving mechanism (50) so as to control the opening and closing of the driving mechanism (50) through the switch assembly (60).

4. The traverse size detection device according to claim 2, wherein the drive mechanism (50) comprises a drive motor, and the traverse shaft housing (20) comprises a first shaft housing part (21) and a second shaft housing part which are oppositely arranged; the flat cable winding machine is characterized in that the rack (10) comprises a rack main body (11) and a flat cable turning plate (12), wherein the flat cable turning plate (12) is connected with the rack main body (11) in an adjustable position; the first shaft sleeve component (21) is arranged on an output shaft of the driving motor, and the second shaft sleeve component is rotatably arranged on the flat cable turning plate (12).

5. The traverse size detecting device according to claim 1, wherein the slide assembly (30) comprises:

a slide rail (31), wherein the slide rail (31) extends along the axial direction of the winding displacement shaft (100);

wherein the sliding part comprises a first sliding block (301) and a second sliding block (302), the first sliding block (301) and the second sliding block (302) are movably arranged on the sliding rail (31), the first testing part (41) is arranged on the first sliding block (301), and the second testing part (42) is arranged on the second sliding block (302).

6. The traverse size detecting device according to claim 1, wherein the slide assembly (30) comprises:

a slide screw extending in an axial direction of the traverse shaft (100);

the sliding component comprises a first sliding nut and a second sliding nut, the first sliding nut and the second sliding nut are in threaded connection with the sliding screw rod, the first testing component (41) is detachably mounted on the first sliding nut, and the second testing component (42) is detachably mounted on the second sliding nut.

7. The flat cable size detection device according to claim 1, wherein the first test member (41) is a scale to measure a distance between a top of a high leg (102) of the flat cable (101) and an outer circumferential surface of the flat cable shaft (100), and a distance between a top of a low leg (103) of the flat cable (101) and an outer circumferential surface of the flat cable shaft (100), respectively, by the scale.

8. The cable size detection device of claim 7, wherein the measurement assembly (40) further comprises:

the stop plate is movably arranged on the graduated scale along the extension direction of the graduated scale, so that after the stop plate is respectively abutted against the top of the high foot (102) or the top of the low foot (103), the position of the stop plate on the graduated scale is observed, and the distance between the top of the high foot (102) of the flat cable (101) and the outer peripheral surface of the flat cable (101) and the distance between the top of the low foot (103) of the flat cable shaft (100) and the outer peripheral surface of the flat cable shaft (100) are respectively obtained.

9. The traverse size detecting apparatus according to claim 1, wherein the second test member (42) is a dial indicator having a probe for contacting an outer peripheral surface of the traverse shaft (100).

10. The flat cable size detection device according to claim 1, further comprising:

a caster (70), wherein the caster (70) is installed at the bottom of the frame (10); and/or

A push handrail, the push handrail being arranged on the frame (10).

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