CN2881536Y - Device for measuring cone winder diameter - Google Patents

Abstract

The utility model relates to a measuring device, in particular to a device for measuring cone winder diameter, which comprises a shaping sliding block moving with the diameter variation of the cone winder, an ingot box an a machine frame, wherein, the shaping sliding block and the corresponding part of the ingot box or the machine frame are respectively provided with a scaleplate with induction scale and an electric sensor, or with an electric sensor and a scaleplate with induction scale; the output end of the electric sensor is connected with a microcomputer system. Through adoption of the above structure, the utility model is able to convert the outward moving distance of the shaping sliding block caused by the diameter variation of the cone winder into electric signal and transmit the electric signal into the microcomputer system, and then, the microcomputer system conducts real-time processing, analysis and display of the electric signal, thereby being convenient and fast in measurement with high efficiency.

Description

A kind of device of measuring the winder diameter

Technical field

The utility model relates to a kind of measurement mechanism, particularly a kind of device of measuring the winder diameter.

Background technology

The bobbin-winding machine that uses in the present field of textiles adopts pure mechanical hook-up to indicate the diameter of bobbin, on the ingot case, fix an actionless scaleplate, the value that shows on the scaleplate can be the diameter, radius of bobbin, the weight (approximate value) and the length (approximate value) of silk, fixed pointers on the shaping slide plate, when the diameter of winding bobbin strengthens gradually, the shaping slide plate is correspondingly outer to be moved, and the scale value of the pointer indication on the shaping slide plate is exactly the length etc. of diameter, weight or the silk of bobbin at that time.This device is weight (approximate value), the length (approximate value) that records the diameter or the silk of bobbin with the outer pan position of shaping slide plate, and by manually reading, exist following deficiency: 1, manually read, error is big, easily makes mistakes, and labour intensity is big, and is untimely, and efficient is low.2, function is low, can't further further analyze, control the parameter in the production run (shaping of the length of silk, weight, bobbin, winder linear velocity etc.), has a strong impact on the quality of finished product.Owing to above reason, existing most of bobbin-winding machine is without scaleplate, or simply do not install, fully by operative employee's experiential operating, the size and the profile of control silk tube.

The utility model content

The utility model purpose is to provide a kind of device that can measure the winder diameter automatically, so that accurate more and convenient to the measurement of winder diameter.

To achieve these goals, the utility model adopts following technical scheme: a kind of device of measuring the winder diameter, comprise mobile shaping slide plate, ingot case and frame with the bobbin vary in diameter, correspondence position on shaping slide plate and ingot case or frame is provided with scaleplate, electric transducer or the electric transducer of band induction scale, the scaleplate of band induction scale respectively, and the output of electric transducer is connected with microcomputer system.

Described scaleplate is connected with the turning axle vertical fixing of shaping slide plate, is that the center of circle is provided with the induction scale at least on a circumference with the turning axle on the scaleplate.

Also can be on the turning axle of shaping slide plate a fixedly connected cylinder, be wound with flexible connecting line on the face of cylinder, the lower end of flexible connecting line is connected with scaleplate, scaleplate vertically is provided with at least one row and responds to scale.

Described induction scale uniformly-spaced is provided with.

Described induction scale can be perforate, described sensor be arranged on the photoelectric sensor of scaleplate both sides or be arranged on scaleplate one side near switch.

Described induction scale also can be a breach, described sensor be arranged on the photoelectric sensor of scaleplate both sides or be arranged on scaleplate one side near switch.

Described scaleplate can also be the printing opacity scaleplate, and described induction scale is resistance light piece, and described sensor is the photoelectric sensor that is arranged on the scaleplate both sides.

Described scaleplate can also be light tight scaleplate, and described induction scale is a reflector, and described sensor is the photoelectric sensor that is arranged on scaleplate one side.

After having adopted this structure, the vary in diameter with bobbin that can be quick and easy causes that shaping slide plate external shift quantity converts electric signal to and sends into microcomputer system, by microcomputer system it is handled in real time, analyzes, shows that measure accurately and fast, efficient improves greatly.

Description of drawings

Fig. 1 is embodiment 1 structural representation;

Fig. 2 is embodiment 2 structural representations;

Fig. 3 is embodiment 3 structural representations;

Fig. 4 is embodiment 4 structural representations;

Fig. 5 is embodiment 5 structural representations;

Fig. 6 is embodiment 6 structural representations;

Fig. 7 is embodiment 7 structural representations;

Fig. 8 is embodiment 8 structural representations;

Fig. 9 is embodiment 9 structural representations;

Figure 10 is embodiment 10 structural representations.

Embodiment

Embodiment 1, the utility model are mainly used to measure the device of the diameter of chemical fibre winders such as rayon, comprise mobile shaping slide plate 1, ingot case and frame 22 with the bobbin vary in diameter, correspondence position on shaping slide plate 1 and ingot case or frame 22 is provided with scaleplate 2 and electric transducer respectively, scaleplate 2 is connected with turning axle 24 vertical fixing of shaping slide plate 1, and the output of electric transducer is connected with microcomputer system.As shown in Figure 1, electric transducer is a photoelectric sensor 3, be that the center of circle is by uniformly-spaced having hole 4 with the turning axle on the scaleplate 2, when scaleplate 2 is in diverse location with respect to sensor 3 motions, do not stop or stop the sensing light of photoelectric sensor 3, photoelectric sensor 3 will have, unglazed state exchange is that electric signal is sent into microcomputer system.The microcomputer system that this electric signal is handled, analyzed has been mature technology, can be the microcomputer system described in the patent No. ZL02278103.X as microcomputer system.

Embodiment 2, as shown in Figure 2, the difference of present embodiment and embodiment 1 is the breach 8 of induction scale for being provided with at interval on the scaleplate on scaleplate 2 same circumference.During scaleplate 2 rotations, breach 8 corresponding or not corresponding photoelectric sensors 3, sensing light can maybe cannot pass through, and it is that electric signal is sent into microcomputer system that photoelectric sensor 3 will have light or unglazed state exchange.

Embodiment 3, as shown in Figure 3, the present embodiment difference from Example 1 is that scaleplate 2 adopts transparent panels, the induction scale on the plate is opaque 5 of a piece.During scaleplate 2 rotation, opaque 5 corresponding or not corresponding photoelectric sensor 3, sensing light cannot maybe can pass through, and photoelectric sensor 3 is with unglazed or have light state to be converted to electric signal to send into microcomputer system.

Embodiment 4, as shown in Figure 4, the present embodiment difference from Example 1 is that the induction scale on the scaleplate 2 is a piece reflector 6, the light emitting source of photoelectric sensor 3 and light-receiving head are in the same side of scaleplate 2, when scaleplate 2 is in diverse location, the light that 2 pairs of photoelectric sensor 3 light emitting sources of scaleplate send reflexes to receive head or do not reflex to and receives on the head, and the state exchange that photoelectric sensor 3 will have, dull thread is accepted becomes electric signal to send into microcomputer system.

Embodiment 5, as shown in Figure 5, the difference of present embodiment and embodiment 1 is that sensor adopts near switch 7, when the hole of scaleplate 2 moves on near switch place 7, send a kind of signal near switch 7, when the not perforate of scaleplate 2 partly moves on near switch place 7, send another kind of signal near switch 7.Near switch 7 diverse location of scaleplate 2 is become different electrical signals like this and send microcomputer system to.

Embodiment 6, as shown in Figure 6, the difference of present embodiment and embodiment 2 is that sensor adopts near switch 7, when the tooth breach of scaleplate 2 moves on near switch place 7, send a kind of signal near switch 7, when the toothed portion of scaleplate 2 moves on near switch place 7, send another kind of signal near switch 7.Near switch 7 diverse location of scaleplate 2 is become different electrical signals like this and send microcomputer system to.

Embodiment 7, as shown in Figure 7, the difference of present embodiment and embodiment 1 be on the scaleplate 2 open two groups of holes and not on same circumference, corresponding sensor 3 also is provided with two covers, the corresponding cover sensor 3 in each group hole is sent into microcomputer system so that convert the shift position between scaleplate 2 and the sensor 3 to electric signal more accurately.

Embodiment 8, as shown in Figure 8, the difference of present embodiment and embodiment 6 is to have on the scaleplate 22 layers of tooth and not on same circumference, near switch 7 two covers are set also accordingly, the corresponding cover in each group hole is sent into microcomputer system near switch 7 so that convert the shift position between scaleplate 2 and the sensor 3 to electric signal more accurately.

Embodiment 9, as shown in Figure 9 is fixedly connected with cylinder 25 on the turning axle 24 of shaping slide plate 1, is wound with flexible wires or sliver 17 on the face of cylinder 16, and the lower end of flexible wires or sliver 17 is connected with scaleplate 2.The induction scale of scaleplate 2 can adopt perforate, breach, opaque, reflector, and correspondence is provided with electric transducer.In the utility model on the scaleplate 2 vertical direction be interval with perforate as induction scale, and relative set photoelectric sensor 3.Present embodiment is converted into rectilinear motion to the relative rotary motion between scaleplate 2 and the sensor 3.

Among the above embodiment sensor all be fixed on ingot case or the frame 22 motionless, and scaleplate motion.

Embodiment 10, as shown in figure 10, scaleplate 2 is fixed on ingot case or the frame 22 motionless, and sensor 3 is fixed on the shaping slide plate 1, moves with 1 one on shaping slide plate.The induction scale adopts perforate 4 in the present embodiment, and electric transducer adopts photoelectric sensor 3.Certainly, the setting of induction scale and sensor also can be adopted form among the above embodiment in the present embodiment.

Claims (8)

1, a kind of device of measuring the winder diameter, comprise mobile shaping slide plate, ingot case and frame with the bobbin vary in diameter, it is characterized in that: the correspondence position on shaping slide plate and ingot case or frame is provided with scaleplate, electric transducer or the electric transducer of band induction scale, the scaleplate of band induction scale respectively, and the output of electric transducer is connected with microcomputer system.

2, the device of measurement winder diameter according to claim 1 is characterized in that: described scaleplate is connected with the turning axle vertical fixing of shaping slide plate, is that the center of circle is provided with the induction scale at least on a circumference with the turning axle on the scaleplate.

3, the device of measurement winder diameter according to claim 1, it is characterized in that: be fixedly connected with cylinder on the turning axle of described shaping slide plate, be wound with flexible connecting line on the face of cylinder, the lower end of flexible connecting line is connected with scaleplate, and scaleplate vertically is provided with at least one row and responds to scale.

4, according to the device of claim 2 or 3 described measurement winder diameters, it is characterized in that: described induction scale uniformly-spaced is provided with.

5, the device of measurement winder diameter according to claim 4 is characterized in that: described induction scale is perforate, described sensor be arranged on the photoelectric sensor of scaleplate both sides or be arranged on scaleplate one side near switch.

6, the device of measurement winder diameter according to claim 4 is characterized in that: described induction scale is a breach, described sensor be arranged on the photoelectric sensor of scaleplate both sides or be arranged on scaleplate one side near switch.

7, the device of measurement winder diameter according to claim 4 is characterized in that: described scaleplate is the printing opacity scaleplate, and described induction scale is resistance light piece, and described sensor is the photoelectric sensor that is arranged on the scaleplate both sides.

8, the device of measurement winder diameter according to claim 4 is characterized in that: described scaleplate is light tight scaleplate, and described induction scale is a reflector, and described sensor is the photoelectric sensor that is arranged on scaleplate one side.

Images