HUT55902A - Apparatus for measuring characteristics of moving fibre - Google Patents

Abstract

The invention relates to a device for measuring the characteristics of a moving thread. The device is used in the knitting machines to control the technological parameters of the knitting process. The aim of the invention is to increase the operational character of the measurement by simplifying the thread introduction into the device. The device contains a pistol-shaped housing with an accommodated in this encoder, a unit for detecting and pressing the thread to the encoder, which has thread guides and is arranged in the front Gehaeuseteil, and an electronic unit for converting the signals from the encoder. According to the invention, the front part of the housing is formed as a wedge and has on one of its Seitenflaechen a groove for the thread, wherein the thread guides are attached to the front sides of the wedge with the possibility of a back and forth along the same on a groove cutting path. Fig. 3

Description

FIELD OF THE INVENTION The present invention relates to a device for measuring the characteristics of a moving fiber having a transmitter for measuring fiber characteristics in its gun housing, a front clamping unit for measuring the fiber to be measured and a step for converting the signal of the transmitter. The device of the invention is advantageously used to control the technological parameters of the loop, in particular to determine the linear velocity of the moving fiber, the amount of fiber used per revolution of the looping machine and the tension of the moving fiber.

The above and still further features of the moving fibers, both for controlling and adjusting the satisfactory operation of the knitting equipment, have a significant effect on the production of knitted fabrics, particularly on multi-system knitting machines.

US-A-3 992 936 discloses a device for determining the characteristics of a moving fiber, such as measuring the consumption of a fiber ^- having a gun-shaped housing having the following units: a free-flow fiber formed in the form of a drum in contact with a moving filament; and said drum press unit comprising a pressurized cock, rack and pinion, the latter being mounted on an axis on which a hoist bearing a fiber guide roller is mounted, a step for converting the signals emitted by the transducer into an electrical signal and a display for measuring the value.

As a result of the movement of said rack, the hoist is the thread guide.

- It rolls together with 3 rollers and the latter rolls against the drum, which rotates in the same proportion to the movement of the fiber.

A known disadvantage of the known device is that the fiber guide roller cannot be grasped safely and quickly because the fiber guide roller is mounted on one side of the floating lift and it is necessary to position this fiber guide roller very accurately behind the fiber This can make it difficult to deploy the thread. In addition, measuring the parameters of a moving scarf directly in front of the looping means of the knitting machine is practically impossible because the thread guide roller of the measuring device is practically impossible to introduce between adjacent strands of the knitting apparatus and severely limits the technological applications of the known device.

It is an object of the invention to make measuring the characteristics of a moving scarf simpler and faster by simplifying the introduction of a moving scarf into the measuring apparatus.

The object of the present invention is defined by the need to develop a device for measuring the characteristics of a moving scarf, the structure of which allows the moving scarf to be easily inserted into the device, which increases the operational nature of the measurement and It broadens.

The object of the present invention has been achieved by a device for measuring the characteristics of a moving scarf having a measuring transmitter for measuring its fiber features in its gun-shaped housing, and a it is. This device has been further developed according to the invention in that the front portion of the housing is wedge-shaped and has a groove for the fiber on one side surface, and thread guides are slidably disposed along the wedge faces on the groove-cutting path.

The novel design of the device housing and the fiber guide has made it possible to introduce the fiber to be measured into the device much simpler than in prior art devices, thus significantly reducing the time spent on control and measurement, particularly important in measuring fiber parameters . For these devices, the number of test measurements to be performed may exceed fifty. The front wedge-shaped housing portion allows the front housing portion of the device to be introduced into the measurement area in the immediate vicinity of the looping device without any particular manipulation, by simply spreading the moving strands. This further enhances the utility of the device according to the invention by simultaneously controlling a greater number of parameters.

A groove on one side of the wedge ensures that the moving scarf automatically enters the zone where the thread guide can already grasp it and the wedge for the thread guide • · · ·

its displaceable position on its front sides and on the track intersecting the groove ensures that the fiber is securely gripped and pressed against the transducer without any lateral or offset movement of the device.

In a preferred embodiment of the device according to the invention, the fiber guides are arranged inside the housing. ^r

Also preferred is an embodiment of the proposed apparatus wherein one end of a housing is provided with a disc-shaped fiber separator at one end, spaced parallel to the side surface and spaced together with the groove, while the other free end of the fiber separator housing extends beyond. This makes it easier for the fibers to be held closer to each other, for example running at distances of 1.5-2 mm. With such a construction, the fiber receiving groove preferably has an acute angle with the thread guide path, which allows the fiber to enter the groove without any interruption during measurement, and then to exit unhindered after the measurement.

The invention will now be described in more detail with reference to the drawing, in which some exemplary embodiments of the device are shown. In the drawing it is

Figure 1 is a side view, partly in section, of an embodiment of the device of the invention, a

Figure 2 shows a further embodiment of the device according to the invention

A schematic side sectional view of 6 possible embodiments is shown, a

Figure 3

Figure 4

Figure 5

Figure 6 is a sectional view taken along line III-III of the device of Figure 2, showing a top view of the device of Figure 1, schematically showing the connection of the device to a known transducer, to count your number.

An exemplary embodiment of the device according to the invention comprises a pistol-shaped housing 1 shown in Figures 1 and 2, the front end of which is formed as a wedge 2, and the flat side surfaces of the wedge 2 have a groove 3 to be measured. designed to accommodate a fiber. Száljellemzőket the housing 1, for example, fiber consumption meter 4 mérőtávadó behind the wedge 2 and the free-stream ^Moz Gó formed contacts 9 of thread, 5 drum 6 with markings in the form. The unit 7, which catches the movable filament 9 and presses it on the drum 5, comprises two filament guides 8, which are displaceably arranged along the longitudinal path of the groove 3 on the front faces of the wedge 2. The thread guides 8 may extend as shown in Figure 1.

7 may be provided within the housing 1 or, as shown in Figure 2, within the housing, which provides additional benefits in handling the device.

As shown in Figures 3 and 5, the drum 5 is hollow cylindrical with the groove-like markings 6 uniformly distributed on its peripheral surface. The working surface of the drum 5, i.e. the surface in contact with the thread 9 to be measured, is coated with a sufficient amount of friction material, such as rubber.

In addition to the fiber guide 8, the unit 7 for gripping the fiber 9 and for pressing the drum 5 comprises a frame 10 arranged in a guide 11 formed in the housing 1, and a rooster 12 rigidly connected to the frame 10 and one or As shown in Figure 1, there are two resilient springs 13 which are mounted on an axis 14 fixed in the housing. The resilient spring 13 rests on one end of the spring on the frame 10, on the other end it rests on the housing 1 and returns the unit 7 to its initial position after the measurement. On the collar 12, a current switch 15 is provided. In the frame 10, the fiber guides 8 are mounted such that they rotate freely as a result of their friction with the fiber 9.

Behind the transmitter 4 there is an electrical stage 16 of known construction in the housing 1 which converts the output of the transmitter 4 into an electrical signal and which is electrically connected to the display unit 17 on the housing 1.

The electronic converter has 16 stages of 5 drum coats * * · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·

- for reading the markings formed on its surface 8, it comprises a photoelectric system comprising a light source 18 inside the drum 5, illustrated in more detail in FIG. 5, and a light receiver 19 outside the drum 5, a known time transmitter 20 and an integrated circuit. Contains 21 counters.

In the handle 22 of Fig. 2, an electrical socket 24 is provided for connecting a power supply 23 and an external transmitter 25. The transducer 25 automatically calculates the needle movements performed by the device itself and located on a rack 26 on an adjustable bracket 27 and may be of any configuration known to the person skilled in the art.

3, a plate-shaped fiber separator 28 is secured at one end to the side surface of the housing 1 which has a groove 3 and extends parallel to said side surface and spaced 29 and forms a fiber channel for the fiber 9.

The free end 30 of the fiber separator 28 extends beyond the front housing portion as shown in FIG. In the presence of the fiber separator 28, it would be expedient for the groove 3 to form an acute angle o <with the trajectory a-a of the fiber guide 8.

The plate-forming fiber separator 28 serves to isolate a fiber 9 to be inspected, which can be accomplished with the front housing portion and prevents adjacent fibers 9 from simultaneously entering the measuring zone.

The device described here works as follows:

· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · To · to · to · to · toque |

The person handling the device according to the invention approaches the housing 1 of the device with the moving thread 9 and aligns the front part of the wedge 2 in parallel with the moving thread 9. Then the device is guided parallel to the wedge 2 between the movable filaments 9, where the wedge 2 divides the filaments 9 and the filament 9 to be checked or measured automatically slides through the side surface of the wedge 2 into the groove 3. By intersecting the groove 3 of the thread guide a-a of the thread guide 8, the thread 9 is in the path of the thread guide 8.

If the apparatus is also provided with the fiber separator 28 shown in Fig. 3, the fiber 9 to be measured is selected as follows. The person operating the device approaches the housing 1 to the moving fiber 9 so that the fiber 9 in contact therewith with the fiber separator 28 is placed between the fiber separator 28 and the wedge 2. The operator then pushes the device into the measuring zone, whereby the thread 9 to be measured automatically slides into the groove 3 on the side surface of the wedge 2 and slides in the filament channel and thus reaches the reach of the thread guide 8.

The operator then pulls the cock 12 and causes the fiber guide 8 and the frame 10 to automatically grasp the thread 9 to be inspected as the guide 8 and frame 10 approach the drum 5 along the guides 11. Moving along the working surface of the drum 5, the filament 9 to be inspected begins to rotate the drum 5 under frictional action.

Simultaneously with the shifting of the 8 conductor strands, the current switch 15 31

- Works with 10 Reed relays to turn on the power to the device and start the measurement in the usual way:

Either the speed of the filament 9 or the amount of filament used during the rotation of the knitting machine 1 can be determined in this way. In doing so, the proposed apparatus counts the number of needle steps performed in the fiber length mode using the transmitter 25 attached.

After releasing the cock 12, the thread guide 8 together with the frame 10 returns to its starting position by the resilient spring 13, thereby removing the thread 9 to be measured from the drum 5. By shifting the device sideways, which can be accomplished, for example, by the operator, the fiber 9 exits the groove 3 and leaves the device moving in the fiber channel between the fiber separator 28 and the wedge 2 and can be pulled out of the region of the movable fiber 9.

If longer measurements are required, the cock 12 can be secured in the handle 22 by means of a known arresting device not shown in the drawing.

In this way, the device according to the invention allows unhindered entry and exit of the measuring zone, whereby the fiber 9 automatically enters the groove a-a of its path and automatically leaves it after the measurement. The structure of the device allows the actual fiber length or fiber speed to be checked in the loop part of the looping device and with the help of the looping device 4 · ···················································· · »· Parameters can be conveniently and quickly set. The proposed apparatus can also be used in automatic textile equipment for the construction of self-monitoring systems.

Claims (4)

1. Apparatus for measuring the characteristics of a moving belt, a measuring transmitter for measuring fiber characteristics in a gun-shaped housing, a measuring fiber for measuring the measuring fiber located on the front housing part, a clamping unit for the measuring transmitter, is formed as a wedge (2) and has a groove (3) on one side surface for the fiber (9), and the thread guides (8) are arranged slidably along the front faces of the wedge (2) . (1/8/1988) Device according to Claim 1, characterized in that the thread guides (8) are arranged inside the housing (1). (1/8/1988) Device according to Claim 1, characterized in that a plate-forming fiber separator (28) is attached at one end of the housing surface (1) with a groove (3), which is located parallel to the side surface and spaced apart (29). 3) together form a fiber channel, while the other free end (30) of the fiber separator (28) extends beyond the front end of the housing (1). (1 ^ 87.01.30.) The device according to claim 3, wherein the device is z a