KR100519604B1 - Anti reed tremble device of air jet loom - Google Patents

Abstract

The present invention is installed in the indentation groove portion of the weft sensor close to the body flesh by installing a body flesh holding means such as urethane rods or rubber and soft synthetic resin with excellent wear resistance to prevent the flow or shaking of the body flesh to prevent the false detection of the weft. It is.

Therefore, weaving defects caused by non-stopping of the air jet loom are prevented, so we can also weave black-based yarns with low microfiber and light reflectivity, which not only improves product quality and productivity, but also makes high quality fabrics and silkscreen fabrics for garments. It is possible to produce high value-added textile products such as, etc., and the structure is simple and easy to manufacture and install.

Description

Anti reed tremble device of air jet loom

The present invention provides an air jet loom for preventing false detection of the weft by installing a body wear gripping means having excellent wear resistance in the indentation groove portion of the weft sensor close to the body flesh to prevent the flow or shaking of the body flesh. It relates to a body fat shake prevention device.

1 is a perspective view of an embodiment schematically showing a conventional weft supply unit installed in an air jet loom, FIG. 2 is a plan view thereof, and FIG. 3 is a cross-sectional view thereof.

Looking at the configuration of the weft supply unit, the body frame (2) for opening the inclined (6) supplied between the body flesh (8), the body flesh (8) to supply the weft (4) between the open inclined (6) An air tunnel 10 formed at the top of the main nozzle 12 is installed at the inlet side of the air tunnel 10 to inject high-pressure air for supplying the weft yarn 4, and the air tunnel ( 10 and a plurality of sub-nozzles 14 sequentially spraying the sub air carrer so that the weft yarns 4 supplied along the line 10 are normally supplied to the weft yarn feeding position, and the outlet side of the air tunnel 10. A transmission / reception reflection type weft sensor 16 installed at the upper end to detect whether the weft thread 4 is indented, and an opening / closing valve 18 intermittent to the injection air supplied to the main nozzle 12 and the sub-nozzle 14. And, the main on-off valve 20 and loom controller, the body frame 2, weft sensor 16, the sub-nozzle 14, etc. are installed It is composed of 15.

When the inclined 6 is opened by the opening movement of the body frame 2, the weft yarn 4 enters the air tunnel 10 by the high pressure air injected from the main nozzle 12, and the air tunnel 10. The weft yarn (4) entering the (2) is fed to the outlet of the air tunnel (10) by the auxiliary air injected from the plurality of sub-nozzle (14) is made of the weft feed.

The end of the weft yarn 4, which is conveyed to the outlet of the air tunnel 10, is detected by entering the weft detector 16 located near the outlet of the air tunnel 10, and the loom controller enters the weft yarn from the weft sensor 16. When a signal is input, weaving is performed once by performing body needle movement, and weaving continues by repeating this process.

Meanwhile, the weft detector 16 detects the reflected light reflected from the surface of the weft yarn 4 and the reflected light reflected from the body flesh 8 surface. When the reflected light reflected from the surface is sensed and input to the loom controller, if the vibration of the body flesh 8 is little or the vibration is weak, the amount of light reflected from the body flesh 8 is almost unchanged, so that it is an unnecessary signal. It is considered to be removed or ignored.

That is, when the diameter (denier) of the weft yarn 4 is thicker than about 50 denier, even if the body flesh 8 vibrates finely, it is reflected from the weft yarn 4 more than the amount of reflected light reflected from the body flesh 8. Since the amount of reflected light is larger, the slight tremor of the body flesh 8 is ignored and the normal intrusion of the weft yarn 4 is detected, but if it is not, for example, the amount of reflected light of the weft yarn 4 than the surface reflected light amount of the body flesh 8 is detected. When the amount of reflected light falls, the weft yarn 4 is detected as not being infiltrated even when the weft yarn 4 is normally infiltrated by the weft detector 16. This leads to a weaving failure or inability to weave.

In addition, the spacing or thickness of the body flesh 8 varies depending on the thickness and the number of the inclinations 6. For example, as the thickness of the inclined 6 becomes thinner, not only the thickness of the body flesh 8 becomes thinner but also the installation interval between the body flesh 8 becomes narrower.

Therefore, when the diameter of the weft thread 4 is thinned before and after 20 denier, the thickness of the body flesh 8 becomes very thin accordingly, as well as the installation interval of the body flesh 8 becomes more dense. The vibration of the body flesh 8 is further intensified and the amplitude is increased as shown in FIG. This base is largely due to the fact that no means for suppressing or preventing the shaking of the body flesh 8 located near the weft sensor 16 is provided, as shown in FIG.

In addition, when the weft yarn 4 is thinned before and after the 20 denier, the inlet amplitude of the weft yarn 4 is smaller than the shaking amplitude of the body flesh 8, and in this case, the weft yarn 4 may be normalized even if the weft yarn 4 is normally infiltrated. The amount of reflected light generated by the shaking of the body flesh 8 is increased more than the amount of reflected light reflected from the b).

That is, as shown in FIG. 5, the tremor signal S1 of the body flesh 8 having a large increase in peak to peak is detected, and in the case of the weft detector 16 using the reflective transmission / reception element under such a state, Even when the weft detection signal S2 is detected in the weft detection area (PS section) by the normal intrusion of the weft yarn 4, the weft detection signal S2 and the body flesh 8 vibration signal S1 can be distinguished. Since it is mixed so as not to be, the weft yarn 4 is falsely sensed as being normally entombed. Therefore, since weaving defects occur in the state in which the air jet loom continues to operate (Non-Stop), it is practically impossible to weave yarns before and after 20 deniers in a state where the body flesh 8 is left unsettled.

Of course, the spray width of the auxiliary air injected from the sub-nozzle 14 may be somewhat reduced as a means of reducing the shaking phenomenon of the body flesh 8 somewhat, but the weft yarn 4 may be formed by the flow of air generated in the air tunnel 10. In view of the fact that the advance of the weft yarn 4 is not a smooth solution because it is not smooth.

In addition, the dark weft yarn 4 of the dark color, such as ultrafine yarn before and after the 20 denier or black with low light reflectance, not only decreases the detection rate but also the body tremor signal is larger than the weft detection signal. There were problems such as being impossible to weave on the side. On the other hand, a body skin vibration preventing device that prevents the shaking of the body meat by installing a vibration preventing device in a predetermined portion of the body meat has been disclosed in Japanese Unexamined Utility Model Publication No. Hei 2-78588. In order to prevent the shaking of the body meat by installing the anti-shake means on the upper side or the lower side of the body meat, but because it is installed at a position away from the weft sensing means, a separate fixing member for installing the anti-vibration means is required to increase the manufacturing cost There was a problem such as inconvenient assembly and maintenance and cost increase.

Therefore, the present invention in consideration of the structurally close to the weft detector and the body meat is installed in the body space gripping means in the space therebetween to prevent body shake and weft erroneous body body shake prevention device of the air jet loom In order to achieve the above object, in order to achieve the above object, a weft groove is formed in the weft detector part close to the body meat, and the soft pressing means having excellent wear resistance in the indentation groove, such as urethane or natural rubber and artificial rubber, soft The synthetic resins, etc., are made into rods, plates, ovals, polygons, or irregular shapes, and then immobilized (or fixed) in the recessed grooves by forcing or bonding to the indentation grooves. While the shaking is prevented to prevent the false detection of the weft.

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In describing the present invention, detailed descriptions of related well-known structures and functions will be omitted in order not to obscure the subject matter of the present invention. Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

7 to 9 is a view showing an embodiment of the body body anti-shake device of the air jet loom of the present invention, the body meat (8) located around the weft sensor 16 of the air jet loom or in the weft sensing section (L1) By installing the body flesh holding means 22 to the upper portion or the lower surface or the upper and lower surfaces of the body flesh 8 to prevent the shaking (or flow or shaking) of the body flesh 8 by The shaking of the body flesh 8 is prevented by the external pressure, especially the air pressure injected from the subnozzle 14.

Accordingly, as shown in FIG. 10, the body flesh 8 tremor signal S1 is greatly attenuated and sensed, and the weft detection signal S2 is sensed without attenuation, thereby preventing false weft detection. Accordingly, non-stop of the air jet loom (Non) -Weaving defects caused by stop are prevented, so microfiber yarns with fine light reflectance and black-based yarns can be weaved, and the quality and productivity of products are greatly improved. Textile products can be produced.

In the above, the non-stop of the air jet loom means that the weft yarn is infiltrated by the shaking of the body flesh even though there is no intrusion of the weft yarn, and the air jet loom continues to be weaved without stopping.

On the other hand, the body flesh holding means 22 is the vibration of the body flesh 8 located in the vicinity of the weft sensor 16 or in the weft sensing region (L1) as shown in Figure 11 without having to prevent the shaking of the entire body flesh (8) If you avoid this, you are generally satisfied. In addition, since the inclination 6 is not supplied to the weft sensor 16 or the weft sensing section L1, the installation of the body meat holding means 22 is relatively easy and free.

7 shows that the weft detector 16 and the body flesh 8 are structurally close to each other so that the body flesh holding means 22 is installed in the space 17 therebetween so that the body flesh 8 is pressed. There is no trembling.

That is, the recess 28 is formed in the bottom surface 28 of the weft sensor 16 in parallel with the air tunnel 10, and then the urethane rod or the rubber and soft synthetic resin having excellent abrasion resistance in the recess 26. The body body 8 is prevented from being shaken by inserting the same body flesh holding means 22 in an interference fit manner or by bonding and fixing the body flesh holding means 22 with an adhesive or the like at the same time. .

When the holding means 22 is worn by the continuous use, it is preferable to be coupled to the indentation groove 26 of the weft sensor 16 in a press fit manner so that it can be easily replaced, the body body pressure paper by external pressure or vibration, etc. If the positional deviation or separation of the means 22 is concerned, when bonding to the concave groove 26 may be bonded with an adhesive or the like.

In addition, in consideration of the fact that the body flesh holding means 22 is located in the space portion 17, the recess groove 26 may be formed in a semicircular shape as shown in FIG. 13, but is formed larger than the semicircle as shown in FIG. You can also combine in a way.

That is, the recess 28 is formed in the bottom surface 28 of the weft sensor 16 in parallel with the air tunnel 10, the center point O of the recess groove 26 is the bottom surface of the weft sensor 16. (28) By pressing the body toward the concave groove 26 in a more concentrated position, the interference fit of the body flesh holding means 22 is achieved, and also is not easily separated or separated from the concave groove 26.

Since the body flesh holding means 22 is fixed to the weft detector 16 and is fixed, a separate holding member for installing the body meat holding means 22 is unnecessary. The bottom surface 28 on which the body flesh holding means 22 is installed is preferably a portion close to the body flesh 8 positioned in the weft sensing region L1.

In addition, the length of the body fat holding means 22 is formed to have a length equal to or similar to the width of the weft sensing section L1 or the weft sensing section 16, and the body flesh around the weft sensing section L1 or the weft sensing section 16. Allow (8) to be crushed.

In addition, the body flesh holding means 22 is installed so as to be spaced apart from the air tunnel 10 by a predetermined distance (L2) as shown in FIG. 11 to achieve a firm pressing of the body flesh 8, and also to move the weft yarn 4. Do not disturb.

8 and 9 are cross-sectional views of another embodiment of the present invention, in which a separate finger member 30 is welded, fastened or restrained to the body frame 2 or the frame 15 instead of the weft sensor 16. Fixing and fixing the body flesh holding means 22 formed on one side of the finger member 30, 32, 34 made of soft rubber rod or rubber sheet material or urethane rod or soft synthetic resin having excellent abrasion resistance. The upper and lower surfaces of the body flesh 8 or the upper and lower surfaces of the body flesh 8 are pressed and supported so that the shaking of the body flesh 8 is prevented.

In the present invention, the shape of the body flesh holding means 22 is satisfied if it can be formed so as not to shake the body flesh (8), but formed in the shape of a rod, plate, ellipse, polygon or unspecified as described above.

In addition, since the body flesh holding means 22 of the present invention has a soft wear resistance, deformation or damage is prevented even when the body flesh 8 is pressed.

And, in the present invention, the body fat holding means 22 may use a hard pressing means. For example, a groove in which a part of the body flesh 8 may be formed may be formed in the body flesh holding means 22, and then the body flesh holding means 22 may be configured to be touched.

In addition, in the present invention, when pressing the body flesh 8 by using the holding member 30 as shown in Figs. 8 and 9, a mechanism such as a clamp or a fastening means or a fingering means should be used, but it is pressed by the weft detector 16. In the case of installing the means 22, the indentation grooves 26 are formed in the part of the weft detector 16 facing the body flesh 8, and then the holding means 22 is combined. Excellent anti-shake efficiency and simpler workability.

Reference numeral 36 is a light transmitting element, 38 is a light receiving element, 40 and 42 are coupling grooves, 44 is a fastening bolt, and 46 is an air hose.

The present invention described above is not limited to the present embodiment and the accompanying drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention, which is common knowledge in the art to which the present invention belongs. It is self-evident to those who have.

As described above, the present invention is installed in the indentation groove portion of the weft sensor close to the body of the air jet loom, so that the body meat gripping means is prevented the flow or shaking of the body meat is prevented the false detection of the weft, therefore, the non-stop of the air jet loom This prevents weaving defects caused by weaving, so we can also weave black-based yarns with very low fine reflectance and light reflectance, which greatly improves the quality and productivity of products, as well as high value-added fibers such as high-quality fabrics and silk-screen fabrics. It has the effect of producing a product.

In addition, there is an effect such as a simple structure and easy manufacturing and installation.

1 is a perspective view of an embodiment of the weft supply unit installed in the air jet loom.

2 is a plan view of an embodiment of the weft supply unit installed in the air jet loom.

3 is a cross-sectional view of an embodiment of the weft supply unit installed in the air jet loom.

4 is a body amplitude shaking state amplitude in the absence of body body shake prevention means.

Figure 5: Body wave vibration signal waveform in the absence of body body shake prevention means.

6 is a mixed signal waveform diagram of a body flesh shake signal and a weft detection signal in a state where there is no body flesh shake prevention means.

7 is a cross-sectional view of an embodiment of the present invention.

8 is a cross-sectional view of another embodiment of the present invention.

9 is a cross-sectional view of another embodiment of the present invention.

10: Signal waveform diagram of the present invention.

11 is a plan view of the installation state of the body flesh holding means shown in one embodiment of the present invention.

12 is a cross-sectional view of the installation state of the body flesh holding means shown in one embodiment of the present invention.

13 is a side view of the installation state of the body meat holding means shown in one embodiment of the present invention.

14 is a side view of the installation state of the body flesh holding means shown in one embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

(2)-Body Frame (4) (24)-Weft

(6)-Slope (8)-Body

(10)-Air Tunnel (12)-Main Nozzle

(14)-Subnozzle (16)-Weft Detector

(18)-opening and closing valve (20)-main closing valve

(22)-Body Salvage Means (26)-Indentation Groove

(28)-bottom surface of weft detector (30) (32) (34)-carton member

(L1)-Weft sensing zone (L2)-Disengagement distance between presser and air tunnel

(S1)-Body shake signal (S2)-Weft detection signal

Claims (8)

delete delete delete In the body jet shake prevention device of the air jet loom, the body meat holding means is installed in the body meat portion located in the weft sensing region; The body meat holding means forms an indentation groove parallel to the air tunnel in the weft sensor part facing the body meat, and installs a wear resistant body meat holding means for pressing and supporting the upper surface of the body meat in the inlet groove. Body flesh shake prevention device. delete delete delete The method according to claim 4; The center point of the indentation groove in which the body meat holding means is installed is placed in the direction of the indentation groove rather than the bottom surface of the weft detector, and the body meat vibration preventing device of the air jet loom.