CS219392B1 - Nozzle mainly for pneumatic weaving machine - Google Patents

Abstract

The present invention relates to the specialised sector of jet-weaving machines. The purpose of the invention is to improve the characteristics of the weft-insertion nozzle during the insertion of the weft thread into the shed of the weaving machine by means of a stream of insertion medium. The nozzle of the present invention is formed by a nozzle body having an inlet chamber which is intended for introducing the weft thread to be inserted and which is provided with a feed conduit and with an insertion-medium distributor which opens into the outflow chamber. The outflow chamber, which is of tubular design, adjoins the inlet chamber and is formed by two or more coaxial portions which differ from one another in the size of the inner cross-section. There is a plurality of alternative versions. <IMAGE>

Description

(54) Nozzle of pneumatic weaving machine in particular

The invention relates to the field of jet weaving machines. The purpose of the invention is to improve the parameters of the picking nozzle when the weft is introduced by the flow of the carrier medium into the shed of the weaving machine. The nozzle according to the invention consists of a nozzle body with an inlet chamber for introducing a clogged weft, provided with an inlet and distribution of a carrier medium leading to the outlet chamber. The tubular-shaped discharge chamber is connected to the inlet chamber and consists of two or more coaxial sections which differ in the size of the internal cross-sections. There are several design variants.

The invention relates to a nozzle of a pneumatic weaving machine for inserting a weft into a shed by a flow of a carrier medium.

In the known pneumatic weaving machines, the weft is introduced into the shed formed by the warp threads by a stream of carrier medium, i.e. air. The entrainment current of the carrier medium is generated by a nozzle mounted either on the machine frame or directly on the machine bidlen and directed at least at the moment of picking into the open shed. This nozzle is usually formed by a nozzle body with an inlet chamber for introducing a clogged weft, provided with a supply of carrier medium. In one known embodiment, an insert with a through axial bore for receiving the inserted weft is accommodated in a conical inlet chamber. The liner is further provided with an annular distribution of the carrier medium to which are connected the distribution channels of the carrier medium provided in the insert at the conical wall of the inlet chamber. A tubular-shaped outlet chamber coaxially adjoins the inlet chamber, into which both the carrier channels of the carrier medium and the through axial opening of the weft guide open.

Among the requirements for the nozzles of pneumatic weaving machines is especially the requirement to exert the greatest possible pulling force on the weft with relatively low consumption of the carrier medium and the most perfect centering of the weft in the outlet chamber without oscillation of the end, resp. the beginning of the weft. Also the requirement to reduce the noise level of pneumatic weaving machines is related to the design of the nozzle, since these are one of the noise sources on these machines. However, known nozzle designs do not generally satisfy these requirements to a sufficient extent.

These disadvantages and drawbacks are largely eliminated by a nozzle according to the invention comprising a nozzle body with an inlet chamber for introducing a clogged weft provided with a supply and distribution of a carrier medium, and a tubular-shaped outlet chamber adjoining the inlet chamber. coaxial sections with different internal cross-section sizes.

Preferably, the inner cross-section of the first outlet chamber section in the direction of weft movement is larger than the inner cross-section of the second outlet chamber section, the difference in size being less than 1/3 of the inner cross sectional area of the first outlet chamber section.

It is also advantageous if the outlet chamber is formed by at least three coaxial sections, of which the inner cross section from the first section in the direction of weft movement is smaller than the inner cross section of the second section and the inner cross section of the second section is larger than the inner cross section.

In this connection, it is suitable that the difference in cross-sectional sizes of the two adjacent outflow chamber sections is less than 1/2 of the larger internal cross section of the outlet chamber section.

In particular, the advantage of the invention is to reduce the noise level generated in the nozzle. Also the centering of the inserted weft associated with a possible reduction of the consumption of the carrier medium by the nozzle according to the invention is improved.

Exemplary embodiments of the invention are shown schematically in the drawings, wherein Fig. 1 shows a nozzle of a pneumatic weaving machine in longitudinal section in one exemplary embodiment and Fig. 2 shows a second exemplary nozzle also in longitudinal section.

On a not shown pneumatic weaving machine, for example on its frame, a nozzle body 1 of substantially rotational shape is fixed, which is provided with a conical shaped inlet chamber 3 on the inlet side of the inserted weft 2. The inlet chamber 3 passes in a coaxially arranged tubular-shaped outlet chamber 4, directed into a shed formed by the warp threads.

In the inlet chamber 3 there is inserted an insert 5, which is provided with a through axial hole 6 for weft guiding 2. Around the perimeter of the insert 5 an annular recess 7 is formed which together with the inner surface of the inlet chamber 3 and fed via a lead 10 to a nozzle from a source (not shown). The distribution medium openings 8 are connected to annular recess 7 by distribution channels 9, also formed in the insert 5 at the conical wall of the inlet chamber 3. The insert 5 is fixed in the inlet chamber 3 by a screw fastening member 11 with a conical through hole 12 for weft passage 2. the fastening member 11 is screwed into the inlet chamber 3 and is provided with a seal 13 at the front of the insert 5.

The through axial bore 6 of the weft insert 5 and the carrier medium distribution channels 9 open into an outlet chamber 4 open towards the shed (not shown). The discharge chamber 4 is formed by a plurality of at least two coaxial sections 14 and 15 whose internal cross-sectional sizes are different from each other. According to the exemplary embodiment of FIG. 1, the internal cross-section of the first section 14, calculated in the direction of travel of the weft 2, is larger than the internal cross-section of the second section 15 of the discharge chamber 4. The difference in size of the two cross sections is less than 1. The size of the internal cross-section of the first section 14 of the discharge chamber 4 can be divided into several sections, of course. In the exemplary embodiment of the invention according to FIG. 2, the outlet chamber 4 is formed by at least three coaxial sections 16, 17 and 18. The inner cross section of the first section 16, calculated in the direction of weft movement 2, is smaller than the inner cross section of the second section 17 and the inner cross section of the second section. the section 17 is larger than the internal cross-section of the third section 18 of the discharge chamber 4.

Since there are more sections 16, 17, 18 of the discharge chamber 4 than two and the first section 16 is smaller in cross section than the second section 17, the cross-sectional difference in the two adjacent sections 16 and 17 and 17 and 18 is less than 1/2, e.g. If the first section 16 is larger than the second section 17, then the difference of the first two sections 16, 17 of the sizes must be less than 1/3 of the larger The number of sections 16, 17, 18 of the outlet chamber 4 is dependent, in particular on the flow rate of the carrier medium, shed length, type of weft 2 and the like. As regards the transverse profile of the outlet chamber 4, the described exemplary embodiments assume a circular profile, but a profile of another shape is not excluded. for example, square, hexagon, etc.

During weaving, the carrier medium is fed intermittently in the rhythm of weaving into the annular recess 7 of the insert 5, from where the holes 8 are distributed through the distribution channels 9. The resulting carrier medium entrains and carries the weft 2 through the discharge chamber 4 out of the nozzle into the shed. In this case, the weft 2 is supplied from a known metering and supply device (not shown).

The described embodiments of the invention are of course only exemplary and can be varied within the scope of the invention.

Claims (4)

the subject of the invention A nozzle, in particular of a pneumatic weaving machine for inserting a weft into an open shed by a carrier medium jet, comprising a nozzle body with an inlet chamber for introducing a clogged weft provided with a carrier and a distribution of a carrier medium. The outlet chamber (4) is formed by at least two coaxial sections (14, 15) with different internal cross-section sizes. A nozzle according to claim 1, characterized in that the inner cross-section of the first section (14) is larger than the inner cross-section of the second section (15) of the outlet chamber (4), the difference in size being less than 1/3 (14) outlet chambers (4). Nozzle according to claim 1, characterized in that the outlet chamber (4) is formed by at least three coaxial sections (16, 17, 18) of which the internal cross-section of the first section (16) in the direction of travel of the weft (2) is smaller than the internal the cross-section of the second section (17) and the inner cross-section of the second section (17) are larger than the inner cross-section of the third section (18) of the discharge chamber (4). A nozzle according to claim 3, characterized in that the difference in cross-sectional size of two adjacent sections (16 and 17, 17 and 18) of the outlet chamber (4) is less than 1/2 of the larger internal cross-section of the section (17) of the outlet chamber (4).