CN103820922B - Arrangement selection apparatus of auxiliary nozzles of air-jet loom - Google Patents

Abstract

The invention provides an arrangement selection apparatus of auxiliary nozzles of an air-jet loom, which can enable the selection of arrangement of auxiliary nozzles, which maintains stable picking and at the same time inhibits the ejection flow of the air, to be easy, and realize energy saving of the air-jet loom. In a first display picture, if a project of a reed type of a designated picture display part as a standard reed and a project of the auxiliary nozzles is selected as energy saving, the a main control part select an arrangement of the auxiliary nozzles in which a interval corresponding to a textile condition and a weaving condition is rejected, and switches a the first display picture of the display device into a second display picture. In the second display picture, the selected optical arrangement graphic of the auxiliary nozzles is displayed. In the second display picture, for the auxiliary nozzles, the arriving time of weft yarn and the an optimal arrangement which meets an energy saving standard that the consumption of compressed air is minimal in a most stable flying gesture state can be displayed. The arrangement of the auxiliary nozzles can be confirmed through the graphic display, and adjustment of the auxiliary nozzles can be made appropriately in a simple way.

Description

The arrangement selecting arrangement of the auxiliary jet of air-jet loom

Technical field

The present application relates to the arrangement selecting arrangement of the auxiliary jet of air-jet loom.

Background technology

Air-jet loom possesses in order to picking and utilizes compressed-air actuated picking mechanism, so the size of compressed-air actuated use amount is directly connected to the energy consumption of factory of weaving cotton cloth.In order to the energy ezpenditure of the factory that suppresses to weave cotton cloth, suppressing method, the i.e. power-economizing method of the compressed-air actuated consumption of various air-jet loom in the past, are proposed.

Such as, patent document 1 is reduced to object with the air mass flow by the multiple auxiliary jet consumption arranged on the picking direction of air-jet loom, discloses the invention of the arrangement about multiple auxiliary jet.Specifically, such as with the central authorities in picking direction for border, the auxiliary jet be configured in the region of picking direction upstream side is arranged with certain spacing, by the spacing arrangement that the auxiliary jet being configured in downstream, picking direction expands with the spacing of the auxiliary jet than upstream side.

Auxiliary jet arranges in the mode being uniform distances throughout picking direction universe usually.But, in the invention of patent document 1, expanded by the spacing of the auxiliary jet by the central downstream than picking direction, become the state rejected at the several auxiliary jet intervals being configured in downstream, picking direction.Thus, the consumption of the air mass flow that the auxiliary jet that the invention of patent document 1 can reduce the number rejected by interval used originally.

Patent document 1: JP 2011-69000 publication.

In textiles, there is numerous species, set the various condition, the i.e. weaving condition that are used for making picking mechanism action according to textiles kind.In addition, weaving condition to be set as that when being weaved with the rotating speed of setting by textiles to reach the deviation arriving the posture etc. of going at express speed of opportunity and weft yarn with the weft yarn of opposition side, picking side be minimum state to weft yarn.Therefore, as described in Patent Document 1, when weaving various textiles with picking mechanism downstream, picking direction being fixed as less auxiliary jet number and less air mass flow, in several textiles, produce the deviation that weft yarn arrives the posture etc. of going at express speed of opportunity and weft yarn and expand, in worst case, bad etc. the problem of picking occur.

Such as, when weave with tight twist yarn be the textiles of weft yarn, easily shrink, if weaved with the picking mechanism of patent document 1, then the deviation that weft yarn arrives the posture etc. of going at express speed of opportunity and weft yarn occur, has unstable problem.In addition, in reed, except normally used standard reed, use the situation of special reed more.So-called special reed, can make auxiliary jet form close to the weft yarn guide path be formed on reed as far as possible, by this structure, significantly can reduce pressure and the flow of the air sprayed from auxiliary jet.Thus, when using special reed, when using the picking mechanism of patent document 1, underfed or flow that air easily occurs are too much, and picking likely becomes unstable.

Summary of the invention

The object of the present application allows to suppress the selection transfiguration of the arrangement of the auxiliary jet of compressed-air actuated injection flow easy while the picking that maintenance is stable, realizes the energy-conservation of air-jet loom.

Technical scheme 1 is a kind of arrangement selecting arrangement of auxiliary jet of air-jet loom, described air-jet loom possesses picking mechanism, control device and display unit, described picking mechanism is by the compressed air delivery of the weft yarn of the compressed air picking by spraying from main burner by spraying from the multiple auxiliary jet groups arranged along picking direction, described control device stores textiles condition and weaving condition, described display unit has Presentation Function and input function, the feature of the arrangement selecting arrangement of the auxiliary jet of described air-jet loom is, above-mentioned display unit has the 1st display frame and the 2nd display frame, described 1st display frame can carry out input and the display of the project of the kind of the arrangement of vice nozzle, the arrangement of the auxiliary jet selected by described 2nd display frame display, above-mentioned control device stored data base and possess program, described database is about the arrangement of the above-mentioned auxiliary jet corresponding with multiple textiles condition and weaving condition difference, described program is by the input of the project of the kind of the arrangement of the above-mentioned vice nozzle in above-mentioned 1st display frame, the arrangement of the above-mentioned auxiliary jet corresponding with 1 textiles condition and weaving condition is selected, by the list view of selected above-mentioned auxiliary jet in above-mentioned 2nd display frame from above-mentioned database.

According to technical scheme 1, automatically can select according to textiles condition and weaving condition and show the arrangement of the auxiliary jet of the optimum of (comprising interval rejecting number is the situation of zero) after the rejecting of auxiliary jet interval.Therefore, it is possible to easily grasp and adjust the arrangement position of the optimum of auxiliary jet, stable picking can be maintain and suppress the compressed air that sprays from auxiliary jet, being significantly conducive to the energy-conservation of air-jet loom.

The feature of technical scheme 2 is, the project of the kind of the arrangement of above-mentioned vice nozzle is standard and energy-conservation.According to technical scheme 2, by the kind standard of the arrangement of auxiliary jet and energy-conservationly setting can be switched simply.

The feature of technical scheme 3 is, above-mentioned 1st display frame can also carry out input and the display of the project of the kind representing reed except the project of the kind of the arrangement of above-mentioned vice nozzle; The project of the kind of above-mentioned expression reed is standard reed and the special reed compared above-mentioned standard reed above-mentioned auxiliary jet can be made to configure closer to reed.According to technical scheme 3, in the 1st display frame, the energy-conservation project difference input of energy-conservation special reed and auxiliary jet can be realized, so the stabilisation of picking and energy-conservation can be realized for the textiles of numerous species simultaneously.

The feature of technical scheme 4 is, in above-mentioned 2nd display frame, is shown by the spread geometry of selected above-mentioned auxiliary jet.According to technical scheme 4, owing to the figure in the 2nd display frame that is arranged in of selected auxiliary jet can be shown, so can grasp the position of the auxiliary jet group of answering interval to reject and the auxiliary jet number of interval rejecting simply by vision, the adjustment of the arrangement of auxiliary jet is easier to.

The feature of technical scheme 5 is, when above-mentioned control device possesses the project when the kind of the arrangement being transfused to the above-mentioned vice nozzle in above-mentioned 1st display frame, switch above-mentioned 1st display frame, the program of above-mentioned 2nd display frame of display automatically in above-mentioned display unit.According to technical scheme 5, as long as select the energy-conservation project of auxiliary jet with the 1st display frame, just automatically switch to the 2nd display frame of the arrangement of the auxiliary jet showing selected optimum, so unnecessary formality can not be carried out and carry out the adjustment operation of the arrangement about auxiliary jet immediately.

The present application allows to suppress the selection transfiguration of the arrangement of the auxiliary jet of the optimum of compressed-air actuated injection flow easy while the picking that maintenance is stable, can realize the energy-conservation of air-jet loom.

Accompanying drawing explanation

Fig. 1 is the block diagram of the picking mechanism representing air-jet loom.

Fig. 2 is the key diagram of the 1st display frame representing display unit.

Fig. 3 is the key diagram of the 2nd display frame representing display unit.

Fig. 4 is the block diagram of the arrangement of vice nozzle.

Fig. 5 is the schematic diagram of the database of the arrangement of the optimum of statement auxiliary jet.

The side view of Fig. 6 to be the figure of the kind representing reed, Fig. 6 (a) be standard reed, Fig. 6 (b) is the side view of special reed.

Fig. 7 is the key diagram of the 1st display frame representing display unit.

Fig. 8 is the key diagram of the 2nd display frame representing display unit.

Detailed description of the invention

The embodiment of the present application is described based on Fig. 1 ~ Fig. 8.In addition, in present specification, relative to the picking direction that weft yarn is carried in Warp opening, if the direct of travel opposition side of weft yarn is upstream, sets the direct of travel side of weft yarn to be described as downstream.In addition, relative to the direction of compressed air flowing, if source and course side is upstream, sets with source and course opposition side as downstream and being described.

Fig. 1 is the figure representing the picking mechanism 1 be located in air-jet loom, drawn by series nozzle 2 through the not shown weft yarn Y supplying yarn portion and weft yarn to survey long storage unit, penetrated by the weft yarn guide path 5 of main burner 3 to the reed 4 being positioned at not shown Warp opening, carry out picking.6A and 6H is only show along weft yarn guide path 5 by the 8 groups of auxiliary jet group 6A ~ 6H(arranged on picking direction by the weft yarn Y after main burner 3 picking) conveying, arrive at weft yarn Y and terminate with the time point picking of the Zhi Duan foreign side of main burner 3 opposition side.The end of the weft yarn Y at the end of weft yarn probe 7 detects picking.In addition, only represent single series nozzle 2 and main burner 3 in FIG, but the picking mechanism 1 of present embodiment is by possessing 4 series nozzles 2 and 4 main burners 3, suitably selecting the polychrome picking mechanism of 4 weft yarn Y and picking to form.

Air supply source 8 is formed by being arranged on the air compressor of weaving cotton cloth in factory, to each air-jet loom supply compressed air of weaving cotton cloth in factory, is connected with air-jet loom by pipe arrangement 9.In air-jet loom, be connected to primary air case 11 by pipe arrangement 9 via adjuster 10, in addition, be connected to secondary watertight aircase 13 via adjuster 12.Adjuster 10 and adjuster 12 are made up of hand, can adjust the compressed-air actuated pressure of primary air case 11 and secondary watertight aircase 13 respectively.Primary air case 11 is connected on series nozzle 2 by pipe arrangement 9 via flow control valve 14 and transfer valve 15, in addition, is connected on main burner 3 via transfer valve 16.

On the other hand, multiple (being 4 in the present embodiment) auxiliary jet 17 is concentrated as 1 group the structure arranged by auxiliary jet group 6A ~ 6H, in FIG, illustrate only the auxiliary jet group 6A of main burner 3 side and the auxiliary jet group 6H with main burner 3 opposition side.Auxiliary jet group 6A is connected on transfer valve 18A by pipe arrangement 9, in the operating period of transfer valve 18A, is sprayed simultaneously by compressed air from 4 auxiliary jets 17.Be connected on transfer valve 18H by pipe arrangement 9 with the auxiliary jet group H of main burner 3 opposition side.In addition, although do not illustrate, the auxiliary jet group 6B ~ 6G of centre is connected on transfer valve 18B ~ 18H.Transfer valve 18A ~ 18H is connected on secondary watertight aircase 13 respectively by pipe arrangement 9.

Control device 19 is made up of picking control part 20 and master control part 21.Picking control part 20 is connected on flow control valve 14 and transfer valve 15,16 by holding wire 22, is connected on transfer valve 18A ~ 18H by holding wire 23.By the dictation trunk ground open and close controlling of transfer valve 18A ~ 18H based on picking control part 20, each auxiliary jet group 6A ~ 6H carries out the injection of compressed-air actuated relaying, reaches the leading section of the weft yarn Y gone at express speed in weft yarn guide path 5 to make compressed air.Master control part 21 is connected with weft yarn probe 7 by holding wire 24, and the presence or absence according to the weft examining signal from weft yarn probe 7 has judged whether that picking is bad, and detects the arrival opportunity of weft yarn Y.In addition, master control part 21 is configured to, and carries out the control of loom entirety.

Picking control part 20 and master control part 21 are interconnected by holding wire 25, carry out exchange and the Synchronization Control of the control signal for picking then being stopped when detecting that picking is bad.Display unit 26 is made up of the function panel of the contact of the input function and Presentation Function that possess data.Display unit 26 is connected in picking control part 20 and master control part 21 by holding wire 27, carries out the reception, the display that input the transmission of data and the storage data of picking control part 20 and master control part 21.

In master control part 21, register and store multiple textiles condition and weaving condition.As textiles condition, comprise the weft yarn kinds such as the material of the yarn such as used in weft yarn Y, number, color, weft count, use in warp thread yarn the warp thread such as material, number kind, warp count, knit wide, textiles tissue etc.As weaving condition, comprise the compressed-air actuated pressure of the rotating speed of such as loom, the kind of reed 4, the denting amplitude of reed 4, primary air case 11 and secondary watertight aircase 13, transfer valve 15,16, the aperture of 18A ~ 18H, picking start arrival opportunity etc. of opportunity, weft yarn Y.

In addition, as the kind of reed 4, there is the special reed 4B shown in standard reed 4A and Fig. 6 (b) shown in Fig. 6 (a).Standard reed 4A is normally used reed, and the maxilla 28 and the lower jaw 29 that form the weft yarn guide path 5 of U-shaped are given prominence to the length of roughly the same degree, at the front of lower jaw 29 configuration auxiliary jet 17.On the other hand, special reed 4B forms weft yarn guide path 5 by the maxilla 28 identical with standard reed 4A and the lower jaw 30 less than lower jaw 29 overhang of standard reed 4A.

In the structure of special reed 4B, because the overhang of lower jaw 30 is less, so auxiliary jet 17 can be made to configure closer to the inboard wall of weft yarn guide path 5 than standard reed 4A.Therefore, special reed 4B can reduce the compressed-air actuated pressure supplied to auxiliary jet 17, significantly reduces the compressed-air actuated injection flow from auxiliary jet 17 injection and carries out picking, can be conducive to the energy-conservation of air-jet loom significantly.

In addition, in master control part 21, input and store database 31, the arrangement (with reference to Fig. 5) of the auxiliary jet 17 that multiple auxiliary jet 17 interval from auxiliary jet group 6A ~ 6H is rejected about corresponding respectively to multiple textiles condition and weaving condition by described database 31 (also comprise interval reject number be the situation of zero).Textiles condition uses the condition at least comprising weft yarn kind, and weaving condition uses the denting amplitude at least comprising reed, the condition of the rotating speed of loom.Database 31 records the arrangement of the optimum of the auxiliary jet that can the compressed-air actuated flow sprayed from auxiliary jet group 6A ~ 6H be made while the stability maintaining picking to reduce to greatest extent.Database 31 is while to be rejected at auxiliary jet 17 interval according to textiles condition and weaving condition and repeatedly carry out weaving experiment on one side, by the array data of the auxiliary jet under the state of the stable posture that goes at express speed of less for the deviation on arrival opportunity of weft yarn Y, weft yarn, gather for the such table of Fig. 5.

Database 31 shown in Fig. 5 represents as an example, be used in that transverse axis provides F1 ~ Fn as textiles condition, the table that to provide T1 ~ Tn as weaving condition at the longitudinal axis makes, record n-0, n-1 of the arrangement of vice nozzle 17 ~ n-6 at the crossover location of transverse axis and the longitudinal axis.Such as, show: with in textiles condition F1, the woven situation of weaving condition T1, represent that the arrangement of the auxiliary jet 17 of the n-4 rejected at 4 auxiliary jet intervals is the arrangement making picking stabilisation, optimum that energy-saving effect is the highest.In addition, n-0 represents not by the arrangement of standard that auxiliary jet 17 interval is rejected, and n is denting amplitude according to reed 4 and different real numbers.In addition, in the arrangement of the optimum represented by n-1 ~ n-6, the structure of the display of the group belonging to auxiliary jet 17 that the interval can also carried out in position, i.e. the auxiliary jet group 6A ~ 6H of the auxiliary jet 17 of interval rejecting is rejected preferably is made.

Based on Fig. 2 ~ Fig. 4, the effect of present embodiment is described.Fig. 2 represents in display unit 26 by pressing the 1st display frame 33 of specification button 32 and display.1st display frame 33 shows textiles specification display part 34, and described textiles specification display part 34 shows yarn kind 1, yarn kind 2, the weaving condition such as textiles condition and rotating speed such as weft count and textiles tissue of color 1 ~ color 4 of the yarn kind 1 of textiles kind, warp thread kind, weft yarn kind, the veil of warp thread and filling, yarn kind 2, warp count, weft yarn Y.

In addition, the 1st display frame 33 shows assigned picture display part 35, described assigned picture display part 35 shows the project representing the project of kind of reed 4 and the kind of the arrangement of vice nozzle 17.Assigned picture display part 35 possess the project being transfused to standard reed or special reed as reed kind input display field 36 and as the arrangement of auxiliary jet kind and be transfused to the input display field 37 of standard or energy-conservation project.In the present embodiment, programme, if show the 1st display frame 33 to make to press specification button 32, then automatically input in the input display field 36 of reed kind and show the project of standard reed, automatically input and show energy-conservation project in the input display field 37 of auxiliary jet.

In addition, also can be configured to, carry out programming the input display field 36,37 of assigned picture display part 35 is shown with empty hurdle in the 1st display frame 33, can newly input required project.In addition, as long as it is just passable at least to show assigned picture display part 35 in the 1st display frame 33, textiles specification display part 34 might not need display, also can be configured to, can show with other display frame.

In the 1st display frame 33, when being judged as that the reed kind of assigned picture display part 35 can be the project of standard reed, the kind of the arrangement of auxiliary jet can be energy-conservation project according to the content of textiles specification display part 34, operator presses OK button 38.If operation OK button 38, then the database 31 of master control part 21 retrieve stored, selects the arrangement of the auxiliary jet 17 corresponding with the textiles condition be presented on textiles specification display part 34 and weaving condition.Then, by the instruction from master control part 21, the 1st display frame 33 of display unit 26 is switched to the 2nd display frame 39 shown in Fig. 3, the arrangement of selected auxiliary jet 17 is carried out figure display by the 2nd display frame 39.

Such as, in the database 31 shown in Fig. 5, if the textiles condition be presented on textiles specification display part 34 is F1, weaving condition is T1, the arrangement of then select to be recorded in the n-4 on position that F1 axle and T1 axle intersect, rejecting by 4 auxiliary jet 17 intervals is optimum, is presented at by the spread geometry of n-4 auxiliary jet 17 in the 2nd display frame 39.

Be presented in the arrangement of the auxiliary jet 17 in the 2nd display frame 39 at figure, each 1 auxiliary jet 17 of auxiliary jet group 6E ~ auxiliary jet group 6H is surrounded by with hatching, indicates and rejects amounting to 4 auxiliary jet 17 intervals.In addition, the auxiliary jet group represented by 6J ~ 6S is all surrounded by with hatching, and this represents, when the denting amplitude of reed 4 is 190cm, only use 8 groups of auxiliary jet group 6A ~ 6H, other auxiliary jets group 6J ~ 6S is not used.In addition, in the 2nd display frame 39, show the projects such as denting amplitude, energy-conservation specification, rotating speed, but these projects are with reference to display, also can omit.

Operator shows based on the figure of the 2nd display frame 39, carries out operation auxiliary jet 17 being adjusted to the arrangement shown in Fig. 4 from the arrangement shown in Fig. 1.The adjustment operation of the arrangement of auxiliary jet 17 in auxiliary jet group 6E ~ 6H, pulling down Fig. 3 one by one with the auxiliary jet 17 of answering interval to reject that hatching represents.The pipe arrangement 9 be connected on the auxiliary jet 17 pulled down is blocked, prevents compressed-air actuated leakage.Then, move up in picking side, adjust and fix, to make all the other 3 auxiliary jets 17 equidistantly to arrange.By carrying out the adjustment of the display based on Fig. 3, can to the textiles as object, auxiliary jet 17 be arranged as optimum state and weave.

In the 2nd display frame 39, with arrival opportunity of figure display weft yarn Y and the most stable and arrangement of the auxiliary jet 17 of the optimum of the energy-conservation specification of compressed-air actuated consumes least of posture of going at express speed.Operator can show by figure the arrangement of optimum easily confirming auxiliary jet 17, can simply and suitably carry out the adjustment of the arrangement of auxiliary jet 17.

Fig. 7 and Fig. 8 represents the example of the Xiang Mingda inputted by the input display field 37 of the kind of the arrangement to the input display field 36 of reed kind and auxiliary jet in the assigned picture display part 35 of the 1st display frame 33.In the 1st display frame 33 of Fig. 7, when being judged as the use of reed kind preferably special reed 4B according to the textiles condition of textiles specification display part 34 and weaving condition, input display field 36 is inputted to the project of special reed, input display field 37 is inputted to the project of standard, press OK button 38.

In master control part 21, based on the input signal from OK button 38, the database 31 of retrieval Fig. 5, uses special reed 4B, and selects the arrangement of the condition consistent with weaving condition and auxiliary jet 17 corresponding to textiles condition.Such as, in database 31, the n-0 on the position that the longitudinal axis selecting to be recorded in the transverse axis of the condition of special reed 4B and the consistent condition T3 of the weaving condition condition F2 consistent with textiles intersects is as the arrangement of the optimum of auxiliary jet 17.

Then, the 1st display frame 33 of Fig. 7 is switched to the 2nd display frame 39 of Fig. 8 by master control part 21, the arrangement n-0 of figure display auxiliary jet 17 in the 2nd display frame 39.Arrangement n-0 is not by the state that auxiliary jet 17 interval is rejected, and in the 2nd display frame 39, auxiliary jet group 6A ~ 6H is as shown in Figure 1 such, the arrangement of the standard of figure display auxiliary jet 17.In the 2nd display frame 39, show the projects such as denting amplitude, standard specification, rotating speed, but these projects are with reference to display, also can omit.Operator confirms the figure display of the 2nd display frame 39, can judge the arrangement not needing to adjust auxiliary jet 17, but when being rejected at multiple auxiliary jet 17 interval in the arrangement of current auxiliary jet 17, need the arrangement being adjusted to standard.

In addition, when using special reed 4B, be zero because number is rejected at the interval of auxiliary jet 17 substantially, so master control part 21 also can make the structure of arrangement as the database purchase different from database 31 that will interval do not had to reject the standard of auxiliary jet 17.Thus, when have selected the project of special reed in the kind of reed, master control part 21 can not retrieve the database 31 of Fig. 5, and from other database, directly select the arrangement of the standard do not rejected at auxiliary jet 17 interval, is shown in the 2nd display frame.

In the 2nd display frame 39 of Fig. 8, with arrival opportunity of figure display weft yarn Y and the most stable and arrangement of the auxiliary jet 17 of the optimum of compressed-air actuated consumes least of posture of going at express speed.Operator can show the arrangement of the optimum confirming auxiliary jet 17 simply by figure.

The present application is not limited to the structure of above-mentioned embodiment, can carry out various change, can implement as follows in the scope of the purport of the present application.

(1) arrangement of the selected auxiliary jet 17 represented in the 2nd display frame 39 of Fig. 3 and Fig. 8 is not limited to figure display, also can be shown by additive method.Such as, also can be configured to, by auxiliary jet group 6A ~ 6S numerical division, belong to which auxiliary jet group with the auxiliary jet 17 that numerical value display interval is rejected.

(2) from the 1st display frame 33 to the switching of the 2nd display frame 39, may not be automatically, and be configured to, by the operation of button etc. with manual switchover.

(3) be configured to, the program of the arrangement of the database 31 of Fig. 5 and the auxiliary jet 17 selected by display is stored in master control part 21, controls, but also can be configured to, undertaken storing, controlling by picking control part 20.

(4) control device 19 is made up of picking control part 20 and master control part 21, but also can be made up of single control part.

(5) the auxiliary jet group 6A ~ 6H shown in Fig. 1 is connected to the structure on single secondary watertight aircase 13, but also can make the structure auxiliary jet group in downstream, such as auxiliary jet group 6G, 6H be connected on the secondary watertight aircase different from secondary watertight aircase 13.

(6) in assigned picture display part 35, the input display field 37 of standard or energy-conservation project also only can be set as the project of the kind of the arrangement of vice nozzle.

Description of reference numerals

1 picking mechanism

4 reeds

4A standard reed

The special reed of 4B

6A ~ 6S auxiliary jet group

17 auxiliary jets

19 control device

20 picking control parts

21 master control part

26 display unit

31 databases

33 the 1st display frames

34 textiles specification display parts

35 assigned picture display parts

36,37 input display fields

39 the 2nd display frames.

Claims (4)

1. the arrangement selecting arrangement of the auxiliary jet of an air-jet loom, described air-jet loom possesses picking mechanism, control device and display unit, described picking mechanism is by the compressed air delivery of the weft yarn of the compressed air picking by spraying from main burner by spraying from the multiple auxiliary jets arranged along picking direction, described control device stores multiple textiles condition and weaving condition, described display unit has Presentation Function and input function, the feature of the arrangement selecting arrangement of the auxiliary jet of described air-jet loom is

Above-mentioned display unit has the 1st display frame and the 2nd display frame, and described 1st display frame can carry out input and the display of the project of the kind of the arrangement of vice nozzle, and described 2nd display frame can carry out the display of the arrangement of auxiliary jet;

Above-mentioned control device stored data base, described database is about the arrangement of the above-mentioned auxiliary jet corresponding with above-mentioned multiple textiles condition and weaving condition difference, and above-mentioned control device is based on the project of the kind of the arrangement of the above-mentioned vice nozzle in above-mentioned 1st display frame, the arrangement of the above-mentioned auxiliary jet corresponding with 1 textiles condition and weaving condition is selected from above-mentioned database, by the list view of selected above-mentioned auxiliary jet in above-mentioned 2nd display frame

The project of the kind of the arrangement of above-mentioned vice nozzle is standard and energy-conservation.

2. the arrangement selecting arrangement of the auxiliary jet of air-jet loom as claimed in claim 1, is characterized in that,

Above-mentioned 1st display frame can also carry out input and the display of the project of the kind representing reed except the project of the kind of the arrangement of above-mentioned vice nozzle;

The project of the kind of above-mentioned expression reed is standard reed and the special reed compared above-mentioned standard reed above-mentioned auxiliary jet can be made to configure closer to reed.

3. the arrangement selecting arrangement of the auxiliary jet of air-jet loom as claimed in claim 1 or 2, is characterized in that,

In above-mentioned 2nd display frame, the spread geometry of selected above-mentioned auxiliary jet is shown.

4. the arrangement selecting arrangement of the auxiliary jet of air-jet loom as claimed in claim 1 or 2, is characterized in that,

When above-mentioned control device is transfused to the project of the kind of the arrangement of above-mentioned vice nozzle in above-mentioned 1st display frame, above-mentioned 2nd display frame of display automatically in above-mentioned display unit.