CN105155111A - Adjustable warp beam rear beam device - Google Patents

Abstract

An adjustable warp beam rear beam device comprises a main rack wallboard and a warp beam rear beam and further comprises a fixed substrate connected to the main rack wallboard, a movable substrate connected to the fixed substrate, a rotating beam and a swing beam, wherein the rotating beam and the swing beam are matched with the warp beam rear beam. The warp beam rear beam and the rotating beam are both connected to the movable substrate. The rotating beam and the swing beam are jointly connected with a linkage swing arm which is connected with a warp yarn tension sensing mechanism. The warp yarn tension sensing mechanism limits the swing action of the linkage swing arm. A first transverse displacement groove and a second transverse displacement groove are formed in the fixed substrate. A longitudinal displacement groove is formed in the movable substrate. A transverse adjusting mechanism and a longitudinal adjusting mechanism are further connected between the movable substrate and the fixed substrate. The adjustable warp beam rear beam device is compact in structure and convenient to use, the warp breakage rate is substantially reduced, and the quality of woven fabric is greatly improved.

Description

A kind of adjustable type warp beam back beam device

Technical field

The present invention relates to technical field of textile machine, specifically a kind of adjustable type warp beam back beam device.

Background technology

Such as Rapier looms, in the textile machines such as air-jet loom, there is the structure of the warp beam back rest, the warp beam back rest plays simultaneously and draws warp let-off yarn and the effect helping tensioning warp thread, the current warp beam back rest arranges very simple, such as application number is the double-beam let-off motion of a kind of Rapier looms disclosed in the patent of 201320834746.3, comprise and be fixed on the first warp let-off assembly and the second warp let-off assembly in frame, the first described warp let-off assembly is by the first warp axis, the upper back rest and upper drive system composition, second warp let-off assembly is by the second warp axis, the lower back rest and lower drive system composition, the first described warp axis is horizontally fixed in frame, second warp axis is set in parallel in below the first described warp axis, the two ends of the second described warp axis are fixed on the fixed support independent of frame, the upper back rest and the lower back rest are fixed in frame, the described upper back rest is positioned at the below of the first warp axis, the lower back rest is positioned at the top of the second warp axis, but this let-off motion function singleness, in weaving process, cracked ends phenomenon still can frequently occur, the fabric quality knitted is also poor.

Summary of the invention

Technical purpose of the present invention is to provide a kind of adjustable type warp beam back beam device, solves simple and crude, the function singleness of traditional structure, knits to obtain appearance of fabrics and second-rate problem.

Concrete technical scheme of the present invention is as follows: a kind of adjustable type warp beam back beam device, comprise mainframe wallboard and the warp beam back rest, also comprise be connected to described mainframe wallboard determine substrate, be connected to described determine substrate dynamic substrate and for coordinating cant beam and the walking beam of the described warp beam back rest, the described warp beam back rest, described cant beam is connected to described dynamic substrate, described cant beam, described walking beam is connected with interlock swing arm jointly, described interlock swing arm is connected with warp tension sensing mechanism, the wobbling action of described interlock swing arm is limited by described warp tension sensing mechanism, describedly determine substrate and be provided with the first lateral displacement groove and the second lateral displacement groove, described dynamic substrate is provided with length travel groove, described dynamic substrate and describedly determine substrate and be also connected with lateral adjustment and longitudinal adjusting mechanism.

Applicant finds after development test repeatedly, in the warp let-off process of tradition let-off motion, cracked ends phenomenon occurs frequently relevant with the setting of the warp beam back rest and function mode, the tradition single setting of the warp beam back rest and fixing dead on the wallboard of frame, displacement roughly can only be carried out by dismounting completely and reinstall roughly adjustment in the hope of obtaining warp tension, warp thread is around being fed forward in process to the described warp beam back rest, only control tension force with self toughness is auxiliary, at jacquard, heald frame, when the first-class parts of sword carry out weaving work, have and constantly back and forth weave motion, be reacted on warp thread is exactly that warp thread is pullled by constantly flexible, the tradition warp beam back rest itself fixes, adjustability is also limited to very much, it is proper and even that warp tension is difficult to control, therefore be easy to occur cracked ends, the fabric face out-of-flatness of knitting, striped unshapeliness, structure is not compacted, weave shrinkage and washing shrinkage are made a return journey and are differed greatly, product quality can not get effective guarantee.The present invention is provided with described cant beam and described walking beam, and be combined with described interlock swing arm and described warp tension sensing mechanism, warp thread rotate again described walking beam or the described cant beam that first rotates of the described warp beam back rest of can selecting first to rotate rotates described walking beam again, warp thread in work is by walking beam described in external force pressure during flexible pullling, thus make described linkage swinging arm straps move the rotation of described cant beam, and described interlock swing arm is undertaken coordinating by described warp tension sensing mechanism and limits self amplitude of fluctuation, whole process makes the tension force of warp thread when weaving be in variable tolerance range all the time, and even tension, described warp tension sensing mechanism can coordinate interlock swing arm to record warp tension, and can described interlock swing arm be made to obtain corresponding suitable adjustment according to suitable warp tension, described lateral adjustment and described longitudinal adjusting mechanism can regulate the position of whole described dynamic substrate according to the swing of the measurement of described warp tension sensor and described interlock swing arm, the locus variation of the described warp beam back rest, described cant beam and described walking beam is convenient in the movement of described dynamic substrate, an initial position is found to reach better effect to make the swing of described interlock swing arm, it is above-mentioned that to arrange when all making warp yarn supplying residing tension force comparatively suitable and evenly, not easily there is cracked ends, knit fabric face is smooth, bar shadow is clear shrewd, and structure is well-balanced compacts.

As preferably, between described cant beam and described walking beam, being provided with the first supporting section for mutually propping up, preventing described walking beam to be bent distortion by described first supporting section.

As preferably, described interlock swing arm is provided with first hole clipping of fixing with described cant beam fit, second hole clipping of fixing with described walking beam fit and the transmission contact for coordinating with described warp tension sensing mechanism.

Described interlock swing arm drives described cant beam and described walking beam simultaneously, and power is conducted to described warp tension sensing mechanism by described transmission contact.

As preferably, described interlock swing arm be also provided with folding seam and be located at the perforate that both sides are stitched in described folding, described folding seam is connected with described first hole clipping, locking plate is inserted respectively in described perforate, described locking plate locks connection mutually by bolt, and the spacing described folding being stitched by described locking plate reduces or increases.

Described folding seam makes described first hole clipping be convenient to carry out initial fit, and after fit, has a deformation quantity carry out contraction fastening, and easy accessibility, fixed effect is good.

As preferably, be also provided with the arm of stability being fixed on described cant beam or walking beam between described interlock swing arm, the described arm of stability has the socket interted for described locking plate.

The described arm of stability prevents described interlock swing arm off normal, displacement.

As preferably, described warp tension sensing mechanism comprising tension pick-up, being connected to the drive link of described tension pick-up and being located at the driving spring for coordinating with described interlock swing arm on described drive link.

As preferably, described driving spring one end is connected with restriction footstock and the other end is connected with the induction base with described transmission contact, and described restriction footstock is fixed on described drive link, and described induction base can be movable along described drive link.

The initial position of described restriction footstock on described drive link can be selected according to suitable tension force, thus changes the position of described driving spring and described induction base, the wobbling action of described interlock swing arm is changed thereupon, preferably swings effect to obtain.

As preferably, the axial line of described cant beam and the axial line of the described warp beam back rest form plane one, the angular range 0 ~ 20 degree of described plane one and horizontal plane.

As preferably, the axial line of described cant beam and the axial line of described walking beam form plane two, and described plane two is 50 ~ 70 degree with the angular range of horizontal plane.

Applicant is through development test discovery repeatedly, if the angle number of degrees a of described plane one and horizontal plane, if the angle number of degrees b of described plane two and horizontal plane, the too large or too little meeting of b of a makes to swing unstable, warp thread also can make when being walked around by the described warp beam back rest initial on through tension recovery, easily make adjacent yarn adhesion unclear; The too little or b warp thread that too conference makes of a amplitude that rotates is large, through high strung of the tension on initial, easily makes warp break; A and b arranges and improperly described cant beam also can be made in swing process to contact warp thread, more easily causes cracked ends, bloody stool during menstruation, greatly affects fabric quality.And the angle set by this programme overcomes above-mentioned shortcoming, maintain one suitable initial upper through tension force, the problem that described cant beam also can not be had to contact warp thread occurs, can good fit described interlock swing arm and described warp thread controlling organization work.

As preferably, described lateral adjustment comprises side and is connected to described dynamic substrate and opposite side is connected in the first fastening bolt of described first lateral displacement groove and side is connected to described dynamic substrate and opposite side is connected in the second fastening bolt of described second lateral displacement groove.

As preferably, described longitudinal adjusting mechanism comprises the retaining thread cover be located on described dynamic substrate, be located at and describedly determine the supporting seat between substrate and described dynamic substrate and insert described retaining thread overlap and be against the adjusting screw(rod) on described supporting seat, described first fastening bolt is connected on described length travel groove, and described supporting seat is connected on described first fastening bolt.

Just the transverse shifting of described dynamic substrate can be realized after pine adjusted by described first fastening bolt and described second fastening bolt; After pine adjusted by described first fastening bolt and described second fastening bolt, utilize described adjusting screw(rod) to make described dynamic substrate carry out upper lower curve with described second fastening bolt place for fixed point and rotate.

As preferably, between described dynamic substrate, be also connected with bearing bar.

Described bearing bar shares the pressure that described dynamic substrate bears, and strengthens structural strength.

As preferably, the second supporting section for mutually propping up is provided with between described bearing bar and described cant beam, described second supporting section has relative sliding face when rotating for described cant beam, prevents described cant beam to be bent at work by described second supporting section.

Technological merit of the present invention is described adjustable type warp beam back beam device compact conformation, easy to use, described cant beam, described walking beam and described warp tension sensing mechanism coordinate adjustment warp tension jointly, the described warp beam back rest can be determined substrate coordinate and convenient accurately adjusting position auxiliary adjustment warp tension simultaneously with described by described dynamic substrate, ensure that warp tension is suitable and even, significantly reduce cracked ends rate, make to knit the quality of fabric is improved greatly, clear shrewd, the structure of the smooth solid of fabric face, bar shadow is compacted well-balanced.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the embodiment of the present invention one and embodiment two;

Fig. 2 is the partial structurtes schematic diagram of the embodiment of the present invention one and embodiment two;

Fig. 3 is the structural representation of substrate dynamic described in the embodiment of the present invention and embodiment two;

Fig. 4 is for determining the structural representation of substrate described in the embodiment of the present invention and embodiment two;

Fig. 5 is the structural representation of the swing arm that links described in the embodiment of the present invention and embodiment two;

Fig. 6 is the structural representation of the arm of stability described in the embodiment of the present invention one and embodiment two;

Fig. 7 is the partial structurtes schematic diagram of the embodiment of the present invention two;

Fig. 8 is the structural representation of the first supporting section described in the embodiment of the present invention two;

Fig. 9 is the structural representation of the second supporting section described in the embodiment of the present invention two;

Number corresponding each toponym in figure to be respectively: 1-mainframe wallboard, the 2-warp beam back rest, 3-determines substrate, 31-first lateral displacement groove, 32-second lateral displacement groove, 4-moves substrate, 41-first fastening bolt, 42-second fastening bolt, 43-length travel groove, 44-retaining thread cover, 5-cant beam, 6-walking beam, 7-warp tension sensing mechanism, 71-tension pick-up, 72-drive link, 73-driving spring, 731-limits footstock, 732-responds to base, 74-links swing arm, 741-first hole clipping, 742-second hole clipping, 743-transmission contact, 744-folding is stitched, 745-perforate, 746-locking plate, the 75-arm of stability, 751-socket, 8-supporting seat, 9-adjusting screw(rod), 10-bearing bar, 101-first supporting section, 1011-geometrical clamp, 1012-propclip, 102-second supporting section, 1021-relative sliding folder section, 1022-geometrical clamp section.

Detailed description of the invention

Below in conjunction with accompanying drawing, by specific embodiment, the invention will be further described:

Embodiment one: see Fig. 1 ~ Fig. 6, a kind of embodiment of adjustable type warp beam back beam device, comprise mainframe wallboard 1 and the warp beam back rest 2, also comprise and be connected to determining substrate 3, being connected to the dynamic substrate 4 of determining substrate 3 and for coordinating cant beam 5 and the walking beam 6 of the warp beam back rest 2 of mainframe wallboard 1, the warp beam back rest 2, cant beam 5 are connected to dynamic substrate 4, cant beam 5, walking beam 6 are connected with interlock swing arm 74 jointly, interlock swing arm 74 is connected with warp tension sensing mechanism 7, is limited the wobbling action of interlock swing arm 74 by warp tension sensing mechanism 7; Determine substrate 3 and be provided with the first lateral displacement groove 31 and the second lateral displacement groove 32, move substrate 4 and the first lateral displacement groove 31 and the second lateral displacement groove 32 and be connected with lateral adjustment, dynamic substrate 4 and the first lateral displacement groove 31 are also connected with longitudinal adjusting mechanism.The axial line of cant beam 5 and the axial line of the warp beam back rest 2 form plane one, and plane one is preferably 10 degree with the angle of horizontal plane.The axial line of cant beam 5 and the axial line of walking beam 6 form plane two, and plane two is preferably 60 degree with the angle of horizontal plane.Bearing bar 10 is also connected with between dynamic substrate 4.

Interlock swing arm 74 is provided with first hole clipping 741 of fixing with cant beam 5 fit, second hole clipping 742 of fixing with walking beam 6 fit and the transmission contact 743 for coordinating with warp tension sensing mechanism 7.Interlock swing arm 71 be also provided with folding seam 744 and be located at the perforate 745 that 744 both sides are stitched in folding, folding seam 744 is connected with the first hole clipping 741, locking plate 746 is inserted respectively in perforate 745, locking plate 746 locks connection mutually by bolt, and the spacing making folding stitch 744 by locking plate 746 reduces or increases.First hole clipping 741 stitches 744 opposite positions with folding bent cutaway is set, with folding stitch 744 be engaged in and tighten up time have a deformation quantity, prevent the first hole clipping impaired when holding cant beam 5 tightly.Also be provided with the arm of stability 75 being fixed on cant beam 5 or walking beam 6 between interlock swing arm 71, the arm of stability 75 has the socket 751 interted for locking plate 746.Routine is provided with two interlock swing arms 71, and the perforate 745 of two interlock swing arms 71 is inserted at locking plate 746 two ends respectively, and locking plate about 746 points two panels are also connected by bolt-locking.Locking plate 746 can be inserted through socket 751, and the arm of stability 75 can be fixing or fixing with walking beam 6 with cant beam 5, fixed further the position of locking plate 746 and interlock swing arm 71.The arm of stability 75 routine is arranged to be had and embraces ring 752 for holding the opening being fixed on cant beam 5 tightly, and the arm of stability 75 is also provided with 752 open seam be connected 753 of guaranteeing replacement with opening, and socket 751 is positioned at open seam 753 both sides.

Warp tension sensing mechanism 7 comprising tension pick-up 71, being connected to the drive link 72 of tension pick-up 71 and being located at the driving spring 73 for coordinating with interlock swing arm 74 on drive link 72.Driving spring 73 one end is connected with restriction footstock 731 and the other end is connected with the induction base 732 contacted with transmission contact 743, and restriction footstock 731 is fixed on drive link 72, and induction base 732 can be movable along drive link 72.Restriction footstock 731 is fixedly connected on drive link 72 by bolt, adjusts the rear shift position of pine as required; Induction base 732 is connected with driving spring 73 and is not connected with drive link 72, and himself move along drive link 72, namely routine is set to be socketed on drive link 72, can arrange sliding gasket between induction base 732 and drive link 72.Induction base 732 is provided with and well contacts recess with transmission contact 743, and recess is arch, coordinates transmission contact 743 along with the swing path occurred when swinging.

Lateral adjustment comprises side and is connected to dynamic substrate 4 and opposite side is connected in the first fastening bolt 41 of the first lateral displacement groove 31 and side is connected to dynamic substrate 4 and opposite side is connected in the second fastening bolt 42 of the second lateral displacement groove 32.Can move on the first lateral displacement groove 31 and the second lateral displacement groove 32 respectively after pine adjusted by first fastening bolt 41 and the second set bolt 42, drive whole dynamic substrate 4 to carry out transverse shifting.

Length travel mechanism comprise be located on dynamic substrate 4 and be connected with described first fastening bolt 41 length travel groove 43, the retaining thread cover 44 be located on dynamic substrate 4, be located at the supporting seat 8 determined between substrate 3 and dynamic substrate 4 and insert retaining thread and overlap 44 and be against the adjusting screw(rod) 9 on supporting seat 8, supporting seat 8 is connected on the first fastening bolt 41.After pine adjusted by first fastening bolt 41 and the second fastening bolt 42, rotate adjusting screw(rod) 9, because supporting seat 8 withstands adjusting screw(rod) 9 in below, therefore retaining thread cover 44 is walked upward relative to adjusting screw(rod) 9, namely dynamic substrate 4 is moved upward, whole dynamic substrate 4 can be done in rotary moving by point centered by the second fastening bolt 42, and length travel groove 43 coordinates the first lateral displacement groove 31, has a curved path when the first fastening bolt 42 is moved.

Embodiment two: again see Fig. 7 ~ Fig. 9, the main distinction of the present embodiment and embodiment one is to be provided with the first supporting section 101 for mutually propping up between cant beam 5 and walking beam 4, prevents walking beam 4 by the warp thread press-bending distortion in work by the first supporting section 101.First supporting section 101 has the geometrical clamp 1011 being fixed on cant beam 5 and the propclip 1012 being fixed on walking beam 4.The second supporting section 102 for mutually propping up is provided with between bearing bar 10 and cant beam 5, prevent cant beam 5 to be bent at work by the second supporting section 102, the second supporting section 102 has the relative sliding folder section 1021 clasping described cant beam 5 and the geometrical clamp section 1022 being fixed on bearing bar 10.

Claims (10)

1. an adjustable type warp beam back beam device, comprise mainframe wallboard (1) and the warp beam back rest (2), it is characterized in that: also comprise be connected to described mainframe wallboard (1) determine substrate (3), be connected to described determine substrate (3) dynamic substrate (4) and for coordinating cant beam (5) and the walking beam (6) of the described warp beam back rest (2), the described warp beam back rest (2), described cant beam (5) is connected to described dynamic substrate (4), described cant beam (5), described walking beam (6) is connected with interlock swing arm (74) jointly, described interlock swing arm (74) is connected with warp tension sensing mechanism (7), the wobbling action of described interlock swing arm (74) is limited by described warp tension sensing mechanism (7), describedly determine substrate (3) and be provided with the first lateral displacement groove (31) and the second lateral displacement groove (32), described dynamic substrate (4) is provided with length travel groove (43), and described dynamic substrate (4) is determined substrate (3) be also connected with lateral adjustment and longitudinal adjusting mechanism with described.

2. a kind of adjustable type warp beam back beam device according to claim 1, is characterized in that: described interlock swing arm (74) is provided with first hole clipping (741) fixing with described cant beam (5) fit, second hole clipping (742) fixing with described walking beam (6) fit and the transmission contact (743) for coordinating with described warp tension sensing mechanism (7).

3. a kind of adjustable type warp beam back beam device according to claim 2, it is characterized in that: described interlock swing arm (71) is also provided with folding seam (744) and is located at the perforate (745) that (744) both sides are stitched in described folding, described folding seam (744) is connected with described first hole clipping (741), locking plate (746) is inserted respectively in described perforate (745), described locking plate (746) locks connection mutually by bolt, and the spacing making described folding stitch (744) by described locking plate (746) reduces or increases.

4. a kind of adjustable type warp beam back beam device according to claim 3, it is characterized in that: be also provided with the stabilization (75) being fixed on described cant beam (5) or walking beam (6) between described interlock swing arm (71), described stabilization (75) has the socket (751) interted for described locking plate (746).

5. a kind of adjustable type warp beam back beam device according to Claims 2 or 3 or 4, is characterized in that: described warp tension sensing mechanism (7) comprising tension pick-up (71), being connected to the drive link (72) of described tension pick-up (71) and being located at the driving spring (73) for coordinating with described interlock swing arm (74) on described drive link (72).

6. a kind of adjustable type warp beam back beam device according to claim 5, it is characterized in that: described driving spring (73) one end is connected with restriction footstock (731) and the other end is connected with the induction base (732) contacted with described transmission contact (743), described restriction footstock (731) is fixed on described drive link (72), and described induction base (732) can be movable along described drive link (72).

7. a kind of adjustable type warp beam back beam device according to claim 1, is characterized in that: the axial line of described cant beam (5) and the axial line of the described warp beam back rest (2) form plane one, the angular range 0 ~ 20 degree of described plane one and horizontal plane.

8. a kind of adjustable type warp beam back beam device according to claim 1 or 7, is characterized in that: the axial line of described cant beam (5) and the axial line of described walking beam (6) form plane two, and described plane two is 50 ~ 70 degree with the angular range of horizontal plane.

9. a kind of adjustable type warp beam back beam device according to claim 1, is characterized in that: described lateral adjustment comprises side and is connected to described dynamic substrate (4) and opposite side is connected in first fastening bolt (41) of described first lateral displacement groove (31) and side is connected to described dynamic substrate (4) and opposite side is connected in second fastening bolt (42) of described second lateral displacement groove (32).

10. a kind of adjustable type warp beam back beam device according to claim 9, it is characterized in that: described longitudinal adjusting mechanism comprises the retaining thread cover (44) be located on described dynamic substrate (4), be located at and describedly determine the supporting seat (8) between substrate (3) and described dynamic substrate (4) and insert described retaining thread cover (44) and be against the adjusting screw(rod) (9) on described supporting seat (8), described first fastening bolt (41) is connected on described length travel groove (43), and described supporting seat (8) is connected on described first fastening bolt (41).