CN211284751U - Movable multi-pump nozzle structure applied to jet loom - Google Patents

Abstract

A movable multi-pump nozzle structure applied to an air jet loom comprises a loom frame, a transmission main shaft, a fixed main nozzle and a swinging main nozzle, wherein the transmission main shaft is positioned inside the loom frame, an air pump compressor is arranged inside a side driving cabinet, a transmission belt pulley is connected to the side end of the air pump compressor, a movable connecting rod and a side movable rod are arranged outside the fixed main nozzle, telescopic movable beams are arranged at the upper ends of the movable connecting rod and the side movable rod, a limiting sliding groove is arranged on the outer side of a movable mounting seat in a fit manner, and a movable limiting frame is arranged at the rear end of the fixed main nozzle; this be applied to movable many pumps nozzle structure of jet-propelled loom is provided with the side drive cabinet of integration and synchronous drive's air pump compressor, and the cooperation can be removed the fixed main nozzle of adjustment in a flexible way and use, can improve the compact structure nature and the use flexibility of device, when keeping steady operation, convenient maintenance operation.

Description

Movable multi-pump nozzle structure applied to jet loom

Technical Field

The utility model relates to a relevant technical field of textile processing specifically is a be applied to jet loom's movable many pumps nozzle structure.

Background

The loom needs to draw weft yarns to penetrate through a shed during cloth processing, the weft yarns are woven to form complete cloth in a matching mode, due to the fact that the drawing speed of a traditional loom shuttle structure is limited, existing textile processing is increasingly conducted through shuttleless looms such as an air jet loom and the like to conduct textile production operation, the air jet loom can draw the weft yarns through air flow, weft insertion efficiency is effectively improved, and weft insertion rate is improved.

However, in the use process of the existing air jet loom, a plurality of looms generally supply air directly through an air supply station, which is not only inconvenient for flexible use of a single loom, but also requires a larger production space occupied by an external air supply mechanism, a bobbin holder, a weft accumulator and the like, and is inconvenient for on-line and maintenance when a multi-weft nozzle is used, and meanwhile, when the multi-nozzle structure is used, a yarn lead is easily influenced by vibration to carry out weft insertion, and like a main nozzle device of the air jet loom with a Chinese patent authorization publication No. CN104420059B, the vibration of the main nozzle is restrained by a certain fixed nozzle retaining part, but the structure only plays a restraining role, the yarn itself is still influenced by a certain vibration, and meanwhile, the additional fixed nozzle retaining part influences the flexibility of the whole structure, is not convenient for flexible maintenance of the device, and influences the normal use of the device.

Aiming at the problems, the nozzle structure is innovatively designed on the basis of the original nozzle structure applied to the jet loom.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: a movable multi-pump nozzle structure for an air jet loom is provided.

The technical scheme of the utility model is that: a movable multi-pump nozzle structure applied to an air jet loom comprises a loom frame, a transmission main shaft, a fixed main nozzle and a swinging main nozzle, wherein a weaving mechanism is arranged in the middle of the loom frame, a moving wheel is installed at the bottom of the loom frame, the transmission main shaft is positioned in the loom frame, a driving motor is installed at the side end of the transmission main shaft, a side driving cabinet is arranged on the outer side of the driving motor, an air pump compressor is arranged in the side driving cabinet, a transmission belt wheel is connected to the side end of the air pump compressor, a bobbin bracket is arranged above the side of the side driving cabinet, a weft storage rack is arranged on the side surface of the bobbin bracket, the fixed main nozzle is positioned on the side surface of the weft storage rack, a movable connecting rod and a side movable rod are arranged on the outer side of the fixed main nozzle, and a movable lantern ring is arranged on the outer side, and the side of the movable lantern ring is connected with supporting spring, the outside of side movable rod is provided with the sliding seat, the upper end of swing joint pole and side movable rod all is provided with flexible walking beam, and the laminating of the outside of flexible walking beam is provided with the laminating guide rail, the lower extreme of swing joint pole and side movable rod is provided with movable mounting seat, and the laminating of the outside of movable mounting seat is provided with spacing spout, the front end of fixed main nozzle is provided with the feed carrier, and the rear end of fixed main nozzle is provided with the spacing frame of activity, the swing main nozzle is located the side of fixed main nozzle, and the outside of fixed main nozzle and swing main nozzle has all seted up the air pipe joint.

The side driving cabinet and the loom frame are of an integrated structure, the bobbin support and the weft accumulator frame are both connected with the upper surface of the side driving cabinet through bolts, the driving motor and the air pump compressor are both located inside the side driving cabinet, and meanwhile the output end of the driving motor and the input end of the air pump compressor are connected with each other through a transmission belt pulley.

The movable connecting rod and the side movable rod are symmetrically distributed on the left side and the right side of the fixed main nozzle, the fixed main nozzle and the swing main nozzle are respectively provided with 6 main nozzles, and the 6 main nozzles are distributed in a prismatic table type structure.

The movable lantern ring is evenly distributed on the outer side of the movable connecting rod, the movable lantern ring forms a sliding structure on the outer side of the movable connecting rod, adjacent movable lantern rings are connected with each other through supporting springs, and meanwhile the rear end of the main fixed nozzle is connected with the movable connecting rod through the movable lantern ring.

The movable seats are uniformly distributed on the outer sides of the side movable rods, the movable seats form a sliding structure on the outer sides of the side movable rods, and the front ends of the fixed main nozzles are connected with the side movable rods through the movable seats.

The flexible movable beam forms sliding structure in the outer end of swing joint pole and side movable rod, and constitutes laminating sliding structure between the middle part of flexible movable beam and the laminating guide rail to the laminating guide rail is whole to be the slope structure.

The movable mounting seat forms a sliding structure on the inner side of the limiting sliding groove, the limiting sliding groove is integrally of an inclined structure, and the side ends of the movable connecting rod and the side movable rod are in threaded connection with the movable mounting seat.

The movable limiting frame comprises a laminating limiting roller, a movable mounting frame, a connecting spring, a limiting clamping block and a limiting hole, and the movable limiting frame is symmetrically distributed on the left side and the right side of the fixed main nozzle.

The laminating limiting roller forms a rotating structure on the inner side of the movable mounting frame, and the laminating limiting roller and the rear end of the fixed main nozzle are mutually laminated.

The movable mounting frame and the movable mounting seat are connected with each other through a connecting spring, the movable mounting frame and the limiting sliding groove are connected in a clamping mode through a limiting clamping block and a limiting hole, and the limiting hole is evenly distributed on the side surface of the limiting sliding groove.

The beneficial effects are that:

1. the integrated side driving cabinet and the air pump compressor which are in synchronous transmission are arranged, the air pump compressor can be directly subjected to synchronous transmission air supply through a transmission main shaft of the loom by matching with the connection transmission of the transmission belt pulley in the using process of the device, a plurality of looms are not required to perform centralized air supply through an air supply station, the independent and flexible use of a single loom is facilitated, the integrated side driving cabinet is not required to be additionally provided with an external air supply structure, the bobbin bracket and the weft storage frame can be synchronously assembled, the integral occupied area of the device is reduced, and the daily maintenance and the flexible use of the whole device are facilitated;

2. be provided with the fixed main nozzle that can remove the adjustment in a flexible way, the spacing guide of cooperation laminating guide rail and spacing spout in the use of device, can make things convenient for 6 fixed main nozzles to carry out nimble removal adjustment along extending the weft direction, be convenient for carry out nimble maintenance operation on the side drive cabinet of integration assembly, influence wiring and maintenance after avoiding reducing occupation space, and along the laminating of direction cooperation swing joint pole and side swing joint pole that extends spacing, can effectively alleviate the vibrations influence of nozzle structure, spacing frame of activity simultaneously except can wholly carrying out spacing adjustment to the fixed main nozzle that removes, can also carry out spacing flare-out through the synchronous laminating weft of the spacing roller of laminating at the in-process that removes the adjustment, make things convenient for the tensile on-line wiring connection operation of holding device.

Drawings

FIG. 1 is a front view of the main stationary nozzle and the main oscillating nozzle of the present invention;

FIG. 2 is a schematic top view of the main nozzle of the present invention;

FIG. 3 is an enlarged schematic view of a portion of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of a partial structure of the movable limiting frame of the present invention;

FIG. 5 is a schematic front view of the present invention;

FIG. 6 is a schematic side view of the present invention;

fig. 7 is the schematic view of the side driving cabinet of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-7, a movable multi-pump nozzle structure applied to an air jet loom comprises a loom frame 1, a weaving mechanism 2, a moving wheel 3, a transmission main shaft 4, a driving motor 5, a side driving cabinet 6, an air pump compressor 7, a transmission belt pulley 8, a bobbin bracket 9, a weft storage frame 10, a fixed main nozzle 11, a movable connecting rod 12, a side movable rod 13, a movable lantern ring 14, a supporting spring 15, a movable seat 16, a telescopic movable beam 17, a joint guide rail 18, a movable mounting seat 19, a limit chute 20, a yarn guide 21, a movable limit frame 22, a swing main nozzle 23 and a gas pipe joint 24, wherein the weaving mechanism 2 is arranged in the middle of the loom frame 1, the moving wheel 3 is installed at the bottom of the loom frame 1, the transmission main shaft 4 is located inside the loom frame 1, and the driving motor 5 is installed at the side end of the transmission main shaft 4, a side driving cabinet 6 is arranged outside the driving motor 5, an air pump compressor 7 is arranged inside the side driving cabinet 6, a transmission belt pulley 8 is connected with the side end of the air pump compressor 7, a bobbin bracket 9 is arranged above the side of the side driving cabinet 6, a bobbin bracket 10 is arranged on the side surface of the bobbin bracket 9, a fixed main nozzle 11 is positioned on the side surface of the bobbin bracket 10, a movable connecting rod 12 and a side movable rod 13 are arranged outside the fixed main nozzle 11, a movable lantern ring 14 is arranged outside the movable connecting rod 12, a supporting spring 15 is connected with the side end of the movable lantern ring 14, a movable seat 16 is arranged outside the side movable rod 13, telescopic movable beams 17 are arranged at the upper ends of the movable connecting rod 12 and the side movable rod 13, a fitting guide rail 18 is arranged outside the telescopic movable beams 17 in a fitting manner, and movable mounting seats 19 are arranged at the lower ends of the movable connecting rod 12 and the, and the outer side of the movable mounting seat 19 is provided with a limiting chute 20 in an attaching manner, the front end of the fixed main nozzle 11 is provided with a yarn guide 21, the rear end of the fixed main nozzle 11 is provided with a movable limiting frame 22, the swinging main nozzle 23 is positioned on the side surface of the fixed main nozzle 11, and the outer sides of the fixed main nozzle 11 and the swinging main nozzle 23 are both provided with air pipe joints 24.

The side driving cabinet 6 and the loom frame 1 of the embodiment are of an integrated structure, the bobbin support 9 and the weft accumulator frame 10 are both connected with the upper surface of the side driving cabinet 6 through bolts, the driving motor 5 and the air pump compressor 7 are both positioned inside the side driving cabinet 6, and meanwhile, the output end of the driving motor 5 and the input end of the air pump compressor 7 are connected with each other through the transmission belt pulley 8, so that the independent air pump compressor 7 of each loom can conveniently supply air, and the integrally installed air pump compressor 7, the bobbin support 9 and the weft accumulator frame 10 can effectively reduce the occupied space of the whole device.

The movable connecting rod 12 and the side movable rod 13 are symmetrically distributed on the left side and the right side of the fixed main nozzle 11, the fixed main nozzle 11 and the swing main nozzle 23 are arranged in 6 numbers, and the 6 fixed main nozzles 11 are distributed in a prismatic table type structure, so that the fixed main nozzles 11 can be conveniently movably mounted on a plurality of weft lines.

The movable lantern ring 14 is evenly distributed on the outer side of the movable connecting rod 12, the movable lantern ring 14 forms a sliding structure on the outer side of the movable connecting rod 12, the adjacent movable lantern rings 14 are connected with each other through the supporting spring 15, meanwhile, the rear end of the main fixed nozzle 11 is connected with the movable connecting rod 12 through the movable lantern ring 14, and the main fixed nozzle 11 is convenient to movably mount.

The movable seats 16 are uniformly distributed on the outer sides of the side movable rods 13, the movable seats 16 form a sliding structure on the outer sides of the side movable rods 13, the front ends of the fixed main nozzles 11 are connected with the side movable rods 13 through the movable seats 16, and the movable seats 16 are matched with the movable lantern rings 14 to keep the integral prismatic table movable structure of the fixed main nozzles 11.

The telescopic movable beam 17 forms a sliding structure at the outer ends of the movable connecting rod 12 and the side movable rod 13, a laminating sliding structure is formed between the middle part of the telescopic movable beam 17 and the laminating guide rail 18, the whole laminating guide rail 18 is of an inclined structure, and the laminating guide rail 18 is convenient to laminate and movably guide the telescopic movable beam 17.

The movable mounting seat 19 forms a sliding structure on the inner side of the limiting sliding groove 20, the limiting sliding groove 20 is integrally of an inclined structure, the side ends of the movable connecting rod 12 and the side movable rod 13 are in threaded connection with the movable mounting seat 19, the inclined movable structure of the whole main nozzle 11 is kept conveniently through the inclined guide of the inclined sliding fit guide rail 18 of the limiting sliding groove 20, and the movable mounting device is convenient to movably overhaul and process on the line.

The movable limiting frame 22 comprises a fitting limiting roller 221, a movable mounting frame 222, a connecting spring 223, a limiting fixture block 224 and a limiting hole 225, and the movable limiting frame 22 is symmetrically distributed on the left side and the right side of the fixed main nozzle 11, so that limiting adjustment of the fixed main nozzle 11 is facilitated.

The attaching limiting roller 221 forms a rotating structure on the inner side of the movable mounting frame 222, and the attaching limiting roller 221 and the rear end of the fixed main nozzle 11 are attached to each other, so that the straightening connection of the weft threads during the movement of the fixed main nozzle 11 is kept conveniently through the limiting attachment of the attaching limiting roller 221.

The movable mounting frame 222 and the movable mounting seat 19 are connected with each other through a connecting spring 223, the movable mounting frame 222 and the limiting sliding groove 20 are connected in a clamping mode through a limiting clamping block 224 and a limiting hole 225, the limiting hole 225 is evenly distributed on the side surface of the limiting sliding groove 20, and the movable limiting frame 22 is convenient to conduct limiting adjustment and simultaneously drives the laminating limiting roller 221 to laminate weft threads to conduct tension adjustment.

When the movable multi-pump nozzle structure applied to the jet loom is used, as shown in fig. 5 to 7, a single loom can be flexibly moved to a suitable work place through the moving wheel 3 without centralized air supply through an additional air supply station by a plurality of looms, and the air pump compressor 7 inside the driving cabinet 6 on the side of fig. 7 can be connected to the corresponding electromagnetic control mechanism and then connected to the fixed main nozzle 11 and the swing main nozzle 23 in the way 1 and the auxiliary nozzle of the weaving mechanism 2 for air supply.

In the using process of the device, according to the drawings of 5-6, a weft cylinder can be directly arranged on a thread cylinder support 9 on a side driving cabinet 6, thread supply is carried out through a weft accumulator on a weft accumulator frame 10, an additional independent auxiliary support is not needed, the space among the weft accumulator frame 10, a fixed main nozzle 11 and a swinging main nozzle 23 is more compact, the occupation of a processing space is reduced, and when the thread is fed before processing at the position of the fixed main nozzle 11 and the swinging main nozzle 23, the fixed main nozzle 11 in the drawing 1 can be integrally moved, so that the thread feeding is prevented from being influenced.

According to fig. 1-4, when moving the fixed main nozzle 11, the movable mounting bracket 222 attached to the side surface of the limiting roller 221 is squeezed to drive the limiting block 224 at the lower end of fig. 4 to be separated from the limiting hole 225 for limiting, and then the movable mounting seat 19 can be movably adjusted along the limiting sliding groove 20, meanwhile, in the moving process, as shown in the figure 1-2, the telescopic movable beams 17 at the upper end and the lower end can synchronously carry out limit movement along the joint guide rail 18, the fixed main nozzle 11 of inside survey extrudees inwards, and the activity lantern ring 14 can carry out synchronous slip along swing joint pole 12 under supporting spring 15's effect, and movable seat 16 also can slide in the cooperation of the side movable rod 13 outside, and the inclined structure of laminating guide rail 18 and spacing spout 20 can make things convenient for fixed main nozzle 11 to move about along extending weft connection direction, has extra dog-ear when avoiding the weft to supply the line.

When the attaching limiting roller 221 is moved, the attaching limiting roller 221 in fig. 2 can also attach the side end of the fixed main nozzle 11, the side end connection of the fixed main nozzle 11 is limited to a certain extent, the connection is not affected, a certain tension is kept conveniently to be on-line, the on-line operation of the device is facilitated, then after the weaving mechanism 2 is on-line normally, the driving motor 5 in fig. 7 can drive the transmission main shaft 4 to be driven and processed, the side end of the transmission main shaft 4 can drive the air pump compressor 7 to synchronously operate for air supply through the transmission belt pulley 8, and then the weaving process can be performed as a normal weaving process.

The above embodiments are only used for illustrating and explaining the utility model, and are not intended to limit the present invention, and those skilled in the art can make various changes or substitutions within the scope of the present invention, and shall also belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a be applied to movable many pumps nozzle structure of jet loom, includes loom frame (1), transmission main shaft (4), fixed main nozzle (11) and swing main nozzle (23), its characterized in that: the weaving machine is characterized in that a weaving mechanism (2) is arranged in the middle of the weaving machine frame (1), a moving wheel (3) is installed at the bottom of the weaving machine frame (1), a transmission main shaft (4) is located inside the weaving machine frame (1), a driving motor (5) is installed at the side end of the transmission main shaft (4), a side driving cabinet (6) is arranged outside the driving motor (5), an air pump compressor (7) is arranged inside the side driving cabinet (6), a transmission belt pulley (8) is connected to the side end of the air pump compressor (7), a bobbin bracket (9) is arranged above the side of the side driving cabinet (6), a weft accumulator frame (10) is arranged on the side surface of the bobbin bracket (9), a fixed main nozzle (11) is located on the side surface of the weft accumulator frame (10), and a movable connecting rod (12) and a side movable rod (13) are arranged outside the fixed main nozzle (11), the utility model discloses a main nozzle's structure, including swing joint pole (12), movable connecting rod (12), side movable rod (13), flexible expansion beam (17), movable connecting rod (12), movable connecting rod (13), movable mounting seat (19), spacing spout (20), fixed main nozzle's (11) front end is provided with yarn guide (21), and the rear end of fixed main nozzle (11) is provided with activity spacing frame (22), swing main nozzle (23) are located the side of fixed main nozzle (11), and the outside of fixed main nozzle (11) and swing main nozzle (23) has all seted up air pipe connector (24).

2. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: side drive cabinet (6) and loom frame (1) are integrated structure, and bobbin support (9) and weft accumulator frame (10) all are bolted connection with the upper surface of side drive cabinet (6), and driving motor (5) and air pump compressor (7) all are located the inside of side drive cabinet (6), pass through driving pulley (8) interconnect between the output of driving motor (5) and the input of air pump compressor (7) simultaneously.

3. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: the movable connecting rod (12) and the side movable rod (13) are symmetrically distributed on the left side and the right side of the fixed main nozzle (11), the fixed main nozzle (11) and the swing main nozzle (23) are arranged in number of 6, and the 6 fixed main nozzles (11) are distributed in a prismatic table type structure.

4. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: the movable lantern rings (14) are uniformly distributed on the outer sides of the movable connecting rods (12), the movable lantern rings (14) form a sliding structure on the outer sides of the movable connecting rods (12), the adjacent movable lantern rings (14) are connected with each other through supporting springs (15), and meanwhile the rear ends of the fixed main nozzles (11) are connected with the movable connecting rods (12) through the movable lantern rings (14).

5. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: the movable seats (16) are uniformly distributed on the outer sides of the side movable rods (13), the movable seats (16) form a sliding structure on the outer sides of the side movable rods (13), and the front ends of the fixed main nozzles (11) are connected with the side movable rods (13) through the movable seats (16).

6. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: the outer ends of the telescopic movable beams (17) at the movable connecting rods (12) and the side movable rods (13) form a sliding structure, a joint sliding structure is formed between the middle part of each telescopic movable beam (17) and the joint guide rail (18), and the joint guide rail (18) is integrally of an inclined structure.

7. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: the movable mounting seat (19) forms a sliding structure on the inner side of the limiting sliding groove (20), the limiting sliding groove (20) is integrally of an inclined structure, and the side ends of the movable connecting rod (12) and the side movable rod (13) are in threaded connection with the movable mounting seat (19).

8. The movable multi-pump nozzle structure applied to an air jet loom of claim 1, wherein: the movable limiting frame (22) comprises a joint limiting roller (221), a movable mounting frame (222), a connecting spring (223), a limiting clamping block (224) and a limiting hole (225), and the movable limiting frame (22) is symmetrically distributed on the left side and the right side of the fixed main nozzle (11).

9. The movable multi-pump nozzle structure applied to an air jet loom of claim 8, wherein: the laminating limiting roller (221) forms a rotating structure on the inner side of the movable mounting frame (222), and the laminating limiting roller (221) and the rear end of the fixed main nozzle (11) are mutually laminated.

10. The movable multi-pump nozzle structure applied to an air jet loom of claim 8, wherein: the movable mounting frame (222) and the movable mounting seat (19) are connected with each other through a connecting spring (223), the movable mounting frame (222) and the limiting sliding groove (20) are connected in a clamping mode through a limiting clamping block (224) and a limiting hole (225), and the limiting hole (225) is evenly distributed on the side surface of the limiting sliding groove (20).

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