CN104611791A - Annular wind power cotton sliver circular collection device - Google Patents

Abstract

The invention provides an annular wind power cotton sliver circular collection device which comprises a base, a rotating ring and an air flow steering ring, wherein uniformly distributed air blowing holes with opening directions towards the inner side are formed in the rotating ring; rotating ring connection pipes are uniformly distributed on the outer side of the rotating ring; the air flow steering ring comprises an inner rotating disc and an outer fixing ring; cavities uniformly distributed along the ring shape are formed in the inner side of the outer fixing ring; air outlets horizontally facing the outer ring surface are formed in the rotating disc and are communicated with the cavities in the inner side of the outer fixing ring in sequence along with the rotation of the inner rotating disc; air feeding pipes communicated with the air outlets are arranged at the axial position of the upper part of the inner rotating disc. When the device is used, a cotton sliver rotates under the action of air flow and is circlewise placed in a cotton sliver drum so as to finish annular collection of the cotton silvers; in an output process, the cotton silver is not in actual contact with the coiling device, so that the cotton silver cannot be twisted.

Description

Annular wind-force coiling device

Art

The invention belongs to technical field of textile machine, especially relate to a kind of annular wind-force coiling device.

Background technology

Cotton needed first to be made into sliver before weaving, and sliver is made by sliver machine, and sliver needs to put into sliver can after completing, in order to the use of next procedure.In order to make the placement of sliver more orderly, in cotton treatment facility, usually by coiling device, my rule from coil to coil of sliver can be placed in sliver can.Traditional coiling device includes can the structure such as sliver dish, curved inclined tube, the sliver that sliver machine is produced needs once to enter in sliver can by sliver dish, curved inclined tube, sliver dish and curved inclined tube need ceaselessly anticlockwise campaign, structure complexity very, and cost is higher; The rotary motion of sliver dish, curved inclined tube simultaneously easily kinks with sliver wherein, affects placement and the production of sliver,

Summary of the invention

For the problems referred to above, the object of the present invention is to provide a kind of wind-force structure by rotating to blow sliver, making sliver rotate the annular wind-force coiling device fallen in described sliver can with certain rule.

The technical solution adopted for the present invention to solve the technical problems is: this annular wind-force coiling device comprises base, rotating ring, air-flow steering ring; The sliver can being used for filling sliver is placed on described base top, and described rotating ring is assemblied in above described sliver can by fixed mount; Described rotating ring is toroidal, the gas hole that opening direction is uniform towards inner side is designed with in described rotating ring, described gas hole is the loudspeaker mouth-shaped that diameter becomes large gradually towards inner side, is evenly equipped with the rotating ring be connected with described gas hole and takes over outside described rotating ring; Described air-flow steering ring includes inner rotary table, extenal fixation ring; Described extenal fixation ring is annular, annularly uniform cavity is designed with inside described extenal fixation ring, it is inner that described inner rotary table is assemblied in described extenal fixation ring, described inner rotary table is by the electric rotating machine driven rotary of bottom, described inner rotary table is designed with the air outlet of level anchor ring toward the outside, described air outlet is communicated with the cavity inside described extenal fixation ring successively with the rotation of inner rotary table; Described extenal fixation ring outside is designed with the retainer ring is communicated with inner side cavity and takes over, and described rotating ring takes over respectively corresponding by flexible pipe be connected identical with described retainer ring adapter number; The upper axial Position Design of described inner rotary table has the air inlet pipe be connected with air outlet.

As preferably, the number of described gas hole is 4 ~ 8.

As preferably, described air-flow steering ring upper design has gas flow modulation module, and described air inlet pipe bending protrudes upward, and described gas flow modulation module is designed with vertically to the airflow hole misplaced with described air inlet pipe bottom axis direction.

Beneficial effect of the present invention is: this annular wind-force coiling device is mainly placed on the rear portion of sliver machine, is used for sliver to be placed in order in described sliver can.Described air inlet pipe is connected with air-stream generating device, this coiling device drives described inner rotary table to rotate by electric rotating machine, air outlet to be taken over retainer ring by the cavity inside described extenal fixation ring be successively communicated with, thus make the gas hole inside described rotating ring be passed into air-flow successively, the sliver that sliver machine is produced passes in the middle of described rotating ring inner ring, when described gas hole blows to described sliver, sliver deflects, and when described gas hole is circumferentially switched on successively, spinning movement is there is in sliver under the effect of air-flow, like this along with sliver is constantly produced, sliver is placed in sliver can by from coil to coil, complete and the annular of sliver is collected, this Artenkreis bar structure does not need to design the structures such as sliver dish and curved inclined tube on sliver can, do not need to design rotary part on sliver can yet, described base also only needs to use plate namely fixing, the structure of assembling sliver can part can be enormously simplify, sliver does not produce actual contact in output procedure with coiling device simultaneously, sliver can not be kinked.

Accompanying drawing explanation

Fig. 1 is the structural representation of annular wind-force coiling device.

Fig. 2 is the structural representation that rotating ring overlooks directional profile.

Fig. 3 is the structural representation that air-flow steering ring overlooks directional profile.

Fig. 4 is the structural representation that gas flow modulation module overlooks direction.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described:

As shown in Figure 1, Figure 2 with shown in embodiment in Fig. 3, this annular wind-force coiling device, it comprises base 1, rotating ring 2, air-flow steering ring 3; The sliver can 4 being used for filling sliver is placed on described base 1 top, and described rotating ring 2 is assemblied in above described sliver can 4 by fixed mount; Described rotating ring 2 is toroidal, the opening direction gas hole uniform towards inner side 21 is designed with in described rotating ring 2, described gas hole 21 is the loudspeaker mouth-shaped that diameter becomes large gradually towards inner side, the air-flow that such gas hole 21 blows out disperses blowout inside rotating ring 2, can ensure like this to blow to the sliver 7 through rotating ring 2.The rotating ring adapter 22 be connected with described gas hole 21 is evenly equipped with outside described rotating ring 2; Described air-flow steering ring 3 includes inner rotary table 31, extenal fixation ring 32; Described extenal fixation ring 32 is annular, annularly uniform cavity is designed with inside described extenal fixation ring 32, it is inner that described inner rotary table 31 is assemblied in described extenal fixation ring 32, described inner rotary table 31 is by electric rotating machine 33 driven rotary of bottom, described inner rotary table 31 is designed with the air outlet 311 of level anchor ring toward the outside, described air outlet 311 is communicated with the cavity inside described extenal fixation ring 32 successively with the rotation of inner rotary table 31; Described extenal fixation ring 32 outside is designed with the retainer ring adapter 34 be communicated with inner side cavity, and described rotating ring adapter 22 is identical with described retainer ring adapter 34 number to be correspondingly respectively connected by flexible pipe 5; The upper axial Position Design of described inner rotary table 31 has the air inlet pipe 35 be connected with air outlet 311.

Annular wind-force coiling device is mainly placed on the rear portion of sliver machine, is used for sliver 7 to be placed in order in described sliver can 4.Described air inlet pipe 35 is connected with air-stream generating device, this coiling device drives described inner rotary table 31 to rotate by electric rotating machine 33, air outlet 311 is communicated with retainer ring adapter 34 by the cavity inside described extenal fixation ring 32 successively, thus makes the gas hole 21 inside described rotating ring 2 be passed into air-flow successively; At this moment the sliver 7 that sliver machine is produced passes in the middle of described rotating ring 2 inner ring, when described gas hole 21 blows to described sliver 7, sliver 7 deflects, and when described gas hole 21 is circumferentially switched on successively, spinning movement is there is in sliver 7 under the effect of air-flow, like this along with sliver 7 is constantly produced, sliver 7 is placed in sliver can 4 by from coil to coil, completes and collects the annular of sliver 7.This Artenkreis bar structure does not need to design the structures such as sliver dish and curved inclined tube on sliver can 4, do not need to design rotary part on sliver can 4 yet, described base 1 also only needs to use plate namely fixing, the structure of assembling sliver can 4 part can be enormously simplify, sliver 7 does not produce actual contact in output procedure with coiling device simultaneously, and sliver 7 can not be kinked.Produce safer.

The number of described gas hole 21 is 4 ~ 8.In the present embodiment as shown in Figure 2, the number of gas hole 21 is six.The number of gas hole 21 is more, the air-flow directionality that gas hole 21 blows out is stronger, and be not easy described sliver 7 to blow to edge placement inside rotating ring 2 like this, the number of described gas hole 21 is fewer, sufficiently oily when sliver 7 rotates, sliver 7 can be affected in sliver can 4, coil effect.

As shown in Figure 1 and Figure 4, described air-flow steering ring 3 upper design has gas flow modulation module 6, and the bending of described air inlet pipe 35 protrudes upward, and described gas flow modulation module 6 is designed with vertically to the airflow hole 61 misplaced with described air inlet pipe 35 bottom axis direction.Be used in the present embodiment air feed aerostatic press supply time constant voltage air-flow, aerostatic press is directly communicated with described airflow hole 61, and the cross-sectional area size that described like this air inlet pipe 35 top and described airflow hole 61 are connected directly decides the number that described air inlet pipe 35 enters air-flow.The position of described air inlet pipe 35 upper interface is for being the broken circle position shown in Fig. 4, along with inner rotary table 31 rotates described air inlet pipe 35 upper interface to be communicated with cross section area mechanical periodicity with described airflow hole 61, the air-flow cyclically-varying that described like this air inlet pipe 35 inputs, the sliver 7 air-flow dynamics that described gas hole 21 blows out when entering in described sliver can 4 can be made like this to be change, can make described sliver 7 in rotary course, deflect different amplitudes like this, make compacter in sliver can 4 inside turn of sliver 7.

Claims (3)

1. an annular wind-force coiling device, it comprises base (1), rotating ring (2), air-flow steering ring (3); The sliver can (4) being used for filling sliver is placed on described base (1) top, and described rotating ring (2) is assemblied in described sliver can (4) top by fixed mount; It is characterized in that: described rotating ring (2) is toroidal, the opening direction gas hole uniform towards inner side (21) is designed with in described rotating ring (2), described gas hole (21) is the loudspeaker mouth-shaped that diameter becomes large gradually towards inner side, and described rotating ring (2) outside is evenly equipped with the rotating ring be connected with described gas hole (21) and takes over (22); Described air-flow steering ring (3) includes inner rotary table (31), extenal fixation ring (32); Described extenal fixation ring (32) is annular, described extenal fixation ring (32) inner side is designed with annularly uniform cavity, it is inner that described inner rotary table (31) is assemblied in described extenal fixation ring (32), described inner rotary table (31) is by electric rotating machine (33) driven rotary of bottom, described inner rotary table (31) is designed with the air outlet (311) of level anchor ring toward the outside, described air outlet (311) is communicated with the cavity of described extenal fixation ring (32) inner side successively with the rotation of inner rotary table (31); Described extenal fixation ring (32) outside is designed with the retainer ring be communicated with inner side cavity and takes over (34), and described rotating ring adapter (22) is taken over the identical corresponding flexible pipe (5) that passes through respectively of (34) number and is connected with described retainer ring; The upper axial Position Design of described inner rotary table (31) has the air inlet pipe (35) be connected with air outlet (311).

2. annular wind-force coiling device according to claim 1, is characterized in that: the number of described gas hole (21) is 4 ~ 8.

3. annular wind-force coiling device according to claim 1, it is characterized in that: described air-flow steering ring (3) upper design has gas flow modulation module (6), described air inlet pipe (35) bending protrudes upward, and described gas flow modulation module (6) is designed with vertically to the airflow hole (61) misplaced with described air inlet pipe (35) bottom axis direction.