JPS62263327A - Circulating and opening system for fiber taffeta - Google Patents

Abstract

PURPOSE:To open fiber taffeta more than necessity and to prevent fibrillation and reduction in strength, by partially sending fiber taffeta opened by a spiked feeder to a micro taffeta opener and sending back the rest to a multimixer. CONSTITUTION:Fiber taffeta F opened by a spiked feeder 18 is partially sent to a micro taffeta opener 21, additionally opened by evener spiked cylinders 19 and sent to a single scutcher. An air sending pipe line 23 is exchanged by a change damper 22 operated by a sensor S2 and the rest of the fiber taffeta which was not sent to the micro taffeta opener is sent back to a multimixer 15.

Description

[Detailed Description of the Invention] , San, Minakami ■ Ashibundan The present invention relates to a cyclic opening system for fiber tufts, and more specifically, the invention relates to a cyclic opening system for fiber tufts. The present invention relates to a recirculating opening system with an automatically switching fiber tuft pneumatic line that maintains performance at an appropriate level.

As shown in Figure 2, a conveyor for supplying unopened fiber tufts (
1), a first spiked feeder (4) rotatably supporting a plurality of Evener spiked cylinders (2) and dotsfa cylinders (3), a fiber distributor ( 5) and the feed roller (6) downward.
a multi-mixer (7) arranged in parallel, and a second spiked feeder (8) having the same structure as above.
A mixed batting process is known in which the cotton is connected in sequence. The unopened tata fiber tufts placed on the supply conveyor (1) are pre-opened by the first spiked feeder (4) and then passed through the multi-mixer (7) to the second spiked feeder (8). ), and after being opened by a spreading pin (not shown) installed on the surface of the Evener Spiked Cylinder (2), it is supplied to a subsequent opening device, such as a microtuft opener (not shown). and undergoes the final opening action.

The fiber tufts thus introduced into the mixed batting process are fed to the first and second spiked feeders (4) before being sent to the single scuffing (not shown). (8) and a micro-tuft opener to open the fibers in multiple stages.When opening the fiber tufts using such a multi-stage opening device, in some cases, an unnecessarily large opening force acts on the m-fiber tufts. This causes various problems such as fibrillation and a decrease in strength in the opened fibers.In addition, the first spiked feeder (4) and the second spiked feeder are placed before and after the multi-mixer (7). (8), the saving of machine arrangement space is also significantly restricted.

The main object of the present invention is to provide a solution to the above-mentioned problems found in conventional fiber tuft opening systems.

In view of these objectives, the present invention provides a feeding conveyor for fiber tufts, a mixing chamber having a rotatable Evener spiked cylinder, and an upper part of a storage chamber for fiber tufts. It rotatably supports a distributor for fibers opened into a fiber, a multi-mixer having feed rollers arranged in parallel below the fiber tuft storage chamber, a plurality of Evener spiked cylinders, and a dotsfa cylinder. In the fiber tuft opening device, which is formed by sequentially connecting a free nip type spiked feeder and a micro tuft opener which rotatably supports a plurality of Ibner spiked cylinders, the spiked feeder and the micro tuft opener are connected in sequence. The multi-mixer is connected to the multi-mixer by a pneumatic pipe line with a switching damper, and a fiber supply amount detection sensor is installed on the spiked feeder and micro tuft opener. A switching damper provided in the pneumatic pipeline is alternately switched to the delivery side to the micro tuft opener and the delivery side to the multi-mixer, and the fiber tuft supply conveyor and the feed roller of the multi-mixer are driven intermittently. The gist of this invention is a cyclic opening system for fiber tufts configured to do so.

■ A part of the fiber tufts opened by the spiked feeder is supplied to a micro tuft opener connected to the spiked feeder and given an additional fiber action, and then sent to a single scatcher and wrapped. It is counted as a ring. On the other hand, the remaining fiber tufts that were not supplied to the micro tuft opener are switched to a pneumatic route by a sensor installed at the fiber tuft delivery end of the spiked feeder, bypassing the micro tuft opener, and sent back to the multimixer. It will be done.

FIG. 1 is a side view of the fiber tuft circulation opening system according to the present invention. The fiber tuft opening system includes a cofeeding conveyor (10) for fiber tufts, a mixing chamber (12) that rotatably supports an Evener spiked cylinder (11), and a chamber for storing m-fiber tufts. Distributors (13) for the opened fiber tufts are arranged in parallel, and a feed roller (14) is placed below the fiber tuft storage chamber.
a multi-mixer (15) arranged in parallel, a free-nip spiked feeder (i8) that rotatably supports a plurality of Ibner spiked cylinders (16) and dotsfa cylinders (17), and A micro tuft opener (21) is formed by rotatably supporting a plurality of Evener spiked cylinders (19) and disposing a fiber tuft supply conveyor (20) below the cylinders.
) are connected in sequence. In such an H1 fiber tuft opening system, the spiked feeder (18) and the multi-mixer (15) distributor (
13) via a pneumatic pipe line (23) equipped with a switching damper (22), and a microtuft opener (21) connected to the spiked feeder (18) and its fiber tact delivery end. ), a sensor (Sl) (Sl) (S3) for detecting the amount of fiber supplied is disposed, for example, a phototube device with the optical axis of the light emitter/receiver facing the passage path of the fiber tuft.

Hereinafter, the operating procedure of the above-mentioned circulating fiber opening system will be explained. With a predetermined amount of fiber tough (F) placed on the supply conveyor (10), the circulation opening system that constitutes the mixed batting process is started.

At this time, the fiber tuft crosses the light emitting/receiving path of the second phototube device (Sl) disposed at the fiber tuft sending end of the spiked feeder (18), so that the fiber tuft is disposed in the pneumatic conduit (23). The switched damper (22) closes the fiber tuft supply line to the Microtuff I-opener (21) and closes the fiber tuft supply line to the Microtuff I-opener (21) and closes the Evener spiked cylinder (16) and Dotsfa cylinder (17) of the spiked feeder (13).
) is sent back into the distributor (13) (13)- of the multimixer (15). The fiber tufts (F) loaded on the supply conveyor (10) are pre-opened by the even piped cylinder (11) 5 of the mixing chamber (12), and then passed to the feed roller of the multi-mixer (15). (14
>(14)- and is introduced into the spiked feeder (18). Spiked feeder (18)
When the fiber tuft (F) in a pre-opened state introduced into the fiber tuft storage chamber crosses the light transmission and reception path of the first phototube device (Sl) disposed in the fiber tuft storage chamber,
Feed roller (14) of multi mixer (15)
(14, L- and the supply conveyor (10) are temporarily stopped, and the fibers are opened secondarily by the free nip-like engagement of the Evener spiked cylinders (16) (16) with the opening tube (not shown). The fiber tufts (F) are connected to the rotation range of the dotsfer cylinder (17) (17), the light emitting and receiving path of the second phototube device (Sl), and the pneumatic pipe (
23) to the distributor (13) of the multi-mixer (i5).
) and is deposited on the feed roller (14) (14) which is in a stopped state. Total 9 are multi mixers (15)
When the fiber tough I-(F) does not cross the light emitting and receiving path of the second phototube device (Sl), the light emitting and receiving path of the first phototube device (Sl) also passes through. As a result, the supply con- \a (10
) and the multi-mixer (15) (D feed roller (14) (14) - are restarted, and at the same time the switching damper (22) opens the fiber tuft supply line to the micro tuft opener (21). , close the fiber tact supply line to the distributor (13) (13) of the multi-mixer (15).
14) The fiber tuft (F) fed from (14L-1) onto the supply conhair (10) is the Evener spiked cylinder (16) of the spiked feeder (18).
(16: The fibers are supplied onto the fiber tact supply conveyor (20) of the microtuft opener (21) in a tertiary opened state by free nip-like engagement with l-m-, and After being given an additional opening action by the nurse spiked cylinder (19) (19), the subsequent single scuff (not shown)
sent towards. Microtuft opener (2)
1) The amount of fiber tact (F) introduced into the micro tuft opener (2) is determined by whether the fiber tact (F) crosses the light emitting/receiving path of the third phototube device (S3) installed in the micro tuft opener (2). Controlled by whether or not it crosses. That is, when the amount of fiber tuft (CF) supplied to the micro tuft opener (21) increases and the fiber tuft (F) cuts off the light transmission/reception path of the third phototube unit 2 (Ss), the supply conveyor ( 10)
stops, and the unopened fiber tufts are removed by the supply conveyor.
Mutual allowance will be reduced by 1 year.

P, Φ effect As can be understood from the above explanation, a part of the fiber tufts opened by the spiked feeder is supplied to the microtuft opener connected to the spiked feeder for additional opening. The remaining fiber tufts that were not fed to the micro tuft opener are disposed at the ta fiber tuft delivery end of the spiked feeder. The pneumatic route is switched by the sensor,
It bypasses the microtuft opener and is sent back to the multimixer. Thus, according to the present invention, the problem found in conventional devices is that the fiber tufts are opened more than necessary by passing through the two spiked feeders, which causes fibrillation and a decrease in strength. The points are resolved all at once. Additionally, by connecting the multi-mixer and spiked feeder via a circulating fiber tuft pneumatic conduit, the installation of multiple spiked feeders is omitted, resulting in a significant reduction in machine installation space. .

[Brief explanation of drawings]

FIG. 1 is a side view of a cyclic opening system for fiber tufts according to the present invention. Further, FIG. 2 is a side view illustrating a conventional fiber tuft opening system. (F) - - Fiber tuft 1 (11) - supply conveyor,
(11) --- Evener Spiked Cylinder, (12
)・−vexing chamber,. (13) - Distributor, (14) - Feed roller, (Ss) (S2) (Ss) - Detection sensor for fiber supply layer, (15) - Multi mixer, (18) - 11 Spiked feeder , (21)・-Microtuft opener, (22) --
Totally replaceable damper, (23) - pneumatic line. Patent applicant Kokan Jken Kokayo Co., Ltd.
Rin Gangwon Province 7 [

Claims (1)

[Claims] (1) A fiber tuft supply conveyor, a mixing chamber with a rotatable Evener spiked cylinder, and a distributor for the opened fibers above the fiber tuft storage chamber, and also feeding the fiber tufts below the fiber tuft storage chamber. A multi-mixer with rollers arranged in parallel, a free-nip spiked feeder with rotatably supported multiple Ibner spiked cylinders and doffer cylinders, and a free-nip spiked feeder with multiple Ibner spiked cylinders rotatable. In a fiber tuft opening device in which micro tuft openers supported by a micro tuft opener are successively connected, the spiked feeder and the multi-mixer are connected by a pneumatic pipe line equipped with a switching damper, and the spiked feeder and A sensor for detecting the amount of fiber supplied is installed in the micro tuft opener, and depending on the amount of fiber tuft detected by the sensor, a switching damper provided in the pneumatic pipe is switched between the delivery side to the micro tuft opener and the A cyclic opening system for fiber tufts, characterized in that the fiber tuft supply conveyor and the feed roller of the multi-mixer are driven intermittently by switching alternately to the feed side to the mixer.