JPS6399330A - Fiber blending device for fiber raw material - Google Patents

Abstract

PURPOSE:To mix fibers in an accurate fiber blending ratio, by individually measuring weight of sheet fiber tuft, controlling rotation rate of delivery roller to adjust the amount of the sheet fiber tuft from a fiber tuft piling chute and mixing fibers of plural fiber tufts in a piled state. CONSTITUTION:Weight of sheet fiber tufts is individually measured by a weighing device 4 in a process wherein fiber tufts B are continuously sent out in a sheet state from plural fiber tuft piling chutes A having different fiber tufts. The rotation speed of delivery rollers 2 is controlled through a control device 3 in such a way that fibers are mixed in a piled state on a mixing conveyor 5.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a fiber raw material blending device, and more particularly to a fiber raw material blending device for blending various types of fiber tufts into a laminated sheet.

BACKGROUND OF THE INVENTION Conventionally, the type of cotton mixing equipment that has been widely used is the waypan mixing method using a popper machine. In this method, the cotton discharged from the potspar machine is first put into a way pan and weighed, and when it is full, the cotton feeding is stopped, and then the full way pans are opened all at once at regular intervals, and the cotton is operated under the way pan. The cotton is blended by dropping it onto a conveyor.

Problems to be Solved by the Invention However, the conventional cotton blending method using the weipun mixing method has the disadvantage that the cotton discharged from the weipun is sequentially piled up locally on the conveyor, resulting in piles collapsing, and that the flow method There is a problem in that the blending rate is not accurate despite the cotton blend that uses this method.

Means for Solving the Problems The present invention solves the above-mentioned problems, and the details thereof will be explained below using FIG. 1 corresponding to an embodiment. A transmission device 7 for adjusting the rotation speed of a first delivery roller 2 is provided at the bottom of the bottom chute 1 of at least two or more fiber tuft accumulation chutes A via a control device 3, A weighing device 4 is provided to measure the delivery 11 of the sheet-like fiber tufts B sent out by the first delivery roller 2 from the bottom chute 1 of the fiber tuft accumulation chute A, and furthermore, the sheet-like fiber tufts B that have passed through the weighing device are A second delivery roller 6 is provided for delivering the mixture onto the mixing conveyor 5.

Operation Next, to explain the operation with reference to FIG. 1, the first delivery through the bottom chute 1 of the fiber tuft accumulation chute A
While the sheet-shaped fiber tuft) B sent out by the roller 2 passes through the weighing platform of the weighing device 4, the weight of the fiber tuft is measured, and a comparison calculation between this measured value and a set value is performed via the control device 3. The rotational speed of the first delivery roller 2 is adjusted to the set value by transmitting a deviation value signal to the first delivery roller 7. The sheet-like fiber tuft B that has passed through the weighing device 4 is sent onto the mixing conveyor 5 by the second delivery roller 6. The fiber tufts B are fed out from the adjacent fiber tuft accumulation chute A through the weighing device 4 as described above and are polymerized on the mixing conveyor 5 to form a continuous layered cotton blend. The laminated sheet-like fiber tufts are conveyed to the next process by the operation of the mixing conveyor 5.

Example The present invention will now be described in detail with reference to FIG.

In FIG. 1, A indicates a plurality of fiber tuft accumulation chutes installed in parallel, and each chute accommodates different types of fiber tufts conveyed from the previous process. Reference numeral 2 designates a first pre-delivers roller provided at the bottom of the bottom chute 1 of the fiber tuft accumulation chute, 4 a weighing device, 5 a mixing conveyor running in the direction of the arrow, and 6 a second delivery roller. The transmission device 17 that drives the first delivery roller is, for example, a geared motor set transmission device. The weighing device 4 is of a plate scale type using a load cell. The second delivery roller 6 is driven by a suitable transmission device using the roller 5' of the mixing conveyor 5 as a power source at the same speed as the mixing conveyor 5.

The fiber tuft groups sent out in sheet form from the fiber tuft accumulation chute A group with the above-described configuration are each weighed by a weighing device 114.
The amount of softness is measured while passing through, and the control device 13 compares the measured value with a set value and sends a deviation value signal to the transmission device 7, which is the drive source of the first delivery roller 2. , the speed of the first delivery roller 2 is controlled to a set value to adjust the delivery amount of the sheet-like fiber tuft group. The sheet-like fiber tufts sent out in this manner are placed in a layered manner on the mixing conveyor 5, and are conveyed to the next process in this operation.

In the figure, 8 is a filler roller, and 9 is a fiber opening roller.

Effects of the Invention As explained above, the present invention allows the blending of fiber raw materials to be carried out continuously through a plurality of fiber tuft accumulation chutes containing different types of fiber tufts. The weight of the tufts is measured individually, and the rotational speed of the first delivery roller is controlled via the control device to achieve the set weight, and the delivery amount is adjusted, so that the cotton is mixed in a layered state on the mixing conveyor. Therefore, compared to the conventional way pan mixing method, the fiber tufts can be mixed in a continuous state, so transportation can be carried out smoothly, and the amount of fiber tufts sent out from the fiber tuft accumulation chute can be adjusted individually. As a result, it is possible to mix the cotton at an accurate blending rate.In particular, as a cotton blending device for high-quality, small-loft production, multiple fiber tuft accumulation chutes can be connected to the open-collar cotton feeding device in the previous process. Since the fiber bales can be opened and mixed continuously, this method has the effect of contributing to streamlining the work.

[Brief explanation of the drawing]

FIG. 1 shows a schematic side view of the invention and the block diaphragm of the adjustment device for the first delivery roller. A... Fiber tuft accumulation chute, B... Sheet-like fiber tuft, 2... First delivery roller, 3... Control device, 4... Weighing device, 7... Transmission device.

Claims (1)

[Claims] A laminate in which sheet-like fiber tufts are polymerized and are provided with at least two fiber tuft accumulation chutes each separately accommodating fiber tufts obtained by opening fiber bales of different types, and which are continuously delivered from each of the fiber tuft accumulation chutes. This is a mixing device for conveying the cotton to the next process in the form of a weighing device for individually measuring the weight of the sheet-like fiber tufts sent out from the fiber tuft accumulation chute, and a weighing device is provided at the bottom of the bottom chute of the fiber tuft accumulation chute. 1 delivery roller is connected to a transmission device via a control device that adjusts the speed, and a measurement value obtained by measuring the fluctuation in the amount of sheet-like fiber tufts sent out from the bottom chute with the weighing device; A cotton blending device for fiber raw materials, characterized in that the speed of the first delivery roller is controlled to the set value using a deviation value signal obtained by comparing and calculating the set value via the control device.