JPS58213218A - Method and device for weighing solid bulk material - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to the feeding of solid bulk materials such as fibers, flour or grains to other processing steps such as dispensing or packaging, such as measuring steps. The present invention relates to a method and apparatus for weighing solid bulk materials, such as fibers, in processes where the water content of the fed feed is subject to changes.

In order to produce a product that has the correct weight or density when measured at prior art standard moisture content, it is desirable to fully compensate for the moisture content of the material sent to the next processing step.

Of course, the moisture content of bulk materials such as fibers can be measured by laboratory tests using commercially available foot measuring equipment, and the measurement process and the It is possible to adjust the parameters 111 in the process. However, materials can vary widely in their moisture content from one bale or bag to another, and that variation is greatly influenced by the material's previous processing history and, perhaps most importantly, its recent transportation and storage history. ? Take it. Even excluding the general inconvenience of the methods described above and the high cost due to the need for skilled labor, the fibers in the bale and the moisture content of the flour in the bag can be determined after the bale or bag is opened. These methods tend to be inaccurate as the amount of water changes between the time it is consumed and the time it is actually consumed in the process.

OBJECTS OF THE INVENTION The present invention provides a fully automatic moisture content compensation method that does not have the problems of the previously known methods described above, and a method thereof! - The purpose is to provide a device for performing irradiation.

DESCRIPTION OF THE INVENTION It is an object of the present invention to process fibers or other solid bulk materials having variable moisture content with a measured amount of bulk materials such as fibers. The method includes the step of measuring a feed of bulk material, such as fibers, fed to the processing step, and a portion of the material that is stored in successive deliveries of bulk material, such as fibers. a step of weighing, a step of compensatingly adjusting the supply ratio of the bulk material such as fibers in accordance with the moisture content of the bulk material such as fibers, and a bulk material such as fibers containing gold. This is accomplished by a method that supplies a measured amount of.

The moisture content is preferably measured using a capacitance measuring device iK which is an AC device. In this case (iJ
- This is because a certain amount of static electricity is generated in the material being measured.

In another embodiment, the moisture content can be estimated from measurements of the relative humidity in the surrounding atmosphere.

In addition to performing moisture content measurements, the volume of the material being measured is measured. This volume measurement may be carried out by measuring the depth of the feed portion stored in the way pan.

A control device that determines the weight and/or frequency of multiple portions of bulk materials such as fibers that are introduced one after the other is used to measure the capacitance and related moisture content of the above-mentioned capacitances and the amount of material that follows next. Adjust the predetermined weight of.

In other words, compensatory supply is provided.

The present invention also provides an entire apparatus for metered ik delivery of bulk charges, such as pre-streak fibers, to processes for processing fibers or other flowable solid bulk materials subject to variable moisture content. This equipment is suitable for bulk I feeds such as fibers to be fed to the processing steps. A measuring device to measure and a material part that is successively supplied and stored in bulk monthly interest such as fibers? The weighing device includes a weighing device for weighing, and a compensating device for compensatingly adjusting the rate at which bulk materials such as fibers are supplied in accordance with the moisture content of the bulk materials such as fibers.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The method and apparatus of the present invention will now be described in detail with reference to the embodiments illustrated in the accompanying drawings.

FIG. 1 shows an apparatus in which fibers 11 are dropped from a valve 12 into a waypan 13 which is provided with a lambshell-shaped floor member 14 that can be opened and closed. The floor member 14 is opened and closed by a motor 15 controlled by an operation sequencer 16.

Weipan 13 is a load cell 1 connected to a comparator 58.
7, and a weight set in advance is input to the comparator 18 from a weight setting device 19. If the measured weight is the same as the predetermined weight, operation sequence 16
closes valve 12.

After the valve 12 is closed, the umbrella fiber passing through finally reaches the way pan 1.
3 and all measurements are completed, the operation sequence 16 opens the floor member 14 and transports all the fibers to the conveyor 2.
0 and a transport conveyor 20 transfers the fibers to a processing process, such as a stitch bonding process or yarn? It is transported to the spinning process where it is manufactured.

The basic measurement operation can be carried out as disclosed in UK Patent Application No. 7936211 (UK Patent Publication No. 2060947A, published 7 May 1981), co-owned by the present applicant, or British Patent Application No. 8211473 filed on the same day as the present application by the same applicant as ``Method for Circulating Balances for Solid Bulk Materials''
This can be done by an improved method disclosed in No.

Additionally, the weipan 13 comprises a pair of capacitor plates 21 which are suitably insulated and connected to the enclosure vibrometer circuit 2z. This condenser plate 21 is placed on the floor member 14 soil, so that the condenser plate 21 is completely evenly covered in the weave pan by a small amount of fibers. The waypan 13 also includes fiber measurement equipment, which is illustrated in FIG. 1 as a vertical array of capacitive sensors 23. The plurality of capacitance sensors 23 are actuated in stages as the fiber height rises in the way pan 13 to provide an indication of the fiber surface, and from this fiber height the dimensions of the way pan 13 are determined. A volume calculator 24 calculates the volume of the fiber.

Data on xi and volume are inputted into M[calculator 25, and data on density, volume, weight, and capacitance are supplied to microprocessor 26. The microprocessor 26 calculates the adjusted moisture content of the fibers in the way pan 13 (11L). It is theoretically possible to derive a suitable calculation scheme for this, but it is possible to carry out a series of measurements on several fiber material sections with different weights, moisture contents and even different compression states. It is possible to easily calibrate the scale of the microprocessor.

In any case, the microprocessor is programmed to keep a running record of the measured weight of the fiber as it passes through the measuring device and the desired M'fit for the next subsequent cycle or cycles. so that the weight adjusted to the desired military per cycle or unit of time is equal, either by adjusting to , or by keeping the weight constant and adjusting the time between cycles by 1 m. The microprocessor may be programmed to provide new correspondence information to the comparator at the beginning of each cycle of operation of the waypan 13, or at the beginning of a plurality of cycles of operation of the waypan 13.

Instead of a weipun, a weighing plate can be used, as illustrated in FIG. In this case, the fibers 11 are fed by a conveyor 31 onto a plate 32 either batchwise or continuously. The fixing plate 33 confines the fibers within a gap extending over a specified height. The fixing plate 33 and the measuring plate 32 constitute the entire capacitance measuring device. Alternatively, one or two other capacitor plates can be used instead of the fixed plate on the top of the roller assembly and for the capacitance measuring device.

For example, the moisture content of bulk materials such as fibers can be determined by measuring the capacitance of a device containing bulk materials such as fibers.
As an alternative to direct measurements, it is possible under certain circumstances to determine the moisture content from knowledge of the properties of the feed and the relative humidity in the surrounding atmosphere.

Continuum subplate 21 in FIG. 1 or fixing plate 33 in FIG. 2 and weight measuring plate 320s vK1 can be placed near the simple RH meter t[quantity measuring device.

The relative humidity measurements in the atmosphere are directly fed to the control microprocessor, which is programmed with special programming to calculate the moisture content from the relative humidity and the fiber type, and whether the fiber type is on the keyboard single or multibodied.
It can be equipped with an input voltage applied from a power switch. If only one type of fiber is being processed, no input for this fiber type is required.

The environment in which such indirect measurements of moisture content are used is one in which the bulk material, such as a fiber, is kept close to the weighing device for a long enough period of time to maintain substantial equilibrium with the surrounding atmosphere. It's a great environment. And, of course, it is necessary that the conditions in the atmosphere of 7 do not change too quickly.

Effects of the Invention Since the method of the present invention and the apparatus for carrying out the method are constructed as described above, the bulk of fibers, etc., which is completely crushed in the correct weight when measured at a standard moisture content in the next processing step. All materials can be supplied.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing one embodiment of the apparatus of the present invention.
FIG. 2 is an explanatory diagram showing another embodiment of the apparatus of the present invention. DESCRIPTION OF SYMBOLS 11... Fiber, 12... Valve, 13... Way pan, 14... Clamshell floor member, 15... Motor, 16... Operation sequencer, 17... Load cell,
18... Comparator, 19... Weight setting device, 20...
Carrying out conveyor, 21... Capacitor plate, 22...
・・Capacitance measurement circuit, 23-・・Capacitance, capacitance sensor,
24... Volume calculator, 25... Visit calculator, 26...
・Microprocessor, 31... Conveyor, 32...
・Weight measurement plate, 33...Fixed grate. Patent applicant Hi Chadwick Limited Patent agent Akira Aomi Patent attorney Kazuyuki Nishidate Patent attorney Akira Yamaguchi

Claims (1)

[Scope of Claims] 1. A method for supplying a measured amount of bulk materials such as fibers to a process of processing fibers or other solid bulk materials having fluidity whose moisture content tends to fluctuate, the method comprising: , the method includes the steps of: weighing the supply of bulk material such as fibers fed to said processing step; weighing the portion of material stored in each successive supply of bulk material such as fibers; The step of compensatingly adjusting the supply ratio of bulk feed materials such as fibers in accordance with the moisture content of bulk feed materials such as fibers and the measurement of bulk feed materials including fibers, etc. amount r%, method of feeding. 2. The method according to claim 1, wherein the moisture content of a representative sample from the material portion or the feed portion is measured. 3. The moisture content is measured by a capacitance measuring device.
) % The method according to claim 2. 4. The method according to claim 3, wherein the moisture content is measured by a capacitance measuring device which is a flow device. 5. Claim 1, wherein the moisture content is obtained by estimation. The method described in iJ. 6. A method according to claim 5, wherein the moisture content is obtained by estimation from measurements of the relative humidity of the surrounding air. 7. A method according to any one of claims 1 to 6, wherein the volume of each material portion or a representative sample from the material portion is measured. 8. The method of claim 7, wherein the volume is measured by measuring the depth of the feed portion in the way pan. 9. A method according to any one of claims 1 to 8, wherein the pre-NC moisture content measurement or estimation is performed while the material portion is in a way pan. 10. A control device for determining the weight and/or frequency of the successively fed material portions in the material is connected to the relative humidity and volume information, and the control device is connected to the relative humidity and volume information; Alternatively, the control device calculates the moisture content of the material part from the relative humidity and volumetric information and then supplies a predetermined weight adjustment of the side slope part or parts of material for compensation. The method according to claim 9. An apparatus for supplying a measured amount of bulk material such as fiber to a process for processing fiber or other flowable solid bulk feed having variable moisture content, the apparatus comprising: A measuring device for measuring the amount of bulk feed such as fibers to be supplied, a weighing device for weighing the portion of the bulk feed such as fibers that is successively supplied and stored, and a weighing device for weighing the portion of the bulk feed such as fibers that is successively supplied and stored. Provides a measured value of a bulk material, such as a fiber, characterized in that it comprises a compensating device that compensates and adjusts the moisture content of the bulk material, such as a supplied gold fiber, in a compensatory manner. 12. The device according to claim 11, wherein the foot measuring device includes a moisture content measuring device. 13. The device according to claim 11, wherein the foot measuring device includes a moisture content measuring device. 14. The device according to claim 13, wherein the capacitance measuring device includes an alternating current device. 15. The device according to claim 13, wherein the capacitance measuring device is configured to include an alternating current device. 12. The apparatus according to claim 11, comprising means for estimating moisture content, including a relative humidity measuring device.16.
The device according to any one of claims 11 to 15, comprising a capacitance measuring device for measuring.