KR20060105085A - Measuring pool of food refuse - Google Patents

Abstract

The present invention is to measure the amount of storage of the weighing tank by the mechanical configuration of the iron parts that do not corrode food waste, and to automatically control the input and output of the weighing tank, it is extended from the lower center in both sides of the tank, both ends A screw conveyor is disposed inside the tubular body forming the input side and the output side, respectively, and the tank includes a configuration having a stirring screw therein, and the storage amount measuring means at a predetermined position of the lower side and the upper side in the tank. In addition to this arrangement, when a current meter detects and inputs a current value change due to a load change in the storage measuring means to the PLC, the PLC calculates and processes the input data, and accordingly, the PLC is arranged at the previous stage of the weighing tank. By controlling the transfer means immediately, the amount of food waste stored in the tank is always kept at a certain level. It is underground.

Food Waste Weighing Tank, Waste Weighing Tank, Food Waste Crushing, Stirring

Description

Measuring pool of food refuse}

1 is a schematic perspective view showing the overall configuration of a weighing tank according to the present invention;

Figure 2 is a view showing the configuration of the storage amount measuring means provided in the measuring tank of the present invention.

3 is a front sectional view of FIG.

<Description of the symbols for the main parts of the drawings>

2: tank 4: screw conveyor

6: tube 8: input side

10: output side 12: stirring blade

14: stirring screw 16a, 16b: storage amount measuring means

17; Motor 18: reducer with shaft

19; Underbody 20: Current meter

22: PLC 24: last transfer means

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metering tank, and more particularly, to a metering tank for food waste processing suitable for the purpose of pulverizing, mixing and dispensing food waste collected at a food waste disposal facility.

Among the wastes derived from human life, food wastes have recently been collected by special vehicles due to the development of recyclable technology, collected at certain places, and then recycled into food, fertilizers, etc. through biochemical treatment.

The collected food waste is once put into a storage tank, where it is sequentially sent via a conveyor means to several stages of treatment for biochemical treatment.

In general, food wastes are treated by fermentation by microorganisms, landfills which are compression molded into moisture-free masses, and the fermentation process is widely used because it has the advantage of being immediately recycled into livestock feed or agricultural fertilizer. Is in.

According to the known method of treating food waste, the collected food waste is temporarily stored in a storage tank, then transported on a conveyor to be crushed and stirred, and some moisture is removed, and then sent to a fermentation tank or a compressor for fermentation, or It is carried out in a flow which is compression molded into a block.

In such a food waste treatment method, the fermentation treatment by microorganisms is closely related to the amount of food waste to be input once and the amount of microorganisms.

Therefore, food waste that is primarily accommodated in the reservoir needs to be quantitatively managed when it is crushed and stirred and then sent to the process.

In general, the metering tank has a stirring screw and a conveying screw conveyor therein, and they are driven at a constant speed to always discharge a certain amount of crushed and stirred food waste.

In the conventional food waste metering tank, no problem occurs if the food waste distribution to the input side and the output side remains constant at the same amount.

However, if the amount of food waste supplied to the input side is larger than the discharge amount, the amount of storage in the tank is increased and overloaded. On the contrary, if the amount of food waste is supplied to the input side, the tank is in a low load state, causing problems to the facility.

Due to this problem, the manager is conventionally operating in a manager-resident manner in which the storage of the tank in the tank of the weighing tank is observed through the observation window, and the supply of the input side is controlled so that the storage is kept constant.

The operation of the manager resident system as described above is not preferable because it causes overloading of the weighing tank in the same manner when management is neglected, in addition to the problem of manpower.

In addition, the supply amount to the input side can be adjusted by installing a means for measuring the storage amount inside the tank of the weighing tank, for example, a float contact point to generate an electronic signal according to the water level. Float contacts are difficult to apply due to the high moisture content and easy corrosion.

The present invention is a food waste weighing tank storage amount that can measure the storage amount of the weighing tank in the mechanical configuration of the iron parts that do not corrode to the food waste, in order to eliminate the hassle that the manager should reside in the food waste metering tank as described above The purpose is to provide a meter.

The above object is that the screw conveyor is disposed inside the tubular body extending from the lower center on both sides of the tank, the both ends of which forms the input side and the output side, respectively, and the tank is provided with a stirring screw therein. And the storage amount measuring means is disposed at predetermined positions of the lower side and the upper side in the tank, and the current measuring unit detects a change in the current value according to the load variation in the storage measuring means and inputs the PLC to the PLC. It can be achieved by arithmetic processing of the input data, and controlling the immediately transfer means arranged in the previous stage of the weighing tank according to the result.

In order to achieve the above object, the present invention extends and attaches from the lower center at both sides of the tank, and a screw conveyor is disposed in the inner side of the tubular body with both ends forming the input side and the output side, respectively, and the tank is stirred inside. A food waste measuring tank having a screw, comprising: a storage gear measuring means including a motor having a reducer at a predetermined position at a lower side and an upper side of the tank, and a storage amount measuring means each consisting of a skin underbody intersected at the end of the shaft; The input terminal of the motor with a reducer is connected to a current meter, so that the current change according to the load change of the motor can be detected. The current meter inputs the detected current value change as data to the PLC, and the PLC According to the calculation result is configured to control the last transfer means installed in the previous step of the weighing tank .

In addition, in the present invention, the output signal of the current meter is a low current consumption value when the motor attached to the upper storage amount measuring means disposed inside the tank is measured by rotating at a constant speed outside the food waste, and also the lower level The current consumption value when the motor assigned to the storage measuring means is measured by rotating at constant speed in the food waste should be set to the lower normal reference, respectively.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments according to the accompanying drawings.

1 is a perspective view showing the configuration of the present invention, the tank (2) in which food waste is stored in a narrowly extended form, the screw conveyor (4) is built through the center extending to both sides The outer periphery is covered with the tubular body 6 so that the part extended to both sides is set to the input side 8 and the other to the output side 10. As shown in FIG.

Moreover, inside the tank 2, the stirring screw 14 provided with the stirring blade 12 in the outer periphery is arrange | positioned rotatably, and it is made to grind | pulverize and stir the stored food waste, and at the predetermined position of the lower side and the upper side Storage amount measuring means 16a and 16b are arranged.

As shown in FIG. 2, the storage amount measuring means 16a, 16b is composed of a motor 17 with a speed reducer and a subcutaneous body 18 cross-bonded to an end of the shaft 18 of the motor 17. As shown in FIG.

In practice, the reduction geared motor 17 is disposed to be exposed to the outside of the tank 2, and only the underbody 18 is provided to be positioned inside the tank 2.

In addition, the current applied to the input terminal of the motor 17 constituting the storage amount measuring means 16a and 16b is connected to be applied via the current measuring device 20, and the current measuring device 24 changes the applied current. Is input to the PLC 22 corresponding to the data.

This PLC (Programmable Logic Controller) 22 controls the immediate transfer means 24, such as a facility placed just before the weighing tank, for example, a screw conveyor for conveying food waste, in accordance with the input signal of the current meter 20. .

More specifically, the PLC 22 is inputted with data of the current consumption value according to the load applied to the motor 17 in advance, and also to determine whether the current rotation of the motor 17 is normal. Program logic is entered.

The input flow result of the program logic is based on the storage amount measuring means 16a and 16b disposed above and below, respectively, and controls the immediately preceding transfer means 24.

The reduction geared motor 17 can employ a relatively small motor waterproofed.

The storage amount measuring means 16a and 16b cause a change in the consumed current value depending on the case where the underbody 22 attached to the end of the shaft 18 rotates in the food waste and the case where it rotates outside.

However, as described in detail in FIG. 3, since the storage amount measuring means 16a and 16b are arranged in the tank 2 separately into the lower part and the upper part, these changes are used to control the environment of the opposite tank 2. Will be displayed.

That is, the upper storage amount measuring means 16a should set the current consumption value when the motor 17 rotates at a constant speed outside the food waste to the normal display, while the lower storage amount measuring means 16b is buried in the food waste state. The current consumption value at the time of constant rotation of the motor 17 should be set to the normal display.

With this setting, the amount of food waste storage in the tank 2 does not always reach the upper storage amount measuring means 16a, and at the same time, it is maintained at a level beyond the lower storage amount measuring means 16b.

More specifically, when the lower body 19 of the motor 17 is buried in the food waste and rotated in the upper storage measuring means 16a, the speed is slowed under the load, and thus the current consumption value is increased. Therefore, the signal of the current measuring device 20 transmitted to the upper storage amount detecting means 16a is recognized by the PLC 22 as the storage amount over state, and the operation speed of the immediately preceding transfer means 24 is delayed to control the food waste supply amount to be reduced.

On the contrary, when the lower body 19 is placed outside the food waste and rotated by the lower storage amount detecting means 16b, the speed is increased because there is no load rotation, and thus the current consumption value is lowered, and as a result, the lower storage amount measuring means 16b. The change of the input signal of the current measuring device 20 transmitted to the C1 is determined as the storage amount under the PLC 22, thereby controlling the supply amount of food waste by increasing the operation speed of the immediately preceding conveying means 24.

By controlling in this way, an appropriate amount of food waste can be stored in the tank 2 so that the operation of overload or no load is not performed at all times, so that the amount of food waste supplied to the subsequent process can be quantitatively controlled and supplied. have.

As described above, the present invention arranges the storage amount detecting means for rotating in the load state changed according to the storage of food waste in the upper and lower sides of the tank, the food waste supplied to the weighing tank by calculating the load change in the PLC Since the amount of control is increased or decreased, there is an advantage that the equipment can be automatically operated even if the manager does not reside.

In addition, since the present invention is configured to measure the storage amount of food waste by changing the current consumption value according to the change of the rotational speed of the motor, it is possible to manufacture the equipment without failure by manufacturing the underbody of the skin with a material such as stainless steel that does not corrode well. It also has the advantage of being operational.

Claims (2)

A screw conveyor is disposed inside the tubular body extending from the lower center on both sides of the tank, and both ends of which form an input side and an output side, respectively, and the tank is provided with a stirring screw therein. In Joe, In the tank, a storage device for measuring the speed of the motor having a reducer and a skin lower body that is cross-bonded to the end of the shaft is disposed at predetermined positions of the lower side and the upper side, and the input end of the reduced speed motor is connected to pass through a current meter to reduce the speed reducer. It is possible to detect a change in the current value of the mounted motor, and the detection signal from the current meter is inputted to the PLC and arithmetic processed so that the PLC is based on the change in the current value of the motor due to the load of food waste applied to the underbody of the skin. A food waste measuring tank configured to control a transfer means immediately before the calculated value to maintain a constant level of food waste stored in the tank at all times. The food waste metering tank according to claim 1, wherein the normal display conditions of the motor with the reducer of the upper storage amount measuring means arranged in the tank and the motor with the reducer of the lower storage amount measuring means are set to be opposite to each other.

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