KR100335512B1 - apparatus for reducing garbage volume - Google Patents

Abstract

The present invention provides a food waste reduction apparatus in which the food wastes can be satisfactorily applied without being stuck to the container. In the reducing apparatus of the present invention, the stirring blade 12 is provided in a container 2 containing food waste such as a residual plate, and the hot air supply means 10 is connected to the container 2 to exhaust the generated steam. The exhaust passage 9 is connected, the degree of reduction of food waste is determined by this exhaust temperature, and the heating of the heater 7b is stopped. In addition, the supply temperature was controlled to an upper limit of about 200 ° C.

Description

Apparatus for reducing garbage volume

The present invention relates to a food waste reducing apparatus for reducing food waste such as residue.

Conventionally, a large amount of food waste is discharged from a restaurant or a food processing factory, and this large amount of food waste has various serious effects on environmental problems such as recovery efficiency, disposal cost, corruption and odor. In addition, the food waste is incinerated, but there is a problem that incinerators can not afford it because it occurs in large quantities. Therefore, it has also been attempted to compost food wastes by aerobic treatment, but since the current food wastes contain a large amount of salts, even composting could not serve as a fertilizer.

Therefore, there is a strong demand for the need to reduce its capacity before recovering the food waste.

Most of the food waste is water, and it is attempted to reduce the amount of food waste by removing this water. Therefore, many food waste treatment products have been proposed for heating food waste in a drying container to evaporate moisture. However, by simply heating the food waste to a high temperature, or the food waste is stuck to the container because it is stuck, there is a problem that must be removed in the container for repeated use.

The present invention has been made to solve the above problems, an object of the present invention is to provide a food waste reduction apparatus that can be satisfactorily applied without agglomeration phenomenon and without pressing debris of food waste on the container. .

The above and other objects of the present invention can be achieved by the present invention described below.

Hereinafter, with reference to the accompanying drawings will be described in detail the contents of the present invention.

1 is a front sectional view showing one embodiment of the present invention.

2 is a right side view.

Fig. 3 is a control block diagram of a dressing apparatus showing one embodiment of the present invention.

Figure 4 is an enlarged view of the stirring blade according to the present invention.

Brief description of the main symbols in the drawings

1: body 2: container

7b: Heater 9: Exhaust Aisle

10: hot air supply means 12: stirring blade

26: exhaust temperature sensor

In order to achieve the above object, the present invention is provided with a stirring blade for mixing the food waste in the interior of the container containing the food waste, such as residual plate, the hot air supply for supplying a warm air heated to about 200 ℃ by a heater to the container It is a food waste reducing apparatus which connected the means and connected the exhaust path which exhausts the generated steam.

An exhaust temperature sensor is provided in the exhaust passage, and the food waste reduction apparatus determines the degree of food waste at the temperature detected by the exhaust temperature sensor, controls to stop heating of the heater, and performs rotation speed control of the stirring blade. to be.

The hot air supply means is a food waste reduction apparatus for controlling and maintaining the temperature after the supply temperature reaches about 200 ° C. by initially supplying moderate warm air and sequentially raising the temperature in order to prevent agglomeration of the residue. .

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

1 and 2, a horizontal cylindrical container 2 for storing food waste, such as a remainder, is fixed to the inner center of the main body 1 by a support plate 3. As shown in FIG. In the bottom part of the main body 1, a storage box 4 for storing electronic devices such as a controller to be described later is provided. On the storage box 4, the motor 5, the air fan 6, and the heating part 7 are provided. The heater 7b is provided in the passage 7a through which the air from the air fan 6 passes, and the heater 7b heats the air to about 200 ° C.

The upper part of the container 2 has a food waste inlet 8, an exhaust passage 9, and a warm air supply means 10 comprising an air fan 6 and a heating unit 7, and a lower part of the food waste outlet 11. ) Is installed.

The stirring blade 12 is provided in the inside of the said container 2. The stirring blade 12 is provided at the tip of the three rod-shaped support portions 13 and the support portions 13 attached to the rotating shaft 15 at equal intervals of 120 degrees and contacts the inner circumference of the container to remove waste. The scraper 14 is scraped off.

In addition, the rotating shaft 15 of the stirring blade 12 is connected to the motor 5 via the chain 16.

The food waste inlet 8 is provided with a hopper 18 for guiding the food waste to the container 2, and an opening lid 17 that can be opened and closed is attached to the hopper. The exhaust passage 9 is gradually enlarged toward the upper portion, and an exhaust port 20 of steam passing through the filter 19 is provided in the upper portion of the main body in which the filter 19 is provided on the upper portion of the exhaust passage 9.

The food waste outlet 11 is formed by a takeout cover 21 which can be opened and closed by a part of the container 2 and a chute 23 for guiding the food waste after reduction to the product port 22.

FIG. 3 shows a control block diagram of the reduction apparatus described with reference to FIGS. 1 and 2.

As shown in FIG. 3, the motor 5, which is connected to the stirring blade 12, is driven by an inverter device 24, which is controlled by a controller 27 to control the stirring blade 12. It is possible to control the number of revolutions.

In addition, the air supplied to the passage 7a by the air fan 6 is heated by the heater 7b in the passage 7a and supplied to the container 2. The supply temperature sensor 25 is connected immediately after the heating unit 7, and the supply current to the heater 7b is controlled by the controller 27 according to the temperature detected by the supply temperature sensor 25, and the supply temperature is adjusted. It is managed. An exhaust temperature sensor 26 is connected to the exhaust passage 9, and according to the temperature detected by the exhaust temperature sensor 26, the controller 27 controls the amount of electricity supplied to the heater 7b to manage the exhaust temperature. It is supposed to be.

Although the case where the support part 13 has three rod shape was demonstrated in this embodiment, what kind of thing may be sufficient as long as it can stir food waste. Moreover, the shape of the support part 13 and the scraper 14 should just be a thing which can stir food waste, and may be a thing different from this embodiment.

Next, the operation of the present invention will be described in detail.

Food waste, such as residue, is supplied to the container 2 via the hopper 18 in the food waste inlet 8. Then the closing lid 17 is closed. The food waste supplied to the container 2 is mixed by the stirring blade 12.

The air supplied to the passage 7a by the air fan 6 is heated by the heater 7b and supplied to the container 2. The food waste in the container 2 is heated by warm air, and is reduced while gradually evaporating moisture. The vapor generated when evaporating is exhausted from the exhaust port 20 via the filter 19 through the exhaust passage 9. The debris adhering to the filter 19 is again supplied to the container 2. The reduced food waste is supplied from the food waste outlet 11 to the product port 22 via the chute 23.

The stirring blade 12 is controlled by the controller 27 and the inverter device 24 to rotate very slowly at first, and then to sequentially increase the rotation speed. The container 2 is supplied with warm air heated by the heater 7b in the passage 7a. The supply temperature is controlled by the supply temperature sensor 25 to initially start at a medium temperature of about 40 ° C. and subsequently raise the temperature to maintain a constant up to about 200 ° C.

At first, it starts slowly at moderate temperature, which prevents agglomeration of food waste. In addition, by controlling the supply temperature to the upper limit of about 200 ℃ it can also prevent the crushed food waste sticking to the container.

Vapor in the vessel 2 passes through the exhaust passage 9 and is discharged from the exhaust hole 20 through the filter 19. When the exhaust temperature sensor 26 is connected to the exhaust passage 9 and the exhaust temperature is about 80 ° C, the heater 7b is stopped. That is, in the state where the food waste water content is high, the amount of evaporation is large, and the temperature detected by the exhaust temperature sensor 26 is about 50 ° C or less. After that, when the moisture content of the food waste becomes less than about 50% by the saponification, the food waste in the container 2 becomes less likely to aggregate even if the temperature is raised, and when the water content is low, the waste water becomes turquoise and evaporates. The exhaust temperature increases. Therefore, when the exhaust temperature is about 80 ° C. or more, it is determined that the reduction is completed, and unnecessary heating is prevented by stopping the heater 7b. After stopping the heater 7b, air cooling is performed for about 15 minutes to remove residual steam to complete the reduction.

In addition, the rotation speed of the stirring blade 12 is controlled according to the degree of availability. In this case, when the water content is in the permeable state of 50% or less, it is better to increase the rotational speed to promote the drying and granulation.

In another embodiment, as shown in Figs. 4A and 4B, the rotating shaft 15 and the supporting portion 13 constituting the stirring blades 12 are hollow and at the same time these supporting portions 13 are formed. As shown in Fig. 4C, the nozzle 28 is provided with a nozzle 28 for injecting warm air. The warm air heated by the heater 7b is supplied to the hollow part of the support part 13 through the inside of the rotating shaft 15. The warm air in the support part 13 is supplied to the container 2 from the nozzle 28 provided in the support part 13. By supplying warm air from the support part 13, it is possible to supply warm air to every corner of the food waste to be put into the container 2 to every corner to enhance the drying effect.

As described above, according to the present invention, it is possible to satisfactorily reduce the waste of food waste such as residue and stick to the container, and to improve the collection efficiency of food waste and to reduce the processing cost. . In addition, unnecessary heating can be prevented after the completion of the reduction, and it is possible to minimize the consumption of energy.

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (6)

In the device for reducing the amount of food waste, such as residue by removing moisture, A container having an openable closing cover and an outlet of the reduced food waste; A stirring blade made of a rotating shaft and a plurality of supporting parts attached to the rotating shaft and accommodated in the container; Hot air supply means connected to the container and for supplying warm air heated by a heater into the container; An exhaust passage connected to the vessel, for discharging steam generated from the vessel, and having a temperature sensor for measuring a temperature of the discharged steam; And A control device for determining a degree of reduction of food waste through the temperature of the discharged steam measured by the temperature sensor installed in the exhaust passage, and controlling the start and stop of the heater or the rotation speed of the stirring blade according to the determination; Food waste reduction apparatus, characterized in that consisting of. The food waste reduction apparatus according to claim 1, wherein the controller stops the heater and increases the rotation speed of the stirring blade when the temperature of the discharged steam is about 80 ° C or more. According to claim 1 or 2, wherein the hot air supply means to initially supply a warm air of about 40 ℃ to prevent agglomeration of the residue and gradually increase the temperature of the temperature of the hot air has reached about 200 ℃ After the food waste reduction device, it characterized in that to maintain the temperature. The hot air supplied from the hot air supply means according to claim 1 or 2, wherein the rotary shaft and the support portion are hollow rods, and the support portion is provided with a plurality of nozzles, and the hot air supply means is connected to the rotary shaft. Food waste reduction apparatus characterized in that it is supplied into the container through the plurality of nozzles. In the process for reducing the amount of food waste by supplying heated warm air to the food waste inside the container to remove moisture, Initially supplying warm air heated to about 40 ° C. and sequentially increasing the temperature to maintain the temperature when the temperature of the warm air reaches about 200 ° C .; And Measuring the temperature of the steam discharged from the vessel and stopping heating of the warm air when the temperature of the steam is about 80 ° C. or more; Control method of food waste reduction apparatus, characterized in that consisting of steps. 6. The method of controlling food waste reducing apparatus according to claim 5, further comprising increasing the number of revolutions of the stirring blades installed in the container when the temperature of the steam is about 80 ° C or more.