RU2658388C1 - Organic waste accelerated composting device - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to agriculture, in particular to the solid manure pack thermal disinfection process automated control devices. Organic waste accelerated composting device contains mounted on the self-propelled storing bunkers mulcher body fixed frame, connected to the scanning frame and the frame moving mechanism. Scanning frame consists of transverse bar with attached to it scanning rods, on each of which installed are sensors of temperature and humidity with the of scanning coordinates affixment by the GPS technology and entry into the on-board computer. Depending on the obtained values, the on-board computer determines the biologically active additive doses addition required number, facilitating the storing bunker accelerated self-heating, and the mulcher passes.

EFFECT: invention provides reduction in the manure disinfection and processing time for the concentrated organic fertilizers accelerated production.

1 cl, 4 dwg

Description

The invention relates to agriculture, in particular to automated devices for controlling the process of thermal disinfection of a pile of solid manure.

The device allows you to determine the basic physico-mechanical parameters of the dung pile (temperature and humidity at the control points of the pile), affecting the process of thermal disinfection of solid manure.

A continuous composter is known (patent WO 9520554, class C05F 17/02, dated January 25, 1995), which provides for the stepwise movement of unbound fermentation containers along rails from a single loading point to unloading using push plungers. This design significantly limits the maximum length, and therefore the volume of each of the fermentation tanks, to the size of the technically feasible plunger stroke, does not control the physical parameters of the feedstock and does not control the composting process, and also has significant metal consumption and energy consumption.

A device for composting is known (GB patent No. 2317383, C05F 17/02 of 09/18/1996), consisting of stationary containers for receiving and fermenting organic waste, into each of which air is supplied through controlled valves through a distribution pipe, which intensifies the process in each individual container. Such a device does not allow controlling the physical parameters of the raw materials and controlling the composting process, the volume of composted raw materials is limited by the number of containers, and the device itself is characterized by a significant metal consumption of the structure.

A device for composting is known (patent RU No. 2271883 C1 of 20.10.2004), including means for supplying raw materials, fermentation tanks equipped with aeration devices, means for moving and unloading the finished product, made multi-row, consisting of parallel guides installed on a common platform for longitudinal and lateral movement of fermentation tanks kinematically connected with each other and with a device for longitudinal movement. This design also does not allow controlling the physical parameters of the raw materials and controlling the composting process, the volume of composted raw materials is limited by the number of containers, and is characterized by a significant metal and energy consumption of the structure.

The objective of the present invention is to reduce the time of disinfection and processing of manure (litter) to accelerate the production of concentrated organic fertilizers (KOU).

To address these shortcomings, a device is proposed for the accelerated processing of manure and other organic waste with the control of the process of its processing and the possibility of introducing a biologically active additive (BAA).

To solve the problem in the proposed device, the result is achieved by uniformly mixing the contents throughout the bulk of the pile, contributing to its accelerated self-heating to 65-70 ° C and bringing the moisture of the dung mass to less than 70%, with holding at such parameters for 36-48 hours.

Mixing manure in the shoulders is carried out by a self-propelled agitator with a system for monitoring parameters and adding dietary supplements installed on it.

The proposed device operates as follows. Manure is transported to the bailing site and is formed into bumps. After 4-6 hours, the temperature and humidity of the manure are measured at the beginning, middle and end of the pile, followed by mixing of the layers. The on-board computer analyzes the obtained measurement results. If, as a result of measurements at control points, the temperature is less than 65 ° С and humidity is more than 70%, after 8 hours the measurement and mixing process is repeated until the values of the controlled indicators are reached. After reaching temperature values of 65 ° С and humidity less than 70% at control points and keeping these indicators for 24 hours, the composting process is considered completed and the obtained KOUs are ready for use.

A device for implementing the proposed method (Fig. 1) contains a fixed frame 2 mounted on the housing 1 of the self-propelled tiller agitator, connected to the scanning frame 3 and the frame moving mechanism 4. The scanning frame 3 is moved forward in the direction of travel of the self-propelled tiller by 2 meters, which allows scan temperature and humidity directly in the center (core) of the dunghill. The scanning frame 3 consists of a transverse strip 5 with scanning rods 6 of triangular shape rigidly fixed on it. On each scanning rod 6, temperature sensors 7 and humidity sensors 8 (Fig. 1, A-A) are installed, which, when immersed in the scanning rods 6 in the manure collar, measure temperature and humidity at the control points of the collar, a diagram of which is shown in FIG. . 2. Capacitive sensors are used as humidity sensors 8, which record the change in capacitance with a change in humidity of the substance located between the sensor plates. Raising and lowering the scanning frame 3 is carried out using the mechanism for moving the frame 4, located in the center of the fixed frame 2. The mechanism for moving the frame 4 (Fig. 3) consists of a fixed rod 9 with a thread, the lower part of the center fixed movable scanning frame 3. On a fixed the rod 9 rotates on a support bearing 10 mounted on a fixed frame 2, a gear 11, which is driven by a smaller diameter gear 12 engaged with it, mounted on a shaft of a reversing electric motor 27. Also on The limit switch of the upper position 21 and the limit switch of the lower position 22 are located in the anizing frame. To prevent the skew and turn of the scanning frame 3 during its vertical movement, two guides 14 and 15 are mounted on the scanning frame 3 and passing through the holes in the fixed frame 2. Rod 9 protected from moisture and dust by the upper 16 and lower 17 telescopic covers, one of which opens when the scanning frame is moved, and the other closes. A plate 23 with cuffs of elastic material, a laser emitter 18 on one side and an optical sensor for receiving a laser beam 19 on the other are also fixed on a fixed frame. An on-board computer 20 is located near the workplace of the agitator operator. The biologically active additive application system contains a container 24, an electromagnetic valve 25 for adjusting the doses of dietary supplements and nozzles for its application 26.

The proposed device is illustrated by drawings. In FIG. 1a shows a self-propelled agitator with a device in a transport position. In FIG. 1b shows a self-propelled agitator with a device in the scanning position of the temperature and humidity of the collar. In FIG. 2 shows a diagram of control points for scanning a dunghill. In FIG. 3 shows the lifting mechanism of the scanning frame. In FIG. 4 diagram of the passage of the agitator collar.

The proposed device operates as follows.

A self-propelled collar agitator, controlled by an operator, approaches the control point A (Fig. 4) at the beginning of the collar, the edge of which is determined by the overlap of the laser beam emitted by the laser diode 18. The optical sensor for receiving the laser beam 19 transmits a signal indicating the correspondence of the position of the scanning device to the test measurement point. The on-board computer 20, located in the operator's cab, sends a signal to turn on the electric motor 27 in the lowering mode of the scanning frame. On the moving mechanism there is a limit switch of the upper position 21 and a limit switch of the lower position 22 of the scanning frame, which signal the on-board computer to stop the movement mechanism to prevent damage when moving up or deepening the scanning rods below the control points when moving down. After the limit switch of the lower position 22 is activated, the on-board computer starts the polling program for temperature and humidity sensors. After saving the obtained temperature and humidity values, these parameters are coordinated using the Global Positionning Sistem satellite communication system (“To the future with the Global Positioning Sistem (GPS) system. Prospect of the Massey Fergusson company”) and with coordinate reference are recorded in the on-board computer memory. The on-board computer sends a signal to start the rotation of the electric motor in the direction corresponding to the rise of the scanning frame. To clean the scanning rods 6 from the remains of manure adhering during scanning in order to eliminate measurement errors, a plate 23 with cuffs of elastic material is rigidly fixed to the fixed frame. When the limit switch of the upper position 21 is activated, the motor is turned off and the scanning frame stops. The on-board computer sends a signal to move the self-propelled agitator to the next control point B (Fig. 4), the distance to which is determined by coordinate using a satellite communications system (GPS) and the scanning process is repeated. In parallel, when moving to the next control point B, a self-propelled agitator of the shoulders mixes the layers of the shoulder with its re-formation. The scanning process at point B is completed (Fig. 4). After completion of the scanning process using software, the data is processed to determine the timing of the next scan and tedding of the shoulder, as well as the possible introduction of a liquid dietary supplement.

After receiving the result of processing the scan data, the self-propelled tedder of collapses unfolds, approaches point B on the opposite side of the collar, and begins to perform the reverse movement, producing, in accordance with the software-defined mode, the collar with the possible addition of dietary supplement. In the case of choosing a dietary supplement regimen, the electromagnetic valve 25 for controlling the doses of dietary supplements, controlled by the on-board computer 20, includes the supply of a biologically active additive determined by the dose software from the tank 24 through nozzles for its introduction 26.

The proposed device for accelerated composting of organic waste can significantly reduce the process of thermal disinfection of solid manure, which helps to reduce environmental pollution by organic waste from animal husbandry and to obtain high-quality concentrated organic fertilizer.

Claims (1)

An accelerated composting device for organic waste containing a fixed frame mounted on the housing of a self-propelled tiller, connected to a scanning frame and a frame moving mechanism, the scanning frame consists of a transverse bar with scanning rods fixed to it, each of which has temperature and humidity sensors with coordinate scanning by GPS technology and entering into the on-board computer, which, depending on the received values, determines the required number of h the introduction of biologically active additives that contribute to the accelerated self-heating of the shoulder, and passages of the agitator.

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