RU2439870C1 - Device for pressing of bird droppings - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device comprises a perforated casing with a hopper, a helical screw and a drive. The perforated surface of the casing is arranged in the sector 20…340° and ends with an admixture-accumulating chamber. The helical screw in the end part is equipped with pressing rolls in amount of at least three. Rolls are arranged along the helical line with even central angles, with increasing diameters from the first to the last one, determined using the formula d_n=d₁+(n-1)k, where d - diameter of the pressing roll, n pressing roll, k - progression pitch, k>0. The total length of rolls equals length of the perforated surface of the screw body, against which they rest with their cylindrical surfaces, and being equipped with damping devices. The admixture-accumulating chamber is placed in the rear part of the screw casing and has a spring-loaded cover with an adjustable opening force.

EFFECT: higher efficiency of the device and reduced power inputs.

4 cl, 3 dwg

Description

The invention relates to agriculture, in particular to a device for pressing bird droppings.

A device for extruding plant materials in the processing industries of the agricultural sector (RF patent No. 2092318, class B30B 9/12, B28B 3/22, 1997), adopted for the analogue, containing a hopper, a housing with a sleeve, a screw with blades and a multi-channel press tool.

The disadvantages of this device is the low productivity and high energy intensity of the device, it is possible to rotate the mass with a screw.

Closest to the technical nature of the claimed is a pressing device included in the processing line for processing bird droppings (RF patent No. 2049379, CL A01C 3/02, 1995), adopted as a prototype, including a perforated housing with a dispenser and an unloading window, two-way auger drive.

The disadvantage of this device is its low productivity, the presence of impurities in the litter (bird feather, undigested food residues), and high energy consumption of the device.

The objective of the invention is to increase the productivity of the device by ensuring uniform punching of the droppings through the perforated surface during the formation of pellets, the removal of impurities while reducing energy consumption.

This is achieved due to the fact that in the proposed design of the device comprising a housing with a hopper, a screw screw and a drive, in contrast to the prototype, a perforated surface is placed on the housing in a sector of 20 ... 340 ° and ends with an impurity storage chamber, and the screw screw in the end part is equipped with pressing rollers in an amount of at least three, located along a helix with equal central angles, with increasing diameters of the rollers from the first to the last, the size of which is determined by the formula

d _n = d ₁ + (n-1) × k,

where d is the diameter of the pressing roller,

nth pressing roller

k is the progression step, k> 0,

the total length of the rollers is equal to the length of the perforated surface of the screw housing, into which they abut against their cylindrical surfaces and are equipped with damping devices. The impurity chamber in the rear part of the auger housing has a spring-loaded lid with an adjustable opening force. Press rollers are installed without overlapping and have an elastoplastic coating, springs are installed as damping devices. The holes of the perforated surface of the housing are made in the form of a truncated cone, with a smaller base to the outer surface of the housing.

Performing perforation over the entire cylindrical surface of the screw leads to the formation in the upper part of the cylindrical body (sector from 340 ... 20 °) of a pile pressed through the holes of the marked mass, which reduces the efficient use of the perforated surface and increases energy consumption in the manufacture of pellets. To avoid this, taking into account the physicomechanical properties of the litter, the perforated surface is limited to the sector 20 ... 340 °, which allows pellets to slide into the tray for the finished product.

For the accumulation and further unloading of various impurities contained in the litter (feather, undigested food residues, etc.), the device has an impurity storage chamber, which is equipped with a spring-loaded lid with an adjustable opening force.

To increase the intensity of litter passage through openings in the end part of the device, pressing rollers are installed in close proximity to the perforated surface of the housing.

The presence of pressing rollers in an amount of at least three and their placement in the end part of the screw with equal central angles ensures self-centering of the screw cantileverly mounted in the drive part of the housing on a self-aligning bearing, and also allows it to deviate from its axis when solid impurities get under the screw surface or pressing rollers, excluding jamming and deformation of device elements.

The location of the press rolls along the helical line without overlapping eliminates the re-passage of the rolls along the previously machined perforated surface of the cylindrical body in one revolution of the press rolls, increases the efficiency of use of the inventive device, reduces the energy consumption for scrolling the screw auger.

Changing the diameters of the pressing rollers provides an increase in the gripping angle of each subsequent pressing roller of the droppings when punching through the perforated surface of the housing. This change allows you to completely fill the inner space of the screw housing with a perforated surface during the pressing process and provide an increase in the load of the rollers from the first to the last.

For effective use of the perforated surface and reduction of energy consumption during punching and pellet formation, the total length of the pressing rollers is equal to the length of the perforated part of the screw housing. With a smaller total length of the rollers, the dropping of the litter through the holes of the perforated surface of the body occurs only due to the movement of the mass from the rotation of the screw, which leads to a decrease in the bursting efficiency and productivity of the device. With a larger total length of the pressing rollers, additional power costs arise for turning the device shaft, which affects energy consumption.

The interaction of the cylindrical generatrix of the pressing rollers with the housing ensures the functional performance of the claimed device.

The elastic-plastic coating of the pressing rollers (in this case, rubber) provides more complete contact with the perforated surface and, due to the lower slip coefficient, allows more efficiently pushing the litter through the holes.

Damping devices (springs) allow the pressing rollers, when interacting with impurities, to change their spatial position (raising or lowering the racks) relative to the perforated surface of the casing, without causing deformation of the casing itself and jamming of the screw auger.

Litter, depending on the type of bird, the method of their maintenance, the type of bedding material and other factors, has various physical and mechanical properties (density, humidity, ductility, etc.) that affect the process of forcing through holes in a perforated surface. The change in the pressing force of the pressing rollers to the cylindrical body provides a maximum amount of squeezable mass with various properties of the litter.

Reducing or increasing the length of the springs allows you to change the pressing force of the pressing rollers to the perforated surface of the screw housing.

The implementation of the holes in the form of a truncated cone, a smaller base to the outer surface of the housing allows additional prepressing of the mass when passing through the holes of the perforated surface of the housing of the device.

The invention is illustrated by drawings. Figure 1 presents a General diagram of the inventive device for pressing bird droppings; figure 2 - node B in an enlarged view from figure 1; figure 3 is a section aa from figure 1.

A device for pressing bird droppings (figure 1) contains a cylindrical housing 1 with a hopper 2 mounted on it, a drive (not shown conditionally). The screw auger 3 is placed in a cylindrical housing 1. The cylindrical housing 1 in the end part in the sector 20 ... 340 ° has a perforated surface 5 with conical holes. Press rollers 4 in the amount of three pieces with diameters d ₁ , d ₂ , d ₃ (Fig. 3) are located in the inter-turn space of the screw 3 so that their total length is equal to the length of the perforated surface 5 of the housing 1. Axis 11 (Fig. 2) of the press the roller 4 is placed by means of the racks 14 and nuts 15 on the shaft of the screw 3. The pressing rollers 4 are pressed against the perforated surface 5 of the cylindrical body 1 by the springs 13. The pressing force is regulated by the nuts 15 through the window of the manhole 10 located at the top of the cylindrical body 1. At the end of the cylindrical corp The mustache 1 contains an impurity storage chamber 7 (Fig. 1) with a spring-loaded adjustable cover 8. At the bottom of the device there are trays 6 and 9 for removing finished pellets and solid impurities, respectively.

A device for pressing bird droppings works as follows. Litter through the hopper 2 is fed into the cylindrical body 1, is captured by a turn 12 (figure 2) of the screw 3 and moves to the perforated surface 5 of the cylindrical body 1. Under the action of the spring-loaded pressing rollers 4, the mass is forced through the conical holes of the perforated part 5 of the housing 1 and enters the tray 6 for the descent of finished pellets.

Upon receipt of an impurity having a size larger than the hole size to the pressing roller 4, the pressing roller 4 rises above the perforated surface 5 of the cylindrical body 1 and is rolled through it. The impurity, being on the other side of the pressing roller 4, is captured by the coil 12 of the screw 3 and moves into the impurity storage chamber 7. After passing the impurities under the action of the springs 13, the pressing roller 4 returns to its original position.

To regulate the pressing force of the pushing rollers 4 to the cylindrical body 1, in the upper part of the cylindrical body 1 there is a window with a retractable hatch 10 (Fig.1, 3). Sliding the hatch 10 through the window provides access to the uprights 14 and nuts 15 to make the necessary adjustments. The rotation of the nuts 15 is the extension or compression of the springs 13 punching rollers 4.

Solid impurities, gradually filling the impurity storage chamber 7, creating pressure in it, act on the spring-loaded cover 8. As a result, the spring-loaded cover 8 is opened, and the impurities are discharged from the impurity storage chamber 7 into the tray 9 for the impurities to discharge. The camera is cleaned periodically.

Thus, punching of bird droppings through the perforated surface 5 of the cylindrical body 1 is carried out, pellets are formed and the material is cleaned of impurities.

The use of the inventive device allows for uniform pushing of the droppings through the perforated surface during the formation of pellets, the removal of impurities and the reduction of energy consumption.

Claims (4)

1. A device for pressing bird droppings containing a perforated housing with a hopper, a screw auger and a drive, characterized in that the perforated surface of the housing is located in the sector 20 ... 340 ° and ends with an impurity storage chamber, and the screw auger in the end part is equipped with compression rollers in an amount not less than three, located along a helix with equal central angles, with increasing diameters of the rollers from the first to the last, determined by the formula d _n = d ₁ + (n-1) k,
where d is the diameter of the pressing roller;
n-th pressing roller;
k is the progression step, k> 0,
the total length of the rollers is equal to the length of the perforated surface of the screw housing, into which they abut against their cylindrical surfaces and are equipped with damping devices, while the impurity storage chamber located in the rear of the screw housing has a spring-loaded cover with an adjustable opening force. 2. The device according to claim 1, characterized in that the pressing rollers are installed without overlapping and have an elastoplastic coating. 3. The device according to claim 1, characterized in that the damping devices are springs. 4. The device according to claim 1, characterized in that the holes of the perforated surface of the housing are made in the form of a truncated cone with a smaller base to the outer surface of the housing.

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