RU78630U1 - CELL BATTERY FOR GROWING BROILERS - Google Patents

Abstract

A cell battery for growing broilers, comprising a longline frame with cells placed therein, formed by transverse and longitudinal partitions, cell floors installed in the frame guides with the possibility of lateral movement, tape marking conveyors, characterized in that the floors of the cells separated by longitudinal partitions are installed in guiding the frame so that the floors of the cells placed on one side of the frame are located below the floors of the cells placed on the other side of the frame, while the floors have are made with the possibility of parallel movement relative to each other in a horizontal plane inside the frame, in addition, the cell floors are equipped with handles for moving.

Description

The utility model relates to the field of agriculture, in particular to devices for the cellular maintenance of poultry.

Known cell battery for growing broilers, containing a frame with tiered cells that are formed by transverse and longitudinal partitions, battery cells on both sides are closed by removable doors, tape marking conveyors are installed under the cell floors, watering lines with two microcup troughs on each side are placed inside the cells cells, on both sides of the cell battery frame on each tier are fixed feeders, on the guide corners located in the upper part of the battery The feed trolley is in. Broilers are unloaded from the battery into vehicles by a conveyor belt. Each conveyor serves two batteries. Conveyor sections are collected in the passage between the batteries. When unloading, the bird is pushed out of the cages with special pushers, manually unloaded onto the conveyor belt, which carries the bird to the receiving table, from where the workers load it into vehicles. At the end of the unloading of the first two batteries, the conveyor is transferred to another position in the passage between the next two batteries. (See Set of automated equipment K-P-13 for growing broilers, prospectus of JSC "GSKB Pyatigorsk").

A disadvantage of the known cell battery is that the bird unloading system does not significantly reduce labor costs and completely mechanize the most labor-intensive operation.

Known cell battery for growing broilers containing cells formed only by transverse partitions, the floor of the cells consists of six sliding parts, the movement of which is carried out

along rails supporting the floor grill. Belt markers are built into the battery, which are located under the cage floors and at the same time serve to unload the birds at the end of the growing cycle. The sliding parts of the floor have handles, beyond which the operator pushes the individual parts of the floor out of the cage with the movement of the bird, and the bird enters the litter conveyor belt and moves to the end of the battery for unloading. In this case, the moving parts of the cell floor are installed with the possibility of their extension beyond the cells on both sides of the cell battery, into the technological passages between the rows of batteries. (See TBB Cell Battery for Chickens with Automatic Poultry Unloading, Ukraine, prospectus of the Techna manufacturing company,.; Set of equipment for broiler growing Farmer Automatic Broiler System, prospectus of Farmer Automatic · Josef Kühlmann GMbH & CoKG, Germany).

A disadvantage of the known cell battery is the need to expand technological passages between the rows of batteries, because the extension of the floors is carried out beyond the dimensions of the cell battery, which reduces the efficiency of using the area of the house and reduces the density of the birds per square meter of the house floor. In addition, the operational reliability of the moving parts of the floor is reduced, as they are pushed into the technological passage beyond the dimensions of the cell and move without guides, while they bend, which creates the prerequisites for reducing their durability.

Currently, in industrial poultry farming, it is more profitable for poultry farms to work with multi-tier cage equipment with a more compact arrangement of cells, in these batteries the cells are formed by transverse and longitudinal partitions, and instead of longitudinal partitions in the batteries, air ducts can be installed that act as longitudinal partitions and create a favorable microclimate in the house. In such batteries with a hopper feeding system and a feed chute, it is structurally difficult to use movable floors that are extendable from the outside of the battery

for the dimensions of the cell battery, and not profitable, because the efficiency of using the area of the house is reduced. These cell batteries are mechanized as much as possible and provide more rational use of the house area. (see. Set of cell batteries for growing broilers KP-8 prospectus of JSC "GSKB Pyatigorsk"). But the disadvantage of the KP-8 cell battery is that the bird is unloaded manually.

The inventive utility model is aimed at creating a cell battery with moving floors of the cells, which, when moving them to the position for unloading the birds, do not protrude beyond the dimensions of the cell battery, which provides a more rational use of the area of the house, increasing the convenience of maintenance and reducing labor costs when unloading the bird.

The specified technical result is achieved by the fact that in the known cell battery for growing broilers containing a frame with tiered cells, which are formed by transverse and longitudinal partitions and having movable floors, under which tape marking conveyors are located, according to a useful model, movable cell floors are installed in the frame guides so that the floors of cells placed on the left side of the frame are installed below the floors of cells placed on the right side of the frame, in addition the floor installed in the guide frame to move inside the carcass in a horizontal plane parallel with respect to each other. The floors of the cages are equipped with handles for the operator to move them to the unloading position of the bird: the floors of cages placed, for example, on the left side of the frame are pushed behind the handle by themselves, and these floors move under the upstream floors of cages on the right side of the frame, and the bird floor with longitudinal partitions, gets on the moving belt of the manure collection conveyor, while one floor is located under the other and does not go beyond the dimensions of the cell battery, the floors move only along the guides, do not bend and do not occupy of the space in the process pass, and improves comfort

service. In addition, the handles of the upstream floors when moving to the left side to unload the birds at the same time return the downstream floors to their original position. Between the cells installed longitudinal partitions or ducts that perform the function of longitudinal partitions.

The proposed cell battery, due to the described structural embodiment, acquires new properties that are not inherent in the known solutions. Through the use of moving cage floors, which, when shifted to the position for unloading the bird, do not protrude beyond the dimensions of the cell battery, the efficiency of the use of the house’s area is increased, the operational reliability of the moving floors is increased, serviceability is improved, and labor costs are reduced when unloading the bird from cages due to mechanization of this process.

The essence of the utility model is illustrated by drawings and diagrams.

Figure 1 shows a cell battery, a cross section; figure 2 - frame guide with moving floors located in them, cross section; figure 3 - moving floor, top view; figure 4 - arrangement of floors when unloading poultry.

The cell battery contains a tiered frame 1 with cells 2, which are formed by transverse 3 and longitudinal 4 partitions. The cells contain doors 5, the floors of 6 cells 2, located on the left side of the frame 1, are located below the floors of 7 cells 2, located on the right side of the frame 1. Floors 6 and 7 are made in the form of a frame with a mesh cloth. In this case, the floors 6, 7 are installed in the guides 8 of the frame 1 with the possibility of moving inside the frame 1 in a horizontal plane parallel to one another and do not protrude beyond the dimensions of the cell battery. The guides 8 are made in the form of a channel, and the upper shelf of the channel of the upstream guide 8 is made wider than the lower shelf, which protects the guides from contamination by droppings. Under the floors 6, 7 of each tier of cages 2 at a distance greater than the height of the bird, tape labeling conveyors 9 are located. Feeders are installed on each tier of the frame 1

10 and water pipes 11 running along the entire cell battery with nipple drinkers and drop catchers 12 or microcup drinkers. Floors 6, 7 of cells 2 have handles 13 that serve to move floors 6, 7 by the operator. In this case, the handle 13 of the upstream floor 7 also serves to jointly move the floors 6 and 7 when moving to the position for unloading the birds of the floor 7 to the left side of the frame 1, i.e. returns the underlying floor 6 to its original position. To distribute feed to the feeders, a mounted feed distributor 14 is installed on the frame.

The process of unloading poultry is as follows. The operator, walking along the left side of the cell battery, alternately moves the floors 6 of each cell 2 to the right side of the battery using the handle 13, pushing it away from him. At the same time, the floors 6 are moved in the guides 8 of the frame 1 under the floors of 7 cages 2 located on the right side of the battery, and the bird is dumped onto the conveyor belts 9, being pushed from the floors by stationary longitudinal partitions 4. When unloading the bird from the cages 2 located on the right side of the battery the operator moves the floors 7 with the handle 13, also pushing it away from him, while the said handle 13 captures the lower floor 6 and both floors 6 and 7 together move to the left side of the battery, i.e. floor 6 during this movement returns to its original position, and the bird, being pushed out by the longitudinal partition 4, is discharged from floor 7 to the conveyor belt 9. After the bird has been completely unloaded from both sides of the battery, the floors 7 are moved to the right side of the frame 1, to the initial position.

The use of the claimed utility model in comparison with the known cell battery makes it possible to provide mechanization of poultry unloading without compromising the efficiency of use of the house’s area, while improving serviceability and reducing labor costs when unloading poultry.

Claims (1)

A cell battery for growing broilers, comprising a longline frame with cells placed therein, formed by transverse and longitudinal partitions, cell floors installed in the frame guides with the possibility of lateral movement, tape marking conveyors, characterized in that the floors of the cells separated by longitudinal partitions are installed in guiding the frame so that the floors of cells placed on one side of the frame are located below the floors of cells placed on the other side of the frame, are made with the possibility of parallel movement relative to each other in a horizontal plane inside the frame, in addition, the cell floors are equipped with handles for moving.