RU2081569C1 - Hatching tray - Google Patents

Abstract

FIELD: poultry farming. SUBSTANCE: hatching tray is made in the form of rectangular box and is made from single folded wire panel with rectangular cells, which are oriented in parallel with elongate side wall of tray. Elongate side walls of cells are formed by filling wires disposed on inner surface of tray. Core wires defining short sides of cells are disposed on outer surface of tray so that space between short side of bottom (line along which wire panel is folded to form box) and proximate core wire is at least 5 mm. Box is provided with rim made in the form of frame, to which wire defining side walls of tray is welded from inner side. Ends of wire are flattened by 2/3 of their initial diameter at locations of welded joints with upper rim. Length of welded joints is 1/4 of upper rim circle section length. Guides are mounted on outer side of bottom, each formed as corner member of intricate configuration. Tray is covered with continuous layer of thermoplastic material. EFFECT: increased efficiency by simplified construction and improved egg incubation mode. 2 cl, 1 dwg

Description

 The invention relates to industrial poultry production, namely, equipment for incubators.

 Known wooden tray for incubators with wire bottom. To prevent the loss of hatched chickens, the tray is additionally equipped with stops for the frame (see Slavin R.M. Zaitsev A.T. Mechanization and electrification of poultry farming. M. Kolos, 1971. p. 412).

 However, the use of this tray reduces the incubator capacity and creates significant resistance to the movement of air washing the eggs, which leads to overheating of the eggs, especially in the second half of the incubation, and helps to reduce hatchability (see Izakov F.Ya. Bykov N.M. Leontyev P.I. Mechanization and electrification of poultry farming, M. Kolos, 1982, p. 355). In addition, the elements of the wooden structure of the tray with high adhesive ability are contaminated with fluff, eggshells, etc. which leads to increased labor costs when cleaning and washing trays and their rapid destruction. The tree absorbs harmful microorganisms and if the level of disinfection is insufficient, it is a source of infection for the next incubation cycle.

 Known metal tray, which is a rectangular box, the bottom and side walls of which are made of welded mesh (see incubator "Universal-55": Technical description and operating instructions / Pyatigorsksselmash plant named after S.M. Kirov. Mineral waters, 1976, p. 51, fig. 31). The mesh forming the bottom of the box has rectangular cells of significantly smaller size than the mesh forming the side walls. An equilateral corner is welded to the bottom of the box around its perimeter and to the side ribs formed by the weft wire of two mutually perpendicular side walls of the tray. Along the short side of the bottom and along the side ribs, the corner is welded on the inner surface of its sides, and along the long sides of the bottom the outer surface of only one of the sides. A metal strip is welded to the outer surface of its second lateral side and to the outer surface of the long lateral wall of the box lying on the same plane, which protrudes above the bottom to a height equal to the width of the lateral side of this corner and forms the tray guide with it.

 The corners located along the side edges of the box and along the long side of the bottom, as well as the guide welded to these corners, form a U-shaped bracket that secures the tray to the side walls of the incubator chamber, designed to accommodate the tray block in it.

 However, the presence of corners along the short sides of the bottom of the tray causes an increase in local aerodynamic resistance to air movement through the tray, which reduces the intensity of air washing of eggs located near the short side wall of the tray and leads to a deterioration of the biological conditions of incubation; and when forming a block of trays, it increases the degree of heterogeneity of the incubation conditions throughout the chamber. In addition, the corners themselves and the places of their connections with each other are an additional concentrator of fluff, shell and other incubation waste, which worsens the hygiene conditions for the existence of chickens in the first day of life.

 In addition, the implementation of the side walls of the grid with parameters different from the parameters of the bottom mesh (wire diameter is 1.5 2 times larger, the length of the cell is 5 6 times its width, the base wire is oriented perpendicular to the bottom and welded from the inner surface of the tray), in addition violates the uniformity of air movement near the side walls around the entire perimeter of the tray and helps to reduce the integrity of the shell due to micro-impacts of eggs on the protruding wire of the base of the side wall, and also increases the adhesion of waste incub tion to the side walls that degrades zoological conditions and increases labor costs for cleaning and sanitation of the tray.

 The design of the side walls leads to the fact that the bending moment that occurs when the tray is rotated affects the long side walls, deforming the weft wire and destroying the welded joints of the weft wire with the corner welded to the side rib, which reduces the life of the tray.

 In addition, the corners welded to the bottom and side ribs are welded to each other "overlap", which is the cause of injury to staff.

 The aim of the invention is to improve the incubation results by increasing the uniformity of the incubation mode parameters in the egg location zone, improving the hygiene conditions of chickens on the first day of their life, improving the working conditions of staff and reducing labor costs for washing and sanitation; as well as increasing the life of the tray by increasing the mechanical strength of the structure.

 This goal is achieved by making the tray box hollow from a single web of welded mesh, consisting of warp and weft wires with a diameter of 1.8-2.0 mm, forming rectangular cells oriented with the long sides formed by the weft wire parallel to the side wall of the tray. Duck wire is located on the inside of the tray. The warp wire forming the short sides of the rectangular cells is located on the outer surface of the tray. Moreover, the distance from the short side of the bottom (the bending line of the mesh web into the box) to the base wire closest to it is at least 5 mm.

 The tray is equipped with an upper frame made in the form of a rectangular frame made of wire with a diameter of 5-6 mm, to which a wire mesh is welded from the inside of the tray, forming the side walls of the tray. Moreover, the duck wire is welded to the short side of the upper frame, and the warp wire to its long side. The ends of the wire mesh in the places of welded joints with the upper frame are flattened to 2/3 of their original diameter, and the length of the welds reaches 1/4 of the circumference of the cross section of the wire of the upper frame.

 The box of the tray is equipped with two U-shaped brackets welded to it from the outside, each of which is made of a solid metal strip bent in the form of a corner of a complex configuration. The vertical sections of the U-shaped staples are made in the form of an isosceles corner, covering the side edges of the tray from the outside until it touches the upper frame. The total thickness of the tray formed by the warp and weft wire, as well as the material of the corner of the vertical section of the U-shaped bracket, does not exceed the diameter of the upper frame wire. The horizontal section of the U-shaped bracket is made in the form of an unequal corner, the wide side of which is welded to the bottom along its long side so that the outer surface of its narrow side is in the same vertical plane as the long side of the upper frame. The narrow side of the corner welded along the long side of the bottom performs the function of the tray guide when it is installed in the incubator chamber. A continuous layer of a thermoplastic polymer with release properties is uniformly applied to the entire surface of the tray.

 The implementation of the tray box hollow from a single web of welded wire mesh with the upper frame, the fastening of the ends of the wire mesh to the inner surface of the upper frame, the polymer coating of the entire surface of the tray, as well as the absence of corners along the short sides of the bottom provide reduced resistance to air movement through the tray, evens out the local flow rates air washing the eggs over the entire area of the tray, which helps to increase the degree of uniformity of the incubation conditions.

 The implementation of the U-shaped staples of the proposed configuration from a solid metal strip and the absence of corners along the short sides of the bottom avoids excessive accumulation of incubation waste. The presence of the upper frame in conjunction with the U-shaped brackets creates a single power circuit that provides the mechanical strength of the structure necessary for the operation of the tray in both incubation and hatcher chambers.

 The proposed mutual arrangement of the warp and weft wires helps to reduce the number of naminas in hatched chickens in the first hours of their life. Due to the machining of the ends of the wire mesh and the polymer coating of the tray, injuries to the hands of maintenance personnel are reduced.

 The drawing shows an incubation tray 1 in the form of a rectangular box made integrally bent from a single web of welded mesh 2. The mesh is formed by a wire of warp 3 and weft 4 with a diameter of 1.8-2 mm, forming rectangular cells oriented along the long side of the tray 1. The long side the cell is formed by a duck wire 4 located on the inner surface of the tray 1. The warp wire 3 is located on the outer surface of the tray 1 in such a way that the distance from the short side of the bottom (the fold line of the box) to the nearest to it wire base 3 is at least 5 mm. Tray 1 is equipped with an upper frame made in the form of a rectangular frame made of wire with a diameter of 5-6 mm, to which mesh wire is welded from the inside of the tray 1, the base wire 3 is welded to the long side 5 of the upper frame, and the wire is welded to its short side 6 weft 4. The ends 7 of the wire mesh in the places of welded joints with the upper frame are flattened to 2/3 of their original diameter, and the length of the welds reaches 1/4 of the circumference of the cross section of the wire of the upper frame (see sections I and II).

 These parameters are optimal and are limited from below by the requirements to ensure the mechanical strength of the structure, and from above by the need to reduce injuries to the hands of staff.

 Tray 1 is equipped with two U-shaped brackets welded to it from the outside. Each of the U-shaped staples is made of a solid metal strip bent in the form of a corner of a complex configuration. The vertical sections 8 of the U-shaped staples are made in the form of an isosceles corner and cover the side edges of the tray 1 from the outside until they touch with the sides 5 and 6 of the upper frame. The total thickness of the tray wall formed by the warp wire 3 and weft 4, as well as the material of the corner of the vertical section 8 of the U-shaped bracket does not exceed the diameter of the upper frame wire (see cutout II, III).

 The horizontal section of each U-shaped bracket is made in the form of an unequal corner. The wide side 9 of this corner is welded to the long side of the bottom with its outer surface so that the outer surface of its narrow side 10 is in the same vertical plane with the long side 5 of the upper frame. The narrow side 10 of the horizontal section of the U-shaped bracket performs the function of the guide tray 1 when it is installed in the incubator and fixed on the side walls of the chamber.

Claims (2)

 1. An incubation tray containing longitudinal and transverse mesh walls interconnected from the outside by rectangular corners to form a rectangular box on top of which a frame is made, and a bottom with rectangular holes for eggs is installed on the bottom, characterized in that the outer surface of the bottom is provided with rectangular corners with guides installed by the top of each corner along the longitudinal sides of the bottom, and ends connected to the corners of the mesh walls, rectangular openings for eggs filled by interlacing the longitudinal and transverse rods of the welded mesh, oriented with the longitudinal side parallel to the longitudinal walls of the tray, the bars of the longitudinal sides of the holes being located above the bars of their transverse sides, and the outermost of the transverse rods of the bottom removed from the transverse walls of the tray by at least 5 mm, the frame is made in the form of a frame made of a round rod and installed on the transverse rods of the walls from the outside, and at the junctions with the rods the diameter of the latter is reduced to 2/3 of the original size, flax walls and bottom bars have the same diameter.  2. The tray according to claim 1, characterized in that its entire surface is coated with a heat-resistant polymer with anti-adhesive properties.