CN114532249A - Laminated breeding chicken breeding equipment - Google Patents

Abstract

The embodiment of the invention provides laminated breeding hen breeding equipment, which comprises: the chicken coops are arranged on the multi-layer cage frame, an installation space is reserved between two adjacent layers of chicken coops, and a dung belt conveyor is arranged in the installation space; the bottom net of the coop is in a slope structure with a high middle part and two low sides, two side edges of the bottom net extend outwards out of the coop, the extending parts of the bottom net are in groove shapes to form an egg collecting groove, gaps for eggs to pass through are formed between the bottom net and the front side net and the rear side net of the coop, and an egg collecting conveying belt is arranged in the egg collecting groove; a trough is arranged above the egg collecting conveyor belt on the multi-layer cage frame, a guide rail is arranged at the top of the multi-layer cage frame relatively, and a feeding machine is arranged on the guide rail in a sliding manner. According to the scheme provided by the embodiment of the invention, the design structure of the laminated chicken cage reduces the occupied space for breeding the breeding hens of the same quantity, and the whole equipment integrates feeding, manure cleaning and egg collecting, so that a brand-new breeding hen breeding mode is provided, and breeding management of the breeding hens is facilitated.

Description

Laminated breeding chicken breeding equipment

Technical Field

The invention relates to the technical field of breeding equipment, in particular to laminated breeding chicken breeding equipment.

Background

With the high development of the livestock breeding industry, the breeding amount of breeding hens is increasing day by day, and various defects and problems of the traditional flat breeding mode are gradually revealed, such as low breeding density, waste of land resources, inconvenience in drinking water, difficulty in controlling feed intake, incapability of timely treating chicken manure, large amount of harmful gas and dust in the air, pathogenic microorganisms, easy breeding of parasites, disorder of chicken flocks, frequent occurrence of phenomena of piling and fighting, inconvenience in picking up eggs, high egg breaking rate and the like. Therefore, for farmers who need to improve the breeding efficiency, the improvement of the existing breeding mode and breeding concept of breeding hens is urgently needed.

Disclosure of Invention

In order to solve the problems, the embodiment of the invention provides a laminated breeding hen breeding device.

In one aspect of the implementation of the present invention, a stacked breeding hen breeding device is provided, which includes: the multi-layer coop frame is of a rectangular frame structure, coops are arranged on the multi-layer coop frame, an installation space is reserved between two adjacent layers of coops, and a dung belt conveyor is arranged in the installation space; the bottom net of the coop is in a slope structure with a high middle part and two low sides, two side edges of the bottom net extend outwards out of the coop, the extending parts of the bottom net are in groove shapes to form an egg collecting groove, gaps for eggs to pass through are formed between the bottom net and the front side net and the rear side net of the coop, and an egg collecting conveying belt is arranged in the egg collecting groove; the multilayer cage frame is provided with a trough above the egg collecting conveyor belt, the top of the multilayer cage frame is relatively provided with a guide rail, the guide rail is provided with a feeding machine in a sliding manner, and each feeding pipe in the feeding machine extends to the upper side of one trough.

Compared with the prior art, the invention has the beneficial effects that: the design structure of the laminated chicken cage reduces the size of a place occupied by breeding hens of the same quantity, and the whole equipment integrates feeding, manure cleaning and egg collecting, so that a brand new breeding hen breeding mode is provided, and breeding management of breeding hens is facilitated.

Optionally, a plurality of layers of first longitudinal beams and a plurality of layers of second longitudinal beams extend outwards and are fixed to two sides of the multi-layer cage respectively, each layer of first longitudinal beam comprises two first longitudinal beams which are arranged oppositely from front to back, each layer of second longitudinal beam comprises two second longitudinal beams which are arranged oppositely from front to back, and each layer of first longitudinal beam and each layer of second longitudinal beam are located on the same horizontal plane with the same layer of installation space; the end parts of the upper and lower layers of first longitudinal beams and the end parts of the upper and lower layers of second longitudinal beams are fixedly connected through upright posts respectively; the manure belt conveyor comprises a manure belt driven end transmission roller mechanism arranged on the first longitudinal beam, a manure belt driving end transmission roller mechanism arranged on the second longitudinal beam and a manure belt wound between the driven end transmission roller mechanism and the driving end transmission roller mechanism.

Optionally, the manure belt driven end transmission roller mechanism comprises movable plates which are oppositely arranged on two first longitudinal beams on the same layer, a spiral roller is rotatably arranged between the movable plates, the spiral direction of the spiral rollers is opposite to that of the spiral rollers on two sides with a middle position as a boundary, a deviation-preventing guide wheel is arranged on the movable plate below the spiral roller, the manure belt bypasses the spiral roller from top to bottom, a return section manure belt and the deviation-preventing guide wheels on two sides, which are positioned on the lower side of the spiral roller, are positioned on the same horizontal plane, and the side edge of the return section manure belt is abutted against the wheel surface of the deviation-preventing guide wheel; the movable plate is provided with a supporting plate below the deviation-preventing guide wheel, the supporting plate is of a Z-shaped upward bending structure, and the top surface of the supporting plate is attached to the bottom surface of the return segment manure belt.

Optionally, the excrement area driven end driving roller mechanism still includes the lead screw that rotates the setting between first longeron both ends stand, and the fly leaf top is provided with and is used for hanging the slot of establishing on first longeron, is provided with the riser on the fly leaf lateral surface, and riser and fly leaf mutually perpendicular offer the through-hole that is used for the lead screw to pass on the riser, lie in through-hole department on the riser and be fixed with the nut, nut and lead screw thread suit.

Optionally, excrement takes drive end driving roller mechanism sets up the drive roll on two second longerons on the same layer including rotating, the excrement area is walked around the drive roll from bottom to top, it is provided with the compression roller to lie in the drive roll outside on two second longerons on the same layer, it is equipped with clear excrement device to lie in the below of return stroke section excrement area on two second longerons on the same layer, clear excrement device is including setting up scraping the excrement groove on two second longerons on the same layer, it scrapes the excrement sword to scrape two opposite side edges in excrement groove top, scrape the bottom surface laminating in excrement sword topside and return stroke section excrement area, scrape and seted up the hourglass excrement slot hole on the bottom surface in excrement groove.

Optionally, the egg collecting conveyor belt comprises an egg collecting belt driving end transmission roller mechanism arranged on the outer side of the first longitudinal beam, an egg collecting belt driven end transmission roller mechanism arranged on the multi-layer cage frame and far away from one end of the driving end transmission roller mechanism, and an egg collecting belt wound between the driving end transmission roller mechanism and the driven end transmission roller mechanism, and an egg blocking line is arranged on the inner side, close to the multi-layer cage frame, of the egg collecting belt.

Optionally, the drive end driving roller mechanism comprises a head end support body, a kiss-coating roller is arranged on the head end support body in a rotating mode, the egg collecting belt is wound around the kiss-coating roller from top to bottom, a compression roller is arranged on the inner side, located on the head end support body, of the kiss-coating roller, the compression roller compresses the return segment egg collecting belt towards the kiss-coating roller, and an egg breaking collecting box is arranged on the head end support body, located on the outer side of the kiss-coating roller and located below the egg collecting belt.

Optionally, egg collection area driven end driving roller mechanism is provided with the sliding seat including setting up the fixing base on the multilayer cage on the fixing base, and the outside that lies in the sliding seat on the fixing base is provided with the fixed plate, is connected through the screw pair between fixed plate and the sliding seat to through the position of screw pair adjustment sliding seat on the fixing base, rotate on the sliding seat and be provided with the driven voller, the driven voller is walked around from bottom to top in egg collection area.

Optionally, the feeding machine comprises a moving trolley arranged on the guide rail, feeding boxes are arranged above the troughs on two sides of the moving trolley, the number of the feeding troughs on one side is the same as that of the troughs on one side, feeding gears are arranged in the feeding troughs, and a feeding pipe communicated to the top of one trough is arranged at the bottom of each feeding trough.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic structural view of a stacked breeding hen breeding facility provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a coop according to an embodiment of the present invention, in which a on the left side is a side view, and b on the right side is a front view;

FIG. 3 is a schematic front view of a fecal belt driven end driving roller mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic side view of a fecal driven end drive roller mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a driving end transmission roller mechanism of a fecal belt according to an embodiment of the present invention;

FIG. 6 is a schematic view of a transmission structure of a driving end transmission roller mechanism of a fecal belt according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a dung cleaning device provided by an embodiment of the present invention, wherein a left side c is a side view, and a right side d is a top view;

fig. 8 is a schematic structural diagram of a drive end transmission roller mechanism of an egg collecting belt according to an embodiment of the present invention, wherein a left side e is a front view, and a right side f is a side view;

FIG. 9 is an enlarged view of a portion of FIG. 8 at g;

fig. 10 is a schematic structural view of a driven-end driving roller mechanism of an egg collecting belt according to an embodiment of the present invention, wherein a left side h is a front view, and a right side i is a top view;

fig. 11 is a schematic structural diagram of a feeder according to an embodiment of the present invention, in which a left side j is a schematic structural diagram in side view, and a right side k is a schematic structural diagram in front view;

fig. 12 is a schematic structural diagram of a feeding gear according to an embodiment of the present invention.

The device comprises a multi-layer cage frame 1, a chicken cage 2, a dung belt conveyor 3, a bottom net 4, an egg collecting groove 5, an egg collecting conveyor belt 6, a trough 7, a feeder 8, a feed pipe 9, a first longitudinal beam 10, a second longitudinal beam 11, an upright post 12, a movable plate 13, a spiral roller 14, an anti-deviation guide wheel 15, a support plate 16, a lead screw 17, a groove 18, a vertical plate 19, a nut 20, a driving roller 21, a press roller 22, a dung cleaning device 23, a dung scraping groove 24, a dung scraping knife 25, a dung leaking long hole 26, a head end frame body 27, a rubber hanging roller 28, a press roller 29, an egg breaking collecting box 30, a fixed seat 31, a sliding seat 32, a fixed plate 33, a lead screw pair 34, a driven roller 35, a movable trolley 36, a feed box 37, a feed groove 38 and a feed gear 39.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

Referring to fig. 1 and fig. 2, a stacked breeding hen breeding facility provided by an embodiment of the present invention includes: the poultry cage comprises a plurality of layers of cages 1 with rectangular frame structures, wherein chicken cages 2 are arranged on the plurality of layers of cages 1, an installation space is reserved between two adjacent layers of chicken cages 2, and a dung belt conveyor 3 is arranged in the installation space; the bottom net 4 of the coop 2 is in a slope structure with a high middle part and two low sides, the slope angle can be 8-10 degrees, two side edges of the bottom net 4 extend out of the coop 2, the extending part is in a groove shape to form an egg collecting groove 5, a gap for eggs to pass through is formed between the bottom net 4 and the front side net and the rear side net of the coop 2, and an egg collecting conveyer belt 6 is arranged in the egg collecting groove 5; a trough 7 is arranged above the egg collecting conveyor belt 6 on the multilayer cage 1, a guide rail is arranged on the top of the multilayer cage 1 relatively, a feeding machine 8 is arranged on the guide rail in a sliding mode, and each feeding pipe 9 in the feeding machine 8 extends to the upper portion of one trough 7. A drinking water pipe can be arranged above the trough 7 on the multi-layer cage frame 1.

In the breeding process, breeding hens are put in the chicken cage 2 and are relatively separated, the feeding amount to the trough 7 is controlled by the feeding machine 8 to realize accurate feeding, chicken manure generated in the breeding process falls onto the manure belt conveyor 3 and is conveyed and cleaned, and generated eggs are rolled by the bottom net 4 onto the egg collecting conveyor belt 6 in the egg collecting trough 5 and are conveyed and collected uniformly.

In implementation, a plurality of layers of first longitudinal beams 10 and a plurality of layers of second longitudinal beams 11 are respectively fixed to two sides of the multi-layer cage 1 in an outward extending mode, each layer of first longitudinal beam 10 comprises two first longitudinal beams which are arranged oppositely from front to back, each layer of second longitudinal beam 11 comprises two second longitudinal beams which are arranged oppositely from front to back, and each layer of first longitudinal beam 10 and each layer of second longitudinal beam 11 are located on the same horizontal plane with the same layer of installation space; the end parts of the upper and lower layers of first longitudinal beams 10 and the end parts of the upper and lower layers of second longitudinal beams 11 are fixedly connected through upright posts 12 respectively, so that a rectangular frame structure is formed between the first longitudinal beams 10 and the upright posts 12, and a rectangular frame structure is formed between the second longitudinal beams 11 and the upright posts 12; the manure belt conveyor 3 comprises a manure belt driven end transmission roller mechanism arranged on the first longitudinal beam, a manure belt driving end transmission roller mechanism arranged on the second longitudinal beam and a manure belt wound between the driven end transmission roller mechanism and the driving end transmission roller mechanism.

Referring to fig. 3 and 4, the manure belt driven end transmission roller mechanism comprises movable plates 13 which are oppositely arranged on two first longitudinal beams 10 on the same layer, a spiral roller 14 is rotatably arranged between the movable plates 13, the spiral direction of the spiral roller 14 with the middle position as a boundary and the spiral directions of the spirals on two sides are opposite, an anti-deviation guide wheel 15 is arranged on the movable plate 13 and is positioned below the spiral roller 14, the manure belt bypasses the spiral roller 14 from top to bottom, a return section manure belt positioned on the lower side of the spiral roller 14 and the anti-deviation guide wheels 15 on two sides are positioned on the same horizontal plane, and the side edge of the return section manure belt is abutted against the wheel surface of the anti-deviation guide wheel 15; a support plate 16 is arranged on the movable plate 13 below the deviation-preventing guide wheel 15, the support plate 16 is of a Z-shaped upward bending structure, and the top surface of the support plate 16 is attached to the bottom surface of the return segment manure belt.

In implementation, the fecal belt driven end driving roller mechanism further comprises a screw 17 rotatably arranged between the upright columns 12 at two ends of the first longitudinal beam 10, the top of the movable plate 13 is provided with a groove 18 used for being hung on the first longitudinal beam 10, a vertical plate 19 is arranged on the outer side surface of the movable plate 13, the vertical plate 19 is perpendicular to the movable plate 13, a through hole used for the screw 17 to pass through is formed in the vertical plate 19, a nut 20 is fixed at the through hole on the vertical plate 19, and the nut 20 is in threaded fit with the screw 17.

Referring to fig. 5 and 6, the driving end transmission roller mechanism of the dung belt comprises a driving roller 21 which is rotatably arranged on two second longitudinal beams 11 on the same layer, the dung belt bypasses the driving roller 21 from bottom to top, a pressing roller 22 is arranged on the two second longitudinal beams 11 on the same layer and outside the driving roller 21, a dung cleaning device 23 is arranged on the two second longitudinal beams 11 on the same layer and below the dung belt in the return stroke section in a crossing manner, referring to fig. 7, the dung cleaning device 23 comprises a dung scraping groove 24 arranged on the second longitudinal beams 11, dung scraping knives 25 are arranged on two opposite side edges at the top of the dung scraping groove 24, the top edges of the dung scraping knives 25 are attached to the bottom surface of the dung belt in the return stroke section, and dung leaking long holes 26 are formed in the bottom surface of the dung scraping groove 24. Each driving roller 21 can be driven by a speed reducing motor, and the speed reducing motor and each driving roller 21 are driven by a gear chain transmission structure.

In implementation, the egg collecting conveyor belt 6 comprises an egg collecting belt driving end transmission roller mechanism arranged on the outer side of the first longitudinal beam 10, an egg collecting belt driven end transmission roller mechanism arranged on one end, far away from the driving end transmission roller mechanism, of the multi-layer cage frame 1 and an egg collecting belt wound between the driving end transmission roller mechanism and the driven end transmission roller mechanism, and an egg blocking line is arranged on the inner side, close to the multi-layer cage frame, of the egg collecting belt; in the implementation, hinder the egg line and can slow down the roll falling speed reduction egg breakage rate of egg, one side of drive end driving roller mechanism can set up electronic pull rod, hinders the tip and is connected with electronic pull rod of egg line to the tensioning degree that the egg line was hindered in the adjustment of accessible electronic pull rod.

Referring to fig. 8 and 9, the driving end driving roller mechanism includes a head end frame body 27, a kiss-coating roller 28 is rotatably arranged on the head end frame body 27, an egg collecting belt bypasses the kiss-coating roller 28 from top to bottom, a pressing roller 29 is arranged on the head end frame body 27 and located on the inner side of the kiss-coating roller 28, the pressing roller 29 presses the return segment egg collecting belt towards the kiss-coating roller 28, and an egg breaking collecting box 30 is arranged on the head end frame body 27 and located on the outer side of the kiss-coating roller 28 and located below the egg collecting belt. Specifically, when the pressing roller 29 is installed, a fixing plate can be arranged, a through hole is formed in the fixing plate, a bolt penetrates through the through hole, a screw rod in the bolt is sleeved with a spring, one end of a rotating rod which can be arranged on the other side of the fixing plate is hinged with the bolt, the pressing roller 29 is arranged at the other end of the rotating rod, and the pressing degree of the pressing roller 29 to the rubber hanging roller 28 is adjusted by adjusting the number of screwed threads of a nut in the bolt; two rubber hanging rollers 28 in two egg collecting conveyor belts 6 on the same layer can be driven by one speed reducing motor, and the speed reducing motor can drive the two rubber hanging rollers 28 to rotate through a transmission gear transmission rod structure.

Referring to fig. 10, the egg collecting belt driven end driving roller mechanism comprises a fixed seat 31 arranged on the multi-layer cage, a sliding seat 32 is arranged on the fixed seat 31, a fixed plate 33 is arranged on the fixed seat 31 and positioned on the outer side of the sliding seat 32, the fixed plate 33 is connected with the sliding seat 32 through a lead screw pair 34, so that the position of the sliding seat 32 on the fixed seat 31 is adjusted through the lead screw pair 34, a driven roller 35 is arranged on the sliding seat 32 in a rotating mode, and the egg collecting belt bypasses the driven roller 35 from bottom to top.

Referring to fig. 11 and 12, the feeder 8 comprises a moving trolley 36 arranged on a guide rail, feeding tanks 37 are arranged above the troughs 7 on two sides of the moving trolley 36, the bottom of each feeding tank 37 is provided with feeding grooves 38 with the same number as that of the troughs 7 on one side, feeding gears 39 are arranged in the feeding grooves 38, and the bottom of each feeding groove 38 is provided with a feeding pipe 9 communicated to the upper part of one trough 7; in the implementation, the feeding gears 39 on the same side are sleeved on a rotating shaft, and the rotating shafts on the two sides are driven by a speed reducing motor to realize the synchronous rotation of the feeding gears 39; the end of each feeding pipe 40 can be provided with a 30-degree material flowing angle to ensure that no material is stored.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (9)

1. A stacked breeding hen farming facility, comprising: the multi-layer coop frame is of a rectangular frame structure, coops are arranged on the multi-layer coop frame, an installation space is reserved between two adjacent layers of coops, and a dung belt conveyor is arranged in the installation space; the bottom net of the coop is of a slope structure with a high middle part and two low sides, two side edges of the bottom net outwards extend out of the coop, the extending parts of the bottom net are groove-shaped to form an egg collecting groove, gaps for eggs to pass through are formed between the bottom net and the front side net and the rear side net of the coop, and an egg collecting conveyer belt is arranged in the egg collecting groove; the multilayer cage frame is provided with a trough above the egg collecting conveyor belt, the top of the multilayer cage frame is relatively provided with a guide rail, the guide rail is provided with a feeding machine in a sliding manner, and each feeding pipe in the feeding machine extends to the upper side of one trough.

2. The stacked breeding hen breeding device as claimed in claim 1, wherein a plurality of first longitudinal beams and a plurality of second longitudinal beams extend outwards from two sides of the multi-layer cage, each first longitudinal beam comprises two first longitudinal beams which are oppositely arranged in front and back, each second longitudinal beam comprises two second longitudinal beams which are oppositely arranged in front and back, and each first longitudinal beam and each second longitudinal beam are located on the same horizontal plane with the installation space of the same layer; the end parts of the upper and lower layers of first longitudinal beams and the end parts of the upper and lower layers of second longitudinal beams are fixedly connected through upright posts respectively; the manure belt conveyor comprises a manure belt driven end transmission roller mechanism arranged on the first longitudinal beam, a manure belt driving end transmission roller mechanism arranged on the second longitudinal beam and a manure belt wound between the driven end transmission roller mechanism and the driving end transmission roller mechanism.

3. The stacked breeding chicken equipment as claimed in claim 2, wherein the manure belt driven end transmission roller mechanism comprises movable plates oppositely arranged on two first longitudinal beams on the same floor, a spiral roller is rotatably arranged between the movable plates, the spiral directions of the spirals on the two sides of the spiral roller are opposite with the middle position as the boundary, a deviation-preventing guide wheel is arranged on the movable plate below the spiral roller, the manure belt bypasses the spiral roller from top to bottom, the return section manure belt on the lower side of the spiral roller and the deviation-preventing guide wheels on the two sides are positioned on the same horizontal plane, and the side edge of the return section manure belt is abutted against the wheel surface of the deviation-preventing guide wheel; the movable plate is provided with a supporting plate below the deviation-preventing guide wheel, the supporting plate is of a Z-shaped upward bending structure, and the top surface of the supporting plate is attached to the bottom surface of the return segment manure belt.

4. The stacked breeding chicken breeding device as claimed in claim 3, wherein the manure belt driven end transmission roller mechanism further comprises a screw rod rotatably disposed between the two end columns of the first longitudinal beam, a groove for hanging on the first longitudinal beam is disposed at the top of the movable plate, a vertical plate is disposed on the outer side surface of the movable plate, the vertical plate is perpendicular to the movable plate, a through hole for the screw rod to pass through is disposed on the vertical plate, a nut is fixed at the through hole on the vertical plate, and the nut is in threaded fit with the screw rod.

5. The laminated type breeding chicken equipment as claimed in claim 2, wherein the driving end driving roller mechanism of the dung belt comprises a driving roller which is rotatably arranged on two second longitudinal beams on the same layer, the dung belt bypasses the driving roller from bottom to top, a press roller is arranged on the two second longitudinal beams on the same layer and outside the driving roller, a dung cleaning device is arranged on the two second longitudinal beams on the same layer and below the dung belt in the return section in a spanning manner, the dung cleaning device comprises dung scraping grooves which are arranged on the two second longitudinal beams on the same layer, dung scraping knives are arranged on two opposite side edges of the top of the dung scraping groove, the top edges of the dung scraping knives are attached to the bottom surface of the dung belt in the return section, and dung leaking long holes are formed in the bottom surface of the dung scraping grooves.

6. The laminated type breeding hen breeding device as claimed in claim 2, wherein the egg collecting conveyor belt comprises an egg collecting belt drive end transmission roller mechanism arranged on the outer side of the first longitudinal beam, an egg collecting belt driven end transmission roller mechanism arranged on the multi-layer cage far away from one end of the drive end transmission roller mechanism, and an egg collecting belt wound between the drive end transmission roller mechanism and the driven end transmission roller mechanism, and an egg blocking line is arranged on the inner side of the egg collecting belt close to the multi-layer cage.

7. The stacked breeding hen breeding device as claimed in claim 6, wherein the driving end transmission roller mechanism comprises a head end frame body, a kiss-coating roller is rotatably arranged on the head end frame body, the egg collecting belt bypasses the kiss-coating roller from top to bottom, a pressing roller is arranged on the head end frame body and located on the inner side of the kiss-coating roller, the pressing roller presses the return segment egg collecting belt towards the kiss-coating roller, and an egg breaking collecting box is arranged on the head end frame body and located on the outer side of the kiss-coating roller and located below the egg collecting belt.

8. The stacked breeding hen breeding device as claimed in claim 7, wherein the egg collecting belt driven end driving roller mechanism comprises a fixed seat arranged on the multi-layer cage, a sliding seat is arranged on the fixed seat, a fixed plate is arranged on the fixed seat and positioned outside the sliding seat, the fixed plate and the sliding seat are connected through a screw pair, so that the position of the sliding seat on the fixed seat is adjusted through the screw pair, a driven roller is rotatably arranged on the sliding seat, and the egg collecting belt bypasses the driven roller from bottom to top.

9. The laminated type breeding chicken equipment as claimed in claim 1, wherein the feeder comprises a moving trolley arranged on the guide rail, the moving trolley is provided with feeding tanks above the mangers on two sides, the bottom of each feeding tank is provided with feeding grooves with the same number as the mangers on one side, the feeding tanks are internally provided with feeding gears, and the bottom of each feeding groove is provided with a feeding pipe communicated to the upper part of one manger.

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