CN114793950A - System is raised to laying hen intelligence high efficiency - Google Patents

Abstract

An intelligent efficient laying hen feeding system is composed of a laying hen cage, a circulating feeding device, an egg recovery device, a food tower, a liquid tower, a chicken manure recovery device, a water supply device, a microorganism supply device and a power box. According to the invention, the circulating feeding device and the egg recovery tank can stably operate at various angles, the food of the laying hens enters the material tank of the circulating feeding device from the food tower in order, and the beneficial bacterium liquid is fed to the laying hens through the microorganism supply device, so that the disease resistance is enhanced, and the quality of eggs can be improved; beneficial bacteria liquid is sprayed to the chicken manure and the field, so that various harmful bacteria can be inhibited from breeding, various diseases can be effectively prevented and treated, and health, ecology and environmental protection are realized. Above-mentioned equipment possesses intelligence or manual control simultaneously, and the function is various, and degree of automation is high, and egg recovery unit passes through the circulation operation, and the staff can avoid making a round trip to walk about with egg recovery package in same place, reduces intensity of labour by a wide margin, labour saving and time saving.

Description

An intelligent and efficient feeding system for laying hens

technical field

The invention belongs to the technical field of animal husbandry facilities and equipment, and particularly relates to an intelligent and efficient raising system for laying hens.

Background technique

Eggs are one of the most important high-protein foods in our lives, and my country is currently the world's largest egg producer and consumer. With the development of the economy and the change of people's consumption structure, my country's laying hen breeding has been greatly developed in both quality and quantity, but there are still some problems to be solved.

At present, the main breeding models in my country can be divided into: family "sideline" breeding model, small-scale (farmer household) breeding model, mechanized breeding model, automatic equipment breeding model and Internet +, big data model. These five modes currently complement each other and coexist in China.

One is the family "sideline" rearing mode. This model mainly exists in remote rural areas or urban suburbs. In order not to waste leftover meals or surplus grains, people feed a very small number of chickens under the trees in front of their doors. The purpose is to improve the quality of life through the eggs or chickens they produce. Due to the urban residents' interest in food, a small number of "surplus" eggs and chickens are traded in farmers' markets in the city. This feeding mode, without the assistance of relevant feeding equipment, relies entirely on artificial natural feeding, without much consideration of the economic benefits of feeding, and extensive free-range breeding.

The second is the small-scale (farmer household) breeding model. The improvement of human living standards, the increasing demand for protein, and the division of labor in social industries have led to the emergence of a small number of families and couples who have devoted themselves to raising chickens. At the same time, the improvement of poultry breeding genetic technology has cultivated eggs that can adapt to large-scale and intensive breeding. Chickens also further promote the formation of a small-scale breeding model from the provenance. Due to the relatively stable employees in this model, breeders began to pay attention to the economic benefits of breeding, and at the same time, they also used related auxiliary equipment and tools to reduce the labor intensity of breeding, which promoted the development of the breeding equipment industry to improve the efficiency of chicken flock breeding. This mode is mainly reflected in the appearance of simple breeding equipment such as fences, and three to five thousand animals are raised per capita.

The third is the mechanized feeding mode. The development of transportation and logistics, the demand for food safety and hygiene, the accumulation of human experience in raising chickens, the continuous increase in labor costs, and the concentration of industrialization have led to the emergence of economies with the main purpose of raising chickens, which are mainly reflected in: simple cages The application of simple chicken raising techniques such as the use of furniture and the construction of semi-open chicken houses. This mode, the use of simple multi-layer cages, the use of mechanized feeders, and the use of cooling pad fans, not only realizes high-density breeding of laying hens, but also improves the economic benefits of chicken flock breeding, and liberates breeders. The labor force reduces the labor intensity, and the per capita breeding can reach 20,000 to 30,000.

The fourth is the feeding mode of automated equipment. Automated science and technology and computer control technology have been gradually applied to chicken flock feeding equipment. The original manual feeding activities have been gradually replaced by automated actuators. The refined use has formed an artificially imitated growth environment for chicken flock breeding, which has prompted chicken flock breeding to no longer rely too much on the external natural environment. In this mode, there is less contact between humans and chickens, which reduces the spread of germs by humans, reduces the probability of migratory birds spreading diseases, further improves economic benefits, further reduces the labor intensity of breeders, and the per capita breeding scale can reach 100,000.

The fifth is the Internet +, big data feeding mode. The rapid development of network technology, the high integration of information processing and analysis systems and physical control systems, and the development of science and technology such as Internet + and big data processing platforms have provided better hardware controller and analysis technical support for chicken flock feeding equipment. In the feeding mode of automatic equipment, single house feeding is regarded as a basic feeding unit, and feeding related parameters are uploaded to the central control system for analysis through network technology (industrial bus). Single-building control unit, the single-building control unit instructs the corresponding executive agency to perform predetermined actions, and provides information feedback to form a closed-loop information processing. At the same time, the breeder can also manually interfere with each breeding unit through the mobile network terminal, and read the entire breeding unit in time. Keep all the information on the farm and make corresponding production instructions. In this mode, the breeders basically do not have contact with the chickens, and the labor intensity of feeding is extremely low, and the number of 100,000 levels can be raised per capita. The economic benefits can be directly reflected from the central control platform in real time. Too much manual intervention by breeders.

The above-mentioned household "sideline" breeding mode and small-scale (farmer household) breeding mode have low breeding level, backward breeding facilities, most of the farmer's chicken houses are non-standard, simple cages, simple drinking water facilities, and basically no environmental control equipment; The details of breeding are not in place, the living environment of people and chickens is not separated, and the facilities for manure treatment are simple, which makes it impossible to cut off the source of infection, and the chickens in the cold winter season become seriously ill. The mechanized breeding mode can solve the problems of backward breeding facilities and relatively low breeding level, but the epidemic prevention and control system is not perfect, and the epidemic problem of laying hens is prominent. Poultry infectious diseases have become the main factors affecting and restricting the sustainable development and benefit improvement of my country's laying hen industry. Mainly in the following aspects: ①H5 subtype and H7 subtype highly pathogenic avian influenza and Newcastle disease have become the biggest threats to the chicken industry. ②Vaccine immunization and biosafety precautions need to be improved. ③ Cold current effect, flu epidemic time (November to April of the following year) North China and Northeast chickens lose 10% to 50%. "Influenza + Newcastle disease" reduces the number of chickens by 15% to 40%, and the number of eggs produced by 10% to 25%. When the epidemic is serious, commercial laying hen farmers in some areas lose confidence and stop raising empty pens. 10% ~20% vacancy phenomenon. ④The problem of effective heatstroke prevention and cooling in the southern summer needs to be solved. The southern summer is long (from June to October every year), in the high temperature summer, the water consumption of laying hens increases, the water content of the feces is high, the humidity of the chicken house increases, the concentration of ammonia gas is high, and the temperature is high. Wet weather is bad for laying hens. In addition, the high-density breeding mode will cause environmental pollution. Although the high-density breeding mode can improve the egg production of laying hens, it also seriously damages the breeding environment. In particular, the treatment of laying hen manure is a very important issue in the high-density breeding of laying hens. Untreated laying hen manure will cause serious damage to the ecological balance. The main manifestations are as follows: Untreated manure flows into rivers, lakes and seas. It will cause eutrophication of water body and cause water pollution; the smell of feces will also pollute the air, form odor and harmful gas, breed a large number of harmful bacteria, and endanger the health of laying hens; untreated feces of laying hens will cause soil Pollution is not only detrimental to the growth of crops, but also harms crops.

To sum up, in the process of healthy breeding of laying hens, it is necessary to strengthen the establishment of a prevention and control system for various diseases. On the other hand, a relatively complete epidemic prevention and control system should be established to strengthen the effective prevention and control of epidemic diseases.

In view of these problems in the laying hen industry, we should focus on improving the level of scientific research, vigorously promote the high-tech achievements in the field of poultry production, and improve the production level. The above-mentioned automatic equipment feeding mode, Internet +, and big data feeding mode are the highest level that can best demonstrate the breeding of laying hens. However, the above-mentioned model has high investment and is limited to the operation of large and capable enterprises, so it is difficult to popularize and popularize.

In order to better meet the current my country's increasing consumption requirements for eggs, we should change the traditional mode of laying hen breeding, adopt strategies that can easily popularize the breeding mode and healthy breeding, and promote the progress of laying hen breeding technology. The healthy breeding technology of laying hens refers to adhering to the concept and direction of "health, ecology and environmental protection" in the breeding process of laying hens, paying attention to the scientific control of the breeding environment in the breeding process of laying hens, and realizing pollution-free production and breeding. Improve the disease resistance of laying hens, further improve the output and quality of laying hens, and achieve healthy breeding of laying hens.

SUMMARY OF THE INVENTION

The purpose of the present invention is to overcome the deficiencies of the existing methods and provide a brand-new intelligent and efficient raising system for laying hens. Specifically, the system is composed of a laying hen cage (1), a circulating feeding device (2), an egg recovery device (3), a feeding tower (4), a liquid material tower (5), a chicken manure recovery device (6), A water supply device (7), a microorganism supply device (8) and a power supply box (9) are composed.

The present invention is achieved through the following technical solutions:

1. An intelligent and efficient breeding system for laying hens, the technical scheme is that: the system is composed of a laying hen cage (1), a circulating feeding device (2), an egg recovery device (3), a feeding tower (4), a liquid feed A tower (5), a chicken manure recovery device (6), a water supply device (7), a microorganism supply device (8) and a power supply box (9) are composed.

The laying hen cage (1) is composed of a cage body (10) and a frame foot (11), wherein a liquid circulation pipe placement hole (12) and a circulating feeding device are arranged in the middle of the cage body (10). The placement rack (13) is provided with a plurality of circulating feeding device fixing screw holes (14) on the circulating feeding device placement rack (13), and an egg flow slope (15) is provided at the bottom of the cage body (10), An egg circulation plate (16) is arranged at the front end of the egg flow inclined plane (15); an egg recovery device placement rack (17) is arranged at the upper end of the frame foot (11), and a number of eggs are arranged on the egg recovery device placement rack (17). The first fixing screw hole (18) of the recovery device is provided, and the first fixing hole position (19) of the chicken manure recovery device is arranged in the middle of the frame foot (11).

The circulating feeding device (2) is composed of a frame seat (20), a sliding track (21), a bendable chain (22), a material trough (23), a motorized sprocket (24), and a driving sprocket (25). ) and an electromechanical group (26), four sides of the frame seat (20) are provided with two sliding track fixing holes (29), and four corners of the bottom of the frame seat (20) are provided with a sprocket seat (30), Four sides of the bottom of the frame seat (20) are provided with fixed connection seats (31) for the circulating feeding device; four sides of the sliding track (21) are provided with fixed holes three (32); the bendable chain (22) is a It consists of several folding blades (33), several groups of pulleys (34) and several brackets (35), wherein the folding blade (33) is composed of a left page (36), a right page (37) and a latch (38) It is composed of one active pipeline one (39) on the left side of the left page (36), two active pipelines two (40) on the right side of the left page (36), and a middle and lower part of the left page (36). Gear port one (41), on the left side of the right page (37) is provided with a movable pipe three (42), on the right side of the right page (37) is provided with two movable pipes four (43), on the right page (37) A gear port two (44) is arranged on the middle and lower part of the right page (37), a bracket link rod (45) is arranged on the upper part of the right page (37), a pulley frame (46) is respectively arranged on the top and bottom of the right page (37), and the left When the page (36), the right page (37) and the latch (38) are combined, the three (42) movable pipes provided on the left side of the right page (37) are fitted over the two channels provided on the right side of the left page (36). The middle of the two movable pipes (40) is inserted into the second movable pipe (40) and the third movable pipe (42) with a plug (38), so as to form a whole folded blade (33); the set of pulleys (34) is divided into upper The wheel and the lower wheel, the bracket (35) is U-shaped; when the folding blade (33), the pulley (34) and the bracket (35) are combined, the upper wheel of the pulley (34) is installed on the folding blade (33). ) in the pulley frame (46) provided at the top of the right page (37), install the lower wheel of the pulley (34) on the pulley frame (46) provided at the bottom of the right page (37) of the folding blade (33) , install the bracket (35) on the bracket link rod (45) provided on the upper part of the right page (37) of the folding blade (33), and connect the folding blade (33), pulley (34) and bracket (35) Multiple groups are combined to form a whole bendable chain (22); the shape of the trough (23) is U-shaped, and the material of the trough (23) is stretchable; the motor sprocket (24) is driven by a motor ( 47) and gear one (48); driving sprocket (25) is composed of gear two (49) and bearing one (50); electromechanical group (26) is composed of time relay (51), transfer switch (52), The switch group (53) is composed of the above-mentioned frame (20), the sliding track (21), the bendable chain (22), the material trough (23), the motorized sprocket (24), the driving sprocket (25) and the electromechanical group (26) Combination When it comes, the sliding rail (21) is installed on the frame seat (20). During installation, the fixing holes three (32) provided on the four sides of the sliding rail (21) and the four sides of the frame seat (20) The provided sliding track fixing holes (29) are aligned and fastened with screws; the folded blade (33) and pulley (34) assembly of the bendable chain (22) is installed in the sliding track (21) , install the trough (23) on several brackets (35) of the bendable chain (22), install the motor sprocket (24) on the sprocket provided in one of the corners of the bottom of the frame seat (20) On the seat (30), the teeth of the gear one (48) are aligned with the gear port one ( 41) and the second gear port (44), install the drive sprocket (25) on the sprocket seat (30) provided in the triangle at the bottom of the frame seat (20), wherein the bearing of the drive sprocket (25) One (50) is installed in the bearing sleeve on the sprocket seat (30), and the second (49) teeth of the gear that drives the sprocket (25) are aligned with the left side of the bendable chain (22) and its folded blade (33). The first gear port (41) and the second gear port (44) provided on the page (36) and the right page (37); connect the time relay (51), transfer switch (52), The switch group (53) is respectively connected with the motor (47) of the motorized sprocket (24), wherein the motor (47) can be controlled independently by the time relay (51) to realize intelligent control by adjusting the switch (52), or The motor (47) is individually controlled by the switch group (53) to realize manual control; thereby forming the whole of the circulating feeding device (2).

The egg recovery device (3) is composed of a frame seat (54), a sliding track (55), a bendable chain (56), an egg recovery groove (57), a motor sprocket (58), and a driving mechanism. The first sprocket (59) is composed of a motor switch (60). The four sides of the frame seat one (54) are provided with sliding track fixing hole positions five (61), and the bottom four corners of the frame seat one (54) are provided with chains Wheel placement seat one (62), the bottom four sides of the frame seat one (54) are provided with a fixed connection seat of the circulating feeding device (63); the four sides of the sliding track one (55) are provided with fixed holes six (6). 64); Bendable chain one (56) is composed of several folded blades 1 (65), several groups of pulleys 1 (66) and several brackets 1 (67), wherein the folded blade 1 (65) is composed of The left page one (68), the right page one (69) and the pin one (70) are composed of an active pipe five (71) on the left of the left page one (68), and on the right side of the left page one (68). There are two active pipes six (72), a gear port two (73) is arranged in the middle and lower part of the left page one (68), and an active pipe seven (74) is arranged on the left side of the right page one (69), on the right The right side of the page one (69) is provided with two movable pipes (75), the middle and lower part of the right page one (69) is provided with a gear port three (76), and the upper part of the right page one (69) is provided with a bracket The link rod one (77) is provided with a pulley frame one (78) at the top and bottom of the right page one (69), respectively. When the left page one (68), the right page one (69) and the latch one (70) are combined , is to fit the movable pipe 7 (74) provided on the left side of the right page 1 (69) in the middle of the two movable pipes (72) provided on the right side of the left page 1 (68), and use the pin 1 (70) to pass through it. It is sleeved on the movable pipe six (72) and the movable pipe seven (74), so as to be combined into a folded blade one (65) as a whole; the pulley one (66) is divided into an upper wheel and a lower wheel, and the bracket one (67) is in the shape of U Type; when the folded blade 1 (65), the pulley 1 (66) and the bracket 1 (67) are combined, the upper wheel of the folded blade 1 (66) is installed on the right page of the folded blade 1 (65) (69). In the pulley frame one (78) provided at the top, the lower wheel of the pulley one (66) is installed in the pulley frame one (78) provided at the bottom of the right page one (69) of the folding blade one (65), Install the bracket 1 (67) on the bracket link rod 1 (77) provided on the upper part of the right page 1 (69) of the folding blade 1 (65), and fold the folded blade 1 (65) and pulley 1 (66). ) and brackets one (67) are combined to form a bendable chain one (56) as a whole; the egg recovery tank (57) is composed of a U-shaped tank body (79) and a soft cushion (80). The groove (57) is made of stretchable material; the motor sprocket one (58) is composed of the motor one (81) and the gear two (82); the driving sprocket one (59) is composed of the gear three (83) and the bearing Two (84) components; the above-mentioned frame one (54), the sliding track one ( 55), when the one bendable chain (56), the egg recovery tank (57), the one motor sprocket (58), the one driving sprocket (59) and the motor switch (60) are combined, the sliding track one ( 55) Installed on the frame seat 1 (54), during installation, the fixed hole positions 6 (64) provided on the four sides of the sliding track 1 (55) and the sliding rails provided on the four sides of the frame seat 1 (54) The track fixing hole position five (61) is aligned and fastened with a screw; the assembly of the folding blade one (65) and the pulley one (66) of the bendable chain one (56) is installed in the sliding track one (55), Install the egg recovery tank (57) on several brackets (67) of the bendable chain one (56), and install the motor sprocket (58) on one of the corners of the bottom of the frame seat (54). The sprocket is placed on the seat one (62), wherein the teeth of the gear two (82) are aligned with the left page one (68) and the right page one (69) of the flexible chain one (56) which is folded into the blade one (65). ) with the gear port two (73) and gear port three (76), install the driving sprocket one (59) on the bottom of the frame seat one (54). In which, the bearing two (84) that drives the sprocket one (59) is installed in the bearing sleeve of the sprocket seat one (62), and the teeth of the gear three (83) that drive the sprocket one (59) are aligned. The second (73) and the third (76) gear ports on the left page one (68) and the right page one (69) of the folding blade one (65) of the bendable chain one (56); use the power cord The motor switch (60) is connected with the motor one (81) of the motor sprocket one (58), and the motor switch (60) controls the operation of the motor one (81); thereby forming the whole egg recovery device (3).

The food tower (4) is composed of a storage bin (85), a feeding bin (86), a feeding device (87), a feeding device (88), a solenoid valve (89) and an electromechanical group one (90), The top of the storage bin (85) is provided with a feeding port (91) and an upper bearing placement hole (92) of the feeding device, and a discharge port (93) is provided at the bottom of the storage bin (85); the feeding bin (86) ) is provided with a material transfer pipe (94) and several layers of material silos (95), a blanking port (96) is arranged on the top of the material transfer pipe (94), and the material transfer pipe (94) is connected to each layer of material silos. A discharge port (97) is provided at the junction of (95), and a lower bearing placement hole (98) of the feeding device is provided at the bottom of the material transfer pipe (94); A bearing hole position (99) of a material transmission device is provided, and a discharge pipe (100) is arranged at the front end of the material distribution bin (95); Composed of three (103), a mixing plate (104) is arranged on the upper part of the rotating shaft (102), and a screw conveyor (105) is arranged at the lower part of the rotating shaft (102); the material conveying device (88) is driven by a motor Three (106), four bearings (107) and screw shaft (108); electromechanical group one (90) is composed of time relay one (109), transfer switch one (110), switch group one (111); When the storage bin (85), the feeding bin (86), the feeding device (87), the feeding device (88), the solenoid valve (89) and the electromechanical group one (90) are combined, the feeding bin (86) It is installed on the storage bin (85), wherein the discharge port (93) provided at the bottom of the storage bin (85) is aligned with the blanking provided at the top of the material transfer pipe (94) of the feeding bin (86). The port (96) is used to install the feeding device (87) into the combination of the storage bin (85) and the feeding bin (86), wherein the bearing three (103) on the top of the feeding device (87) is installed to the storage bin ( 85) In the upper bearing placement hole (92) of the feeding device provided at the top, the bearing three (103) at the bottom of the feeding device (87) is installed to the feeding bin (86) and the bottom of the feeding pipe (94) is provided with In the bearing placement hole (98) of the lower part of the feeding device, the mixing plate (104) of the rotating shaft (102) of the feeding device (87) is placed in the storage bin (85), and the rotating shaft of the feeding device (87) The spiral conveying channel (105) of (102) is arranged in the material conveying pipe (94) of the feeding bunker (86); , wherein, the front and rear two bearings (107) of the material conveying device (88) are respectively installed in the corresponding bearing holes (99) of the material conveying device on the left and right sides of the distributing bin (95); the solenoid valve (89) It is installed in the discharge pipe (100) provided at the front end of the feed bin (86) and its distribution bin (95), and the flow of the discharge pipe (100) is controlled by the solenoid valve (89). Connect the time relay 1 (109), transfer switch 1 (110), switch group 1 (111) of the electromechanical group 1 (90) with the motor 2 (101) of the feeding device (87) and the feeding device respectively with the power cord. The motor three (106) of (88) is connected to the solenoid valve (89), wherein the first time relay (109) can be adjusted by the switch one (110) to control the motor two (101) and the motor three (106) independently. and solenoid valve (89) to achieve intelligent control, or switch group one (111) to individually control motor two (101), motor three (106) and solenoid valve (89) to achieve manual control; and then form a food tower (4) overall.

The liquid material tower (5) is composed of a functional liquid storage tank (112) and a clean water tank (113). ) is provided with a drain port (115) at the bottom, a measuring cylinder (116) is provided on the top of the clean water tank (113), and a drain port (117) is provided at the bottom of the clean water tank (113).

The chicken manure recovery device (6) is composed of a conveyor belt (118), a fourth motor (119) and a second electromechanical group (120). The left and right sides of the frame body of the conveyor belt (118) are correspondingly provided with two fixing screw holes (2). 121), electromechanical group two (120) is composed of time relay two (122), transfer switch two (123), switch group two (124); the above-mentioned conveyor belt (118), motor four (119) and electromechanical group two (120) ) group together, the motor four (119) is installed on the conveyor belt (118), and linked to the front rotating shaft of the conveyor belt (118), the motor four (119) drives the conveyor belt (118) to run, and the power supply is used to drive the conveyor belt (118). The wire connects the time relay two (122), the transfer switch two (123), the switch group two (124) and the motor four (119) of the electromechanical group two (120), which can be adjusted by the transfer switch two (123). The time relay two (122) independently controls the motor four (119) to realize intelligent control, or the switch group two (124) independently controls the motor four (119) to realize manual control; then the chicken manure recovery device (6) is formed.

The water supply device (7) is composed of a water pipe (125), a switch (126), and an automatic nipple drinker (127) for chickens.

The microorganism supplying device (8) is composed of a drinking group (128) and a spraying group (129); the drinking group (128) is composed of a water pipe (130), a solenoid valve (131), and automatic nipple drinking water for chickens. The first device (132) and the three electromechanical groups (133) are composed of the electromechanical group three (133), which is composed of the time relay three (134), the transfer switch three (135), and the switch group three (136). 130), solenoid valve one (131), automatic nipple drinker for chickens (132) and electromechanical group three (133) are combined, the solenoid valve one (131) is installed at the front end of the water pipe one (130), by Solenoid valve 1 (131) controls the flow of feed liquid in water pipe 1 (130), arranges several automatic nipple drinkers (132) for chickens on water pipe 1 (130), and connects the electrical and mechanical group 3 with the power cord. (133) time relay three (134), transfer switch three (135), switch group three (136) and solenoid valve one (131) are connected, wherein, the transfer switch three (135) can be adjusted by the time relay three (134) Solenoid valve one (131) is independently controlled to realize intelligent control, or solenoid valve one (131) is controlled by switch group three (136) to realize manual control, thereby forming a drinking group (128) as a whole; (129) is composed of water pipe two (137), booster water pump (138), solenoid valve two (139), nozzle (140) and electromechanical group four (141), among which, electromechanical group four (141) is composed of an intermediate relay Four (142), four transfer switches (143), and four switch groups (144); the above-mentioned water pipe two (137), booster pump (138), solenoid valve two (139), nozzle (140) and electromechanical group four (139) 141) When combined, the booster water pump (138) and the second solenoid valve (139) are installed at the front end of the second water pipe (137), and the booster water pump (138) and the second solenoid valve (139) control the feed liquid in the water pipe. For the circulation of two (137), several nozzles (140) are arranged at the bottom of the water pipe two (137), and the inter-relay four (142), transfer switch four (143), The switch group four (144) is connected with the booster water pump (138) and the solenoid valve two (139), wherein the booster water pump (138) can be independently controlled by the switch four (143) to be adjusted by the inter-relay four (142). and solenoid valve two (139) to achieve intelligent control, or the switch group four (144) independently control the booster water pump (138) and solenoid valve two (139) to achieve manual control, thus forming the overall spray group (129) .

The power box (9) is composed of a box body (145) and multiple sets of electromechanical units.

Above-mentioned laying hen cage (1), circulating feeding device (2), egg recovery device (3), feeding tower (4), liquid material tower (5), chicken manure recovery device (6), water supply device (7), When the microorganism supply device (8) and the power supply box (9) are combined, the circulating feeding device (2) is installed on the circulating feeding device placement frame (13) of the laying hen cage (1). The fixed connecting seat (31) of the circulating feeding device provided on the four sides of the bottom of the frame seat (20) of the feeding device (2) is aligned with the circulating feeding device set on the cage (10) and the circulating feeding device mounting frame (13). The screw holes (14) of the feeding device are fixed and fastened with screws; the egg recovery device (3) is installed on the egg recovery device placement frame (17) provided on the upper end of the frame feet (11) of the laying hen cage (1). , During installation, the first (54) of the egg recovery device (3) its frame seat (54) the fixed connection seat one (63) of the circulating feeding device provided on the bottom four sides is aligned with the frame feet (11) of its egg recovery device placement frame (17). The provided egg recovery device fixing screw hole one (18) is fastened with screws, and the motor switch (60) of the egg recovery device (3) is installed on the laying hen cage (1) and the position convenient for personnel to operate; The food tower (4) is arranged next to the laying hen cage (1), wherein the discharge pipe (100) provided at the front end of the feed bin (95) of the feeding bin (86) of the food tower (4) is aligned and installed on the side. The circulating feeding device (2) of the laying hen cage (1) is in the feeding trough (23); Link up, wherein, one end of the water pipe (125) of the water supply device (7) is connected to the liquid discharge port one (117) provided at the bottom of the clean water tank (113) of the liquid material tower (5), and the water supply device (117) is connected. 7) The combination of the water pipe (125) and the automatic nipple drinker (127) for chickens is installed in the laying hen cage (1), and the front end of the water pipe (125) is arranged in the middle of the cage body (10). The liquid circulation pipe is arranged in the hole position (12); one end of the water pipe (130) of the drinking group (128) of the microorganism supply device (8) is connected to the liquid material tower (5) and the functional liquid storage tank (112) of the liquid material tower (5). In some liquid discharge ports (115), a combination of a water pipe (130) of a drinking group (128) of a microorganism supply device (8) and a chicken automatic teat drinker (132) is installed in a laying hen cage (1) inside, and the front end of the water pipe one (130) is placed in the liquid circulation pipe placement hole (12) provided in the middle of the cage body (10); the water pipe of the spray group (129) of the microorganism supply device (8) One end of the second (137) is connected to the liquid discharge port (115) provided in the functional liquid storage tank (112) of the liquid material tower (5), and the second (137) of the water pipe (137) and the nozzle ( 140) The assembly is installed at the bottom of the egg recovery device (3) arranged in the cage body (10); the chicken manure recovery device (6) is installed in the laying hen cage (1), and during installation, the chicken manure recovery device (6 ) The second fixing screw holes (121) provided on the left and right sides of the frame body of the conveyor belt (118) are aligned with the fixing hole position one (19) of the chicken manure recovery device provided in the middle of the frame feet (11) of the laying hen cage (1). , and tighten it with a screw; connect the electromechanical group (26) of the circulating feeding device (2), the electromechanical group one (90) of the feeding tower (4), the electromechanical group two (120) of the chicken manure recovery device (6), The electromechanical group three (133) of the drinking group (128) of the microorganism supply device (8) and the electromechanical group four (141) of the spray group (129) of the microorganism supply device (8) are respectively installed in the power box (9). , thus forming an intelligent and efficient breeding system for laying hens as a whole.

2. An intelligent and efficient raising system for laying hens, the technical scheme is that: the above-mentioned laying hen cage (1), circulating feeding device (2), egg recovery device (3) and chicken manure recovery device (6) can be combined into Several groups are added on the upper part; several discharge pipes (100) provided in the sub-silo (95) of the food tower (4) can supply multiple groups of circulating feeding devices (2) at the same time; the liquid tower (5) can also At the same time, multiple sets of assemblies are supplied; the water supply device (7), the microorganism supply device (8) and the power supply box (9) can also be correspondingly added and combined with the above equipment to continue to realize three-dimensional automatic breeding of laying hens.

The time relay is a very important component in the electrical control system. In many control systems, the time relay needs to be used to realize time delay control. Time relay is an automatic control electrical appliance that uses electromagnetic principle or mechanical action principle to delay the closing or breaking of contacts. Its characteristic is that there is a delay from the time when the self-attracting coil gets the signal to the action of the contact. Time relays are generally used for motor starting process control as a function of time. The main function of the time relay is as an executive device in simple program control. When it receives the start signal, it starts timing. After the timing is over, its working contacts open or close, thereby promoting the subsequent circuit work. Generally speaking, the delay performance of the time relay can be adjusted within the design range, so as to facilitate the adjustment of its delay time. A time relay alone may not be able to start delay closing, and then disconnect after closing for a period of time. First realize delay closing and then delay opening, but in general, by configuring a certain number of time relays and intermediate relays All can be done. With the development of electronic technology, electronic time relays have become mainstream products in time relays. Electronic intelligent digital display time relays using large-scale integrated circuit technology have a variety of working modes, which can not only achieve long delay time, but also High delay accuracy, small size, convenient adjustment and long service life, making the control system simpler and more reliable.

The automatic nipple drinker for chickens has the following advantages:

①It can be directly stuck on the pvc round water pipe with a diameter _of 2.5cm _.

②Built-in 304 stainless steel balls _, effectively control the water output _, and at the same time achieve 360-degree drinking water _, breaking through the problem that chickens can't use chicken drinking fountains.

③It can be used together _with the hanging cup to save water _and prevent the dripping water from making the chicken house wet _.

④It can effectively save the trouble _of manual water supply. At the same time, the water outlet is controlled _by the chicken mouth. When the chicken mouth leaves the water rod _{, the} water will automatically stop.

⑤It saves time and effort _, is healthy and hygienic _, is easy to install, disassemble and clean _{, and} eliminates the cost _of glue bonding. Stainless steel and plastic are wear-resistant _.

Application principle and process of the present invention:

1. The application principle and process of the laying hen cage (1): an egg flow slope (15) is arranged at the bottom of the cage body (10), and an egg flow plate (16) is arranged at the front end of the egg flow slope (15). After the chicken lays eggs, the eggs roll down on the egg flow inclined plane (15), and are rolled into the egg recovery device (3) through the egg circulation plate (16), so as to facilitate recovery.

2. The application principle and process of the circulating feeding device (2): the feeding of the laying hens is fed from the feeding tower (4) → feeding bin (86) → dividing bin (95) → discharging pipeline (100) into the circulating feeding in the trough (23) of the device (2). Driven by the motorized sprocket (24) and the driving sprocket (25), the bendable chain (22) circulates smoothly in the sliding track (21), and the laying hens in the laying hen cage (1) can be easily pecked Feed the food in the trough (23) of the circulating feeding device (2) back and forth. Because the bendable chain (22) is composed of several folding blades (33), several groups of pulleys (34) and several brackets (35), wherein the folding blade (33) is composed of the left page (36), the right The page (37) and the latch (38) are formed, so the bendable chain (22) can run at various angles at will, the material trough (23) is made of stretchable material, and the material trough (23) can also be freely moved at any angle. Operation at various angles; place the motor sprocket (24) and the three driving sprockets (25) on the four corners of the frame seat (20) of the circulating feeding device (2), so that the bendable chain (22) and the carrying The trough (23) can run smoothly at 90 degrees; the pulley (34) in the bendable chain (22) is arranged in the sliding track (21), and under the action of the pulley (34), the bendable chain is made (22) Running smoothly; the motor (47) of the motorized sprocket (24) is controlled by a time relay (51), a transfer switch (52), and a switch group (53), wherein the transfer switch (52) can be used to adjust the The time relay (51) independently controls the motor sprocket (24) to realize intelligent control, specifically according to scientific feeding of the laying hens, combined with the feeding time period, the time relay (51) is artificially set, so that the The time relay (51) precisely and automatically controls when the motorized sprocket (24) runs, how long it runs, etc.; it can also be manually controlled or the switch group (53) can control the motor (47) alone, specifically according to the food ingredients. During the feeding time period, when the motor sprocket (24) runs, how long it runs, etc., is controlled manually.

3. The application principle and process of the egg recovery device (3): after the laying hen lays eggs, the eggs roll down on the egg flow slope (15) provided at the bottom of the cage (10), and roll through the egg circulation plate (16) To the egg recovery tank (57) of the egg recovery device (3), since the egg recovery tank (57) is composed of a U-shaped tank body (79) and a soft cushion (80), the eggs are circulated to the egg recovery tank (57). ), the egg breaking rate is very low; the motorized sprocket one (58) of the egg recovery device (3) is activated, and driven by the operation of the motorized sprocket one (58), the flexible chain one (56) runs on the sliding track one (58). 55) in the smooth cycle operation. Because the bendable chain 1 (56) is composed of several folding blades (65), several groups of pulleys (66) and several brackets (67), wherein the folding blade one (65) is composed of the left page One (68), right page one (69) and latch one (70), so the cocoa-bendable chain one (56) can run at various angles at will, while the egg recovery tank (57) is made of retractable material The egg recovery tank (57) can also run at various angles at will; the motor sprocket one (58) and the three driving sprockets (59) are respectively placed on the frame one (54) of the egg recovery device (3). ) four corners, so that the flexible chain one (56) and the egg recovery tank (57) it carries can run smoothly at 90 degrees; the pulley one (66) in the flexible chain one (56) is placed on the sliding track one. In (55), under the action of the pulley one (66), the flexible chain one (56) runs smoothly; the motor one (81) of the motorized sprocket one (58) is controlled by the motor switch (60). , specifically, when the first (58) of the motorized sprocket is opened and controlled by the staff according to the work schedule, how long it runs, and so on.

4. The application principle and process of the feeding tower (4): the feeding of the laying hens is fed from the feeding tower (4) → feeding bin (86) → dividing bin (95) → discharging pipeline (100) into the circulating feeding device ( 2) in the trough (23). After the food enters the food tower (4), the second motor (101) of the feeding device (87) is started, and driven by the operation of the second motor (101), the mixing plate (104) provided on the upper part of the rotating shaft (102) will The food material is brought into the spiral conveying channel (105) provided at the lower part of the rotating shaft (102), and the food material is transported down in an orderly manner by the spiral conveying channel (105) instead of falling vertically. 94) The discharge port (97) provided at the junction with each layer of the material silo (95) enters the material silo (95) of the feeding silo (86); at the same time, the feeding device (88) and the solenoid valve (89) are activated ), the solenoid valve (89) of the control discharge pipeline (100) is opened, and driven by the operation of the motor three (106) of the material conveying device (88), the screw shaft (108) will enter the feeder of the material distribution bin (95). The food material is transported forward, and the food material is continuously circulated in the feeding silo (95) through the discharge pipe (100) to the feeding trough (23) of the circulating feeding device (2) for the laying hens to peck. The second motor (101) of the feeding device (87), the third motor (106) and the solenoid valve (89) of the feeding device (88) are respectively controlled by a time relay one (109), a transfer switch one (110), and a switch group one. (111) Control; wherein, the first switch (110) can be used to adjust the time relay one (109) to independently control the motor two (101), the motor three (106) and the solenoid valve (89) to achieve intelligent control, specifically According to the scientific feeding of the laying hens, combined with the feeding time period, the time relay 1 (109) is manually set to accurately and automatically control the motor two (101) and the motor three (106) ) and solenoid valve (89) when to run, how long to run, etc.; it is also possible to control motor two (101), motor three (106) and solenoid valve (89) individually or by switch group one (111) to achieve manual Specifically, according to the feeding time period of the food material, when the motor 2 (101), the motor 3 (106) and the solenoid valve (89) of the control machine are manually turned on, and how long they will operate, etc.; The feeding bin (95) is provided with several discharge pipes (100), which can supply multiple groups of circulating feeding devices (2) at the same time, and continue to realize the three-dimensional automatic breeding of laying hens.

5. The application principle and process of the liquid material tower (5): the liquid material tower (5) is divided into a functional liquid storage tank (112) and a clean water tank (113). The functional liquid storage tank (112) is used to prepare and store beneficial microorganisms. There is a graduated cylinder (114) on the top of the functional liquid storage tank (112), which is convenient for the preparation of beneficial microorganism liquid, nutrient solution and vaccine in the preparation process of accurate amperometric dilution; The tank (113) is mainly used to store the daily drinking water of laying hens. A measuring cylinder (116) is arranged on the top of the clear water tank (113), so that it is convenient to add nutrient solution, disease prevention drugs and vaccines to the clear water tank (113) in preparation. The process achieves accurate amperometric dilution preparation.

6. The application principle and process of the chicken manure recovery device (6): after the laying hens in the cage (10) defecate, they fall into the conveyor belt (118) of the chicken manure recovery device (6), start the motor four (119), Driven by the operation of the motor four (119), the conveyor belt (118) circulates forward, and the chicken manure falling into the conveyor belt (118) is sprayed with the beneficial bacteria liquid by the spray group (129) of the microorganism supply device (8) and then moves forward. It is transported, and falls into other recycling facilities at the last end of the conveyor belt (118) for subsequent treatment. After the chicken manure is sprayed with microorganisms, the reproduction of harmful bacteria in the chicken manure is effectively inhibited, and the odor and odor are eliminated. The fermentation process plays a very good role in fermentation. Motor four (119) is controlled by time relay two (122), transfer switch two (123), switch group two (124), among which, it can be adjusted by time relay two (122) independently through transfer switch two (123). Control motor four (119) to realize intelligent control, specifically according to the amount of manure and recycling requirements, by artificially setting the relevant parameters of time relay two (122), so that time relay two (122) can accurately control motor four (119) When to run, how long to run, etc; Controls when the conveyor belt (118) runs, how long it runs, etc.

7. The application principle and process of the water supply device (7): connect one end of the water pipe (125) of the water supply device (7) to the clean water tank (113) of the liquid material tower (5), and connect the water pipe (125) of the water supply device (7). 125) and the laying hen pecking automatic nipple drinker (127) assembly is placed in the cage body (10) of the laying hen cage (1); as soon as the switch (126) is turned on, the liquid material tower (5) has its clean water tank (113). ) is circulated through the water pipe (125) to each automatic nipple drinker (127) for chickens, and the laying hens peck the clean water in the automatic nipple drinker (127).

8. The application principle and process of the microorganism supply device (8): the microorganism supply device (8) is divided into two parts: a drinking group (128) and a spray group (129); One end of the water pipe (130) is connected to the liquid discharge port (115) provided in the functional liquid storage tank (112) of the liquid material tower (5), and supplies the microorganisms to the water pipe of the drinking group (128) of the device (8). One (130) and one (132) combination of automatic nipple drinker for chickens are installed in the cage (10) of the laying hen cage (1). Solenoid valve 1 (131) controls the flow of feed liquid in water pipe 1 (130), and time relay 3 (134), transfer switch 3 (135) and switch group 3 (136) of electromechanical group 3 (133) are used to connect the solenoid valve. One (131) is controlled; wherein, the time relay three (134) can adjust the solenoid valve one (131) independently by changing the switch three (135) to realize intelligent control, specifically according to the supply demand of beneficial bacteria liquid through artificial Set the relevant parameters of the time relay three (134), so that the solenoid valve one (131) precisely controlled by the time relay three (134) opens when the probiotic liquid circulates, how long it circulates, etc., or by the switch group three (136) ) Separately control the solenoid valve one (131) to realize manual control, specifically according to the supply demand of the beneficial bacteria liquid, by manually opening the solenoid valve one (131) to control when the beneficial bacteria liquid circulates, how long it will circulate, etc.; One end of the second water pipe (137) of the spray group (129) of the microorganism supply device (8) is connected to the liquid discharge port (115) provided in the functional liquid storage tank (112) of the liquid material tower (5), and the The second water pipe (137) and the spray head (140) of the microorganism supply device (8) are installed above the chicken manure recovery device (6), and the booster water pump (138) and the second solenoid valve (139) are installed on the water pipe The front end of the second (137) is controlled by the booster water pump (138) and the solenoid valve two (139) to control the flow of the material liquid in the water pipe two (137). Four (143) and switch group four (144) are used to control the operation of booster water pump (138) and solenoid valve two (139). Among them, the four (143) switch can be used to adjust the independent control of the booster pump (142). The pressurized water pump (138) and the solenoid valve two (139) are used to realize intelligent control. Specifically, according to the needs, the inter-relay four (142) is artificially set, so that the inter-relay four (142) can precisely control the booster water pump (138) and When will the solenoid valve two (139) be opened, how long it will be open, etc., or manually control the booster water pump (138) and the solenoid valve two (139) by the switch group four (144) alone, depending on the demand , by manually opening the booster water pump (138) and the solenoid valve two (139) to control when the beneficial bacteria liquid is sprayed Spray, how long to spray, etc., and the beneficial bacteria liquid is produced by the booster water pump (138), and the beneficial bacteria liquid forms a mist when sprayed from the nozzle (140), so that the beneficial bacteria liquid is evenly sprayed on the chickens. The chicken manure on the conveyor belt (118) of the manure recovery device (6) or the bottom of the laying hen cage (1) enables the chicken manure to receive the beneficial bacterial liquid in a balanced manner, which is convenient for subsequent fermentation and other treatments, and at the same time, the chicken manure and the site are sprayed beneficially After the bacteria liquid, it can effectively inhibit the growth of various harmful bacteria, and then effectively prevent the production of various diseases.

The beneficial effects of the present invention are:

1. The structure of the present invention is scientific and reasonable, novel and unique, innovative and practical.

2. In the present invention, an egg flow inclined plane is arranged at the bottom of the cage body, and an egg flow plate is arranged at the front end of the egg flow inclined plane. Egg recovery device for easy recovery.

3. In the present invention, the bendable chain and the trough of the circulating feeding device can run at various angles at will, and the motor sprocket and the three driving sprockets are placed at the four corners of the frame respectively, so that the bendable chain and the load The feed trough can run smoothly at 90 degrees; the pulley in the flexible chain is placed in the sliding track, and under the action of the pulley, the flexible chain runs smoothly; the laying hens in the laying hen cage can be easily pecked The cyclic feeding device is used to feed the food in the trough, and the bottom of the trough is smooth and flat, which is very convenient to arrange the residual food. Since there is no dead angle, there is no risk of secondary pollution; , Switch group control, among which, intelligent control can be realized by switching the switch to adjust the cycle feeding device independently controlled by the time relay, or manual control can be realized by the switch group alone controlling the cycle feeding device; the functions are diverse and the degree of automation is high. , low feed loss.

4. In the present invention, in the process of eggs circulating to the egg recovery tank in the egg recovery device, since the egg recovery tank is composed of a U-shaped tank body and a soft cushion, the egg breaking rate is very low when the eggs are circulated to the egg recovery tank. ;Bendable chain 1 and egg recovery tank of the egg recovery device can run at various angles at will. In addition, the motor sprocket 1 and the three driving sprockets 1 are placed at the four corners of the frame seat, so that the bendable chain can be The first and the carrying egg recovery tank can run smoothly at 90 degrees; the pulley one in the flexible chain one is placed in the sliding track one, and under the action of the pulley one, the flexible chain one runs smoothly. In the traditional laying hen raising mode, workers are required to walk back and forth along the egg recovery tank to collect eggs, which is labor-intensive and time-consuming. Packaging, avoid walking back and forth, reduce human transmission of germs, greatly reduce labor intensity, save time and effort.

5. In the present invention, the food of the laying hens enters the feeding trough of the circulating feeding device from the feeding tower→feeding bin→distributing bin→discharging pipeline. The food material is transported down in an orderly manner by the screw conveyor, instead of falling vertically. Feeding trough for laying hens to peck. The feeding device, the feeding device and the solenoid valve are controlled by the time relay 1, the transfer switch 1 and the switch group 1 respectively; among them, the feeding device, the feeding device and the solenoid valve can be controlled independently by the time relay 1 through the switching switch 1. To achieve intelligent control, the switch group can also control the feeding device, the feeding device and the solenoid valve individually to achieve manual control, with various functions and a high degree of automation. The sub-silo of the food tower is equipped with several discharge pipes, which can supply multiple groups of circulating feeding devices at the same time, and continue to realize the three-dimensional automatic breeding of laying hens.

6. In the present invention, the liquid material tower is divided into a functional liquid storage tank and a clean water tank. The functional liquid storage tank is used to prepare and store beneficial microorganism liquid, nutrient solution, drinking water immunity, etc. The graduated cylinder is convenient for the preparation of accurate amperometric dilution of beneficial microorganism liquid, nutrient solution, disease prevention drugs, vaccines, etc. during the configuration process.

7. In the present invention, the laying hens fall into the chicken manure recovery device after defecation, and the chicken manure falling into the conveyor belt is sprayed with beneficial bacteria liquid by the spray group of the microorganism supply device, and then transported forward, and falls at the last end. After the chicken manure is sprayed by microorganisms, it can effectively inhibit the reproduction of harmful bacteria in the chicken manure, eliminate odor and odor, and play a good role in the subsequent fermentation treatment. The chicken manure recovery device is controlled by the second time relay, the second switch, and the second switch group. Among them, the second time relay can be adjusted by the second switch to control the chicken manure recovery device independently to achieve intelligent control. Specifically, according to the dropping of manure Quantity and recycling requirements, through artificially setting time relay 2, time relay 2 can accurately control when the chicken manure recovery device runs, how long it runs, etc.; or switch group 2 independently controls the chicken manure recovery device to achieve manual control. It has various functions and a high degree of automation, which avoids frequent manual cleaning of the chicken manure at the bottom of the cage, saving time and effort; at the same time, the chicken manure is cleaned in time to provide a clean and healthy environment for laying hens and avoid the occurrence of immune diseases.

8. In the present invention, the clean water of the liquid feed tower is led to the automatic nipple drinkers for chickens placed in the laying hen cage, and the laying hens peck the clean water in the automatic teat drinkers. Effectively control the water output, and at the same time achieve 360-degree drinking water, breaking through the problem that chickens can't use chicken drinking fountains. More water saving, prevent dripping water from making the house wet, and the environment of the house is improved. Through the drinking group, the beneficial bacteria liquid is introduced to the automatic nipple drinker for chickens placed in the laying hen cage for the laying hens to peck, and the beneficial bacteria are used to effectively condition the stomach of the laying hens, which not only improves the immunity of laying hens, but also enhances disease resistance. In addition, the beneficial bacteria can improve the quality of eggs; the beneficial bacteria liquid is evenly sprayed on the chicken manure or the bottom of the laying hen cage on the chicken manure recovery device through the spray group, so that the chicken manure can receive the microbial liquid in a balanced manner, which is convenient for follow-up. Fermentation and other treatments, and at the same time, after spraying the beneficial bacteria liquid on the chicken manure and the site, it can effectively inhibit the growth of various harmful bacteria, and then effectively prevent the occurrence of various diseases. It is equivalent to establishing a relatively complete epidemic prevention and control system to strengthen the effective prevention and control of epidemic diseases.

10. In the present invention, several groups can be added to the combination of laying hen cage, circulating feeding device, egg recovery device and chicken manure recovery device; Multiple sets of circulating feeding devices; liquid material towers can also supply multiple sets of assemblies at the same time; water supply devices, microorganism supply devices and power boxes can also be correspondingly added and combined with the above equipment to continue to realize three-dimensional automatic breeding of laying hens.

11. Traditional laying hen breeding has always had the problems of backward breeding technology and high operating costs. The invention has simple structure and low production cost, but can realize automatic, intelligent and efficient breeding, and has the concept and direction of "health, ecology and environmental protection", further improves the output and quality of laying hens, and realizes healthy breeding of laying hens; It is a new mode of promoting low-cost, standardized laying hens, automation and antibiotic-free breeding, promoting the transformation and upgrading of the laying hen industry to modernization, and it is easy to popularize.

Description of drawings

The present invention will be further described below with reference to the accompanying drawings.

Figure 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of a laying hen cage (1) in the present invention.

Figure 3 is a schematic structural diagram of the circulating feeding device (2) in the present invention.

Figure 4 is a schematic structural diagram of the frame seat (20) of the circulating feeding device (2) in the present invention.

Figure 5 is a schematic structural diagram of the sliding track (21) of the circulating feeding device (2) in the present invention.

Figure 6 is a schematic structural diagram of the present invention when the frame seat (20) and the sliding track (21) are combined.

FIG. 7 is a schematic structural diagram of the bendable chain (22) of the circulating feeding device (2) in the present invention.

Fig. 8 is a schematic structural diagram of the folding blade (33) of the bendable chain (22) of the circulating feeding device (2) according to the present invention.

Fig. 9 is a schematic structural diagram of the left page (36) of the folding blade (33) of the flexible chain (22) of the circulating feeding device (2) according to the present invention.

Figure 10 is a schematic structural diagram of the right page (37) of the folding blade (33) of the flexible chain (22) of the circulating feeding device (2) according to the present invention.

Figure 11 is a schematic structural diagram of the right page (37) of the folding blade (33) of the bendable chain (22) of the circulating feeding device (2) according to the present invention.

Figure 12 is a schematic structural diagram of the latch (38) in the folding blade (33) of the flexible chain (22) of the circulating feeding device (2) according to the present invention.

Figure 13 is a schematic structural diagram of the flexible chain (22) of the circulating feeding device (2) of the present invention when the folded blade (33), the group pulley (34) and the bracket (35) are combined.

Figure 14 is a schematic structural diagram of the circulating feeding device (2) in the present invention when the sliding track (21) and the bendable chain (22) are combined.

Fig. 15 is a schematic structural diagram of the trough (23) of the circulating feeding device (2) in the present invention.

Figure 16 is a schematic structural diagram of the motor sprocket (24) of the circulating feeding device (2) in the present invention.

Figure 17 is a schematic structural diagram of the circulating feeding device (2) in the present invention when its sliding track (21), bendable chain (22) and motor sprocket (24) are combined.

Fig. 18 is a schematic structural diagram of the driving sprocket (25) of the circulating feeding device (2) in the present invention.

Fig. 19 is a schematic structural diagram of the electromechanical group (26) of the circulating feeding device (2) in the present invention.

Figure 20 is a schematic structural diagram of the egg recovery device (3) in the present invention.

Figure 21 is a schematic structural diagram of the first frame (54) of the egg recovery device (3) in the present invention.

Figure 22 is a schematic structural diagram of the sliding track 1 (55) of the egg recovery device (3) in the present invention.

Figure 23 is a schematic structural diagram of the egg recovery device (3) of the present invention when the first frame (54) and the sliding track (55) are combined.

Fig. 24 is a schematic structural diagram of the first bendable chain (56) of the egg recovery device (3) according to the present invention.

Figure 25 is also a schematic structural diagram of the flexible chain one (56) of the egg recovery device (3) in the present invention

Figure 26 is a schematic structural diagram of the folding blade one (65) of the flexible chain one (56) of the egg recovery device (3) of the present invention.

27 is a schematic structural diagram of the left page one (68) of the folding blade one (65) of the flexible chain one (56) of the egg recovery device (3) according to the present invention.

28 is a schematic structural diagram of the right page one (69) of the folding blade one (65) of the flexible chain one (56) of the egg recovery device (3) according to the present invention.

Figure 29 is a schematic structural diagram of the right page one (69) of the folding blade one (65) of the flexible chain one (56) of the egg recovery device (3) according to the present invention.

Figure 30 is a schematic structural diagram of a pin 1 (70) in the folding blade 1 (65) of the flexible chain 1 (56) of the egg recovery device (3) according to the present invention.

Figure 31 is a schematic structural diagram of the first sliding track (55) and the first flexible chain (56) of the egg recovery device (3) in the present invention.

Figure 32 is a schematic structural diagram of the egg recovery tank (57) of the egg recovery device (3) in the present invention.

Figure 33 is a schematic structural diagram of the motor sprocket one (58) of the egg recovery device (3) in the present invention.

Figure 34 is a schematic structural diagram of the first sliding track (55), the first flexible chain (56) and the first motor sprocket (58) of the egg recovery device (3) according to the present invention.

Figure 35 is a schematic structural diagram of the first driving sprocket (59) of the egg recovery device (3) in the present invention.

Figure 36 is a schematic structural diagram of the food tower (4) in the present invention.

Figure 37 is also a schematic structural diagram of the food tower (4) in the present invention.

Figure 38 is a schematic structural diagram of the storage bin (85) of the food tower (4) in the present invention.

Figure 39 is a schematic structural diagram of the feeding bin (86) of the food tower (4) in the present invention.

Figure 40 is a schematic structural diagram of the feeding device (87) of the food tower (4) in the present invention.

Figure 41 is a schematic structural diagram of the feeding device (88) of the food tower (4) in the present invention.

Figure 42 is a schematic structural diagram of the electromechanical group 1 (90) of the food tower (4) in the present invention.

Figure 43 is a schematic structural diagram of the liquid material tower (5) in the present invention.

Figure 44 is a schematic structural diagram of the chicken manure recovery device (6) in the present invention.

Figure 45 is a schematic structural diagram of the second electromechanical group (120) of the chicken manure recovery device (6) according to the present invention.

Figure 46 is a schematic view of the structure of the water supply device (7) in the present invention.

Fig. 47 is a schematic view of the structure of the microorganism supply device (8) in the present invention.

Fig. 48 is a schematic structural diagram of the drinking group (128) of the microorganism supply device (8) according to the present invention.

Fig. 49 is a schematic structural diagram of the electromechanical group three (133) of the drinking group (128) of the microorganism supply device (8) according to the present invention.

Figure 50 is a schematic structural diagram of the spray group (129) of the microorganism supply device (8) in the present invention.

Figure 51 is a schematic structural diagram of the electromechanical group four (141) of the spray group (129) of the microorganism supply device (8) in the present invention.

Figure 52 is a schematic structural diagram of the power box (9) in the present invention.

Figure 53 is a schematic structural diagram of the present invention when the layer cage (1), the circulating feeding device (2), the egg recovery device (3), and the chicken manure recovery device (6) are combined.

In Figure 1, 1 is a laying hen cage, 2 is a circulating feeding device, 3 is an egg recovery device, 4 is a feed tower, 5 is a liquid feed tower, 6 is a chicken manure recovery device, 7 is a water supply device, and 8 is a microorganism Supply means, 9 is a power box.

In Figure 2, 1 is the laying hen cage, 10 is the cage body, 11 is the frame foot, 12 is the placement hole of the liquid circulation pipe, 13 is the placement frame of the circulating feeding device, 14 is the fixing screw hole of the circulating feeding device, 15 It is the egg flow slope, 16 is the egg circulation plate, 17 is the placement frame of the egg recovery device, 18 is the fixing screw hole 1 of the egg recovery device, and 19 is the fixing hole position 1 of the chicken manure recovery device.

In Figure 3, 2 is a circulating feeding device, 20 is a frame, 21 is a sliding track, 22 is a bendable chain, 23 is a trough, 24 is a motor sprocket, 25 is a driving sprocket, and 26 is an electromechanical group. .

In Fig. 4, 20 is the frame seat, 29 is the second fixed hole position of the sliding track, 30 is the sprocket seat, and 31 is the fixed connection seat of the circulating feeding device.

In Fig. 5, 21 is a sliding track, and 32 is a fixed hole position three.

In Fig. 6, 21 is a sliding rail, and 22 is a bendable chain.

In FIG. 7, 22 is a bendable chain, 33 is a folding blade, 34 is a pulley, and 35 is a bracket.

In FIG. 8, 33 is a folding blade, 36 is a left page, 37 is a right page, and 38 is a latch.

In FIG. 9, 36 is the left page, 39 is the first movable pipe, 40 is the second movable pipe, and 41 is the first gear port.

In Fig. 10, 37 is the right page, 42 is the movable pipe three, 43 is the movable pipe four, 44 is the gear port two, 45 is the bracket link rod, and 46 is the pulley frame.

In Fig. 11, 37 is the right page, 42 is the third movable pipe, 44 is the second gear port, 45 is the bracket link rod, and 46 is the pulley frame.

In Fig. 12, 38 is a latch.

In Fig. 13, 33 is a folding blade, 34 is a pulley, and 35 is a bracket.

In Fig. 14, 21 is a sliding rail, and 22 is a bendable chain.

In Fig. 15, 23 is a trough.

In Fig. 16, 24 is a motorized sprocket, 47 is a motor, and 48 is a gear one.

In Fig. 17, 21 is a sliding rail, 22 is a bendable chain, and 24 is a motorized sprocket.

In Fig. 18, 25 is the driving sprocket, 49 is the second gear, and 50 is the first bearing.

In FIG. 19, 26 is an electromechanical group, 51 is a time relay, 52 is a changeover switch group, and 53 is a switch group.

In Fig. 20, 3 is an egg recovery device, 54 is a frame base, 55 is a sliding track, 56 is a bendable chain, 57 is an egg recovery tank, 58 is a motor sprocket, and 59 is a driving sprocket. , 60 is the motor switch.

In Figure 21, 54 is the first frame, 61 is the fixing hole position 5 of the sliding track, 62 is the sprocket seat 1, and 63 is the fixed connection seat 1 of the circulating feeding device.

In Fig. 22, 55 is the sliding track one, and 64 is the fixed hole position six.

In FIG. 23, 54 is the first frame, and 55 is the first sliding rail.

In FIG. 24, 56 is a bendable chain, 65 is a folding blade, 66 is a set of pulleys, and 67 is a bracket.

In Fig. 25, 56 is a bendable chain, 65 is a folding blade, 66 is a set of pulleys, and 67 is a bracket.

In FIG. 26, 65 is a folding blade, 68 is a left page, 69 is a right page, and 70 is a latch.

In Fig. 27, 68 is the left page one, 71 is the active pipe five, 72 is the active pipe six, and 73 is the gear port two.

In FIG. 28, 69 is the right page one, 74 is the movable pipe seven, 75 is the movable pipe eight, 76 is the gear port three, 77 is the bracket link rod one, and 78 is the pulley frame one.

In Fig. 29, 69 is the right page one, 74 is the movable pipe seven, 76 is the gear port three, 77 is the bracket link rod one, and 78 is the pulley frame one.

In Fig. 30, 70 is a pin one.

In Fig. 31, 55 is a sliding rail one, and 56 is a bendable chain one.

In Fig. 32, 57 is an egg recovery tank, 79 is a U-shaped tank body, and 80 is a soft pad.

In Fig. 33, 58 is a motor sprocket one, 81 is a motor one, and 82 is a gear two.

In Fig. 34, 55 is a sliding track one, 56 is a bendable chain one, 58 is a motorized sprocket one,

In Figure 35, 59 is the driving sprocket one, 83 is the third gear, and 84 is the second bearing.

In Fig. 36, 4 is a food tower, 85 is a storage bin, 86 is a feeding bin, 87 is a feeding device, 88 is a feeding device, 89 is a solenoid valve, and 90 is an electromechanical group.

In Figure 37, 4 is a food tower, 85 is a storage bin, 86 is a feeding bin, 87 is a feeding device, 88 is a feeding device, 89 is, and the solenoid valve 90 is a mechanical and electrical group.

In Figure 38, 85 is a storage bin, 91 is a feed port, 92 is a bearing placement hole on the upper part of the feeding device, and 93 is a discharge port.

In Fig. 39, 86 is the feeding bin, 94 is the feeding pipe, 95 is the dividing bin, 96 is the blanking port, 97 is the discharging port, 98 is the bearing placement hole of the lower part of the feeding device, and 99 is the bearing of the feeding device The hole position, 100 is the discharge pipe.

In Figure 40, 87 is a feeding device, 101 is a second motor, 102 is a rotating shaft, 103 is a third bearing, 104 is a mixing plate, and 105 is a screw conveyor.

In Fig. 41, 88 is a feeding device, 106 is a motor three, 107 is a bearing four, and 108 is a screw shaft.

In Fig. 42, 90 is electromechanical group one, 109 is time relay one, 110 is transfer switch one, and 111 is switch group one.

In Fig. 43, 5 is a liquid material tower, 112 is a functional liquid storage tank, 113 is a clean water tank, 114 is a graduated cylinder, 115 is a liquid discharge port, 116 is a graduated cylinder one, and 117 is a liquid discharge port one.

In Fig. 44, 6 is a chicken manure recovery device, 118 is a conveyor belt, 119 is a motor four, 120 is an electromechanical group two, and 121 is a fixing screw hole two.

In FIG. 45, 120 is the second electromechanical group, 122 is the second time relay, 123 is the second switch, and 124 is the second switch group.

In Fig. 46, 7 is a water supply device, 125 is a water pipe, 126 is a switch, and 127 is an automatic nipple drinker for chickens.

In Fig. 47, 8 is a microorganism supply device, 128 is a drinking group, and 129 is a shower group.

In Figure 48, 128 is the drinking group, 130 is the water pipe one, 131 is the solenoid valve one, 132 is the automatic nipple drinker for chickens one, and 133 is the electromechanical group three.

In Fig. 49, 133 is electromechanical group three, 134 is time relay three, 135 is transfer switch three, and 136 is switch group three.

In Figure 50, 129 is the spray group, 137 is the second water pipe, 138 is the booster pump, 139 is the solenoid valve 2, 140 is the spray head, and 141 is the electromechanical group 4.

In FIG. 51, 141 is the electromechanical group four, 142 is the inter-relay four, 143 is the transfer switch four, and 144 is the switch group four.

In Fig. 52, 9 is a power supply box, and 145 is a box.

In Figure 53, 1 is a laying hen cage, 2 is a circulating feeding device, 3 is an egg recovery device, and 6 is a chicken manure recovery device.

Detailed ways

The present invention is now described in detail in conjunction with the accompanying drawings:

The present invention is composed of a laying hen cage (1), a circulating feeding device (2), an egg recovery device (3), a feeding tower (4), a liquid material tower (5), a chicken manure recovery device (6), and a water supply device ( 7), a microorganism supply device (8) and a power box (9) are composed.

Figure 1 shows a schematic diagram of the structure of the present invention. The present invention is composed of a laying hen cage (1), a circulating feeding device (2), an egg recovery device (3), a feeding tower (4), a liquid material tower (5), a chicken manure recovery device (6), and a water supply device ( 7), a microorganism supply device (8) and a power box (9) are composed.

Fig. 2 is the schematic structural diagram of the laying hen cage (1) in the present invention. The laying hen cage (1) is composed of a cage body (10) and a frame foot (11), wherein a liquid circulation pipe placement hole (12) and a circulating feeding device placement frame (12) are arranged in the middle of the cage body (10). 13), a plurality of circulating feeding device fixing screw holes (14) are arranged on the circulating feeding device mounting frame (13), and an egg flow slope (15) is arranged at the bottom of the cage body (10), and the egg flow slope (15) is arranged on the bottom of the cage body (10). The front end of (15) is provided with an egg circulation plate (16); the upper end of the frame foot (11) is provided with an egg recovery device placement rack (17), and a number of egg recovery device mounting brackets (17) are provided on the egg recovery device placement rack (17) for fixing The screw hole one (18) is provided with a fixing hole position one (19) of the chicken manure recovery device in the middle of the frame foot (11).

Figure 3, Figure 4, Figure 5, Figure 6, Figure 7, Figure 8, Figure 9, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, Figure 15, Figure 16, Figure 17, Figure 18 and Figure 19 Described is the schematic structural diagram of the circulating feeding device (2) and its various components in the present invention. The circulating feeding device (2) is composed of a frame base (20), a sliding track (21), a bendable chain (22), a material trough (23), a motorized sprocket (24), a driving sprocket (25) and an electromechanical A group (26) is formed, four sides of the frame seat (20) are provided with two sliding track fixing holes (29), and four corners of the bottom of the frame seat (20) are provided with sprocket seating seats (30), The bottom four sides of the (20) are provided with fixed connection seats (31) for the circulating feeding device; the four sides of the sliding track (21) are provided with fixed holes three (32); the bendable chain (22) is composed of several The folding blade (33), several groups of pulleys (34) and several brackets (35) are composed, wherein the folding blade (33) is composed of a left page (36), a right page (37) and a latch (38). The left page (36) is provided with an active pipe one (39), the right side of the left page (36) is provided with two active pipes (40), and the middle and lower part of the left page (36) is provided with a gear port one. (41), on the left side of the right page (37) there is an active pipe three (42), on the right side of the right page (37) there are two active pipes four (43), in the middle and lower part of the right page (37) A gear port two (44) is provided, a bracket link rod (45) is provided on the upper part of the right page (37), a pulley frame (46) is respectively provided on the top and bottom of the right page (37), ), the right page (37) and the latch (38) are combined, the three (42) movable pipes provided on the left side of the right page (37) are fitted over the two movable pipes provided on the right side of the left page (36). In the middle of the second (40), the second movable pipe (40) and the third movable pipe (42) are sheathed with a pin (38), thereby forming a whole of the folded blade (33); the group pulley (34) is divided into an upper pulley and a lower pulley. The wheel, the bracket (35) is U-shaped; when the folding blade (33), the pulley (34) and the bracket (35) are combined, the upper wheel of the pulley (34) is installed on the right side of the folding blade (33). In the pulley frame (46) provided at the top of the page (37), the lower wheel of the pulley (34) is installed in the pulley frame (46) provided at the bottom of the right page (37) of the folded blade (33). The bracket (35) is installed on the bracket link rod (45) provided on the upper part of the right page (37) of the folding blade (33), and connects the folding blade (33), the pulley (34) and the bracket (35) Multiple groups are combined to form a whole bendable chain (22); the material trough (23) is U-shaped, and the material of the material trough (23) is stretchable; the motor sprocket (24) is driven by the motor (47) and the The gear one (48) is composed of gear one (48); the driving sprocket (25) is composed of gear two (49) and bearing one (50); the electromechanical group (26) is composed of a time relay (51), a transfer switch (52), a switch group ( 53) Composition; the above-mentioned stand (20), sliding track (21), bendable chain (22), material trough (23), motorized sprocket (24), driving sprocket (25) and electromechanical group (26) When combined, The sliding rail (21) is installed on the frame seat (20). During installation, the fixing holes three (32) provided on the four sides of the sliding rail (21) and the four sides of the frame seat (20) are provided. The sliding track fixing holes (29) of the sliding track are aligned and fastened with screws; The groove (23) is installed on several brackets (35) of the bendable chain (22), and the motorized sprocket (24) is installed on the sprocket seat (30) provided at one of the corners of the bottom of the frame seat (20). ), wherein the teeth of the gear one (48) are aligned with the gear port one (41) and the gear port one (41) and The second gear port (44) installs the drive sprocket (25) on the sprocket seat (30) provided in the triangle at the bottom of the frame seat (20), wherein the first bearing (50) of the drive sprocket (25) ) is installed in the bearing sleeve on the sprocket seat (30), and drives the gear two (49) of the sprocket (25) to align the teeth of the bendable chain (22) with the left page (36) of its folded blade (33). ) and the gear port one (41) and gear port two (44) provided on the right page (37); connect the time relay (51), transfer switch (52), switch group ( 53) are respectively connected with the motor (47) of the motorized sprocket (24), wherein the motor (47) can be controlled by the time relay (51) to realize intelligent control by adjusting the switch (52), or the switch group can be used to control the motor (47). (53) The motor (47) is individually controlled to realize manual control; thereby forming the whole of the circulating feeding device (2).

Figure 20, Figure 21, Figure 22, Figure 23, Figure 24, Figure 25, Figure 26, Figure 27, Figure 28, Figure 29, Figure 30, Figure 31, Figure 32, Figure 33, Figure 34, and Figure 35 It is a schematic structural diagram of the egg recovery device (3) and its various components in the present invention. The egg recovery device (3) is composed of a frame base (54), a sliding track (55), a bendable chain (56), an egg recovery groove (57), a motor sprocket (58), a driving sprocket (59) is composed of a motor switch (60), four sides of the frame seat one (54) are provided with sliding track fixing hole positions five (61), and the bottom four corners of the frame seat one (54) are provided with sprocket seating seats One (62), the bottom four sides of the frame seat one (54) are provided with a fixed connection seat of the circulating feeding device (63); the four sides of the sliding track one (55) are provided with fixed holes six (64); Bendable chain one (56) is composed of several folded blades one (65), several groups of pulleys one (66) and several brackets one (67). (68), right page one (69) and pin one (70), there is an active pipe five (71) on the left of the left page one (68), and two on the right side of the left page one (68) Active pipe six (72), a gear port two (73) is arranged in the middle and lower part of the left page one (68), an active pipe seven (74) is arranged on the left of the right page one (69), and a right page one ( 69) on the right side are provided with two movable pipes eight (75), in the middle and lower part of the right page one (69) is provided with a gear port three (76), in the upper part of the right page one (69) is provided with a bracket link rod one. (77), the top and bottom of the right page one (69) are respectively provided with a pulley frame one (78), when the left page one (68), the right page one (69) and the latch one (70) are combined, it is a The movable pipe seven (74) provided on the left side of the right page one (69) is fitted in the middle of the two movable pipes (72) provided on the right side of the left page one (68), and the plug pin one (70) is inserted into the movable pipe (70). Pipe six (72) and movable pipe seven (74), thus combined into a folded blade one (65) as a whole; pulley one (66) is divided into an upper wheel and a lower wheel, bracket one (67) is U-shaped; When the blade 1 (65), the pulley 1 (66) and the bracket 1 (67) are combined, the upper wheel of the pulley 1 (66) is installed on the top of the right page 1 (69) of the folding blade 1 (65). In some pulley frame one (78), the lower wheel of pulley one (66) is installed in the pulley frame one (78) provided at the bottom of the right page one (69) of the folding blade one (65), and the bracket is placed in the pulley frame one (78). One (67) is installed on the bracket link rod one (77) provided on the upper part of the right page one (69) of the folding blade one (65), and connects the folding blade one (65), the pulley one (66) and the bracket The frame one (67) is assembled in multiple groups to form a whole of a flexible chain one (56); the egg recovery tank (57) is composed of a U-shaped tank body (79) and a soft cushion (80). The egg recovery tank (57) ) is made of stretchable material; motor sprocket one (58) is composed of motor one (81) and gear two (82); driving sprocket one (59) is composed of gear three (83) and bearing two (84). ) composition; above-mentioned frame one (54), sliding track one (55) , Bendable chain 1 (56), egg recovery groove (57), motor sprocket 1 (58), driving sprocket 1 (59) and motor switch (60) When combined, the sliding track 1 (55) It is installed on the frame seat one (54). During installation, the fixing holes six (64) provided on the four sides of the sliding rail one (55) are fixed with the sliding rails provided on the four sides of the frame seat one (54). The five holes (61) are aligned and fastened with screws; the assembly of the folded blade one (65) and the pulley one (66) of the bendable chain one (56) is installed in the sliding track one (55), and the egg The recovery groove (57) is installed on several brackets (67) of the bendable chain one (56), and the motor sprocket (58) is installed on the chain provided at one of the corners of the bottom of the frame seat one (54). On the wheel seating seat one (62), the teeth of the gear two (82) are aligned with the left page one (68) and the right page one (69) of the flexible chain one (56) which is folded into the blade one (65). The gear port two (73) and the gear port three (76) are provided, and the driving sprocket one (59) is installed on the sprocket seat one (62) provided in the triangle at the bottom of the frame seat one (54), Among them, the second bearing (84) that drives the first sprocket (59) is installed in the bearing sleeve of the first sprocket seat (62), and the teeth of the third gear (83) that drives the first sprocket (59) are aligned and bendable. Gear port two (73) and gear port three (76) provided on the left page one (68) and right page one (69) of the folded blade one (65) of the chain one (56); use the power cord to connect the motor The switch (60) is connected with the motor one (81) of the motor sprocket one (58), and the motor switch (60) controls the operation of the motor one (81); thereby forming the whole egg recovery device (3).

Fig. 36, Fig. 37, Fig. 38, Fig. 39, Fig. 40 and Fig. 42 are the structural schematic diagrams of the food tower (4) and its various parts in the present invention. The food tower (4) is composed of a storage bin (85), a feeding bin (86), a feeding device (87), a feeding device (88), a solenoid valve (89) and an electromechanical unit (90). The top of the bin (85) is provided with a feeding port (91) and an upper bearing placement hole (92) of the feeding device, and a discharging port (93) is provided at the bottom of the storage bin (85); the feeding bin (86) is provided with A material transfer pipe (94) and several layers of material distribution bins (95) are provided with a blanking port (96) at the top of the material transfer pipe (94), and the material transfer pipe (94) and each layer of material distribution bins (95) A discharge port (97) is arranged at the junction of the feeding pipe (94), and a bearing placement hole (98) at the lower part of the feeding device is arranged at the bottom of the material conveying pipe (94); The bearing hole position (99) of the feeding device is provided with a discharge pipe (100) at the front end of the dividing bin (95); the feeding device (87) is composed of the second motor (101), the rotating shaft (102) and the third bearing (103 ), the upper part of the rotating shaft (102) is provided with a mixing plate (104), and the lower part of the rotating shaft (102) is provided with a spiral conveying channel (105); ), bearing four (107) and screw shaft (108); electromechanical group one (90) is composed of time relay one (109), transfer switch one (110), switch group one (111); the above storage bin (85), the feeding bin (86), the feeding device (87), the feeding device (88), the solenoid valve (89) and the electromechanical group one (90) are combined, the feeding bin (86) is installed in the storage On the silo (85), wherein the discharge port (93) provided at the bottom of the storage silo (85) is aligned with the blanking port (96) provided on the top of the material transmission pipe (94) of the feeding silo (86) ), install the feeding device (87) into the combination of the storage bin (85) and the feeding bin (86), wherein the bearing three (103) on the top of the feeding device (87) is installed on the top of the storage bin (85) In the provided bearing placement hole (92) on the upper part of the feeding device, the third bearing (103) at the bottom of the feeding device (87) is installed to the feeding device provided at the bottom of the feeding bunker (86) and the bottom of the feeding pipe (94) of the feeding device (87). In the lower bearing placement hole (98), the mixing plate (104) of the rotating shaft (102) of the feeding device (87) is placed in the storage bin (85), and the rotating shaft (102) of the feeding device (87) The spiral conveying channel (105) is arranged in the material conveying pipe (94) of the feeding silo (86); the conveying device (88) is installed in the sub-silo (95) of the feeding silo (86), wherein The front and rear two bearings (107) of the feeding device (88) are respectively installed in the corresponding bearing holes (99) of the feeding device on the left and right sides of the feeding bin (95); the solenoid valve (89) is installed in the feeding device In the discharge pipe (100) provided at the front end of the bin (95) of the bin (86), the flow of the discharge pipe (100) is controlled by a solenoid valve (89); The power cord connects the time relay 1 (109), transfer switch 1 (110), switch group 1 (111) of the electromechanical group 1 (90) to the motor 2 (101) and the feeding device (88) of the feeding device (87) respectively. The motor three (106) is connected with the solenoid valve (89), which can be adjusted by the switch one (110), and the time relay one (109) controls the motor two (101), the motor three (106) and the solenoid valve individually. (89) to realize intelligent control, or the switch group one (111) independently controls the motor two (101), the motor three (106) and the solenoid valve (89) to realize manual control; and then forms the whole food tower (4).

Figure 43 is a schematic structural diagram of the liquid material tower (5) in the present invention. The liquid material tower (5) is composed of a functional liquid storage tank (112) and a clean water tank (113). A measuring cylinder (114) is arranged at the top of the functional liquid storage tank (112), and at the bottom of the functional liquid storage tank (112) A liquid discharge port (115) is provided, a measuring cylinder (116) is provided on the top of the clean water tank (113), and a liquid discharge port (117) is provided on the bottom of the clean water tank (113).

Figures 44 and 45 are schematic structural diagrams of the chicken manure recovery device (6) and its various components in the present invention. The chicken manure recovery device (6) is composed of a conveyor belt (118), a fourth motor (119) and a second electromechanical group (120). The left and right sides of the frame body of the conveyor belt (118) are correspondingly provided with two fixing screw holes (121). Electromechanical group two (120) is composed of time relay two (122), transfer switch two (123), switch group two (124); the above-mentioned conveyor belt (118), motor four (119) and electromechanical group two (120) group and When getting up, the motor four (119) is installed on the conveyor belt (118), and linked to the front rotating shaft of the conveyor belt (118), the conveyor belt (118) is driven by the motor four (119), and the motor Time relay two (122), transfer switch two (123), switch group two (124) and motor four (119) of group two (120) are connected, wherein the time relay can be adjusted by transfer switch two (123). Two (122) independently control motor four (119) to realize intelligent control, or switch group two (124) independently control motor four (119) to realize manual control; then a chicken manure recovery device (6) is formed.

Figure 46 is a schematic view of the structure of the water supply device (7) in the present invention. The water supply device (7) is composed of a water pipe (125), a switch (126), and an automatic nipple drinker (127) for chickens.

Figure 47, Figure 48, Figure 49, Figure 50 and Figure 51 are schematic diagrams of the structure of the microorganism supply device (8) and its various components in the present invention. The microorganism supply device (8) is composed of a drinking group (128) and a spraying group (129); the drinking group (128) is composed of a water pipe (130), a solenoid valve (131), and an automatic nipple drinker for chickens (12). 132) and three electromechanical groups (133), wherein, electromechanical group three (133) is composed of time relay three (134), transfer switch three (135), switch group three (136); the above-mentioned water pipes one (130), When solenoid valve 1 (131), chicken automatic nipple drinker 1 (132) and electromechanical group 3 (133) are combined, solenoid valve 1 (131) is installed at the front end of water pipe 1 (130). (131) Control the circulation of the feed liquid in the water pipe one (130), arrange and install several automatic nipple drinkers (132) for chickens on the water pipe one (130), and use the power cord to connect the power cord to the electromechanical group three (133) The time relay three (134), the transfer switch three (135), the switch group three (136) and the solenoid valve one (131) are connected, among which, the time relay three (134) can be adjusted by the transfer switch three (135) Solenoid valve one (131) is individually controlled to realize intelligent control, or solenoid valve one (131) is independently controlled by switch group three (136) to realize manual control, thereby forming a drinking group (128) as a whole; spray group (129) It is composed of water pipe two (137), booster pump (138), solenoid valve two (139), nozzle (140) and electromechanical group four (141), among which, electromechanical group four (141) is composed of inter-relay four (142). ), transfer switch four (143), switch group four (144); the above-mentioned water pipe two (137), booster pump (138), solenoid valve two (139), nozzle (140) and electromechanical group four (141) combination When getting up, the booster water pump (138) and the second solenoid valve (139) are installed at the front end of the second water pipe (137). ), arrange several sprinklers (140) at the bottom of the second water pipe (137), connect the relay four (142), the transfer switch four (143), the switch group four (141) of the electromechanical group four (141) with the power cord (144) is connected with the booster water pump (138) and the second solenoid valve (139), wherein the booster water pump (138) and the solenoid valve can be independently controlled by the switch four (143) to be adjusted by the inter-relay four (142). Two (139) realize intelligent control, or switch group four (144) independently control booster water pump (138) and solenoid valve two (139) to realize manual control, thereby forming the spray group (129) as a whole.

Figure 52 is a schematic structural diagram of the power box (9) in the present invention. The power box (9) is composed of a box body (145) and multiple sets of electromechanical units.

Figure 53 is a schematic structural diagram of the present invention when the layer cage (1), the circulating feeding device (2), the egg recovery device (3), and the chicken manure recovery device (6) are combined.

Above-mentioned laying hen cage (1), circulating feeding device (2), egg recovery device (3), feeding tower (4), liquid material tower (5), chicken manure recovery device (6), water supply device (7), When the microorganism supply device (8) and the power supply box (9) are combined, the circulating feeding device (2) is installed on the circulating feeding device placement frame (13) of the laying hen cage (1). The fixed connecting seat (31) of the circulating feeding device provided on the four sides of the bottom of the frame seat (20) of the feeding device (2) is aligned with the circulating feeding device set on the cage (10) and the circulating feeding device mounting frame (13). The screw holes (14) of the feeding device are fixed and fastened with screws; the egg recovery device (3) is installed on the egg recovery device placement frame (17) provided on the upper end of the frame feet (11) of the laying hen cage (1). , During installation, the first (54) of the egg recovery device (3) its frame seat (54) the fixed connection seat one (63) of the circulating feeding device provided on the bottom four sides is aligned with the frame feet (11) of its egg recovery device placement frame (17). The provided egg recovery device fixing screw hole one (18) is fastened with screws, and the motor switch (60) of the egg recovery device (3) is installed on the laying hen cage (1) and the position convenient for personnel to operate; The food tower (4) is arranged next to the laying hen cage (1), wherein the discharge pipe (100) provided at the front end of the feed bin (95) of the feeding bin (86) of the food tower (4) is aligned and installed on the side. The circulating feeding device (2) of the laying hen cage (1) is in the feeding trough (23); Link up, wherein, one end of the water pipe (125) of the water supply device (7) is connected to the liquid discharge port one (117) provided at the bottom of the clean water tank (113) of the liquid material tower (5), and the water supply device (117) is connected. 7) The combination of the water pipe (125) and the automatic nipple drinker (127) for chickens is installed in the laying hen cage (1), and the front end of the water pipe (125) is arranged in the middle of the cage body (10). The liquid circulation pipe is arranged in the hole position (12); one end of the water pipe (130) of the drinking group (128) of the microorganism supply device (8) is connected to the liquid material tower (5) and the functional liquid storage tank (112) of the liquid material tower (5). In some liquid discharge ports (115), a combination of a water pipe (130) of a drinking group (128) of a microorganism supply device (8) and a chicken automatic teat drinker (132) is installed in a laying hen cage (1) inside, and the front end of the water pipe one (130) is placed in the liquid circulation pipe placement hole (12) provided in the middle of the cage body (10); the water pipe of the spray group (129) of the microorganism supply device (8) One end of the second (137) is connected to the liquid discharge port (115) provided in the functional liquid storage tank (112) of the liquid material tower (5), and the second (137) of the water pipe (137) and the nozzle ( 140) The assembly is installed at the bottom of the egg recovery device (3) arranged in the cage body (10); the chicken manure recovery device (6) is installed in the laying hen cage (1), and during installation, the chicken manure recovery device (6 ) The second fixing screw holes (121) provided on the left and right sides of the frame body of the conveyor belt (118) are aligned with the fixing hole position one (19) of the chicken manure recovery device provided in the middle of the frame feet (11) of the laying hen cage (1). , and tighten it with a screw; connect the electromechanical group (26) of the circulating feeding device (2), the electromechanical group one (90) of the feeding tower (4), the electromechanical group two (120) of the chicken manure recovery device (6), The electromechanical group three (133) of the drinking group (128) of the microorganism supply device (8) and the electromechanical group four (141) of the spray group (129) of the microorganism supply device (8) are respectively installed in the power box (9). , thus forming an intelligent and efficient breeding system for laying hens as a whole.

In addition, the above-mentioned combination of layer cage (1), circulating feeding device (2), egg recovery device (3) and chicken manure recovery device (6) can be set up in several groups; (95) The several discharge pipes (100) provided can simultaneously supply multiple groups of circulating feeding devices (2); the liquid material tower (5) can also simultaneously supply multiple groups of assemblies; water supply devices (7), microorganisms The supply device (8) and the power supply box (9) can also be correspondingly added and combined with the above-mentioned equipment to continue to realize the three-dimensional automatic breeding of laying hens.

Application principle and process of the present invention:

1. The application principle and process of the laying hen cage (1): an egg flow slope (15) is arranged at the bottom of the cage body (10), and an egg flow plate (16) is arranged at the front end of the egg flow slope (15). After the chicken lays eggs, the eggs roll down on the egg flow inclined plane (15), and are rolled into the egg recovery device (3) through the egg circulation plate (16), so as to facilitate recovery.

2. The application principle and process of the circulating feeding device (2): the feeding of the laying hens is fed from the feeding tower (4) → feeding bin (86) → dividing bin (95) → discharging pipeline (100) into the circulating feeding in the trough (23) of the device (2). Driven by the motorized sprocket (24) and the driving sprocket (25), the bendable chain (22) circulates smoothly in the sliding track (21), and the laying hens in the laying hen cage (1) can be easily pecked Feed the food in the trough (23) of the circulating feeding device (2) back and forth. Because the bendable chain (22) is composed of several folding blades (33), several groups of pulleys (34) and several brackets (35), wherein the folding blade (33) is composed of the left page (36), the right The page (37) and the latch (38) are formed, so the bendable chain (22) can run at various angles at will, the material trough (23) is made of stretchable material, and the material trough (23) can also be freely moved at any angle. Operation at various angles; place the motor sprocket (24) and the three driving sprockets (25) on the four corners of the frame seat (20) of the circulating feeding device (2), so that the bendable chain (22) and the carrying The trough (23) can run smoothly at 90 degrees; the pulley (34) in the bendable chain (22) is arranged in the sliding track (21), and under the action of the pulley (34), the bendable chain is made (22) Running smoothly; the motor (47) of the motorized sprocket (24) is controlled by a time relay (51), a transfer switch (52), and a switch group (53), wherein the transfer switch (52) can be used to adjust the The time relay (51) independently controls the motor sprocket (24) to realize intelligent control, specifically according to scientific feeding of the laying hens, combined with the feeding time period, the time relay (51) is artificially set, so that the The time relay (51) precisely and automatically controls when the motorized sprocket (24) runs, how long it runs, etc.; it can also be manually controlled or the switch group (53) can control the motor (47) alone, specifically according to the food ingredients. During the feeding time period, when the motor sprocket (24) runs, how long it runs, etc., is controlled by manual opening.

3. The application principle and process of the egg recovery device (3): after the laying hen lays eggs, the eggs roll down on the egg flow slope (15) provided at the bottom of the cage (10), and roll through the egg circulation plate (16) To the egg recovery tank (57) of the egg recovery device (3), since the egg recovery tank (57) is composed of a U-shaped tank body (79) and a soft cushion (80), the eggs are circulated to the egg recovery tank (57). ), the egg breaking rate is very low; the motorized sprocket one (58) of the egg recovery device (3) is activated, and driven by the operation of the motorized sprocket one (58), the flexible chain one (56) runs on the sliding track one (58). 55) in the smooth cycle operation. Because the bendable chain 1 (56) is composed of several folding blades (65), several groups of pulleys (66) and several brackets (67), wherein the folding blade one (65) is composed of the left page One (68), right page one (69) and latch one (70), so the cocoa-bendable chain one (56) can run at various angles at will, while the egg recovery tank (57) is made of retractable material The egg recovery tank (57) can also run at various angles at will; the motor sprocket one (58) and the three driving sprockets (59) are respectively placed on the frame one (54) of the egg recovery device (3). ) four corners, so that the flexible chain one (56) and the egg recovery tank (57) it carries can run smoothly at 90 degrees; the pulley one (66) in the flexible chain one (56) is placed on the sliding track one. In (55), under the action of the pulley one (66), the flexible chain one (56) runs smoothly; the motor one (81) of the motorized sprocket one (58) is controlled by the motor switch (60). , specifically, when the first (58) of the motorized sprocket is opened and controlled by the staff according to the work schedule, how long it runs, and so on.

4. The application principle and process of the feeding tower (4): the feeding of the laying hens is fed from the feeding tower (4) → feeding bin (86) → dividing bin (95) → discharging pipeline (100) into the circulating feeding device ( 2) in the trough (23). After the food enters the food tower (4), the second motor (101) of the feeding device (87) is started, and driven by the operation of the second motor (101), the mixing plate (104) provided on the upper part of the rotating shaft (102) will The food material is brought into the spiral conveying channel (105) provided at the lower part of the rotating shaft (102), and the food material is transported down in an orderly manner by the spiral conveying channel (105) instead of falling vertically. 94) The discharge port (97) provided at the junction with each layer of the material silo (95) enters the material silo (95) of the feeding silo (86); at the same time, the feeding device (88) and the solenoid valve (89) are activated ), the solenoid valve (89) of the control discharge pipeline (100) is opened, and driven by the operation of the motor three (106) of the material conveying device (88), the screw shaft (108) will enter the feeder of the material distribution bin (95). The food material is transported forward, and the food material is continuously circulated in the feeding silo (95) through the discharge pipe (100) to the feeding trough (23) of the circulating feeding device (2) for the laying hens to peck. The second motor (101) of the feeding device (87), the third motor (106) and the solenoid valve (89) of the feeding device (88) are respectively controlled by a time relay one (109), a transfer switch one (110), and a switch group one. (111) Control; wherein, the first switch (110) can be used to adjust the time relay one (109) to independently control the motor two (101), the motor three (106) and the solenoid valve (89) to achieve intelligent control, specifically According to the scientific feeding of the laying hens, combined with the feeding time period, the time relay 1 (109) is manually set to accurately and automatically control the motor two (101) and the motor three (106) ) and solenoid valve (89) when to run, how long to run, etc.; it is also possible to control motor two (101), motor three (106) and solenoid valve (89) individually or by switch group one (111) to achieve manual Specifically, according to the feeding time period of the food material, when the motor 2 (101), the motor 3 (106) and the solenoid valve (89) of the control machine are manually turned on, and how long they will operate, etc.; The feeding bin (95) is provided with several discharge pipes (100), which can supply multiple groups of circulating feeding devices (2) at the same time, and continue to realize the three-dimensional automatic breeding of laying hens.

5. The application principle and process of the liquid material tower (5): the liquid material tower (5) is divided into a functional liquid storage tank (112) and a clean water tank (113). The functional liquid storage tank (112) is used to prepare and store beneficial microorganisms. There is a graduated cylinder (114) on the top of the functional liquid storage tank (112), which is convenient for the preparation of beneficial microorganism liquid, nutrient solution and vaccine in the preparation process of accurate amperometric dilution; The tank (113) is mainly used to store the daily drinking water of laying hens. A measuring cylinder (116) is arranged on the top of the clear water tank (113), so that it is convenient to add nutrient solution, disease prevention drugs and vaccines to the clear water tank (113) in preparation. The process achieves accurate amperometric dilution preparation.

6. The application principle and process of the chicken manure recovery device (6): after the laying hens in the cage (10) defecate, they fall into the conveyor belt (118) of the chicken manure recovery device (6), start the motor four (119), Driven by the operation of the motor four (119), the conveyor belt (118) circulates forward, and the chicken manure falling into the conveyor belt (118) is sprayed with the beneficial bacteria liquid by the spray group (129) of the microorganism supply device (8) and then moves forward. After the chicken manure is sprayed with microorganisms, the reproduction of harmful bacteria in the chicken manure is effectively inhibited, and the odor and odor are eliminated. And it plays a very good role in the subsequent fermentation process. Motor four (119) is controlled by time relay two (122), transfer switch two (123), switch group two (124), among which, it can be adjusted by time relay two (122) independently through transfer switch two (123). Control motor four (119) to realize intelligent control, specifically according to the amount of manure and recycling requirements, by artificially setting the relevant parameters of time relay two (122), so that time relay two (122) can accurately control motor four (119) When to run, how long to run, etc; Controls when the conveyor belt (118) runs, how long it runs, etc.

7. The application principle and process of the water supply device (7): connect one end of the water pipe (125) of the water supply device (7) to the clean water tank (113) of the liquid material tower (5), and connect the water pipe (125) of the water supply device (7). 125) and the laying hen pecking automatic nipple drinker (127) assembly is placed in the cage body (10) of the laying hen cage (1); as soon as the switch (126) is turned on, the liquid material tower (5) has its clean water tank (113). ) is circulated through the water pipe (125) to each automatic nipple drinker (127) for chickens, and the laying hens peck the clean water in the automatic nipple drinker (127).

8. The application principle and process of the microorganism supply device (8): the microorganism supply device (8) is divided into two parts: a drinking group (128) and a spray group (129); One end of the water pipe (130) is connected to the liquid discharge port (115) provided in the functional liquid storage tank (112) of the liquid material tower (5), and supplies the microorganisms to the water pipe of the drinking group (128) of the device (8). One (130) and one (132) combination of automatic nipple drinker for chickens are installed in the cage (10) of the laying hen cage (1). Solenoid valve 1 (131) controls the flow of feed liquid in water pipe 1 (130), and time relay 3 (134), transfer switch 3 (135) and switch group 3 (136) of electromechanical group 3 (133) are used to connect the solenoid valve. One (131) is controlled; wherein, the time relay three (134) can adjust the solenoid valve one (131) independently by changing the switch three (135) to realize intelligent control, specifically according to the supply demand of beneficial bacteria liquid through artificial Set the relevant parameters of the time relay three (134), so that the solenoid valve one (131) precisely controlled by the time relay three (134) opens when the probiotic liquid circulates, how long it circulates, etc., or by the switch group three (136) ) Separately control the solenoid valve one (131) to realize manual control, specifically according to the supply demand of the beneficial bacteria liquid, by manually opening the solenoid valve one (131) to control when the beneficial bacteria liquid circulates, how long it will circulate, etc.; One end of the second water pipe (137) of the spray group (129) of the microorganism supply device (8) is connected to the liquid discharge port (115) provided in the functional liquid storage tank (112) of the liquid material tower (5), and the The second water pipe (137) and the spray head (140) of the microorganism supply device (8) are installed above the chicken manure recovery device (6), and the booster water pump (138) and the second solenoid valve (139) are installed on the water pipe The front end of the second (137) is controlled by the booster water pump (138) and the solenoid valve two (139) to control the flow of the material liquid in the water pipe two (137). Four (143) and switch group four (144) are used to control the operation of booster water pump (138) and solenoid valve two (139). Among them, the four (143) switch can be used to adjust the independent control of the booster pump (142). The pressurized water pump (138) and the solenoid valve two (139) are used to realize intelligent control. Specifically, according to the needs, the inter-relay four (142) is artificially set, so that the inter-relay four (142) can precisely control the booster water pump (138) and When will the solenoid valve two (139) be opened, how long it will be open, etc., or manually control the booster water pump (138) and the solenoid valve two (139) by the switch group four (144) alone, depending on the demand , by manually opening the booster water pump (138) and the solenoid valve two (139) to control when the beneficial bacteria liquid is sprayed Spray, how long to spray, etc., and the beneficial bacteria liquid is produced by the booster water pump (138), and the beneficial bacteria liquid forms a mist when sprayed from the nozzle (140), so that the beneficial bacteria liquid is evenly sprayed on the chickens. The chicken manure on the conveyor belt (118) of the manure recovery device (6) or the bottom of the laying hen cage (1) enables the chicken manure to receive the beneficial bacterial liquid in a balanced manner, which is convenient for subsequent fermentation and other treatments, and at the same time, the chicken manure and the site are sprayed beneficially After the bacteria liquid, it can effectively inhibit the growth of various harmful bacteria, and then effectively prevent the occurrence of various diseases.

As mentioned above, for those of ordinary skill in the art, various other corresponding changes can be made according to the technical solutions and technical ideas of the present invention, and all these changes should belong to the protection scope of the appended claims of the present invention.

Claims (2)

1. The utility model provides a system is raised to laying hen intelligence high efficiency which characterized in that: the system consists of a laying hen cage (1), a circulating feeding device (2), an egg recovery device (3), a food tower (4), a liquid tower (5), a chicken manure recovery device (6), a water supply device (7), a microorganism supply device (8) and a power supply box (9);

the egg chicken cage (1) consists of a cage body (10) and a frame foot (11), wherein a liquid circulating pipe mounting hole position (12) and a circulating feeding device mounting frame (13) are arranged in the middle of the cage body (10), a plurality of circulating feeding device fixing screw holes (14) are formed in the circulating feeding device mounting frame (13), an egg flowing inclined plane (15) is arranged at the bottom of the cage body (10), and an egg circulating plate (16) is arranged at the front end of the egg flowing inclined plane (15); an egg recovery device placing frame (17) is arranged at the upper end of the frame foot (11), a plurality of egg recovery device fixing screw holes I (18) are formed in the egg recovery device placing frame (17), and a chicken manure recovery device fixing hole I (19) is arranged in the middle of the frame foot (11);

the circulating feeding device (2) consists of a frame seat (20), a sliding track (21), a bendable chain (22), a trough (23), a motorized chain wheel (24), a driving chain wheel (25) and an electromechanical unit (26), wherein two sliding track fixing hole positions (29) are arranged on four side surfaces of the frame seat (20), chain wheel placing seats (30) are arranged at four corners of the bottom of the frame seat (20), and circulating feeding device fixing connecting seats (31) are arranged on four sides of the bottom of the frame seat (20); a third fixing hole (32) is arranged on four side surfaces of the sliding track (21); the bendable chain (22) comprises a plurality of folding blades (33), a plurality of groups of pulleys (34) and a plurality of brackets (35), wherein the folding blades (33) comprise a left leaf (36), a right leaf (37) and a bolt (38), a movable pipeline I (39) is arranged on the left side of the left leaf (36), two movable pipelines II (40) are arranged on the right side of the left leaf (36), a gear port I (41) is arranged at the middle lower part of the left leaf (36), a movable pipeline III (42) is arranged on the left side of the right leaf (37), two movable pipelines IV (43) are arranged on the right side of the right leaf (37), a gear port II (44) is arranged at the middle lower part of the right leaf (37), a bracket chain connecting rod (45) is arranged at the upper part of the right leaf (37), pulley frames (46) are respectively arranged at the top and the bottom of the right leaf (37), and the left leaf (36) and the right leaf (37), When the right page (37) and the bolt (38) are combined, a movable pipeline III (42) arranged on the left side of the right page (37) is sleeved between two movable pipelines II (40) arranged on the right side of the left page (36), and the bolt (38) is sleeved on the movable pipelines II (40) and the movable pipeline III (42), so that the folding blade (33) is combined into a whole; the group pulley (34) is divided into an upper wheel and a lower wheel, and the bracket (35) is U-shaped in shape stroke; when the folding blade (33), the pulley (34) and the bracket (35) are combined, an upper wheel of the pulley (34) is arranged in a pulley frame (46) arranged at the top of a right leaf (37) of the folding blade (33), a lower wheel of the pulley (34) is arranged in the pulley frame (46) arranged at the bottom of the right leaf (37) of the folding blade (33), the bracket (35) is arranged on a bracket chain connecting rod (45) arranged at the upper part of the right leaf (37) of the folding blade (33), and the folding blade (33), the pulley (34) and the bracket (35) are combined into a whole body of the bendable chain (22); the trough (23) is U-shaped, and the manufacturing material of the trough (23) is flexible; the power-driven chain wheel (24) consists of a motor (47) and a first gear (48); the driving chain wheel (25) consists of a second gear (49) and a first bearing (50); the electromechanical group (26) consists of a time relay (51), a change-over switch (52) and a switch group (53); when the frame base (20), the sliding track (21), the bendable chain (22), the trough (23), the motorized chain wheel (24), the driving chain wheel (25) and the electromechanical group (26) are combined, the sliding track (21) is installed on the frame base (20), and when the sliding track is installed, the third fixing hole positions (32) arranged on the four side surfaces of the sliding track (21) are aligned with the second sliding track fixing hole positions (29) arranged on the four side surfaces of the frame base (20) and are fastened by screws; the combined body of a folding blade (33) and a pulley (34) of a bendable chain (22) is arranged in a sliding track (21), a trough (23) is arranged on a plurality of brackets (35) of the bendable chain (22), a motorized chain wheel (24) is arranged on a chain wheel arranging seat (30) arranged at one corner of the bottom of a frame seat (20), wherein teeth of a first gear (48) are aligned with teeth of a first hinge (36) and a second gear (41) and teeth of a second hinge (37) of the foldable blade (33) of the bendable chain (22), a driving chain wheel (25) is arranged on the chain wheel arranging seat (30) arranged at a triangle of the bottom of the frame seat (20), a first bearing (50) of the driving chain wheel (25) is arranged in a bearing sleeve position on the chain wheel arranging seat (30), and teeth of a second gear (49) of the driving chain wheel (25) are aligned with teeth of a left hinge (36) and a right hinge (37) of the foldable blade (33) of the foldable chain (22), and teeth of the second gear (37) of the foldable chain (25) are arranged in a bearing sleeve position A first (41) and a second gear port (44); the time relay (51), the change-over switch (52) and the switch group (53) of the electromechanical group (26) are respectively connected with the motor (47) of the motorized chain wheel (24) by power lines, wherein the motor (47) is independently controlled by the time relay (51) to realize intelligent control through the change-over switch (52) adjustment, or the motor (47) is independently controlled by the switch group (53) to realize manual control; thereby forming the whole of the circulating feeding device (2);

the egg recovery device (3) consists of a first frame seat (54), a first sliding track (55), a bendable chain (56), an egg recovery groove (57), a first motorized chain wheel (58), a first driving chain wheel (59) and a motor switch (60), wherein five sliding track fixing hole positions (61) are arranged on four side surfaces of the first frame seat (54), first chain wheel placing seats (62) are arranged at four corners of the bottom of the first frame seat (54), and first circulating feeding device fixing connecting seats (63) are arranged on four sides of the bottom of the first frame seat (54); a fixing hole position six (64) is arranged on four side surfaces of the sliding track I (55); the bendable chain I (56) consists of a plurality of folding blades I (65), a plurality of groups of pulleys I (66) and a plurality of brackets I (67), wherein the folding blades I (65) consist of a left page I (68), a right page I (69) and a bolt I (70), a movable pipeline five (71) is arranged on the left side of the left page I (68), two movable pipelines six (72) are arranged on the right side of the left page I (68), a gear port two (73) is arranged at the middle lower part of the left page I (68), a movable pipeline seven (74) is arranged on the left side of the right page I (69), two movable pipelines eight (75) are arranged on the right side of the right page I (69), a gear port three (76) is arranged at the middle lower part of the right page I (69), a bracket chain connecting rod I (77) is arranged at the upper part of the right page I (69), and a pulley frame I (78) is respectively arranged at the top and the bottom of the right page I (69), when the left page I (68), the right page I (69) and the bolt I (70) are combined, the movable pipeline seven (74) arranged on the left side of the right page I (69) is sleeved between the two movable pipelines six (72) arranged on the right side of the left page I (68), and the bolt I (70) is sleeved on the movable pipelines six (72) and the movable pipeline seven (74), so that the folding blade I (65) is combined into a whole; the first pulley (66) is divided into an upper wheel and a lower wheel, and the first bracket (67) is U-shaped in shape stroke; when the folding blade I (65), the pulley I (66) and the bracket I (67) are combined, an upper wheel of the pulley I (66) is arranged in a pulley frame I (78) arranged at the top of a right blade I (69) of the folding blade I (65), a lower wheel of the pulley I (66) is arranged in the pulley frame I (78) arranged at the bottom of the right blade I (69) of the folding blade I (65), the bracket I (67) is arranged on a bracket chain connecting rod I (77) arranged at the upper part of the right blade I (69) of the folding blade I (65), and the folding blade I (65), the pulley I (66) and the bracket I (67) are combined in groups to form a bendable chain I (56) whole; the egg recovery groove (57) consists of a U-shaped groove body (79) and a soft cushion (80), and the egg recovery groove (57) is made of a telescopic material; the motorized chain wheel I (58) consists of a motor I (81) and a gear II (82); the driving chain wheel I (59) consists of a gear III (83) and a bearing II (84); when the first frame base (54), the first sliding track (55), the first bendable chain (56), the egg recovery groove (57), the first motorized chain wheel (58), the first driving chain wheel (59) and the motor switch (60) are combined, the first sliding track (55) is installed on the first frame base (54), and when the first sliding track (55) is installed, fixing hole sites six (64) formed in four side surfaces of the first sliding track (55) are aligned with sliding track fixing hole sites five (61) formed in four side surfaces of the first frame base (54) and are fastened by screws; the combination of a folding blade I (65) and a pulley I (66) of a bendable chain I (56) is arranged in a sliding track I (55), an egg recovery groove (57) is arranged on a plurality of brackets I (67) of the bendable chain I (56), a motor chain wheel I (58) is arranged on a chain wheel placing seat I (62) arranged at one corner of the bottom of a bracket I (54), wherein teeth of a gear II (82) are aligned with a gear port II (73) and a gear port III (76) arranged at a left hinge I (68) and a right hinge I (69) of the foldable blade I (65) of the bendable chain I (56), a driving chain wheel I (59) is arranged on the chain wheel placing seat I (62) arranged at one corner of the bottom of the bracket I (54), wherein a bearing II (84) for driving the chain wheel I (59) is arranged in a bearing sleeve position on the chain wheel placing seat I (62), the teeth of a gear III (83) driving a chain wheel I (59) are aligned with teeth of a bendable chain I (56), and a gear opening II (73) and a gear opening III (76) are arranged on a left page I (68) and a right page I (69) of a folded blade I (65) of the bendable chain I; the motor switch (60) is connected with a motor I (81) of the motorized chain wheel I (58) by a power cord, and the motor switch (60) controls the operation of the motor I (81); thereby forming the whole egg recovery device (3);

the food tower (4) consists of a storage bin (85), a feeding bin (86), a feeding device (87), a material conveying device (88), an electromagnetic valve (89) and an electromechanical group I (90), wherein a feeding hole (91) and a bearing mounting hole site (92) at the upper part of the feeding device are arranged at the top of the storage bin (85), and a discharging hole (93) is arranged at the bottom of the storage bin (85); the feeding bin (86) is provided with a material conveying pipeline (94) and a plurality of layered material separating bins (95), the top of the material conveying pipeline (94) is provided with a blanking port (96), the joint of the material conveying pipeline (94) and each layered material separating bin (95) is provided with a discharge port (97), and the bottom of the material conveying pipeline (94) is provided with a bearing mounting hole site (98) at the lower part of the feeding device; bearing hole sites (99) of the material conveying devices are correspondingly arranged on the left side and the right side of the material distribution bin (95) respectively, and a material discharge pipeline (100) is arranged at the front end of the material distribution bin (95); the feeding device (87) consists of a second motor (101), a rotating shaft (102) and a third bearing (103), wherein a material mixing plate (104) is arranged at the upper part of the rotating shaft (102), and a spiral conveying channel (105) is arranged at the lower part of the rotating shaft (102); the material conveying device (88) consists of a motor III (106), a bearing IV (107) and a spiral shaft (108); the electromechanical group I (90) consists of a time relay I (109), a change-over switch I (110) and a switch group I (111); when the storage bin (85), the feeding bin (86), the feeding device (87), the material conveying device (88), the electromagnetic valve (89) and the electromechanical set I (90) are combined, the feeding bin (86) is installed on the storage bin (85), wherein a discharge hole (93) formed in the bottom of the storage bin (85) is aligned with a discharge hole (96) formed in the top of a material conveying pipeline (94) of the feeding bin (86), the feeding device (87) is installed in a combination of the storage bin (85) and the feeding bin (86), a bearing III (103) in the top of the feeding device (87) is installed in a bearing installation hole position (92) in the upper portion of the feeding device arranged in the top of the storage bin (85), a bearing III (103) in the bottom of the feeding device (87) is installed in a bearing installation hole position (98) in the lower portion of the feeding device arranged in the bottom of the material conveying pipeline (94) of the feeding bin (86), a material mixing plate (104) of a rotating shaft (102) of the feeding device (87) is arranged in the storage bin (85), and a spiral conveying channel (105) of the rotating shaft (102) of the feeding device (87) is arranged in a material conveying pipeline (94) of the feeding bin (86); the material conveying device (88) is arranged in a material distributing bin (95) of the material feeding bin (86), wherein a front bearing four (107) and a rear bearing four (107) of the material conveying device (88) are respectively arranged in material conveying device bearing hole positions (99) which are correspondingly arranged on the left side and the right side of the material distributing bin (95); the electromagnetic valve (89) is arranged in a discharge pipeline (100) arranged at the front end of a material distributing bin (95) of the feeding bin (86), and the circulation of the discharge pipeline (100) is controlled by the electromagnetic valve (89); a time relay I (109), a change-over switch I (110) and a switch group I (111) of a machine-electricity group I (90) are respectively connected with a motor II (101) of a feeding device (87) and a motor III (106) of a material conveying device (88) and an electromagnetic valve (89) through power lines, wherein the time relay I (109) can be adjusted to independently control the motor II (101), the motor III (106) and the electromagnetic valve (89) through the change-over switch I (110) to realize intelligent control, or the switch group I (111) can independently control the motor II (101), the motor III (106) and the electromagnetic valve (89) to realize manual control; so as to form the whole food tower (4);

the liquid tower (5) consists of a functional liquid storage tank (112) and a clean water tank (113), a measuring cylinder (114) is arranged at the top of the functional liquid storage tank (112), a liquid discharge port (115) is arranged at the bottom of the functional liquid storage tank (112), a first measuring cylinder (116) is arranged at the top of the clean water tank (113), and a first liquid discharge port (117) is arranged at the bottom of the clean water tank (113);

the chicken manure recovery device (6) consists of a conveyor belt (118), a motor II (119) and an electromechanical set II (120), wherein the left side and the right side of a frame body of the conveyor belt (118) are correspondingly provided with a fixed screw hole II (121), and the electromechanical set II (120) consists of a time relay II (122), a change-over switch II (123) and a switch set II (124); when the conveyor belt (118), the motor four (119) and the electromechanical group two (120) are combined, the motor four (119) is installed on the conveyor belt (118) and is linked to a front rotating shaft of the conveyor belt (118), the conveyor belt (118) is driven by the motor four (119) to operate, a power cord is used for connecting a time relay two (122), a change-over switch two (123), a switch group two (124) and the motor four (119) of the electromechanical group two (120), wherein the time relay two (122) can be used for independently controlling the motor four (119) to realize intelligent control, or the switch group two (124) can be used for independently controlling the motor four (119) to realize manual control; then a chicken manure recovery device (6) is formed;

the water supply device (7) consists of a water pipe (125), a switch (126) and an automatic nipple water fountain (127) for chickens;

the microorganism supply device (8) consists of a drinking group (128) and a spraying group (129); the drinking group (128) consists of a water pipe I (130), an electromagnetic valve I (131), a chicken nipple automatic water fountain I (132) and an electromechanical group III (133), wherein the electromechanical group III (133) consists of a time relay III (134), a change-over switch III (135) and a switch group III (136); when the water pipe I (130), the electromagnetic valve I (131), the chicken nipple drinking fountain I (132) and the electromechanical set III (133) are combined, the electromagnetic valve I (131) is arranged at the front end of the water pipe I (130), the electromagnetic valve I (131) controls the circulation of feed liquid in the water pipe I (130), a plurality of automatic nipple drinkers (132) for chickens are arranged on the water pipe I (130), a power cord is used for connecting a time relay III (134), a change-over switch III (135), a switch group III (136) and the electromagnetic valve I (131) of an electromechanical group III (133), wherein, the intelligent control can be realized by adjusting the solenoid valve I (131) which is independently controlled by the time relay III (134) through the change-over switch III (135), or the switch group III (136) independently controls the electromagnetic valve I (131) to realize manual control, thereby forming the whole drinking group (128); the spraying group (129) consists of a water pipe II (137), a booster water pump (138), an electromagnetic valve II (139), a spray head (140) and an electromechanical group IV (141), wherein the electromechanical group IV (141) consists of an intermediate relay IV (142), a change-over switch IV (143) and a switch group IV (144); when the water pipe II (137), the booster water pump (138), the electromagnetic valve II (139), the spray head (140) and the electromechanical group II (141) are combined, the booster water pump (138) and the electromagnetic valve II (139) are installed at the front end of the water pipe II (137), the booster water pump (138) and the electromagnetic valve II (139) control the circulation of feed liquid in the water pipe II (137), a plurality of spray heads (140) are arranged at the bottom of the water pipe II (137), an inter-relay IV (142), a change-over switch IV (143), a switch group IV (144) of the electromechanical group IV (141), the booster water pump (138) and the electromagnetic valve II (139) are connected by a power line, wherein the booster water pump (138) and the electromagnetic valve II (139) are independently controlled by the inter-relay IV (142) to realize intelligent control, or the booster water pump (138) and the electromagnetic valve II (139) are independently controlled by the switch group IV (144) to realize manual control, thereby forming the spray group (129) as a whole;

the power supply box (9) consists of a box body (145) and a plurality of electromechanical sets;

when the egg chicken cage (1), the circulating feeding device (2), the egg recovery device (3), the food material tower (4), the liquid material tower (5), the chicken manure recovery device (6), the water supply device (7), the microorganism supply device (8) and the power supply box (9) are combined, the circulating feeding device (2) is installed on a circulating feeding device placing frame (13) of the egg chicken cage (1), and during installation, circulating feeding device fixing connecting seats (31) arranged on four sides of the bottom of a frame seat (20) of the circulating feeding device (2) are aligned with circulating feeding device fixing screw holes (14) arranged on a circulating feeding device placing frame (13) of the cage body (10) and are fastened by screws; the egg recovery device (3) is installed on an egg recovery device placing frame (17) arranged at the upper end of a frame foot (11) of the egg coop (1), during installation, a first circulating feeding device fixing connecting seat (63) arranged on four sides of the bottom of a frame seat (54) of the egg recovery device (3) is aligned with the frame foot (11), a first egg recovery device fixing screw hole (18) arranged on the egg recovery device placing frame (17) is fastened by a screw rod, and a motor switch (60) of the egg recovery device (3) is installed on the egg coop (1) and a position convenient for personnel to operate; the laying method comprises the following steps that a food tower (4) is arranged beside a hen cage (1) in a distributed mode, wherein a discharge pipeline (100) arranged at the front end of a distribution bin (95) of a feeding bin (86) of the food tower (4) is arranged in a trough (23) of a circulating feeding device (2) of the hen cage (1) in an aligned mode; the liquid material tower (5) and the hen cage (1) are respectively connected by a water supply device (7) and a microorganism supply device (8), wherein one end of a water pipe (125) of the water supply device (7) is connected to a liquid outlet I (117) arranged at the bottom of a clean water tank (113) of the liquid material tower (5), a water pipe (125) of the water supply device (7) and an automatic nipple water fountain (127) assembly for chickens are arranged in the hen cage (1), and the front end of the water pipe (125) is arranged in a liquid circulation pipe arranging hole site (12) arranged in the middle of the cage body (10); one end of a water pipe I (130) of a drinking group (128) of the microorganism supply device (8) is connected into a liquid outlet (115) arranged on a functional liquid storage tank (112) of the liquid material tower (5), a water pipe I (130) of the drinking group (128) of the microorganism supply device (8) and a chicken nipple drinking fountain I (132) assembly are arranged in the hen cage (1), and the front end of the water pipe I (130) is arranged in a liquid circulating pipe arranging hole site (12) arranged in the middle of the cage body (10); one end of a water pipe II (137) of a spraying group (129) of the microorganism supply device (8) is connected into a liquid outlet (115) arranged on a functional liquid storage tank (112) of the liquid material tower (5), and a water pipe II (137) and a spray head (140) combination of the microorganism supply device (8) is arranged at the bottom of an egg recovery device (3) arranged in the cage body (10); the chicken manure recovery device (6) is installed in the hen cage (1), and during installation, fixing screw holes II (121) formed in the left side and the right side of a frame body of a conveyor belt (118) of the chicken manure recovery device (6) are aligned with the fixing hole holes I (19) of the chicken manure recovery device formed in the middle of a frame foot (11) of the hen cage (1) and are fastened by screws; an electromechanical group (26) of a circulating feeding device (2), an electromechanical group I (90) of a food tower (4), an electromechanical group II (120) of a chicken manure recovery device (6), an electromechanical group III (133) of a drinking group (128) of a microorganism supply device (8) and an electromechanical group IV (141) of a spraying group (129) of the microorganism supply device (8) are respectively arranged in a power supply box (9), so that the intelligent and efficient laying hen feeding system is integrated.

2. The intelligent efficient laying hen feeding system according to claim 1, characterized in that: a plurality of groups of the egg coop (1), the circulating feeding device (2), the egg recovery device (3) and the chicken manure recovery device (6) can be added upwards; a plurality of discharging pipelines (100) arranged on the material distributing bin (95) of the food tower (4) can simultaneously supply a plurality of groups of circulating feeding devices (2); the liquid material tower (5) can also supply a plurality of groups of combined bodies simultaneously; the water supply device (7), the microorganism supply device (8) and the power supply box (9) can also be correspondingly added and combined with the equipment, so that the three-dimensional automatic laying hen breeding is continuously realized.

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