CN210094284U - A pig house for sow production batch ization - Google Patents

Abstract

The utility model provides a pigsty for batch production of sows, which belongs to the technical field of livestock breeding, and comprises at least one delivery room, wherein a plurality of delivery beds are arranged in each delivery room; the breeding gestation house is provided with a plurality of breeding gestation houses, sows in different batches are correspondingly arranged in different breeding gestation houses, a plurality of positioning fences for arranging the sows are arranged in each breeding gestation house, and each breeding gestation house is respectively communicated with the delivery room through a special group transferring channel. The utility model has the advantages of guarantee the inside biosafety of pig farm.

Description

A pig house for sow production batch ization

Technical Field

The utility model belongs to the technical field of the domestic animal is bred, a pig house that is used for sow production batched especially relates to a pig house that can effectively block infectious disease pathogen infection.

Background

The sow production batching is that sows are grouped according to the interval between batches, replacement sows are supplemented according to a plan, and biotechnology is utilized to realize the synchronous hybridization and the synchronous delivery of the same replacement sows and multiparous sows in the same batch, so that the sow production batching is an efficient and controllable management system for piglet production and is the basis of the all-in all-out pig-raising industrial production. The long-period batch of sow production batch is divided into 3, 4, 5 and other week batches, and the most important characteristic is that a certain cleaning, disinfecting and drying time is provided between the batches of sows, so that the infection of infectious diseases can be effectively blocked, and the pig farm can benefit by improving the health degree of the pig group. For example, a chinese patent with application number 200910201260.4 discloses a layout method of intensive pig farm piggery, which specifically introduces the advantages of sow production batch.

When the 3-week-batch production is adopted, the lactation period of the sows is 28 days, the annual number of born sows per sow is relatively low, but the sows are easy to feed in the conservation and fattening stages; the delivery room is long in cleaning, disinfecting and drying time, can effectively block infection of pathogenic microorganisms, and is a common production means for batch management of pig farms.

When the batch production of 4-week-batch sows is adopted, the lactation period of the sows is 21 days, and the annual number of fetuses of each sow is high; the delivery room has high utilization rate, less investment and shorter cleaning, disinfecting and drying time, needs to take corresponding measures to accelerate the cleaning and disinfecting speed, and adopts measures to quickly dry the pigsty to block the infection of pathogenic microorganisms.

When the batch production of the 5-week batch sows is adopted, the lactation period of the sows is 21 days, and the annual number of born sows per sow is high; the delivery room has long cleaning, disinfecting and drying time and can effectively block cross infection.

At present, piggeries in most pig farms in China are not designed according to batch production of sows, and the gestational piggeries are usually the same unit, and the sows in different gestation periods are often subjected to pathogenic cross infection; although the delivery rooms are usually unitized, the delivery rooms are not designed according to the batch production of sows, different batches of sows are frequently arranged in the same unit, and the sows in different delivery periods are frequently subjected to pathogenic cross infection; the group transfer channel is not separately designed, and the group transfer process is often cross-infected.

Sow production is organized in a batch mode, and sows in different batches are not provided with independent breeding gestation houses, so that the sows are mixed and cross-infected. These all bring great pressure on epidemic prevention and control, and particularly under the background that the African swine fever occurs in China, once the disease occurs, sows in the whole pig farm need to be killed completely, and the loss is great for farmers. Therefore, in order to ensure the internal biological safety of the pig farm, the pigsty layout which accords with the batch management of sow production is required.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current pig farm design, provided a pig house for sow production batch that guarantees the inside biological safety of pig farm.

The purpose of the utility model can be realized by the following technical proposal: a pigsty for sow production batching, comprising:

the delivery rooms are at least one in number, and a plurality of delivery beds are arranged in each delivery room;

the breeding gestation house is provided with a plurality of breeding gestation houses, sows in different batches are correspondingly arranged in different breeding gestation houses, a plurality of positioning fences for arranging the sows are arranged in each breeding gestation house, and each breeding gestation house is respectively communicated with the delivery room through a special group transferring channel.

As a further improvement of the utility model, the interval setting is between the arbitrary delivery room, between the arbitrary breeding gestational house, between the arbitrary delivery room and the breeding gestational house.

As a further improvement of the utility model, the plurality of breeding gestational barns are arranged along a straight line and are positioned at one side of the delivery room; or the plurality of breeding gestational houses are radially arranged outside the delivery room by taking the delivery room as a center.

As a further improvement, the two delivery rooms and six breeding gestational barns form a 3-week batch production line

As a further improvement of the utility model, a 4-week batch production line is formed by a delivery room and five breeding gestational houses.

As a further improvement of the utility model, a delivery room and four breeding gestational barns form a production line for 5 weeks.

As a further improvement of the utility model, the number of the positioning fences in each mating pregnancy house is 1.15 to 1.3 times of the number of the obstetric tables in each delivery room.

As a further improvement of the utility model, it is equipped with belt cleaning device to change crowd's professional channel top, belt cleaning device is towards changing crowd's professional channel and spraying washing water or antiseptic solution.

As a further improvement, belt cleaning device includes two delivery brackets and sprinkler, and two delivery brackets set firmly in the left and right sides of changeing crowd's dedicated passage, and be equipped with delivery track on every delivery bracket, the left and right sides of sprinkler respectively with delivery track swing joint, and the sprinkler can follow delivery track and make rectilinear motion, and the middle part of sprinkler is equipped with the water tank, and the water tank downside is equipped with the shower nozzle, and the shower nozzle is towards changeing crowd's dedicated passage and spraying washing water or antiseptic solution.

As the utility model discloses a further improvement, change crowd's professional channel and include the fretwork platform, the top of fretwork platform left and right sides has set firmly the guardrail respectively, and ground corresponds the position of changeing crowd's professional channel and digs and be equipped with the sewage drainage way, and the below of fretwork platform has set firmly the support frame, and the support frame embedding sewage drainage way, and the fretwork platform place plane is no longer than ground.

Based on the technical scheme, the embodiment of the utility model provides a can produce following technological effect at least:

1. because each breeding gestational shed is provided with a special group transferring channel for getting in and out of the delivery room, the sows in a single breeding gestational shed can all go in and out according to a preset track, workers can perform cleaning and disinfection work on the special group transferring channel in a targeted manner, and pathogenic cross infection of sows in different batches can be effectively prevented in the group transferring process.

2. Epidemic prevention intervals are arranged in all delivery rooms and breeding gestational barns, so that pathogenic cross infection of sows in different batches is further avoided.

3. Can wash the health of sow simultaneously turning crowd's in-process through belt cleaning device, it is more convenient to wash the sow, and the health more after the sow washs, before the sow changes crowd with the completion changes crowd after, also can wash, disinfect to crowd's dedicated passage, guarantees to change crowd's dedicated passage's health, further reduces the emergence probability of epidemic situation.

Drawings

Fig. 1 is a layout diagram of embodiment 1.

Fig. 2 is a layout diagram of embodiment 2.

Fig. 3 is a layout diagram of embodiment 3.

Fig. 4 is a layout diagram of embodiment 4.

Fig. 5 is a layout diagram of embodiment 5.

Fig. 6 is a layout diagram of embodiment 6.

Fig. 7 is an effect diagram of the switch group dedicated channel.

Fig. 8 is a front view of a switch-group dedicated channel.

Fig. 9 is a side view of a switch-group dedicated channel.

In the figure, 100, delivery room; 110. a obstetric table; 120. a partition wall; 200. breeding a gestational shed; 210. a positioning bar; 300. switching to a dedicated channel; 310. hollowing out the ground platform; 320. a guardrail; 330. a support frame; 400. a cleaning device; 410. a delivery stent; 411. a conveying track; 420. a water tank; 430. a spray head; 500. sewage draining channel

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example 1

As shown in figure 1, the hog house for sow production batching is mainly applicable to a 3-week-batch production mode, and comprises two delivery rooms 100 and six breeding gestation houses 200, wherein a plurality of delivery beds 110 are arranged in each delivery room 100, the specific number of the delivery beds 110 and the size of the delivery rooms 100 are designed according to actual requirements, the six breeding gestation houses 200 are respectively and correspondingly provided with 6 batches of sows, the 6 batches of sows produce according to the rhythm of 3 weeks per batch, a positioning fence 210 for installing sows is arranged in each gestation house, each breeding gestation house 200 is respectively communicated with the delivery rooms 100 through a special colony transferring channel 300, and the special colony transferring channel 300 is 0.7-1.0 meter high and 0.6-0.9 meter wide.

According to the application, each breeding gestation shed 200 is provided with the special group transferring channel 300 for passing in and out of the delivery room 100, sows in a single breeding gestation shed 200 all enter and all exit according to a preset track, workers can perform cleaning and disinfection work on the special group transferring channel 300 in a targeted manner, and pathogeny cross infection of sows in different batches can be effectively prevented in the group transferring process.

Wherein, the arbitrary delivery rooms 100, the arbitrary breeding gestational barns 200 and the arbitrary delivery rooms 100 and the arbitrary breeding gestational barns 200 are arranged at intervals, and the interval distance is 10 m to 20 m, that is, epidemic prevention intervals are arranged in all the delivery rooms 100 and the arbitrary breeding gestational barns 200, thereby further avoiding the pathogeny cross infection of sows of different batches.

Partition walls 120 are further arranged in the delivery room 100, and the partition walls 120 divide the delivery room 100 into a plurality of mutually isolated areas so as to reduce the stress response of the herds to the herds.

In this embodiment, the six breeding gestation houses 200 and the two delivery houses 100 are respectively arranged along two parallel straight lines, and the two delivery houses 100 are respectively close to the symmetric centers of the six breeding gestation houses 200, so that the whole piggery layout is compact, the turning path of the sows is shorter, and the efficiency is higher.

The specific use of the pigsty is as follows: when a sow in one breeding gestation house 200 reaches about 111 days of gestation, the sow enters one delivery room 100 along the special group transferring channel 300 corresponding to the breeding gestation house 200 for production, at the moment, a worker can clean, disinfect and dry the breeding gestation house 200, after the sow is weaned, all the sows return to the original breeding gestation house 200 for breeding pregnancy on the original way, at the moment, the worker can clean, disinfect and dry the delivery room 100, when the next sow reaches about 111 days of gestation, the previous delivery room 100 is still and cannot be used, the sow enters the other delivery room 100 for production, when the next sow reaches about 111 days of gestation, the previous delivery room 100 can be used, and the next delivery room 100 cannot be used, so that the two delivery rooms 100 are used repeatedly and produced in sequence.

As the two delivery rooms 100 are used alternately, the mating gestational shed 200 and the delivery rooms 100 have enough cleaning, disinfecting and drying time.

Under the condition of adopting the timing insemination technology, the farrowing rate of the breeding sows is usually 80-90%, so that the number of the positioning fences 210 in each mating gestational house 200 is 1.15-1.3 times of the number of the obstetric beds 110 in each delivery room 100, the utilization rate of the obstetric beds 110 is improved, and the investment cost of a pig farm is reduced.

As shown in fig. 7 to 9, a cleaning device 400 is provided above the turning group exclusive passage 300, and the cleaning device 400 sprays cleaning water or disinfectant toward the turning group exclusive passage 300. Can wash the health of sow simultaneously turning crowd's in-process through belt cleaning device 400, it is more convenient to wash the sow, and the sow is more healthy health after the washing, before the sow changes crowd with the completion change crowd after, also can wash, disinfect to crowd's dedicated passage 300, guarantees to change crowd's dedicated passage 300's health, further reduces the emergence probability of epidemic situation. The cleaning water can be clear water or washing water mixed with cleaning agent.

The cleaning device 400 includes two delivery brackets 410 and a water sprayer, wherein the two delivery brackets 410 are fixedly arranged at the left and right sides of the group-rotating dedicated channel 300, each delivery bracket 410 is provided with a delivery rail 411, the left and right sides of the water sprayer are respectively movably connected with the delivery rails 411, the water sprayer can linearly move along the delivery rails 411, the middle part of the water sprayer is provided with a water tank 420, the lower side of the water tank 420 is provided with a plurality of spray heads 430, and the spray heads 430 spray cleaning water or disinfectant towards the group-rotating dedicated channel 300.

Specifically, the left and right sides of the sprinkler are respectively provided with the pulley of the conveying track 411, and the sprinkler can be manually pulled through the traction rope to realize linear motion, and can also be electrically pulled through the motor matching with the traction rope to realize linear motion. A cover is provided on a sidewall of the water tank 420 to facilitate injection of cleaning water or sterilizing fluid. The water tank 420 may also be in direct communication with a water source via a water line. It is worth mentioning that the spraying pressure and the spraying angle of the spraying head 430 are adjustable, and no dead angle exists in cleaning and disinfection, so that the dead angle position is cleaned in a key way, and the cleaning effect is better.

When the washing is performed, the water sprayer can perform reciprocating motion along the conveying track 411, so that the body of the sow or the special channel 300 for rotating the group can be washed and disinfected repeatedly, and the washing effect is better. In addition, the cleaning device 300 can be arranged in multiple groups to overcome the problem that the right angle cannot be turned.

It includes fretwork platform 310 to change crowd's dedicated passage 300, and the top of the fretwork platform 310 left and right sides has set firmly guardrail 320 respectively, and ground is corresponding to the position of changeing crowd's dedicated passage 300 and is dug and be equipped with drainage water channel 500, and the below of fretwork platform 310 has set firmly support frame 330, and support frame 330 imbeds drainage water channel 500, and the fretwork platform 310 place plane is no longer than ground.

Turn into crowd's dedicated passage 300 bottom embedding sewage drainage channel 500's structure for wash sewage and can follow sewage drainage channel 500 and discharge to the sewage treatment pond, be difficult for excessive to ground, the internal environment of pig house is cleaner. Furthermore, the left side and the right side of the sewage draining channel 500 are wide and are provided with a special channel 300 for the rotary group, so that the washing sewage is prevented from splashing.

The hollowed-out platform 310 is arranged in a grid shape, and gaps among the grids are reasonably arranged, so that the sow trotters are prevented from being clamped on the platform to cause scratches and sprains; in addition, the hollowed-out platform 310, the guardrail 320 and the support frame 330 are made of anti-rust materials, such as stainless steel, so as to improve the durability; and the bottom of the support frame 330 is hollowed out to ensure better drainage and ventilation capability.

In this embodiment, two delivery rooms 100 and six breeding gestational barns 200 constitute one production line, and three or three times of production lines can be arranged in the pig farm, so that in a batch interval of 3 weeks, workers can be dispatched to complete the work task of one production line in 1 week, and then can be dispatched to complete the work tasks of the other two production lines in the remaining 2 weeks, thereby effectively utilizing the labor force, reducing the cost and achieving higher production efficiency.

Example 2

As shown in fig. 2, the example 2 is basically the same as the example 1, and the production mode of "3 weeks batch" is mainly applied, which mainly has the following differences: two delivery rooms 100 are arranged along a straight line, and six breeding barns 200 are arranged radially outside with respect to the symmetrical centers of the two delivery rooms 100.

Compared with the embodiment 1, the layout mode is more suitable for a pig farm with relatively consistent length-width ratio, and the group transfer paths of sows in different batches are more uniform, so that batch management is facilitated.

Example 3

As shown in FIG. 3, the main difference between example 3 and example 1 is the number of the delivery rooms 100 and the breeding gestational houses 200, and example 3 includes one delivery room 100 and five breeding gestational houses 200, which is suitable for the production mode of "4 week lot".

The pigsty is used in the following way: when a sow in one breeding gestation house 200 reaches about 111 days of gestation, the sow enters the delivery room 100 along the special group transferring channel 300 corresponding to the breeding gestation house 200 for production, at the moment, a worker can clean, disinfect and dry the breeding gestation house 200, after the sow in the batch is weaned, the sow returns to the original breeding gestation house 200 to be bred in the original way, at the moment, the worker can clean, disinfect and dry the delivery room 100, and when the sow in the next batch reaches about 111 days of gestation, the sow in the next batch also enters the delivery room 100 to be produced, so that the same delivery room 100 is used for production in a reciprocating mode in sequence.

In this embodiment, one production line is composed of one delivery room 100 and five breeding gestational barns 200, and four times of production lines can be arranged in the pig farm, so that workers can be dispatched to complete the work tasks of the other three production lines in the remaining 3 weeks in the batch interval of 4 weeks after being dispatched to complete the work task of one production line in 1 week, thereby effectively utilizing the labor force, reducing the cost and achieving higher production efficiency.

Example 4

As shown in fig. 4, example 4 is substantially the same as example 3, and is mainly applicable to a production mode of "4 weeks batch", which mainly has the following differences: five breeding houses 200 are arranged radially outside with respect to the delivery room 100.

Compared with the embodiment 3, the layout mode is more suitable for a pig farm with relatively consistent length-width ratio, and the group transfer paths of sows in different batches are more uniform, so that batch management is facilitated.

Example 5

As shown in FIG. 5, the main difference between example 5 and example 1 is the number of the delivery rooms 100 and the breeding gestational shed 200, and example 5 comprises one delivery room 100 and four breeding gestational sheds 200, which is suitable for the production mode of "5 week lot".

The pigsty is used in the following way: when a sow in one breeding gestation house 200 reaches about 111 days of gestation, the sow enters the delivery room 100 along the special group transferring channel 300 corresponding to the breeding gestation house 200 for production, at the moment, a worker can clean, disinfect and dry the breeding gestation house 200, after the sow in the batch is weaned, the sow returns to the original breeding gestation house 200 to be bred in the original way, at the moment, the worker can clean, disinfect and dry the delivery room 100, and when the sow in the next batch reaches about 111 days of gestation, the sow also enters the delivery room 100 to be produced, so that the same delivery room 100 is utilized to produce in sequence and repeatedly

In this embodiment, one production line is composed of one delivery room 100 and four breeding gestational barns 200, and five times of production lines can be arranged in the pig farm, so that workers can be dispatched to complete the work tasks of the other four production lines in the remaining 4 weeks in the batch interval of 5 weeks after being dispatched to complete the work task of one production line in 1 week, thereby effectively utilizing the labor force, reducing the cost and achieving higher production efficiency.

Example 6

As shown in fig. 6, example 6 is substantially the same as example 5, and the production method of "5 weeks batch" is also applicable, which mainly has the following differences: four breeding barns 200 are arranged radially outside with respect to the delivery room 100.

Compared with the embodiment 5, the layout mode is more suitable for a pig farm with relatively consistent length-width ratio, and the group transfer paths of sows in different batches are more uniform, so that batch management is facilitated.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. A pig house for sow production batching, which is characterized by comprising:

the delivery rooms are at least one in number, and a plurality of delivery beds are arranged in each delivery room;

the breeding gestation house is provided with a plurality of breeding gestation houses, sows in different batches are correspondingly arranged in different breeding gestation houses, a plurality of positioning fences for arranging the sows are arranged in each breeding gestation house, and each breeding gestation house is respectively communicated with the delivery room through a special group transferring channel.

2. The pigsty for sow production batching according to claim 1, characterized in that: any delivery room, any breeding gestational shed, any delivery room and breeding gestational shed are arranged at intervals.

3. The pigsty for sow production batching according to claim 1, characterized in that: the plurality of breeding gestational barns are arranged along a straight line and are positioned at one side of the delivery room; or the plurality of breeding gestational houses are radially arranged outside the delivery room by taking the delivery room as a center.

4. The pigsty for sow production batching according to claim 1, characterized in that: two delivery rooms and six breeding gestational barns form a 3-week batch production line.

5. The pigsty for sow production batching according to claim 1, characterized in that: a4-week batch production line is formed by one delivery room and five breeding gestational barns.

6. The pigsty for sow production batching according to claim 1, characterized in that: a5-week batch production line is formed by one delivery room and four breeding gestational barns.

7. The pigsty for sow production batching according to claim 1, characterized in that: the number of the positioning columns in each mating gestational shed is 1.15-1.3 times of the number of the obstetric beds in each delivery room.

8. The pigsty for sow production batching according to claim 1, characterized in that: and a cleaning device is arranged above the special channel for the turning group, and the cleaning device sprays cleaning water or disinfectant to the special channel for the turning group.

9. The pigsty for sow production batching according to claim 8, characterized in that: the cleaning device comprises two conveying supports and a water sprayer, wherein the two conveying supports are fixedly arranged on the left side and the right side of the special rotating group channel, a conveying track is arranged on each conveying support, the left side and the right side of the water sprayer are respectively movably connected with the conveying tracks, the water sprayer can do linear motion along the conveying tracks, a water tank is arranged in the middle of the water sprayer, a spray head is arranged on the lower side of the water tank, and the spray head sprays cleaning water or disinfectant towards the special rotating group channel.

10. The pigsty for sow production batching according to claim 8, characterized in that: it includes the fretwork platform to change crowd's professional channel, and the guardrail has set firmly respectively to the top of the fretwork platform left and right sides, and ground corresponds to the position of changeing crowd's professional channel and digs and be equipped with the drainage way, and the below of fretwork platform has set firmly the support frame, and the support frame embedding drainage way, and the fretwork platform place plane is no longer than ground.

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