JP3911248B2 - Animal breeding facilities - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an animal breeding facility.
[0002]
[Prior art]
Conventionally, as an animal breeding facility for supplying conditioned air to a large number of animal breeding rooms, there is, for example, the one shown in FIG. In FIG. 5, reference numeral 1 denotes a building having an animal breeding room, and the building 1 is located in front of a clean corridor 2, a breeding room 3 disposed adjacent to the front room 2, and disposed adjacent to the breeding room 3. A rear corridor 4 that is a contaminated corridor, and a maintenance corridor 5 that is disposed adjacent to the rear chamber 4, and a so-called open type breeder (not shown) is accommodated in the breeding room 3. The rack 6 that is to be obtained is installed.
[0003]
On the upper ceiling side of the wall that partitions the front room 2 and the rearing room 3, on the upper ceiling side of the wall that partitions the rearing room 3 and the rear room 4, and on the upper ceiling side of the wall that partitions the rear room 4 and the maintenance corridor 5, respectively. Differential pressure dampers 7, 8, and 9 are provided, and the excess air for maintaining positive pressure is an opening provided on the wall surface of the differential pressure dampers 7, 8, and 9 (hereinafter referred to as differential pressure damper). Through the front room 2 to the rearing room 3, from the rearing room 3 to the rear room 4, and from the rear room 4 to the maintenance corridor 5.
[0004]
An air supply main pipe 11 that can supply air that has been processed by an outside air processing air conditioner and temperature-controlled by a reheat heater, that is, air-conditioned air (air-conditioned air) 10, has three systems of air at the tip side. The air supply pipes 12, 13, and 14 are branched to supply pipes 12, 13, and 14, and the air supply pipes 12, 13, and 14 are connected to HEPA filters 15, 16, and 17 installed in the ceiling portions of the front room 2, the breeding room 3, and the rear room 4. Yes. Thus, the conditioned air 10 is cleaned by removing dust with the HEPA filters 15, 16, and 17 and introduced into the front chamber 2, the breeding room 3, and the rear chamber 4. The HEPA filters 15, 16, and 17 are high-performance filters, have a removal efficiency of DOP 99.97%, and can remove microorganisms attached to dust floating in the air or the microorganisms themselves.
[0005]
An exhaust suction port 18 is arranged on the lower floor surface side in the breeding room 3, and an exhaust pipe 19 extending inside the breeding room 3 and extending from the breeding room 3 to the outside is connected to the exhaust suction port 18. ing.
[0006]
An exhaust suction port 20 is disposed on the lower floor surface side in the rear chamber 4, and an exhaust pipe 21 extending in the rear chamber 4 and extending from the rear chamber 4 to the outside is connected to the exhaust suction port 20. ing.
[0007]
An exhaust suction port 22 is disposed in the ceiling portion of the maintenance corridor 5, and an exhaust pipe 23 extending from the maintenance corridor 5 to the outside is connected to the exhaust suction port 22.
[0008]
A HEPA filter 24 is connected to the exhaust pipe 19, and the exhaust pipes 19, 21, and 23 merge into one, and are connected to an exhaust main pipe 25 having a scrubber 26 connected in the middle. In the figure, 27 is a coarse dust and deodorizing filter provided in the opening of the differential pressure damper 8, and 28 is a coarse dust and deodorizing filter provided in front of the suction port of the exhaust suction port 20.
[0009]
The conditioned air 10 is introduced from the air supply main pipe 11 to the HEPA filters 15, 16, and 17 through the air supply pipes 12, 13, and 14, and is dedusted, sterilized, and purified by the HEPA filters 15, 16, and 17. After that, it is introduced into the front room 2, the rearing room 3, and the rear room 4.
[0010]
Thus, a part of the air introduced into the front chamber 2 stays in the front chamber 2 and keeps the front chamber 2 at a positive pressure, and the air remains in a state of pressing each wall, ceiling, and floor surface. The pressure damper 7 is introduced into the breeding room 3 against the closing force of the differential pressure damper 7 through the opening of the pressure damper 7. In the breeding room 3, the air from the air supply pipe 13 and the air from the front chamber 2 merge and breed. The interior of the chamber 3 flows obliquely downward from above, and a considerable amount of air passes through the incubator housed in the rack 6. For this reason, the hair and odor are accompanied by air, but the hair and odor are removed by the coarse dust and the deodorizing filter 28, so the air from which these are removed is sucked into the exhaust pipe 19 from the exhaust inlet 18. It is.
[0011]
The remaining air is introduced into the rear chamber 4 from the opening of the differential pressure damper 8 against the force to close the differential pressure damper 8 after the body hair and odor are removed by the coarse dust and the deodorizing filter 27, In the chamber 4, the air from the air supply pipe 14 merges, a considerable amount of air flows into the maintenance corridor 5 from the opening of the differential pressure damper 9, and the remaining air flows into the exhaust suction port 20.
[0012]
All of the air introduced into the maintenance corridor 5 flows into the exhaust pipe 23 from the exhaust inlet 22.
[0013]
Exhaust air in the exhaust pipe 19 is cleaned by removing microorganisms such as bacterial cells by the HEPA filter 24, and the exhaust air in the exhaust pipes 21 and 23 flows as they are and flows into the exhaust main pipe. 25, and is washed with a liquid such as water sprayed by the scrubber 26, sterilized and deodorized, and fed downstream.
[0014]
In the animal breeding facility, the pressure in each chamber is, for example, 4 mmAq (++) in the front chamber 2, 2 mmAq (+) in the breeding chamber 3, and 2 mmAq (+) in the rear chamber 4 so that uncleaned air does not flow into the breeding chamber 3. 0 mmAq (± 0), so that the pressure in the maintenance corridor 5 is lower than the atmospheric pressure (−), that is, the pressure in the front chamber 2> the pressure in the rearing chamber 3> the pressure in the rear chamber 4> the pressure in the maintenance corridor 5 Thus, the opening degree of the differential pressure dampers 8 and 9 is adjusted. Since the pressure in the maintenance corridor 5 is a negative pressure lower than the pressure in the breeding room 3, the contaminated air contaminated with microorganisms does not leak into the breeding room 3 or outside air.
[0015]
In the animal breeding facility, for example, the amount of air in the air supply system when air conditioned air having a flow rate of 1100 per unit time needs to be supplied to the breeding room 3 is as follows. That is, the flow rate of the conditioned air 10 flowing through the air supply main pipe 11 is Q1 = 1600, the flow rate of the conditioned air 10 introduced from the air supply pipe 12 into the front chamber 2 is Q2 = 300, and the air supply pipe 13 enters the breeding room 3 The flow rate of the conditioned air 10 introduced is Q3 = 1000, and the flow rate of the conditioned air 10 introduced from the air supply pipe 14 to the rear chamber 4 is Q4 = 300.
[0016]
The flow rate of air introduced from the front chamber 2 into the breeding room 3 is Q5 = 100, and the remaining air (Q2-Q5 = 200) leaks from various gaps in order to maintain the pressure in the front chamber 2. Used as a loss amount.
[0017]
The flow rate of air sucked into the exhaust pipe 19 in the breeding room 3 is Q6 = 900, the flow rate of air introduced from the breeding room 3 into the rear room 4 is Q7 = 200, and the air sucked into the exhaust pipe 21 in the rear room 4 Q8 = 100, the flow rate of air introduced from the rear chamber 4 to the maintenance corridor 5 is Q9 = 400, the flow rate of air sucked from the maintenance corridor 5 into the exhaust pipe 23 is Q10 = 400, and the exhaust main pipe 25 The flow rate of the air flowing through is Q11 = 1400. The numerical value indicating each flow rate is not an absolute amount but a ratio.
[0018]
In addition, there exist patent document 1, nonpatent literature 1, etc. as what shows the general technical level of the conventional animal breeding facility.
[0019]
[Patent Document 1]
JP-A-8-242718 [Non-Patent Document 1]
Kumagaya Technical Report No. 36, 1985.2 Construction of Bio-Clean Room, Animal Experiment Facility Page 243-251 [0020]
[Problems to be solved by the invention]
In the animal breeding facility shown in FIG. 5, it is possible to maintain the health of the breeding animal well by ventilating as described above. However, in order to keep the rear room 4 clean, the rear room 4 is also air-conditioned. Air must be supplied. Accordingly, there is a problem that a large amount of air-conditioned air is required, an extra pipe system is required, and the outside-air processing air conditioner is increased in size to increase the equipment cost and the operation maintenance cost.
[0021]
In view of the above circumstances, the present invention simplifies the pipe system by not supplying air that has been air-conditioned to the rear chamber, and reduces the size of the outdoor air-conditioning air conditioner. The purpose of this is to provide an animal breeding facility that can reduce operation and maintenance costs.
[0022]
[Means for Solving the Problems]
The animal breeding facility of claim 1
It is equipped with a front room, a rearing room and a rear room, which are adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured such that air that has been air-conditioned and purified by a filter can be introduced from the ceiling ,
A part of the air introduced from the front room is configured to be introduced into the breeding room via a differential pressure damper provided on the upper ceiling side of the wall surface that partitions the front room and the breeding room ,
Through the differential pressure damper provided with the deodorizing filter provided in the vicinity of the floor of the lower wall of the wall that separates the rearing room from the rearing room, together with the air that has partially passed through the rearing room. It is configured so that it can be introduced from the rearing room to the rear room,
The air introduced into the rear chamber is obtained by adapted to exhaust after having passed through a filter provided in the rear chamber ceiling.
[0023]
The animal breeding facility of claim 2
It is provided with an anterior room, a rearing room, a rear room, and a maintenance space that are sequentially adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured such that air that has been air-conditioned and purified by a filter can be introduced from the ceiling ,
A part of the air introduced from the front room is configured to be introduced into the breeding room via a differential pressure damper provided on the upper ceiling side of the wall surface that partitions the front room and the breeding room,
Through the differential pressure damper provided with the deodorizing filter provided in the vicinity of the floor of the lower wall of the wall that separates the rearing room from the rearing room, together with the air that has partially passed through the rearing room. It is configured so that it can be introduced from the rearing room to the rear room,
A part of the air introduced from the breeding room to the rear room is configured to be exhausted through a filter provided in the rear room ceiling ,
The remaining air is exhausted from the maintenance space through a differential pressure damper provided in the upper part on the ceiling side of the wall surface separating the maintenance space and the rear chamber .
[0024]
In the animal breeding facility according to claim 3, there is provided local ventilation means for supplying the air in the breeding room through a filter to the breeder housed in the rack and returning the air exhausted from the rack to the breeding room through the filter. It is provided.
[0025]
The animal breeding facility according to claim 4 is:
It is equipped with a front room, a rearing room and a rear room, which are adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured to introduce air that has been air-conditioned and purified by a filter,
A part of the air introduced from the anterior chamber is configured to be introduced into the breeding room,
The air introduced from the rearing room to the rear room is exhausted after passing through a filter.
The exhaust device of the rack installed in the breeding room has an exhaust pipe so that air supplied to the breeder housed in the rack through the filter by the air supply device can be exhausted from the rack by the exhaust device provided with the filter. Connect
The exhaust pipe is divided vertically into the vicinity of the ceiling penetration part of the breeding room, and at the lower end part of the divided exhaust pipe connected to the penetration part, the upper end part of the divided exhaust pipe connected to the exhaust device has a gap. It is configured to be loosely fitted .
[0026]
The animal breeding facility according to claim 5 is:
It is provided with an anterior room, a rearing room, a rear room, and a maintenance space that are sequentially adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured such that air that has been air-conditioned and purified by a filter can be introduced from the ceiling,
A part of the air introduced from the front room is configured to be introduced into the breeding room via a differential pressure damper provided on the upper ceiling side of the wall surface that partitions the front room and the breeding room,
The exhaust device of the rack installed in the breeding room has an exhaust pipe so that air supplied to the breeder housed in the rack through the filter by the air supply device can be exhausted from the rack by the exhaust device provided with the filter. Connect
The exhaust pipe is divided vertically into the vicinity of the ceiling penetration part of the breeding room, and at the lower end part of the divided exhaust pipe connected to the penetration part, the upper end part of the divided exhaust pipe connected to the exhaust device has a gap. Configured to be loosely fitted,
Part of the air introduced from the ceiling part of the breeding room and the differential pressure damper is provided in the vicinity of the floor at the bottom of the wall that partitions the breeding room and the rear room, and through a differential pressure damper provided with a deodorizing filter It is configured so that it can be introduced from the rearing room to the rear room,
The remaining air introduced into the breeding room is configured to be exhausted from the exhaust pipe,
A part of the air introduced from the breeding room to the rear room is configured to be exhausted through a filter provided in the rear room ceiling,
The remaining air is configured to be exhausted through the maintenance space through a differential pressure damper provided at an upper portion on the ceiling side of the wall surface separating the maintenance space and the rear chamber.
Further, the animal breeding facility according to claim 6 is configured to pass the exhaust from the room through the exhaust purification means , and the animal breeding facility according to claim 7 is configured to pass the exhaust from the local ventilation means to the exhaust purification means. It is configured .
[0027]
According to the present invention, by not supplying the air-conditioned air directly to the rear chamber, the pipe system of the air-conditioned air and the exhaust air can be simplified, and the equipment attached to the pipe system is also provided. Since it is possible to reduce the size of the outside air processing air conditioner, it is possible to reduce the facility cost and the operation and maintenance cost.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a first example of an embodiment of an animal breeding facility according to the present invention. In the figure, the same reference numerals as those in FIG. 5 denote the same parts.
[0029]
5 differs from the animal breeding facility shown in FIG. 5 in that the air supply pipe 14 shown in FIG. 5 is eliminated and the HEPA provided in the exhaust inlet 18, exhaust pipe 19, and exhaust pipe 19 of the breeding room 3 is provided. The filter 24 and the deodorizing filter 28 are eliminated, and the differential pressure damper 8 and the deodorizing filter 27 for sending air from the breeding room 3 to the rear room 4 are installed in the vicinity of the lower floor, and the exhaust inlet in the rear room 4 20, the portion laid in the rear chamber 4 of the exhaust pipe 21 is eliminated, and most of the air in the rear chamber 4 can be exhausted to the external exhaust pipe 21 through the HEPA filter 17 provided on the ceiling. The configuration is substantially the same as the conventional animal breeding facility shown in FIG.
[0030]
Next, the operation of the above-described embodiment will be described.
As with conventional animal breeding facilities, the conditioned air 10 that has been processed by an outside air processing air conditioner (not shown) and temperature-controlled by a reheat heater passes through the air supply pipes 12 and 13 from the air supply main pipe 11 and passes through the HEPA filter. After being dedusted and cleaned by 15 and 16, it is introduced into the front room 2 and the breeding room 3.
[0031]
Thus, a part of the air introduced into the front chamber 2 stays in the front chamber 2 to hold the front chamber 2 at a positive pressure, and the differential pressure is maintained while pressing each wall, ceiling, and floor. The damper 7 is introduced into the breeding room 3 against the closing force of the differential pressure damper 7 from the opening of the damper 7. In the breeding room 3, the air from the air supply pipe 13 and the air from the front chamber 2 join together. The interior flows diagonally downward from above, and a considerable amount of air passes through the incubator stored in the rack 6. For this reason, the hair is accompanied by body hair and odor, and the entire amount of air accompanied by body hair and odor is against the force of closing the differential pressure damper 8 from the opening of the differential pressure damper 8 installed near the lower floor. Is introduced into the rear chamber 4. At this time, the odor in the air is removed by the deodorizing filter 27.
[0032]
The air introduced into the rear chamber 4 rises due to indoor contamination, and in many cases, the HEPA filter 17 adheres to the entrained dust or removes microorganisms drifting by itself, and after being cleaned, the exhaust is exhausted. The remaining air flows into the pipe 21 and is introduced from the opening of the differential pressure damper 9 into the maintenance corridor 5 against the closing force of the differential pressure damper 9.
[0033]
All the air introduced into the maintenance corridor 5 flows into the exhaust pipe 23 from the exhaust inlet 22.
[0034]
Exhaust air in the exhaust pipes 21 and 23 flows into the exhaust main pipe 25, is washed with a liquid such as water sprayed by the scrubber 26, is dusted and deodorized, and is sent downstream.
[0035]
By ventilating as described above, the health condition of the domestic animals can be maintained well, and microorganisms such as microbial cells can be prevented from leaking outside.
[0036]
In the animal breeding facility, in order to prevent uncleaned air from flowing into the breeding room 3, the pressure of each of the differential pressure dampers 8 and 9 is set so that the pressure in each room is the same as described in FIG. The opening is adjusted. Also in this case, since the pressure in the maintenance corridor 5 is lower than the pressure in the breeding room 3 and is a negative pressure lower than the atmospheric pressure, the contaminated air contaminated with microorganisms does not leak into the breeding room 3 or outside air. .
[0037]
In the illustrated example, the air amount of the air supply system when it is necessary to supply the air-conditioned air at a flow rate of 1100 per unit time to the breeding room 3 is as follows. That is, the flow rate of air flowing through the air supply main pipe 11 is Q1 = 1300, the flow rate of air introduced from the air supply pipe 12 into the front chamber 2 is Q2 = 300, and the air introduced from the air supply pipe 13 into the breeding room 3 The flow rate of Q3 = 1000.
[0038]
Further, the flow rate of air introduced from the front chamber 2 to the breeding room 3 is Q5 = 100, and the remaining air (Q2-Q5 = 200) maintains the pressure in the front chamber 2 as in the case of FIG. , And used as a surplus pressure as an amount of leakage loss from various gaps.
[0039]
The flow rate of air introduced from the breeding room 3 to the rear chamber 4 is Q7 (= Q3 + Q5) = 1100, and the flow rate of air sucked into the exhaust pipe 21 from the HEPA filter 17 in the rear chamber 4 is Q8 = 1000. The flow rate of air introduced into the maintenance corridor 5 is Q9 = 100, the flow rate of air sucked into the exhaust pipe 23 from the maintenance corridor 5 is Q10 = 100, and the flow rate of air flowing through the exhaust main pipe 25 is Q11 = 1100. . Also in this example, the numerical value indicating each flow rate is not an absolute amount but a ratio.
[0040]
According to the illustrated example, by not supplying the conditioned air 10 directly to the rear chamber 4, the pipe system of the conditioned air 10 and the exhaust air can be simplified and the equipment attached to the pipe system can be reduced in size. In addition, since it is possible to reduce the size of the outside air processing air conditioner, the facility cost and the operation maintenance cost can be reduced.
[0041]
FIG. 2 is a second example of the embodiment of the animal breeding facility of the present invention, and is an example in which the breeder housed in the rack 6 of the breeding room 3 can be locally ventilated. In the drawing, 29 is an air supply device installed on the rack 6, and the air supply device 29 includes a fan 30 and a HEPA filter 31. Reference numeral 32 denotes an exhaust device installed on the rack 6, and the exhaust device 32 includes a fan 33 and a HEPA filter 34. Thus, the local ventilation means is constituted by the air supply device 29 and the exhaust device 32.
[0042]
In the illustrated example, a part of the air in the breeding room 3 is supplied to the HEPA filter 31 by the fan 30 of the air supply device 29, cleaned by the HEPA filter 31, and placed in each stage in the rack 6. It passes through the vessel and is fed to the HEPA filter 34 by the fan 33 of the exhaust device 32 along with body hair and odor. In the HEPA filter 34, microorganisms such as bacteria from the animal as a specimen are removed and the hair is It is removed and returned to the breeding room 3. The odor in the air is removed by the deodorizing filter 27 when the air passes through the opening of the differential pressure damper 8 against the force of the differential pressure damper 8 closing.
[0043]
Thus, by locally ventilating, it is possible to achieve the same operational effects as in the illustrated example, and it is possible to keep the domestic animal in a better health state.
[0044]
3 and 4 show a third example of the embodiment of the animal breeding facility of the present invention. In this illustrated example, as shown in FIG. 2, the exhaust device is used for local ventilation of the breeder housed in the rack 6. An exhaust pipe 35 is connected to 32 HEPA filters 34 so that air can be exhausted from the exhaust pipe 35 to the exhaust main pipe 25 via the exhaust pipe 36. As shown in FIG. 4, the boundary between the inside of the breeding room 3 and the outside of the breeding room 3 of the exhaust pipes 35 and 36 is not directly connected but is a so-called indirect connection. That is, the exhaust pipe 35 communicates with the inside of the breeding room 3 at the upper end, and the lower end of the exhaust pipe 36 is loosely fitted with the gap 37 in the breeding room 3 at the upper end of the exhaust pipe 35.
[0045]
In this case, when the flow rate per unit time of the air-conditioned air introduced from the air supply pipe 13 to the breeding room 3 is Q3 = 1000, the flow rate of the air exhausted from the exhaust pipes 35 and 36 is as follows. Q6 '= 300, the flow rate of air introduced from the rearing room 3 to the rear chamber 4 is Q7 = 800, the flow rate of air exhausted from the rear room 4 to the exhaust pipe 21 is Q8 = 700, This is the same as the illustrated example.
[0046]
By doing in this way, the effect similar to the said example of illustration can be show | played. Further, since the air used for local ventilation is not exhausted into the breeding room 3, the cleanliness of the breeding room 3 is improved, and the door (not shown) of the breeding room 3 is opened to increase the pressure in the breeding room 3. When the pressure fluctuates, the pressure fluctuation escapes from the gap 37 toward the exhaust pipe 36, so that the pressure fluctuation does not reach the incubator portion of the rack 6, and no stress is given to the reared animal. .
[0047]
In the animal breeding facility of the present invention, the case where the HEPA filter is used as the filter has been described. However, a high-performance filter such as a ULPA filter can be used other than the HEPA filter. Of course, various changes can be made without departing from the scope of the invention.
[0048]
【The invention's effect】
As described above, according to the animal breeding facility of the first to seventh aspects of the present invention, the conditioned air and exhaust air pipe systems are simplified by not supplying the conditioned air directly to the rear chamber. included with tubing is possible to facilities can be made compact, and since it becomes possible to reduce the size of the outside air treatment air conditioner, equipment costs, can save the operation maintenance cost, also, according In the inventions of Items 4 and 5, in addition to the above effects, the air used for local ventilation is not exhausted into the breeding room, so that the cleanliness of the breeding room is good, and the door of the breeding room is opened and the breeding room is opened. If the pressure of the rack fluctuates, the pressure fluctuation escapes from the gap to the upper exhaust pipe side, so that the pressure fluctuation does not reach the rack incubator part and stress the animals being raised. There is an effect that there is no , An excellent effect.
[Brief description of the drawings]
FIG. 1 is a front view showing an outline of a first example of an embodiment of an animal breeding facility according to the present invention.
FIG. 2 is a front view showing an outline of a second example of the embodiment of the animal breeding facility of the present invention.
FIG. 3 is a front view showing an outline of a third example of the embodiment of the animal breeding facility of the present invention.
4 is an enlarged view of a portion IV in FIG. 3. FIG.
FIG. 5 is a front view showing an outline of an example of a conventional animal breeding facility.
[Explanation of symbols]
2 Front room 3 Rearing room 4 Rear room 5 Maintenance corridor (maintenance space)
6 racks
7 differential pressure damper
8 differential pressure damper
9 differential pressure damper 15 HEPA filter (filter) (high performance filter)
16 HEPA filter (filter) (high performance filter)
17 HEPA filter (filter) (high performance filter)
26 Scrubber (exhaust gas purification means)
27 Deodorizing filter 29 Air supply device (local ventilation means)
31 HEPA filter (filter) (high performance filter)
32 Exhaust system (local ventilation means)
34 HEPA filter (filter) (high performance filter)
35 exhaust pipe
36 exhaust pipe
37 gaps

Claims (7)

It is equipped with a front room, a rearing room and a rear room, which are adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured such that air that has been air-conditioned and purified by a filter can be introduced from the ceiling ,
A part of the air introduced from the front room is configured to be introduced into the breeding room via a differential pressure damper provided on the upper ceiling side of the wall surface that partitions the front room and the breeding room ,
Through the differential pressure damper provided with the deodorizing filter provided in the vicinity of the floor of the lower wall of the wall that separates the rearing room from the rearing room, together with the air that has partially passed through the rearing room. It is configured so that it can be introduced from the rearing room to the rear room,
An animal breeding facility characterized in that the air introduced into the rear chamber is exhausted after passing through a filter provided in a ceiling portion of the rear chamber . It is provided with an anterior room, a rearing room, a rear room, and a maintenance space that are sequentially adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured such that air that has been air-conditioned and purified by a filter can be introduced from the ceiling ,
A portion of the air introduced from the front chamber, and configured to be introduced into the breeding room via the differential pressure damper provided in the upper ceiling wall dividing the front chamber and breeding room,
Through the differential pressure damper provided with the deodorizing filter provided in the vicinity of the floor of the lower wall of the wall that separates the rearing room from the rearing room, together with the air that has partially passed through the rearing room. It is configured so that it can be introduced from the rearing room to the rear room,
A part of the air introduced from the breeding room to the rear room is configured to be exhausted through a filter provided in the rear room ceiling ,
An animal breeding facility characterized in that the remaining air is exhausted from the maintenance space through a differential pressure damper provided in the upper part of the ceiling of the wall surface separating the maintenance space and the rear chamber .   The animal according to claim 1 or 2, further comprising a local ventilation means for supplying air in the breeding room to a breeder housed in a rack through a filter and returning air exhausted from the rack through the filter to the breeding room. Rearing facility. It is equipped with an anterior room, a breeding room, and a rear room, which are adjacent to each other, and the breeding room is an animal breeding facility provided with a rack capable of storing a breeder,
The anterior chamber and the breeding room are configured to introduce air that has been air-conditioned and purified by a filter,
A part of the air introduced from the anterior chamber is configured to be introduced into the breeding room,
The air introduced from the rearing room to the rear room is exhausted after passing through a filter.
The exhaust device of the rack installed in the breeding room has an exhaust pipe so that the air fed to the breeder housed in the rack through the filter by the air supply device can be exhausted from the rack by the exhaust device provided with the filter. Connect
The exhaust pipe is divided vertically into the vicinity of the ceiling penetration part of the breeding room, and the upper end part of the divided exhaust pipe connected to the exhaust device has a gap at the lower end part of the divided exhaust pipe connected to the penetration part. An animal breeding facility that is configured to be loosely fitted . It is provided with an anterior room, a rearing room, a rear room, and a maintenance space that are sequentially adjacent to each other, and the rearing room is an animal rearing facility provided with a rack capable of storing a rearing device,
The anterior chamber and the breeding room are configured such that air that has been air-conditioned and purified by a filter can be introduced from the ceiling,
A part of the air introduced from the front chamber is configured to be introduced into the breeding room via a differential pressure damper provided on the upper ceiling side of the wall surface separating the front room and the breeding room,
The exhaust device of the rack installed in the breeding room has an exhaust pipe so that the air fed to the breeder housed in the rack through the filter by the air supply device can be exhausted from the rack by the exhaust device provided with the filter. Connect
The exhaust pipe is divided vertically into the vicinity of the ceiling penetration part of the breeding room, and the upper end part of the divided exhaust pipe connected to the exhaust device has a gap at the lower end part of the divided exhaust pipe connected to the penetration part. Configured to be loosely fitted,
Part of the air introduced from the ceiling part of the breeding room and the differential pressure damper is provided in the vicinity of the floor below the wall surface separating the breeding room and the rear room, and through a differential pressure damper provided with a deodorizing filter It is configured so that it can be introduced from the rearing room to the rear room,
The remaining air introduced into the breeding room is configured to be exhausted from the exhaust pipe,
A part of the air introduced from the rearing room to the rear room is configured to be exhausted through a filter provided in the rear room ceiling,
The remaining through the air differential pressure damper arranged on the ceiling side upper wall which partitions the maintenance space and the rear chamber to the animal care facility which is characterized by being configured to exhaust through the space for maintenance. The animal breeding facility according to any one of claims 1 to 5, wherein exhaust from the chamber is configured to pass through an exhaust purification means . 6. The animal breeding facility according to claim 4 or 5, wherein exhaust from the local ventilation means is passed through the exhaust purification means .

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