JP2005143389A - Method and system for euthanatizing animal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for euthanatizing animals subjected to killing in animal tending centers, health centers, or the like, through eliminating their pain. <P>SOLUTION: The system M1 for euthanatizing animals has the following construction: A nitrous oxide feeder 2 is joined via a feed channel 3 to a disposal chamber 1. The feed channel 3 is provided with a nitrous oxide chamber 4, a mixer 5 and valves 6 and 7. An oxygen feeder 8 is joined via a feed channel 9 to the feed channel 3. The feed channel 9 is provided with an oxygen chamber 10 and valves 11 and 12. A nitrous oxide concentration control unit 13 and an oxygen concentration control unit 14 are joined to the disposal chamber 1 and the concentrations of the respective gases in the disposal chamber 1 can be controlled by feedback to the respective valves 7 and 12. An exhaust channel 15 is joined to the disposal chamber 1, and a recovery channel 16 is provided in between the exhaust channel 15 and the feed channel 3 and is equipped with a blower 17 and a nitrous oxide recovery unit 18. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a method of euthanizing an animal and an animal euthanasia apparatus. More particularly, the present invention relates to a method and an apparatus that can eliminate the pain at the time of disposal of animals killed at an animal management center, a health center, or the like and can be euthanized.

There are no end to the animals that are finally housed in animal management centers or health center facilities, such as pets abandoned by their owners and unsold animals brought by breeders.
However, the period in which animals can be accommodated in such a facility is limited, and if no taker or foster parent is found within a certain period, the animals will be killed.
Conventionally, the method of killing in such a facility has been to inject carbon dioxide into a processing chamber containing animals to control the concentration of carbon dioxide in the processing chamber to, for example, 65% or more and oxygen to 10% or less. It was a dead state that led to death (see Patent Document 1).

JP 2003-38090 A

However, the following problems have been conventionally pointed out in the killing by the above method.
In other words, carbon dioxide is used in the killing because the central nervous system is paralyzed due to the nature of the gas, so that the animal may be euthanized without feeling painful. Depending on the situation, there is a possibility that some pain may be felt in a short time due to a rapid and remarkable lack of oxygen.
Carbon dioxide also has the property of slightly irritating the mucous membranes of the nose, eyes, mouth, etc., and when carbon dioxide is injected into the treatment chamber, the animals can stimulate them before the central nervous system is paralyzed. There is also a possibility of receiving.

(Object of the present invention)
An object of this invention is to provide the method and apparatus which can be euthanized without the pain at the time of disposal of the animal killed in an animal management center, a health center, etc.

The means of the present invention taken in order to solve the above problems are as follows.
In the first invention,
Anesthetized by inhaling anesthesia gas to the animal to be killed, then the treatment chamber in which the animal is housed is deprived of oxygen, causing the animal to die,
A way to euthanize animals.

In the second invention,
Anesthetized by inhaling an anesthetic gas to the animal to be killed, and then anesthesia gas is supplied as it is into the processing chamber in which the animal is housed to make it deficient, causing the animal to die. To
A way to euthanize animals.

In the third invention,
Anesthetized by inhaling anesthesia gas to the animal to be killed, and then fed with a suffocation gas that does not contain oxygen into the treatment chamber in which the animal is housed, so that the animal is deprived of oxygen. Is characterized by causing death
A way to euthanize animals.

In the fourth invention,
A treatment room to kill animals,
A device for supplying anesthetic gas to the processing chamber;
It is characterized by having,
Animal euthanasia device.

In the fifth invention,
A treatment room to kill animals,
A device for supplying anesthetic gas to the processing chamber;
An apparatus for supplying a suffocation gas containing no oxygen to the processing chamber;
It is characterized by having,
Animal euthanasia device.

In the sixth invention,
A treatment room to kill animals,
A device for supplying anesthetic gas to the processing chamber;
An apparatus for supplying a suffocation gas containing no oxygen to the processing chamber;
A device for supplying oxygen to the processing chamber;
A device for controlling the anesthetic gas concentration in the processing chamber;
A device for controlling the oxygen concentration in the processing chamber;
It is characterized by having,
Animal euthanasia device.

In the seventh invention,
It is characterized by comprising a gas chamber for temporarily storing each gas sent to the processing chamber,
An animal euthanasia apparatus according to the fourth, fifth or sixth invention.

In the eighth invention,
It is equipped with a device for collecting anesthetic gas or asphyxiation gas,
An animal euthanasia apparatus according to the fourth, fifth, sixth or seventh invention.

  Examples of the anesthetic gas (inhalation anesthetic) referred to in the specification and claims of the present invention include, for example, 1. nitrous oxide (also referred to as dinitrogen monoxide, laughter), 2. halothane, 3 Examples include methoxyflurane, 4. enflurane, 5. isoflurane.

  In addition, examples of the suffocation gas in the specification and claims of the present invention include carbon dioxide (carbon dioxide gas), nitrogen, and the like, but are limited to these as long as they do not contain oxygen (gas). The gas may be a single gas other than the above or a mixed gas containing the gas or other gas.

  It is preferable that the processing chamber has a structure that can be hermetically sealed. However, the present invention is not limited to this, and may be one that can be ventilated to the extent that it does not impair the functionality of the processing chamber. If the gas to be used is heavier than air, the top is open. It may be a structure (pit-like structure).

The apparatus for controlling the concentration of anesthetic gas or oxygen is a structure in which various known techniques are used, although the structure is not described in detail.
For example, 1. Combined valve with fixed flow rate adjusted in advance, 2. Combined constant flow valve, 3. Combined fixed flow rate MFC (mass flow controller), 4. Concentration controller A combination of MFC or other control valves with feedback applied, 5. A combination of flowmeters capable of proportional setting, 6. A combination of orifices whose flow rate has been adjusted in advance.

(Function)
(A) An animal euthanasia apparatus comprising a processing chamber for killing animals and a device for supplying anesthetic gas to the processing chamber according to the present invention operates as follows.
First, an animal to be killed is housed in a processing chamber. Next, anesthetic gas is supplied into the processing chamber. When the animal inhales anesthetic gas, the animal becomes paralyzed due to anesthetic action or sedation by the anesthetic gas and becomes asleep. At this point, the animal feels no pain.

Then, when the animal is anesthetized, an anesthetic gas is further supplied to the treatment chamber, and the oxygen concentration in the treatment chamber is lowered to a concentration at which the animal becomes oxygen deficient.
By maintaining the oxygen deficiency in the treatment chamber, the animal will die. The animal is deficient until death, but does not feel pain because the nerve is already paralyzed by the anesthetic gas.

(B) Euthanasia for animals comprising a processing chamber for killing animals, a device for supplying anesthesia gas to the processing chamber, and a device for supplying suffocation gas not containing oxygen to the processing chamber according to the present invention The device operates as follows.
First, as in the case of the above (A), the animal housed in the processing chamber becomes paralyzed due to the paralysis of the nerve due to the anesthetic action or sedative action of the anesthetic gas.
Then, when the animal is anesthetized, asphyxiation gas is supplied to the treatment chamber, and the oxygen concentration in the treatment chamber is lowered to a concentration that causes oxygen deficiency for the animal.
By maintaining the oxygen deficiency in the treatment chamber, the animal will die.

(C) According to the present invention, a processing chamber for killing animals, a device for supplying anesthesia gas to the processing chamber, a device for supplying suffocation gas not containing oxygen to the processing chamber, and supplying oxygen to the processing chamber The animal euthanasia apparatus including the device, the device for controlling the anesthetic gas concentration in the processing chamber, and the device for controlling the oxygen concentration in the processing chamber operates as follows.

Animals to be killed are housed in the processing chamber.
Anesthetic gas is supplied into the process chamber along with the required amount of oxygen. The anesthetic gas concentration and oxygen concentration in the processing chamber are monitored. The anesthetic gas concentration is controlled so as to be a predetermined concentration, and the oxygen concentration is controlled so as not to be 20% or less, for example.

  When the animal inhales anesthetic gas, the animal becomes paralyzed due to anesthesia or sedation by the anesthetic gas and the central nervous system is paralyzed. At this point, the animal is not suffocating because of the supply of oxygen.

When the animal is anesthetized, asphyxia gas is supplied to the treatment chamber, and the oxygen concentration in the treatment chamber is lowered to a concentration that causes oxygen deficiency for the animal, for example, 10% or less.
By maintaining an oxygen deficiency in the treatment chamber, the animal dies.

(D) The gas chamber that temporarily stores each gas to be sent to the processing chamber is to temporarily store the gas supplied from the supply device (usually vaporized liquefied gas and at a low temperature). Therefore, the temperature can be made the same as or close to the room temperature (room temperature), and the room temperature of the treatment chamber can be changed unnecessarily without exciting the animal.

(E) Those equipped with a device for collecting anesthetic gas or asphyxiation gas can reuse the collected gas. Moreover, when the gas to collect | recovers is a gas which is easy to do harm to an environment depending on the quantity, it is beneficial on environmental conservation.

(A) The animal euthanasia apparatus and animal euthanasia apparatus according to the present invention is adapted to cause an animal to inhale an anesthetic gas and be anesthetized, and then to be in an oxygen deficient state to cause death. In other words, when the animal is in an oxygen deficient state, the nerve is already paralyzed by the anesthetic gas, so there is no pain. Thus, according to the present invention, animals can be euthanized.

(B) A gas chamber that temporarily stores each gas sent to the processing chamber has the same temperature as normal temperature (room temperature) by temporarily storing gas supplied from a supply device having a gas tank or the like. Or it can be brought close to room temperature, and it can prevent the animal from being excited by changing the room temperature of the treatment room.

(C) Those equipped with a device for collecting anesthetic gas or asphyxiation gas can reuse the collected gas. Moreover, when the gas to collect | recovers is a gas which is easy to do harm to an environment depending on the quantity, it is beneficial on environmental conservation.

  The present invention will be described in more detail based on the embodiments shown in the drawings.

FIG. 1 is a block diagram showing a first embodiment of an animal euthanasia apparatus according to the present invention.
The animal euthanasia apparatus M1 has a processing chamber 1 that houses animals to be killed. The processing chamber 1 has a structure that can be essentially sealed, but can be vented to the outside on the upper side. Further, nitrous oxide (N ₂ O) and oxygen (O ₂ ), which are anesthetic gases, can be supplied to the processing chamber 1. Forced intake / exhaust is possible.

  The nitrous oxide supply device 2 is connected to the processing chamber 1 by a supply path 3. In the supply channel 3, a nitrous oxide chamber 4 and a mixer 5 for temporarily storing nitrous oxide are provided between the nitrous oxide supply device 2 and the processing chamber 1. Further, a valve 6 is provided between the nitrous oxide supply device 2 and the nitrous oxide chamber 4, and an automatic control valve 7 is provided between the nitrous oxide chamber 4 and the mixer 5.

  The oxygen supply device 8 is connected between the mixer 5 and the automatic control valve 7 in the supply path 3 by a supply path 9. An oxygen chamber 10 for temporarily storing oxygen is provided in the supply path 9. A valve 11 is provided between the oxygen supply device 8 and the oxygen chamber 10, and an automatic control valve 12 is provided on the downstream side of the oxygen chamber 10.

  A nitrous oxide concentration control device 13 and an oxygen concentration control device 14 are connected to the processing chamber 1. The nitrous oxide and oxygen concentrations in the processing chamber 1 are detected and fed back to the automatic control valves 7 and 12. Thus, the concentration of each gas in the processing chamber 1 can be controlled to a predetermined concentration.

  An exhaust passage 15 is connected to the processing chamber 1. A recovery path 16 is provided between the exhaust path 15 and the supply path 3 on the downstream side of the valve 6. In the path of the recovery path 16, a blower 17 and a nitrous oxide recovery device 18 that recovers nitrous oxide from the gas extracted from the processing chamber 1 are provided. The nitrous oxide recovered by the nitrous oxide recovery device 18 is returned to the nitrous oxide chamber 4.

(Function)
With reference to FIG. 1, the driving | running method and effect | action of the animal euthanasia apparatus M1 are demonstrated.
(1) Nitrous oxide (N ₂ O) is sent from the nitrous oxide supply device 2 to the nitrous oxide chamber 4 and filled to a predetermined pressure. Further, oxygen (O ₂ ) is sent from the oxygen supply device 8 to the oxygen chamber 10 and filled until a predetermined pressure is reached. By temporarily storing each gas in the chamber, the temperature of the low temperature gas can be made equal to or close to room temperature (room temperature), and the room temperature of the processing chamber 1 can be changed unnecessarily to excite the animal. You can prevent anything.

(2) The animals to be killed are moved to the processing chamber 1 and housed.
(3) The automatic control valves 7 and 12 are controlled by the control of the nitrous oxide concentration control device 13 and the oxygen concentration control device 14, and each gas is sent from the nitrous oxide chamber 4 and the oxygen chamber 10 to the mixer 5 and mixed. To the processing chamber 1. The concentration of nitrous oxide and oxygen in the processing chamber 1 is monitored by the nitrous oxide concentration control device 13 and the oxygen concentration control device 14, and the amount of nitrous oxide is adjusted to 30 to 70 vol% (standard) : 40%), oxygen is controlled to be 20 to 40 vol% (standard: 25%). In addition, a gas adjusted to have this composition can be supplied into the processing chamber 1.

(4) When an animal inhales nitrous oxide, the central nervous system is paralyzed due to anesthesia or sedation by nitrous oxide, and it becomes sleepy. At this point, the animal is not suffocated because oxygen is supplied at approximately the same concentration as air.

(5) When a predetermined time (in this embodiment, 10 minutes: adjustable as appropriate) has elapsed, the supply of oxygen is stopped, and only nitrous oxide is supplied to the processing chamber 1. The concentration is controlled to be 90% or more. At this time, the oxygen concentration in the processing chamber 1 is 10% or less, which is a concentration that causes lack of oxygen for animals.

(6) By maintaining the oxygen deficiency in the processing chamber 1 for a predetermined time (in this example, 10 minutes: adjustable as appropriate), the animal dies.
(7) When the step of euthanizing the animal is completed, nitrous oxide and oxygen in the processing chamber 1 are drawn by the blower 17 and air is introduced into the processing chamber 1 from the upper ventilation portion. The drawn nitrous oxide and oxygen are released to the atmosphere through the exhaust passage 15. Alternatively, nitrous oxide is recovered by the nitrous oxide recovery device 18 and returned to the nitrous oxide chamber 4 for reuse. It is also possible to send air into the processing chamber 1 by the blower 17 and release the internal gas from the vent to the atmosphere.
(8) The animal after processing is sent to a post process (cremation process).

FIG. 2 is a block diagram showing a second embodiment of the animal euthanasia apparatus according to the present invention.
The animal euthanasia apparatus M2 is the same as the animal euthanasia apparatus M1, except that the oxygen chamber 10 is not provided.
In FIG. 2, the same parts as those of the animal euthanasia apparatus M <b> 1 are denoted by the same reference numerals, and redundant description of the structure is omitted.

(Function)
Since the operation method and operation of the animal euthanasia apparatus M2 are roughly the same as those of the animal euthanasia apparatus M1, overlapping description will be omitted and only differences will be described.
Since the animal euthanasia apparatus M2 is not provided with the oxygen chamber 10, oxygen is sent directly to the mixer 5 via the valves 11 and 12.
In addition, since the ratio of oxygen sent to the mixer 5 is about 1/4 of nitrous oxide, there is not much influence on the temperature drop in the processing chamber 1.

FIG. 3 is a block diagram showing a third embodiment of the animal euthanasia apparatus according to the present invention.
The animal euthanasia apparatus M 3 is not provided with the oxygen chamber 10, the nitrous oxide chamber 4, and the nitrous oxide recovery device 18, and is provided with a nitrous oxide heater 19 instead of the nitrous oxide chamber 4. The difference from the animal euthanasia apparatus M1 is that the other structures are the same.
In FIG. 3, the same parts as those of the animal euthanasia apparatus M <b> 1 are denoted by the same reference numerals, and redundant description of the structure is omitted.

(Function)
Since the operation method and operation of the animal euthanasia apparatus M3 are generally the same as those of the animal euthanasia apparatus M1, duplicate description will be omitted and only differences will be described.
Since the animal euthanasia apparatus M3 is not provided with the oxygen chamber 10, oxygen is sent directly to the mixer 5 via the valves 11 and 12.
In addition, since the nitrous oxide heater 19 is provided instead of the nitrous oxide chamber 4, nitrous oxide sent to the mixer 5 can be efficiently heated, and even if low-temperature oxygen is sent to the mixer 5. There is no problem with respect to the temperature drop in the processing chamber 1.
Furthermore, since the nitrous oxide recovery device 18 is not provided, the nitrous oxide in the processing chamber 1 is released into the atmosphere.

FIG. 4 is a block diagram showing a fourth embodiment of the animal euthanasia apparatus according to the present invention.
The animal euthanasia apparatus M4 is provided with a carbon dioxide supply device 20 in addition to the animal euthanasia apparatus M1, and a supply path 21 connected from the carbon dioxide supply apparatus 20 to the mixer 5 includes a valve 22, a carbon dioxide chamber 23, It differs from the animal euthanasia device M1 in that an automatic control valve 24 is provided and a nitrous oxide abatement device 25 is provided in the exhaust passage 15, and the other structure is the same. is there.
In FIG. 4, the same parts as those of the animal euthanasia apparatus M <b> 1 are denoted by the same reference numerals, and redundant description of the structure is omitted.

(Function)
Since the operation method and operation of the animal euthanasia apparatus M4 are generally the same as those of the animal euthanasia apparatus M1, duplicate description will be omitted and only differences will be described.

  The animal euthanasia apparatus M4 stops supplying oxygen and nitrous oxide after a predetermined time has elapsed after the animal has inhaled nitrous oxide and is anesthetized. To supply. The nitrous oxide replacing the carbon dioxide is recovered by the nitrous oxide recovery device 18 and returned to the nitrous oxide chamber 4.

Then, the oxygen concentration in the processing chamber 1 is controlled to be 10% or less, which is a concentration causing lack of oxygen for animals. By maintaining the oxygen deficiency in the processing chamber 1 for a predetermined time in this way, the animal will die.
When the process of euthanizing the animal is completed, the carbon dioxide mixed with some nitrous oxide in the processing chamber 1 is processed by the nitrous oxide removing device 25, and the nitrous oxide is removed (to nitrogen and oxygen). Disassembled). The remaining carbon dioxide is released to the atmosphere.

FIG. 5 is a block diagram showing a fifth embodiment of the animal euthanasia apparatus according to the present invention.
The animal euthanasia apparatus M5 is provided with a carbon dioxide supply device 20, and a supply path 21 connected from the carbon dioxide supply device 20 to the mixer 5 is provided with a valve 22, a carbon dioxide chamber 23, and an automatic control valve 24. Further, a recovery path 16 is provided between the exhaust path 15 and the supply path 21 on the downstream side of the valve 22.

In the path of the recovery path 16, there are a blower 17, a nitrous oxide removing device 25 that removes nitrous oxide from the gas extracted from the processing chamber 1, and a carbon dioxide collecting device 26 that collects carbon dioxide. It is provided. The other structure is the same as the animal euthanasia apparatus M1.
In FIG. 5, the same parts as those of the animal euthanasia apparatus M <b> 1 are denoted by the same reference numerals, and redundant description of the structure is omitted.

(Function)
Since the operation method and operation of the animal euthanasia apparatus M5 are generally the same as those of the animal euthanasia apparatus M1, duplicate description will be omitted and only differences will be described.

The animal euthanasia apparatus M5 stops the supply of oxygen and nitrous oxide after the animal has inhaled nitrous oxide and is anesthetized and stops supplying oxygen and nitrous oxide. To supply.
Then, the oxygen concentration in the processing chamber 1 is controlled to be 10% or less, which is a concentration causing lack of oxygen for animals. By maintaining the oxygen deficiency in the processing chamber 1 for a predetermined time in this way, the animal will die.

  The nitrous oxide that replaces carbon dioxide is detoxified (decomposed into nitrogen and oxygen) by the nitrous oxide detoxifying device 25 and further sent to the carbon dioxide collecting device 26. Carbon dioxide in the gas is recovered by the carbon dioxide recovery device 26 and returned to the carbon dioxide chamber 23. Further, the remainder of the gas (nitrogen, oxygen or air) processed by the carbon dioxide recovery device 26 is released to the atmosphere.

  Note that the terms and expressions used in the present specification are merely explanatory and not restrictive, and do not exclude terms and expressions equivalent to the above terms and expressions. The present invention is not limited to the illustrated embodiment, and various modifications can be made within the scope of the technical idea.

The block diagram which shows the 1st Example of the animal euthanasia apparatus which concerns on this invention. The block diagram which shows the 2nd Example of the euthanasia apparatus for animals which concerns on this invention. The block diagram which shows the 3rd Example of the euthanasia apparatus for animals which concerns on this invention. The block diagram which shows the 4th Example of the euthanasia apparatus for animals which concerns on this invention. The block diagram which shows the 5th Example of the euthanasia apparatus for animals which concerns on this invention.

Explanation of symbols

M1, M2, M3, M4, M5 Animal euthanasia apparatus 1 Processing chamber 2 Nitrous oxide supply apparatus 3 Supply path 4 Nitrous oxide chamber 5 Mixer 6 Valve 7 Automatic control valve 8 Oxygen supply apparatus 9 Supply path 10 Oxygen chamber 11 Valve 12 Automatic control valve 13 Nitrous oxide concentration control device 14 Oxygen concentration control device 15 Exhaust passage 16 Recovery passage 17 Blower 18 Nitrous oxide recovery device 19 Nitrous oxide heater 20 Carbon dioxide supply device 21 Supply passage 22 Valve 23 Carbon dioxide Carbon chamber 24 Automatic control valve 25 Nitrous oxide abatement device 26 Carbon dioxide recovery device

Claims (8)

Anesthetized by inhaling anesthesia gas to the animal to be killed, then the treatment chamber (1) in which the animal is housed is oxygen deficient, causing the animal to die,
How to euthanize an animal. Anesthetize the animal to be killed by inhaling anesthesia gas, and then supply the anesthesia gas as it is into the treatment room (1) where the animal is housed to make it deficient, causing the animal to die It is characterized by
How to euthanize an animal. Anesthesia is performed by inhaling an animal to be killed with anesthesia gas, and then an oxygen-deficient gas is supplied into the treatment chamber (1) in which the animal is housed. Characterized by bringing the animal to death,
How to euthanize an animal. A treatment room (1) to kill animals;
A device (2) for supplying anesthetic gas to the processing chamber (1);
It is characterized by having,
Animal euthanasia equipment. A treatment room (1) to kill animals;
A device (2) for supplying anesthetic gas to the processing chamber (1);
An apparatus (20) for supplying asphyxia gas not containing oxygen to the processing chamber (1);
It is characterized by having,
Animal euthanasia equipment. A treatment room (1) to kill animals;
A device (2) for supplying anesthetic gas to the processing chamber (1);
An apparatus (20) for supplying asphyxia gas not containing oxygen to the processing chamber (1);
A device (8) for supplying oxygen to the processing chamber (1);
A device (14) for controlling the anesthetic gas concentration in the processing chamber (1);
A device (13) for controlling the oxygen concentration in the processing chamber (1);
It is characterized by having,
Animal euthanasia equipment. It is characterized by comprising gas chambers (4, 10, 23) for temporarily storing each gas sent to the processing chamber (1),
The animal euthanasia apparatus according to claim 4, 5 or 6. It is equipped with a device (18) for collecting anesthetic gas or asphyxiation gas,
The animal euthanasia apparatus according to claim 4, 5, 6 or 7.

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