WO2008001479A1 - Pet house - Google Patents

Abstract

A pet house where the temperature control etc. of its pet raising room can be performed at low energy cost with a failure of a cooling and heating device caused by a pet avoided. In a space under the roof of the raising room (100) of the pet house are arranged components forming an air conditioner which include a compressor (E), a heat exchanger (K) for cooling, a heat exchanger (A) for gas compression and heat radiation, fans (C, I), and a heater (J). The raising room (100) is cooled by a vapor compression refrigeration cycle using the compressor (E), heat exchanger (K) for cooling, heat exchanger (A) for gas compression and heat radiation, etc. and is heated by the heater (J). In cooling operation, drain water produced at the heat exchanger (K) for cooling is sent to an evaporation tray (H2) from a drain water tray (H1) and drawn up by an evaporation filter (B). Air with heat from the heat exchanger (A) for gas compression and heat radiation is applied to the evaporation filter (B) to evaporate the drain water.

Description

 Specification

 Pet Knowaus

 Technical field

 TECHNICAL FIELD [0001] The present invention relates to a pet house that provides a good breeding environment by adjusting the temperature of a breeding room for pets (companion animals) such as dogs and cats or adjusting the temperature and humidity.

 Background art

 Conventionally, in a breeding room such as a pet, temperature adjustment and humidity adjustment have been performed by a domestic air conditioner, blower, or natural wind!

 A technique related to the present invention is described in Japanese Unexamined Patent Publication No. 2000-157081.

 Patent Document 1: Japanese Unexamined Patent Publication No. 2000-157081

 Disclosure of the invention

 Problems to be solved by the invention

[0003] Temperature control and humidity control using household air-conditioning equipment has a large air-conditioning volume, so using such equipment for temperature control in pet breeding rooms requires more energy costs than necessary. It is uneconomical. In addition, air-conditioning equipment often fails due to pet manure or pets falling over the air-conditioning equipment. On the other hand, if you raise your pet outdoors !, your pet may get heat stroke during the hot summer months. In some cases, the pets cannot tolerate the severe cold in winter.

 [0004] Therefore, the present invention provides a pet house capable of adjusting the temperature of the pet breeding room or adjusting the temperature and humidity at a low energy cost while avoiding the failure of the cooling or heating equipment caused by the pet. Aim to do.

 Means for solving the problem

[0005] A first aspect of the present invention is a pet house for breeding pets,

 A breeding room to house pets,

And a cooling device that is disposed behind the ceiling of the breeding room and cools the breeding room using a vapor compression refrigeration cycle. [0006] A second aspect of the present invention is the first aspect of the present invention,

 The cooling device is

 A compressor for compressing a predetermined refrigerant in a gas;

 A first blower for taking in outside air;

 A first heat exchanger for cooling and cooling the refrigerant compressed by the compressor by blowing outside air from the first blower;

 A second heat exchange for vaporizing the refrigerant liquid in the first heat exchange;

 A second blower for taking in air from the breeding room and sending it to the second heat exchanger and returning the air that has passed through the second heat exchange to the breeding room.

 [0007] A third aspect of the present invention is the second aspect of the present invention,

 It further includes a heater arranged so that air to be returned to the breeding room by the second blower passes therethrough.

[0008] A fourth aspect of the present invention is the third aspect of the present invention,

 A detector that is disposed behind the ceiling of the breeding room and detects the temperature and humidity of the breeding room;

 And further comprising an electrical box that is disposed behind the ceiling of the breeding room and operates the compressor, the first and second blowers, and the heater based on the detection result of the detector. To do.

[0009] A fifth aspect of the present invention is the second aspect of the present invention, in which

 The second heat exchanger further includes an evaporation device for evaporating drain water generated by using heat generated by the compressor compressing the refrigerant.

 [0010] In such a configuration,

 The evaporator is

A first container for receiving drain water generated in the second heat exchanger; a second container disposed in the vicinity of the first heat exchanger; A conduit for transferring the drain water from the first container to the second container; and an evaporation filter that sucks up the drain water. The evaporative filter can be passed through the outside air that has passed through one heat exchanger.

 In such a configuration,

 The evaporator is

 A first container for receiving drain water generated in the second heat exchanger; a second container disposed in the vicinity of the first heat exchanger;

 A conduit for transferring the drain water from the first container to the second container; and a copper pipe for transferring the refrigerant compressed by the compressor to the first heat exchanger. It is good also as a structure containing the copper pipe arrange | positioned in the said 2nd container.

[0011] A sixth aspect of the present invention is the second aspect of the present invention,

 A machine room including a first room and a second room is provided behind the ceiling of the breeding room, and the first heat exchanger and the first blower are disposed in the first room,

 The first chamber has an intake port for taking in outside air by the first blower, and an exhaust port for discharging the outside air that has passed through the first heat exchanger,

 The second heat exchanger and the second blower are disposed in the second chamber;

 The second chamber has a circulation port for taking in air from the breeding room and a circulation port for returning the taken-in air to the breeding room after passing through the second heat exchanger. And

 The first chamber and the second chamber are partitioned by a partition that blocks air flow between the first chamber and the second chamber.

[0012] In such a configuration,

 The breeding room force preferably further includes a temperature detector that detects the temperature of the air taken in, and an electrical box that operates the compressor and the first and second blowers based on the detection result of the temperature detector. .

[0013] A seventh aspect of the present invention is the second aspect of the present invention,

The rearing room force Air is taken into the back of the ceiling and the force is the second heat. It is further characterized by further comprising an insecticide transpiration device disposed in the air flow path until it passes through the exchanger and is returned to the breeding room.

 [0014] In such a configuration, instead of or together with the insecticide transpiration device, a sterilization device or a deodorization device may be provided.

 The invention's effect

 [0015] According to the first aspect of the present invention, since only a small capacity space called a pet breeding room is cooled, compared to the case where the pet house is cooled using a home air conditioner or the like. Energy costs for adjusting temperature (or temperature and humidity) can be reduced. Therefore, it is possible to protect pets from heat stroke at low costs and during hot summer months. In addition, since the cooling device is located behind the ceiling of the breeding room, the pet does not come into contact with or close to the equipment that makes up the cooling device. Can be prevented.

 [0016] According to the second aspect of the present invention, the breeding room is cooled by operating the compressor and the first and second blowers. That is, the gaseous refrigerant is compressed by the compressor, and the compressed refrigerant is liquefied in the first heat exchanger that is blown outside air by the first blower. The liquid refrigerant is vaporized by the second heat exchanger, the surrounding air is cooled by the heat of vaporization at that time, and the cooled air is sent to the breeding room by the second blower.

 [0017] According to the third aspect of the present invention, by operating the heater and the second blower, not only cooling of the breeding room but also heating can be performed according to the season and external temperature. And since only a small space called a pet breeding room is air-conditioned, the temperature (or temperature and humidity) is adjusted compared to the air-conditioning of a pet house using household air conditioners. The energy cost for doing so can be reduced. Therefore, at low cost, pets can be protected from heat stroke in the hot summer months, and pets can be protected from severe cold weather in winter. In addition, since the air-conditioning apparatus is arranged behind the ceiling of the breeding room, it is possible to prevent the air-conditioning apparatus from being damaged due to the pet.

[0018] According to the fourth aspect of the present invention, the temperature of the breeding room is set by operating the compressor, the first and second blowers, and the heater based on the detection results of the temperature and humidity of the breeding room. And humidity can be adjusted automatically. [0019] According to the fifth aspect of the present invention, the drain water generated in the second heat exchanger during cooling evaporates in the pet house, and the drain water is not discharged from the pet house. The pet house can be used not only in the house. In addition, since the heat generated by the compressor compressing the refrigerant is used for evaporating the drain water, the drain water can be efficiently evaporated. Here, the drain water generated in the second heat exchange ^^ is received by the first container and transferred to the second container near the first heat exchanger via the conduit, and the drain water is discharged from the second container. The evaporating filter sucks up the air, and the first heat exchange heat can be sent to the evaporating filter. According to this configuration, the drain water can be evaporated more efficiently. Further, a copper pipe for transferring the refrigerant compressed by the compressor to the first heat exchanger is disposed in the second container, so that the heat of the refrigerant in the copper pipe is drained. Use it to evaporate water.

[0020] According to the sixth aspect of the present invention, compressed by taking outside air into the first chamber out of the machine room provided in the ceiling of the breeding room and blowing it to the first heat exchanger. The refrigerant liquefies and the outside air that has passed through the first heat exchange is also discharged to the outside. In addition, the air taken in from the breeding room is blown to the second heat exchanger in the second room to cool the air, and the cooled air is returned from the second room to the breeding room. In this way, all the equipment for cooling is placed in the machine room behind the ceiling, and the flow of outside air for releasing the compressed refrigerant and the flow of air for cooling the breeding room The machine room is configured to be separated from each other. Therefore, it is possible to operate the cooling device appropriately while isolating each device for cooling from the pet and avoiding the failure of the cooling device caused by the pet. In such a configuration, it is preferable to detect the temperature of the air taken in the breeding room force and operate the compressor and the first and second blowers based on the detected temperature. In this way, the temperature of the breeding room can be automatically adjusted during cooling.

[0021] According to the seventh aspect of the present invention, since the insecticide evaporation device is disposed in the air circulation channel for cooling the breeding room, the evaporated insecticide is used for the air for cooling. The air flow and the insecticidal function are realized at the same time. One type of infectious disease in dogs is Faria, which can be transmitted through mosquitoes and spreads easily in summer. In this case, the combination of the cooling function and the insecticidal function is effective. In such a configuration, a cooling function and a sterilizing function or a deodorizing function can be realized at the same time by providing a sterilizing apparatus or a deodorizing apparatus instead of or together with the insecticide transpiration apparatus. Can do.

 Brief Description of Drawings

 FIG. 1 is a perspective view schematically showing a configuration of a pet house according to an embodiment of the present invention.

 FIG. 2 is a plan view showing a machine room in the pet house according to the embodiment and a cooling / heating device (air conditioner) arranged in the machine room.

 FIG. 3 is a left side view showing the configuration of the pet house according to the embodiment.

 FIG. 4 is a right side view showing the configuration of the pet house according to the embodiment.

 FIG. 5 is a front view showing the appearance of the pet house according to the embodiment.

 FIG. 6 is a rear view showing the appearance of the pet house according to the embodiment.

 FIG. 7 is a view showing an air outlet and an air inlet for air conditioning provided on the ceiling of the pet house according to the embodiment.

 FIG. 8 is a plan view showing a configuration for evaporating drain water generated in the pet air conditioner according to the embodiment.

 FIG. 9 is a front view showing a configuration for evaporating drain water generated in the pet air conditioner according to the embodiment.

 FIG. 10 is a side view showing a configuration of a pet house according to a modification of the embodiment.

 FIG. 11 is a side view showing a configuration of a pet house according to another modification of the embodiment.

 FIG. 12 is a plan view showing another configuration for evaporating drain water generated in the pet air conditioner according to the embodiment.

 FIG. 13 is a side view showing the other configuration for evaporating drain water generated in the pet air conditioner according to the embodiment.

 Explanation of symbols

 [0023] A: Compressed gas heat dissipation heat exchanger (first heat exchanger)

 B ... Evaporation filter

C ... 1st blower D ... Compressor copper pipe

E: Compressor

F ... Gas compression tank

G: Cooling / heating air circulation port (first circulation port)

H 1 ... Drain water pan (first container)

H2- 'Evaporation pan (second container)

I ... 2nd blower

J… Heater

 K ... Heat exchanger for cooling (second heat exchanger)

 L ... Air circulation port (second circulation port)

 M… heat detector (thermostat) or temperature detector

Μ2 · · · Temperature · Humidity detector

 N: Electrical box

 O ... Garbage filter

 P: Open air

 Q… Drain pipe (pipe)

 Rl, R2… Partition of machine room

 S ... Machine room (behind the ceiling of the breeding room)

 U: Breeding room air

 V ... Waste filter

 W… Power supply 'Temperature setting switch

 X: Entrance / exit

 100… rearing room

 120… ceiling

 121… Cooling and air conditioning outlet

 122… Cooling and heating air conditioning inlet

 200… Roof

201… Room 1 202 '… Room 2

 203 '… Room 3

 221 '… Gable wall on the back side

 222 '… Gable wall on the front side

 231 '… exhaust port

 232 '… Inlet

 233 '… opening

 250 '• · · Electronic mosquito trap (insecticide transpiration device)

 BEST MODE FOR CARRYING OUT THE INVENTION

 Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

 FIG. 1 is a perspective view schematically showing a configuration of a pet house according to an embodiment of the present invention. FIG. 2 is a plan view showing a machine room in the petno and the mouse and an air conditioner (air conditioner) as a cooling / heating device arranged in the machine room. FIG. 3 is a left side view showing the configuration of this pet mouse. Fig. 4 is a right side view showing the structure of this pet house. FIG. 5 is a front view showing the appearance of this pet house. FIG. 6 is a rear view showing the appearance of this pet house. FIG. 7 is a diagram showing an air outlet 121 and an inlet 122 for cooling and heating provided on the ceiling of the breeding room 100 of this pet house. FIG. 8 is a plan view showing a compressed gas radiating heat exchanger A, an evaporation filter B, a blower C, and an evaporation tray H2 as components of an air conditioner provided in this pet house. FIG. 9 is a front view showing the compressed gas heat radiation heat exchanger A, the evaporation filter B, the blower C, and the evaporation tray H2.

 [0025] <1. Overview>

In the pet house according to this embodiment, an air conditioner as a miniaturized air conditioner is attached to the back of the ceiling of a pet breeding room such as a dog or a cat, and the air conditioner performs air conditioning. That is, with regard to cooling, the room is cooled by cooling the vaporization heat of the gas of the compressor (compressor) E. Heating is done by heater J. Such air conditioning is performed using a thermostat (heat sensor) or temperature detector M, so that the temperature and humidity of the breeding room are automatically managed. Note that the above structural force also excludes heater J. When left, the air conditioner in this embodiment becomes a cooling device.

 [0026] Drain water (condensation water) that also generates K power for the cooling heat exchanger that constitutes the air conditioner flows from the drain water tray HI to the evaporation tray H2 (see FIGS. 8 and 9) via the drain pipe Q. It is sucked up by the evaporation filter B and evaporated by the high temperature of the heat exchanger A and the blower of the blower C. In this way, the drain water is processed in the pet house. The drain pipe Q may be a hose that functions as a conduit for transferring drain water.

 [0027] In the present invention, there is no failure of the machine or electrical system due to pet manure or !, tampering, and so on. is set up.

 [0028] According to the pet house as described above, the temperature and humidity can be adjusted in a small space, thereby reducing the energy cost, and heat stroke in summer and coldness in winter when reared outdoors. You can protect your pet. In addition, since the various devices that make up the air conditioner for air conditioning are placed behind the ceiling of the breeding room 100, the device that makes up the air conditioner is caused by pets that do not fall over or be excreted by pets. Air conditioner failures can be avoided. In addition, the drain water generated during cooling evaporates in the pet-nous, eliminating the need to treat the drain water and allowing the pet house to be moved and used freely regardless of whether it is inside or outside the pet owner's house. It becomes.

 [0029] <2. Detailed configuration>

 As shown in FIGS. 1 and 3, in the pet house according to the present embodiment, a rectangular parallelepiped space is formed as a breeding room 100 for pets such as dogs and cats, and the ceiling 120 of the breeding room 100 A machine room S is formed on the back side. In this embodiment, the walls, roofs, ceilings, and floors for forming the breeding room 100 and the machine room S are manufactured using wooden plate members or the like! You can also make it using materials.

[0030] The machine room S is formed as a ceiling space surrounded by the ceiling 120, the roof 200, the front-side gable wall 222, and the rear-side gable wall 221 of the breeding room 100, and corresponds to an attic room. This machine room S is provided to accommodate equipment (machinery electrical box, etc.) constituting an air conditioner as an apparatus for air conditioning of the breeding room 100. More details The machine room S is divided into a first chamber 201, a second chamber 202, and a third chamber 203 by first and second partitions Rl and R2, and various devices constituting the air conditioner are shown in FIGS. They are arranged as shown in

[0031] The first chamber 201 is a room sandwiched between the rear-side gable wall 221 and the first partition R1, and this first chamber has a compressed gas heat dissipation heat exchanger as a first heat exchanger ^^. In addition, an evaporation filter Β, a first blower (fan) C, a compressor Ε, a gas compression tank F, and the like are arranged. The rear gable wall 221 forming the first chamber has an intake port 23 2 for taking in the outside air soot and an exhaust port 231 for discharging the taken outside air soot. In addition, heat exchanger Α, evaporation filter Β, and blower C are arranged in sequence as shown in Fig. 2 and Fig. 3. Further, below these heat exchangers Α, evaporation filters Β, and blowers C, an evaporation tray Η2 is provided for receiving drain water generated in the cooling heat exchanger の, which will be described later, via the drain pipe Q. . The first chamber 201 and the second chamber 202 are partitioned by a first partition R1, and the air flow between them is blocked. When the blower C operates, external force is also taken in through external dust through the dust filter 吸 気 and the intake port 232, and the external air Ρ, as shown by the dotted line in FIG. 2, is the heat exchanger Α, the evaporation filter Β, and the blower C. , And then exhausted to the outside through the exhaust port 231. That is, the dotted line in FIG. 2 shows the flow of cooling air with gas compression heat.

[0032] The second chamber 202 is a room sandwiched between the first partition R1 and the second partition R2, and the second chamber 202 includes a cooling heat exchange as a second heat exchange ^^. A heater (typically an electric heater) J and a second blower (fan) I are arranged in this order as shown in FIGS. Also, below the cooling heat exchanger, heater J and blower I, a drain water receiving tray HI is arranged as a first container for receiving drain water generated by the cooling heat exchange. The drain water received is transferred via the drain pipe Q to the evaporation tray H2 in the first chamber 201. In addition, a portion of the ceiling 120 that forms the lower surface of the second chamber 202 is provided with a cooling / heating air circulation port G as a first circulation port, and faces the heat exchanger K in the second partition R2. An opening 233 is provided in the portion to be performed. Further, the compressed gas heat radiation heat exchanger A in the first chamber 201 is connected to the second chamber via the compressor E. It is connected to the cooling heat exchanger K of 202, and as described later, the refrigerant can move from the cooling heat exchanger Κ to the compressed gas radiating heat exchanger A via the compressor ヽ. The Furthermore, the compressed gas heat dissipation heat exchange in the first chamber 201 is connected to the cooling heat exchange in the second chamber 202 via the copper pipe D and the gas compression tank F. The refrigerant can move from the heat dissipation heat exchanger Α to the cooling heat exchanger Κ.

 [0033] The third chamber 203 is a room sandwiched between the second partition R2 and the front gable wall 222, and the electrical box N attached to the front gable wall 222 is disposed in the third chamber 203. It has been done. In this electrical box N, electrical components for controlling the operation of each device (compressor E, blower C, I, heater J, etc.) constituting the air conditioner in machine room S are stored. These devices and the electrical box N are electrically connected to each other by lead wires or the like. In the present embodiment, the electrical box N is also electrically connected to a power supply temperature setting switch W attached to the upper part of the front outer wall surface of the tablet and the mouse as shown in FIG. In addition, an air circulation port L as a second circulation port is provided in a portion of the ceiling 120 that forms the lower surface of the third chamber 203, and a dust filter V is attached to the air circulation port L. Above the air circulation port L, a heat detector (thermostat) M is disposed, and this heat detector M is also connected to the electrical box N. When the blower J in the second chamber operates, the air U in the breeding room 100 is taken in through the air circulation port L, and the air U is the heat sensor M and the second one as shown by the dotted line in FIG. After passing through the opening 23 3 of the partition R, the cooling heat exchanger K, the heater J, and the blower I in this order, it returns to the breeding room 100 through the cooling / heating circulation port G. In other words, the dotted line in FIG. 3 shows the air flow for cooling and air conditioning in this pet house.

[0034] As described above, an air conditioner as an air conditioner arranged behind the ceiling of a pet house is adjusted to the temperature of the breeding room 100 by the heat sensor M when the power is turned on by an operation on the power / temperature switch W. Accordingly, the temperature of the breeding room 100 is automatically maintained at a predetermined temperature by turning on and off the air conditioner. Here, instead of the heat sensor M, a temperature detector (also denoted by the reference symbol “M”) may be provided. Hereinafter, the description will be made on the assumption of this. In this case, when the power is turned on and the temperature is set by an operation on the power / temperature switch W, the temperature detector M causes the breeding room to The temperature of the breeding room 100 is managed by detecting the temperature of 100 and controlling the operation of the air conditioner based on the detected temperature. That is, in the electrical box N, the operation of each device (compressor E, blower C, I, heater J, etc.) constituting the air conditioner is canceled so that the difference between the detected temperature and the temperature set by the power source temperature switch W is canceled out. To control.

 [0035] Here, when the detected temperature is higher than the set temperature, the electrical box N operates the compressor E and the fans C and I that cool the breeding room 100 using the vapor compression refrigeration cycle. Stop heater J. In this cooling operation, the gaseous refrigerant is compressed by the compressor E and then sent to the compressed gas radiating heat exchanger A, where it is cooled by the outside air P and becomes liquid. This liquid refrigerant passes through the gas compression tank F and is sent to the heat exchanger for cooling in the second chamber 202, where it is vaporized, and as a result of the heat of vaporization at that time, as shown by the dotted line in FIG. Circulating breeding room 100 air is cooled. At this time, water in the air is condensed and removed, so that the breeding room 100 is also dehumidified.

 [0036] As described above, moisture in the air is condensed due to the vaporization of the refrigerant in the cooling heat exchanger K, thereby generating drain water (condensed water). This drain water is received by the drain water tray HI provided below the cooling heat exchanger K, and is provided near the lower portion of the compressed gas heat dissipating heat exchange in the first chamber 201 via the drain nozzle Q. Evaporation pan H2 〖is transported. The drain water in the evaporation tray 受 け 2 is sucked up by the evaporation filter Β. As shown in FIGS. 8 and 9, this evaporative filter 配置 is disposed between the compressed gas heat dissipation heat exchanger and the fan C, and the air containing the heat of the compressed gas heat dissipation heat is supplied by the fan C. Receive (wind) in a relatively large area. As a result, the drain water sucked up by the evaporation filter B evaporates and is discharged to the outside through the exhaust port 231. In this embodiment, the drain water generated in the air conditioner is treated inside the PET NOUUS in this way, so the drain water is not discharged to the outside of the pet house! /.

[0037] When the temperature (detected temperature) of the breeding room 100 detected by the temperature detector M is lower than the set temperature, the electrical box N stops the compressor E and the first blower C, and breeds it. The heater J and the second blower I that heat the room 100 are operated. In this heating operation, the air in the breeding room 100 that circulates as shown by the dotted line in FIG. [0038] <3. Effect>

 As described above, in the present embodiment, only the pet's breeding room 100 and the small and capacity space are cooled or heated, so compared to the case where the pet house is cooled or heated using a home air conditioner or the like. The energy cost for adjusting temperature (or temperature and humidity) can be reduced. Therefore, at low cost, the pet can be protected from heat stroke in the hot summer season, and the pet can protect the harsh and cold power of winter.

 [0039] Further, in the present embodiment, various devices constituting the air conditioner for air conditioning are arranged in the machine room S (corresponding to the attic room) in the ceiling of the breeding room 100 (FIGS. 1 to 4). ), Pets do not come into contact with or close to the devices that make up the air conditioner. Therefore, it is possible to prevent the failure of the air conditioner due to pet contact or manure. In particular, devices equivalent to indoor units (cooling radiator K, blower I, etc.) in ordinary separation type (separate type) air conditioners as well as devices equivalent to outdoor units (compressed gas heat dissipation heat exchanger, blower C, etc.) ) Is located in the machine room S behind the ceiling and is in a state of being isolated from the pet, it is possible to reliably prevent the failure of the air conditioner caused by the pet. As shown in FIG. 2 and FIG. 3, in this embodiment, the device corresponding to the outdoor unit and the device corresponding to the indoor unit are not separated from each other in order to properly operate the air conditioner by the vapor compression refrigeration cycle. Arranged in the first chamber 201 and the second chamber 202 partitioned by R1, respectively, the air flow of the outside air P and the air flow U of the breeding room 100 are separated.

[0040] Further, according to the present embodiment, the drain water generated during the cooling operation is evaporated in the petnow (machine room S) and exhausted to the outside, so that the pet owner's house It can be used not only outdoors but also indoors. In other words, a pet house with a haircon can be freely moved and used regardless of inside or outside the house.

[0041] Furthermore, according to the present embodiment, cooling is performed using a vapor compression refrigeration cycle, and heating is performed using a heater (electric heater), so compared to the case where other methods are employed. Thus, both cooling and heating can be performed effectively. That is, according to the present embodiment, it is possible to provide a higher cooling capacity compared to the configuration of only a cooling device or a fan using a Bertge element, and heating is performed using the compressor E without using a heater. Compared to configuration High heating capacity can be provided. In this embodiment, the humidity is also adjusted by dehumidification during cooling.

 [0042] In the above-described embodiment, the force at which the heater J is provided for heating may be a pet house having only the cooling function by removing the heater J in the above-described configuration shown in Figs.

 [0043] <4. Variations>

 In the above embodiment, the force at which the heat sensor or the temperature sensor M is used to automatically manage the temperature of the breeding room 100. Instead, as shown in FIG. A temperature / humidity detector M2 that can detect both of them may be provided. In this case, based on the temperature and humidity of the breeding room 100 detected by the temperature / humidity detector M2, the refrigerant in the heat exchanger K for cooling is obtained so as to obtain the externally set humidity (desired humidity). It is possible to remove the moisture in the air by vaporizing the air and to heat the air after the moisture removal with the heater J so as to reach a set temperature (desired temperature).

 In the above embodiment, the air U in the breeding room 100 is circulated by the blower I for cooling or heating the breeding room 100 as shown in FIG. Therefore, it is conceivable to add an insecticidal function to the pet house by utilizing this air circulation that prevents pets such as dogs from being infected with infectious diseases through mosquitoes. For example, as shown in FIG. 10, a configuration in which an electronic mosquito trap 250 is provided at an appropriate position in the second chamber 202 corresponding to the air circulation channel for cooling and heating can be considered. The attachment position of the electronic mosquito trap 250 may be in the third chamber 203 as long as it is in the circulation channel. This electronic mosquito collector 250 is a kind of electric insecticide transpiration device that includes a heater using electric heat and heats the liquid insecticide or the insecticide impregnated into a plate-like material by heating with the heater. The insecticide evaporated from the electronic mosquito collector 250 circulates through the breeding room 100 together with the flow of air for heating and cooling. As a result, for example, the breeding room 100 can be cooled during hot summer, and at the same time, infectious pets such as mosquito ferraria (a type of infectious disease of dogs) can be protected. Since the infection of Ferrari is easy to spread in the summer, this combination of cooling and insecticidal functions is effective in the hot summer season.

[0045] Further, instead of the electronic mosquito trap 250 in the air circulation flow path for air conditioning, Together with this, a sterilization device or a deodorization device may be provided. As these sterilization apparatus or deodorizing apparatus, for example, an apparatus that disperses or sprays ions or drugs having a sterilizing action or a deodorizing action can be used.

 [0046] In the above embodiment, the drain water generated in the cooling heat exchanger K is transferred to the evaporating tray H2 near the lower portion of the compressed gas radiating heat exchanger A, and this evaporating tray H2 is evaporated. It is sucked and raised by the filter B and evaporates by receiving the wind containing heat from the heat exchanged heat of compressed gas (see Fig. 2, Fig. 8, Fig. 9). As described above, in the above embodiment, the heat generated by compressing the refrigerant with the compressor さ れ る is used for the evaporation of the drain water. However, the drain water is evaporated by another configuration using the same principle. Also good. FIG. 12 is a plan view showing another configuration for evaporating the drain water generated in the cooling heat exchanger Κ and transferred to the evaporating tray H2 near the lower portion of the compressed gas radiating heat exchanger 、. FIG. 13 is a side view showing the other configuration. In the above embodiment, the drain water evaporating device is constituted by the drain water receiving pan HI, the drain pipe Q, the evaporating pan H2, the evaporation filter B, and the blower C. The drain water evaporator is composed of the water tray HI, the drain nozzle Q, the evaporation tray H2, and the copper pipe 12 for transferring the refrigerant compressed by the compressor E to the compressed gas heat dissipation heat exchanger. A larger evaporation tray H2 than that in the above embodiment is used, and the copper pipe 12 is disposed so as to be submerged or in contact with drain water stored in the evaporation tray H2. In addition, as shown in FIG. 12, in order to increase the contact area between the drain water and the copper tube 12, the copper tube 12 is formed to meander in the evaporation tray H2. According to such a configuration, while the refrigerant having a high temperature by being compressed by the compressor E is sent from the compressor E to the compressed gas radiating heat exchange A, the high temperature refrigerant in the copper pipe 12 is drained to the drain water. Heat is applied, which causes the drain water to evaporate. In this way, the compressed refrigerant is cooled and the drain water is evaporated at the same time. Note that the drain water may be evaporated by combining the configuration shown in FIGS. 12 and 13 and the configuration using the evaporation filter B as in the above embodiment!

 Industrial applicability

[0047] The present invention can be applied to a pet mouse for raising pets such as dogs and cats.

SSZSZC / 900Zdf / X3d 91 6.M00 / 800Z OAV

Claims

The scope of the claims

 [1] A pet house for breeding pets,

 A breeding room to house pets,

 A cooling device disposed behind the ceiling of the breeding room and for cooling the breeding room using a vapor compression refrigeration cycle;

 A pet house.

 [2] A heater that is arranged behind the ceiling of the breeding room and warms the breeding room;

 A heat sensor disposed behind the ceiling of the breeding room and sensing the temperature of the breeding room, and

 The cooling device includes a compressor that compresses a gas as a refrigerant, cools the breeding room by cooling with the heat of vaporization of the refrigerant that is liquefied after being compressed by the compressor, and based on a detection result by the heat sensor The pet Knows according to claim 1, wherein the temperature and humidity of the breeding room are automatically managed by cooling and heating by the cooling device and the heater.

[3] The cooling device includes:

 A compressed gas heat radiating heat exchanger that liquefies the refrigerant in a gas state compressed by the compressor;

 A cooling heat exchanger for vaporizing the liquefied refrigerant;

 A drain water tray for receiving drain water generated in the cooling heat exchanger;

 An evaporation tray disposed in the vicinity of the compressed gas heat dissipation heat exchanger, a drain water tray force, a hose for transferring the drain water to the evaporation tray,

 An evaporating filter for sucking up the drain water in the evaporating tray, and a blower for sending air containing heat from the compressed gas heat dissipation heat exchanger to the evaporating filter;

 The pet house according to claim 2, further comprising:

[4] an electrical box used for operating the cooling device and the heater; and The pet house according to claim 3, wherein a machine is arranged behind the ceiling of the breeding room.

[5] The cooling device includes:

 A compressor for compressing a predetermined refrigerant in a gas;

 A first blower for taking in outside air;

 A first heat exchanger for cooling and cooling the refrigerant compressed by the compressor by blowing outside air from the first blower;

 A second heat exchange for vaporizing the refrigerant liquid in the first heat exchange;

 A second blower for taking in air from the breeding room and sending it to the second heat exchanger and returning the air that has passed through the second heat exchange to the breeding room;

 The pet house according to claim 1, comprising:

6. The petno or us according to claim 5, further comprising a heater arranged so that air to be returned to the breeding room by the second blower passes therethrough.

[7] A detector that is disposed behind the ceiling of the breeding room and detects the temperature and humidity of the breeding room;

 The electrical equipment box further comprising: an electrical box disposed on a ceiling of the breeding room and operating the compressor, the first and second blowers, and the heater based on a detection result by the detector. The listed pet house.

[8] The apparatus according to claim 5, further comprising an evaporation device for evaporating drain water generated in the second heat exchanger using heat generated by the compressor compressing the refrigerant. The listed pet house.

[9] The evaporator is

 A first container for receiving drain water generated in the second heat exchanger; a second container disposed in the vicinity of the first heat exchanger;

 A conduit for transferring the drain water from the first container to the second container; the second container force; an evaporation filter for sucking up the drain water;

 Including

In the second blower, the outside air that has passed through the first heat exchanger is converted into the evaporation film. The pet house according to claim 8, wherein the outside air is sent to the evaporation filter so as to pass through the filter.

 [10] The evaporator is

 A first container for receiving drain water generated in the second heat exchanger; a second container disposed in the vicinity of the first heat exchanger;

 A conduit for transferring the drain water from the first container to the second container; and a copper pipe for transferring the refrigerant compressed by the compressor to the first heat exchanger. A copper pipe disposed in the second container;

 The pet house according to claim 8, comprising:

[11] A machine room including a first and a second chamber is provided behind the ceiling of the breeding room, and the first heat exchanger and the first blower are disposed in the first chamber,

 The first chamber has an intake port for taking in outside air by the first blower, and an exhaust port for discharging the outside air that has passed through the first heat exchanger,

 The second heat exchanger and the second blower are disposed in the second chamber;

 The second chamber has a circulation port for taking in air from the breeding room and a circulation port for returning the taken-in air to the breeding room after passing through the second heat exchanger. And

 6. The pet house according to claim 5, wherein the first chamber and the second chamber are partitioned by a partition that blocks air flow between the first chamber and the second chamber.

 [12] A temperature detector for detecting the temperature of the air taken in the breeding room;

 An electrical box for operating the compressor and the first and second blowers based on a detection result by the temperature detector;

 The pet knife of claim 11, further comprising:

 [13] An insecticide disposed in the air flow path from the time when air is taken into the back of the ceiling from the breeding room until the air passes through the second heat exchanger and is returned to the breeding room. 6. The pet house according to claim 5, further comprising an agent evaporation device.

[14] Arranged in the air flow path from when air is taken into the ceiling behind the breeding room until the air passes through the second heat exchanger and is returned to the breeding room. The pet house according to claim 5, further comprising a sterilization apparatus.

 The breeding room force The deodorizing device disposed in the air flow path until the air is taken into the back of the ceiling and the force passes through the second heat exchanger and is returned to the breeding room. The pet house according to claim 5 comprising.