The present invention relates to a vehicle-mounted temperature control device which is installed in a cabin for a nap, etc. in a cab of a truck to blow off cooled or warmed air.
Conventionally, in a cab of an automobile, such as a truck, a bunk for getting sleep is provided in a cabin so that rest or sleep in a recumbent position can be obtained in this cabin for a nap in the case of long-distance transport, etc. When getting sleep, temperature and humidity conditions change depending on seasons or areas. Therefore, control has been performed by using thick bedding with high heat insulation performance or by using thin bedding with high moisture absorbency. Moreover, on high-temperature and high-humidity sultry nights in summer, a car air-conditioner is operated to control the air in the cab to secure comfortable sleep.
In the above methods, year-round adjustment of the bedding is complicated, power consumption becomes large in air conditioning the whole cab by the operation of a car air-conditioner, and an idling operation is needed. These have a great influence on global warming accompanying not only power consumption but discharge of large amounts of carbon dioxide gas.
For this reason, the idling stop of an automobile has in recent years been called for as an available measure for the reduction of carbon dioxide gas. As a cooling device to cope with idling stops, a refrigerant is cooled during operation, and cooling is performed by the refrigerant after an engine stop. However, since humidity increases due to frosting in methods using the refrigerant, a comfortable atmosphere cannot be obtained. As other measures, practically, visible accomplishments have not appeared, but a great environmental problem is caused.
Meanwhile, as shown in FIG. 12, Patent Document 1 discloses a configuration in which the air from an air conditioner (51) which has a heat exchanger (65) and a blower (70) is circulated into a sleeping bag (56) in which a space (54) where a human being (A) lies is formed so that the inside of the space is cooled, and thereby, the refrigerating machine itself is operated with a small amount of electric power so that environment pollution and waste of energy resources are suppressed.
Additionally, Patent Document 2 shown in FIG. 13 discloses the structure of an air circulation type mat (71) in which a heat exchanger is provided at one longitudinal end of a mat (76) which extends flatly and horizontally so as to supply heat-exchange air, and the supplied air flows through a breathable mat (77) so that a comfortable feeling for a human being (A) is obtained.
[Patent Document 1] JP-A-2007-098044
[Patent Document 2] JP-A-2007-105084
However, when the sleeping bag described in Patent Document 1, or the mat device described in Patent Document 2 is installed in a vehicle body of a truck, etc., there are a number of problems to be solved in that an air-conditioner along with the sleeping bag or the mat should be installed in a narrow cabin space, the installation configuration or installation operation becomes extremely difficult, and the processing of exhaust air or frosted water, or a configuration which prevents entry of noise or heat from the outside are needed.
The invention was made in consideration of the above circumstances, and the object of the invention is to provide a vehicle-mounted temperature control device capable of suppressing resource wasting or environmental contamination by an idling stop, an easily installed vehicle-mounted refrigeration unit which blows off cooled or warmed air to the inside of a vehicle, and selectively cooling or warming not only a napping cabin behind the driver's seat, but also the driver's seat.
In order to achieve the above object, the vehicle-mounted temperature control device of the invention includes a refrigeration unit having a refrigeration cycle in which a compressor, a condenser, and an evaporator to which driving electric power by a battery is supplied are annularly connected; a temperature control chamber formed from a heat-insulating wall body having a blowoff air trunk and a return air trunk and having a circulation fan and the evaporator in the refrigeration cycle housed therein; and a machine chamber in which the compressor, the condenser, and a radiation fan which cools the compressor and condenser are disposed. The refrigeration unit is attached to the inside of a napping cabin behind the driver's seat, and the cool air or warm air generated by the evaporator being blown off to either the driver's seat or the inside of the napping cabin, or both so that temperature is controlled.
According to the invention, comfortable sleep can be obtained in a state where the engine is turned off during napping, and not only the rear cabin but also the driver's seat can be selectively cooled or warmed. If a human being takes a short rest or short nap, he/she does not need to move into the rear cabin, and can easily obtain a comfortable surroundings even in the driver's seat.
One embodiment of the invention will now be described with reference to the drawings.
In the rear cabin (4), the refrigeration unit (2) is disposed along an outer wall at a rear position on the front passenger side, and a mat (6) on which a user (A) lies is installed so that the width direction of the vehicle body becomes the longitudinal direction with respect to the refrigeration unit (2).
The battery (5) is exclusively provided as a driving power source of the refrigeration unit (2) separately from a battery for the truck, is charged during the driving of the automobile engine, and is disposed at a lower portion of the vehicle body outside the rear cabin (4).
As shown in
A compressor (12) which compresses and discharges refrigerant which forms part of a refrigeration cycle (11), a condenser (13) which receives, radiates, and condenses the discharged high-temperature and high-pressure refrigerant, and a radiation fan (16) which cools high-temperature components, such as the compressor (12) and the condenser (13), are installed on a bottom plate (7a), which is a rigid body which forms a bottom portion of the outer plate (7), thereby forming a machine chamber (10).
As shown in
The compressor (12) which is a heavy load in the machine chamber (10) is biased toward one side in a width direction on the bottom plate (7a), and is fixed via vibration-absorbing cushion bodies. The rectangular parallelepiped-shaped condenser (13) in which a serpentine refrigerant pipe is fitted into a number of fins and the depth dimension is made small, is erected along a suction opening (7b) in which the front face of the condenser having a large area is formed on the front face of the outer plate (7), and a filter (18) is provided between the suction opening (7b) and the condenser (13) so as to shield from dust, etc.
As shown in
An upper space from the heat-insulating partition wall (8a) is used as a temperature control chamber (19) which generates cooled air or warmed air as a heat-insulating space in which a whole peripheral wall including a top face is formed by the heat-insulating wall (8), such as styrene foam. The evaporator (15) which is a portion of the refrigeration cycle (11) and which receives the refrigerant from the condenser (13) to evaporate the refrigerant during the cooling operation, thereby lowering the temperature of the refrigerant to generate cool air, is arranged in an erected state substantially in the central portion of the space.
Similarly to the condenser (13), the evaporator (15) also assumes a rectangular parallelepiped shape in which the depth dimension is made small from a serpentine refrigerant pipe and a number of fins fitted into the refrigerant pipe. At the back of the evaporator, the blower fan (20) including a sirocco fan which has a diameter narrower than the width dimension of the evaporator (15), and a casing (21) are erected abreast of the evaporator (15) at a flat surface portion of the heat-insulating partition wall (8a).
The top face of the heat-insulating partition wall (8a) on which the evaporator (15) is placed forms a gutter portion (22) which is inclined downward toward one side, and receives melting water of the frost adhering to the evaporator (15) the temperature of which has become a low temperature, and the water collected in the gutter portion (22) is guided to a drain pipe (22a) and drained to the outside via the inside of the lower machine chamber (10) from the exhaust port (7c).
A return air trunk (23), which sucks the air in the rear cabin (4) which is an object to be temperature-controlled into the temperature control chamber (19), is opened to an upper wall portion which is positioned slightly ahead of the erected position of the evaporator (15) in the heat-insulating side wall (8b) which forms one side wall of the temperature control chamber (19), and a blowoff air trunk (24) which blows off cool air to the rear cabin (4) is opened from the casing (21) of the blower fan (20).
A temperature sensor (27) is disposed at a portion of the return air trunk (23). The temperature sensor (27) detects the air temperature which has flowed and returned through the rear cabin (4), and controls the operation of the compressor (12) in the refrigeration unit (2) so as to supply the air cooled or warmed to a user's desired temperature into rear cabin (4), and detects load fluctuations caused by heat leakage with the ambient air, thereby controlling the inside of the rear cabin (4) in an always comfortable temperature state.
Additionally, an upper portion of the heat-insulating wall (8) of the top face of the temperature control chamber (19) is used as an electrical component housing portion (28), such as a board, and a control panel (29) is arranged at the front face of the temperature control chamber so as to control the operation of the refrigeration unit (2). For example, when a cooling operation is performed, the temperature control is made along with a high-capability and high-efficiency cooling operation by performing circulation such that temperature-controlled cool air is generated by controlling flow passages by the four-way valve (17) of the refrigeration cycle (11) in the refrigeration unit (2) so that the refrigerant from the compressor (12) is discharged to the condenser (13) and is evaporated in the evaporator (15), and this cool air is sent into the rear cabin (4) from the blowoff air trunk (24) by the blower fan (20), cools the napping space, and returns to the evaporator (15) in the temperature control chamber (19) via the return air trunk (23). Additionally, in the case of a warming operation, the temperature of air is made high by switching the evaporator (15) to the condensation side by the four-way valve (17), and circulation air is warmed by heat exchange so as to be blown off toward the rear cabin (4).
The napping space can obtain the temperature control effects for both cooling and warming by the employment of the four-way valve (17). However, when only the cooling action is used, a refrigeration cycle from which the four-way valve (17) is removed may be employed.
The refrigeration unit (2) configured as described above is bolt-fixed to the vehicle body bottom plate (4a) via the mount (9) as above. An opening is bored in the bottom plate (4a) of the vehicle body which faces the exhaust port (7c) formed at the bottom of the refrigeration unit (2), and a prismatic exhaust duct (30) is installed over this opening and the exhaust port (7c), and the lower portion of the exhaust duct (30) is fitted into the opening of the vehicle body bottom plate (4a) and is fixed so as to protrude downward from the bottom face of the vehicle body bottom plate (4a) by a predetermined dimension.
Since the exhaust duct (30) is installed between the mount (9) and the vehicle body bottom plate (4a), the exhaust air from the machine chamber (10) can be discharged to the outside of a vehicle by the shortest distance, and the cabin space can be more efficiently utilized without requiring a separate space for the exhaust duct (30).
In addition, a damper (31) which opens and closes a vertical communication passage is provided at the center of the inside of the exhaust duct (30). The damper (31) opens or closes a communication passage in the exhaust duct (30) by a rotational operation. When the refrigeration unit (2) has been driven, the damper is rotated by manual operation, or electrically according to the button operation of the control panel (29), to open the communication passage automatically so that the air of the upper machine chamber (10) can be exhausted to the outside of the vehicle. When the refrigeration unit is not driven, the communication passage is closed, so that noise which enters a vehicle from the outside of the vehicle during traveling can be blocked out. Especially when the refrigeration unit (2) is installed in an upper portion, etc. of an engine compartment, the heat-shielding effect can be exhibited.
Through the above configuration, cool air or warm air, which is temperature-controlled by the refrigeration unit (2) driven by the exclusive battery (5), is supplied to the rear cabin (4) on the basis of the user's setting by the control panel (29). Thus, a sleeping space that is always comfortable can be provided even under a variety of used environment conditions. Additionally, the effect that the amount of carbon dioxide gas emitted can also be greatly suppressed by stopping idling is exhibited.
Also, since the exhaust air when the refrigeration unit (2) has been driven can be discharged to the outside of the vehicle, the inside of the vehicle is not filled with heat, the exhaust duct (33) and the refrigeration unit (2) can be easily installed even in the narrow rear cabin (4), and entry of noise, rain, etc. from the outside can also be suppressed.
Additionally, the machine chamber (10) of the refrigeration unit (2) rises in temperature due to heat generation of the compressor (12) or condenser (13) during operation. Therefore, when the interior temperature of the rear cabin (4) also rises by heat transfer, and is used by a cooling operation, the cooling effect is inhibited. Thus, in this embodiment, as shown in
The heat-insulating shielding curtain (32) which is a partition generally also has a sound-insulating effect. In this case, the operation sound during the driving of the refrigeration unit (2) can be insulated, and a more comfortable sleep environment can be obtained.
In addition, as the shielding curtain (32) exists as a partition, the shielding curtain has a certain degree of heat-insulating effect even though the curtain is a thin curtain, and may not have a particularly large heat-insulating power. Additionally, if the shielding curtain is anchored to the inner wall surface of the rear cabin (4) by a surface fastener, etc., the gap can be reduced to raise heat-insulating and sound-insulating effects, the opening/closing or removal operation can also be easily performed.
Additionally, as shown in
At this time, the extension duct (26) has a shape which can be flexibly bent, for example is formed from a material in which a spiral core is provided in a tube formed from soft resin or a material having flexibility and heat insulation performance, such as a serpentine tubular body so that the length dimension thereof can be adjusted. Further, a through hole (34) is bored in the shielding curtain (32), and the extension duct (26) is inserted through the through hole and is pulled out into the cabin so that cool air or warm air is blown off to a specific location.
In addition, although the wind direction of the louver (33) may be changed manually, the position of a person may be detected by an infrared sensor, etc., and adjustment may be automatically made so that cool air is sent to a position according to, for example, the angle of reclining.
Additionally, since the rear cabin (4) to which cooled or warmed air is supplied is a comparatively narrow space, if the heat insulation performance of the peripheral wall of the rear cabin are improved, heat leakage decreases. As a result, internal temperature fluctuations can be made small, and cooling or warming effects can be more efficiently obtained with low power consumption. Additionally, as shown in
At this time, as shown in
In addition, a branching portion from the blowoff air trunk (24) is provided with a switching damper (36) which is a switching opening/closing means of the air trunk. The switching damper (36) stops a baffle plate at a predetermined position by the rotation of a stepping motor, etc. so that the control of feeding cool air to the air trunk of either the extension duct (26) or the second duct (34), or the air trunks of both the ducts can be easily performed, the blowoff position can thereby be easily changed or selected, and the usability is improved.
The invention is not limited to the configuration of the above embodiment. It is apparent that the end of an air feed duct, such as the extension duct (26) or the second duct (34), is provided so as to extend and connect to a seating portion (37) of the driver's seat (3) shown in
Next, an example in which this is adopted as the seating mat (38) of the driver's seat is shown in
The above embodiment has been configured to have air permeability near the outer surface of the seating portion (37), the seating mat (38), or the sleeping mat (6), the seat or the mat has only to have air permeability in its internal space, and can be formed from a porous material or fibers, and these mats may be covered with a cover which has air permeability.
Through the above configuration, not only the rear cabin (4) but also the driver's seat (3) and the passenger seat (3′) can be selectively cooled or warmed. If a human being takes a short rest or short nap, he/she does not need to move into the rear cabin (4), and can obtain a comfortable atmosphere easily even in the driver's seat (3) in a state where an engine is turned off.
Number | Date | Country | Kind |
---|---|---|---|
2007-290742 | Nov 2007 | JP | national |
2008-229394 | Sep 2008 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2008/069788 | 10/30/2008 | WO | 00 | 7/9/2010 |