JPH07189912A - Dry compressed air supply device - Google Patents

Abstract

PURPOSE:To form a device in a compact size by reducing the number of parts. CONSTITUTION:A suction fan 7 is installed on the driving shaft of an air compressor 2. A duct 5 is provided for leading cooling wind generated by the fan 7 to an after cooler 3 and the condenser 42 of a refrigeration type dryer 4. It is thus possible to reduce the number of parts without being provided with a fan motor or a fan separately for cooling the after cooler 3 and the condenser 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dry compressed air supply device for supplying dry compressed air to an operating device.

[0002]

2. Description of the Related Art Conventionally, an air compressor connected to a compressor driving motor 80a, as shown in FIG. 3, has been used as a dry compressed air supply device used for supplying compressed air to an operating device that is not sensitive to humidity. It is known that it is composed of 80 and a refrigerating dryer 90 for dehumidifying and drying the compressed air compressed by the air compressor 80.

The refrigeration dryer 90 includes a refrigeration compressor 91 connected to a refrigerator driving motor 91a and a condenser 92.
And an expansion valve 93 and an evaporator 94. A condenser fan 92b driven by a condenser fan motor 92a is installed near the condenser 92. The discharge conduit 81 of the air compressor 80 is arranged so as to pass around the evaporator 94 of the refrigeration dryer 90, and then connected to an operating device. An aftercooler 82 is provided in the discharge pipe line 81 between the air compressor 80 and the refrigeration dryer 90. The aftercooler 82 is for reducing the load of the dehumidification mechanism of the refrigeration dryer 90 by sending the compressed air to the refrigeration dryer 90 after cooling the compressed air once, and in the vicinity thereof, the aftercooler fan motor 8 is provided.
An after-cooler fan 82b driven by 2a is installed.

In this dry compressed air supply apparatus, the compressed air compressed by the air compressor 80 is first cooled by the after cooler 8.
After being cooled at 2, the evaporator 94 of the refrigeration dryer 90 dehumidifies and supplies the compressed air as dry compressed air to the operating equipment.

[0005]

However, in the conventional dry compressed air supply apparatus described above, the fan 82 for cooling the after-cooter 82 and the condenser 92 of the refrigerating dryer 90 is used.
b and 92b, respectively, and these fans 8
2b and 92b are fan motors 82a and 9b, respectively.
It is configured to be driven by 2a. Therefore, the number of parts is increased, and the device is inevitably increased in size.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a dry compressed air supply device which can be made compact by reducing the number of parts.

[0007]

A dry compressed air supply apparatus of the present invention for solving the above problems includes an air compressor linked to a prime mover, and an aftercooler for cooling compressed air compressed by the air compressor. A dry compressed air supply device having a refrigeration compressor, a condenser, an expansion valve, and an evaporator, and a refrigeration dryer for dehumidifying and drying compressed air cooled by the aftercooler, wherein an output shaft of the prime mover A fan is attached to one of the input shafts of the air compressor, and a duct for guiding the cooling air generated by the fan to the aftercooler and the condenser is provided, and the aftercooler and the condenser are connected to the cooling air. It is characterized in that it is configured to be cooled by.

As a preferred embodiment of the dry compressed air supply apparatus of the present invention, cooling air generated by a fan can be introduced by a duct to cool the condenser and the aftercooler in order. Further, as a preferable aspect of the fan in this case, the fan can be a suction fan. In addition, as a preferred aspect of the duct, a branch portion may be provided in which cooling air that cools the aftercooler and the condenser merges or branches. Further, as a preferable aspect of the fan in this case, the fan can be a suction fan.

[0009]

In the dry compressed air supply apparatus of the present invention, a fan is attached to one of the output shaft of the prime mover and the input shaft of the air compressor, and the aftercooler and the condenser are cooled by the cooling air generated by this fan. Therefore, it is not necessary to separately provide a fan motor or a fan for cooling the aftercooler and the condenser, and the number of parts can be reduced.

Here, the temperature of the compressed air compressed by the air compressor is about 80 to 90 ° C., which is relatively higher than the temperature in the condenser of the refrigeration dryer. For this reason, in the dry compressed air supply apparatus of the present invention, when the cooling air generated by the fan is guided by the duct to cool the condenser and the aftercooler in order, the condenser with the lower temperature is used. Is cooled first, and then the aftercooler with the higher temperature is cooled, so the cooling capacity of the condenser with cooling air does not drop extremely as in the case of cooling in the reverse order. . Further, in this case, when the fan is a suction fan, there is no risk of sending air into the duct around the air compressor having a relatively high temperature as in the case of using a blower fan, and the air compressor is cooled. You can also

Further, in the dry compressed air supply apparatus of the present invention, when the duct is provided with a branching portion for converging or branching the cooling air for cooling the aftercooler and the condenser, respectively, the cooling air generated by the fan is afterfiltered. Since it can be directly led to the cooler and the condenser, respectively, the cooling efficiency in the aftercooler and the condenser can be increased. Furthermore, in this case, when the fan is a suction fan, there is no danger of sending air into the duct around the relatively high temperature air compressor as in the case of using a blower fan, and the cooling generated by the fan is eliminated. Since the air can be directly guided to the aftercooler and the condenser, respectively, it is possible to further increase the cooling efficiency in the aftercooler and the condenser, and it is also possible to cool the air compressor.

[0012]

EXAMPLES The dry compressed air supply apparatus of the present invention will be specifically described below with reference to Examples. (First Embodiment) As shown in the schematic view of FIG. 1, a dry compressed air supply apparatus of the present embodiment includes a drive motor 1 as a prime mover and an air compressor 2 linked to the drive motor 1.
And an aftercooler 3, a refrigerating dryer 4, and a duct 5. Refrigeration dryer 4
Is a refrigeration compressor 41, a condenser 42, an expansion valve 43,
And an evaporator 44.

A first pulley 1a attached to the drive shaft of the drive motor 1 and a second pulley 2a attached to the drive shaft of the air compressor 2 are connected by a V belt 6. A fan 7 is provided at the tip of the drive shaft (output shaft) of the air compressor 2.
Is attached. The fan 7 is a suction fan. An aftercooler 3 is provided in the discharge pipe line 21 between the air compressor 2 and the refrigeration dryer 4.
The after cooler 3 is for reducing the load of the dehumidifying mechanism of the refrigeration dryer 4 by sending the compressed air to the refrigeration dryer 4 after cooling it once.
Then, the discharge conduit 21 of the air compressor 2 is arranged so as to pass around the evaporator 44 of the refrigeration dryer 4 and then connected to an operating device.

Further, a duct 5 for guiding the cooling air generated by the fan 7 to the condenser 42 and the aftercooler 3 is provided in a substantially J shape so that the condenser 42 and the aftercooler 3 are cooled by the cooling air. Has been done. In this dry compressed air supply device, the compressed air compressed by the air compressor 2 is first cooled by the aftercooler 3 and then dehumidified by the evaporator 44 of the refrigerating dryer 4 to be used as an operating device as dry compressed air. Supplied.

In the dry compressed air supply apparatus of this embodiment, the fan 7 is attached to the drive shaft of the air compressor 2, and the aftercooler 3 and the condenser 42 are cooled by the cooling air generated by the fan 7. Therefore, it is not necessary to separately provide a fan motor or a fan for cooling the aftercooler 3 and the condenser 42, and the number of parts can be reduced. Further, the amount of cooling air generated by the fan 7 increases as the number of revolutions of the air compressor 2 increases, so that the cooling air in the after cooler 3 and the condenser 42 increases as the discharge capacity of the air compressor 2 increases. The cooling capacity can be increased.

Further, in the dry compressed air supply apparatus of the present embodiment, after the cooling air generated by the fan 7 cools the condenser 42, the aftercooler 3 having a higher temperature than the condenser 42 is cooled. It is configured. Therefore, after cooling the aftercooler 3 having a temperature higher than that of the condenser 42, the cooling capacity of the condenser 42 by the cooling air does not extremely decrease unlike the case of cooling the condenser 42. Further, since the fan 7 is a suction fan, there is no fear of sending air into the duct 5 around the relatively high temperature air compressor 2 as in the case of using a blower fan, and the cooling capacity of the cooling air is increased. It is also possible to cool the air compressor 2 with this cooling air.

(Second Embodiment) The dry compressed air supply apparatus of this embodiment shown in the schematic view of FIG. 2 has the same structure as the apparatus of the first embodiment except that the duct 5 is changed. . The duct 5 in this device is provided with a branching portion 5a that joins the cooling air generated by the suction fan 7 after passing through the aftercooler 3 and the condenser 42, respectively.
For this reason, the cooling air generated by the suction fan 7, that is, the cooling air generated by being guided from the outside air into the duct 5 can be directly guided to the aftercooler 3 and the condenser 42, respectively. It is possible to increase the cooling efficiency by the cooling air in 42.
Other functions and effects are similar to those of the device of the first embodiment.

In the above embodiment, the fan 7 is a suction fan, but the fan 7 can be a blow-out fan. In this case, since the air around the air compressor 2 having a relatively high temperature is introduced into the duct 5, the cooling capacity of the cooling air is slightly reduced as compared with the case of the suction fan. Further, in the above-described embodiment, an example in which the fan 7 is attached to the input shaft of the air compressor 2 that is interlocked with the drive motor 1 as a prime mover has been described, but a fan may be attached to the output shaft of the drive motor 1. It is possible.

[0019]

As described above in detail, in the dry compressed air supply apparatus of the present invention, a fan is attached to one of the output shaft of the prime mover and the input shaft of the air compressor, and the after-cooler and the cooler generated by the fan are used. Since the condenser is cooled, the device can be made compact by reducing the number of parts.

Further, in the dry compressed air supply apparatus of the present invention, when the cooling air generated by the fan is guided by the duct to cool the condenser and the aftercooler in order, cooling is performed in the reverse order. Since the cooling capacity of the condenser due to the cooling air does not extremely decrease as in the case of, the deterioration of the dehumidifying capacity of the refrigerating dryer due to the deterioration of the cooling capacity of the condenser can be prevented. Further, in this case, when the fan is the suction fan, the cooling capacity by the cooling air can be increased and the air compressor can be cooled as compared with the case where the blower fan is used.

Further, in the dry compressed air supply apparatus of the present invention, when the duct is provided with a branch portion for converging or branching the cooling air for cooling the aftercooler and the condenser, respectively, the cooling efficiency in the aftercooler and the condenser is improved. It is possible to increase. Furthermore, in this case,
When the suction fan is used as the fan, the cooling capacity by the cooling air can be increased and the air compressor can be cooled as compared with the case where the blower fan is used.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing an overall configuration of a dry compressed air supply device according to an embodiment of the present invention.

FIG. 2 is a schematic diagram showing an overall configuration of a dry compressed air supply device according to another embodiment of the present invention.

FIG. 3 is a schematic diagram showing an overall configuration of a conventional dry compressed air supply device.

[Explanation of symbols]

1 ... Drive motor 2 ... Air compressor 3
After-cooler 4 Refrigerating dryer 5 Duct 5a
... Branch part 7 ... Fan 41 ... Refrigeration compressor 42 ... Condenser 43 ... Expansion valve 44 ... Evaporator

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tatsuya Hirose 2-chome, Toyota-cho, Kariya city, Aichi Prefecture Toyota Industries Corporation

Claims (4)

[Claims] 1. An air compressor linked to a prime mover, an aftercooler for cooling compressed air compressed by the air compressor, a refrigeration compressor, a condenser, an expansion valve, and an evaporator.
In a dry compressed air supply device comprising a refrigeration dryer for dehumidifying and drying compressed air cooled by the aftercooler, a fan is attached to one of the output shaft of the prime mover and the input shaft of the air compressor, A dry compressed air characterized in that a duct for guiding cooling air generated by the fan to the aftercooler and the condenser is provided, and the aftercooler and the condenser are cooled by the cooling air. Supply device. 2. The dry compressed air supply apparatus according to claim 1, wherein the cooling air is guided by the duct to cool the condenser and the aftercooler in order. 3. The dry compressed air supply apparatus according to claim 1, wherein the duct has a branch portion where the cooling air for cooling the aftercooler and the cooling air for cooling the condenser merge or branch. 4. The dry compressed air supply apparatus according to claim 2, wherein the fan is a suction fan.