JPH07269465A - Air compressor - Google Patents

Abstract

PURPOSE:To prevent an excessive rise in ambient temperature in a package from occurring, in a package type air compressor. CONSTITUTION:A compressor body 2 and an air tank 3 are installed in a package 4, while a cooling duct 5 is installed in and around this compressor body 2, and cooling air is circulated around by a multiblade fan 8. An inlet fan motor 10 is installed as being opposed to an inlet port 6 of the cooling duct 5, and likewise an exhaust fan motor 12 is installed as being opposed to a corner part 5a and the air tank 3. On the basis of each detected temperature of a cooling air temperature sensor 13 and an outside air temperature sensor 14, the inlet fan motor 10 is operated by a controller 15 according to a temperature rise in the package 4, forcibly taking the outside air into the package 4, and further both the exhaust fan motors 11 and 12 are operated and air in the package 4 is forcibly exhausted and ventilation is expedited, whereby cooling efficiency is improved and thus an excessive rise in ambient temperature in the package 4 is prevented from occurring.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of an air compressor having a compressor body housed in a package.

[0002]

2. Description of the Related Art In an air compressor, a compressor main body for compressing air, a drive source for the compressor main body, an air tank for temporarily storing compressed air, a compressor such as an air dryer, etc. are housed in one package to save space. There are some that are designed to save space and reduce noise.

Conventionally, in such a package type compressor, a cooling duct is provided around the main body of the compressor, and cooling air is circulated in the cooling duct by a main body fan connected to a drive source of the compressor main body. It was designed to cool the compressor body. Further, there is a system in which an exhaust fan motor provided on the side wall of the package is operated after the operation of the air compressor is stopped to prevent the temperature inside the package from rising due to the stop of the main body fan.

[0004]

However, in the above-described conventional air compressor, since the compressor in the package is cooled only by the main body fan during operation, ventilation is not achieved when the machine is continuously operated for a long time. It becomes insufficient and the ambient temperature inside the package easily rises. Then, when the atmospheric temperature in the package rises, the temperature of the intake air of the compressor body rises, the amount of discharge air decreases, and the compression efficiency decreases. Further, the cooling efficiency decreases due to the temperature rise of the cooling air in the cooling duct. In particular, since the cooling air stagnates at the corners near the main body fan of the cooling duct, the surface of the casing of the compressor main body is likely to reach a high temperature, and the temperature rise near the cooling duct suction port poses a problem. And when a resin cooling duct is used,
Deformation may occur due to heat.

The present invention has been made in view of the above points, and an object of the present invention is to provide an air compressor which prevents an excessive rise in the ambient temperature in the package during operation.

[0006]

In order to solve the above problems, the present invention provides an air compressor in which a compressor body is housed inside a package having an intake port and an exhaust port.
An intake fan that introduces outside air into the package, a temperature sensor that detects a temperature inside the package, and a control device that operates the intake fan when the temperature detected by the temperature sensor exceeds a predetermined value are provided. Is characterized by.

[0007]

With this configuration, when the temperature detected by the temperature sensor exceeds a predetermined value during operation of the air compressor, the control device operates the intake fan to forcibly introduce the outside air into the package. , The cooling inside the package is promoted.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings.

As shown in FIGS. 1 to 3, an air compressor 1 is a compressor main body 2 for compressing air, a drive source (not shown) for the compressor main body 2, and the compressor main body 2 is discharged. An air tank 3 that temporarily stores compressed air is housed in a package 4. The air tank 3 is fixed to the lower part inside the package 4, and the compressor body 2 and its drive source are mounted on the upper part thereof.

A cooling duct 5 is provided around the compressor body 2. The cooling duct 5 is arranged so as to go around the circumference of the compressor main body 2 substantially, one end side is opened near the compressor main body 2 and forms a suction port 6, and the other end side is the back surface of the package 4. To the side wall on the side, and is connected to the exhaust port 7 of the package 4 and opened to the outside. Further, the cooling duct 5 is arranged such that the exhaust port 7 is located below the suction port 6.

A sirocco fan 8 is provided at the suction port 6, and the sirocco fan 8 is integrally attached to a pulley (not shown) mounted on the drive shaft of the compressor body 2 so as to be integrated with the compressor body. It is adapted to be driven by a drive source together with 2. An intake port 9 is provided below the exhaust port 7 on the side wall on the back side of the package 4.

An intake fan motor 10 as an intake fan for introducing outside air into the package 4 is provided on the side wall of the package 4 so as to face the suction port 6 of the cooling duct 5.
An exhaust fan motor 11 is provided so as to face the corner portion 5a near the suction port 6 of the cooling duct 5, and an exhaust fan motor 12 is provided so as to face the air tank 3. A cooling air temperature sensor 13 as a temperature sensor for detecting the temperature inside the package is provided at the suction port 6 of the cooling duct 5, and an outside air temperature sensor 14 is provided at the outer wall portion of the package 4. Then, the intake fan motor 10, the exhaust fan motors 11, 12, the cooling air temperature sensor 13 and the outside air temperature sensor 14 are connected to a control device 15, which controls the cooling air temperature sensor 13 and the outside air temperature sensor 14.
The operation of the intake fan motor 10 and the exhaust fan motors 11 and 12 is controlled based on the output signal of the.

Next, the intake fan motor 10 by the controller 15
The control of the operation of the exhaust fan motors 11 and 12 will be described with reference to FIGS. 4 and 5.

As shown in FIG. 4, the control device 15 controls the cooling air temperature T _n (n = 1,2) near the suction port 6 in the package 4 which is replaced by the cooling air temperature sensor 13 at a predetermined cycle ST. , 3,
...) and the outside air temperature t _n detected by the outside air temperature sensor 14.
Based on (n = 1,2,3, ...), the operations of the intake fan motor 10 and the exhaust fan motors 11 and 12 are controlled according to the following conditions.

That is, normally, the intake fan motor 10 and the exhaust fan motors 11 and 12 are stopped, and as shown in FIG. 5, the difference between the cooling air temperature T _n and the outside air temperature t _n exceeds a predetermined set value A. when large _{(T n -t n> a)} , to operate the suction fan motor 10. When the cooling air temperature T _n is higher than the predetermined package target temperature B (T _n > B) and the cooling air temperature T _n is higher than the cooling air temperature T _n-1 detected in the previous cycle (T _n − T _n-1 > 0), that is, when the cooling air temperature T _n tends to rise, the intake fan motor 10 and the exhaust fan motors 11 and 12 are operated.

The operation of the present embodiment configured as described above will be described below.

When the operation of the air compressor 1 is started, the sirocco fan 8 is rotated by the operation of the drive source of the compressor body 2. As a result, the air in the package 4 is sucked into the cooling duct 5 through the suction port 6, circulates around the compressor body 2 to directly cool the compressor body 2, and then is discharged from the exhaust port 7 to the outside. . At the same time, the outside air is introduced into the package 4 through the intake port 9 so that the package 4 is ventilated.

When the ambient temperature inside the package 4 rises due to the operation of the compression device and the difference between the cooling air temperature T _n and the outside air temperature t _n becomes larger than a predetermined set value A, the control signal from the control device 15 causes the intake fan to operate. The motor 10 operates and the outside air is forcibly introduced into the package 4 to cool the inside of the package 4. At this time, since the intake fan motor 6 is provided so as to face the suction port 6 of the cooling duct 5, low-temperature outside air can be directly circulated in the cooling duct 5 to effectively cool the compressor body 2. can do.

Further, the cooling is insufficient, the cooling air temperature T _n is higher than the predetermined target temperature B in the package, and the cooling air temperature T _n is higher than the cooling air temperature T _n-1 detected in the previous cycle. At that time, that is, when the cooling air temperature T _n tends to increase,
The intake fan motor 10 and the exhaust fan motors 11, 12 are operated by the control signal of the control device 15, and in addition to the forced intake by the intake fan motor 10, the exhaust fan motors 11, 12
Thus, the air in the package 4 is forcibly discharged to the outside to promote ventilation in the package 4. At this time, the corner portion 5a of the cooling duct 5 where the temperature easily rises due to the stagnation of the cooling air
The exhaust fan motor 11 is provided so as to face the air conditioner, and the exhaust fan motor 12 is provided so as to face the air tank 3 that stores the compressed air heated by adiabatic compression. It can be cooled and the cooling efficiency can be improved.

In this manner, the intake fan motor 10 causes the package 4 to move in accordance with the temperature rise in the package 4.
The outside air is forcibly introduced into the inside, and the exhaust fan motor
By forcibly discharging the air in the package 4 by 11 and 12 to promote ventilation, it is possible to improve the cooling efficiency and prevent the ambient temperature in the package from rising excessively, and thus the air compressor 1 The compression efficiency of can be improved.

[0021]

As described above in detail, the air compressor of the present invention is provided with the intake fan, the temperature sensor, and the control device for controlling the operation of the intake fan according to the temperature. When the temperature detected by the temperature sensor exceeds a predetermined value during the operation of, the control device operates the intake fan to forcibly introduce the outside air into the package,
Cooling in the package is promoted. As a result, it is possible to prevent the ambient temperature in the package from rising excessively,
As a result, it has an excellent effect that the compression efficiency can be improved.

[Brief description of drawings]

FIG. 1 is a perspective view of an air compressor according to an embodiment of the present invention.

2 is a plan view showing the arrangement of cooling ducts of the apparatus of FIG. 1. FIG.

3 is a rear view showing the arrangement of intake ports and exhaust ports of the apparatus of FIG.

4 is a diagram showing a method of sampling a cooling air temperature and an outside air temperature by a control device of the device of FIG.

5 is a diagram showing control contents by a control device of the device of FIG.

[Explanation of symbols]

 1 Air compressor 2 Compressor body 4 Package 7 Exhaust port 9 Intake port 10 Intake fan motor (intake fan) 13 Cooling air temperature sensor (temperature sensor) 15 Control device

Claims (1)

[Claims] 1. An air compressor having a compressor body housed in a package having an intake port and an exhaust port, an intake fan for introducing outside air into the package, and a temperature sensor for detecting a temperature in the package. An air compressor, comprising: a controller for operating the intake fan when the temperature detected by the temperature sensor exceeds a predetermined value.