JP3675608B2 - Blower device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a silencer for a blower in which the entire blower is housed in a housing provided with a sound absorbing material inside, and the release of sound generated by the blower to the outside is suppressed.
[0002]
[Prior art]
In recent years, various researches and developments have been conducted on the structure and shape of impellers in response to increasing demands for smaller and lighter blowers, higher discharge pressures and lower noise. At the same time, the silencer for storing them is also required to be small and light.
[0003]
Conventionally, in this type, there is a structure in which the entire blower is housed in a box equipped with a sound absorbing material inside, and the suction port and discharge port are guided to the outside by piping. There is also a partially double structure. References to this type of technology include Japanese Patent Application Laid-Open Nos. 61-259000 and 3-253800.
[0004]
[Problems to be solved by the invention]
Depending on the capacity and number of devices that use negative pressure or positive pressure supplied by the blower, two blowers may be required at the same time.
The present invention provides a compact blower device having a passage that accommodates two blowers and silences the discharge air and cooling air of the blower.
[0005]
[Means for Solving the Problems]
The blower device of the present invention includes a housing that houses a blower in one of the axial directions of the electric motor, a cooling fan for self-cooling in the other, and two blowers having a suction port and a discharge port in the lower part on the cooling fan side. As a basic means, the housing has a box shape, and the upper half has a first blower accommodating chamber and a control device room for accommodating two blower control panels. A first silencing passage chamber that introduces, silences, and discharges the air discharged from the first and second blowers to the outside of the housing; A second silencing passage chamber is provided for introducing, silencing and discharging the cooling air of the second blower out of the housing.
The silencer passage chamber is a resistance-type silencer passage chamber having means for imparting resistance to the air flow, and a sound absorbing material is adhered to the inner wall surface of the silencer passage chamber.
[0006]
The blower device includes a cooling air intake provided in a housing provided adjacent to the blower accommodating chamber, and an intake air chamber that is provided inside the intake and temporarily stores the taken-in air. The sound absorbing material is attached to the inner wall surface of the intake air chamber.
The blower device further includes a passage chamber for guiding cooling air disposed adjacent to the blower housing chamber to the second silencing passage chamber. The sound absorbing material is attached to the inner wall surface of the cooling air passage chamber.
The suction side of the blower includes a suction pipe communicating with a device to which negative pressure is supplied, an air filter, and a three-way valve. The three-way valve has a function of being switched when a device to which negative pressure is supplied is fully closed and supplying the outside air of the housing to the suction port of the blower.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
1 is a front view of the blower device of the present invention, FIG. 2 is a right side view of the blower device, FIG. 3 is a rear view of the blower device, FIG. 4 is a left side view of the blower device, and FIG. is there.
[0008]
The blower device shown as a whole by reference numeral 1 has a box-shaped housing 10, and the housing is movably supported by casters 12. The housing 10 has a vertically long box shape, a control device room 20 in the upper half, a storage room 30 for the first blower, a second blower storage room 40 in the lower half, and a resistance type. A silencer passage chamber 50 is provided.
[0009]
The control device room 20 accommodates a control panel including an inverter 61 for driving the first blower, a noise filter 62, an inverter 62 for driving the second blower, a noise filter 64, a breaker 65, a relay 66, and the like. .
A first blower 100 is housed in the first blower housing chamber 30 and is fixed to a member of the housing 10 via a vibration isolating rubber 102.
[0010]
The first blower 100 includes a motor casing 110 and a blower casing 120, and the blade 122 is driven by the rotor 112 of the motor. A fan 130 is attached to the opposite side of the rotor 112 from the blades 122 to cool the casings 110 and 120.
As a blower type, in addition to the illustrated vortex blower, various types of blowers such as a turbo blower are selected according to the purpose of use.
[0011]
The first suction pipe 150 disposed on one side of the housing 10 is connected to an external device by a hose or the like, and provides a negative pressure to the device.
The first suction pipe 150 communicates with the three-way valve 154 via the air cleaner 152. The three-way valve 154 is switched to suck in air outside the housing 10 when, for example, the device supplying the negative pressure is fully closed. By this action, the fully closed operation of the first blower 100 is prevented, and an excessive temperature rise of the exhaust air is prevented.
[0012]
The intake air that has passed through the three-way valve is sent to the suction port 156 of the first blower 100. The sucked air is pressurized in the blower casing 120 in a known manner, and the discharge port 158 is discharged. The discharge port 158 of the first blower 100 opens into the muffler passage chamber 50.
[0013]
A second blower 200 is housed in the second blower housing chamber 40 disposed in the lower half of the housing 10. The second blower 200 is fixed to the bottom plate member of the housing 10 via a vibration isolating rubber 202.
The second blower 200 includes a motor casing 210 and a blower casing 220, and the blades 222 are driven by the rotor 212 of the motor. A fan 230 is attached to the side of the rotor 212 opposite to the blades 222 to cool the casings 210 and 220.
As a blower type, in addition to the illustrated vortex blower, various types of blowers such as a turbo blower are selected according to the purpose of use.
[0014]
The second suction pipe 250 disposed on one side of the housing 10 is connected to an external device by a hose or the like, and provides a negative pressure to the device.
The second suction pipe 250 communicates with the three-way valve 254 via the air cleaner 252. The three-way valve 254 is switched to suck in air outside the housing 10 when a device that supplies negative pressure is operated, for example, in a fully closed state. By this action, the fully closed operation of the second blower 200 is prevented, and an excessive temperature rise of the exhaust air is prevented.
[0015]
The intake air that has passed through the three-way valve is sent to the suction port 256 of the second blower 200. The sucked air is pressurized in the blower casing 220 in a known manner, and the discharge port 258 is discharged. The discharge port 258 of the second blower 200 opens into the silencing passage chamber 50.
[0016]
A resistance-type muffler passage chamber 50 disposed in the lower half of the housing 10 is provided adjacent to the second blower housing chamber 40. The silencer passage chamber 50 includes a first resistance-type silencer passage chamber 52 that silences the exhaust sound of the two blowers, and a second resistance-type silencer passage chamber 54 that silences the cooling air sound of the two blowers. Both are divided by a partition wall 560.
[0017]
The first silencing passage chamber 52 is a space surrounded by a partition wall 560 between the side wall 530 of the housing 10 and the second silencing passage chamber 54, and wall portions 531, 532, 533 disposed inside. Thus, a plurality of resistance-type sound deadening chambers 521, 522, 523, and 524 are formed. A sound-absorbing material 300 is affixed to the walls of these silencers. As the sound absorbing material 300, a material that can withstand the temperature of exhaust gas and exhibits a sound absorbing effect is selected.
[0018]
Exhaust gas A ₁ from the discharge pipe 158 of the first blower 100 and the discharge pipe 258 of the second blower 200 is discharged into the first silencer chamber 521.
While the discharged exhaust gas A ₁ passes through the resistance-type silencer chambers 521, 522, 523, and 524 that are bent and disposed, the noise energy is buffered by the surrounding sound absorbing material and silenced. The silenced discharged exhaust is discharged to the outside through a first exhaust port 525 provided on the floor plate of the housing 10.
The second silencing passage chamber 54 disposed adjacent to the first silencing passage chamber 52 has a function of muting and discharging the cooling air for the two blowers 100 and 200.
[0019]
FIG. 3 shows an air flow path for cooling the first blower 100 mounted on the upper half of the housing 10.
A cooling air intake is provided on the wall surface of the back surface of the housing 10. The opening portion of the intake port 34 is covered with, for example, a mesh plate or the like to prevent foreign matter from entering.
[0020]
The outside air A ₂ taken in from the intake 34 is stored in the intake air chamber 32 at one end. The intake air chamber 32 has a box shape and is partitioned from the blower housing chamber 30 by a partition wall 320. A sound absorbing material 300 is attached to the surrounding wall of the intake air chamber 32, and the intake sound of the air is muted.
The air in the intake air chamber flows into the blower housing chamber 30 through an opening provided in the partition wall 320.
[0021]
The fan 130 of the blower 100 is driven by a motor and causes the pressurized air to flow along the motor casing 110 and the blower casing 120 to forcibly cool the heat generated in each part. A partition wall 360 provided facing the blower casing 120 divides the blower housing chamber 30 and the cooling air passage chamber 36. The air that has passed through the opening formed in the partition wall 360 flows through the passage chamber 36 to the lower side of the housing and flows into the second silencing passage chamber 54. A sound absorbing material 300 is stuck around the cooling air passage chamber 36 to absorb noise generated by the blower 100.
[0022]
The second resistance-type silencer passage chamber 54 is located between the side wall 540 of the housing 10 and the partition wall 560 between the first silencer passage chamber 52, and a plurality of silencer chambers 551 are provided by walls 541 provided therein. 552 is formed. A sound absorbing material 300 is stuck around each of the sound deadening chambers 551 and 552.
[0023]
The cooling air introduced into the second silencing passage chamber 54 is discharged outside through an opening 555 provided in the floor plate of the housing after the noise energy is buffered.
The second blower accommodating chamber 40 has a similar intake air chamber 42 and an outside air intake 44, and the fan 230 attached to the second blower forcibly air-cools the blower 200 and is used for cooling. ₂ has a structure that is sent to the muffler chamber 551 of the second silencing passage chamber 54.
[0024]
【The invention's effect】
As described above, according to the present invention, the resistance-type silencing passage chamber which accommodates two blowers and which silences the blower discharge air and the forced air purification air of the blower is compactly formed inside the box-shaped housing. Since it comprised, the blower apparatus with low noise and high space efficiency can be provided also when used in a building.
The two blowers can be operated at the same time or only one of them.
[Brief description of the drawings]
FIG. 1 is a front view of a blower device of the present invention.
FIG. 2 is a right side view of the blower device of the present invention.
FIG. 3 is a rear view of the blower device of the present invention.
FIG. 4 is a left side view of the blower device of the present invention.
FIG. 5 is a bottom view of the blower device of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Blower apparatus 10 Housing 20 Control apparatus room 30 1st blower storage room 40 2nd blower storage room 50 Silencer passage room 52 First silencer passage room 54 Second silencer passage room 100 First blower 130 Fan 150 Suction Pipe 152 Air Cleaner 154 Three-way Valve 156 Suction Port 158 Discharge Port 200 Second Blower 250 Suction Pipe 252 Air Cleaner 254 Three-way Valve 256 Suction Port 258 Discharge Port

Claims (9)

A blower on one side in the axial direction of the electric motor, a cooling fan for self-cooling on the other side, and a housing for accommodating two blowers having a suction port and a discharge port on the lower side of the cooling fan
The housing has a box-like shape, the upper half of the housing has a first blower housing chamber and two blower control panels, and the lower half has a second blower housing chamber. A silencer passage chamber is provided. The silencer passage chamber introduces, silences and discharges the air discharged from the first and second blowers to the outside of the housing, and cooling air for the first and second blowers. A blower device comprising a second silencing passage chamber that introduces, silences and discharges the air outside the housing.   2. The blower device according to claim 1, wherein the silencer passage chamber is a resistance-type silencer passage chamber having means for imparting resistance to the air flow.   The blower device according to claim 1, wherein a sound absorbing material is attached to an inner wall surface of the sound deadening passage chamber. 2. A cooling air intake port disposed adjacent to the blower housing chamber and provided on an outer wall of the housing, and an intake air chamber disposed inside the intake port for temporarily storing the taken-in air. Blower device.   The blower device according to claim 4, wherein a sound absorbing material is attached to the inner wall surface of the intake air chamber. The blower device according to claim 1, further comprising a passage chamber disposed adjacent to the blower housing chamber for guiding the cooling air to the second silencing passage chamber.   The blower device according to claim 6, wherein a sound absorbing material is adhered to the inner wall surface of the cooling air passage chamber.   The blower device according to claim 1, wherein the suction side of the blower includes a suction pipe communicating with a device to which negative pressure is supplied, an air filter, and a three-way valve.   The blower device according to claim 8, wherein the three-way valve is switched when a device to which negative pressure is supplied is fully closed to supply the outside air of the housing to the suction port of the blower.

Images