KR101359146B1 - Vacuum cleaner - Google Patents

Abstract

The vacuum cleaner according to the present invention includes a housing 10 in which wheels 12 are disposed; A suction module 20 disposed inside the housing 10 and generating a vacuum to suck air; A suction port 32 is formed to suck dust and an injection hole 34 is formed to spray compressed air; A compression module (50) disposed inside the housing (10) to compress air exhausted through the suction module (20) and supply the compressed air to the injection hole (34); The head 30 and the housing 10 are connected to each other, the compressed air formed in the compression module 50 is supplied to the injection hole 34, and the head 30 is formed by the pressure formed in the suction module 20. And a connection module 40 that sucks air from the inlet 32 of the air inlet, compresses the air exhausted from the suction module 20, stores the compressed air in the compression tank 54, and then presses the compressed air by a user's operation. By spraying through the injection hole 34 has an effect of effectively separating and inhaling the foreign matter in close contact with the floor.

Description

Vacuum cleaner

The present invention relates to a vacuum cleaner, and more particularly to a vacuum cleaner capable of injecting compressed air.

The vacuum cleaner generates a vacuum inside the suction motor and sucks foreign substances such as dust from the outside through the pipe.It is composed of various capacities and sizes, so it can be used in various fields such as office, factory, bedroom, car interior, construction site, etc. Is being applied. Among these vacuum cleaners, techniques for using compressed air have been proposed as a method for easily cleaning the corners or for easily treating agglomerated dusts.

Republic of Korea Utility Model Publication No. 1989-0006592 "Vacuum injector of vacuum cleaner" is a vacuum cleaner, it is provided with a fixed plate and a ventilation control plate inside the ventilation opening of the body and the air inlet is formed at the bottom of the suction opening to form a suction pipe There is a suction hole and a spray hole formed in the lower part of the body to connect the air injection pipe to the injection hole and the air inlet to rotate the external adjustment knob, the ventilation control plate is slid from one side of the fixed plate to suck or spray air It proposes the air injection value of the vacuum cleaner which is configured so that it can be made.

Republic of Korea Utility Model Publication No. No.1990-0007527 "Vacuum cleaner combined with air filling" installs a forward rotation motor with a conventional fan installed inside the body, and installs a front case that is easily removable on the front. It is proposed an air-filled vacuum cleaner by drilling guide grooves on both side walls of the tip opening and installing a slide plate having an air outlet pipe.

Republic of Korea Utility Model Publication No. 95-428 "Vacuum cleaner for combined use of air suction and injection" is a combined suction and power vacuum cleaner composed of a suction vacuum cleaner and an air injection device with a built-in compressor, the suction and power of the vacuum cleaner With a motor, a compressor power transmission device, and an air compression tank and an air device, it is proposed a vacuum suction combined vacuum cleaner that can inhale dust at the same time as cleaning the air.

An object of the present invention is to provide a vacuum cleaner that can inject compressed air.

One side of the present invention is a vacuum cleaner, the housing 10, the wheel 12 is disposed; A suction module 20 disposed inside the housing 10 and generating a vacuum to suck air; A suction port 32 is formed to suck dust and an injection hole 34 is formed to spray compressed air; A compression module (50) disposed inside the housing (10) to compress air exhausted through the suction module (20) and supply the compressed air to the injection hole (34); The head 30 and the housing 10 are connected to each other, the compressed air formed in the compression module 50 is supplied to the injection hole 34, and the head 30 is formed by the pressure formed in the suction module 20. It provides a vacuum cleaner including a connection module 40 for sucking air from the suction port 32 of the).

Here, the compression module 50 includes a compressor 52 for compressing the air exhausted from the suction module 20; It may include a compression tank 54 for storing the air compressed by the compressor (52).

In addition, the suction module 20 is composed of a suction motor 22 and the suction fan 24, the compressor 52 is also accompanied by the driving force of the suction motor 22 when the suction motor 22 is driven. It can be configured to rotate.

In addition, the compression module 50 further includes a compressed air hose 44 for supplying the compressed air of the compression tank 54 to the injection hole 34, the compressed air hose 44 is the connection module ( Can be arranged along 40).

In addition, the connection module 40 may include a compression module operating unit 47 to control the air of the compressed air hose (44).

The vacuum cleaner according to the present invention compresses the air exhausted from the suction module 20 and stores the compressed air in the compression tank 54 and injects the compressed air through the injection hole 34 by the user's operation to remove the foreign matter adhered to the floor. Effective separation and inhalation effect.

In addition, the vacuum cleaner according to the present invention is configured to operate together with the compression module 50 by the operating power of the suction module 20 for air suction has the effect of increasing the efficiency.
In addition, the vacuum cleaner according to the present invention is provided with a suction module operation unit and a compression module operation unit in the length extension to adjust the suction pressure or the suction amount of the air sucked from the head, and to freely control the pressure of the compressed air is ejected through the injection hole It can be effective.

1 is a schematic diagram showing the air flow of the vacuum cleaner according to an embodiment of the present invention
Figure 2 is a side view of the vacuum cleaner according to an embodiment of the present invention
3 is a cross-sectional view of the housing of the vacuum cleaner shown in FIG. 1.
4 is a cross-sectional view of FIG.

Figure 1 is a schematic configuration diagram showing the air flow of the vacuum cleaner according to an embodiment of the present invention, Figure 2 is a side view of the vacuum cleaner according to an embodiment of the present invention, Figure 3 is a vacuum shown in Figure 1 The housing of the cleaner is shown in cross section, and FIG. 4 is a cross sectional view of FIG.

As shown, the vacuum cleaner according to the present embodiment, the housing 10, the wheel 12 is disposed, the suction module 20 is disposed inside the housing 10 and generates a vacuum to suck the air, The head 30 which sucks in the dust through the inlet 32 and injects compressed air through the injection hole 34, connects the head 30 and the housing 10 to the air through the suction module 20. A compression module for compressing the air discharged through the connection module 40 and the housing 10, and discharged through the suction module 20, and injecting the compressed air through the injection hole 34 ( 50).

The housing 10 is a dust container (15) for separating and storing the foreign matter sucked by the suction module 20, and the air connected to the connection module 40 and sucked through the head 30 to the dust container ( 15, and an inlet port (not shown) for discharging the air discharged from the compression module 50 to the outside.

The dust container 15 is detachably installed in the housing 10, and the foreign matter collected in the suction module 20 is stored by a cyclone method.

The suction port 11 connects the housing 10 and the connection module 40 to move the air moved through the connection module 40 to the suction module 20.

Here, the suction module 20 and the compression module 50 are disposed in the housing 10.

The dust container 15 connects the suction port 11 and the suction module 20, collects the foreign matter in the cyclone method, and guides the filtered air to the suction module 20.

The suction module 20 is composed of a suction motor 22 and the suction fan 24, the suction motor 22 rotates the suction fan 24 to form a vacuum in the suction module 20 The air is moved due to the formed vacuum.

Here, the dust container 15 and the suction fan 24 are connected so that the air of the dust container 15 is moved to the suction fan 24 and the air introduced into the suction fan 24 is the compression module 50. ) Is exhausted to the side.

The compression module 50 includes a compressor 52 for compressing the air exhausted from the suction module 20 and a compression tank 54 for storing the air compressed by the compressor 52.

The compressor 52 compresses and reuses the air exhausted from the suction module 20, and the compressed air is stored in the compression tank 54. In this embodiment, the suction motor 22 and the drive shaft (not shown) of the compressor 52 are formed to be connected to each other, the compressor 52 is operated when the suction motor 22 is driven, the efficiency of the vacuum cleaner To improve.

The compression tank 54 stores the air compressed by the compressor 52, and compressed air stored in response to a user's operation signal is injected through the injection hole 34 of the head 30. To this end, the compression tank 54 and the injection hole 34 are connected through a compressed air hose (44).

The connection module 40 has a hose part 42 connected to the suction port 11 of the housing 10, a length extension part which connects the hose part 42 and the head 30 and has a handle 41. Includes 45.

The length extension part 45 is provided with a suction module operation part 46 for adjusting the rotation stage of the compression motor 22 and a compression module operation part 47 for opening and closing the compression tank 54, respectively.

The user controls the suction pressure or the suction amount of the air sucked from the head 30 by adjusting the rotation speed of the suction motor 22 by operating the suction module operation unit 46.

In addition, the user operates the compression module operating unit 47 to open and close the compressed air hose 44 so that the compressed air ejected from the compression tank 54 passes through the compressed air hose 44 to the injection hole 34. To be discharged.

The compressed air hose 44 connects the compression tank 54 and the injection hole 34, and is disposed in the hose part 42 and the length extension part 45 in this embodiment.

The pressure tank 51 is disposed in the compression tank 54, and the controller (not shown) of the vacuum cleaner determines whether the compressor 52 is operated according to the pressure value detected by the pressure sensor 51. do. That is, when the value detected by the pressure sensor 51 is more than a predetermined value, the operation of the compressor 52 is stopped. In addition, a pressure valve (not shown) is disposed in the compression tank (54), and when the internal pressure of the compression tank (54) is greater than or equal to a predetermined value, the pressure valve is opened to discharge a predetermined amount of compressed air. Prevent damage.

Hereinafter, the operation of the vacuum cleaner according to the present embodiment will be described in more detail with reference to the accompanying drawings.

First, a user operates the suction module operation unit 46 to operate the suction module 20, and the air is sucked into the suction port 32 of the head 30 by a vacuum formed by the operation of the suction module 20. Is inhaled.

Here, the air sucked through the suction port 32 of the head 30 is moved to the suction port 11 of the housing 10 through the length extension part 45 and the hose part 42, and then the dust container 15. ), Through the suction fan 24 and the suction motor 22 is exhausted to the compression module 50 to complete the process of sucking the foreign matter.

The compression module 50 compresses the air exhausted from the suction module 20 and stores the compressed air in the compression tank 54.

Thereafter, the user operates the compression module operating part 47 at a place where it is difficult to separate foreign substances even using a general vacuum cleaner such as a corner of a room, a fiber of a carpet, and sprays compressed air through the injection hole 34.

In this case, the compressed air discharged through the injection hole 34 separates and scatters dust and adhered dust between the carpets, and immediately sucks and cleans foreign substances scattered through the suction port 32.

And when looking at the operation mode of the vacuum cleaner according to the present embodiment, only the suction module 20 is operated in a simple suction mode to suck the foreign matter, the suction module 20 and the compression module 50 is operated at the same time to remove the foreign matter. A scattering inhalation mode for inhalation and then inhalation, divided into a scattering mode for scattering the foreign matter by operating only the compression module 50, the user according to the purpose of cleaning the suction module operation unit 46 or compression module operation unit 47 The mode may be selected by operating at least one of the above.

On the other hand, in the present embodiment has been described with a vacuum cleaner as an example, otherwise may be applied to a cleaning robot or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, This is possible.

10 housing 11 suction port
15: dust box 20: suction module
22: suction motor 24: suction fan
30: head 32: inlet
34: injection hole 40: connection module
42: hose part 44: compressed air hose
45: length extension 46: suction module operation
47: compression module operation unit 50: compression module
52: compressor 54: compression tank

Claims (6)

In the vacuum cleaner,
A housing 10 in which wheels 12 are disposed;
A suction module 20 disposed inside the housing 10 and generating a vacuum to suck air;
A suction port 32 is formed to suck dust and an injection hole 34 is formed to spray compressed air;
A compression module (50) disposed inside the housing (10) to compress air exhausted through the suction module (20) and supply the compressed air to the injection hole (34);
The head 30 and the housing 10 are connected to each other, the compressed air formed in the compression module 50 is supplied to the injection hole 34, and the head 30 is formed by the pressure formed in the suction module 20. Including a connection module 40 for sucking air from the inlet 32 of
And a length extension part 45 having a suction module operation part 46 for adjusting the rotational stage of the compression motor 22 and a compression module operation part 47 for opening and closing the compression tank 54.
The compression module 50 is
A compressor (52) for compressing the air exhausted from the suction module (20); Compression tank 54 for storing the air compressed by the compressor 52,
The compression module 50 further includes a compressed air hose 44 for supplying the compressed air of the compression tank 54 to the injection hole 34, the compressed air hose 44 is the connection module 40 Along the
The suction module 20 is composed of a suction motor 22 and a suction fan 24, so that the compressor 52 is also rotated by the driving force of the suction motor 22 when the suction motor 22 is driven. Configured vacuum cleaner. delete delete delete The method according to claim 1,
The connection module (40) includes a vacuum module control unit (47) for controlling the air of the compressed air hose (44).
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