KR101759050B1 - A vacuum cleaner for building - Google Patents

Abstract

The present invention relates to a vacuum cleaner for a building.
Accordingly, the technical point of the present invention is to provide a method and apparatus for cleaning an interior of a building, such as a case where it is necessary to clean the interior of a building due to a cleaning service when constructing various types of apartments including an apartment, A cleaning operation to smoothly and easily perform subsequent coating processes, etc.) is carried out in such a manner that the waste can be easily and quickly disposed of in the respective layers Pressure vacuum air sucking mechanism. The vacuum air-sucking device is provided with a wing blower on one side thereof for jetting strong high-pressure air. The high-pressure air is converted into a high- The suction pressure is higher than that of the vacuum cleaner, so that the cleaning operation can be performed in a high-level (about 100 m) A cleaning device for minimizing dust and dust is provided to improve the cleaning site environment and furthermore to enable the non-dynamic vibrator to continuously clean the filter net in the chamber body without using a power source, It is possible to omit the replacement period of the filter network as well as to provide a convenient cleaning property to the operator, as well as to greatly improve the safety of the operator and the efficiency of on-site cleaning.

Description

[0001] A vacuum cleaner for building [0002]

The present invention relates to a method for cleaning an interior of a building due to a cleaning service during construction of various types of apartments including an apartment, To a vacuum cleaner capable of easily and quickly treating garbage, rubble, dirt, and the like generated in each layer in a process (such as a job of smoothly and easily coating a subsequent process such as a subsequent process). In the vacuum cleaner, a wing blower is formed on one side so as to inject strong high-pressure air. The high-pressure air is converted into a high-pressure vacuum suction structure by a positive pressure and a negative pressure difference in the vacuum air- It is formed to be able to perform cleaning work in high-rise (about 100 m or so) due to high pressure, And a cleaning device is provided to minimize the size of the filter net, thereby improving the cleaning site environment. Further, the non-dynamic vibrator can continuously clean the filter net in the chamber main body without using a power source. This ensures low- The present invention relates to a vacuum cleaner for a building, which is capable of omitting a replacement cycle of a vacuum cleaner,

Generally, the building cleaning work is to remove the garbage from each floor when constructing various apartment structures including apartment buildings. In general, the garbage is discarded to the lowest level through the duct connecting hole (sleeve) or elevator space Collecting it and disposing it.

In addition, the pouring work (process) is carried out to smoothly carry out bubble marks or pitting marks on the surface of a concrete structure such as an apartment, thereby facilitating subsequent paint work and final finishing work.

Thus, during the building cleaning or laying process, wastes such as garbage, rubble, and dirt are generated in the respective layers. These wastes are usually blown down and transferred directly through the bristles, or they may be blown off through the elevator installation space or through a separate sleeve through hole It was common to throw them downstairs.

However, such a cleaning treatment method must be carried from the upper layer to the lower layer directly through the manpower, so that the efficiency of cleaning is remarkably lowered. In addition, when throwing through a separate passage (elevator installation space, etc.) The dust and the dust which are caused by the dust are discolored.

In other words, there has been no way to quickly and reliably discard the waste generated during the construction of the building. To date, attention has focused on general waste treatment methods and building exterior wall cleaning in buildings that have been completely completed.

Therefore, in the recent construction industry, a practical treatment method for solving the cleaning problem occurring in the above-mentioned cleaning work is being discussed.

1. Korean Patent Publication No. 10-2009-0051786 (2009.05.25.)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is a technical object of the present invention to provide a method of cleaning a building, This is a work to correct the surface of the apartment. It is a job to smoothly and easily paint the subsequent process, such as the addition of the surface to the outer wall of the apartment once more easily and quickly. The present invention is directed to a method and apparatus for processing an image.

That is, according to the present invention, a wing blower is formed on one side so as to inject strong high-pressure air, and the high-pressure air is converted into a high-pressure vacuum suction structure by positive pressure and negative pressure difference in the vacuum air- (100 m or more) due to its high suction pressure. In particular, a cleaning device is provided so as to minimize dust and dust, thereby improving the cleaning site environment. Further, the non-motorized vibrator is provided with a filter mesh This enables low-cost and high-efficiency operation, as well as eliminating the replacement period of the filter net, providing convenient cleaning for the operator, Thereby improving the efficiency of the vacuum cleaner. It has its purpose.

In order to achieve the above object, the present invention provides a chamber body 120 having a built-in venturi tube 110, wherein the venturi tube 110 has a diameter from one side inflow hole 111 toward the discharge hole 112 And the chamber body 120 is formed to communicate with the inflow hole 111 side of the venturi tube in which the air supply pipe 131 is coupled to one side of the chamber body 120, A discharge port 140 is formed at the other side of the main body 120 so as to be connected to the discharge port 112 of the venturi tube and is connected to the inflow hole 111 of the venturi tube, 130 and the suction hose 151 coupled to the suction hose 151 is formed on the outer side of the chamber main body 120. The suction hose 151 is connected to the first and second opening / closing valves 160, ) Are sequentially formed on the basis of the suction port (150), and the suction nozzle The air inlet 151 and the air inlet 150 are formed to have a diameter of 1/5 to 1/2 of the diameter of the air supply mechanism 130, the air outlet 140 and the air outlet 112, A vacuum air conversion device 100 configured to generate a negative pressure inside the chamber body 120 when the air flows into the chamber main body 120 to induce high vacuum suction from the suction hose 151 at the positive pressure side; A wing blower 200 coupled to an outer end of the air supply pipe 131 of the air supply mechanism 130 to supply high-pressure air into the chamber body 120; The suction hose 151 is connected to an outer end of the suction hose 151 so as to form a suction pipe 310 in the form of a funnel for collecting dust contaminants. An extension cone 321 is provided on the outer side of the suction pipe 310 to suck dust and dust, A suction module (300) having an auxiliary suction pipe (320) having a suction port; The washing water pipe 410 is connected to the water tank 420 so that the washing water pipe 410 is connected to the first opening and closing valve 160 of the suction hose during the operation of the wing blower 200, When the valve 160 is opened, the water contained in the water tank 420 flows through the washing water pipe 410 into the inlet port 150, the inlet port 111 of the venturi tube, the outlet port 112, the outlet port 140, A cleaning device 400 configured to be sprayed with the dust reduction washing water while sequentially passing through the cleaning device 400; .

A non-dynamic vibrator 180 is disposed on one side of the filter net 121, and the non-dynamic vibrator 180 includes a plurality of blades (not shown) The rotating body 182 rotates about the shaft 183 with the rotating body 181 having the rotating shaft 181 formed thereon and the rotating body 182 is rotated by the suction air introduced through the suction port 150 via the suction hose, And a plurality of protruding ribs 184 are formed on both ends of the shaft shaft 183 in the longitudinal direction of the shaft shaft 183. The protruding ribs 184 of the spinning wheel 181 are connected to the hinge body 188 The other striking rod 189 strikes the outer circumferential surface of the filter net 121 and causes dust on the filter net surface to be adsorbed to the filter net 121 while continuously striking the one side stalk 187 of the link bar 186, .

The venturi tube 110 is formed to be capable of exchanging the venturi tube 110 having a different diameter according to the pressure setting. The venturi tube 110 is connected to the inflow hole 111 And the airtight packing 190 is formed with a fitting groove 191 at one side thereof and has a longitudinal sectional shape of '⊂' shape so as to be inserted into the outer peripheral surface of the inflow hole 111 side And a contact portion 192 is formed on one side of the outer circumferential surface of the hermetic packing 190 so as to protrude outward to abut against the inner wall of the chamber main body to induce airtightness, A wing shape, or a wavy shape.

As described above, the present invention is applicable to a case where the inside of a building is required to be cleaned during the construction of various types of common buildings including an apartment, or when the inside of a building is required to be cleaned, It is possible to easily and quickly treat garbage, rubble, dirt, and the like generated in each layer during the operation (the operation to smoothly and easily perform the coating process, which is a subsequent process).

That is, according to the present invention, a wing blower is formed on one side so as to inject strong high-pressure air, and the high-pressure air is converted into a high-pressure vacuum suction structure by positive pressure and negative pressure difference in the vacuum air- (100 m or more) due to its high suction pressure. In particular, a cleaning device is provided so as to minimize dust and dust, thereby improving the cleaning site environment. Further, the non-motorized vibrator is provided with a filter mesh This enables low-cost and high-efficiency operation, as well as eliminating the replacement period of the filter net, providing convenient cleaning for the operator, This has the effect of greatly improving the efficiency.

1 is a schematic view of a vacuum cleaner for a building according to the present invention,
Fig. 2 is an enlarged side sectional view of the vacuum air conversion apparatus of Fig. 1,
FIG. 3 is a view illustrating a use state of a building vacuum cleaner according to the present invention. FIG.
4 to 5 are views showing an example of a non-powered vibrator according to the present invention,
6 to 7 are views showing an example of the auxiliary non-powered vibrator according to the present invention,
8 to 9 are views showing an airtight packing according to the present invention,
10 is an enlarged view showing an example of a suction module according to the present invention.

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

1 to 3, the present invention mainly comprises a vacuum air conversion apparatus 100, a wing blower 200, a suction module 300, and a cleaning apparatus 400.

The vacuum air conversion apparatus 100 is provided with a chamber body 120 having a venturi tube 110 therein and the venturi tube 110 is connected to the discharge hole 112 from one side inflow hole 111 to the discharge hole 112 And is formed to have a cone shape whose diameter is narrowed.

At this time, the chamber main body 120 is formed with a supply mechanism 130 for connecting the air supply pipe 131 to one side thereof, and is formed to communicate with the inflow hole 111 side of the venturi tube.

That is, the other end of the air supply pipe is formed to be connected to the high-pressure air injection (discharge) side of the wing blower.

A discharge port 140 is formed at the other side of the chamber body 120 so as to communicate with the discharge hole 112 of the venturi tube.

At this time, the air discharge pipe exists for discharging garbage and dirt when vacuum cleaning is performed from a suction hose to be described later. A collecting member such as a saddle bag or a ton bag or a collection box is provided at the outer end of the air discharge pipe, .

At this time, an intake port 150 coupled with the suction hose 151 is formed on the outer side of the chamber body 120 between the inlet hole 111 of the venturi tube and the air supply mechanism 130.

That is, when the high-pressure air introduced through the air supply mechanism enters the chamber body, the venturi tube is moved to the narrow diameter discharge hole through the wide-diameter inlet hole, and the pressure of the venturi tube is reduced by the venturi principle or the venturi phenomenon, .

The suction hose 151 and the suction hole 150 are formed to have a diameter of 1/5 to 1/2 of the diameters of the air supply mechanism 130, the discharge hole 140 and the discharge hole 112, Pressure air is introduced into the chamber main body 120, a negative pressure is formed inside the chamber main body 120 to induce high-pressure vacuum suction from the end of the suction hose 151 in the atmosphere, which is a positive pressure side.

That is, the suction hose coupled to the suction port side is a kind of suction nozzle for vacuum cleaning. The suction hose is formed to have a narrow diameter relative to the air supply mechanism and the discharge port (and the discharge hole), and the vacuum pressure (suction pressure) A suction force for vacuum cleaning is generated. The suction pressure at this time may vary according to the standard and performance of the wing blow described later, but usually a high pressure air of 7 bar or more is generated by the vacuum air conversion device.

At this time, the suction hose 151 is formed with the first and second opening / closing valves 160 and 170 sequentially in the longitudinal direction with respect to the inlet port 150.

That is, the first on-off valve 160 is connected to the washing apparatus 400 described later, and the diameter of the washing water pipe 410 is narrower than the diameter of the suction hose, Vacuum suction is performed.

In addition, the chamber body 120 is formed so that the air supply mechanism, the discharge port, and the suction port are assembled and separated from each other by the air supply pipe, the air discharge pipe, and the suction hose.

This makes it possible to easily carry only the chamber body to each layer such as a lower layer of an upper layer of a building, and the remaining pipelines can be easily connected at the corresponding layer, so that usability is maximized.

The chamber main body 120 is provided with a filter net 121 and a non-powered vibrator 180 is provided on one side of the filter net 121.

At this time, the filter net is formed so as to have an arc-shaped cross section when viewed from above, and it is formed so as to block the backflow of dust particles such as dust among the dust and dirt introduced through the suction hose and the intake port toward the wing blower.

If the surface of the filter network is blocked by the adsorbent due to prolonged or frequent cleaning time, it is necessary to periodically clean the filter net because the high-pressure air injection performance of the wing blower is deteriorated.

4 to 5, the non-powered vibrator 180 causes the rotating body 182 having the plurality of blades 181 to rotate about the shaft shaft 183, and the rotating body 182 Is formed so that the blade 181 is rotated by the intake air introduced through the intake port 150 via the intake hose.

A shaft 185 having a plurality of projecting ribs 184 is formed at both longitudinal ends of the shaft shaft 183 and the projection ribs 184 of the shaft are rotatably supported by a link The other striking rod 189 strikes the outer circumferential surface of the filter net 121 and prevents dust and dirt from being adsorbed to the surface of the filter net while the one side striking rod 189 strikes one side of the hook 187 of the bar 186 do.

If necessary, it is also possible to provide a filter net on the inlet side of the venturi tube to prevent the dust from being discharged to the collection box through the discharge port (and the air discharge pipe) in the first place, and the non- It is also possible to make it available for use.

6 to 7, the non-powered vibrator further includes an auxiliary non-powered vibrator 500, and a plurality of vibrators (not shown) are provided on one surface of the filter net 121 A plurality of cleaning balls 510 may be disposed on the filter net 121 while branching coil springs 520 are branched for each of the cleaning balls 510 so that the cleaning balls 510 are generated from the wing blowers The coil spring 520 expands and contracts as it flows according to the flow rate of the high-pressure air, which is formed such that the surface contaminants are removed and removed by the flow and impact phenomenon by shaking or continuously hitting the filter net 121.

At this time, it is preferable that the cleaning ball is a steel bead shape of steel metallic material, and synthetic resin material is coated on the outer circumferential surface to reduce noise during impact.

In addition, the chamber body 120 is provided at one side thereof with an opening / closing door 121 so that the venturi tube 110 having a different diameter can be exchanged according to the pressure setting. The venturi tube 110 is connected to the inlet hole 111 And the airtight packing 190 is coupled to the outer circumferential surface.

As shown in FIGS. 8 to 9, the airtight packing 190 has a fitting groove 191 formed at one side thereof and a vertical cross-sectional shape of '⊂' so as to be inserted into the outer peripheral surface of the inflow hole 111, At one side of the outer periphery of the airtight packing 190, a contact portion 192 is formed so as to protrude outward to abut the inner wall of the chamber body to induce airtightness.

Accordingly, the contact portion 192 is formed of a protruding rib, a wing shape, or a wavy shape.

At this time, the ribs are formed so as to protrude from the inner circumferential surface of the chamber body at one or more equally spaced apart portions, and are formed so as to double the compressibility while being separated in one direction by elasticity in correspondence with the abutting surface of the chamber body.

In addition, the bent shape is an embossed shape in the form of a bone and an acid, and is formed to be capable of maintaining or securing the multi-stage airtightness by bending when it is in close contact with the inner circumferential surface of the chamber body.

The wing blower 200 is coupled to the outer end of the air supply pipe 131 of the air supply mechanism 130 to supply high-pressure air into the chamber body 120.

At this time, the wing blower is a device for generating high-pressure air, and it is preferable that the capacity and the size are variable according to the field.

10, the suction module 300 is coupled to an outer end of the suction hose 151 to form a suction pipe 310 in the form of a funnel to collect waste contaminants, And an auxiliary suction pipe 320 having an extension cone 321 is formed on the outer side to suck dust and dust to be scattered.

At this time, a grip is formed on one side of the outer circumferential surface of the suction pipe to improve work convenience.

Further, since the auxiliary suction pipe is a flexible pipe, it can be stretched or shrunk like a corrugated pipe and can not be pulled down by its own weight, so that the suction pipe can easily approach the path of dust or scum that is scattered during work, have.

At this time, the extension cone is formed to be detachable from the end of the auxiliary suction pipe, and is formed so as to be used while changing the size of the extension cone.

1, the washing device 400 is connected to the first opening and closing valve 160 of the suction hose so that the washing water pipe 410 is connected to the water tank 420 Closing valve 160 is opened during operation of the wing blower 200 so that water contained in the water tank 420 flows through the washing water pipe 410 into the air inlet 150 and the inflow hole 111 of the venturi tube, The discharge hole 112, the discharge port 140, and the air discharge pipe 141 in this order.

When the second on-off valve 170 is opened, the first open / close valve is opened together with the refuse and dirt flowing through the suction hose to discharge the washing water. The air discharge pipe of the air supply mechanism discharges waste, The water is sprayed so that the dust is not scattered.

In addition, the cleaning device may be configured such that the cleaning water pipe 410 is coupled to the first opening / closing valve 160 of the suction hose, and the cleaning water pipe 410 is connected to the water tank 420 When the second on-off valve 170 is closed during operation of the wing blower 200, the suction module side is closed, and at the same time, the first on-off valve 160 is opened to allow the water contained in the water tank 420 to pass through the washing water pipe 410 The air is exhausted through the intake port 150, the inflow hole 111 of the venturi tube, the discharge hole 112, the discharge port 140, and the air discharge pipe 141, .

That is, at the time of cleaning the water, the second opening / closing valve of the suction hose is closed to stop the use of the suction module, so that only the water of the cleaning device is used.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... Vacuum air conversion device 110 ... Venturi tube
111 ... Inlet ball 112 ... Outlet ball
120 ... chamber body 121 ... filter mesh
130 ... Feeding device 131 ... Air supply pipe
140 ... Outlet 141 ... Air outlet
150 ... intake port 151 ... suction hose
160 ... First open / close valve 170 ... Second open / close valve
180 ... non-powered vibrator 181 ... blade
182 ... Rotor 183 ... shaft shaft
184 ... projection rib 185 ... millet
186 ... link bar 187 ... hanging chin
188 ... hinge body 189 ... hitting rod
190 ... airtight packing 191 ... fitting groove
192 ... contact
200 ... Wing Blower 300 ... Suction Module
310 ... suction pipe 320 ... auxiliary suction pipe
321 ... extension cone 400 ... cleaning device
410 ... wash water pipe 420 ... water tank

Claims (3)

The venturi tube 110 is formed to have a cone shape whose diameter is narrowed from the one inflow hole 111 toward the discharge hole 112, The chamber main body 120 is formed with a supply mechanism 130 for connecting an air supply pipe 131 to one side thereof and is formed to communicate with the inlet hole 111 side of the venturi tube, The venturi tube is formed with a discharge port 140 to which the discharge port 141 is coupled and is formed to communicate with the discharge hole 112 side of the venturi tube and the chamber body 120 between the inflow hole 111 of the venturi tube and the air supply mechanism 130, The first and second on-off valves 160 and 170 are disposed on the outer side of the intake hose 151 so that the intake hose 151 is coupled to the intake hose 151, And the suction hose 151 and the suction port 150 are formed sequentially in the order of the air supply mechanism 130 and the discharge When the high-pressure air flows into the chamber body 120 through the air supply mechanism 130, the pressure inside the chamber body 120 is reduced by a factor of 1/5 to 1/2 of the diameter of the discharge chamber 140 and the discharge hole 112, A vacuum air-to-air converter 100 is formed to induce high-pressure vacuum suction from the suction hose 151 at the positive pressure side in the atmosphere. A wing blower 200 coupled to an outer end of the air supply pipe 131 of the air supply mechanism 130 to supply high-pressure air into the chamber body 120; The suction hose 151 is connected to an outer end of the suction hose 151 so as to form a suction pipe 310 in the form of a funnel for collecting dust contaminants. An extension cone 321 is provided on the outer side of the suction pipe 310 to suck dust and dust, A suction module (300) having an auxiliary suction pipe (320) having a suction port; The washing water pipe 410 is connected to the water tank 420 so that the washing water pipe 410 is connected to the first opening and closing valve 160 of the suction hose during the operation of the wing blower 200, When the valve 160 is opened, the water contained in the water tank 420 flows through the washing water pipe 410 into the inlet port 150, the inlet port 111 of the venturi tube, the outlet port 112, the outlet port 140, 141) are sequentially injected into the dust reduction washing water while passing through the washing apparatus (400); A vacuum cleaner for a building comprising:
A non-dynamic vibrator 180 is provided on one side of the filter net 121. The non-dynamic vibrator 180 includes a plurality of blades 181 The rotary body 182 is rotated by the suction air introduced through the suction port 150 via the suction hose so that the blade 181 is rotated by the suction air And a shaft 185 having a plurality of projecting ribs 184 is formed at both ends of the shaft shaft 183 in the longitudinal direction of the shaft shaft 183. The projecting ribs 184 of the spinning shaft 183 are rotatable with respect to the hinge body 188 The other striking rod 189 strikes the outer circumferential surface of the filter net 121 by the seesaw motion while the one side stalk 187 of the turning link bar 186 is continuously struck and the dust dirt is adsorbed on the filter net surface The present invention is characterized in that Vacuum cleaning device. delete delete

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