KR101581571B1 - An industrial vacuum cleaner using compressed air - Google Patents

Abstract

An industrial vacuum cleaner using compressed air according to the present invention comprises: a dust collection tank (10) having a moving means (12) disposed on a bottom thereof and a filter (16) whose upper portion is opened is disposed therein; a suction hose (20) wherein a suction means (22) is disposed on one end thereof, and the other end thereof is connected to the dust collection tank (10); a mounting plate (30) provided with a discharge hole (31) on a middle portion thereof and mounted on an upper portion of the dust collection tank (10); a lower case (42) provided with a through hole (41) on a middle portion thereof and mounted on an upper portion of the mounting plate (30); an upper case (46) provided with a space of a fixed size formed therein and mounted on the lower case (42); a sealing plate (50) provided with a penetration hole (52) and mounted on an upper portion of the lower case (42); and an air discharge device (60) comprising an air discharge pipe (62) which is provided with an inflow hole (61) formed on one side thereof and an annular air flow channel (63) connected to the inflow hole (61) therein and which is penetration-mounted on a support plate, an air injection end (66) having an opening/closing means (65), wherein a portion of one side thereof penetrates one side of the upper case (46) and is extended to the inside of the upper case (46), and an air inflow pipe (64) wherein a portion of one side thereof is connected to the inflow hole (61) and a portion of the extending other side thereof is connected to the portion of one side of the air injection end (66).

Description

[0001] The present invention relates to an industrial vacuum cleaner using compressed air,

The present invention relates to an industrial vacuum cleaner, and it is an object of the present invention to provide an industrial vacuum cleaner which not only has a risk of explosion due to a short circuit, but also sucks out the air that is discharged in the storage tank by using the compressed air, And more particularly, to an industrial vacuum cleaner capable of forming a stronger vacuum state therein.

The vacuum cleaner is a device for sucking foreign substances by using a blowing device. When the air inside the vacuum cleaner is forcibly discharged to the outside by a blower provided with a strong driving source, the pressure inside the vacuum cleaner is significantly lower than the external pressure. As the external air of relatively high pressure is drawn into the cleaner, foreign substances such as dust and dirt are sucked in with the outside air to clean up the surroundings.

6, as a typical constitution of a vacuum cleaner, an electric motor 430 is mainly used as a drive source of a currently proposed fan apparatus, as shown in the figure. That is, when the electric motor 430a is operated, the impeller 433 rotates by the rotational force of the motor to generate a suction force. The suction force generates a constant air flow inside the vacuum cleaner, And is sucked into the dust collecting apparatus. The foreign matter in the outside air introduced into the dust collecting apparatus is filtered by the filter, and the air filtered by the foreign matter is finally discharged through the exhaust pipe.

As described above, the electric motor is mainly used as a driving source in a vacuum cleaner because it is very convenient to use if it can receive power. However, there are cases where it is not possible to use the reason for safety even if there is a situation where the power can be supplied easily, such as a site where a work is performed using a cutting equipment or a site where a ship is dried. Because of the nature of these sites, there is a risk of fire due to short-circuited parts due to scattered parts of work pieces with sharp cross-sections, as well as explosion accidents due to residual vapor in the field, There is a serious problem.

Korea Patent No. 0210864, Korean Patent Publication No. 2011-0004510

It is an object of the present invention to provide an industrial vacuum cleaner capable of cleanly cleaning a work site by using an adjustable strong suction force, To provide a cleaner.

In order to achieve the above object, the present invention provides a dust collecting apparatus, comprising: a dust collecting tank (10) having a moving means (12) at its bottom and a filter (16) A suction hose 20 at one end of which is provided with suction means 22 and the other end of which is in communication with the dust tank 10; A mounting plate (30) having a discharge hole (31) formed at a central portion thereof and mounted on the dust collecting tank (10); A lower case (42) formed with a through hole (41) at a central portion and fixedly coupled to the upper portion of the mounting plate (30); An upper case 46 fixedly coupled to the lower case 42 with a predetermined size space formed therein; A sealing plate 50 provided with a through hole 52 and fixedly coupled to the upper portion of the lower case 42; And an air discharge pipe 62 connected to the through hole 52 of the sealing plate 50. The air discharge pipe 62 is connected to the air discharge hole 61. The air discharge hole 62 is formed on the inner side of the air discharge hole 62, The air injection port 66 is connected to the high pressure air injection hose 1 at one side where the opening and closing means 65 is provided and the other side passes through one side of the upper case 46 and extends into the upper case. And an air inlet pipe (64) connected to the inlet hole (61) at one side thereof and connected to one side of the air inlet port (66) at the other side thereof. And the present invention is characterized in that it includes the technical features.

The air discharge pipe 62 includes a discharge pipe 620 having an inlet hole 61 formed at one side thereof and a thread 622 formed at an inner lower surface thereof and located above the through hole 52 of the sealing plate 50, A plurality of air passages 63 are formed on the central portion of the outer surface of the discharge pipe 620 so as to have a stepped annular groove 642 communicating with the inlet hole 61 of the discharge pipe 620, A discharge ring 640 inserted through a lower portion of the discharge pipe 620 and a stationary ring 680 having a thread 682 on the upper inner side and positioned below the through hole 52 of the sealing plate 50, A discharge guide 660 having one end portion located inside the fixing ring 680 and the other end portion extending to the discharge pipe 620 and first and second threaded portions 652 and 656 formed on the upper and lower portions, respectively, The first thread 652 is exposed to the upper portion of the through hole 52 and is screwed to the thread 622 of the discharge tube 620, Dinitrogen 656 may be formed of a screw thread (682) threadingly engaged with the locking ring 650, which is of the through-hole 52 is exposed to the lower retaining ring 680.

The discharge guide 660 is provided with a body 662 having a conical upper end and a lower end of the fastening ring 650 provided at the lower end of the body 662 so that the inner surface stepped portion 686 And an annular fixed end 666 which is tightly fixed to the base plate 666. [

A first sound absorbing pad 72 is provided between the lower case 42 and the air discharging device 60 and a second sound absorbing pad 76 is provided between the air discharging device 60 and the upper case 46. [ May be provided.

At this time, a plurality of air discharge grooves 47 may be formed on the upper surface of the upper case 46.

The present invention relates to a safety device that generates a suction force by using a pressure difference generated by disposing a conical exhaust guide on a path through which compressed air moves without using a power source, It is expected to be able to prevent accidents at the source.

In addition, the present invention can be applied to a variety of work sites in a way that the degree of the suction force can be adjusted by suitably changing the length of the discharge pipe and the shape of the discharge guide corresponding to the discharge guide in the discharge pipe. It is possible to provide a cleaner as much as possible.

1 is a schematic overall configuration diagram of an industrial vacuum cleaner according to the present invention.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an industrial vacuum cleaner.
FIG. 3 is a schematic structural view of a sealing plate and an air discharge pipe in an air discharge apparatus according to the present invention. FIG.
4 is a schematic exploded perspective view of an air discharge pipe according to the present invention.
5A and 5B are schematic structural views of a discharge ring in an air discharge pipe according to the present invention.
6 is a schematic structural view of a conventional vacuum cleaner.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the technical features of the present invention, A detailed description thereof will be omitted.

1 shows a schematic overall configuration of an industrial vacuum cleaner according to the present invention. As shown in the drawings, the present invention includes a dust collecting tank 10, a suction hose 20, a mounting plate 30, upper and lower cases 46 and 42, a sealing plate 50, (60). Hereinafter, each of these configurations will be described in detail.

The dust collecting tank 10 is a means for collecting foreign substances sucked together with outside air. The bottom of the dust collecting tank 10 is provided with a moving means 12, and a filter 16 having an open top is provided therein. The dust collecting tank 10 may be made of a metal material, and the dust collecting tank may be configured to be provided inside a separate outer casing, unlike the drawing.

The moving means 12 may comprise a conventional driving wheel and may be provided mediating the bottom plate 11 as shown in the figure. The filter 16 is a means for filtering the foreign substances contained in the outside air to be sucked. The outer surface of the filter 16 and the inner surface of the dust collecting tank 10 are spaced apart from each other by a predetermined distance, so that a certain space is formed between the filter and the dust collecting tank. The air filtered by the foreign substances is discharged to the outside through the opening of the filter, and the filtered foreign substances are collected in the filter and the space.

The suction hose 20 is a means for sucking outside air, and one end of the suction hose 20 is provided with suction means 22 and the other end thereof is connected to the dust collecting tank 10. As a suction means used in a conventional vacuum cleaner of the suction means 22, a suction hole is provided in the bottom portion. The suction hose can be made of a flexible structure.

The mounting plate 30 is mounted on the upper portion of the dust collecting tank 10, and a discharge hole 31 is formed on the central portion thereof. The discharge hole 31 is communicated with the opening of the filter 16. The external air filtered by the foreign substance in the dust collecting tank 10 moves along the through hole of the mounting plate 30. The mounting plate 30 is mounted on the dust collecting tank 10 provided with the filter 16. [

The upper and lower cases 46 and 42 are parts for installing the air discharge device 60. The lower case 42 is fixedly coupled to the upper portion of the stationary plate 30, and a through hole 41 is formed on the central portion. The through hole (41) communicates with the discharge hole (31) of the stationary plate (30). Reference numeral 43 denotes a projecting end for engagement with the upper case 46.

The upper case 46 is fixedly coupled to the lower case 42, and a space of a certain size is formed inside. Reference numeral 48 denotes a space in which one side of the air injection port 66 to be described later is inserted as an opening hole and a part of the outside air introduced into the vacuum cleaner is discharged.

The present invention does not exclude the case where a plurality of air vent grooves 47 are formed on the upper surface of the upper case 46. The air discharge groove 47 serves as a passage through which the air discharged through the air discharging device 60 escapes. In the vacuum cleaner according to the present invention, the air that has exited the air discharge device is discharged to the outside through a gap formed between the upper case and the lower case as well as the opening hole 48 of the upper case. The air can be more easily discharged to the outside through the opening 47 when the opening 47 is formed.

Also, the present invention proposes a case in which a lid 80 is further provided on the upper case 46. In this case, it is preferable that the lid is fixedly coupled to the upper case so that a space of a predetermined size is provided between the upper case 46 and the lid 80. The lid is a means for protecting the upper case, and a space formed between the upper case and the lid can serve as a means for radially dispersing the air discharged through the air discharge groove (47).

Reference numeral 82 may be provided at one side of the lid 80 as a portion where one side of the air inlet end 66 is inserted and supported. Further, a handle 86 may be further provided on the upper surface of the lid 80. The handle 86 is a means for easy movement of the vacuum cleaner.

The sealing plate 50 is a portion that is fixedly coupled to the upper portion of the lower case 42 and is a means for supporting the air discharging device 60 and sealing the upper portion of the mounting plate 30. External air (foreign air filtered by foreign matter) flowing into the dust collecting tank 10 by the sealing plate is discharged to the air discharging device through the discharge hole 31 of the mounting plate. It is preferable that the support plate is made of a metal having a certain thickness in consideration of the flow of high-pressure air through the air discharge device.

The air discharge device 60 is a means for discharging the inflowing high-pressure air and a means for discharging the air inside the dust collecting tank 10 to the outside using the flow of the discharged air. The air discharging device 60 is characterized by comprising an air discharge pipe 62, an air inlet end 66 and an air inflow pipe 64 as shown in Fig.

The air discharge pipe 62 is formed with a discharge pipe 620, a discharge ring 640, a fastening ring 650, and a discharge pipe 640. [ A discharge guide 660 and a stationary ring 680. This will be described with reference to Figs. 3 and 4, and Figs. 5A and 5B, respectively.

The discharge pipe 620 has a tubular structure having a predetermined length and has an inlet hole 61 formed at one side thereof and a thread 622 provided at the lower inner side thereof to be disposed on the upper portion of the through hole 52 of the sealing plate 50 Located. Reference numeral 624 denotes a latching end for close contact with the upper edge portion of the discharge ring 640.

The discharge ring 640 is opened upward and downward and is inserted through a lower portion of the discharge tube 620. A stepped annular groove 642 communicating with the inflow hole 61 of the discharge pipe 620 is provided on the center of the outer surface of the discharge ring and a plurality of air flow paths 63 are provided in the stepped portion 644.

It is preferable that the air flow path 63 formed in the stepped portion 644 is arranged annularly spaced apart from each other as described in each of 5a and 5b. The high pressure air introduced through the inflow hole 61 moves to the groove 642 and then flows out to the upper portion of the discharge pipe 620 through each of the air flow paths 63. Each of reference numerals 647 and 649 is a sealing member. The sealing member may be made of a rubber material.

The fixing ring 680 is provided with threads 682 on the upper inner side and is located below the through hole 52 of the sealing plate 50, and each of the upper and lower portions is opened.

A discharge guide 660 is provided inside the stationary ring 680. The discharge guide 660 may include a body 662 having a conical upper end and a fixed end 666 provided at the lower end of the body 662, as shown in the figure. The fixed end 666 may be formed in an annular shape and may be tightly fixed to the stepped portion 686 provided on the inner surface of the fixed ring 680 by the lower end of the clamping ring 650 through such a construction.

The reason why the discharge guide 660 is provided inside the stationary ring 680 is to control the flow rate (speed) of the air discharged through the discharge pipe 620 according to the Bernoulli theorem. That is, when the discharge guide 610 is provided in the discharge pipe 620, as the space on the discharge guide upper side in the discharge pipe becomes wider than the space on the lower side of the discharge guide, the high- So that the pressure on the lower side of the discharge guide drops. When the pressure on the lower side of the discharge guide drops, the pressure inside the dust-collecting tank 10 becomes relatively high. Therefore, the air that is filled in the dust-collecting tank flows through the stationary ring 680 and the discharge ring 640 sequentially And is discharged to the outside through the discharge pipe 620.

The fastening ring 650 is a means for fastening the discharge tube 620 and the stationary ring 680 to the sealing plate 50. The first and second threads 652 and 656 are formed on the upper and lower sides of the fastening ring 650 so as to be inserted into the through holes 52 of the sealing plate 50, And the second thread 656 is exposed to the lower portion of the through hole 52 and is screwed to the thread 682 of the fixing ring 680. [ do. The fixed end 666 of the discharge guide 660 is tightly fixed to the inside of the stationary ring 680 while the second thread is engaged with the thread of the stationary ring. The upper and lower portions of the tightening ring are open.

The air injection port 66 is connected to the high-pressure air injection hose 1 at one side and the other side extends into the upper case through one side of the upper case 46 . Reference numeral 65 denotes an opening / closing means for interrupting the movement of the high-pressure air, and the high-pressure air can be supplied by a pump not shown.

The air inlet pipe 64 is a part that mediates between the air outlet pipe 62 and the air inlet end 66. One side of the air inlet pipe 64 is connected to the inlet hole 61 of the air outlet pipe 62, And is connected to one side of the mouth 66. It is obvious that one side of the air inflow pipe 64 is connected to the discharge supporting pipe 620 when the air discharge pipe 62 is composed of the discharge supporting pipe 620, the discharge guide ring 640 and the fastening ring 660 .

The figure shows an example of the air discharge device 60. The air discharge pipe 62 is made up of left and right pairs and the high pressure air flowing through the air inlet end 66 is branched by the air inflow pipe 64 It is needless to say that the present invention does not exclude the case where one or more than three air discharge pipes are provided.

Meanwhile, the present invention does not exclude the case where a sound absorbing pad is provided as means for alleviating noise caused by high-pressure air flow. The sound absorbing pad includes a first sound absorbing pad 72 provided between the lower case 42 and the air exhausting apparatus 60 and a second sound absorbing pad 72 provided between the air exhausting apparatus 60 and the upper case 46 76). In addition, a third sound absorbing pad 74 may be provided between the mounting plate 30 and the lower case 42, and a fourth sound absorbing pad (not shown) may be provided in the space between the lid 80 and the upper case 46. [ May be provided. Each sound absorbing pad is preferably made of a synthetic resin material having a certain thickness called a sponge.

The schematic operating configuration of the present invention will now be described with reference to the above-described description and Figures 1 and 3, respectively.

When the pump is operated, high-pressure air (hereinafter referred to as first air) is introduced into the vacuum cleaner through the high-pressure air injection hose 1. At this time, when the operator opens the flow path by controlling the opening / closing means 65, the first air flows into the discharge pipe 620 through the air injection port 66 and the air inflow pipe 64 (solid line 1). The first air introduced into the discharge pipe 620 flows through the inflow hole 61 into the space between the inner surface of the discharge pipe 620 and the outer surface of the groove 642 of the discharge ring 640, Through the air channels 63 formed in the discharge guide 640 and enters the space where the discharge guide 660 is located (solid line?).

The first air that has entered the space in which the discharge guide 660 is located moves in the space between the inner surface of the discharge tube 620 and the outer surface of the discharge guide 660. Due to the structural characteristics of the discharge guide 660, The velocity of the first air that has entered the lower portion of the discharge guide rapidly increases according to Bernoulli's theorem, and the velocity is gradually reduced while moving to the upper portion of the discharge guide. Accordingly, a pressure drop occurs in the space below the discharge guide in accordance with the velocity change of the first air.

When the pressure drop occurs in the discharge pipe 620, the pressure inside the dust collecting tank 10 is relatively higher than the pressure inside the discharge pipe 620, . As a result, the air (hereinafter referred to as " second air ") in the dust collecting tank 10 enters the lower portion of the discharge guide 660 through the stationary ring 680 (dotted line?

Since the second air entering the lower portion of the discharge guide 660 is rapidly moved at the lower portion of the discharge guide due to the structural characteristics of the discharge guide like the first air described above, The speed gradually decelerates (dotted line ② → ③). That is, the pressure drop due to the flow of the first air and the pressure drop due to the flow of the second air are simultaneously generated in the lower portion of the discharge guide.

When the suction means 22 of the suction hose 20 is positioned at a point where the operator needs to clean the apparatus, a pressure drop occurs in a redundant manner at the discharge pipe 620 communicating with the dust collecting tank 10, The foreign matter in the vicinity of the means is strongly sucked into the dust collecting tank (10) together with the outside air. The foreign substances sucked into the dust collecting tank 10 together with the outside air are filtered by the filter 16 and the foreign air filtered by the foreign matter flows along the same path of the second air to the outside . The inhalation process of these foreign substances continues as long as the first air flows into the discharge pipe.

The air that moves upward along the discharge pipe 620 is discharged through the opening hole 48 of the upper case after exiting from the upper end portion of the discharge pipe (first and second air and foreign matter-filtered external air) And is discharged to the outside through the inner edge portion of the lid 80 coupled to the upper case 46 through the air discharge groove 47 of the upper case. Most of the noise due to the flow of the air is absorbed by each absorbing pad.

As described above, according to the present invention, a suction force is not generated by using a motor operated by a power source but a suction accident is generated by using a high-pressure air flow, so that a safety accident caused by a short circuit or the like can be fundamentally prevented, It is possible to easily generate the suction force within the intended range by suitably changing the structural shape of the path or conical guide body.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be apparent that the present invention can be practiced with added features.

10: Dust tank 20: Suction hose
30: mounting plate 42: lower case
46: upper case 50: sealing plate
60: air discharge device

Claims (5)

A dust collecting tank 10 having a moving means 12 at the bottom and a filter 16 having an open upper portion;
A suction hose 20 at one end of which is provided with suction means 22 and the other end of which is in communication with the dust-collecting tank 10;
A mounting plate (30) having a discharge hole (31) formed at a central portion thereof and mounted on the dust collecting tank (10);
A lower case (42) formed with a through hole (41) at a central portion and fixedly coupled to the upper portion of the mounting plate (30);
An upper case 46 fixedly coupled to the lower case 42 with a predetermined size space formed therein;
A sealing plate 50 provided with a through hole 52 and fixedly coupled to the upper portion of the lower case 42;
And an air discharge pipe 62 connected to the through hole 52 of the sealing plate 50. The air discharge pipe 62 is connected to the air discharge hole 61. The air discharge hole 62 is formed on the inner side of the air discharge hole 62, The air injection port 66 is connected to the high pressure air injection hose 1 at one side where the opening and closing means 65 is provided and the other side passes through one side of the upper case 46 and extends into the upper case. And an air inlet pipe (64) connected to the inlet hole (61) at one side thereof and connected to one side of the air inlet port (66) at the other side thereof.
Wherein the vacuum cleaner is a vacuum cleaner. The method according to claim 1,
The air discharge pipe (62)
A discharge tube 620 having an inlet hole 61 formed at one side thereof and a thread 622 formed at an inner lower surface thereof and positioned above the through hole 52 of the sealing plate 50 and a discharge tube 620 disposed above the center of the discharge tube 620 A plurality of air passages 63 are formed in the stepped portion 644 so as to be spaced apart from each other by a predetermined distance so that the lower portion of the discharge pipe 620 A fixing ring 680 having a thread 682 provided on the upper inner side and positioned below the through hole 52 of the sealing plate 50 and a fixing ring 680 having one end fixed to the fixing ring 680, And the first and second threads 652 and 656 are formed on the upper and lower portions of the discharge guide 660 and the through hole 52 of the sealing plate 50, The first thread 652 is exposed to the upper portion of the through hole 52 and is screwed to the thread 622 of the discharge tube 620 and the second thread 656 is inserted into the through hole 52, Industrial vacuum cleaner using compressed air which comprises a screw thread (682) threaded into the locking ring (650) and which has a fixed ring 680 is exposed portion. 3. The method of claim 2,
The discharge guide 660 is provided with a body 662 having a conical upper end and a lower end of the fastening ring 650 provided at the lower end of the body 662 so that the inner surface stepped portion 686 And an annular fixed end (666) which is fixedly attached to the inner surface of the tubular body. The method according to any one of claims 1, 2, and 3,
A first sound absorbing pad 72 is provided between the lower case 42 and the air discharging device 60 and a second sound absorbing pad 76 is provided between the air discharging device 60 and the upper case 46 Wherein the vacuum cleaner is a vacuum cleaner. 5. The method of claim 4,
And a plurality of air discharge grooves (47) are formed on the upper surface of the upper case (46).

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