JP4162296B2 - Cleaning device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cleaning apparatus that performs cleaning by jetting detergent or water to an object to be cleaned.
[0002]
[Prior art]
2. Description of the Related Art A cleaning device that cleans an object to be cleaned such as an automobile, a motorcycle, or a bicycle by jetting detergent or water is used. In such a conventional cleaning apparatus, when detergent or water is sprayed onto an object to be cleaned, the detergent or water discharged by the pump is directly ejected from the nozzle.
[0003]
[Problems to be solved by the invention]
By the way, when the detergent for removing the dirt is discharged by the pump and ejected from the nozzle as described above, the foaming is not sufficient, and there is a problem that the dirt cannot be removed sufficiently unless it is used in a large amount. there were. Moreover, if the water for washing away the detergent is also discharged from the nozzle and ejected from the nozzle, there is a problem that the detergent cannot be washed away unless it is used in a large amount.
[0004]
Accordingly, an object of the present invention is to provide a cleaning device that can reliably remove dirt with a minimum amount of detergent and that can reliably wash away the detergent with a minimum amount of water.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, a cleaning apparatus according to claim 1 of the present invention includes a compressed air supply means for supplying compressed air, a water supply means for supplying water, a detergent supply means for supplying detergent, and a compression of these. Connected to the air supply means, the water supply means, and the detergent supply means, and has a nozzle. The compressed air and water are mixed and ejected from the nozzle; and the compressed air and the detergent are mixed and the nozzle is mixed. A cleaning gun that can be switched to a state to be ejected, and the cleaning gun is provided with a guide tube outside the nozzle, and the nozzle performs a reciprocating motion toward the ejection tip side of the nozzle during ejection. flat portion having caused give flexibility is formed, said water supply means has a water tank for storing water, said detergent supply means have a detergent tank for storing a detergent, these water motor The tank and the detergent tank are arranged in parallel above the compressed air supply means provided with the longitudinal direction along the width direction of the carriage, and the axial direction of the water tank and the detergent tank is aligned with the vertical direction of the carriage. characterized by comprising Te Align.
[0006]
Accordingly, when the detergent is ejected, if the cleaning gun is mixed with compressed air and detergent and switched to a state in which the detergent is ejected from the nozzle, the detergent is mixed with the compressed air from the nozzle of the cleaning gun and ejected in the form of bubbles. . And at the time of this ejection, the force of the bubble which flows through the nozzle causes the nozzle to reciprocate on the ejection tip side while curving the flat portion in the flat direction. By the reciprocating motion of the nozzle, the bubbles ejected from the nozzle become fine bubbles in the air and reach the object to be cleaned. Also, when water is ejected, if the cleaning gun is switched to a state in which compressed air and water are mixed and ejected from the nozzle, water is mixed with the compressed air from the nozzle of the cleaning gun and ejected as a mist. . At the time of the ejection, the nozzle reciprocates on the ejection tip side while curving the flat portion in the flat direction by the force of water and compressed air flowing through the nozzle. By the reciprocating motion of the nozzle, the water ejected from the nozzle becomes a fine mist in the air and reaches the object to be cleaned.
Further, when the nozzle reciprocates on the ejection tip side while curving the flat portion in the flat direction, the range of the reciprocating motion is determined by the guide tube.
And since the compressed air supply means, the water supply means, and the detergent supply means are mounted on the movable carriage, the washing place can be easily changed by moving the carriage.
Moreover, since the water tank and the detergent tank are arranged in parallel above the compressed air supply means on the carriage, the whole can be reduced in size.
[0007]
The cleaning apparatus according to claim 2 of the present invention is characterized in that the cleaning gun can be switched to a state in which only compressed air is ejected from the nozzle.
[0008]
Accordingly, when the cleaning gun is switched to a state in which only compressed air is ejected from the nozzle, the compressed air is ejected from the nozzle of the cleaning gun. And at the time of this ejection, with the force of the compressed air flowing through the nozzle, the nozzle reciprocates on the ejection tip side while curving the flat part in the flat direction. This reciprocating motion of the nozzle causes the compressed air to be ejected from the nozzle with a larger ejection force.
[0009]
In the cleaning device according to claim 3 of the present invention, the cleaning gun according to claim 1 or 2 is further switchable to a state in which compressed air, water, and detergent are mixed and ejected. It is a feature.
[0010]
As a result, when the cleaning gun is switched to a state in which compressed air, water, and detergent are mixed and ejected, the detergent whose concentration is adjusted with water is mixed with the compressed air and ejected from the nozzle of the cleaning gun.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings.
1 and 2 show a cleaning device 11 according to this embodiment. The cleaning device 11 includes an air compressor (compressed air supply means, water supply means, detergent supply means) 12 that generates compressed air, and A substantially cylindrical water tank (water supply means) 13 for storing water, a substantially cylindrical detergent tank (detergent supply means) 14 for storing detergent, and these air compressor 12, water tank 13 and detergent tank 14 are mounted. A carriage 15 to be placed, and a cleaning gun 16 connected to the air compressor 12, the water tank 13, and the detergent tank 14 are provided.
[0018]
The carriage 15 has a frame 18 and a lower shelf 19 and an upper shelf 20 attached to the frame 18.
The frame 18 has three support columns 22, 23, 24 parallel to each other, a gripping portion 26 for connecting the upper ends of these support columns 22, 23, 24, and a right angle from the lower portions of the support columns 22, 24 on both sides. From the side extension parts 28 and 29 extending sideways, the connecting part 31 connecting the extension tip parts of the side extension parts 28 and 29, and the intermediate parts of the column parts 22 and 24 on both sides. It has side extension parts 33 and 34 which make a right angle to these, and side extension parts 33 and 34, and connecting part 36 which connects extension tip parts of these side extension parts 33 and 34. In addition, a part of the support part 22, 23, 24 on the side of the grip part 26 from the upper shelf part 20 is inclined in the opposite direction with respect to the upper shelf part 20.
[0019]
The lower shelf portion 19 is attached to the side extending portions 28 and 29 and the connecting portion 31 so as to extend sideways at right angles to the supporting column portions 22, 23, and 24. It attaches to the side extension parts 33 and 34 and the connection part 36 so that it may make a right angle to the parts 22, 23, and 24, and it may extend to the side (same side as the lower shelf part 19).
A roller 38 for running the carriage 15 is supported on the lower part of the frame 18 on the column parts 22, 23, 24 side so as to be rotatable in a state where the rotation axis is arranged in the arrangement direction of the columns 22, 23, 24. ing.
[0020]
The air compressor 12 is mounted on the lower shelf 19 with its longitudinal direction aligned with the arrangement direction of the support columns 22, 23, 24.
On the upper shelf portion 20 (that is, on the upper side of the air compressor 12), the water tank 13 and the detergent tank 14 have their respective axial directions along the extending direction of the column portion 22, etc. 23 and 24 are arranged in parallel in a state matching the arrangement direction.
[0021]
Specifically, the water tank 13 is placed on the upper shelf 20 and is fitted between the column 22 on one side and the column 23 on the center, with respect to the columns 22 and 23 of the water tank 13. Both ends are fixed by a band 40 which is wound on the opposite side and is attached to these column portions 22 and 23.
[0022]
In addition, the detergent tank 14 is placed on the upper shelf 20 and fitted between the other column 24 and the central column 23, and is opposite to the columns 23 and 24 of the detergent tank 14. The both ends are fixed by the band 41 attached to these support | pillar parts 23 and 24.
[0023]
A pipe 43 for supplying compressed air from the air compressor 12 is connected to a connecting member 44 attached to the upper part of the water tank 13, and a pipe 45 and a pipe 46 are connected to the connecting member 44. The pipe 45 is connected to a connecting member 47 attached to the upper part of the detergent tank 14, and the pipe 46 is connected to the cleaning gun 16. The connecting member 44 is provided with an open / close valve 44a for opening and closing the pipe 43, and the connecting member 47 is provided with an open / close valve 47a for opening and closing the pipe 45.
[0024]
Here, the compressed air discharged from the air compressor 12 is introduced into the water tank 13 through the pipe 43 and the connecting member 44, and is used to discharge the water stored in the water tank 13. The pressure is given. The water discharged under the pressure of the compressed air is introduced into the cleaning gun 16 via a connecting member 49 and a pipe 50 attached to the upper part of the water tank 13. The connecting member 49 is provided with an opening / closing valve 49a for opening and closing the pipe 50.
[0025]
The compressed air discharged from the air compressor 12 is introduced into the detergent tank 14 via a pipe 43, a connecting member 44, a pipe 45, and a connecting member 47 attached to the upper part of the detergent tank 14, and the detergent. Pressure is applied to the detergent stored in the tank 14 to cause it to be discharged. The detergent discharged by the pressure of the compressed air is introduced into the cleaning gun 16 via a connecting member 52 and a pipe 53 attached to the upper part of the detergent tank 14. The connecting member 52 is provided with an open / close valve 52a for opening and closing the pipe 53.
Further, the compressed air discharged from the air compressor 12 is introduced into the cleaning gun 16 through the pipe 43, the connecting member 44 and the pipe 46.
[0026]
As shown in FIGS. 3 and 4, the cleaning gun 16 includes a gripping portion 55 that is gripped by an operator, and a lever body 56 that is swingably provided so as to be substantially parallel to the gripping portion 55. 57 and a connecting member 58 attached to the rear end portion of the gripping portion 55, and can be gripped by an operator with the lever 56 positioned on the lower side and the gripping portion 55 on the upper side. ing.
The pipe 50 and the pipe 53 are connected to a connecting member 58, and the pipe 46 is connected to an upper portion on the opposite side to the lever 56 of the gun body 57.
[0027]
The three pipes 46, 50, 53 can communicate with a mixing chamber (not shown) in the gun body 57. Here, the connecting member 58 is provided with an adjustment valve 58a that can open and close the pipe 50 and adjust the opening amount thereof, and an adjustment valve 58b that can open and close the pipe 53 and adjust the opening amount thereof.
[0028]
Further, the cleaning gun 16 is provided with a nozzle 59 whose inside is capable of communicating with the mixing chamber on the opposite side to the connecting member 58 of the grip portion 55.
The lever 56 is used to switch the communication between the mixing chamber and the nozzle 59 and to cut off the communication. Specifically, the lever 56 is in a position away from the grip portion 55 by the biasing force of a spring (not shown). While the communication with the nozzle 59 is cut off, the mixing chamber and the nozzle 59 are made to communicate with each other while being swung to a position close to the grip portion 55 against the biasing force of a spring (not shown).
[0029]
As shown in FIG. 5, the nozzle 59 has a cylindrical nozzle body 63 having a through hole 62 penetrating along the length direction, and a weight portion 64 provided on one end side of the nozzle body 63. It is.
[0030]
The entire nozzle body 63 is integrally formed of a flexible material such as nylon, Teflon, polyurethane, polypropylene, etc., with a substantially constant thickness, and has a width in one direction orthogonal to the length direction within an intermediate predetermined range. Are formed so as to have a flat portion 66 having a so-called flat shape that is smaller than a width in a direction perpendicular to the length direction and perpendicular to the one direction. Cylindrical cylindrical portions 67 and 68 are formed in the ranges. The flat portion 66 has a flat shape even when the nozzle body 63 is linear along the length direction.
The weight portion 64 is made of a cylindrical member that fits the cylindrical portion 67 on one side of the nozzle body 63 inside, and is made of a stretchable material such as silicon.
[0031]
An attachment portion 69 is provided at the distal end of the gun body 57, and the nozzle 59 is attached to the attachment portion 69 in a state where the opposite cylindrical portion 68 is fitted to the weight portion 64. The nozzle 59 is attached, for example, with the gripping portion 55 on the upper side and the lever 56 on the lower side so that the flat direction (thin width direction) of the flat portion 66 is the left-right direction. The rotation with respect to the nozzle body 63 is restricted.
[0032]
On the nozzle 59 side of the cleaning gun 16, a cylindrical body 71 is attached by screwing so as to cover the nozzle 59. The cylindrical body 71 is concentrically fixed to a tapered cylindrical member 72 having a small diameter at one end and a large diameter at the other end, and a small diameter side of the tapered cylindrical member 72. The cylindrical guide tube 73 is attached to the gun body 57 on the small diameter side of the tapered tube member 72. Here, in the attached state, the guide cylinder 73 is substantially concentric with the nozzle 59 and covers a part of the nozzle 59 on the gun body 57 side from the outside. Further, in the attached state, the tapered cylindrical member 72 is substantially concentric with the nozzle 59 and covers the nozzle 59 from the outside over the entire length.
[0033]
According to the cleaning device 11 configured as described above, in use, first, the on-off valves 44a, 47a, 49a, and 52a of the connecting members 44, 47, 49, and 52 are all opened, and the air compressor 12 is driven. .
When the lever 56 of the cleaning gun 16 is pulled toward the gripping portion 55 with the switching valve 58b of the connecting member 58 opened and the switching valve 58a closed, the cleaning gun 16 mixes compressed air and detergent so that the nozzle It will be in the state made to eject from 59.
[0034]
That is, in this state, the compressed air from the air compressor 12 is introduced into the mixing chamber of the cleaning gun 16 and the detergent from the detergent tank 14 is introduced into the mixing chamber of the cleaning gun 16 so that the compressed air and the detergent Are mixed in the mixing chamber and ejected from the nozzle 59 in the form of bubbles. At the time of this ejection, the force of the bubbles flowing in the nozzle 59 causes the nozzle 59 to generate a high-speed reciprocating motion (about 40 times / second) on the ejection tip side while curving the flat portion 66 in the flat direction. Become. Due to the high-speed reciprocation of the nozzle 59, a wave is generated in the bubbles passing through the nozzle 59, and a violent shock wave is ejected from the nozzle 59. Therefore, the bubbles ejected from the nozzle 59 become fine bubbles in the air and reach the object to be cleaned, and are sent to the depth of the object to be cleaned with a strong force.
[0035]
Therefore, the detergent can be foamed sufficiently and finely and can be fed to the depth of the object to be cleaned with a strong force, so that the object to be cleaned can be surely cleaned with a minimum amount of detergent. Specifically, the stain can be removed with about 1/20 of the amount of detergent that has been required.
[0036]
On the other hand, when the switching valve 58a of the connecting member 58 is opened and the switching valve 58b is closed, and the lever 56 of the cleaning gun 16 is pulled toward the grip 55, the cleaning gun 16 mixes the compressed air and water, and the nozzle It will be switched to the state of ejecting from 59.
[0037]
That is, in this state, the compressed air from the air compressor 12 is introduced into the mixing chamber of the cleaning gun 16, and the water from the water tank 13 is introduced into the mixing chamber of the cleaning gun 16, and these compressed air and water Are mixed in the mixing chamber and ejected from the nozzle 59 in the form of a mist. At the time of the ejection, the nozzle 59 generates a high-speed reciprocating motion (about 40 times / second) on the ejection tip side while curving the flat portion 66 in the flat direction by the force of water and compressed air flowing through the nozzle 59. It will be. Due to the high-speed reciprocating motion of the nozzle 59, a wave is generated in the water passing through the nozzle 59, and a severe shock wave is ejected from the nozzle 59. Therefore, the water ejected from the nozzle 59 reaches the object to be cleaned as a fine mist in the air and is sent to the depth of the object to be cleaned with a strong force.
[0038]
Therefore, water can be made sufficiently and finely mist-like and can be sent to the depth of the object to be cleaned with a strong force, so that the detergent for the object to be cleaned can be surely washed away with a minimum amount of water. Specifically, the detergent can be dropped with about 1/20 of the amount of water previously required.
[0039]
Further, when both the switching valves 58a and 58b of the connecting member 58 are closed and the lever 56 of the cleaning gun 16 is pulled toward the grip portion 55, the cleaning gun 16 switches to a state in which only compressed air is ejected from the nozzle 59. It will be. That is, in this state, only compressed air from the air compressor 12 is introduced into the mixing chamber of the cleaning gun 16 and ejected from the nozzle 59. At the time of the ejection, the force of the compressed air flowing through the nozzle 59 causes the nozzle 59 to generate a high-speed reciprocating motion (about 40 times / second) on the ejection tip side while curving the flat portion 66 in the flat direction. Become. Due to the high-speed reciprocating motion of the nozzle 59, a wave is generated in the compressed air passing through the nozzle 59 and a strong shock wave is ejected from the nozzle 59. Therefore, the compressed air ejected from the nozzle 59 is sent to the depth of the object to be cleaned with a strong force.
[0040]
Accordingly, the compressed air is ejected from the nozzle 59 with a larger jet power and is sent to the depth of the object to be cleaned, so that water droplets or the like of the object to be cleaned can be reliably blown off, and the object to be cleaned can be immediately discharged. Can be dried.
[0041]
In addition, when both the switching valves 58a and 58b of the connecting member 58 are opened, and the lever 56 of the cleaning gun 16 is pulled toward the grip portion 55, the cleaning gun 16 mixes compressed air, water, and detergent to form a nozzle. It will be switched to the state of ejecting from 59. That is, in this state, the compressed air from the compressor 12 is introduced into the mixing chamber of the cleaning gun 16, the water from the water tank 13 is introduced into the mixing chamber of the cleaning gun 16, and the detergent from the detergent tank 14 is further removed. The air is introduced into the mixing chamber of the cleaning gun 16, and the compressed air, water, and detergent are mixed in the mixing chamber and ejected from the nozzle 59 in the form of bubbles. Then, at the time of this ejection, the force of the bubbles flowing through the nozzle 59 causes the nozzle 59 to reciprocate toward the ejection tip side while curving the flat portion 66 in the flat direction. By the reciprocating motion of the nozzle 59, the bubbles ejected from the nozzle 59 become finer bubbles in the air and reach the object to be cleaned.
[0042]
As a result, the detergent whose concentration is adjusted with water is mixed with the compressed air and ejected from the nozzle 59 of the cleaning gun 16.
Therefore, the detergent can be ejected in a state where its concentration is adjusted by mixing with water.
[0043]
Here, as described above, the cleaning gun 16 is provided with the guide cylinder 73 substantially concentrically with the nozzle 59 on the outer side of the nozzle 59, so that the nozzle 59 has its flat portion 66 in the flat direction. When the reciprocating motion is generated on the ejection tip side while being curved, the range of the reciprocating motion is determined by the guide tube 73.
Therefore, the range of ejection by the nozzle 59 can be set.
[0044]
In addition, since the air compressor 12, the water tank 13, and the detergent tank 14 are mounted and fixed on a movable carriage 15, the washing place can be easily changed by moving the carriage 15.
Furthermore, since the water tank 13 and the detergent tank 14 are arranged in parallel on the upper side of the air compressor 12 on the carriage 15, the whole can be reduced in size.
[0045]
In the above-described embodiment, an example in which the connecting member 58 to which the pipe 50 and the pipe 53 are connected is attached to the rear end of the gripping part 55 and the pipe 46 is attached to the opposite side of the lever 56 of the gun body 57 is an example. As described above, the pipe 46 may be attached to the rear end portion of the grip portion 55, and the connecting member 58 to which the pipe 50 and the pipe 53 are connected may be attached to the opposite side of the lever 56 of the gun body 57.
[0046]
【The invention's effect】
As described above in detail, according to the cleaning device of the first aspect of the present invention, when the detergent is ejected, the cleaning gun is mixed with the compressed air and the detergent and switched to a state in which the detergent is ejected from the nozzle. Detergent is mixed with compressed air from the nozzle of the gun and ejected as a foam. And at the time of this ejection, the force of the bubble which flows through the nozzle causes the nozzle to reciprocate on the ejection tip side while curving the flat portion in the flat direction. By the reciprocating motion of the nozzle, the bubbles ejected from the nozzle become fine bubbles in the air and reach the object to be cleaned. Accordingly, since the detergent can be sufficiently and finely foamed, the object to be cleaned can be surely removed with a minimum amount of detergent.
Further, when the nozzle causes the flat portion to bend in the flat direction and causes the reciprocating motion on the ejection tip side, the range of the reciprocating motion is determined by the guide tube. Therefore, the range of ejection by the nozzle can be set.
And since the compressed air supply means, the water supply means, and the detergent supply means are mounted on the movable carriage, the washing place can be easily changed by moving the carriage.
Furthermore, since the water tank and the detergent tank are arranged in parallel above the compressed air supply means on the carriage, the entire size can be reduced.
[0047]
Also, when water is ejected, if the cleaning gun is switched to a state in which compressed air and water are mixed and ejected from the nozzle, water is mixed with the compressed air from the nozzle of the cleaning gun and ejected as a mist. . At the time of the ejection, the nozzle reciprocates on the ejection tip side while curving the flat portion in the flat direction by the force of water and compressed air flowing through the nozzle. By the reciprocating motion of the nozzle, the water ejected from the nozzle becomes a fine mist in the air and reaches the object to be cleaned.
Therefore, since the water can be made sufficiently fine and mist-like, the detergent to be cleaned can be surely washed away with a minimum amount of water.
[0048]
According to the cleaning apparatus of the second aspect of the present invention, when the cleaning gun is switched to a state in which only the compressed air is ejected from the nozzle, the compressed air is ejected from the nozzle of the cleaning gun. And at the time of this ejection, with the force of the compressed air flowing through the nozzle, the nozzle reciprocates on the ejection tip side while curving the flat part in the flat direction. This reciprocating motion of the nozzle causes the compressed air to be ejected from the nozzle with a larger ejection force.
Accordingly, since compressed air is ejected from the nozzle with a larger jetting power, water droplets or the like of the object to be cleaned can be reliably blown off, and the object to be cleaned can be dried immediately.
[0049]
According to the cleaning device of the third aspect of the present invention, when the cleaning gun is switched to a state in which compressed air, water and detergent are mixed and ejected, the detergent whose concentration is adjusted with water is mixed with the compressed air. Ejects from the nozzle of the cleaning gun.
Therefore, the detergent can be ejected in a state where its concentration is adjusted by mixing with water.
[Brief description of the drawings]
FIG. 1 is a front view of an embodiment of a cleaning apparatus of the present invention.
FIG. 2 is a side view of an embodiment of the cleaning apparatus of the present invention.
FIG. 3 is a side view, partly in section, showing a cleaning gun used in an embodiment of the cleaning apparatus of the present invention.
FIG. 4 is a plan view, partly in section, showing a cleaning gun used in one embodiment of the cleaning apparatus of the present invention.
5A and 5B show a nozzle of a cleaning gun used in an embodiment of the cleaning apparatus of the present invention, where FIG. 5A is a side sectional view, FIG. 5B is a plan sectional view, and FIG. 5C is a front sectional view. It is.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 Cleaning apparatus 12 Air compressor 13 Water tank 14 Detergent tank 15 Cart 16 Cleaning gun 59 Nozzle 66 Flat part 73 Guide cylinder

Claims (3)

Compressed air supply means for supplying compressed air;
Water supply means for supplying water;
Detergent supply means for supplying detergent;
The compressed air supply means, the water supply means and the detergent supply means are connected to each other and have a nozzle. The compressed air and water are mixed and ejected from the nozzle, and the compressed air and the detergent are mixed and the nozzle is provided. A cleaning gun that can be switched to a state of ejecting from a nozzle,
The cleaning gun is provided with a guide tube outside the nozzle, and the nozzle is formed with a flexible flat portion that causes reciprocating motion on the ejection tip side of the nozzle during ejection ,
The compressed air supply means, the water supply means and the detergent supply means are placed on a movable carriage, the water supply means has a water tank for storing water, and the detergent supply means stores the detergent. A detergent tank, and the water tank and the detergent tank are arranged in parallel above the compressed air supply means provided in the longitudinal direction along the width direction of the carriage, and the water tank and the detergent tank A cleaning apparatus having an axial direction along the vertical direction of the carriage .   The cleaning apparatus according to claim 1, wherein the cleaning gun is further switchable to a state in which only compressed air is ejected from the nozzle.   The cleaning apparatus according to claim 1 or 2, wherein the cleaning gun is further switchable to a state in which compressed air, water, and detergent are mixed and ejected.

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