JP2940667B2 - Cleaning equipment for building materials - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cleaning apparatus for building materials which can efficiently remove dirt from temporary materials used for civil engineering construction work, for example.

[0002]

2. Description of the Related Art At present, there are many types of temporary materials used in civil engineering construction work, and it is said that maintenance and maintenance of such materials is one of the important factors for efficient and rational construction work. Have been done. Since such temporary materials are used on construction sites, they are apt to get dirty (especially paint), and most of the maintenance work after removal is
It is no exaggeration to say that the task of removing dirt is a major factor. So now, as a cleaning means,
A ring type, a brush type, a hit type, and the like can be given.

[0003]

However, in any case, the above-mentioned cleaning means basically only involves rubbing the surface with metal, and powdery residue remains on the work surface. In many cases, the work itself may be damaged. For this reason, after all, they have to rely on manual work and the use of chemicals, and especially for those with severe dirt, the work cost is too high. As a result, in addition to the operation efficiency of the materials, the space efficiency in utilizing the site was reduced. Further, the width of the temporary material to be cleaned is roughly divided into two types, and it has been required to efficiently process these with one cleaning device.
However, if the rotation radius of the rotary nozzle is set for a wide workpiece, high-pressure water will be wasted on a narrow workpiece, and conversely, a wide workpiece will be used on a narrow workpiece. In this case, the processing must be performed twice for each half width, which is not efficient. A method of arranging a large number of rotary nozzle devices having a small rotating diameter in parallel and using only a necessary portion in accordance with the work width can be considered, but this increases the initial cost by the number of the rotary nozzle devices.
In addition, because of the cost, it is not possible to increase the pump output unnecessarily.Therefore, assuming that a pump having a certain discharge water amount and all the rotary nozzle devices are used, the amount of water injected from one nozzle is reduced. I have to decide. In that case, the use of only a part of the rotary nozzle device means that only a part of the high-pressure water produced by the pump is used, which is still not efficient. The present invention has been proposed in order to improve the above problems, for example, a cleaning device for building materials that can efficiently remove dirt from temporary materials used for civil engineering construction work. The purpose is to provide.

[0004]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a cleaning apparatus for building materials for cleaning by spraying high-pressure water toward the objects to be cleaned.
Cleaning chamber for cleaning objects on a base equipped with an internal power source
Is operated by the power source for guiding the object to be washed
A transport guide roller for carrying the object to be cleaned into the cleaning chamber
When a plurality of cleaning units are provided and enter the cleaning room,
At the same time, adjust the distance to the object to be washed
A cleaning unit is provided so as to be able to be disposed, and the cleaning unit is disposed above the object to be cleaned moving on the transport guide roller.
It has a rotary nozzle device that injects high-pressure washing water to the object to be washed, and adjacent to this washing unit, a low-pressure washing unit that injects low-pressure washing water compared to the pressure of washing water in the washing unit is provided, Further, an air blow means for drying the object to be cleaned wet by the cleaning was arranged in proximity. In the above-described configuration, the rotary nozzle in the cleaning unit may be used.
The tilting device is tilted above the cleaning chamber.
Exposing the high-pressure washing water injection means in the nozzle device
To carry out maintenance work. Also said washing
The unit is mounted on the object to be cleaned that moves on the conveyance guide rollers.
The object to be cleaned, which sprays high-pressure cleaning water onto the object to be cleaned
Multiple rotations with at least different injection ranges depending on
It has a nozzle device. Further, the rotary nozzle device is
It has a nozzle base attached to the holder and a drive source container.
Then, at the nozzle base, so as to protrude below the support table,
Attach the rotating body so that it can rotate freely, and
High-pressure washing water passage so as to reach the rotating body through the inside of the chisel
A driving source in the driving source housing in the support base
A mechanism for transmitting power to the rotating body from the
Multiple nozzle arms attached and detached radially on the outer peripheral side of the body
As well as high pressure inside these nozzle arms.
A water passage is provided to communicate with the high-pressure washing water passage in the rotating body.
The tip of each nozzle arm
Was attached. Also, the nozzle arm determines the injection range.
From the attachment point on the outer peripheral side of the rotating body,
It has a horizontal part of a predetermined size. In addition, the nozzle arm
High-pressure water from the nozzle tip mounting point
Spray direction is perpendicular to surface of object to be cleaned
The rotating body is inclined in the direction of the rotation center. further,
The nozzle tip device is installed from the tip of the horizontal portion of the nozzle arm.
The mounting point is set at a predetermined angle in the positive and negative directions of rotation of the rotating body.
It was configured to be inclined.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of a cleaning apparatus for building materials according to the present invention will be described with reference to the accompanying drawings. FIG. 1 shows a cleaning line 1 in which a cleaning apparatus 2 according to the present invention is arranged. The cleaning device 2 is configured to spray high-pressure water toward the surface of a used temporary construction material (hereinafter, referred to as a work) (hereinafter, referred to as a work) to be cleaned, thereby removing and cleaning dirt attached to the work surface. It is what it was. Although not described in detail, the washing line 1 includes a first carry-in conveyor 3 for conveying a pallet (not shown) loaded with a predetermined number of used works, and a depalletizer 4 for loading and unloading works from the pallet.
A second carry-in conveyor 5 for carrying the work taken out by the depalletizer 4, a lifter 6 for lifting the work from the second carry-in conveyor 5, and a feeding conveyor 7 for feeding the work lifted by the lifter 6 to the cleaning device 2. And The cleaning line 1 is provided with the cleaning device 2
A separation conveyor 8, an unloading conveyor 9, a lifter 10, a loading conveyor 11, a palletizer 12 for stacking a predetermined number of washed workpieces on a pallet, and a predetermined number of washed workpieces. Unloading stock conveyor 13 for unloading pallets
And The washing line 1 is provided with a control panel 1
The centralized control operation is performed according to a procedure set by well-known control means (not shown) mounted on the control unit 4.

Next, the cleaning device 2 will be described in detail. That is, as shown in FIG. 2, the cleaning device 2 includes a geared motor
6. Sewage tank 1 for temporarily storing wash water used for washing
7. A control operation panel 18 is provided. In addition, the base 15
A cleaning chamber 19 for cleaning the transported work W is formed on the upper side, and a plurality of transport guide rollers 20 for transporting the workpiece W in the cleaning chamber 19 are provided at predetermined intervals. The cleaning chamber 19 is provided with a cleaning unit 21 for spraying high-pressure cleaning water onto the work W from above the work W moving on the conveyance guide roller 20. Further, adjacent to the cleaning unit 21, a low-pressure cleaning means 22 for spraying cleaning water having a pressure lower than the pressure of the cleaning water in the cleaning unit 21 is provided, and further for drying the work W wet by the cleaning. Air-blowing means 23 is arranged in proximity. The cleaning unit 21 includes a first rotary nozzle device 2 installed on a base plate D of an elevating frame 25 that can be raised and lowered inside an outer frame 24 erected on the cleaning chamber 19.
6 and a second rotary nozzle device 27. The elevating frame 25 is configured to be able to move up and down by a geared motor 29 and a worm jack 30 as an elevating drive unit installed above a ceiling 28 constituting the outer frame 24, and corresponding to a work W to be cleaned, The separation distance between the nozzle arm and the nozzle tip (described later), which are injection means in the first rotary nozzle device 26 and the second rotary nozzle device 27, and the surface of the work W is adjusted. As shown in FIG. 3, the cleaning unit 21 is provided on one side of the base plate D of the lifting frame 25 by a winch 31 installed on the side surface of the outer frame 24 via a pulley 32 disposed above the lifting frame 25. By winding up the wire-W that is connected and connected between the first rotary nozzle device 2 and the first rotary nozzle device 2
The nozzle arm and the nozzle tip (described later) of the sixth and second rotary nozzle devices 27 are exposed. This facilitates maintenance and inspection of the first rotary nozzle device 26 and the second rotary nozzle device 27, and replacement of the cylindrical rotary member, the nozzle arm and the nozzle tip.

Here, the cleaning apparatus 2 configured as described above will be described with reference to a pneumatic system for performing a cleaning operation and a water supply system. First, the water supply system will be described. As shown in FIG.
The high-pressure cleaning water and the cooling water are supplied to the first rotary nozzle device 26 and the second rotary nozzle device 27 of the cleaning unit 21 by the ultra-high pressure pump unit 33. Although not shown, the ultra-high pressure pump unit 33 includes a tank for storing about 300 liters of washing water, and sucks water from this tank to supply water under high pressure to the first rotary nozzle device 26. And an ultra-high pressure pump 34 for supplying to the second rotary nozzle device 27. The ultra-high pressure pump unit 33 is configured to supply cooling water to the ultra-high pressure pump 34, and furthermore, the first rotary nozzle device 26 and the second rotary nozzle device 2
7 is configured to supply cooling water.

Next, in the cleaning device 2, a high-pressure cleaning water supply path Lwh for supplying high-pressure cleaning water from the ultra-high pressure pump unit 33 to the first rotary nozzle device 26 and the second rotary nozzle device 27, and an ultra-high pressure pump unit A cooling water supply path Lwc for supplying cooling water from 33 is formed.

The high-pressure washing water supply passage Lwh has a high-pressure water branch passage Lwh for supplying high-pressure water to a hand gun described later.
1 and a high-pressure water branch Lwh1, a high-pressure water drain Lwh2 reaching the sewage tank 17 is formed. A manual stop valve 35 is interposed in the high-pressure washing water supply passage Lwh, and is an air-operate for supplying / cutting off high-pressure washing water to a location immediately adjacent to the first rotary nozzle device 26 and the second rotary nozzle device 27. An on / off valve 36 is interposed. Further, a manual stop valve 37 is provided in the high-pressure water branch Lwh1.
, An air-operated on-off valve 38 is interposed. Further, an air-operated on / off valve 39 is interposed in the high-pressure water drainage channel Lwh2.

In the cooling water supply passage Lwc, a cooling water branch passage Lwc1 for supplying cooling water to the hand gun is formed. An electromagnetic two-way valve 40 and a manual ball valve 41 are interposed in the cooling water supply passage Lwc, and an electromagnetic valve 42 and a manual ball valve 43 are arranged in the cooling water branch passage Lwc1.
Is interposed.

In the cleaning device 2, a relatively low-pressure rinsing water is supplied to the low-pressure cleaning means 22 adjacent to the cleaning unit 21 for cleaning the surface of the work W from which dirt is removed by the cleaning unit 21. Rinsing water supply path Lr is provided. The low-pressure cleaning means 22 has fan-shaped nozzles 44, 44 arranged so as to wash the lower surface of the upper surface of the work W sent by the conveyance guide roller 20. Can be changed. An electromagnetic valve 4 is provided in the rinsing water supply passage Lr.
6. A manual ball valve 47 is interposed in the immediate vicinity of the fan-shaped nozzles 44,44. Further, in the cleaning device 2, a dust removal water supply path Ls for washing off dirt separated from the work W and attached to the vicinity of a portion reaching the sewage tank 17 below the conveyance guide roller 20 is formed. The trash removal water supply path Ls is branched so that trash removal water is supplied to both sides of the sewage tank 17, and manual ball valves 48, 48 are interposed therebetween.

Next, the pneumatic system in the cleaning device 2 will be described. High pressure washing water supply passage Lwh, high pressure water branch passage Lwh
The air-operated on / off valves 36, 38 and 39 of the high pressure water drain Lwh2 and 1 operate on / off by high-pressure control air, and supply control air through an air-conditioning control unit 49. The control air supply path Lac is formed. Solenoid valves SL1, SL2, SL3, and SL4 are connected in parallel to the control air supply passage Lac, and air-operated on / off valves 36, 38 are connected from these solenoid valves SL1 to SL4 via a control air supply tube Tu. , 39 are switched and supplied to the control air. A drying air supply path Lad for supplying drying air from the blower 50 is formed in the air-blowing means 23 adjacent to the low-pressure cleaning means 2. The low-pressure cleaning means 2 has blow nozzles 51, 51 arranged so as to dry the lower surface of the upper surface of the cleaned work W sent by the conveyance guide roller 20.
The cleaning device 2 is connected to a hand gun 52 that injects high-pressure cleaning water onto a workpiece W to be cleaned while being held in a hand. An air motor 53 for opening / closing the high-pressure water supply passage Lhg is interposed in a high-pressure water supply passage Lhg provided in the hand gun 52, and an air motor air through a hand-gun air motor air supply passage Lagh formed in the cleaning device 2. Are configured to be supplied. In addition, the air motor air supply passage Laghg for the handgun is
Unit 54 is interposed.

In the cleaning apparatus 2 having the above structure,
The first rotary nozzle device 26 and the second rotary nozzle device 27 that constitute the cleaning unit 21 will be described in more detail. First, as shown in FIG. 5, the first rotary nozzle device 26 is placed on a base plate D of an elevating frame 25 that is vertically movable inside an outer frame 24 erected on the base 15. It has a nozzle base 56 attached to a rectangular support base 55 and a motor housing 57 for housing a motor as a driving source. An inlet (not shown) for introducing high-pressure washing water from the high-pressure washing water supply passage Lwh is provided on the top side of the nozzle base 56, and a support base 5 is provided on the lower end side.
A cylindrical rotating body 58 is mounted so as to protrude downward and rotate freely, and passes through the inside of the nozzle base 56 from an inlet on the top side of the nozzle base 56 to rotate.
, A high-pressure washing water passage (not shown) is formed. The support base 55 has a built-in mechanism (not shown) for transmitting power from the motor in the motor housing 57 to the cylindrical rotating body 58. On the outer peripheral side surface of the cylindrical rotary member 58, the nozzle arm 5
9a, 59b, 59c, 59d, 59e, 59f, 59
g and 59h are detachably attached by nuts N. A high-pressure water passage is formed in each of the nozzle arms 59a to 59h, and communicates with a high-pressure washing water passage in the cylindrical rotary member 58. The nozzle arms 59a to 59h
Is located in a horizontal state for a predetermined distance from a mounting position on the outer peripheral side surface of the cylindrical rotary member 58, and the tip side is directed to the rotation axis side of the cylindrical rotary member 58 at a predetermined angle (60 degrees) with respect to the horizontal portion. ing. In addition, the nozzle arm 59a
, A nozzle arm 59b, a nozzle arm 59c and a nozzle arm 59d,..., Two at a predetermined angle (approximately 30
Degrees) (see FIG. 6). At the tips of these nozzle arms 59a to 59h, nozzle tips 60a, 60b, 60c, 60d, 60e, 60f,
60g and 60h are mounted. The first rotary nozzle device 26 has been described above.
7, the nozzle arm 59a has the same structure.
Since only the dimensions of the horizontal parts of the range from 59h to 59h are different, the description is omitted. The nozzle arms 59a to 59h and the nozzle tip 60a attached to the cylindrical rotary body 58
The standard size and shape of ~ 60h can be appropriately selected and attached depending on the type of the work W, dirt, and the like.

The cleaning device 2 according to the present invention is configured as described above. Next, a procedure for cleaning the temporary construction material (work W) by the cleaning device 2 will be described. After use, temporary construction materials (scaffolding, bracing, cloth, safety steel plates, etc.) laid at a construction site or the like are sorted by product name, and a predetermined number of them are stacked on a pallet. When the temporary construction materials (work W) loaded on these pallets are washed, the work W is conveyed by the first carry-in conveyor 3 of the washing line 1, and the work W is loaded and unloaded from the pallets by the depalletizer 4. The work W is carried in by the second carry-in conveyor 5, the work W is transferred from the second carry-in conveyor 5 to the loading conveyor 7 by the lifter 6, the work W is sent to the cleaning device 2, and the work W is washed with high-pressure water. . Next, the work W that has been peeled and cleaned by the cleaning device 2 is taken out by the separation conveyor 8, transferred from the unloading conveyor 9 to the loading conveyor 11 by the lifter 10, and the palletizer 12 removes the work W that has been cleaned on the pallet by a predetermined number. Loading is carried out by the carry-out stock conveyor 13 and stored in a predetermined storage place, whereby the washing is completed. This washing line 1
In the above, the centralized control operation can be performed according to the procedure set by the well-known control means mounted on the control panel 14.

Here, the cleaning process in the cleaning device 2 will be described in more detail. When the work W to be cleaned is sent into the cleaning device 2 by the charging conveyor 7,
In the cleaning device 2, the work W is brought directly below the cleaning unit 21 by the conveyance guide roller 20 activated by the geared motor 16 which is a power source of the work W conveyance guide in the base 15. At this time, the separation distance (clearance) between the nozzle tips 60a to 60h and the surface of the work W at the tips of the nozzle arms 59a to 59h of the first rotary nozzle device 26 and the second rotary nozzle device 27 constituting the cleaning unit 21. ) Can be adjusted in advance according to the type of the workpiece W, the type and degree of dirt. That is, the lifting frame 2 on which the cleaning unit 21 is placed
5 is connected to a geared motor 29 on the upper part 28 of the outer frame 24.
Can be activated and adjusted upward and downward by the worm jack 30. Further, the cleaning unit 21 is attached to the outer frame 2.
With the winch 31 installed on the four sides, the lifting frame 25
By winding up a wire-W that is bridged and connected to one side of the base plate D of the elevating frame 25 via the pulley 32 arranged at the upper part, the base plate D of the elevating frame 25 is tilted and pulled up, and the first rotary nozzle device 26 And the nozzle arms 59a-59h and the nozzle tips 60a-60 of the second rotary nozzle device 27.
h, the first rotary nozzle device 26 and the second rotary nozzle device 27 are maintained and inspected, the cylindrical rotary member 58, the nozzle arms 59a to 59h, and the nozzle tip 60a are exposed.
交換 60h can be easily replaced (see FIG. 3). Further, it is possible to selectively operate the first rotary nozzle device 26 or the second rotary nozzle device 27 according to the width dimension of the work W brought directly below the cleaning unit 21. That is, the ultra-high pressure pump unit 3
In the high-pressure washing water supply passage Lwh for supplying high-pressure washing water from 3, the manual stop valve 35 is operated and opened.
First rotating nozzle device 26 and second rotating nozzle device 27
By selectively opening the air-operated on-off valve 36 in the immediate vicinity of, high-pressure washing water can be supplied to the first rotary nozzle device 26 or the second rotary nozzle device 27. In the air-operated on-off valve 36, the solenoid valves SL1 and SL2 are selectively activated to excite the control air to control air supply passage Lac.
From the air through the control air supply tube Tu
By switching the supply to the toon-off valve 36, an on-off operation can be performed. When the first rotary nozzle device 26 or the second rotary nozzle device 27 is operated, the electromagnetic two-way valve 40 and the manual ball valve 41 in the cooling water supply passage Lwc are operated, and the ultra-high pressure pump unit 33 is operated. Cooling water can be supplied through the cooling water supply path Lwc.

In order to operate the first rotary nozzle device 26, the motor in the motor housing 57 is started with the air-operated on-off valve 36 opened and high-pressure washing water supplied to the nozzle base 56. The cylindrical rotating body 58 protruding from the lower end is rotated. The high-pressure washing water is supplied to the nozzle base 5
6 through the nozzle base 56 to the cylindrical rotating body 58, and through the nozzle arms 59a to 59h on the outer peripheral side surface of the cylindrical rotating body 58, the nozzle tip 6
From 0a to 60h, it is sprayed on the surface of the work W. At this time, since the cylindrical rotating body 58 is rotating at a predetermined number of revolutions, the high-pressure cleaning water hits the surface of the work W in an arc. Here, the nozzle arms 59a to 59h are oriented such that the front end side is directed to the rotation axis side of the cylindrical rotary body 58 by approximately 60 degrees with respect to a horizontal portion, so that the high pressure is applied to the front and rear and both end surfaces of the work W. Wash water can be applied (see FIG. 7). In addition, since the tip ends of the nozzle arms 59a to 59h are inclined by approximately 30 degrees with respect to the vertical direction so that the tips of the nozzle arms 59a to 59h approach each other (see FIG. 8), the surface of the work W has irregularities. Also, since the jet flow hits the surface of the work W at a large angle (close to a right angle), a large separation effect of dirt can be expected (see FIG. 9).

As described above, the work W is peeled and cleaned while the work W is moved directly below the first rotary nozzle device 26 by the conveyance guide roller 20, and the cleaned work W is then moved into a sector shape in the adjacent low-pressure cleaning means 22. It is brought below the nozzles 44,44. Here, the solenoid valve 46 of the rinsing water supply path Lr is opened and the manual ball valve 47 is operated to
Rinsing water is sprayed from the fan-shaped nozzles 44, 44 onto the surface of the work W from which the dirt has been peeled off, so that cleaning can be performed. When the work W is further moved by the conveyance guide roller 20, this time, the work W is brought to the air-blowing means 23,
The drying air from the blower 50 is supplied to the drying air supply path Lad.
Through the blow nozzles 51, 51, the cleaned upper surface and lower surface of the work W can be dried. Then, it is taken out by the separation conveyor 8 and carried out by the unloading conveyor 9.
From the lifter 10 to the loading conveyor 11, the palletizer 12 loads a predetermined number of the washed works W on the pallet, unloads it by the unloading stock conveyor 13, stores it in a predetermined storage location, and stores it in new construction. They can be kept on standby for immediate service.

[0018]

As described above, according to the present invention, (1) the high-pressure water jetting means in the cleaning unit can adjust the separation distance from the surface of the object to be cleaned according to the object to be cleaned. Effective cleaning is possible. (2) Since at least two rotary nozzle devices having different injection ranges are provided, it is possible to cope with various objects to be cleaned, and it is unnecessary to change the injection means according to the object to be cleaned. Also, consumables are reduced, and both initial cost and running cost can be kept low. (3) Since the injection means of the high-pressure water in the cleaning unit can be exposed from the cleaning chamber, maintenance and inspection work is facilitated. (4) Since at least two rotary nozzle devices having different injection ranges can be selectively switched and used, a rotary nozzle device that can efficiently use high-pressure water produced by a pump and that corresponds to the width of an object to be cleaned can be provided. Since it can act, an efficient peeling and cleaning effect can be expected. (5) By inclining the jetting direction, not only the surface of the object to be cleaned, but also the front, rear, left and right side surfaces, and the surroundings of the fitting can be uniformly peeled and cleaned. (6) By using high-pressure water, cleaning can be performed simultaneously with peeling, so that there is no residue. Further, unlike the means of simply rubbing the surface with metal, the object to be cleaned is not damaged, and the temporary construction material to be cleaned can be provided in a state similar to a new one for a long period of time.

[0019]

[Brief description of the drawings]

FIG. 1 is a schematic overall configuration diagram showing an example of a cleaning line to which a building material cleaning apparatus according to the present invention is applied.

FIG. 2 is a side view showing an external appearance of a cleaning apparatus for building materials according to the present invention.

FIG. 3 is an external side view of the cleaning apparatus shown in FIG. 2 as viewed from the other side.

FIG. 4 shows an apparatus for cleaning building materials according to the present invention.
It is a water supply system diagram and a pneumatic system diagram.

FIG. 5 is an explanatory perspective view showing the outer appearance of a rotary nozzle device in the cleaning device shown in FIG.

FIG. 6 is a schematic plan view of a cylindrical rotary member, a nozzle arm, and a nozzle tip of the rotary nozzle device shown in FIG. 5;

FIG. 7 shows a rotary nozzle device of a cleaning device according to the present invention.
FIG. 4 is an operation explanatory view showing a cleaning water jetting direction with respect to an object to be cleaned.

FIG. 8 is a schematic diagram showing an example of an ejection direction at a nozzle tip of a rotary nozzle device of a cleaning device according to the present invention.

FIG. 9 shows the rotary nozzle device of the cleaning device according to the present invention.
It is an effective sectional explanatory view showing the washing water jetting direction to the object to be washed.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Washing line 2 Washing device 3 1st loading conveyor 4 Depalletizer 5 2nd loading conveyor 6, 10 Lifter 7 Input conveyor 8 Separation conveyor 9 Unloading conveyor 11 Loading conveyor 12 Palletizer 13 Unloading stock conveyor 14 Control board 15 Base 16 Gear motor 17 Sewage tank 18 Control operation panel 19 Cleaning room 20 Conveyance guide roller 21 Cleaning unit 22 Low pressure cleaning means 23 Air blow means 24 Outer frame 25 Elevating frame 26 First rotary nozzle device 27 Second rotary nozzle device 28 Ceiling 29 Geared motor 30 Worm jack 31 Winch 32 Pulley 33 Ultra high pressure pump unit 34 Ultra high pressure pump 35, 37 Manual stop valve 36, 38, 39 Air operated on / off valve 40 Electromagnetic two way valve 41, 43, 47, 4 Manual ball valves 42, 46 Solenoid valve 44 Fan-shaped nozzle 45 Ball joint 49, 54 Air control unit 50 Blower 51 Blow nozzle 52 Hand gun 53 Air-motor 55 Support base 56 Nozzle base 57 Motor housing 58 Cylindrical rotating body 59a to 59h Nozzle Arms 60a to 60h Nozzle tip W Work Lwh High-pressure cleaning water supply path Lwh1 High-pressure water branch path Lwh2 High-pressure water drainage path Lwc Cooling water supply path Lwc1 Cooling water branch path Lr Rinse water supply path Ls Dust removal water supply path Lac Control air supply path SL1 ~ SL4 Solenoid valve Tu control air supply tube Lad Air supply path for drying Lhg High pressure water supply path Lagh Air motor air supply path for handgun

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. ⁶ , DB name) E04G 19/00 B08B 3/02

Claims (7)

(57) [Claims] 1. A cleaning apparatus for cleaning a building material for cleaning by spraying high-pressure water toward the object to be cleaned.
A cleaning room for cleaning objects to be cleaned on a base equipped with a power source
To be operated by the power source
A transport guide roller for carrying the cleaning object into the cleaning chamber
When the cleaning chamber enters the cleaning chamber,
At the same time, adjust the distance to the object to be washed
A cleaning unit is provided so as to be able to be disposed, and the cleaning unit is disposed above the object to be cleaned moving on the transport guide roller.
It has a rotary nozzle device that injects high-pressure washing water to the object to be washed, and adjacent to this washing unit, a low-pressure washing unit that injects low-pressure washing water compared to the pressure of washing water in the washing unit is provided, An apparatus for cleaning architectural materials, further comprising an air blow means for drying an object to be cleaned wet by cleaning. 2. A rotary nozzle in the cleaning unit.
As a configuration in which the device is tilted above the cleaning room,
Exposing the high-pressure washing water injection means in the spill device
2. The apparatus for cleaning building materials according to claim 1, wherein the apparatus is used for maintenance and inspection work . 3. The cleaning unit includes a conveyance guide roller.
High-pressure washing of the object to be cleaned from above
Injects clean water, at least the spray range depending on the object to be cleaned
The cleaning device for building materials according to claim 1 or 2, further comprising a plurality of rotary nozzle devices having different sizes . 4. The rotary nozzle device is mounted on a support table.
A nozzle base attached thereto, and a drive source container,
At the base, it can rotate freely so that it protrudes below the support base
To the inside of the nozzle base from the nozzle base.
Having a high-pressure washing water passage so as to reach the rotating body,
Moving from the drive source to the rotating body in the drive source housing in the support base
Has a mechanism for transmitting force, the outer peripheral side of the rotating body
, Multiple nozzle arms are removably mounted radially
And a passage for high-pressure water in these nozzle arms.
Through the high-pressure washing water passage in the rotating body,
4. A nozzle according to claim 1, wherein a nozzle tip is attached to a tip of the arm.
Cleaning equipment for building materials as described. 5. The nozzle arm determines an injection range.
From the attachment point on the outer peripheral side of the rotating
5. The cleaning device for building materials according to claim 4, wherein the cleaning device has a horizontal portion having a fixed size . 6. The nozzle arm is located at a front end of a horizontal portion.
Nozzle tip mounting location is cleaned with high-pressure water spray direction
Rotation body rotation center direction at a predetermined angle from perpendicular to the surface of the object
The cleaning device for building materials according to claim 4 or 5, wherein the cleaning device is configured so as to be inclined . 7. The horizontal position of the nozzle arm at the front end side
Rotate the nozzle tip mounting position with the positive rotation direction of the rotating body
The construction material cleaning apparatus according to any one of claims 4 to 6, wherein the construction material is inclined at a predetermined angle in a negative direction .