JP2003206632A - Sprayer and spraying method making use thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lightweight and compact sprayer and a spraying method making use thereof capable of being easily movable without greatly interrupting work like the conventional trowel work and preventing low efficiency like the conventional spray work. <P>SOLUTION: In the portable lightweight and compact sprayer comprised of a hopper for storing a mortar, a vibrator for quantitatively supplying the mortar to a screw feeder, an electric motor for driving the screw feeder and the vibrator and a nozzle introducing a compressed air insertion pipe for supplying the compressed air, when the hopper makes the screw feeder as a horizontal shaft, the sprayer is characterized by inclining to the nozzle side at an angle of 20 to 80°, and the spraying method sprays the mortar by making use of the sprayer. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spraying device for repairing a defective portion of a concrete structure by spraying and a spraying method using the spraying device.

[0002]

2. Description of the Related Art Concrete structures are subject to salt damage, neutralization,
Deterioration may progress due to the effects of freeze-thawing and chemical corrosion, and the surface may be cracked or floated, causing concrete fragments to drop off. As a countermeasure against this, work is being carried out to scrape off the missing parts that have fallen off or where there are cracks, floats, etc., and then backfill them again with mortar. In the past, mortar was filled with trowel coating, but when deterioration progresses to the back of the reinforcing bar and it must be repaired, the iron does not enter the back of the reinforcing bar and sufficient repair work cannot be performed.
There was a problem that voids were generated inside and sufficient adhesion and durability could not be obtained. Further, in the conventional cross-section repair by the iron coating, the kneaded mortar is applied to the repair cross-section, and therefore the workability is deteriorated unless the cross-section is smooth to some extent, and the adhesion of the mortar may be deteriorated. . As an alternative construction method, application of a spraying construction method can be mentioned. In the repair method by spraying, the mortar is pumped, mixed with compressed air, and the mortar is blown off.Therefore, the adhesiveness to the repaired cross section is excellent, and the solid filling of the backside of the rebar is easy. There was an advantage that quality repair parts could be obtained and the construction speed was fast.

[0003]

However, if the spraying method is directly applied to the repair of small cross-sections, the construction equipment will be large and the construction cost will be high despite the small amount of material required for the repair, and the preparation and post-cleaning will be troublesome. There was a problem such as cost. There is also a problem that the working space is limited due to the length of the mortar pumping hose, and that when the work is carried out outside the working space, the entire spray equipment must be moved. Therefore, you can easily move to another repair location without significantly interrupting the construction like the conventional ironing work, and the efficiency is not as low as the conventional spraying work,
A cross-section repairing method using a lightweight and small spraying device has been demanded. The present inventor has conducted extensive studies to solve the problems, and as a result, by developing a portable lightweight small-sized spraying device having a specific structure, another repair point can be achieved without significantly interrupting the construction. It became possible to spray mortar while moving easily.

[0004]

Means for Solving the Problems That is, the present invention provides a hopper for storing mortar, a vibrator for quantitatively supplying mortar to a screw feeder, and a screw feeder for transporting mortar to a nozzle. In a portable lightweight compact spraying device consisting of an electric motor for driving the screw feeder and vibrator, and a nozzle with a compressed air insertion tube for supplying compressed air, the hopper horizontally controls the screw feeder. When the shaft is used, the spraying device is characterized in that it is inclined at an angle of 20 to 80 on the nozzle side, and the spraying method is for spraying mortar using the spraying device.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in detail below (see FIG. 1).

The spraying device 1 of the present invention comprises a hopper 2 for storing mortar, a vibrator 4 for quantitatively supplying the mortar to the screw feeder 3,
Consists of a screw feeder 3 for transporting the mortar to the nozzle 5, an electric motor 6 for driving the screw feeder 3 and the vibrator 4, and a nozzle 5 in which a compressed air insertion pipe 7 for supplying compressed air is introduced. It is lightweight and small, so it is portable.

The hopper 2 for storing mortar is
The body 8 is connected to the lower part, and the mortar stored in the hopper 2 drops into the body 8 from a drop opening 9 to the screw feeder 3 provided at the rear end of the body 8. The hopper 2 for storing the mortar has a hopper 2 on the nozzle 5 side when the screw feeder 3 is used as a horizontal axis.
The structure is inclined at an angle of 0 to 80 °. When spraying the repaired portion of the top end, the spraying work is performed with the nozzle oriented perpendicularly to the top end surface, so it is necessary to tilt the spraying device. Therefore, the hopper 2 is 20 to 8 on the nozzle side.
If it is not inclined by 0 °, stable discharge of mortar cannot be performed. This is mainly because the nozzle 5 is inclined by about 45 °. The capacity of the hopper 2 for storing mortar is not particularly limited, but there is no particular problem as long as it is 5 liters or less so that the spraying work can proceed smoothly. If the volume exceeds 5 liters, the mass increases, and it may be laborious to carry out the spraying operation by hand. A lid may be attached to the hopper 2.

The vibrator 4 for quantitatively supplying the mortar to the screw feeder 3 is operated by an electric motor 6 for driving the vibrator 4 and the screw feeder 3 and a vibrator operating plate 11 mounted on the shaft 10. This is a system, and is installed at the upper part of the dropping port to the screw feeder 3. The shape of the vibrator 4 is rod-shaped, and when the screw feeder 3 is driven, the vibrator 4 vibrates at the same time via the shaft 10 and the vibrator working plate 11 to promote the mortar to drop, and the mortar can be quantitatively supplied to the screw feeder 3. It is a thing.

The screw feeder 3 is installed inside the body 8, transports mortar from the hopper 2 to the nozzle 5, and is attached to the shaft 10. The shape of the screw feeder 3 and the pitch of the screws are not particularly limited. In the present invention, the rotation speed of the screw feeder 3 can be adjusted, and mortar can be stably discharged by operating at a constant rotation speed.

The electric motor 6 drives the vibrator 4 and the screw feeder 3, and the shaft 1
It is connected to 0. The type of the electric motor 6 is not particularly limited, but any commercially available electric motor can be used.

The nozzle 5 is provided at the tip of the body 8 and introduces a compressed air insertion pipe 7 for supplying compressed air along the mortar flow. Further, the nozzle 5 can freely rotate the direction of the nozzle tip by 360 °. Then, it is for obtaining the optimum spraying condition of the mortar and the optimum property of the repair member.

A valve 12 for adjusting the flow rate of the compressed air is provided at the rear end of the compressed air insertion tube 7, and the tip for ejecting the compressed air is installed inside the nozzle 5. It is preferable that the distance between the tip of the compressed air insertion tube 7 and the tip of the nozzle 5 is variable, because the flow rate of the compressed air can be finely adjusted and the dispersibility of the mortar discharged from the nozzle 5 can be adjusted. To change the distance between the tip of the compressed air insertion tube 7 and the tip of the nozzle 5, the compressed air insertion tube 7 is inserted into the nozzle 5 along the flow of mortar, and the position of the tip of the compressed air insertion tube 7 is adjusted. It is preferable to fix the compressed air insertion tube 7 with the fixing screw 13. The method of merging and mixing the compressed air is not particularly limited, but as described above, the compressed air insertion pipe is provided with holes so that the compressed air is inserted in the same direction with respect to the flow of the mortar to be transported. In addition to the insertion method for installing and joining, a double tube is connected between the nozzle and the screw feeder outlet, the mortar is transported into the inner tube, and compressed air is introduced into the outer tube to join. To be

The diameter of the mortar discharge port at the tip of the nozzle 5 is
It is preferably 6 to 16 mm, more preferably 8 to 14 mm. If it is less than 6 mm, the mortar may become blocked, and 1
If it exceeds 6 mm, the mortar is not blown off from the tip of the nozzle 5, and the tip of the nozzle 5 may sag.

The spraying device 1 is provided with an electric motor operating switch 14 (hereinafter referred to as a switch).
The vibrator 4 and the screw feeder 3 are operated by turning on and off 4. Switch 14 to spraying device 1
By providing, the operator can easily and quickly perform the spraying work. Further, the switch 14 may not be provided in the spraying device 1 and may be a remote control switch.

The compressor for supplying compressed air is not particularly limited, but the air consumption is 0.1 m ³ /
Any compressor with a capacity of min or more can be used.

The mortar to be used in the present invention is not particularly limited, but is usually a cement, an ordinary mortar consisting of aggregate, a polymer cement mortar containing a polymer, or a special cement mixture containing various cement admixtures. Mortar etc. can be used.

According to the spraying method of the present invention, a defective portion of a concrete structure or a portion where a crack or a floating portion is scraped off is sprayed to restore the structure.

The spraying method used in the present invention is carried out as follows. The kneaded mortar is packed in the hopper 2 of the spraying device 1, and the compressed air is fed under pressure from the compressed air insertion pipe 7 introduced into the nozzle 5. Next, the switch 14 is turned on to drive the electric motor 6 to operate the vibrator 4 and the screw feeder 3. Then hopper 2
The mortar therein is transported to the nozzle 5 through the screw feeder 3 provided inside the body 8, and is blown off from the tip of the nozzle 5 along with the compressed air ejected from the compressed air insertion tube 7. Spraying is performed while controlling the distance from the tip of the nozzle 5 to the spraying surface so that the repaired portion is uniformly filled. At that time, in order to maximize the adhesive force of the mortar, the distance from the tip of the nozzle 5 to the spray surface should be 5
It is preferably within 0 cm, and the amount of compressed air consumed is preferably set to 0.1 m ³ / min or more.

In order to suppress the occurrence of cracks on the surface of the repaired portion, it is preferable to spray or apply a primer liquid such as an ethylene-vinyl acetate copolymer on the surface finished with the iron after the mortar is hardened.

[0020]

[Experimental Example] Hereinafter, detailed description will be given based on an experimental example.

Experimental Example 1 A surface of a concrete pavement board (commercially available) having a length of 30 cm, a width of 30 cm and a thickness of 6 cm was jetted with a kerosene to remove the surface,
A lath net having a diameter of 6 mm and a pitch of 10 cm was driven by anchor pins at the four corners of the lath net so that the distance between the surface after lapping and the lath net was 2 cm, and fixed with a wire. After that, after applying a primer solution consisting of ethylene-vinyl acetate copolymer on the surface after the keren, the concrete pavement plate with the lath net fixed is placed parallel to the ground so as to be the top end surface, and the surface after the keren The mortar having the composition shown in Table 1 was sprayed by the spraying device 1 shown in FIG. The curing time until the second spraying was about 1 hour. As the hopper 2 of the spraying device 1, a hopper having a capacity of 2 liters and a lid was used. Then, the concrete pavement board sprayed with mortar was used as a specimen, and the adhesion strength, the coefficient of variation, and the filling state were confirmed. The results are shown in Table 1.

(Material used) Cement mortar: Commercial product,
Cross-section restoration material, wet spray mortar, specific gravity 2.8 polymer: commercial product, styrene-butadiene rubber aqueous dispersion, concentration 45%, specific gravity 1.0

(Blowing conditions) Compressed air flow rate: 0.4 m ³ / min Mortar discharge rate: 0.18 m ³ / hr Spraying distance (distance from tip of nozzle 5 to spraying surface):
30-40 cm Nozzle 5 tip diameter: 1 cm

(Measurement method) Compressive strength: A specimen was collected by spraying directly on a triple mold of 4 × 4 × 16 cm, and at a predetermined material age (7 days, 28 days),
It was measured with a compressive strength tester. Adhesion strength: Each specimen is stored in a room at a temperature of 20 ° C. and a humidity of 60% for 28 days, and a core drill (diameter 5.5 cm) is drilled about 1 cm deep from the surface of the specimen to establish the adhesion strength after 28 days of age. It was measured with a Ken-type adhesion tester. Coefficient of variation: The coefficient of variation was calculated by the following formula from the adhesive strength of the nine test pieces measured at 28 days of age. Coefficient of variation (%) = (standard deviation of adhesion strength / average value) × 10
0 Observation of filling state: A test piece was cut along a portion through which the reinforcing bars of the lath net were passed so as to be divided into 9 parts by a concrete cutter, and the presence or absence of voids was observed.

[0025]

[Table 1]

From Table 1, by using the spraying device of the present invention, it is possible to stably discharge the mortar even if the spraying device is tilted, the adhesion strength is large, the variation is small, and the voids are formed in the mortar layer. It can be seen that there is no good filling condition.

[0027]

EFFECTS OF THE INVENTION The spraying device used in the present invention and the spraying method using the spraying device can be easily moved to another repair place without significantly interrupting the construction unlike the conventional ironing work. It is not as inefficient as conventional spraying operations.
Also, it can be applied to repair small cross-sections to which iron coating is applied, even in places where work is difficult, such as the top surface,
Compared to the repair member painted with a trowel, it has excellent adhesion and adhesion strength to the defective cross section, short working time, and excellent filling properties even when working on complicated repair points such as when there is a reinforcing bar. Stable cross-section repair is possible. further,
Since the coefficient of variation of the bond strength is also small, uniform and stable cross-section repair is possible. Since the spraying device used in the present invention consumes less compressed air, a compact compressor can be used and an electric motor with a small driving force can be used. Therefore, the spraying device used in the present invention is lightweight, compact, and portable, and can be easily moved to another repair place.

[Brief description of drawings]

FIG. 1 is a sectional view and a front view of a spraying device used in the present invention.

[Explanation of symbols]

1 Spraying device 2 hopper 3 screw feeder 4 vibrators 5 nozzles 6 electric motor 7 Compressed air insertion tube 8 body 9 Drop mouth 10 shaft 11 Vibrator operating plate 12 valves 13 fixing screws 14 Electric motor operation switch (switch)

Claims (2)

[Claims] 1. A hopper for storing mortar,
A vibrator for quantitatively supplying the mortar to the screw feeder, a screw feeder for transporting the mortar to the nozzle, an electric motor for driving the screw feeder and the vibrator,
In a portable lightweight small-sized spraying device composed of a nozzle into which a compressed air insertion tube for supplying compressed air is introduced, when the hopper has a screw feeder as a horizontal axis, the nozzle side is at an angle of 20 to 80 °. A spraying device characterized by being inclined. 2. A spraying method for spraying mortar using the spraying device according to claim 1.