JPS648580B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for spray coating a construction object with a paste composition obtained by kneading an inorganic fiber material, an inorganic powder material, etc. and a binder with water, and an improvement in the apparatus thereof. It is.

Conventionally, the pasty composition as described above is applied to a construction work by supplying the paste composition into a hose using a pressure pump, and blowing compressed air through a spray nozzle at the tip of the hose. There is a construction method in which the material is finely dispersed and sprayed, but with this method, unless the viscosity of the paste composition is small, the paste composition cannot be finely dispersed with compressed air, so high viscosity materials cannot be sprayed. I can't.

Therefore, if the viscosity of the paste composition is lowered (increasing the amount of water), the sprayed layer on the construction object may sag or fall off, and this tends to be especially true when spraying on ceiling walls. It's striking. Further, the above-mentioned spraying method has problems such as generation of dust and large losses due to splashing.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and an apparatus for efficiently and reliably spraying a highly viscous paste composition onto a construction body. This is the main purpose.

The method of spraying a paste composition on a workpiece according to the present invention includes continuously pumping the paste composition from a pressure feeding passage to an injection passage, and continuously applying the paste composition fed to the injection passage. It is characterized by shearing and separating the paste composition in the pressure-feeding passageway into small lumps, and intermittently injecting the small lumps toward the construction work from the injection port.

Further, the pasty composition spray coating apparatus according to the present invention includes a passage for force-feeding the paste composition, an injection passage communicating with the passage, and a continuous supply of the paste composition from the pressure-feeding passage to the injection passage. a shearing device for shearing and separating the pasty composition continuously supplied from the pressure-feeding passage to the injection passage from the pasty composition in the continuous pressure-feeding passage to form small lumps; It consists of a device that intermittently injects lumps from a burial mound by the action of compressed air, and a device that operates the pasty composition supply device, shearing device, and small lumps injection device in a fixed order. It is characterized by the fact that

Hereinafter, the present invention will be explained in detail based on the drawings showing embodiments thereof.

In FIGS. 1 and 2, 1 is a nozzle cylinder forming an injection passage for the paste composition, and the opposite side to the injection port 1a is a pressure receiving port 1b for compressed air.
It is becoming. The nozzle cylinder body 1 has a pressure receiving port 1.
A cylindrical body 2 forming a passage for pumping the paste composition is cross-connected at a right angle to a portion near b, and the other end is communicated with a pump 3 for pumping the paste composition.

A device for intermittently supplying compressed air is connected to the pressure receiving port 1b of the nozzle cylinder 1. That is, 4 is a compressor, 5 is a pressure regulating valve, 6 is a solenoid valve, 6a is a discharge pipe, 7 is a relay, and 8 is a twin timer, and the twin timer 8 sets the discharge time and rest time of compressed air. It is becoming more and more like this.

In order to apply a paste composition to a workpiece using the pasty composition spray coating apparatus configured as described above, the pasty composition is pumped through the nozzle cylinder 2 by the pressure pump 3 and then into the nozzle cylinder. On the other hand, compressed air from the compressor 4 is intermittently jetted from the pressure receiving port 1b of the nozzle cylinder 1 into the cylinder based on the time set by the timer 8.

In the above operation, as shown in FIG. 1, when the leading portion of the paste composition a passing through the pressure-feeding cylinder 2 is press-fitted into the nozzle cylinder 1, compressed air is introduced into the nozzle cylinder from the pressure receiving port 1b. When ejected into the nozzle body 1, the small lumps _a1 of the paste-like composition press-fitted into the nozzle cylinder body 1 are
As shown in the figure, the paste composition a in the pressure-feeding cylinder 2 is sheared and separated from the injection port 1 of the nozzle cylinder 1.
A is injected toward the construction body (not shown) and applied. Thereafter, the jetting of compressed air is stopped, and during the pause time, the paste composition in the pressure-feeding cylinder 2 is again press-fitted into the nozzle cylinder 1 from the sheared front part, and the compressed air is It is separated by shearing and is injected. In this way, by alternately performing the operation of shearing and separating the paste composition into small lumps and the operation of spraying the small lumps, the paste composition can be spray-coated onto the construction body.

Therefore, according to the above-mentioned spray coating operation, the highly viscous paste composition can be efficiently and reliably spray coated onto the construction body. Further, according to the spray coating apparatus, the twin timer 8 allows the jetting time and resting time (the time for charging the paste composition into the nozzle cylinder) of the compressed air to be arbitrarily set. According to the above settings, the size of the small lumps to be injected, the number of injections, the ejection flight distance of the small lumps, etc. can also be adjusted, and the flying distance can also be adjusted by the pressure regulating valve 5. can.

In the illustrated example, the paste composition a press-fitted into the nozzle cylinder 1 is filled up to the pressure receiving port 1b, but the distance from the pressure receiving side cylinder portion to the pressure receiving port 1b is increased. If a space is provided between the small lump a1 of the paste-like composition press-fitted into the cylinder ₁ and the pressure receiving port 1b, the resistance during shear separation operation using compressed air can be reduced.

3 and 4 show examples in which a highly viscous pasty composition that is difficult to shear and separate with compressed air is mechanically sheared. That is, the compressed air pressure receiving side cylinder part of the nozzle cylinder body 1 is extended, and the piston 10 with an air passage of the air cylinder 9 is slidably provided in the cylinder part, and the compressed air is supplied to the desired part of the cylinder part. An introduction port 1c is provided, and the piston 10 is normally in a position where it retreats from the connection portion with the pressure-feeding cylinder in the nozzle cylinder 1 and closes the introduction port 1c, as shown in FIG. , by timer 8,
When the air cylinder 9 is actuated, it moves forward and the fourth
As shown in the figure, the small lumps _a1 of the paste composition charged in the nozzle barrel 1 are sheared and separated.
At the same time, the introduction port 1c and the air passage 10a of the piston 10
The compressed air is ejected through the piston air passage 10a to the pressure-receiving side of the nozzle cylinder body 1, and small agglomerates are ejected from it.

The means for mechanically shearing the pasty composition is not limited to the piston sliding mechanism, but may also be an impeller rotation mechanism.

The one shown in FIG. 5 is another embodiment of the present invention, in which a pressure-feeding cylinder 2 for pasty composition and an injection nozzle cylinder 1 are connected in a straight line, and the desired parts of the cylinder are connected to each other in a straight line. , discharge pipe 6a of compressed air solenoid valve 6
is inserted, and by the action of compressed air jetted from its tip, the paste-like composition inside the cylinder is sheared and separated into small lumps, which are then jetted as they are by the compressed air.

Next, various examples of the method of this invention are shown below.

Example 1 Compounding of paste composition Ceramic fiber 44 parts Alumina powder 44 parts Colloidal silica (solid content) 12 parts Thickener Small amount of water 150 parts 110°C dry specific gravity...0.5 g/cm ³ Conical consistency (JISK2809 test) Depending on the container)...200
(Cone weight 100g) Spray amount of spray coating device 10Kg/min Number of sprays 2 times/sec Injection air pressure 8Kg/cm ² Nozzle diameter 13m/m Example 2 Paste composition ceramic fiber 30 parts Alumina cement 46 parts Alumina powder 24 parts Thickener Small amount of water 145 parts Other items are the same as in Example 1.

Example 3 paste composition Portland cement 50 parts Calcium carbonate 30 parts Foamed vermiculite (No. 2) 20 parts thickener small amount 60 parts water Conical consistency……300 Other items are the same as in Example 1.

When spray painting was performed on the construction objects according to Examples 1, 2, and 3, there was no sagging or falling off of the paste composition coating layer formed on the surface of the construction objects, and good coating was achieved. A layer was obtained. Furthermore, during the spraying process, no dust was generated and no loss due to splashing was observed. In addition, it was possible to spray small pieces over a distance of 10 m, and it was confirmed that by making the nozzle longer, the distance would be extended and the probability of hitting the construction object would be improved.

As described above, according to the present invention, the paste composition is continuously pumped from the pressure feeding passage to the injection passage, and the paste composition press-fitted into the injection passage is transferred to the injection passage continuous with the injection passage. Since the pasty composition is sheared and separated into small lumps, and the small lumps are intermittently injected from the injection port toward the construction object, the following effects can be obtained.

(1) Even a highly viscous paste composition can be reliably applied to a construction object.

(2) Since it is possible to paint with a highly viscous paste composition, thick spraying on ceiling walls is also possible.

(3) Since the paste composition is made into small lumps and sprayed, it has the advantage of being able to extend the spray distance;
It is also possible to perform hot repairs on the walls of industrial furnaces and other areas that cannot be accessed by workers.

(4) Unlike conventional spraying methods, the coating material is not finely dispersed, so the cost of spraying is low.

(5) Since the coating material is sprayed, unlike the spraying method, the pattern is narrow, so there is less material loss during construction, even if the object to be painted is small.

(6) Construction efficiency is much higher than conventional stamp construction, which can coat high-viscosity materials.

[Brief explanation of drawings]

FIG. 1 is a schematic configuration diagram of a spray coating apparatus showing one embodiment of the present invention, FIG. 2 is a sectional view of main parts in a spraying state, and FIG. 3 is a schematic diagram of a spray coating device showing another embodiment. , FIG. 4 is a sectional view of the main parts in the spraying state, and FIG. 5 is a schematic configuration diagram of a spray coating apparatus according to another embodiment. DESCRIPTION OF SYMBOLS 1... Nozzle cylinder body, 1a... Injection port, 1b... Pressure receiving port, 2... Force feeding cylinder, 4... Compressor, 5... Pressure adjustment valve, 6... Solenoid valve, 6a... Discharge pipe, 7... Relay, 8... Twin timer , 9...Air cylinder, 10
...Piston, 10a...Air passage, a...Paste composition, _a1 ...Small lump.

Claims (1)

[Scope of Claims] 1. A paste-like composition is continuously pumped from a pressure-feeding passage to an injection passage, and the paste-like composition press-fitted into the injection passage is separated from the pasty composition in a continuous pressure-feeding passage. A method for spraying a paste-like composition, which comprises shearing and separating the composition into small lumps, and intermittently spraying the small lumps from a mound toward a construction object. 2. A passage for pumping the pasty composition, an injection passage communicating with the passage, a device for continuously supplying the paste composition from the pressure passage to the injection passage, and a passage continuously communicating from the pressure feeding passage to the injection passage. a shearing device that shears and separates the supplied pasty composition from the pasty composition in a pressure-feeding passage that is continuous with the pasty composition to form small agglomerates; a device that intermittently injects the small agglomerates from an injection port; An apparatus for spraying a paste composition, comprising a device for operating the paste composition supply device, a shearing device, and a small agglomerate injection device in a fixed order. 3. The pressure-feeding passage and the injection passage communicate with each other in an intersecting manner, and the paste-like composition press-fitted into the injection passage is separated from the paste-like composition in the pressure-feeding passage into small lumps on the opposite side of the injection port. 3. The spray coating device for a paste composition according to claim 2, wherein a compressed air supply device is connected for shearing and separating the particles and intermittently spraying the small agglomerates. 4 The pressure-feeding passage and the injection passage communicate with each other in an intersecting manner, and the paste-like composition press-fitted into the injection passage is separated from the paste-like composition in the pressure-feeding passage into small lumps on the opposite side of the injection port. Injection of the paste composition according to claim 2, which is equipped with a piston-operated cylinder for shear separation and a device for intermittently injecting the sheared small lumps by the action of compressed air. Painting equipment. 5. The pressure-feeding passage and the injection passage communicate in a straight line, and the paste-like composition press-fitted into the injection passage is sheared and separated into small lumps from the paste-like composition in the pressure-feeding passage at a predetermined portion of the passage. 3. The spray coating device for a pasty composition according to claim 2, wherein a compressed air supply device for intermittently spraying the lumps is connected.