JP6619929B2 - Spraying method and spraying equipment - Google Patents

Description

  The present invention relates to a spraying method and a spraying device, and more particularly, to a spraying method and a spraying device for spraying a fiber-mixed reinforcing soil containing earth and fibers on a target surface such as a slope to greenen the target surface.

  Conventionally, as a method of greening the target surface such as a slope, there is a method of spraying the target surface as a fiber-mixed reinforced soil by mixing fibers into spray materials including earth (including sand) and cement (For example, refer to Patent Document 1). The target surface is reinforced by the fiber-mixed reinforcing soil, and the vegetation base material is sprayed on the upper layer, whereby the target surface is reinforced and greened, and both disaster prevention and conservation of the natural environment are possible.

JP-A-8-105049

  When fibers having a relatively small fineness (dtex) are used, the fibers are blown off by the spraying pressure when mixed into the spraying material due to its light weight, and the mixing of the fibers into the spraying material proceeds well. There is a problem that it is difficult. When a so-called straight hair-like raw yarn having a straight fiber extension direction is used, there is a problem that it is difficult to sufficiently mix the soil and sand in the spray material with the fiber. From the viewpoint of handleability when supplying the fiber, the fiber is preferably a long fiber having a length longer than that of the short fiber having a short length, but in the middle of a pipeline or a nozzle in which the spray material is pumped. When long fibers are supplied into the spray material, there is a problem that the fibers and the spray material are clogged in the pipe line or the nozzle.

  The main problem to be solved by the present invention is that even if long fibers are used, the fibers and the spray material are not clogged, and are not mixed with the spray material without being blown off by the spray pressure. The object is to provide a spraying method and a spraying device using the obtained fiber.

  This invention which solved this subject is based on the following meanings.

[Purpose 1]
It is a spraying construction method in which a fiber material is mixed into a spraying material containing at least earth to make a fiber-mixed reinforcing soil, and the fiber-mixed reinforcing soil is sprayed on the target surface,
A spraying method in which the fiber material is crimped yarn.

[Purpose 2]
The crimped yarn may have an entangled structure bundled at predetermined intervals.

[Purpose 3]
The tip of the supply pipe that supplies the fiber material may be disposed downstream of the tip of the nozzle that ejects the spray material, and the fiber material may be mixed into the spray material that has been ejected from the nozzle. Good.

[Purpose 4]
In the nozzle tip portion, an enlarged portion whose inner diameter increases toward the downstream is arranged,
When the supply pipe passes through the enlarged portion, the tip end portion of the supply pipe is located inside the enlarged portion, and
The tip of the supply pipe may be located outside the tip of the nozzle when the nozzle is viewed from the front side.

[Purpose 5]
A fiber mixing reinforcing soil by mixing a fiber material with a spray material containing at least earth, and a spraying device for spraying the fiber mixed reinforcing soil on a target surface,
The fiber material is a crimped yarn;
Spraying, wherein a tip of a supply pipe for supplying the fiber material is disposed downstream of a nozzle tip for ejecting the spraying material, and the fiber material is mixed into the spraying material after spraying from the nozzle apparatus.

  Further objects and other features of the present invention will become apparent from the preferred embodiments described below with reference to the accompanying drawings.

  According to the present invention, even if long fibers are used, the fibers and the spray material are not clogged and are not blown away by the spray pressure, and the spray using fibers that can be mixed well with the spray material. A construction method and a spraying device can be obtained.

It is a whole block diagram of the apparatus for demonstrating the spraying construction method which concerns on embodiment. It is a schematic structure figure of the textile material used for the spraying method concerning an embodiment. It is an enlarged view of the nozzle vicinity in a spraying apparatus. (A) is an enlarged view of the vicinity of the nozzle according to the modification, and (b) is an enlarged view of the vicinity of the nozzle according to the embodiment.

<Overall configuration>
Hereinafter, embodiments of the present invention will be described. FIG. 1 is an overall configuration diagram of an apparatus for explaining a spraying method according to an embodiment of the present invention. An earth and sand material containing earth, a pH adjusting agent, an admixture, and the like are charged into the hopper 1 as spray materials, and the spray material 13 in the hopper 1 is conveyed to the measuring device 3 by the first-stage conveyor 2. The weights of various materials constituting the spray material 13 are weighed by the measuring device 3 and adjusted to have a desired blending ratio, and then the various materials are fed to the spray device 5 by the next-stage conveyor 4. It is conveyed.

  The spraying device 5 has a spraying device main body 5a, a pressure feed pipe 5b, a nozzle 5c, and a boom 5d. The spraying device main body 5a has a tank 6 for mixing the spraying material 13 conveyed by the next stage conveyor 4 and water. The piping from the tank 6 is connected to the compressor 7 and the pressure feeding pipe 5b, and the spray material 13 is ejected from the nozzle 5c through the pressure feeding pipe 5b by the high pressure air from the compressor 7.

  The compressor 7 is further connected to a yarn feeder 8. The fiber material 10 wound around one or a plurality of bobbins 9 is sent to the supply pipe 11 via the yarn feeder 8 by the air from the compressor 7 and mixed into the spray material 13. The fiber material 10 is mixed into the spray material 13 and sprayed onto the target surface N as the fiber mixed reinforcing soil 13a.

  In addition, in the spraying device 5 in this embodiment, the nozzle 5c is equipped at the front-end | tip of the boom 5d extended from the spraying device main body 5a. The boom 5d can be rotated around various axes and / or can be expanded and contracted along various axes, and a driving means and a sensor are arranged on each axis to freely adjust the position and spray direction of the nozzle 5c. Can be held and moved. Therefore, the reaction when the spraying material 13 is ejected from the nozzle 5c at a high pressure can be minimized, and the position and spraying direction of the nozzle 5c can be stabilized.

<Fiber material>
FIG. 2 is a schematic structural diagram of the fiber material 10 used in this spraying method. The fiber material 10 is a crimped yarn. That is, the fiber material 10 is not a so-called straight hair shape in which the fibers extend linearly, but a so-called curly hair shape in which the fibers are crimped. For example, a crimped yarn can be obtained by stretching the raw yarn to form a crimped state by injecting high-pressure and high-temperature air and then cooling it. Since the fiber material 10 is a crimped yarn, the fiber material 10 is easily entangled with the earth and sand material in the spray material 13 as compared with the fiber material conventionally used, and the mixing of the spray material 13 and the fiber material 10 is good. Proceed to.

  The fineness of the fiber material 10 is, for example, preferably 10 to 3000 dtex, and more preferably 800 to 1000 dtex. For example, 880 dtex may be realized by bundling 80 11 dtex single fibers. Compared to the conventional fiber material which realized 220 dtex by bundling 40 single fibers of 5.5 dtex, the fiber has a weight, and when mixed into the spray material 13, it is blown away by the spray pressure It is prevented. Moreover, since it is strong against blowing by the spraying pressure, the fiber material 10 can be mixed into the spraying material 13 on the downstream side of the tip of the nozzle 5c, as will be described later.

  The fiber material 10 has an entangled structure. The entangled structure means a structure in which a plurality of single fibers 10b are bundled at predetermined intervals and have entangled points 10a. The entanglement point 10a may be one in which a plurality of single fibers 10b are bundled, or may be collected by means such as heat welding or thermocompression bonding. Further, the entanglement point 10a may be one in which a plurality of short fibers 10b are twisted, or may be simply focused narrower than the other part. The predetermined interval may be a constant interval, or the interval may change regularly or irregularly. The number of entanglement points 10a of the fiber material 10 is preferably 1 to 100 per 1 m, and more preferably 10 to 30.

  By having the entangled structure, the fiber material 10 achieves both good entanglement with the earth and sand material and good transportability. Even if the fiber material 10 is mixed into the spray material 13 in the pressure feed pipe 5b, the pressure feed pipe 5b is hardly clogged, and the fiber materials 10 are entangled with each other in the supply pipe 11 and clog. There is almost nothing.

<Nozzle tip>
FIG. 3 is an enlarged view of the vicinity of the nozzle 5 c in the spraying device 5. A nozzle 5c is disposed at the tip of the pressure feeding pipe 5b, and the spray material 13 that has been pressure fed by the high pressure air of the compressor 7 in the pressure feeding pipe 5b is ejected from the nozzle 5c. The tip 5e of the nozzle 5c may have a cylindrical shape with almost no change in diameter, as shown in FIG.

  In the modification shown in FIG. 3A, the distal end portion 11a of the supply pipe 11 is disposed downstream of the distal end portion 5e (downstream side in the flow of the spray material 13). When the nozzle 5c is viewed from the front (spraying front) of the nozzle, the supply pipe tip 11a is located outside the nozzle tip 5e (more specifically, the nozzle at the nozzle tip 5e). It is located outside the inner diameter). By doing so, it is prevented that the front-end | tip part 11a of a supply pipe collides with the spraying material 13 ejected from the nozzle 5c, and receives a damage. At the same time, the fiber material 10 supplied from the distal end portion 11a of the supply pipe is satisfactorily drawn into the spray material 13 by the negative pressure accompanying the spray, and the fiber material 10 is well mixed into the spray material 13. realizable.

  In this embodiment, as shown in FIG.3 (b), the enlarged part 12 which an internal diameter expands in a funnel shape toward the downstream is arrange | positioned at the front-end | tip part 5e of a nozzle. The supply pipe 11 passes through the peripheral surface of the enlarged portion 12, and the tip 11a of the supply pipe is on the inner side of the enlarged portion 12, that is, the side communicating with the inside of the nozzle 5c, and the tip 5e of the nozzle. It is located on the downstream side. Furthermore, the distal end portion 11a of the supply pipe is located on the outer side of the distal end portion 5e of the nozzle when the nozzle 5c is viewed from the front side of the ejection port. By doing so, it is prevented that the front-end | tip part 11a of a supply pipe collides with the spraying material 13 ejected from the nozzle 5c, and receives a damage. The fiber material 10 supplied from the distal end portion 11 a of the supply pipe is satisfactorily drawn into the spray material 13 by the negative pressure inside the enlarged portion 12 that accompanies the spray, and the fiber material 10 is mixed into the spray material 13. Can be realized satisfactorily.

  According to the spraying method according to this embodiment, since the crimped yarn is used for the fiber material 10, the fiber material 10 is easily easily entangled with the earth and sand material in the spray material 13. Therefore, mixing of the fiber material 10 and the spray material 13 can be favorably advanced.

  Since the fiber material 10 has an entangled structure, it is possible to achieve good mixing performance (entanglement) with the earth and sand material and good transportability of the fiber material 10. It is possible to prevent the fiber material 10 from being entangled in the supply pipe 11 or the like and the pipe clogging associated therewith.

  If the fiber material 10 has a relatively high fineness of, for example, 800 to 1000 dtex, the fiber material 10 can be well mixed into the spray material 13 without being blown off by the spray pressure. Therefore, the fiber material 10 can be mixed into the spray material 13 on the downstream side of the tip portion 5e of the nozzle without mixing the fiber material 10 into the spray material 13 inside the pressure feed pipe 5b. In addition, by using the fiber material 10 having a high fineness, even when the strength of the reinforcing surface N1 on the target surface N is exhibited equally, the use length of the fiber material 10 can be shortened. Then, the number of bobbins 9 for supplying the fiber material 10 to the yarn feeder 8 can be reduced.

  In the present embodiment, the spraying device 5 in which the nozzle 5c is mounted at the tip of the boom 5d sprays the spray material 13 onto the target surface. In spraying by the spraying device 5, since the holding of the nozzle 5c is stable, so-called mass spraying with a high spraying pressure is possible. Due to the large amount of spraying, the spraying operation time is shortened, and the spraying material 13 is densified to improve the reinforcing performance. In the present embodiment, since the fiber material 10 having a relatively high fineness is used, even in the case of a large amount of spraying, the mixing of the fiber material 10 into the spraying material 13 is downstream of the nozzle tip 5e. Even if it exists, there is almost no possibility that the fiber material 10 will be blown away.

  Since there is no need to mix the fiber material 10 into the spraying material 13 inside the pumping tube 5b, the tip 11a of the supply tube is not damaged by the spraying material 13 in the pumping tube 5b, and the pumping tube 5b. There is no possibility that the fiber material 10 is clogged inside. If it does so, long fibers, such as a continuous thread, can be used as the fiber material 10, and it can aim at the quality improvement and strength improvement of spraying. If a long fiber is used as the fiber material 10, the fiber material 10 can be easily supplied by the yarn feeding device 8.

  As mentioned above, although embodiment was described, this invention is not limited to these, A various deformation | transformation and change are possible within the range of the summary.

N ... Target surface N1 ... Reinforcement surface 1 ... Hopper 2 ... First stage conveyor 3 ... Measuring instrument 4 ... Next stage conveyor 5 ... Blowing device 5a ... Blowing device body 5b ... Pressure feeding pipe 5c ... Nozzle 5d ... Boom 5e ... Tip (nozzle tip) Part)
DESCRIPTION OF SYMBOLS 6 ... Tank 7 ... Compressor 8 ... Yarn feeder 9 ... Bobbin 10 ... Fiber material 10a ... Entanglement point 10b ... Single fiber 11 ... Supply pipe 11a ... Tip part (tip part of supply pipe) 12 ... Expansion part 13 ... Spraying material 13a ... Fiber reinforced soil

Claims (2)

It is a spraying construction method in which a fiber material is mixed into a spraying material containing at least earth to make a fiber-mixed reinforcing soil, and the fiber-mixed reinforcing soil is sprayed on a target surface,
The fiber material is a crimped yarn;
The fiber material has an entanglement structure having an entanglement point in which a plurality of single fibers are bundled at predetermined intervals,
1 to 100 entanglement points are formed per 1 m length of the fiber material ,
The tip of the supply pipe that supplies the fiber material is disposed downstream of the tip of the nozzle that ejects the spray material, and the fiber material is mixed into the spray material that is ejected from the nozzle,
In the nozzle tip portion, an enlarged portion whose inner diameter increases toward the downstream is arranged,
When the supply pipe passes through the enlarged portion, the tip end portion of the supply pipe is located inside the enlarged portion, and
The tip of the supply pipe is a spraying method that is located outside the tip of the nozzle when the nozzle is viewed from the front of the spray. A fiber-mixed reinforcing soil by mixing a fiber material into a spray material containing at least earth, and a spraying device that sprays the fiber-mixed reinforcing soil on a target surface,
The fiber material is crimped yarn;
The fiber material has an entanglement structure having an entanglement point in which a plurality of single fibers are bundled at predetermined intervals;
1 to 100 entanglement points are formed per 1 m length of the fiber material,
The tip of the supply pipe for supplying the fiber material is disposed downstream of the nozzle tip for ejecting the spray material, and the fiber material is mixed into the spray material after ejected from the nozzle ,
An enlarged portion whose inner diameter increases toward the downstream is disposed at the nozzle tip,
When the supply pipe passes through the enlarged portion, the tip end portion of the supply pipe is located inside the enlarged portion, and
The tip of the supply pipe is a spraying device that is located outside the tip of the nozzle when the nozzle is viewed from the front of the spray.

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