JP3447239B2 - Concrete spraying equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a concrete spraying device.

[0002]

2. Description of the Related Art Conventionally, a so-called concrete spraying method has been widely used in which concrete is sprayed for the purpose of primary lining during tunnel excavation and reinforcement of slopes of embankments.

[0003] In this concrete spraying method, a concrete spraying device for spraying the pumped concrete from the tip of the nozzle is often used, and the main mechanism is a pumping path for pumping concrete. Equipped with a pressure-feeding channel for pressure-feeding the quick-setting admixture that secures early strength after concrete is sprayed, and by connecting both pressure-feeding paths at a predetermined position, the concrete quick-setting admixture is added and mixed into the concrete pressure-fed flow, and then pressure-fed. It was to spray it from a spray nozzle at the road tip.

[0004]

However, the conventional concrete spraying device has the following problems.

That is, when the actual spraying work is performed in the conventional concrete spraying device, the concrete pressure-fed which is pressure-fed by a concrete pump or the like flows backward to the pressure-fed path of the concrete quick-setting admixture, or conversely. The quick-set admixture leaks into the concrete pressure-feed channel, causing concrete and other solids to form inside the concrete quick-load channel and near the connection point between the concrete pressure-fast route and the concrete quick-load channel. There was a problem that the inside was narrowed and the pumping efficiency was lowered. In addition, there is a problem that the generation of the concrete adhering material further progresses to block the pressure-feeding path, making it impossible to add and mix the concrete quick-setting agent and the concrete well. When such a problem occurs, it may be necessary to remove the pipe used as the pressure feeding path from the spraying device and perform cleaning to remove adhered substances, or to replace the pressure feeding path itself. If this happens, the concrete spraying work will have to be interrupted and the members and parts will have to be newly prepared, so it is inevitable that work efficiency and cost will deteriorate significantly.

As described above, the problem that concrete adhered matter is generated in the pressure feeding path makes the properties of the concrete to be sprayed unstable, and the sprayed concrete from the surface to be sprayed during or after the spraying work. Peeling and rebounding of the concrete increased, which led to problems such as the deterioration of the work environment due to the scattering of sprayed concrete, and the excessive use of concrete and quick-setting admixture, which could lead to further deterioration of work efficiency, cost and quality. .

As another problem, in order to efficiently and sufficiently mix the concrete quick-setting admixture and the concrete,
It was often used with an addition nozzle that mixes and mixes the concrete quick-setting admixture with the function of spraying the concrete quick-setting admixture in a mist form, but the structure of the addition nozzle is complicated and It is easy to cause troubles such as not being able to exert a predetermined spraying function due to dust contained in etc., and the manufacturing cost is high, so
There is also a problem that versatility tends to be low in consideration of usage efficiency and cost.

Therefore, the present invention has been made in view of the above-mentioned conventional problems, and backflow of pumped concrete to the concrete quick-setting agent pressure-feeding channel and leakage of concrete quick-setting agent to the concrete pressure-fastening channel. Provide a concrete spraying device with a simple structure that exhibits good pumping efficiency and appropriate mixing of concrete and concrete quick-setting admixture without inhibiting concrete adherence inside the pumping path by suppressing To do.

[0009]

The present invention has been made in order to achieve the above-mentioned object, and is provided with a pressure-feeding path for feeding concrete and a concrete quick-setting admixture, respectively. A concrete spraying device for adding and mixing the concrete quick-setting admixture to the concrete at a connection part with and spraying the concrete, wherein the connection part is provided with a valve body made of an elastic body having an appropriate thickness, It is characterized in that it has a slit penetrating in the thickness direction, which opens when the body is deformed in the direction of pumping the concrete quick-setting agent and closes when restored.

Further, it is preferable that the pressure feed path diameter on the upstream side of the concrete quick-setting agent in the pressure feed direction is equal to or smaller than the concrete quick-binding agent pressure feed path on the downstream side with respect to the connection portion.

[0011]

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. FIG. 1 is a cross-sectional view showing a quick-setting-agent-adding nozzle 10 provided at a connecting portion between a concrete quick-setting-agent pressure-feeding channel and a concrete pressure-feeding channel in the concrete spraying device of the present invention.

In the figure, a quick-setting agent addition nozzle 10 is a tubular body having a predetermined material, an inner diameter and a wall thickness selected so as to have appropriate strength in accordance with the pressure-feeding pressure and the pressure-feeding amount of the quick-setting agent Q to be pressure-fed. For example, it is provided at the tip of the quick-setting admixture feed tube 20 made of a steel pipe or the like, and is arranged at the center of the nozzle cross-section, and the inner diameter is narrowed from the quick-setting admixture feed tube 20 so that the quick-setting admixture Q is fed under pressure. The inner pipe 11 that is appropriately raised and the inner pipe 11 that has an inner hole 12a
Inner core material 1 that is connected to and is appropriately fixed to the tip of the quick-setting admixture pressure feed pipe 20
2 and the outer core tip of the inner core material 12, and the inner core material 1
2 A tip cap 13 that is slidable in the pumping direction or the opposite direction by being screwed with a thread groove 12b formed on the surface
And is sandwiched between the tip cap 13 and the inner core material 12,
A valve body 14 installed so as to contact the end face of the inner pipe 11
Consists of.

However, the tip cap 13 has an opening 13a having a predetermined shape at the tip thereof, and the valve body 1
Reference numeral 4 is preferably made of an elastic body having an appropriate thickness such as rubber having chemical resistance capable of withstanding erosion of various chemicals, and is provided with slits S having a predetermined pattern penetrating in the thickness direction.

The slit S provided in the valve body 14 may adopt a slit pattern that radially divides the valve body 14 from the center as seen from the front of the valve body 14 as shown in FIG. 2A, for example. . However, the slit pattern is not limited to this, and the slit S expands when the valve body 14 is deformed by the concrete quick-setting agent Q ejected from the inner pipe 11 in the concrete quick-setting agent feeding direction, for example, in a convex shape. If the slit pattern is such that the valve is opened and the concrete quick-setting admixture Q is no longer pumped, and the valve body 14 is restored to the original flat plate shape, the slit pattern is either a cross shape, a Y shape, or the like. It can also be used in patterns.

When the concrete quick-setting admixture Q is added to the concrete through the quick-setting admixture nozzle 10,
It is necessary to control the injection starting pressure at which the slit S opens to start the injection of the concrete quick-setting admixture Q, the injection flow rate passing through the opened slit S, and the like. In that case, the slit pattern shape and slit Number, slit cut length,
The above control is performed by appropriately selecting or adjusting the material of the valve body 14, the valve body thickness d, and the like.

For example, although it depends on the slit pattern, when the number of slits or the slit cut length is increased or decreased, the injection flow rate is also increased or decreased. On the other hand, when the valve body thickness d is increased or decreased, the larger the thickness d is, the quicker the concrete is set. Deformation of the valve body 14 due to the pressure-feeding flow is small, and therefore the injection start pressure also increases. If the thickness d is small, the valve body 14 is easily deformed due to the pressure-feeding flow, and the injection start pressure decreases. This adjustment of the thickness d is performed not only by means of exchanging the valve bodies 14 themselves having different thicknesses, but also by advancing / retreating the tip cap 13 in contact with the valve body 14 with respect to the inner core material 12, for example. 12
Alternatively, the valve body 14 may be pressed or loosened at its tip.

Further, originally, the inner pipe inner diameter a of the quick-setting admixture nozzle 10 is made smaller than the tip cap opening diameter b, but by making the ratio of a and b even larger, concrete pressure flow is caused. Since the convex valve body is unlikely to deform in a direction opposite to the normal direction and the opening of the slit S due to this does not occur, the reverse flow of concrete into the concrete quick-setting agent pressure-feeding pipe 20 can be further suppressed.

FIG. 3 is an explanatory view showing the arrangement of equipment when performing a spraying operation using the concrete spraying apparatus A of the present invention.

The equipment and materials actually used for the spraying work mainly depend on the area and the spraying thickness of the spraying target surface W such as the tunnel wall immediately after excavation or the embankment slope where concrete is sprayed. The prepared spraying concrete C and the concrete tank CT for storing the same, the concrete pump CP for sucking the concrete C from the concrete tank CT for pressure feeding, and the concrete pump CP
A concrete quick-setting admixture Q provided according to the amount of concrete pumped by and a quick-setting admixture tank QT for storing the same.
It consists of a quick-setting agent pump QP that sucks the quick-setting agent Q from the quick-setting agent tank QT and sends it by pressure, and pipes that appropriately connect the above-mentioned devices as shown in the drawing. Further, the piping for connecting the equipment is a main pressure feeding pipe 30 for feeding the concrete C pressure-fed by the concrete pump CP to a spray nozzle 40 at the tip of the pipe.
And a quick-setting which extends from the quick-setting agent pump QP for sending the concrete quick-setting agent Q and is connected to the connecting portion 15 near the spray nozzle 40 at the tip of the main pressure feeding pipe 30 via the quick-setting agent addition nozzle 10. It is composed of the agent pressure feeding pipe 20, and a control valve B for controlling the pressure feeding flow rate, the pressure feeding pressure and the like is arranged in the middle of these pipes.

As the concrete spraying work flow,
First, the concrete pump CP is operated to start the pressure feed of the concrete C to the main pressure feed pipe 30, and the quick setting agent pump QP is also activated to start the pressure feed of the concrete quick setting agent Q to the quick setting agent feeding tube 20. Then, the connecting portion 1 connecting the two
5, the concrete quick-setting admixture Q is pressure-fed through the inner pipe 11 in the quick-setting admixture nozzle 10 installed in the inner pipe 1.
The concrete quick-setting admixture Q ejected from No. 1 causes the valve element 14 to be deformed in a convex shape, for example, in a convex shape to open the valve by expanding the slit S, and the concrete to the concrete C in the main pressure-feeding pipe 30 can be opened. The quick-setting admixture Q is added and mixed.

The sprayed concrete F to which the concrete quick-setting admixture Q has been added and mixed is sprayed in a mist form from the spray nozzle 40 at the tip of the main pressure feed pipe 30 and sprayed onto the spray target surface W.

When stopping the concrete spraying work, the concrete pump CP and the quick-setting admixture pump QP are stopped, and since the concrete quick-setting admixture Q is no longer pumped, the quick-setting admixture nozzle 10 Since the deformation of the valve body 14 is eliminated and the original flat plate shape is restored, the slit S
Closes and closes normally. As a result, the phenomenon that the concrete pressure-feeding flow passes through the slit S of the valve body 14 and flows back to the quick-setting-agent pressure-feeding pipe 20 or the concrete quick-setting-agent Q leaks to the main pressure-feeding pipe 30 is suppressed. The fact that there is no leakage backflow between the concrete C and the concrete quick-setting agent Q with the valve body 14 in the quick-setting agent addition nozzle 10 as a boundary means that the concrete C and the concrete quick-setting agent to be sprayed are sprayed. It also leads to accurate usage of Q.

After the spraying work is completed, the cleaning work of the equipment, especially the inside of the pipe is often carried out in consideration of the subsequent reuse. In the concrete spraying apparatus A of the present invention, the connecting portion 15 is used. The valve body 14 installed in the quick-setting agent addition nozzle 10 provided in the above-mentioned makes the quick-setting agent Q or the cleaning agent etc. pass through by slightly applying pressure to a small amount of adhered matter or foreign matter. It has a characteristic that it can be easily removed, and has an effect of simplifying maintenance work such as cleaning work, and less likely to cause troubles such as clogging of pipes during reuse. This is because the valve body 14 is an elastic body such as rubber, and even if adhered matter such as concrete or foreign matter such as dust mixed in the pressure-feeding stream adheres to the valve body 14, the pressurized fluid can pass through. This is because the adhering surface is deformed by itself so that adhered substances and foreign substances can be easily peeled off.

[0024]

As described in detail above, the concrete spraying device of the present invention is provided with the pressure feeding paths for feeding the concrete and the concrete quick-setting agent, respectively, and the concrete pressure feeding path and the concrete quick-setting agent pressure feeding path are provided. A concrete spraying device for adding and mixing the concrete quick-setting agent to the concrete at a connection portion, and spraying the concrete, wherein the connection portion is provided with a valve body made of an elastic body having an appropriate thickness, and the valve body is Since it is provided with a slit penetrating in the thickness direction that opens when deformed in the pumping direction of the concrete quick-setting admixture and closes when restored, depending on the valve body when performing the actual spraying work. The pressure-feeding channel for the concrete quick-setting admixture is the concrete pressure-feeding stream that is pressure-fed by a concrete pump or the like by appropriately opening and closing the connection part. Regurgitation possible and to, or concrete quick-setting admixture is never such leaks out concrete pumping path.

Therefore, it is possible that adhered material such as concrete is generated inside the concrete quick-setting-agent pressure-feeding channel or near the connection portion between the concrete pressure-fastening agent and the concrete quick-setting-agent pressure-feeding channel, and finally the inside of the channel is blocked. Since it is not, it is possible to always keep the inside of the pressure feeding path in an appropriate state,
The pumping efficiency of shotcrete is also good. This eliminates the need for removing pipes, etc., on which concrete adhered substances have been generated from the concrete spraying device, to remove adhered substances, or to replace the pipe itself, as in the conventional case. The work efficiency and work cost can be remarkably improved as compared with the conventional case. In addition, there is no mutual leakage backflow of concrete and concrete quick-setting admixture with the valve body in the quick-setting admixture nozzle 10 as a boundary, which means that the amount of concrete and concrete quick-setting admixture used for spraying is reduced. If it is accurate, it will also help.

In addition, proper mixing of the concrete and the concrete quick-setting admixture can be achieved and maintained, and the effects of maintaining a good working environment with less peeling and rebound of sprayed concrete and preventing excessive use of concrete can be obtained.

The concrete quick-setting agent addition nozzle provided in the concrete spraying apparatus of the present invention has a simple structure, and even if dust or the like is contained in the concrete quick-setting agent, a predetermined spray can be performed without any problem. The function can be exhibited, and even if some adhered matter is generated, the adhered matter can be easily removed by increasing the pressure feeding pressure. Further, the manufacturing cost of such an addition nozzle is inexpensive and has high versatility.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a quick-setting-agent-adding nozzle provided at a connection portion between a concrete quick-setting-agent pressure feeding path and a concrete pressure-feeding path in a concrete spraying device of the present invention.

2A is a front view showing a valve body attached to the quick-setting admixture nozzle of FIG. 1, and FIG. 2B is a side view of the same.

FIG. 3 is an explanatory view showing an arrangement of equipment when performing a spraying work using the concrete spraying device of the present invention.

[Explanation of symbols]

Q Concrete quick-setting agent S slit d valve body thickness 14 valve body 15 Connection

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI F16K 15/14 F16K 15/14 B (72) Inventor Kozo Hayashi 422 Kuramochi, Akeno-cho, Makabe-gun, Ibaraki Prefecture Koyo Seiki Co., Ltd. Akeno Manufacturing Co., Ltd. (72) Inventor Shigeo Yamaguchi 422 Kuramochi, Akeno-cho, Makabe-gun, Ibaraki Prefecture Koyo Seiki Co., Ltd. Akeno Works (58) Fields investigated (Int.Cl. ⁷ , DB name) E21D 11/10 B05B 7/26 E02D 17 / 20 104 E04G 21/02 103 F16K 7/06 F16K 15/14

Claims (2)

(57) [Claims] 1. A pressurizing channel for respectively pumping concrete and a concrete quick-setting admixture, wherein the concrete quick-setting admixture is added to and mixed with the concrete at a connecting portion between the concrete pressurizing path and the concrete quick-setting admixture pressure-feeding channel, A concrete spraying device for spraying concrete, wherein the connecting portion is provided with a valve body made of an elastic body having an appropriate thickness, and the valve body opens when deformed in the pressure-feeding direction of the concrete quick-setting agent, A concrete spraying device comprising a slit penetrating in a thickness direction, which is closed when restored. 2. The pressure feed path diameter on the upstream side of the concrete quick-setting admixture in the feed direction with respect to the connection portion is equal to or smaller than the diameter of the concrete quick-set admixture pressure feed path on the downstream side. Concrete spraying equipment.