JP2003175463A - Method of mixing slurry - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an aggressive type water jet device of a direct pressurizing system, and a slurry mixing method, capable of mixing slurry continuously at a fixed ratio all the time. <P>SOLUTION: This method is provided with a slurry tank T3 for storing the slurry, a clear water tank T1, a high-pressure pump Ph for pressurizing and supplying a liquid, a mixing chamber 1 having a slurry supplying port through which the slurry is supplied via a pressure pump P3 for supplying the slurry forcibly, and having a discharge port for discharging the high-pressure liquid mixed with the slurry, and a high-pressure tank 2 having a mixture supplying port, a mixture delivery port, and a space of a volume larger than that of the mixing chamber 1, for mixing homogeneously the high-pressure liquid mixed with the slurry further, and for storing it temporarily. <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 water jet device used as a cutting device or a "flapping" device and a slurry mixing method for mixing a slurry into a liquid jetted from the device. In addition, in this specification, in addition to the so-called “hasuri”, which is so-called “hasuri”,
A concept that includes "peel" of a coating film on the surface.

[0002]

2. Description of the Related Art In recent years, various cutting devices using a water jet or "cutting" devices for "cutting" coating films on the surface have been provided.

[0003] These devices (referred to as water jet devices) are roughly classified into a type (aggressive type) in which a slurry is mixed in a liquid to be jetted for cutting or the like, and a device which only jets a high-pressure liquid.

The above-mentioned aggressive type sprays a high-pressure liquid mixed with the slurry onto the object to be treated, so that the high-pressure liquid comes into contact with the scraping force and the slurry mixed therein comes into contact with the object. Since the force for scraping off the object is added to perform cutting or "chipping", it has a high capability. In particular, among the aggressive types, the direct pressurizing type that supplies the liquid in which the slurry is mixed to the injection nozzle side has the speed of the liquid injected from the injection nozzle and the speed of the slurry that are substantially the same, and is also injected. Since the slurry gathers in the central part of the liquid that is used, it is excellent in that the work efficiency in cutting or "hanging" work is high.

However, in this direct pressurization type, a high-pressure liquid is injected into a mixing tank containing a slurry in advance, and the slurry is mixed so that the slurry is evenly mixed in the liquid. The liquid is configured to be ejected from the ejection nozzle. Therefore, when the slurry in the mixing tank is used up by using for a predetermined time, the work is stopped each time, the slurry is replenished in the mixing tank again, and the work is restarted.
In other words, it must be a "batch type" work. Therefore, it can be used for things where one work such as cutting is completed in a short time, but for those that perform long continuous work such as “hanging” work on the exterior of a building, batch type Therefore, it cannot be adopted because it reduces the work efficiency. In addition, there is a technical problem that the mixing amount of the injected slurry slightly changes depending on the remaining amount of the slurry in the mixing tank, and in the accurate sense, it is impossible to inject the liquid having the same mixing ratio over the entire usage time. there were.

On the other hand, in the case of the type that does not mix the slurry, that is, only the high-pressure liquid is injected, or in the case of the aggressive type that mixes the slurry but does not directly pressurize,
Although it is excellent in that it can perform continuous work, it is much inferior to the above-mentioned direct pressure type aggressive type in cutting ability and "cutting" ability, for example, "cutting" work of coating on exterior of building In this case, the coating film cannot be peeled off unless a liquid under extremely high pressure (specifically, a liquid with a pressure of about 500 to 1000 Kgf / cm2) is sprayed, and as a result, the base material that becomes the structural member of the building is damaged. I'm worried. Further, since high pressure is required, there is an inconvenience that each device including the pump becomes expensive.

The present invention has been made in view of the above situation, and it is a direct pressure type aggressive water jet apparatus in which the slurry can be continuously mixed at a constant rate and is continuously jetted from the apparatus. It is an object of the present invention to provide a slurry mixing method of mixing a slurry into a liquid.

[0008]

A water jet device according to the present invention is a direct pressure type water jet device in which a slurry is mixed in a liquid and jetted from a jet nozzle, and a slurry tank for storing the slurry , A liquid source, a high-pressure pump for supplying the liquid supplied from the liquid source under pressure, a supply line connected to the high-pressure pump for supplying the high-pressure liquid, and a slurry supply device for forcibly supplying the slurry. And a mixing chamber having a slurry supply port connected to the slurry tank side to supply the slurry, and a discharge port for discharging a high-pressure liquid mixed with the slurry, and a discharge port from the mixing chamber is in the tank. The mixed material supply port formed by being inserted into the liquid, and the state in which the slurry is completely mixed in the liquid. Discharge port and supplies the injection nozzle side,
It has a space of a volume larger than the mixing chamber connected to the supply port and the discharge port, and mixes the high-pressure liquid mixed with the slurry supplied from the mixing product supply port more evenly and temporarily. And a high-pressure tank which is housed in.

According to the water jet device thus constructed, however,
The liquid can be supplied while being pressurized by the high-pressure pump, and the slurry can be forcibly and constantly supplied by the slurry supply device. And
The slurry is mixed into the high-pressure liquid in these mixing chambers, and then the slurry is mixed more evenly in the liquid in the high-pressure tank so that they can be supplied to the injection nozzle side. Therefore, the slurry can be constantly supplied to the injection nozzle side while maintaining a predetermined ratio.

Further, the slurry mixing method according to the present invention is a slurry mixing method of continuously mixing the slurry into the liquid jetted from the water jet device, and the base end is connected to the high-pressure pump side and inside the mixing chamber. By the injection pressure of the high-pressure liquid discharged from the tip that opens at
A negative pressure is formed at least in the vicinity of the slurry supply port in the mixing chamber, and the base end is connected to the slurry tank side and the slurry is supplied from the slurry supply port to the mixing chamber through the slurry supply means into the mixing chamber. The discharge port of the mixing chamber is formed into a tapered tubular shape with the diameter expanded on the tip side, and at least the tip part is inserted into the high pressure tank, and a vortex flow is generated inside. In the high-pressure tank having a certain volume, a swirl flow is generated by the inflow pressure of the inflowing high-pressure liquid to uniformly and continuously mix the slurry into the high-pressure liquid.

According to the slurry mixing method thus configured, however, it is possible to continuously supply the high-pressure liquid, in which the slurry is uniformly mixed at a constant rate, continuously to the injection nozzle side.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION As one embodiment of the above water jet apparatus, the discharge port is formed in the central portion of the funnel-shaped central portion where the lower portion of the mixing chamber is gathered in the center, and the mixing port is formed. The end of the supply pipeline is formed on the ceiling surface of the chamber toward the funnel-shaped portion, and is located below the end of the supply pipeline and above the funnel-shaped lower portion. When the slurry supply port is formed, it is possible to supply the high-pressure liquid containing the slurry from the discharge port to the high-pressure tank side in a state where the slurry is mixed into the high-pressure liquid as evenly as possible. Becomes

Further, as one embodiment of the water jet device, it is effective in the high-pressure tank if the discharge port forming the mixing product supply port is formed in a trumpet shape having a diameter enlarged at the outlet end. It is a preferred embodiment in which the slurry can be diffused and the slurry can be uniformly mixed in the high-pressure liquid in the high-pressure tank.

As another embodiment, the mixing material supply port and the discharge port are formed at the upper end of the high-pressure tank so that the opening ends of the mixing product supply port and the high-pressure tank side face the bottom. The high-pressure liquid mixed with the slurry is evenly discharged from the discharge port.

Further, as another embodiment, when the volume of the high-pressure tank is set to be 5 times or more of the volume of the mixing chamber, it is suitable for evenly mixing the slurry into the high-pressure liquid. It becomes an embodiment,
In addition, it is a preferred embodiment that functions as a storage tank for temporarily storing the spillage.

As one embodiment of the above slurry mixing method, the slurry supply means is composed of a spiral wound type pressure pump, and the slurry supply amount is adjusted in proportion to the supply amount of the high pressure liquid. Is a preferred embodiment.

Further, when the polymer solution is mixed in the high-pressure liquid supplied into the mixing chamber, the injection nozzle and the high-pressure tank are connected even when the injection from the injection nozzle is temporarily suspended and restarted. This is a preferred embodiment because it is possible to prevent a situation in which the slurry is clogged in a conduit such as a hose.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A water jet apparatus and a slurry mixing method according to embodiments of the present invention will be described below more specifically with reference to the drawings.

FIG. 1 is a block diagram showing a schematic configuration of the entire water jet apparatus according to this embodiment.

In FIG. 1, reference numeral 1 is a mixing chamber having a funnel-shaped lower portion, and an opening 1a is formed in a ceiling surface 1A of the mixing chamber 1, and the opening 1a is formed.
The supply line a is connected to the discharge port of the triple plunger type high-pressure pump Ph. The suction port of the high-pressure pump Ph is connected to the discharge port of the pressure pump P1 which is a spiral wound needle pump. Further, the suction port of the pressure pump P1 is connected to a fresh water tank T1 which is a liquid source in this embodiment through a connection pipe line 12, and the connection pipe line 12 is provided with a joining fitting and a connection pipe line 121. It is connected to the polymer tank T2 through.

An opening 1b is formed in the side wall 1B of the mixing chamber 1, and a spirally wound pressure pump (slurry supply device) is provided through a connecting pipe 13 which is bent upward at a portion slightly separated from the tip. It is connected to the discharge port of P2, and the suction port of the pressure pump P2 is connected to the slurry tank T3 via the connection conduit 14.

A discharge port 1C is formed at the lower end of the mixing chamber 1, that is, in the funnel-shaped central portion. In this embodiment, the discharge port 1C is configured by a trumpet-shaped pipe whose tip (lower end) is expanded. Further, the discharge port 1C is formed such that the opening 1a, which is an end portion of the supply pipeline 11, is vertically opposed.

The trumpet-shaped discharge port 1C of the mixing chamber 1 is located slightly lateral to the center of the ceiling surface 2A of the high-pressure tank 2 so that the opening of the discharge port 1C opens inside the high-pressure tank 2. It is arranged in a simple state.
On the ceiling surface 2A of the high-pressure tank 2, there is formed a discharge port 2B for supplying a high-pressure liquid in which slurry is uniformly mixed to the injection nozzle side (not shown).
5 is connected to an injection nozzle (not shown).
In this embodiment, the high pressure tank 2 having the mixing material supply port including the discharge port 1C and the discharge port 2B on the ceiling surface 2A is, in terms of volume, 10 of the mixing chamber 1. It has a volume of about 40 times.

Further, in the case of this embodiment, the discharge pressure of the pressure pump P2 is constructed so that it can be adjusted by the control unit C, and the slurry in the mixing chamber 1 can be forcibly supplied into the mixing chamber 1. The pressure is set to be slightly higher than the pressure (negative pressure), that is, automatically adjusted according to the pressure of the high-pressure pump Ph. In addition, the pressure pump P2 is configured such that the rotation amount of the pressure pump P2 is changed by operating a slurry amount adjusting dial (not shown) of the control device so that the supply amount of the slurry can be appropriately adjusted according to the application. Has been done. The high-pressure pump Ph is configured so that the pressure can be appropriately adjusted according to the application by operating a pressure adjusting dial (not shown) of the control device C.

Further, the control device C temporarily stops the injection of the high-pressure liquid from the injection nozzle by the flow stop signal from the flow rate sensor arranged in the pipe line 15 on the injection nozzle side. It is configured to stop each pump described above. Note that, in FIG. 1, a chain line from the control device C or to the control device C represents a control signal.

Thus, the water jet device thus constructed operates as follows in the "scraping" work of the coating film on the outer wall or in the cutting work of concrete.

That is, when the main switch of the above-mentioned control device is turned on prior to the start of work, each pump is moved, and fresh water is supplied from the fresh water tank T1 through the connecting pipe line 12, and the joining fitting and the connecting pipe are connected. Via road 121
The polymer liquid is supplied from the polymer tank T2 into the connection conduit 12 to which the fresh water is supplied. This supply amount is supplied according to the rotation speed of the pressure pump P1, and this rotation speed is controlled by the adjustment dial of the control device C. That is, it is adjusted in advance or during work depending on the desired injection amount to be ejected from the ejection nozzle.

The fresh water mixed with the polymer liquid is supplied from the pressure pump P1 to the high pressure pump Ph, and is pressurized to a desired pressure by the high pressure pump Ph. Specifically, in this embodiment, it is appropriately adjusted in the range of 200 to 1000 kg / cm 2 in accordance with the work content, that is, the target object and the work content is “cutting” work or “cutting work”. . Specifically, it can be adjusted by the adjustment dial of the control device C. For example, in the case of removing the coating film on the outer wall of the building, 200 to 4
When adjusting to about 50 kg / cm2 and using it for cutting concrete members, 450-1000 kg / cm2
Use it after adjusting the degree.

The liquid pressurized by the high-pressure pump Ph is supplied to the opening 1a of the mixing chamber 1 from the discharge port of the high-pressure pump Ph via the supply conduit 11.
It passes through the mixing chamber 1 toward its outlet. A negative pressure is generated in the mixing chamber 1 by the passage of the high-pressure liquid.

On the other hand, by rotating the pressure pump P2, the slurry is supplied from the slurry tank T3 to the connecting pipe 13 via the connecting pipe line 14 and the pressure pump P2. The pressure pump P2 is also configured to adjust the amount of slurry mixed in the liquid ejected from the ejection nozzle by operating the adjustment dial of the control device C in advance or during work. . Further, in the case of this pressure pump P2, it is possible to automatically follow the change in the supply amount of the pressure pump P1 and always supply a predetermined amount of slurry with respect to the amount of the injected liquid. When the rotational speed of the pressure pump P1 is adjusted to increase, the control device C controls the rotational speed of the pressure pump P2 so as to increase the supply amount of the slurry in accordance with the increasing rate. Control automatically. Therefore, the operation to be performed for this slurry supply is
The adjustment dial of the pressure pump P2 is simply adjusted in advance for the amount of slurry mixed in the liquid.

Then, the slurry is forcibly supplied to the supply pipe 13 by the pressure pump P2. However, the discharge pressure of the pressure pump P2 and the negative pressure always bring the mixing chamber 1 to a desired amount accurately. A slurry is supplied. And in this mixing chamber 1,
The slurry is mixed in the high-pressure liquid, passes through the funnel-shaped bottom, and the trumpet-shaped discharge port (mixed material supply port) 1
It is supplied from C into the high-pressure tank 2. Due to this trumpet shape, the supplied high-pressure liquid diffuses toward the bottom of the large space of the high-pressure tank 2, and the slurry is completely liquified in the high-pressure tank 2. It will be mixed evenly inside.

Then, the operator holding the injection nozzle is
When the injection is started, the high-pressure liquid mixed in the state where the slurry is evenly distributed from the discharge port 2B of the high-pressure tank 2 through the pipe 15 is supplied to the injection nozzle side, and the injection nozzle ejects the object to be treated. Is jetted. In this way, the pressure of the liquid injected from the injection nozzle is due to pressure loss,
The pressure is about 1/2 of the above-mentioned pressure in the high-pressure pump Ph, and this pressure, that is, the pressure of the liquid sprayed from the spraying nozzle used for "cutting" or cutting is 100 to 250 kg / It takes about 2 cm2,
The "cutting" operation is carried out at about 250 to 600 kg / cm @ 2, and this pressure is about 1 of the necessary pressure used for the conventional continuously usable aggressive type "hanging" or "cutting" operation. It is about / 2. Therefore,
Since the specifications of each pump including the high pressure pump can be lowered,
The device can be inexpensive.

When the injection from the injection nozzle is temporarily stopped, the flow rate sensor arranged in the pipe 15 detects this state (stopped state of flow), and the high pressure tank 2
Temporarily stop each pump so that the internal pressure does not exceed a predetermined level.

In this stopped state, even if the pipe line 15 is partially arranged in the vertical direction, the slurry is directed in the vertical direction because the polymer is mixed in the fresh water as described above. The pipe 15 is not blocked by being accumulated at the lower end.
In other words, the conduit 15 does not block the pipe line 15. Therefore, even if the work is interrupted midway, the work can be smoothly continued before and after the work.

According to the apparatus of the present embodiment, as a result of carrying out the slurry mixing method according to the present invention as described above, the slurry can be continuously mixed into the liquid while always maintaining a desired ratio. You can Moreover, in the case of the apparatus of this embodiment, the mixing ratio of this slurry can be automatically adjusted in accordance with the change in the supply amount of the high-pressure liquid, and a constant slurry can be always mixed.

In the above embodiment, the slurry is
"Shirasu", "silica sand", etc. are used for the chipping work of the coating film, and garnet is used for "chipping" of the mortar, which is the top coat of the exterior, and as a slurry when cutting concrete. "Alumina" is used. Further, as the above-mentioned polymer liquid, the product name “Himoloc WJ-1000” of Hymo Co., Ltd. is used, but it goes without saying that another polymer liquid of the same quality may be used.

[0037]

According to the water jet apparatus of the present invention, it is possible to realize a direct pressure type aggressive water jet apparatus in which slurry can be continuously mixed at a constant rate.

Further, according to the slurry mixing method of the present invention, it is possible to mix the slurry at a constant rate and continuously.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of an entire water jet apparatus according to a present embodiment.

[Explanation of symbols]

1 ... mixing chamber 2 ... High-pressure tank T1 …… Shimizu tank T3 ... Slurry tank P3 ... Pressure pump (slurry supply device) Ph ... High-pressure pump

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[Procedure amendment]

[Submission date] January 7, 2003 (2003.1.7)

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Slurry mixing method

[Claims]

Detailed Description of the Invention

[0001]

The present invention relates to a slurry mixing method of mixing the slurry in the liquid to be water jet instrumentation placed <br/> et injection used as a cutting device or "chipping" device. In addition, in this specification, "hatsuri" means
In addition to the so-called "shaving" in a narrow sense, it means a concept including "peeling" of a coating film on the surface.

[0002]

2. Description of the Related Art In recent years, various cutting devices using a water jet or "cutting" devices for "cutting" coating films on the surface have been provided.

[0003] These devices (referred to as water jet devices) are roughly classified into a type (aggressive type) in which a slurry is mixed in a liquid to be jetted for cutting or the like, and a device which only jets a high-pressure liquid.

The above-mentioned aggressive type sprays a high-pressure liquid mixed with the slurry onto the object to be treated, so that the high-pressure liquid comes into contact with the scraping force and the slurry mixed therein comes into contact with the object. Since the force for scraping off the object is added to perform cutting or "chipping", it has a high capability. In particular, among the aggressive types, the direct pressurizing type that supplies the liquid in which the slurry is mixed to the injection nozzle side has the speed of the liquid injected from the injection nozzle and the speed of the slurry that are substantially the same, and is also injected. Since the slurry gathers in the central part of the liquid that is used, it is excellent in that the work efficiency in cutting or "hanging" work is high.

However, in this direct pressurization type, a high-pressure liquid is injected into a mixing tank containing a slurry in advance, and the slurry is mixed so that the slurry is evenly mixed in the liquid. The liquid is configured to be ejected from the ejection nozzle. Therefore, when the slurry in the mixing tank is used up by using for a predetermined time, the work is stopped each time, the slurry is replenished in the mixing tank again, and the work is restarted.
In other words, it must be a "batch type" work. Therefore, it can be used for things where one work such as cutting is completed in a short time, but for those that perform long continuous work such as “hanging” work on the exterior of a building, batch type Therefore, it cannot be adopted because it reduces the work efficiency. In addition, there is a technical problem that the mixing amount of the injected slurry slightly changes depending on the remaining amount of the slurry in the mixing tank, and in the accurate sense, it is impossible to inject the liquid having the same mixing ratio over the entire usage time. there were.

On the other hand, in the case of the type that does not mix the slurry, that is, only the high-pressure liquid is injected, or in the case of the aggressive type that mixes the slurry but does not directly pressurize,
Although it is excellent in that it can perform continuous work, it is much inferior to the above-mentioned direct pressure type aggressive type in cutting ability and "cutting" ability, for example, "cutting" work of coating on exterior of building In this case, the coating film cannot be peeled off unless a liquid under extremely high pressure (specifically, a liquid with a pressure of about 500 to 1000 Kgf / cm2) is sprayed, and as a result, the base material that becomes the structural member of the building is damaged. I'm worried. Further, since high pressure is required, there is an inconvenience that each device including the pump becomes expensive.

[0007] The present invention has been conducted in view of the current situation as described above, always in the liquid slurry is continuously being Aggregation Shiv type water jet instrumentation placed al injection directly pressurized be incorporated also only at a certain rate An object of the present invention is to provide a method of mixing a slurry with a slurry.

[0008]

A slurry mixing method according to the present invention is a slurry mixing method in which a slurry is continuously mixed into a liquid jetted from a water jet device, and a base end is connected to a high pressure pump side. By the injection pressure of the high-pressure liquid discharged from the tip opened in the mixing chamber, a negative pressure is formed at least in the vicinity of the slurry supply port in the mixing chamber, and the base end is connected to the slurry tank side from the slurry supply port. The slurry is formed to be forcibly supplied into the mixing chamber through the slurry supply means by the negative pressure and the slurry supply means, and the discharge port of the mixing chamber is formed in a tapered tubular shape whose diameter is expanded on the tip side. At least its tip is inserted into a high-pressure tank, and has a volume that allows vortex flow inside. In serial high-pressure tank, to generate a vortex flow by the inflow pressure of the high pressure fluid flowing in and characterized by being configured to uniformly and continuously mixing the slurry into the high pressure liquid inside.

According to the slurry mixing method thus configured, however, the high-pressure liquid in which the slurry is mixed uniformly at a constant rate can be continuously supplied to the injection nozzle side.

The water jet apparatus for carrying out the above method is a direct pressure type water jet apparatus in which the slurry is mixed in the liquid and jetted from the jet nozzle, and the slurry tank stores the slurry and the liquid source. When,
The high-pressure pump for supplying the liquid supplied from the liquid source under pressure, the supply pipe line connected to the high-pressure pump for supplying the high-pressure liquid, and the slurry tank side through the slurry supply device forcibly supplying the slurry. A mixing chamber having a slurry supply port connected to the above to supply the slurry and a discharge port for discharging the high-pressure liquid mixed with the slurry, and a discharge port from the mixing chamber are inserted into the tank. A mixed product supply port formed by the above, and a discharge port for supplying a state in which the slurry is completely mixed in the liquid to the injection nozzle side, and a volume larger than the mixing chamber connected to the supply port and the discharge port. With a space, the high-pressure liquid mixed with the slurry supplied from the mixing material supply port is further uniformly mixed. Together it is preferable that includes a high-pressure tank containing them temporarily, the.

According to the water jet apparatus thus constructed, the liquid is supplied into the mixing chamber while being pressurized by the high-pressure pump, and the slurry is forcibly and at a constant rate by the slurry supplying apparatus. Can be supplied at. Then, the slurry is mixed into the high-pressure liquid in these mixing chambers,
Next, the slurry is more evenly mixed in the liquid in the high-pressure tank, and they can be supplied to the injection nozzle side. Therefore, the slurry can be constantly supplied to the injection nozzle side while maintaining a predetermined ratio.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION One embodiment of the above slurry mixing method.
As an embodiment, the slurry supply means is a spiral wound type.
It is composed of a pressure pump of
Suitably configured to regulate the supply of rally
It becomes an embodiment.

Also, supply into the mixing chamber
If the polymer solution is mixed in the
Even when the injection from the injection nozzle is temporarily suspended and restarted,
In the pipeline such as a hose that connects the injection nozzle and the high-pressure tank
In addition, it is possible to prevent the situation where the slurry is clogged.
The above is the preferred embodiment.

As one embodiment of the water jet apparatus, the discharge port is formed at the central portion of the mixing chamber, which is formed in a funnel shape where the lower portion of the mixing chamber is gathered in the center, and the ceiling surface of the mixing chamber is formed. The end of the supply pipe is formed toward the funnel-shaped portion, and the slurry supply port is located below the end of the supply pipe and above the funnel-shaped lower part. When formed, it is an embodiment in which the slurry-containing high-pressure liquid can be supplied from the discharge port to the high-pressure tank side in a state where the slurry is mixed into the high-pressure liquid as evenly as possible.

Further, as one embodiment of the water jet device, it is effective in the high-pressure tank if the discharge port forming the mixed material supply port is formed in a trumpet shape whose diameter is expanded at the outlet end. It is a preferred embodiment in which the slurry can be diffused and the slurry can be uniformly mixed in the high-pressure liquid in the high-pressure tank.

As another embodiment, the mixing material supply port and the discharge port are formed at the upper end of the high-pressure tank so that the opening ends of the mixing product supply port and the high-pressure tank side face the bottom. The high-pressure liquid mixed with the slurry is evenly discharged from the discharge port.

Furthermore, as another embodiment, when the volume of the high-pressure tank is configured to be 5 times or more the volume of the mixing chamber, it is suitable for evenly mixing the slurry into the high-pressure liquid. It becomes an embodiment,
In addition, it is a preferred embodiment that functions as a storage tank for temporarily storing the spillage.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A water jet apparatus and a slurry mixing method according to embodiments of the present invention will be described below more specifically with reference to the drawings.

FIG. 1 is a block diagram showing a schematic configuration of the entire water jet apparatus according to this embodiment.

In FIG. 1, reference numeral 1 is a mixing chamber having a funnel-shaped lower portion, and an opening 1a is formed in a ceiling surface 1A of the mixing chamber 1, and the opening 1a is formed.
The supply line a is connected to the discharge port of the triple plunger type high-pressure pump Ph. The suction port of the high-pressure pump Ph is connected to the discharge port of the pressure pump P1 which is a spiral wound needle pump. Further, the suction port of the pressure pump P1 is connected to a fresh water tank T1 which is a liquid source in this embodiment through a connection pipe line 12, and the connection pipe line 12 is provided with a joining fitting and a connection pipe line 121. It is connected to the polymer tank T2 through.

An opening 1b is formed in the side wall 1B of the mixing chamber 1, and a spirally wound pressure pump (slurry supply device) is provided through a connecting pipe 13 which is bent upward at a portion slightly separated from the tip. It is connected to the discharge port of P2, and the suction port of the pressure pump P2 is connected to the slurry tank T3 via the connection conduit 14.

A discharge port 1C is formed at the lower end of the mixing chamber 1, that is, in the funnel-shaped central portion. In this embodiment, the discharge port 1C is configured by a trumpet-shaped pipe whose tip (lower end) is expanded. Further, the discharge port 1C is formed such that the opening 1a, which is an end portion of the supply pipeline 11, is vertically opposed.

The trumpet-shaped discharge port 1C of the mixing chamber 1 is located slightly lateral to the center of the ceiling surface 2A of the high-pressure tank 2 so that the opening of the discharge port 1C opens inside the high-pressure tank 2. It is arranged in a simple state.
On the ceiling surface 2A of the high-pressure tank 2, there is formed a discharge port 2B for supplying a high-pressure liquid in which slurry is uniformly mixed to the injection nozzle side (not shown).
5 is connected to an injection nozzle (not shown).
In this embodiment, the high pressure tank 2 having the mixing material supply port including the discharge port 1C and the discharge port 2B on the ceiling surface 2A is, in terms of volume, 10 of the mixing chamber 1. It has a volume of about 40 times.

Further, in the case of this embodiment, the discharge pressure of the pressure pump P2 is constructed so that it can be adjusted by the control unit C, and the slurry in the mixing chamber 1 can be forcibly supplied into the mixing chamber 1. The pressure is set to be slightly higher than the pressure (negative pressure), that is, automatically adjusted according to the pressure of the high-pressure pump Ph. In addition, the pressure pump P2 is configured such that the rotation amount of the pressure pump P2 is changed by operating a slurry amount adjusting dial (not shown) of the control device so that the supply amount of the slurry can be appropriately adjusted according to the application. Has been done. The high-pressure pump Ph is configured so that the pressure can be appropriately adjusted according to the application by operating a pressure adjusting dial (not shown) of the control device C.

Further, the control device C temporarily stops the injection of the high-pressure liquid from the injection nozzle by the flow stop signal from the flow rate sensor arranged in the pipe line 15 on the injection nozzle side. It is configured to stop each pump described above. Note that, in FIG. 1, a chain line from the control device C or to the control device C represents a control signal.

Thus, the water jet device thus constructed operates as follows in the "scraping" work of the coating film on the outer wall or in the cutting work of concrete.

That is, when the main switch of the above-mentioned control device is turned on prior to the start of work, each pump is moved, and fresh water is supplied from the fresh water tank T1 through the connecting pipe line 12, and the joining fitting and the connecting pipe are connected. Via road 121
The polymer liquid is supplied from the polymer tank T2 into the connection conduit 12 to which the fresh water is supplied. This supply amount is supplied according to the rotation speed of the pressure pump P1, and this rotation speed is controlled by the adjustment dial of the control device C. That is, it is adjusted in advance or during work depending on the desired injection amount to be ejected from the ejection nozzle.

The fresh water mixed with the polymer liquid is supplied from the pressure pump P1 to the high pressure pump Ph, and is pressurized to a desired pressure by the high pressure pump Ph. Specifically, in this embodiment, it is appropriately adjusted in the range of 200 to 1000 kg / cm 2 in accordance with the work content, that is, the target object and the work content is “cutting” work or “cutting work”. . Specifically, it can be adjusted by the adjustment dial of the control device C. For example, in the case of removing the coating film on the outer wall of the building, 200 to 4
When adjusting to about 50 kg / cm2 and using it for cutting concrete members, 450-1000 kg / cm2
Use it after adjusting the degree.

The liquid pressurized by the high-pressure pump Ph is supplied to the opening 1a of the mixing chamber 1 from the discharge port of the high-pressure pump Ph via the supply conduit 11.
It passes through the mixing chamber 1 toward its outlet. A negative pressure is generated in the mixing chamber 1 by the passage of the high-pressure liquid.

On the other hand, by rotating the pressure pump P2, the slurry is supplied from the slurry tank T3 to the connecting pipe 13 via the connecting pipe line 14 and the pressure pump P2. The pressure pump P2 is also configured to adjust the amount of slurry mixed in the liquid ejected from the ejection nozzle by operating the adjustment dial of the control device C in advance or during work. . Further, in the case of this pressure pump P2, it is possible to automatically follow the change in the supply amount of the pressure pump P1 and always supply a predetermined amount of slurry with respect to the amount of the injected liquid. When the rotational speed of the pressure pump P1 is adjusted to increase, the control device C controls the rotational speed of the pressure pump P2 so as to increase the supply amount of the slurry in accordance with the increasing rate. Control automatically. Therefore, the operation to be performed for this slurry supply is
The adjustment dial of the pressure pump P2 is simply adjusted in advance for the amount of slurry mixed in the liquid.

Then, the slurry is forcibly supplied to the supply pipe 13 by the pressure pump P2. However, the discharge pressure of the pressure pump P2 and the negative pressure always bring the mixing chamber 1 to a desired amount accurately. A slurry is supplied. And in this mixing chamber 1,
The slurry is mixed in the high-pressure liquid, passes through the funnel-shaped bottom, and the trumpet-shaped discharge port (mixed material supply port) 1
It is supplied from C into the high-pressure tank 2. Due to this trumpet shape, the supplied high-pressure liquid diffuses toward the bottom of the large space of the high-pressure tank 2, and the slurry is completely liquified in the high-pressure tank 2. It will be mixed evenly inside.

Then, the operator holding the injection nozzle is
When the injection is started, the high-pressure liquid mixed in the state where the slurry is evenly distributed from the discharge port 2B of the high-pressure tank 2 through the pipe 15 is supplied to the injection nozzle side, and the injection nozzle ejects the object to be treated. Is jetted. In this way, the pressure of the liquid injected from the injection nozzle is due to pressure loss,
The pressure is about 1/2 of the above-mentioned pressure in the high-pressure pump Ph, and this pressure, that is, the pressure of the liquid sprayed from the spraying nozzle used for "cutting" or cutting is 100 to 250 kg / It takes about 2 cm2,
The "cutting" operation is carried out at about 250 to 600 kg / cm @ 2, and this pressure is about 1 of the necessary pressure used for the conventional continuously usable aggressive type "hanging" or "cutting" operation. It is about / 2. Therefore,
Since the specifications of each pump including the high pressure pump can be lowered,
The device can be inexpensive.

When the injection from the injection nozzle is temporarily stopped, the flow rate sensor arranged in the pipe 15 detects this state (stopped state of flow), and the high pressure tank 2
Temporarily stop each pump so that the internal pressure does not exceed a predetermined level.

In this stopped state, even if the pipe line 15 is partially arranged in the vertical direction, the slurry is directed in the vertical direction because the polymer is mixed in the fresh water as described above. The pipe 15 is not blocked by being accumulated at the lower end.
In other words, the conduit 15 does not block the pipe line 15. Therefore, even if the work is interrupted midway, the work can be smoothly continued before and after the work.

According to the apparatus of the present embodiment, as a result of carrying out the slurry mixing method according to the present invention as described above, the slurry can be continuously mixed into the liquid while always maintaining a desired ratio. You can Moreover, in the case of the apparatus of this embodiment, the mixing ratio of this slurry can be automatically adjusted in accordance with the change in the supply amount of the high-pressure liquid, and a constant slurry can be always mixed.

In the above embodiment, the slurry is
"Shirasu", "silica sand", etc. are used for the chipping work of the coating film, and garnet is used for "chipping" of the mortar, which is the top coat of the exterior, and as a slurry when cutting concrete. "Alumina" is used. Further, as the above-mentioned polymer liquid, the product name “Himoloc WJ-1000” of Hymo Co., Ltd. is used, but it goes without saying that another polymer liquid of the same quality may be used.

[0037]

According to the slurry mixing method of the present invention
For example, always mix the slurry at a constant rate and continuously.
It is possible to

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of an entire water jet apparatus according to a present embodiment.

[Explanation of symbols] 1 ... mixing chamber 2 ... High-pressure tank T1 …… Shimizu tank T3 ... Slurry tank P3 ... Pressure pump (slurry supply device) Ph ... High-pressure pump

Claims (8)

[Claims] 1. A direct pressure type water jet device in which a slurry is mixed into a liquid and jetted from a jet nozzle, wherein a slurry tank storing the slurry, a liquid source, and a liquid supplied from the liquid source are provided. A high-pressure pump for supplying pressure, a supply line connected to the high-pressure pump for supplying high-pressure liquid, and a slurry supply device for forcibly supplying slurry are connected to the slurry tank side to supply the slurry. Mixing chamber having a slurry supply port for discharging high-pressure liquid mixed with the slurry, and a mixing product supply port formed by inserting the discharge port from the mixing chamber into the tank. , And a discharge port for supplying a state where the slurry is completely mixed in the liquid to the injection nozzle side,
It has a space having a larger volume than the mixing chamber connected to the supply port and the discharge port, and mixes the high-pressure liquid mixed with the slurry supplied from the mixing product supply port more evenly and temporarily. And a high-pressure tank which is housed in the water jet device. 2. The discharge port is formed in a central portion of the mixing chamber, which is formed in a funnel shape in which a lower portion of the mixing chamber is gathered in the center, and the end portion of the supply pipe line is formed in a funnel on a ceiling surface of the mixing chamber. A slurry supply port is formed at a lower portion of an end of the supply pipe line and above the funnel-shaped lower portion. Item 1. The water jet device according to item 1. 3. The water jet device according to claim 1, wherein the discharge port forming the mixed material supply port is formed in a trumpet shape having an enlarged diameter at the outlet end. 4. The mixing product supply port and the discharge port are formed at the upper end of the high-pressure tank so that the opening ends of the mixing product supply port and the discharge port to the high-pressure tank side are desired to be at the bottom. 3. The water jet device described in 3. 5. The water jet apparatus according to claim 1, wherein the volume of the high pressure tank is 5 times or more the volume of the mixing chamber. 6. The slurry mixing method is a slurry mixing method in which slurry is continuously mixed into a liquid jetted from a water jet device, and a base end is connected to a high-pressure pump side and a distal end opened into a mixing chamber. By the injection pressure of the high-pressure liquid discharged from, while forming a negative pressure at least in the vicinity of the slurry supply port in the mixing chamber, the base end is connected to the slurry tank side, the slurry from the slurry supply port through the slurry supply means. The mixing chamber is formed so as to be forcibly supplied by the negative pressure and the slurry supply means, and the discharge port of the mixing chamber is formed in a tapered tubular shape whose diameter is expanded on the tip side so that at least the tip is in a high pressure tank. Insert it into
In the high-pressure tank having a volume such that a vortex flow is generated inside, the vortex flow is generated by the inflow pressure of the high-pressure liquid flowing in, and the slurry is uniformly and continuously mixed into the high-pressure liquid. Characteristic slurry mixing method. 7. The slurry mixing method according to claim 6, wherein the slurry supply means is composed of a spiral wound type pressure pump, and the slurry supply amount is adjusted in proportion to the supply amount of the high pressure liquid. 8. The slurry mixing method according to claim 6, wherein the polymer solution is mixed in the high-pressure liquid supplied into the mixing chamber.