JP3603363B2 - Coolant cleaning device - Google Patents

Description

[0001]
[Industrial applications]
The present invention eliminates the accumulation of foreign substances in a protective filter that removes cutting chips and other foreign substances contained in a coolant liquid for lubrication used when processing metals and other materials, and stabilizes a coolant liquid that does not contain foreign substances. The present invention relates to a coolant cleaning device that enables supply.
[0002]
[Prior art]
The conventional first coolant cleaning device communicates the coolant tank T with the pump P by sucking coolant in the coolant tank T by a pump P rotated by a motor M as shown in FIG. The filter F interposed in the piping D removes chips and other foreign substances contained in the coolant liquid.
[0003]
As shown in FIG. 3, the second conventional coolant cleaning device suctions a coolant liquid in a coolant tank T by a plunger pump PP that reciprocates a plunger PL via a crank C rotated by a motor M. A filter F interposed in a pipe D connecting the coolant tank T and the pump P removes chips and other foreign substances contained in the coolant liquid.
[0004]
As shown in FIG. 4, the conventional third coolant cleaning apparatus is provided with a vacuum pump S for discharging air in the first tank FT from an upper portion thereof to a hermetically sealable first tank FT. The suction pipe SP is connected via a removable first filter FF to the upper part of the pump, and the coolant is supplied to the second filter SF and the return pipe MP arranged at the lower part of the first tank FT by the return pump RP. Via the second tank ST via the second tank ST.
[0005]
[Problems to be solved by the invention]
The first conventional coolant cleaning device removes chips and other foreign substances contained in the coolant by the filter F by sucking the coolant in the coolant tank T by the pump P. Therefore, chips and other foreign matters removed according to use accumulate, so that the flow resistance of the coolant liquid increases, and chips and other foreign matters mix into the passing coolant liquid, which has an adverse effect on the pump P. There was a problem.
[0006]
The second conventional coolant cleaning device removes chips and other foreign matters contained in the coolant by the filter F by sucking the coolant in the coolant tank T by the plunger pump PP. As a result, chips and other foreign matters removed according to use accumulate, so that the flow resistance of the coolant liquid increases, and chips and other foreign matters enter the coolant liquid passing therethrough, which adversely affects the pump P. There was a problem.
[0007]
Further, in the second conventional coolant cleaning device, the plunger pump PP reciprocates the plunger PL via the crank C rotated by the motor M, so that the vibration noise is large and the soundproof room is not provided. There was a problem that it became necessary.
[0008]
The conventional third coolant cleaning device draws the coolant liquid in the first tank FT and the second tank ST by the vacuum pump S and the return pump RP, so that the first filter FF and the second filter Since the chips remove the chips and other foreign substances contained in the coolant liquid by the SF, the chips and other foreign substances removed according to use accumulate, so that the flow resistance of the coolant liquid increases and There is a problem that chips and other foreign matter are mixed in the coolant liquid to be produced, which has an adverse effect on the return pump RP.
[0009]
Therefore, the present inventors remove the chips and other foreign substances contained in the coolant liquid sucked in the suction operation by the pump that enables the reversible operation of the suction and the discharge, and remove the foreign substances deposited on the protective filter in the discharge operation. Focusing on the technical idea of the present invention of discharging to a tank via a pipe, further research and development, and discharge of cutting chips and other foreign substances accumulated in the discharging operation, thereby increasing the resistance of the flow of the coolant liquid. In addition, the present invention has been achieved to achieve the object of preventing the pump P from being prevented from being mixed with the coolant liquid passing therethrough and preventing foreign matter from entering the pump P.
[0010]
[Means for Solving the Problems]
The coolant cleaning device of the present invention (first invention according to claim 1)
A pump that enables reversible operation of suction and discharge,
It is inserted into a pipe connected to the pump, removes chips and other foreign substances contained in the coolant liquid sucked by the pump, and deposits foreign substances into the tank via the pipe when the pump performs a discharging operation. Ri consists of a protection filter to be discharged,
The pump includes a reciprocating plunger inserted in a cylinder, a suction port in a suction operation and a discharge port in a discharge operation, and one port communicating with the pipe communicating with the protection filter. Constituted by a plunger pump ,
The plunger pump has a pair of plungers interposed in oppositely disposed cylinders connected by a connecting member. When one performs a suction operation, the other performs a discharge operation. Constituted by a plunger pump ,
The pair of plunger pumps includes a motor that reciprocates the connecting member that connects the two plungers via a crank mechanism ,
A protection filter inserted in a pipe connected to each of the pair of plunger pumps is configured by a filter device divided into two rooms by a filter member ,
An on-off valve arranged in a pipe between the filter device and the tank, the on-off valve including a suction valve that opens during a suction operation of the pump and a discharge valve that opens during a discharge operation of the pump is provided. Is what it is.
[0016]
The coolant cleaning device of the present invention (the second invention according to claim 2 )
In the first invention,
A detachable basket for receiving chips having different meshes stretched over the tank is juxtaposed.
[0017]
[Action]
The coolant cleaning device of the first invention having the above construction, the cutting chips and other foreign matter contained in the coolant liquid which has been sucked by the pump for the reversible operation of the suction and discharge, as well as removed by the protective filter, the pump In the discharging operation , foreign matter deposited on the protective filter is discharged to the tank via the pipe.
[0018]
The coolant cleaning apparatus according to the first aspect of the present invention having the above-mentioned structure is characterized in that the plunger reciprocating in the cylinder is interposed and the cutting fluid and the like contained in the coolant liquid sucked by the plunger pump performing reversible suction and discharge operations. Foreign matter is removed by the protection filter inserted in the pipe communicating with the one port which also serves as a suction port in a suction operation and a discharge port in a discharge operation, and the protection filter is removed in a discharge operation of the pump. Foreign matter deposited on the tank is discharged to the tank via the pipe.
[0019]
In the coolant cleaning apparatus according to the first aspect of the present invention, in the pair of plunger pumps, the two plungers interposed in the cylinders disposed opposite to each other are connected by a connecting member. Is performing a suction operation to remove chips and other foreign substances contained in the sucked coolant liquid by the protective filter, and in parallel, the other plunger pump performs a discharging operation to remove foreign substances accumulated on the protective filter. It is discharged to the tank via a pipe.
[0020]
In the coolant cleaning apparatus according to the first aspect of the present invention, the connecting member connecting the two plungers in the pair of plunger pumps is reciprocated by a crank mechanism by the motor, whereby one of the plunger pumps is sucked. During the operation, while the cutting filter and other foreign substances contained in the sucked coolant liquid are being removed by the protective filter, the other plunger pump performs a discharging operation in parallel and removes foreign substances deposited on the protective filter through the pipe. Through the tank.
[0021]
In the coolant cleaning apparatus according to the first invention having the above-described structure, chips and other foreign substances contained in the coolant liquid sucked by the pump in the suction operation are removed by the filter member of the filter device and divided by the filter member. The foreign matter deposited in the room on the upstream side of the two chambers and discharged in the room on the upstream side of the filter device in the discharge operation of the pump is discharged to the tank through the pipe.
[0022]
The coolant cleaning apparatus according to the first invention having the above configuration is configured such that the on-off valve disposed in the pipe between the filter device and the tank allows the on-off valve to be opened during the suction operation of the pump via the suction valve. While sucking the coolant liquid and supplying it to the filter device, foreign matter deposited on the filter member via the discharge valve opened during the discharge operation of the pump to the tank via the pipe. To discharge.
[0023]
The coolant cleaning apparatus according to the second aspect of the present invention is configured such that the discharge valve, which is opened when the pump performs a discharge operation, by a mesh having a different mesh stretched over the chip receiving basket arranged side by side on the tank. And trapping foreign matter deposited on the filter member together with the coolant discharged to the tank via the pipe, and dropping only the coolant into the tank, and a predetermined amount or more of the coolant in the chip receiving basket. When chips and other foreign matter accumulate, the chip receiving basket is removed to remove the accumulated foreign matter.
[0024]
【The invention's effect】
The coolant cleaning apparatus according to the first aspect of the present invention, which has the above operation, removes chips and other foreign matters contained in the coolant liquid sucked in the suction operation of the pump by the protection filter, and removes the protection in the discharge operation of the pump. The foreign matter deposited on the filter is discharged to the tank through the pipe, so that the resistance of the flow of the coolant liquid is prevented from increasing, and the coolant liquid passing therethrough is prevented from being mixed with cutting chips and other foreign substances. the effect of preventing adverse effects on the P.
[0025]
The coolant cleaning apparatus according to the first aspect of the present invention, which has the above-described operation, removes cuttings and other foreign substances contained in the coolant liquid sucked in the suction operation of the plunger pump by the protection filter, and in the discharge operation of the plunger pump. The foreign matter deposited on the protection filter connected to the one port is discharged to the tank through the pipe, so that an increase in the resistance of the flow of the coolant liquid is prevented, and chips or other substances are added to the passing coolant liquid. This has the effect of preventing entry of foreign matter and preventing adverse effects on the pump P.
[0026]
In the coolant cleaning device according to the first aspect of the present invention having the above-described operation, since both plungers are connected by the connecting member, one of the plunger pumps performs a suction operation to protect chips and other foreign substances contained in the sucked coolant liquid. During removal by the filter, the other plunger pump performs a discharging operation in parallel and discharges foreign matter deposited on the protection filter to the tank via the pipe, thereby preventing an increase in the resistance of the flow of the coolant liquid. In addition, by preventing chips and other foreign substances from being mixed into the passing coolant liquid, adverse effects on the pump P are prevented, and vibration noise is reduced because the inertia of both plungers are offset with each other. This has the effect of
[0027]
In the coolant cleaning apparatus according to the first aspect of the present invention, the connecting member connecting the two plungers is reciprocated by the motor via the crank mechanism, so that one of the plunger pumps performs a suction operation to be sucked. While the cutting filter and other foreign substances contained in the coolant liquid are being removed by the protective filter, the other plunger pump performs a discharging operation in parallel, and foreign substances deposited on the protective filter are transferred to the tank via the pipe. Since the discharge is performed, the resistance of the flow of the coolant liquid is prevented from increasing, and the coolant P passing therethrough is prevented from being mixed with chips and other foreign substances, thereby preventing the pump P from being adversely affected and reducing the inertia of both plungers. Since these cancel each other out, vibration noise is reduced, and the effect of eliminating the need for a soundproof room is achieved.
[0028]
The coolant cleaning apparatus according to the first aspect of the present invention, which has the above-described operation, removes cuttings and other foreign substances contained in the coolant liquid sucked in the suction operation of the plunger pump by the protection filter, and in the discharge operation of the plunger pump. The foreign matter accumulated in the room on the upstream side of the protection filter connected to the one port is discharged to the tank through the pipe, so that an increase in the resistance of the flow of the coolant liquid is prevented, and Since foreign matter in the upstream room is discharged, it is possible to prevent chips and other foreign matter from being mixed into the coolant liquid passing therethrough, thereby preventing the pump P from being adversely affected and canceling the inertia of both plungers. And an effect of eliminating the need for a soundproof room.
[0029]
In the coolant cleaning device according to the first aspect of the present invention, the direction of the flow of the coolant by the suction valve and the discharge valve of the on-off valve disposed in the pipe between the filter device and the tank is switched. This has the effect that chips and other foreign matter can be reliably discharged to the tank.
[0030]
The coolant cleaning apparatus according to the second aspect of the present invention, which has the above-described operation, is characterized in that the coolant discharged to the tank in the discharge operation of the pump is provided by the swarf receiving basket in which meshes of different meshes are juxtaposed at the top of the tank. A foreign substance deposited on the filter member together with the liquid is captured, only the coolant liquid is dropped into the tank, and when a predetermined amount or more of chips and other foreign substances are deposited in the chip receiving basket, the chip receiving part is removed. Since the cage is removed to remove the deposited foreign matter, it is possible to effectively prevent chips and other foreign matters from being mixed into the coolant liquid stored in the tank, thereby preventing the pump P from being adversely affected.
[0031]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0032]
(First embodiment)
As shown in FIG. 1, the coolant cleaning device according to the first embodiment includes a pair of plungers 11 that connect opposing plungers 11 by the connecting member 12 so that when one performs a suction operation, the other performs a discharge operation. The pump 1, the motor 2 for reciprocating the connecting member 12 via the crank mechanism 21, and the first tank 31 and the piping 4 connected to the plunger pump 1 are included in the sucked coolant liquid. A filter device 5 that removes swarf and other foreign matter, and discharges foreign matter deposited in a discharging operation to a tank via a pipe, and the piping 4 that communicates with the filter device 5 are disposed in a suction operation. An on-off valve 6 comprising a suction valve 61 to be opened and a discharge valve 62 to be opened at the time of discharge operation, and meshes 71 and 7 having different meshes on the upper part of the second tank. Stretched were detached freely consisting swarf basket 7 for being juxtaposed.
[0033]
As shown in FIG. 1, the pair of plunger pumps 1 are connected by the rod-shaped connecting member 12 to both of the disk-shaped plungers 11 interposed in the cylinders 10 arranged opposite to each other. It is provided with a configuration for realizing the movement, and is constituted by a pair of first and second plunger pumps arranged in parallel at the top and bottom.
[0034]
As shown in FIG. 1, the motor 2 is engaged with two connecting members 12 for connecting the two plungers 11 of the first and second pair of plunger pumps 1 and at a position symmetrical on the rotation axis. By rotating a pair of L-shaped crank mechanisms 21 disposed via a speed reduction mechanism 22, for example, the first pair of plunger pumps shown in the lower part of FIG. In order to move the second pair of plunger pumps shown in the upper part of FIG. 1 to the left (solid line arrow) in FIG.
[0035]
As shown in FIG. 1, the filter device 5 is connected to one port 13 serving also as a suction port and a discharge port of the four plunger pumps, and is connected to four pipes connected to the first tank 31. 41, 42, 43, 44, respectively, and two rooms 511, 512, 521, 522, 531, 532, by filter members 51, 52, 53, 54 of a predetermined mesh according to the size of the cutting chips and the like. 541 and 542.
[0036]
The on-off valve 6 is constituted by four substantially T-shaped valve bodies 60 as shown in FIG. 1, and clockwise at both ends communicating with pipes communicating with the first and second tanks 31 and 32. Only the suction valve 61 arranged on the right side in FIG. 1 that swings only to be opened only during the suction operation and the discharge valve 62 arranged on the left side in FIG. 1 that is opened only during the discharge operation are opposed to each other. The upper part is configured to communicate with the pipes 41, 42, 43, and 44 that communicate with the four filter devices 5, respectively.
[0037]
The chip receiving basket 7 includes a first chip receiving basket 73 detachably provided with a coarse mesh net 71 stretched over the second tank as shown in FIG. 1, and a fine mesh. The second chip receiving basket 74, which is detachably disposed and has a net 72 stretched, is arranged side by side, and a large chip is captured by the first chip receiving basket 73 disposed above. In addition, a small chip can be captured by the second chip receiving basket 74 disposed below.
[0038]
The coolant liquid that has passed through the chip receiving basket 7 and is stored in the second tank 32 is returned to the first tank 31 via a return pipe as shown in FIG. I have.
[0039]
When the motor 2 rotates, the coolant cleaning device of the first embodiment having the above-described configuration is configured such that the plunger 11 of the pair of plunger pumps disposed below is driven by the speed reduction mechanism 22 and the symmetrically disposed crank mechanism 21. 1 moves leftward as shown by the dashed arrow in FIG. 1 to move the plungers 11 to the left. Therefore, the right plunger 11 performs a suction operation, and the left plunger 11 performs a discharge operation.
[0040]
When the right plunger 11 performs a suction operation, the coolant liquid in the first tank 31 is sucked through the pipe, and the suction valve 61 of the on-off valve 6 is swung clockwise, so that the pipe After the chips and other foreign matters mixed in the coolant liquid are removed by the filter member 52 of the filter device 5 through 42, it is sucked into the plunger pump on the right side.
[0041]
At this time, since the left plunger 11 performs a discharging operation, the coolant liquid in the left plunger pump is discharged, and foreign matter accumulated in the left chamber 511 of the filter member 51 of the filter device 5 is removed. The liquid is supplied to the on-off valve 6 via the pipe 41 together with the liquid, and is discharged to the second tank 32 by swinging the discharge valve 62 clockwise.
[0042]
The foreign matter discharged together with the coolant liquid captures large chips by the coarse mesh net 71 of the first chip receiving basket 73 disposed above the upper part of the second tank 32, and moves downward. Small chips are also captured by the fine mesh net 72 of the second chip receiving basket 74 provided.
[0043]
At this time, the connecting member 12 for connecting the plungers 11 of the pair of plunger pumps arranged above moves rightward as shown by the dashed arrow in FIG. 1 to move both plungers 11 rightward. Therefore, the left plunger 11 performs a suction operation, and the right plunger 11 performs a discharge operation, and the same operation as described above is performed.
[0044]
The coolant cleaning apparatus according to the first embodiment having the above-described operation removes chips and other foreign substances contained in the coolant liquid sucked in the suction operation of the plunger pump 1 by the filter device 5, and removes the plunger pump 1. In the next discharge operation, foreign matter deposited on the filter members 51, 52, 53, 54 of the filter device 5 connected to the one port 13 is discharged to the second tank 32 via the pipe. In addition to preventing an increase in the resistance of the flow of the coolant liquid, it is possible to prevent chips and other foreign substances from being mixed into the passing coolant liquid, thereby preventing the pump 1 from being adversely affected.
[0045]
Further, in the coolant cleaning device of the first embodiment, since both plungers are connected by the connecting member, one of the plunger pumps performs a suction operation to remove chips and other foreign substances contained in the sucked coolant by the protection filter. During removal, the other plunger pump performs a discharging operation in parallel and discharges foreign matter deposited on the protective filter to the tank through the pipe, so that vibration noise is canceled to cancel out inertia of both plungers. This has the effect of reducing the need for a soundproof room.
[0046]
Further, the coolant cleaning apparatus of the first embodiment reciprocates the connecting member 12 connecting the two plungers 11 by the motor 2 via the crank mechanism symmetrically disposed on the rotating shaft. When the lower plunger pump is moving to the left, the upper plunger pump is moving to the right, so that the inertia of both upper and lower plungers cancel each other, and a pair of symmetrically arranged plungers are arranged. Since the rotational balance is obtained by the crank mechanism and the imbalance is eliminated, the vibration noise is further reduced and the soundproof room is not required.
[0047]
Further, the coolant cleaning apparatus of the first embodiment removes chips and other foreign substances contained in the coolant liquid sucked in the suction operation of the plunger pump, thereby cutting chips and the like accumulated in the room on the upstream side of the filter member. The foreign matter is discharged to the tank through the pipe in the next discharge operation, so that the filter member is always used while being cleaned, so that the filter is clogged and the resistance of the coolant flow monotonically increases as in the conventional device. This prevents the pump P from being adversely affected, and prevents the pump P from being adversely affected, and achieves a stable supply of the coolant liquid.
[0048]
Further, the coolant cleaning device of the first embodiment includes the suction valve 61 and the discharge valve 62 of the on-off valve 6 disposed in a pipe between the filter device 5 and the first and second tanks 31 and 32. The direction of the flow of the coolant liquid is controlled in one direction, so that it is possible to prevent the discharged chips and other foreign substances from being mixed into the sucked coolant liquid and to surely discharge the chips to the tank. It works.
[0049]
Further, the coolant cleaning device of the first embodiment uses the first and second chips receiving baskets 73 and 74 in which different mesh nets are juxtaposed on the upper part of the second tank 32 so that the pump can be operated. In the discharging operation, chips and other foreign substances discharged to the tank are captured, and only the coolant liquid is dropped into the tank, and a predetermined amount or more of chips and other foreign substances are accumulated in the chip receiving basket. Since the foreign material deposited by removing the chip receiving basket is removed, mixing of chips and other foreign materials into the coolant liquid accommodated in the tank is effectively prevented, thereby preventing the pump P from being adversely affected. It works.
[0050]
The above-described embodiments have been described by way of illustration, and the present invention is not limited to these embodiments. Those skilled in the art will recognize from the claims, the detailed description of the invention, and the drawings. Modifications and additions are possible without violating the technical idea of the present invention.
[0051]
In the above-described embodiment, an example using a plunger pump has been described as an example. However, the present invention is not limited to this. For example, a gear pump, a trochoid pump that realizes a suction operation and a discharge operation by changing the rotation direction It is also possible to employ a radial piston pump and an axial piston pump.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an apparatus according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a first conventional device.
FIG. 3 is a block diagram showing a second conventional device.
FIG. 4 is a sectional view showing a third conventional device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Plunger pump 2 Motor 4 Piping 5 Filter device 6 On-off valve 7 Chip receiving basket 11 Plunger 12 Connecting member 21 Crank mechanism 31 First tank 32 Second tank 61 Suction valve 62 Discharge valves 71, 72 Net

Claims (2)

A pump that enables reversible operation of suction and discharge,
It is inserted into a pipe connected to the pump, removes chips and other foreign substances contained in the coolant liquid sucked by the pump, and deposits foreign substances into the tank via the pipe when the pump performs a discharging operation. Ri consists of a protection filter to be discharged,
The pump has a plunger reciprocatingly inserted in a cylinder, and has one port communicating with the pipe communicating with the protection filter while serving as both a suction port in a suction operation and a discharge port in a discharge operation. Constituted by a plunger pump ,
The plunger pump has a pair of plungers interposed in cylinders disposed opposite to each other, and the two plungers are connected by a connecting member. When one performs a suction operation, the other performs a discharge operation. Constituted by a plunger pump ,
The pair of plunger pumps includes a motor that reciprocates the connecting member that connects the plungers via a crank mechanism ,
The protection filter inserted into the pipes respectively connected to the pair of plunger pumps is configured by a filter device divided into two rooms by a filter member ,
An on-off valve is provided in a pipe between the filter device and the tank, the on-off valve including a suction valve that opens when a suction operation of the pump is performed and a discharge valve that opens when a discharge operation of the pump is performed. A coolant cleaning device, comprising: In claim 1 ,
A coolant cleaning device, characterized in that a detachable chip receiving basket in which meshes having different meshes are stretched on the upper portion of the tank is arranged side by side.

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