JPH07331641A - Recovery-separation device for oil - Google Patents

Abstract

PURPOSE:To separate a liquid into moisture and an oil content by recovering oil floating in a cistern at low cost by a small-sized device. CONSTITUTION:A recovery pipe 2 for floating oil is mounted into a cistern 1 vertically movably, a float 5, in which an inflow port 4 is held near an oil level, is installed at the upper end of the recovery pipe 2, and a recovered liquid by the recovery pipe 2 is discharged into a separating tank 14 by a discharge pump 13 while a floating liquid connected to the discharge pump 13 and recovered is stored in the separating tank 14. A recovered-liquid storage section 14a, in which an oil-content recovery means is set up to an upper section and a first drainage canal 20 is mounted to the bottom, an oil-content recovery section 14b, which is connected to an oil-content recovery pipe 19a and in which an oil content is stored while a second drainage canal 21 is installed to the bottom, and a moisture recovery section 14c, which is connected to the first drainage canal 20 and the second drainage canal 21 and in which moisture is stored, are formed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an oil which collects scum in a sewage treatment plant, a food factory, etc., coolant oil in a machining center, floating oil in a degreasing process of plating, and further separates this floating oil into oil and water. The present invention relates to a recovery separation device.

[0002]

2. Description of the Related Art Although this type of floating oil contains a large amount of oil, it is actually mixed with not only oil but also water, air, chips, etc. Therefore, the recovered floating oil should be reused. However, even if it is discarded, it is easier to process the oil if it is in a more concentrated state.

By the way, the conventional separation of the floating oil is carried out by a method in which the components contained in the floating oil collected in the tank for a certain period of time are separated by a specific gravity difference, or by a large-scale separating device using a cyclone. There is.

However, in the former case, if the oil and water separated in the tank are to be collected from above and below the tank, a turbulent flow will occur when the liquid is drawn out, and the separated liquids will be mixed again, so However, it has been pointed out that in the latter case, the size of the device becomes large and the cost becomes high.

[0005]

It is an object of the present invention to solve the above problems and to collect floating oil in a liquid tank at a low cost with a particularly small device, and to collect water and oil more completely. It is an object to provide a separating device.

[0006]

In order to achieve the above object, an oil recovery / separation device according to the present invention comprises a floating oil recovery pipe in the liquid tank in which oil is mixed with water. Provided so as to be movable in the direction, and a float for holding the inflow port of the floating oil near the liquid surface is attached to the upper end of the recovery pipe,
The recovery pipe is connected to a separation tank via a discharge pump, and the separation tank is connected to the discharge pump to store the recovered floating oil, and an oil recovery pipe is provided at the top and a first oil is provided at the bottom. A recovery liquid storage part provided with a drainage channel and an oil recovery part connected to the oil recovery pipe to store oil content, and an oil recovery part provided with a second drainage channel at the bottom part, the first drainage channel and the second drainage channel It is characterized in that it is connected to a drainage channel to form a moisture recovery section for storing moisture.

The cross section of the peripheral portion of the inlet of the recovery pipe is preferably formed in an arc shape.

Further, it is preferable that the float is formed in a tapered V-shape on the side closer to the inflow port and in an arc shape on the far side in plan view.

Further, the discharge pump is preferably a screw pump, and the floating oil sent from the recovery pipe is introduced from the upper part of the screw and discharged from the lower part of the screw.

A discharge port for the floating oil sent from the recovery pipe is formed in the upper portion of the recovery liquid storage section.
It is preferable that the suction port of the oil recovery pipe and the discharge part of the first drainage channel and the second drainage channel on the side of the moisture recovery part are formed lower than the discharge port.

[0011]

According to the above construction, the floating oil in the liquid tank flows in from the inlet of the recovery pipe held by the float,
It is sent to the separation tank by the discharge pump. The recovered floating liquid is stored in the recovered liquid storage unit. The lightest air of the recovered liquid is exhausted to the outside, and the oil content floats up due to the difference in specific gravity and floats to the upper layer of the recovered liquid, and the water drops to the bottom layer. The oil in the upper part is sent to the concentrated oil recovery part by the oil recovery means, and the water in the bottom layer is sent to the water recovery part from the first drainage channel. Further, the water mixed in the oil recovery unit is sent to the water recovery unit from the second drainage channel. In this way, the floating oil in the liquid tank is collected in the separation tank, and is once separated into oil and water in the collected liquid storage section, and then is separated again in the oil collection section.

By forming the cross section of the peripheral portion of the inlet of the recovery pipe in an arc shape, the recovered floating oil is
Due to its viscosity, it smoothly flows down from the arc portion along the inner wall surface of the recovery pipe, and no water film is formed inside the pipe.

The side near the inlet of the float is V
By making the far side arc like a letter, the flow velocity of the floating oil increases toward the inlet.

Further, the floating oil sent from the recovery pipe is introduced from the upper part of the screw of the screw pump and discharged from the lower part of the screw.
Shaft packing and seals are not required, making it easier for light air to escape.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a schematic view of an oil recovery / separation device according to the present invention, FIG. 2 is an explanatory view of a recovery pipe and a discharge pump, FIG. 3 is a plan view of a float and an inlet, FIG. 4 (a). (b) is a sectional view of an example of the inlet of the recovery pipe, FIG. 5 is a plan view of the separation tank, FIG. 6 is a sectional view taken along line XX of FIG. 5, and FIG. 7 is Y of FIG.
FIG. 8 is a cross-sectional view showing the exchange pipe on the Y-line.

In the above figure, reference numeral 1 indicates a liquid tank. The liquid tank 1 contains a mixture of water and oil, such as a degreasing tank for plating. A floating oil recovery pipe 2 is arranged in the liquid tank 1. This recovery pipe 2 is a pipe body 2
The slide pipe 2b is provided on the upper part of a through the seal portion 3 so as to be movable in the vertical direction.
An inflow port 4 for taking in the floating oil is opened at the upper end of the, and a pair of floats 5 for holding the inflow port 4 at a position with respect to the liquid surface, that is, for holding the inflow port 4 near the liquid surface, are provided at the side portions. It is installed. A bent connecting rod 6 is fixed to the lower end of the float 5, and an end portion of the connecting rod 6 is fixed to a mounting ring 7 screwed to the slide pipe 2b. By rotating the mounting ring 7, the float 5 moves along the axial direction of the slide pipe 2b, and the float 5 and the inlet 4
The relative position of and can be adjusted. Further, the upper portions of both floats 5 are connected to each other via a connecting plate 8, and two guide rods 9 are provided upright in the central portion of the connecting plate 8 and the guide rods 9 are provided.
Is guided by a guide means 10 fixed to a liquid tank 1 (which may be a pump described later). Therefore, the float 5 is always guided so as to move in the vertical direction.

Further, the slide pipe 2b is formed long so that the inflow port 4 can follow a large fluctuation of the liquid surface. As shown in FIG. 3, the float 5 has a tapered V-shape on the side closer to the inflow port 4 and an arc shape on the far side in a plan view, and the flow velocity of the liquid increases toward the inflow port 4. Therefore, the float prevents the floating oil from flowing into the inflow port 4.

With the above structure, the floating oil in the liquid tank 1 is taken in from the inflow port 4 of the slide pipe 2b, and the cross section of the peripheral edge portion 4a of this inflow port 4 is formed in an arc shape as shown in FIG. 4 (a). Preferably (see FIG. 2). In a pipe structure like the one shown in the figure (b), liquid enters the inside together with air, and light air rises and pushes up the liquid from the bottom.
A water film 11 is formed near the inflow port 4, and the liquid cannot continuously flow down the pipe 12. By making the cross section of the peripheral portion of the inflow port 4 arcuate, the floating oil smoothly flows down from the arcuate portion along the inner wall surface of the pipe due to its viscosity, and the liquid continuously flows without forming a water film on the inner diameter of the pipe. In addition to being able to suck air, the air mixed in the floating oil becomes easier to discharge from the center.

The slide pipe 2b may be made compact by fitting a short one in a telescopic manner like an antenna and increasing the number of steps. Further, by using the slide pipe 2b having a specific gravity equivalent to that of the liquid, it is possible to make the length arbitrary without changing the float 5.

Since the floating oil that has flowed into the slide pipe 2b is actually mixed with not only oil content but also water, air, chips, etc., the floating oil will be shown below as a recovered liquid. I will.

Next, the pipe body 2a of the recovery pipe 2 following the lower part of the slide pipe 2b is formed in a U shape,
Further, it is connected to the separation tank 14 via the discharge pump 13.

The discharge pump 13 is a vertical screw pump, and by directly connecting the shaft 15 and the motor 16,
It is a contactless structure with no bearing metal or seal. The screw 17 is formed by a four-thread screw, and the pitch is shortened to increase the pressure. And
The recovery side of the recovery pipe 2 is formed in a U shape, and its end is connected to the upper part of the screw 17. The discharge side of the recovery pipe 2 is connected to the lower part of the screw 17.

The recovered liquid introduced from the inflow port 4 of the slide pipe 2b passes through the U-shaped portion 18 of the pipe body 2a, and its liquid level exceeds the upper portion of the screw 17 of the discharge pump 13 by the amount of the screw 17. Discharge pump 1 from the top
Introduced in 3. Further, the recovery liquid is sent to the lower side of the screw 17 by the screw 17 driven by the motor 16 and further discharged to the recovery pipe 2 on the discharge side.

Since the discharge pump 13 is a non-contact type that has no bearing metal or seal, it is resistant to metal powder and slurry, and can be idle-rotated so that seizure does not occur and there are no consumable parts, so maintenance is easy. is there.

Further, since the collected liquid is sucked from the upper part of the screw 17, packing and sealing of the shaft are not required, light air can be easily escaped, and the upper suction is the amount introduced from the U-shaped part 18 of the discharge pipe. Since only the low rotation screw 17 needs to discharge the air downward, air is not sucked together with the liquid, and the collected liquid is difficult to emulsify.

Further, the liquid level of the recovered liquid is always the recovery pipe 2
The air inside the recovery pipe 2 is discharged from the upper end of the slide pipe 2b without being sucked any more.

The discharge pump 13 is not limited to the screw pump. Other pumps may be used.

Next, the recovered liquid discharged from the discharge pump 13 is further sent to the separation tank 14. The separation tank 14 includes a recovered liquid storage section 14a, an oil content recovery section 14b, and a water recovery section 14c.
And are partitioned and the collected liquid storage section 14a is formed.
Is an oil content recovery means (oil content recovery pipe 19a, oil content recovery port 1
9b) and the first drainage channel 20 to connect to the oil content recovery unit 14b and the water content recovery unit 14c, respectively, and the oil content recovery unit 14b
Is connected to the moisture recovery unit 14c via the second drainage channel 21.

The recovery liquid storage section 14a is provided with a discharge pipe 22 connected to the recovery pipe 2 on the discharge side of the discharge pump 13, and the oil recovery section 14b is provided at the upper portion with oil.
The first drainage channel 20 is opened at the bottom of the oil recovery pipe 19a to be sent to.

The discharge pipe 22 is arranged vertically, the lower end thereof is connected to the discharge pump 13 via the recovery pipe 2, and the discharge port 23 at the upper end is opened upward at the upper part of the recovered liquid storage portion 14a. The diameter of the discharge pipe 22 is larger than that of the recovery pipe 2, and the inflow speed of the recovery liquid is reduced to facilitate the separation of oil and water. A collection basket 24 for solid contents such as chips and slurries is provided outside the discharge port 23 of the discharge pipe 22.

The oil recovery means comprises an oil recovery pipe 19a and an oil recovery port 19b.

The oil recovery pipe 19a is bent in an L shape from a vertical portion and a horizontal portion, and an adjusting cylinder portion 25 is screwed onto the outer peripheral portion of the upper end of the vertical portion 19a. A T-shaped rod 26 for rotating operation is fixed to the adjusting cylinder portion 25, and by operating the T-shaped rod 26 to rotate the adjusting cylinder portion 25, a suction port 27 formed at the upper end of the adjusting cylinder portion 25. The level of can be adjusted up and down. The horizontal part of the oil recovery pipe 19a is open to the partition wall 45 between the recovery liquid storage part 14a and the oil recovery part 14b.

The oil recovery port 19b is located at the partition wall 45 between the recovered liquid storage section 14a and the oil recovery section 14b, and the lower end is the suction port 27.
It is formed so as to be adjustable by the opening / closing door 46 so as to have the same level as. The opening / closing door 46 is the recovery port 19 described above.
It is provided slidably along grooves (not shown) formed on both sides of b.

A baffle 28 is formed between the vertical portion of the oil recovery pipe 19a and the discharge pipe 22.
The baffle plate 28 is for preventing the recovery liquid discharged from the discharge pipe 22 from directly entering the oil recovery pipe 19a before being separated.

Next, the discharge port 28 of the oil recovery pipe 19a is formed in the upper portion of the side wall of the oil recovery section 14b. An oil discharge pipe 29 is provided at the bottom of the oil recovery unit 14b.
Is provided, and an oil meter 30 is provided inside. Further, the second drainage channel 21 is opened at the lower end of the side wall 31 of the oil content recovery unit 14b.

The oil discharge pipe 29 is slightly higher than the bottom surface of the collecting portion 14b and is vertically raised, and an opening / closing lid 32 is arranged at its opening. A leg portion 33 that is screwed onto the inner periphery of the oil discharge pipe 29 is formed on the lower portion of the lid 32, and an operating rod 34 is formed on the upper portion of the lid 32 so as to project. As a result, by rotating the operating rod 34, the leg portion 33 rotates and the lid 32 opens and closes.

An exchange pipe 35 shown in FIG. 8 may be attached to the upper portion of the oil discharge pipe 29 in place of the lid 32. The upper end opening 3 of the exchange pipe 35
5a is set to be higher than the suction port 27 of the oil recovery pipe 19a of the recovered liquid storage section 14a.

The oil content meter 30 is composed of a float section 30a and a gauge section 30b, and its specific gravity is larger than that of oil.
It is set to be smaller than water, the float portion 30a is capable of contacting the bottom surface of the recovery portion 14b, and the gauge portion 30b penetrates the tubular portion 36 above the recovery portion to be exposed to the outside. It is located in. Oil meter 3
Since 0 floats in water but sinks in oil, it is possible to measure how high the water is from the bottom surface by the gauge portion 30b.

Next, the recovered liquid storage section 14a passes through the first drainage channel 20, and the oil recovery section 14b passes through the second drainage channel 21.
Are respectively connected to the water recovery unit 14c via.

The first drainage channel 20 is provided with a recovered liquid storage section 14a.
It is formed by connecting the space between the upper bottom plate 37 and the lower bottom plate 38 and the space between the recovered liquid storage part 14a and the water recovery part 14c. The upper bottom plate 37
Is separated from the side wall of the recovered liquid storage portion 14a, and this portion forms the introduction portion 39 of the first drainage channel 20. Then, the lower bottom plate 38 is inclined, and the first drainage channel 20 is formed to be wider than the introduction portion 39, so that the inflow rate of moisture decreases. In addition, the discharge portion 40 of the first drainage channel 20
Is configured as an overflow weir by the upper end of the side wall 41 of the water recovery unit 14c.

The second drainage channel 21 is formed by the space between the oil content recovery section 14b and the water content recovery section 14c, and the lower end of the introduction section 41 is formed at the lower end of the side wall of the oil content recovery section 14b. 42 is configured as an overflow weir by the upper end of the side wall 43 of the moisture recovery unit 14c.

The discharge part 40 on the first drainage channel 20 side is lower than the discharge port 23 of the discharge pipe 22, and the discharge part 42 on the second drainage channel 21 side is lower than the suction port 27 of the oil recovery pipe 19a. Is set to.

Reference numeral 44 is a drainage pipe, and this drainage pipe 44 is arranged so as to open to the liquid tank 1 via a pump (not shown).

The first and second drainage channels 20 and 21 may be formed in a pipe shape. According to the separation tank 14 having the above-described structure, the recovery liquid discharged from the discharge pump 13 is discharged from the discharge pipe 22. The solid content such as chips in the liquid discharged from the outlet 23 is captured by the recovery basket 24, the air mixed in the liquid is discharged to the outside, and the remaining recovery liquid is discharged to the discharge pipe 22.
Flowing along the outer surface of the inside of the recovery liquid storage portion 14a. Since the diameter of the discharge pipe 22 is formed large, the flow velocity of the recovery liquid is small and the liquid surface rises slowly. Since the oil and water in the recovered liquid have different specific gravities, the thick oil floats and floats on the surface layer of the recovered liquid, while the thin oil mixes with a part of the water and drops to the middle layer and the water to the bottom layer.

The oil content of the surface layer is sucked from the suction port 27 of the adjusting cylinder portion 25 of the oil content collecting pipe 19a, and the oil content collecting section 14 is then drawn.
The water in the bottom layer is sent to the water collecting section 14c from the first drainage channel 20. By rotating the T-shaped rod 26, the vertical position of the suction port 27 is adjusted so that only the concentrated oil overflows according to the state and viscosity of the floating oil.

The oil recovery pipe 19a may be clogged. In this case, the opening / closing door 46 is slid to slide the oil recovery port 1a.
9b may be opened and the concentrated oil may be overflowed to the oil recovery section 14b.

The concentrated oil sent through the oil recovery pipe 19a is recovered in the oil recovery section 14b due to its height difference,
Although the liquid level rises, a small amount of water is also mixed in a part of this concentrated oil, and the oil and water are also separated and accumulated in the oil recovery unit 14b. When removing the oil, the oil meter 30 is used to measure the moisture content.
After detecting that it is near the bottom surface of the oil container, the operating rod 34 is rotated to open the upper end opening of the oil discharge pipe 29. In this case, a large opening speeds up the flow, and mixing of water and oil is promoted to impair the separation. Therefore, a small opening is preferable.

If an exchange pipe 35 is attached to the oil discharge pipe 29, only the highly concentrated oil that floats to a position higher than the suction port 27 of the oil recovery pipe 19a in the recovered liquid reservoir 14a can be continuously supplied. Can be collected.

Next, the water contained in the recovered liquid in the recovered liquid storage section 14a passes through the first drainage channel 20, overflows from the discharge section 40, and flows into the water content recovery section 14c. Similarly, the water content in the oil recovery section 14b also passes through the second drainage channel 21, overflows from the discharge section 42, and flows into the water recovery section 14c. In this way, the water recovery unit 1
Water is collected in 4c.

The water in the water recovery section 14c is drained from the drain pipe 4.
4 and a pump (not shown) recirculates into the original liquid tank 1.

As described above, the discharge port 23 for the recovery liquid sent from the recovery pipe 2 is provided above the recovery liquid storage section 14a.
Is formed, and the oil inlet port 27 of the oil recovery pipe 19a, the first drainage channel 20 and the second drainage channel 2 are formed.
Since each of the discharge units 40 and 42 of No. 1 is formed lower than the discharge port 23, the recovery liquid discharged from the recovery liquid discharge port 23 in the recovery liquid storage unit 14a is connected to the oil recovery pipe 19a and First and second drainage channels 20, 21
Is automatically separated into an oil recovery unit 14b and a water recovery unit 14c. Moreover, since the water is separated again in the oil recovery unit 14b, the high-concentration oil is separated and recovered. Then, since the water in the water recovery unit 14c is returned to the original liquid tank 1, the concentration of oil in the liquid tank 1 gradually decreases, and the liquid is always continuously purified.

The water and oil separated in the recovered liquid storage section 14a or the oil recovery section 14b may be forcibly recovered. Moreover, the water in the water recovery unit 14c may be discharged without being refluxed.

[0053]

According to the oil recovery / separation device of the first aspect, the floating oil in the liquid tank is recovered by the recovery pipe, and then sent to the separation tank by the discharge pump, and further, air is collected in the recovered liquid storage section of the separation tank. After being separated into the oil content and the water content, the oil content is recovered in the oil recovery section and the water recovery section, respectively, and the water mixed in the oil recovery section is also recovered in the water recovery section.

As described above, since the separation of oil and water due to the difference in specific gravity is utilized without using a special device, the entire device can be downsized, and oil recovery and separation can be performed at low cost. You can

In addition, the separation layer is divided into three parts, and the floating oil recovered in the separation tank is once separated into oil and water in the recovered liquid storage section, and then re-separated in the oil recovery section. As such, the separation is more complete.

According to the oil recovery / separation device of claim 2, in addition to the effect of claim 1, the recovered floating oil smoothly flows down from the arc portion along the inner wall surface of the recovery pipe due to its viscosity. The water is continuously sucked without forming a water film inside the pipe, and the air mixed in the floating oil is easily discharged from the central portion of the recovery pipe.

According to the oil recovery and separation device of the third aspect, in addition to the effect of the first aspect, the flow velocity of the floating oil increases toward the inflow port, so that the floating oil causes the floating oil to flow into the inflow port. Is not damaged.

According to the oil recovery and separation device of the fourth aspect, in addition to the effect of the first aspect, the discharge pump is a screw pump and is a non-contact type without any bearing metal or seal.
In addition to being resistant to metal powder and slurry, idle rotation is possible, seizure does not occur, and there are no consumable parts, so maintenance is easy.

Further, since the collected liquid is sucked from the upper part of the screw, packing and seal of the shaft are not required, light air can easily escape, the air is not sucked together with the liquid, and the collected liquid is hard to be emulsified.

[Brief description of drawings]

FIG. 1 is a schematic view of an oil recovery / separation device according to the present invention.

FIG. 2 is an explanatory diagram around the recovery pipe and the discharge pump.

FIG. 3 is a plan view of the float and the inlet.

4 (a) and (b) are cross-sectional views of an example of an inlet of a recovery pipe.

FIG. 5 is a plan view of the separation tank.

6 is a sectional view taken along line XX of FIG.

7 is a sectional view taken along the line YY of FIG.

FIG. 8 is a sectional view showing an exchange pipe.

[Explanation of symbols]

 1 Liquid Tank 2 Recovery Pipe 4 Inlet 5 Float 13 Discharge Pump 14 Separation Tank 14a Recovery Liquid Reservoir 14b Oil Recovery Section 14c Moisture Recovery 17 Screw 19a Oil Recovery Pipe 19b Oil Recovery 20 First Drain 21 Second Drainage channel 23 Discharge port 27 Suction port

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[Procedure amendment]

[Submission date] June 5, 1995

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Title: Oil recovery and separation device

[Claims]

3. The oil recovery / separation device according to claim 1, wherein a cross section of a peripheral portion of an inlet of the recovery pipe is formed in an arc shape.

4. The oil recovery / separation device according to claim 1, wherein the float has a V-shape that is tapered on a side closer to the inlet and is arc-shaped on a far side in a plan view.

In wherein said discharge pump is a screw pump,
The oil recovery / separation device according to claim 1, wherein the floating oil sent from the recovery pipe is introduced from the upper part of the screw and discharged from the lower part of the screw.

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an oil which collects scum in a sewage treatment plant, a food factory, etc., coolant oil in a machining center, floating oil in a degreasing process of plating, and further separates this floating oil into oil and water. The present invention relates to a recovery separation device.

[0002]

2. Description of the Related Art Although this type of floating oil contains a large amount of oil, it is actually mixed with not only oil but also water, air, chips, etc. Therefore, the recovered floating oil should be reused. However, even if it is discarded, it is easier to process the oil if it is in a more concentrated state.

By the way, the conventional separation of the floating oil is carried out by a method in which the components contained in the floating oil collected in the tank for a certain period of time are separated by a specific gravity difference, or by a large-scale separating device using a cyclone. There is.

However, in the former case, if the oil and water separated in the tank are to be collected from above and below the tank, a turbulent flow will occur when the liquid is drawn out, and the separated liquids will be mixed again, so However, it has been pointed out that in the latter case, the size of the device becomes large and the cost becomes high.

[0005]

It is an object of the present invention to solve the above problems and to collect floating oil in a liquid tank at a low cost with a particularly small device, and to collect water and oil more completely. It is an object to provide a separating device.

[0006]

In order to achieve the above object, the oil recovery and separation apparatus according to the present invention is designed so that oil is mixed with water.
Inside the liquid tank, the pipe body installed vertically
It is installed on the upper part of the pipe body so that it can slide vertically.
Slide pipe having the above-mentioned floating oil inlet at the upper end
Place a recovery pipe consisting of and on the slide pipe
Is a valve that holds the floating oil inlet near the liquid level in the liquid tank.
Install the funnel and raise the base of the pipe body above.
Connected and fixed to a recovery pump that collects the floating oil in the liquid tank,
This recovery pump separates water and oil by the difference in specific gravity.
It is characterized by being connected to a separation tank .

Further, the oil recovery and separation device according to the present invention is
The recovery pipe is connected to the separation tank via a discharge pump.
Together with the separation tank, connect the discharge pump
The collected floating oil is stored, and an oil recovery pipe is installed on the top.
And a recovery liquid storage part having a first drainage channel at the bottom,
Connect to the oil recovery pipe to store oil and
And an oil recovery section having a second drainage channel in the section, and the first drainage section.
Moisture recovery that stores water by connecting to the water channel and the second drainage channel
A part may be formed.

[0008] Note that the cross-section of the peripheral edge of the inlet of the recovery pipe is preferably formed in a circular arc shape.

Further , it is preferable that the float has a tapered V-shape on the side closer to the inlet and a circular arc shape on the far side in plan view.

Furthermore, the discharge pump is a screw pump, and a floating oil sent from said collecting pipe is introduced from the top of the screw, it is preferable to be discharged from the bottom of the screw.

Further, the upper portion of the liquid collection portion outlet of floating oil sent from the collecting pipe is formed open,
It is preferable that the suction port of the oil recovery pipe and the discharge part of the first drainage channel and the second drainage channel on the side of the moisture recovery part are formed lower than the discharge port.

[0012]

In the invention of claim 1, the liquid level in the liquid tank is changed.
Position, the position of the float changes accordingly and the float
If the slide is displaced, the flow of the slide pipe follows the displacement.
Since the inlet also changes, the inlet of the slide pipe changes the liquid level.
You can follow the movement. And from the inflow port
The floating oil is collected from the pipe body by the collection pump and
In the separation tank, water and oil are separated due to the difference in specific gravity.
It

According to the second aspect of the invention, the floating in the liquid tank
Oil is held by the float and the inlet of the recovery pipe
And is sent to the separation tank by the discharge pump. Times
The collected floating liquid is stored in the recovery liquid storage unit. Of recovered liquid
The lightest air among them is exhausted to the outside, and oil is
Floats to the upper layer of the collected liquid, and water drops to the bottom layer.
It The upper oil is sent to the concentrated oil recovery unit by the oil recovery means.
And the water in the bottom layer flows from the first drainage channel to the water recovery section.
Sent. Furthermore, the water mixed in the oil recovery unit is
It is sent to the water recovery section from the drainage channel. In this way
The floating oil in the liquid tank is collected in the separation tank, and the collected oil is stored in the collected liquid storage section.
Once separated into water and water, in the oil recovery section
Be separated again.

According to the third aspect of the present invention, further , the cross section of the peripheral portion of the inlet of the recovery pipe is formed in an arc shape, so that the recovered floating oil is viscous in its inner wall surface of the recovery pipe. Flows smoothly along the pipe, and there is no water film inside the pipe.

In the invention of claim 4, further ,
By making the side of the float closer to the inlet to have a V shape and the far side to have an arc, the flow velocity of the floating oil increases toward the inlet.

According to the invention of claim 5, further, the floating oil sent from the recovery pipe is introduced from the upper part of the screw of the screw pump and discharged from the lower part of the screw, so that the packing and seal of the shaft are sealed. Is unnecessary and light air can easily escape.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a schematic view of an oil recovery / separation device according to the present invention, FIG. 2 is an explanatory view of the recovery pipe and a discharge pump, FIG. 3 is a plan view of a float and an inlet, FIG. 4 (a). (B)
5 is a cross-sectional view of an example of the inlet of the recovery pipe, FIG. 5 is a plan view of the separation tank, FIG. 6 is a cross-sectional view taken along line XX of FIG. 5, and FIG. 7 is a cross-sectional view taken along line YY of FIG. FIG. 8 is a sectional view showing the exchange pipe.

In the above figure, reference numeral 1 indicates a liquid tank. The liquid tank 1 contains a mixture of water and oil, such as a degreasing tank for plating. A floating oil recovery pipe 2 is arranged in the liquid tank 1. This recovery pipe 2 is a pipe body 2
The slide pipe 2b is provided on the upper part of a through the seal portion 3 so as to be movable in the vertical direction.
An inflow port 4 for taking in the floating oil is opened at the upper end of the, and a pair of floats 5 for holding the inflow port 4 at a position with respect to the liquid surface, that is, for holding the inflow port 4 near the liquid surface, are provided at the side portions. It is installed. A bent connecting rod 6 is fixed to the lower end of the float 5, and an end portion of the connecting rod 6 is fixed to a mounting ring 7 screwed to the slide pipe 2b. By rotating the mounting ring 7, the float 5 moves along the axial direction of the slide pipe 2b, and the float 5 and the inlet 4
The relative position of and can be adjusted. Further, the upper portions of both floats 5 are connected to each other via a connecting plate 8, and two guide rods 9 are provided upright in the central portion of the connecting plate 8 and the guide rods 9 are provided.
Is guided by a guide means 10 fixed to a liquid tank 1 (which may be a pump described later). Therefore, the float 5 is always guided so as to move in the vertical direction.

Further , the slide pipe 2b is formed long so that the inflow port 4 can follow a large fluctuation of the liquid surface. As shown in FIG. 3, the float 5 has a tapered V-shape on the side closer to the inflow port 4 and an arc shape on the far side in a plan view, and the flow velocity of the liquid increases toward the inflow port 4. Therefore, the float prevents the floating oil from flowing into the inflow port 4.

[0020] With this configuration, although floating oil in the liquid tank 1 is taken from the inlet 4 of the slide pipe 2b, the cross section of the peripheral edge 4a of the inlet 4 is formed in an arcuate shape as shown in FIGS. 4 (a) Preferably (see FIG. 2). The same figure (b)
In such a pipe structure, the liquid enters the inside together with the air, and the light air rises and pushes up the liquid from the bottom, so that a water film 11 is formed in the vicinity of the inflow port 4 and the liquid continuously flows through the pipe 12 Can't flow down. By making the cross section of the peripheral portion of the inflow port 4 arcuate, the floating oil smoothly flows down from the arcuate portion along the inner wall surface of the pipe due to its viscosity,
The liquid can be continuously sucked without forming a water film on the inner diameter of the pipe, and the air mixed in the floating oil can be easily discharged from the central portion.

A short slide pipe 2b may be telescopically fitted in an antenna manner and the number of steps may be increased to reduce the size. Further, by using the slide pipe 2b having a specific gravity equivalent to that of the liquid, it is possible to make the length arbitrary without changing the float 5.

[0022] Incidentally, floating oil flowing into the slide pipe 2b shows because those contaminating moisture and air and chips not only oil is in fact, as the recovery liquid floating oil is below I will.

Next, the pipe main body 2a of the collecting pipe 2 following the lower part of the slide pipe 2b is formed in a U-shape,
Further, it is connected to the separation tank 14 via the discharge pump 13.

The discharge pump 13 is a vertical screw pump, and by directly connecting the shaft 15 and the motor 16,
It is a contactless structure with no bearing metal or seal. The screw 17 is formed by a four-thread screw, and the pitch is shortened to increase the pressure. And
The recovery side of the recovery pipe 2 is formed in a U shape, and its end is connected to the upper part of the screw 17. The discharge side of the recovery pipe 2 is connected to the lower part of the screw 17.

The recovered liquid introduced from the inflow port 4 of the slide pipe 2b passes through the U-shaped portion 18 of the pipe body 2a, and the liquid level of the recovered liquid exceeds the upper portion of the screw 17 of the discharge pump 13. Discharge pump 1 from the top
Introduced in 3. Further, the recovery liquid is sent to the lower side of the screw 17 by the screw 17 driven by the motor 16 and further discharged to the recovery pipe 2 on the discharge side.

Since the discharge pump 13 is a non-contact type that has no bearing metal or seal, it is resistant to metal powder and slurry, and can be idle-rotated so that seizure does not occur and there are no consumable parts, so maintenance is easy. is there.

Further , since the collected liquid is sucked from the upper part of the screw 17, packing and sealing of the shaft are not required, and light air can easily escape, and the upper suction is the amount introduced from the U-shaped part 18 of the discharge pipe. Since only the low rotation screw 17 needs to discharge the air downward, air is not sucked together with the liquid, and the collected liquid is difficult to emulsify.

[0028] In addition, the liquid surface of the recovering solution is always collecting pipe 2
The air inside the recovery pipe 2 is discharged from the upper end of the slide pipe 2b without being sucked any more.

The discharge pump 13 is not limited to the screw pump. Other pumps may be used.

Next, the recovery liquid that has been discharged from the discharge pump 13 is sent further to the separation vessel 14. The separation tank 14 includes a recovered liquid storage section 14a, an oil content recovery section 14b, and a water recovery section 14c.
And are partitioned and the collected liquid storage section 14a is formed.
Is an oil content recovery means (oil content recovery pipe 19a, oil content recovery port 1
9b) and the first drainage channel 20 to connect to the oil content recovery unit 14b and the water content recovery unit 14c, respectively, and the oil content recovery unit 14b
Is connected to the moisture recovery unit 14c via the second drainage channel 21.

The recovery liquid storage section 14a is provided with a discharge pipe 22 connected to the recovery pipe 2 on the discharge side of the discharge pump 13, and an oil recovery section 14b for collecting oil at the upper part.
The first drainage channel 20 is opened at the bottom of the oil recovery pipe 19a to be sent to.

The discharge pipe 22 is arranged vertically, the lower end thereof is connected to the discharge pump 13 via the recovery pipe 2, and the discharge port 23 at the upper end is opened upward at the upper part of the recovered liquid storage portion 14a. The diameter of the discharge pipe 22 is larger than that of the recovery pipe 2, and the inflow speed of the recovery liquid is reduced to facilitate the separation of oil and water. A collection basket 24 for solid contents such as chips and slurries is provided outside the discharge port 23 of the discharge pipe 22.

The oil recovery means comprises an oil recovery pipe 19a and an oil recovery port 19b.

The oil recovery pipe 19a is bent in an L shape from a vertical portion and a horizontal portion, and an adjusting cylinder portion 25 is screwed onto the outer peripheral portion of the upper end of the vertical portion 19a. A T-shaped rod 26 for rotating operation is fixed to the adjusting cylinder portion 25, and by operating the T-shaped rod 26 to rotate the adjusting cylinder portion 25, a suction port 27 formed at the upper end of the adjusting cylinder portion 25. The level of can be adjusted up and down. The horizontal part of the oil recovery pipe 19a is open to the partition wall 45 between the recovery liquid storage part 14a and the oil recovery part 14b.

The oil recovery port 19b is located at the partition wall 45 between the recovered liquid storage section 14a and the oil recovery section 14b, and the lower end is the suction port 27.
It is formed so as to be adjustable by the opening / closing door 46 so as to have the same level as. The opening / closing door 46 is the recovery port 19 described above.
It is provided slidably along grooves (not shown) formed on both sides of b.

A baffle plate 28 is formed between the vertical portion of the oil recovery pipe 19a and the discharge pipe 22.
The baffle plate 28 is for preventing the recovery liquid discharged from the discharge pipe 22 from directly entering the oil recovery pipe 19a before being separated.

Next, the discharge port 28 of the oil collecting pipe 19a is opened and formed at the upper portion of the side wall of the oil collecting portion 14b. An oil discharge pipe 29 is provided at the bottom of the oil recovery unit 14b.
Is provided, and an oil meter 30 is provided inside. Further, the second drainage channel 21 is opened at the lower end of the side wall 31 of the oil content recovery unit 14b.

The oil discharge pipe 29 is slightly higher than the bottom surface of the collecting portion 14b and is vertically raised, and an opening / closing lid 32 is arranged at its opening. A leg portion 33 that is screwed onto the inner periphery of the oil discharge pipe 29 is formed on the lower portion of the lid 32, and an operating rod 34 is formed on the upper portion of the lid 32 so as to project. As a result, by rotating the operating rod 34, the leg portion 33 rotates and the lid 32 opens and closes.

[0039] Note that the upper portion of the oil discharge pipe 29, it is also possible to mount the exchange pipe 35 shown in FIG. 8 in place of the lid 32. The upper end opening 3 of the exchange pipe 35
5a is set to be higher than the suction port 27 of the oil recovery pipe 19a of the recovered liquid storage section 14a.

The oil content meter 30 is composed of a float section 30a and a gauge section 30b, and its specific gravity is larger than that of oil.
It is set to be smaller than water, the float portion 30a is capable of contacting the bottom surface of the recovery portion 14b, and the gauge portion 30b penetrates the tubular portion 36 above the recovery portion to be exposed to the outside. It is located in. Oil meter 3
Since 0 floats in water but sinks in oil, it is possible to measure how high the water is from the bottom surface by the gauge portion 30b.

Next, liquid collection unit 14a through the first drainage path 20, also oil recovery portion 14b second drain passage 21
Are respectively connected to the water recovery unit 14c via.

The first drainage path 20, liquid collection portion 14a
It is formed by connecting the space between the upper bottom plate 37 and the lower bottom plate 38 and the space between the recovered liquid storage part 14a and the water recovery part 14c. The upper bottom plate 37
Is separated from the side wall of the recovered liquid storage portion 14a, and this portion forms the introduction portion 39 of the first drainage channel 20. Then, the lower bottom plate 38 is inclined, and the first drainage channel 20 is formed to be wider than the introduction portion 39, so that the inflow rate of moisture decreases. In addition, the discharge portion 40 of the first drainage channel 20
Is configured as an overflow weir by the upper end of the side wall 41 of the water recovery unit 14c.

The second drainage path 21 is formed by the space between the oil recovery portion 14b and the water collecting part 14c, the introduction part 41 of its lower end is formed at the lower end of the side wall of the oil collecting unit 14b, the discharge unit 42 is configured as an overflow weir by the upper end of the side wall 43 of the moisture recovery unit 14c.

The first drainage path 20 side discharge portion 40 of the lower the lower the discharge outlet 23 of the discharge pipe 22, also the discharge portion 42 of the second drain passage 21 side than the inlet 27 of the oil collecting pipe 19a Is set to.

Reference numeral 44 denotes a drainage pipe, and this drainage pipe 44 is arranged so as to open to the liquid tank 1 via a pump (not shown).

[0046] The first and second drainage path 20, 21 may be formed in a pipe shape.

[0047] According to the separation tank 14 of the structure, collecting liquid discharged from the discharge pump 13 is discharged from the discharge port 23 of the discharge pipe 22, the solids content of the cutting chips and the like in the liquid collection basket 2
The air trapped in the liquid 4 and mixed in the liquid is discharged to the outside, and the remaining recovery liquid flows along the outer surface of the discharge pipe 22 into the recovery liquid storage portion 14a. Discharge pipe 22
Since the diameter of is large, the flow rate of the recovery liquid is low and the liquid surface rises slowly. Since the oil and water in the recovered liquid have different specific gravities, the thick oil floats and floats on the surface layer of the recovered liquid, while the thin oil mixes with a part of the water and drops to the middle layer and the water to the bottom layer.

The surface layer of oil is sucked from the suction port 27 of the adjustment cylinder 25 of the oil collecting pipe 19a oil recovery unit 14
The water in the bottom layer is sent to the water collecting section 14c from the first drainage channel 20. By rotating the T-shaped rod 26, the vertical position of the suction port 27 is adjusted so that only the concentrated oil overflows according to the state and viscosity of the floating oil.

The oil recovery pipe 19a may be clogged, and in this case, the opening / closing door 46 is slid to slide the oil recovery port 1.
9b may be opened and the concentrated oil may be overflowed to the oil recovery section 14b.

The concentrated oil sent through the oil recovery pipe 19a is recovered in the oil recovery section 14b due to its height difference,
Although the liquid level rises, a small amount of water is also mixed in a part of this concentrated oil, and the oil and water are also separated and accumulated in the oil recovery unit 14b. When removing the oil, the oil meter 30 is used to measure the moisture content.
After detecting that it is near the bottom surface of the oil container, the operating rod 34 is rotated to open the upper end opening of the oil discharge pipe 29. In this case, a large opening speeds up the flow, and mixing of water and oil is promoted to impair the separation. Therefore, a small opening is preferable.

If the exchange pipe 35 is attached to the oil discharge pipe 29, only the highly concentrated oil that floats to a position higher than the suction port 27 of the oil recovery pipe 19a in the recovered liquid storage section 14a can be continuously supplied. Can be collected.

Next, moisture in the recovered liquid in the liquid collection portion 14a passes through the first drainage path 20 and flows to overflow from the discharge portion 40 into the water collecting part 14c. Similarly, the water content in the oil recovery section 14b also passes through the second drainage channel 21, overflows from the discharge section 42, and flows into the water recovery section 14c. In this way, the water recovery unit 1
Water is collected in 4c.

The water in the water recovery section 14c is drained from the drain pipe 4.
4 and a pump (not shown) recirculates into the original liquid tank 1.

[0054] As described above, the recovered liquid storage portion of the recovered liquid in the upper part sent from the collecting pipe 2 of 14a discharge port 23
Is formed, and the oil inlet port 27 of the oil recovery pipe 19a, the first drainage channel 20 and the second drainage channel 2 are formed.
Since each of the discharge units 40 and 42 of No. 1 is formed lower than the discharge port 23, the recovery liquid discharged from the recovery liquid discharge port 23 in the recovery liquid storage unit 14a is connected to the oil recovery pipe 19a and First and second drainage channels 20, 21
Is automatically separated into an oil recovery unit 14b and a water recovery unit 14c. Moreover, since the water is separated again in the oil recovery unit 14b, the high-concentration oil is separated and recovered. Then, since the water in the water recovery unit 14c is returned to the original liquid tank 1, the concentration of oil in the liquid tank 1 gradually decreases, and the liquid is always continuously purified.

The water and oil separated in the recovered liquid storage section 14a or the oil recovery section 14b may be forcibly recovered. Moreover, the water in the water recovery unit 14c may be discharged without being refluxed.

[0056]

According to the invention of claim 1, the flow of the slide pipe
The inlet can follow the fluctuation of the liquid level by the float
It And the floating oil that has flowed in from the inlet is the pipe body.
Is collected by the collection pump. In this way, the float
Since it is only provided on the ride pipe,
Compared to the structure with floats on the outside, small
Can be set at pace.

According to the oil recovery / separation device of claim 2,
In addition to the effect described above, the floating oil in the liquid tank is recovered by the recovery pipe.
After being collected, it is sent to the separation tank by the discharge pump, and
Separated into air, oil, and water in the recovered liquid reservoir of the separation tank.
After separating, they are collected in the oil recovery unit and the water recovery unit, respectively.
In addition, the water mixed in the oil recovery unit is also collected in the water recovery unit.
Be recovered.

[0058] Thus, since the use of the separation of oil and water by the difference in specific gravity without the use of special equipment, it is possible to miniaturize the entire device, performing the recovery oil separation at a low cost You can

In addition, the separation layer is divided into three parts, and the floating oil recovered in the separation tank is once separated into oil and water in the recovered liquid storage section, and then re-separated in the oil recovery section. As such, the separation is more complete.

[0060] According to the recovering and separating unit of the oil of claim 3, in addition to the effects of claim 1, recovered floating oil is smoothly flows downward along the inner wall surface of the collecting pipe from the arcuate portion by the viscous The water is continuously sucked without forming a water film inside the pipe, and the air mixed in the floating oil is easily discharged from the central portion of the recovery pipe.

[0061] According to the recovering and separating unit of the oil according to claim 4, in addition to the effects of claim 1, since the flow velocity of the floating oil is increased toward the inlet, from flowing floating oil to the inlet by a float Is not damaged.

[0062] According to the recovering and separating unit of the oil of claim 5, in addition to the effects of claim 1, the discharge pump screw pump, so absolutely no contact-free bearing metal or seals,
In addition to being resistant to metal powder and slurry, idle rotation is possible, seizure does not occur, and there are no consumable parts, so maintenance is easy.

Further , since the collected liquid is sucked from the upper part of the screw, packing and seal of the shaft are not required, light air can easily escape, the air is not sucked together with the liquid, and the collected liquid is hard to be emulsified.

[Brief description of drawings]

FIG. 1 is a schematic view of an oil recovery / separation device according to the present invention.

FIG. 2 is an explanatory diagram around the recovery pipe and the discharge pump.

FIG. 3 is a plan view of the float and the inlet.

4A and 4B are cross-sectional views of an example of an inlet of a recovery pipe.

FIG. 5 is a plan view of the separation tank.

6 is a sectional view taken along line XX of FIG.

7 is a sectional view taken along the line YY of FIG.

FIG. 8 is a sectional view showing an exchange pipe.

[Explanation of Codes] 1 Liquid Tank 2 Recovery Pipe 4 Inlet 5 Float 13 Discharge Pump 14 Separation Tank 14a Recovery Liquid Reservoir 14b Oil Recovery Part 14c Water Recovery Part 17 Screw 19a Oil Recovery Pipe 19b Oil Recovery Port 20 First Drain Channel 21 Second drainage channel 23 Discharge port 27 Suction port

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 2

[Correction method] Change

[Correction content]

[Fig. 2]

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Takayuki Ishihara 145-1, Yufutsu, Tomakomai, Hokkaido Toyota Automobile Hokkaido Co., Ltd.

Claims (4)

[Claims] 1. A recovery pipe for floating oil in the liquid tank is movably provided in a vertical direction in a liquid tank in which oil is mixed with water, and an inlet for the floating oil is provided at an upper end of the recovery pipe. A float to be held near the surface is attached, and the recovery pipe is connected to a separation tank via a discharge pump, and the separation tank stores (a) the following floating oil collected by connecting to the discharge pump. At the same time, a recovery liquid storage part is provided in which an oil content recovery means is provided in the upper part and a first drainage path is provided in the bottom part (b) The oil content is stored by connecting to the oil content recovery means, and a second drainage path is provided in the bottom part Oil recovery unit (c) An oil recovery / separation device, characterized in that a water recovery unit is formed which is connected to the first drainage channel and the second drainage channel to store moisture. 2. The oil recovery / separation device according to claim 1, wherein a cross section of a peripheral portion of an inlet of the recovery pipe is formed in an arc shape. 3. The oil recovery / separation device according to claim 1, wherein the shape of the float is such that the side closer to the inlet is tapered V-shaped and the side farther is arcuate in a plan view. 4. The discharge pump is a screw pump,
The oil recovery / separation device according to claim 1, wherein the floating oil sent from the recovery pipe is introduced from the upper part of the screw and discharged from the lower part of the screw.