SE0802079A1 - Apparatus for separating a lighter liquid phase from a heavier process liquid phase, plant for purifying a recirculating process liquid by means of the separating device, and a method for separating a lighter liquid phase from a heavier process liquid phase - Google Patents

Description

2 of the known equipments are i.a. that they require large manual efforts for maintenance and large investments in central cutting fluid systems, which are to supply a number of processing machines.

SUMMARY OF THE INVENTION It is an object of the invention to obviate these and other disadvantages of prior art systems for purifying process liquids and to propose a device which in a more efficient manner can work continuously to capture and concentrate it on the surface of the process liquid tank. the cutting fluid. For this purpose, the device according to the invention initially described is characterized by the features stated in claim 1. Thus, the separation device comprises a separation tank, which is divided by a partition wall into a separation chamber provided with an inlet, in which a releasably mountable oil collection container is placed with an upper inlet opening for the process liquid flowing into the separation chamber and with a closed bottom. , and partly an outlet chamber, to which purified process liquid from the oil collection chamber can flow via a communication opening located at the bottom of the separation tank via a liquid lock, the liquid lock comprising partly a substantially vertical outer tube projecting into the oil collection container with a lower open mouth. from the bottom of the oil collection container, and having an upper end extending at least up to the upper part of the oil collection container, partly an inner liquid locking tube extending inside the outer tube and substantially parallel thereto and having an open upper inlet end and an open lower outlet end, which p extends sealed through the oil collection container, the mouth of the upper inlet end of the liquid locking pipe being at a level below the normal liquid level in the oil collection container, and a pump arranged in the outlet chamber of the separation tank to pump purified process liquid from the outlet to liquid level of the purified process liquid in the outlet tank, which is lower than the liquid level of the process liquid tank and lower than the mouth of the upper 3 inlet end of the liquid locking pipe. As a result, leakage oil can be trapped in the oil collection container and emptied at suitable intervals by lifting the container out of the first chamber of the separation tank and pouring the oil into an extreme sump or equivalent.

Conveniently, the outer tube is fixed in the oil collection container and extends from the upper part of the oil collection container and has a handle for lifting the oil collection container out of the separation chamber for emptying the container of its oil contents.

To facilitate the flow of leaking oil into the oil collection tank, its inlet has a funnel-like configuration, and a strainer can be placed over the inlet of the oil collection tank to trap larger contaminant particles in the process liquid.

Preferably, the separation device is suspended stationary in an upper part of the process liquid tank, but may alternatively be mounted fl surface in the process liquid in the process liquid tank to follow changes in the level of the process liquid therein. For this purpose, the separation tank can be interconnected with fl surface bodies (pontoons) and be vertically displaceably controlled in the process liquid tank by means of suitable control elements.

Conveniently, an oil separating coalescer element may be placed in the oil collection container upstream of the lower, open end of the outer tube to improve the absorption of the leaking oil.

According to the independent claim 10, the invention further relates to a plant for using a separation device according to the invention to purify a recirculating process liquid, which is to be fed to at least one processing machine, the plant comprising a separating device immersable in the process liquid in a process liquid tank according to any of claims 1-9, where in the process liquid tank there is at least one 4 outlet pump for pumping the process liquid to the processing machine, and an inlet for contaminated process liquid from the processing machine or machines.

The invention further relates to a method for separating a lighter liquid phase, preferably leaking oil, from a heavier liquid phase, preferably a process liquid, such as a cutting liquid. The special feature of the process is stated in the independent claim 11, wherein the process comprises the steps of: stripping a surface layer of the leakage oil containing the process liquid in a process liquid tank to lead it down into an oil collection container, which is placed in a first chamber of a separation tank immersed in the liquid in the process liquid tank, lowering the liquid level in a second chamber of the separation tank, which communicates at the bottom with the oil collection container via a liquid lock to create a lower level of purified liquid in the second chamber than the liquid level in the process liquid tank. this lowering being effected by pumping purified process liquid in the second chamber back to the process liquid tank.

Further advantages and features of the invention will become apparent in more detail below in the following detailed description with reference to exemplary embodiments shown in the accompanying drawings.

Brief Description of the Drawings Fig. 1 is a side view of a process liquid purification plant, in which the separation device according to the invention is included; Fig. 2 is a schematic perspective view of the separating device according to the invention; Fig. 3 is a schematic side view of an oil storage container of the separating device in Figs. 1 and 2 with associated liquid lock; Fig. 4 is a plan view of the container of Fig. 3; Fig. 5 is a schematic perspective view of a separation device according to the invention in an embodiment with liquid suspension in the process liquid tank; and Fig. 6 is a side view of the embodiment of Fig. 5.

Description of Preferred Embodiments of the Invention Fig. 1 is generally indicated by a process liquid purification plant with a separating device according to the present invention. The plant 10 comprises a tank 12 which contains a process liquid 14, for example a cutting liquid in the form of a water / oil emulsion for cooling and lubrication of one or more machines 16 for cutting machining of workpieces. The process liquid can also consist of a washing liquid, which is to be used for washing machined workpieces or the like. The cutting fluid 14 in the tank 12 is fed to the machines 16 by means of an electric motor driven pump 18 and returned to the tank 12 via a return line 20. During the use of the cutting fluid in the machines 16 it is contaminated to some extent by leaking lubricating oil from various components of the machines. This leakage oil accumulates as a lighter liquid phase in the cutting fluid and can over time create b1.a. hygienic problems and quality problems in processing. Thus, such leakage oil causes increased bacterial growth and impaired cooling capacity as well as dirty tools and finished products. In the tank 12, the leakage oil then settles as a thin surface layer of one or a few tenths of a millimeter thickness on top of the heavier emulsion phase.

According to the invention, a separating device 22 is now proposed, which in a simple and efficient manner can continuously capture this leakage oil layer and thereby clean the cutting liquid 14 in the tank 12, so that the interval for changing the cutting liquid in it can be substantially increased. The separating device 22 comprises a separating tank 24 provided with an inlet 36, which can be mounted stationary in an upper part of the cutting liquid tank 12 and extend down into the cutting liquid therein. The separation tank 24 has a closed bottom 26 and is by means of a substantially vertical partition wall 28 divided into a separation chamber 30 and an outlet chamber 32 for purified cutting liquid. The separation chamber communicates with the outlet chamber 32 via a free space 34 below the partition 28. The inlet opening (s) 36 of the separation tank 24 has portions below the liquid level 38 in the cutting fluid tank 12 to allow a surface layer of the cutting fluid 14 to flow into a separation chamber 30 located in the separation chamber 30. oil collection container 40.

The oil collection container 40 has an upper, funnel-shaped inlet 42 for receiving the downflowing cutting fluid with its slightly liquid leaking oil phase. The inlet 42 may have a strainer 44 (Figs. 2-4) placed above it to trap contaminated particles in the liquid. The oil collection container 40 has a bottom 45 and is fixedly integrated with a liquid lock, which comprises a substantially vertically oriented outer tube 46 with a lower, open end 48, which opens at a distance from the bottom 26 of the separation tank 24, and with an upper end, which extends above the separation tank 24 and has there a handle 50 for easily lifting the oil collection container 40 out of the separation chamber 30 in the tank 24 for emptying the trapped oil content into the oil collection container 40.

The fluid lock further includes an inner fluid lock tube 52 extending within the outer tube 46 and substantially parallel and coaxial therewith and having an open upper inlet end 54 and an open lower outlet end 56, which later extends sealingly through the bottom or through an adjacent side wall portion of the oil collection container 40, the mouth of the upper inlet end 54 of the inner liquid lock tube 52 being at a level below the normal liquid level 58 of the oil collection container 40. In the outlet chamber 32 of the separation tank 24 there is a liquid pump 60 continuously to pump over the purified cutting liquid phase flowing through the liquid lock 46, 52 to the outlet chamber 32 to the process liquid tank 12 and also to keep the liquid level 62 in the outlet chamber 32 lower than the liquid level 38 in the process liquid tank 12 and lower than the level of the upper inlet end 54 of the inner liquid lock tube 52. By means of the liquid lock 46, 52 it is thus prevented from facilitating the leaking oil phase to flow over to the outlet chamber 32 of the purification tank 24.

The oil which has entered the oil collection container 40 is thus trapped therein and, when it has been largely filled in the container 40, can be emptied by lifting it up by means of the outer tube 46 and its handle 50. In the oil collection container 40 a coalescer element 64 can also be placed upstream of the lower open end 48 of the outer tube 46 to provide an improved separation of the trapped oil in the oil collection container 40. FIG. 5 and 6 show an embodiment in which the separating device 22, instead of fixed mounting on / in the cutting liquid tank 12, is equipped with surface bodies or pontoons 66 at the sides of the separating tank 24 to enable the separating device 22 to follow changes in the level of the cutting liquid 14. in the tank 12. For this purpose, the separating device 22 is vertically guided in the tank 12 by means of vertical guide elements 68. A strut 70 holding the pontoons 66 on each side of the separating device 22 can then guide abut against edges of the guide elements 68 to guide the entire separating device 22 linearly in vertical directions. The separating device 22 is suspended at 72 on the struts 70 and thereby follows the level changes of the pontoons 66 and thus the process liquid in the process liquid tank 12.

Claims (11)

10 15 20 25 8 Patent claims Device for separating a lighter liquid phase, preferably a leakage oil, from a heavier liquid phase, preferably a process liquid, such as a cutting liquid, the device being submersible in a process liquid tank (12), characterized in that it comprises: - a separation tank (24), which is divided by a partition wall (28) into a separation chamber (30) provided with inlet (36), in which a releasably mountable oil collection container (40) with an upper inlet (42) is placed for the process liquid flowing into the separation chamber (30) and with a closed bottom (26), and partly an outlet chamber (32), to which purified process liquid from the oil collection chamber (40) can flow via a lower part of the separation tank (24) permanent communication opening (34) via a liquid lock, - where the liquid reading comprises on the one hand a substantially vertical outer tube (46) projecting into the oil collection container (40) with a lower, open end (48), which opens at a distance from the bottom ( 26) of oil eupp the collecting container (40), and having an upper end extending at least up to the upper part of the oil collecting container (40), partly an inner liquid locking tube (52) extending inside the outer tube (46) and substantially parallel thereto, and has an open upper inlet end (54) and an open lower outlet end (56) extending sealingly through the oil collection container (40), the mouth of the upper inlet end (54) of the inner liquid lock tube (52) being at a level below the normal liquid level in the oil collection tank (40), and - a pump (60) arranged in the outlet chamber (32) in the separation tank (24) for pumping purified process liquid from the outlet chamber (32) to the process liquid tank (12) and at the same time creating a liquid level (62) of the purified process liquid in the outlet chamber (32), which is lower than the liquid level (38) in the process liquid tank (12) and lower than the mouth of the upper inlet end (54) of the liquid locking pipe (52). 10 15 20 25 9 Device according to claim 1, characterized in that the outer tube (46) is fixedly fixed in the oil collection container (40). Device according to claim 1 or 2, characterized in that the outer tube (46) extends up from the upper part of the oil collection container (40) and has a gripping handle (50) for lifting the oil collection container (40) out of the separation chamber (30) for emptying the container (40) of its oil content. Device according to one of Claims 1 to 3, characterized in that the inlet (42) of the oil collection container (40) has a funnel-like configuration. Device according to one of Claims 1 to 4, characterized in that a screen (44) is placed above the inlet (42) of the oil collection container (40). Device according to one of Claims 1 to 5, characterized in that the separation tank (24) is designed to be mounted on an upper part of the process liquid tank (12). Device according to one of Claims 1 to 5, characterized in that the separation tank (24) is designed to be mounted floating in the process liquid in the process liquid tank (12) in order to follow changes in the level of the process liquid therein. Device according to Claim 7, characterized in that the separation tank (24) is connected to floating bodies (66) and is vertically displaceably controlled in the process liquid tank by means of control elements (68). Device according to one of Claims 1 to 8, characterized in that a coalescer element (64) is mounted in the oil collection container (40) upstream of the lower open end (48) of the outer tube (46). 10 15 20 10 A plant for purifying a recirculating process liquid, which is to be fed to at least one processing machine (16), comprising a separating device (22) immersable in the process liquid in a process liquid tank (12) according to any one of claims 1-9, wherein in the process liquid tank ( 12) there is at least one outlet pump (18) for pumping the process liquid to the processing machine (16), saint an inlet (20) for contaminated process liquid from the processing machine. A method of separating a lighter liquid phase, preferably leaking oil, from a heavier liquid phase, preferably a process liquid, such as a cutting liquid, comprising the steps of: peeling off a surface layer of the leaking oil containing the process liquid in a process liquid tank (12) for discharging it into an oil collection container (40) located in a first chamber (30) of a separation tank (24) immersed in the liquid in the process liquid tank, lowering the liquid level (62) in a second chamber (32) of the separation tank ( 24), which communicates at the bottom (34) with the oil collection container (40) via a liquid lock (46, 52) to create a lower level (62) of purified liquid in the second chamber (32) than the liquid level (38) in the process liquid tank (12), this lowering being effected by pumping purified process liquid in the second chamber (3 2) to the process liquid tank (12).