LIQUID TREATMENT APPARATUS COMPRISING AN AIR TRAP VESSEL

Abstract

A liquid treatment apparatus (2), comprising a pumping device (3) configured to pump a liquid (4) to be treated into at least one treatment chamber (6) comprising treatment equipment (9) configured to perform UV-light treatment of the liquid (4) flowing through the at least one treatment chamber (6). The liquid treatment apparatus (2) comprises an air trap vessel (5) arranged upstream of said pumping device (3) and provided with an inlet connection (22) for receiving liquid (4) to be treated and a first outlet connection (24) for connection and liquid supply to said pumping device (3). The air trap vessel (5) is configured to prevent air bubbles from being sucked into the pumping device (3) and to be at least partly filled with a priming liquid (23) before the pumping device (3) is started and the liquid treatment is initiated, and that the first outlet connection (24) being arranged below surface level of the priming liquid.

Claims

1. A liquid treatment apparatus, comprising a pumping device configured to pump a liquid to be treated into at least one treatment chamber comprising treatment equipment configured to perform UV-light treatment of said liquid flowing through the at least one treatment chamber, wherein the liquid treatment apparatus comprises an air trap vessel arranged upstream said pumping device and provided with an inlet connection for receiving liquid to be treated and a first outlet connection for connection and liquid supply, directly or indirectly, to said pumping device, wherein said air trap vessel is configured to be at least partly filled with a priming liquid before the pumping device is started to prevent air bubbles from being sucked into said pumping device, and that said first outlet connection is arranged below a surface of said priming liquid when the air trap vessel is at least partly filled with said priming liquid.

2. The liquid treatment apparatus according to claim 1, wherein said inlet connection is arranged above a surface of said priming liquid when the air trap vessel is at least partly filled with said priming liquid.

3. The liquid treatment apparatus according to claim 1, wherein said inlet connection is arranged at an upper part of said vessel and said first outlet connection is arranged at a lower part of said vessel.

4. The liquid treatment apparatus according to claim 1, wherein said air trap vessel has a volume which is larger than a volume of tubing between a tank including the liquid to be treated and the inlet connection.

5. The liquid treatment apparatus according to claim 1, wherein said air trap vessel is provided with a damping member configured to damp and distribute the liquid supplied via the inlet connection.

6. The liquid treatment apparatus according to claim 5, wherein said damping member is arranged below said inlet connection and above said outlet connection.

7. The liquid treatment apparatus according to claim 5, wherein said damping member is an essentially horizontally arranged damping plate attached in an upper part of the air trap vessel, and wherein said damping plate is attached to the inner walls of said air trap vessel and facilitates for damping vertical forces of the liquid in order to prevent air bubbles from being sucked out from the vessel via the outlet connection.

8. The liquid treatment apparatus according to claim 5, wherein said damping plate is provided with at least one opening through which the liquid may pass the plate.

9. The liquid treatment apparatus according to claim 8, wherein said at least one opening is arranged along the periphery of the plate in close proximity to the inner wall of the air trap vessel.

10. The liquid treatment apparatus according to claim 1, wherein said air trap vessel is a cylinder having a circular cross-section.

11. The liquid treatment apparatus according to claim 1, wherein said at least one treatment chamber is defined as a first elongated circumferential hollow cavity between an inner wall of a housing and an outer wall of a translucent sleeve arranged to protect and include a lamp.

12. The liquid treatment apparatus according to claim 1, wherein said apparatus further comprises a tube bracket assembly which comprises two elongate tubes arranged in parallel, an inlet tube and an outlet tube, wherein the tube bracket assembly is detachably attached to said apparatus, and configured, during use to be vertically mounted within the tank including the liquid to be treated and wherein the tubes are configured to be connected to the inlet connection and a second outlet connection of said liquid treatment apparatus via connection tubing.

13. The liquid treatment apparatus according to claim 1, wherein said apparatus has a modular configuration and comprises a mounting socket on which said pumping device, vessel and treatment chamber are mounted.

14. The liquid treatment apparatus according to claim 1, wherein said inlet connection and a second outlet connection are vertically arranged such that the connection openings are directed upwards.

Description

SHORT DESCRIPTION OF THE APPENDED DRAWINGS

[0017] FIG. 1 is a schematic illustration of a liquid treatment apparatus according to the present invention further illustrating how the liquid flows from the tank through the apparatus and back to the tank after the treatment.

[0018] FIG. 2 is a schematic illustration of a liquid flow through a pumping device and treatment chamber/treatment equipment of the liquid treatment apparatus according to the present invention.

[0019] FIG. 3 is a cross-sectional view of a treatment chamber according to an embodiment of the present invention,

[0020] FIG. 4 is a front view of a liquid treatment apparatus according to an embodiment of the present invention.

[0021] FIG. 5 is a perspective view of a liquid treatment apparatus of an embodiment according to the present invention.

[0022] FIG. 6a is a schematic illustration of a liquid treatment apparatus according to the present invention illustrating how the liquid flows from the tank through the apparatus and back to the tank after the treatment.

[0023] FIG. 6b is a schematic illustration of comprising an air trap vessel according to one embodiment of the present invention.

[0024] FIGS. 7a-7g shows various views of an air trap vessel according to an embodiment of the present invention.

[0025] FIG. 7a is a view from below of the air trap vessel.

[0026] FIGS. 7b and 7c are side views of the air trap vessel.

[0027] FIG. 7d is a cross-sectional view along line C-C in FIG. 7c.

[0028] FIG. 7e is a cross-sectional view along line A-A in FIG. 7a.

[0029] FIG. 7f is a cross-sectional view along line B-B in FIG. 7g.

[0030] FIG. 7g is a view from above of the air trap vessel.

[0031] FIG. 8 is a perspective view of a treatment apparatus according to an embodiment of the invention illustrating the positioning of the tube bracket assembly on the treatment apparatus.

[0032] FIGS. 9a and 9b show a tube bracket assembly comprising the elongate tubes according to one embodiment of the invention.

DETAILED DESCRIPTION

[0033] The present invention will now be described with references to the appended figures. Throughout the figures the same, or equivalent, items will have the same reference signs. Generally, the present invention relates to a liquid treatment apparatus 2 intended for treating a liquid 4, e.g. cutting liquid, with UV-light. The apparatus will now be described with references to FIGS. 1-5.

[0034] The apparatus is configured for light treatment of a liquid 4 flowing through at least one, preferably vertically arranged, treatment chamber 6 having an upper, or first, end 8 and a lower, or second, end 10. More specifically, the treatment equipment 9 is arranged to perform UV-light treatment of the liquid 4. The treatment chamber 6 is defined as a first elongated circumferential hollow cavity 13 between an inner wall 12 of a housing 14 and an outer wall 16 of a translucent sleeve 18 arranged to protect and include a lamp 20.

[0035] Preferably, the lamp 20 is a UV-lamp of a fluorescent tube type. Preferably, the lamp 20 is also a low pressure lamp. The lamp has preferably an elongated shape in the form of a tube and having an essentially circular cross-section. The distance d between the inner wall 12 and the outer wall 16 is chosen, among other things, in dependence of different parameters of the liquid (e.g. the opacity) and is normally in the range of 2-10 mm. An exemplary length of the elongated treatment chamber is in the range of 150-200 cm.

[0036] The liquid treatment apparatus also comprises a pumping device 3 configured to pump the liquid to be treated from a tank 25 via a tube, e.g. a flexible tube, into the at least one treatment chamber 6. The pumping device 3 has an inlet connection 22 (see FIGS. 4 and 5) through which the liquid 4 is sucked from a tank 25 with liquid 4 to be treated and further to the treatment chamber 6. The pumping device 3 can also be arranged downstream of the treatment chamber 6. The liquid 4 flows, at a flow rate velocity, through the treatment chamber(s) 6 where it is subjected to UV-radiation. The treated liquid 4 is then returned to the tank 25 via another tube. Preferably, the pumping device 3 is configured to flow said liquid 4 through the hollow cavity 13 at a velocity such that the velocity of the fluid 4 in relation to the outer surface of the sleeve 16 prevents fouling and/or scaling from aggregating on the outer surface of the sleeve 16. A recirculation assembly 42 is configured to recirculate the fluid through the hollow cavity 13.

[0037] FIG. 4 is a front view, and FIG. 5 is a perspective view of a liquid treatment apparatus 2 according to one embodiment of the present invention. The apparatus includes a mounting socket 38 on which the pumping device 3, an optional air trap vessel 5 and treatment equipment 9 are mounted. The treatment equipment 9 including treatment chambers 6, e.g. two or four, is mounted within a protective enclosure. A control panel 29 is provided at the front side of the enclosure, and also a safety disconnector 27. Inlet and outlet connectors 22, 35 are arranged for connection to tubes to the tank with the liquid to be treated. Electrical connectors are provided for electrical supply of the UV-lamps. The apparatus is controlled by a control unit 7, e.g. a dedicated processing device or a computer, via control instructions applied via the control panel 29.

[0038] With references to FIGS. 6-9 various embodiments of the present invention will now be described in detail, and specifically FIG. 7 illustrate various views of the air trap vessel and damping member according to one embodiment.

[0039] More specifically, and as schematically illustrated in FIGS. 6a and 6b, there is in a first aspect of the invention provided a liquid treatment apparatus 2, comprising a pumping device 3 configured to pump a liquid 4 to be treated into at least one treatment chamber 6 comprising treatment equipment 9 arranged to treat liquid 4 flowing through the at least one treatment chamber 6. The liquid treatment apparatus 2 further comprises an air trap vessel 5 arranged upstream of the pumping device 3 and provided with an inlet connection 22 for receiving liquid 4 to be treated and a first outlet connection 24 for connection and liquid supply to said pumping device 3. The air trap vessel is further at least partly filled with a priming liquid 23 before the pumping device 3 is started in order to prevent air bubbles from being sucked into said pumping device 3, and thereby preventing any air bubbles from disturbing the function of the pump. The first outlet connection 24 is arranged below the surface of the priming liquid to ascertain that no air is sucked into the pump.

[0040] More specifically, the air trap vessel 5 is configured to damp forces of the liquid 4 thereby preventing air from entering into the pumping device 3. This is favourable in the manner that the entry of air bubbles into the pumping device will be avoided which may interfere with the treatment of the liquid.

[0041] In the schematic illustration in FIG. 6a the air trap vessel is arranged directly upstream the pumping device. It is naturally possible, within the scope of the claims, to arrange the treatment chamber(s) between the air trap vessel and the pumping device. Furthermore, it would also be possible to arrange the treatment chamber(s) upstream the air trap vessel and the pumping device. The important aspect is that the air trap vessel is arranged upstream the pumping device.

[0042] As further shown in FIG. 6b, said first outlet connection 24 of the liquid treatment apparatus 2 is arranged below a surface of said priming liquid 23 when the air trap vessel 5 is at least partly filled with said priming liquid 23. More precisely, the opening within the vessel leading an outflow of the liquid to the first outlet connection 24 must be below the surface of the priming liquid 23.

[0043] Further, said inlet connection 22 of the liquid treatment apparatus 2 may be arranged above a surface of said priming liquid 23 when the air trap vessel 5 is at least partly filled with said priming liquid 23. The inlet connection 22 may be arranged at an upper part of said vessel 5 and the first outlet connection 24 may arranged at a lower part of the vessel 5 to facilitate flow of the liquid within and through the vessel 5.

[0044] The important aspect is that no air is sucked into the pumping device, which is achieved by providing the outlet connection such that enough liquid is sucked in order to trap the air which is present upstream the air trap vessel.

[0045] With regard to requirements of the air trap vessel, it is preferably made from metal or plastic and is essentially air-tight.

[0046] In order to damp the forces, and thereby removing the air bubbles the incoming liquid flow may be directed against an inner wall of the vessel, or be directed against a damping plate or similar arranged within the vessel.

[0047] Naturally, the air trap vessel 5 has a volume which is larger than a volume of tubing 26 between a tank including the liquid 4 to be treated and the inlet connection 22.

[0048] FIG. 7a-7g shows various views of an embodiment of an air trap vessel 5 according to the present invention. The air trap vessel 5 comprises a damping member 28 configured to damp and distribute the liquid 4 supplied via the inlet connection 22. As illustrated in FIG. 7f, the damping member 28 is arranged below the inlet connection 22 and above the outlet connection 24.

[0049] FIG. 7d shows a cross-sectional view along line C-C in FIG. 7c, showing the damping member 28, wherein the damping member 28 is an essentially horizontally arranged damping plate 28.

[0050] In FIG. 7f, it is shown that the damping member 28 is arranged in an upper part of the air trap vessel 5, and attached to the inner walls 11 of the air trap vessel 5 facilitating for damping vertical forces of the liquid 4 in order to prevent air bubbles from being sucked out from the vessel 5 via the outlet connection 24 at the bottom of the vessel.

[0051] FIG. 7d further shows that the damping plate 28 being provided with at least one opening 30 through which the liquid 4 may pass the plate 28. The liquid is then transported into and through the pumping device 3 and further into the treatment chamber 6. The at least one opening 30, in the illustrated embodiment three openings are provided, is preferably arranged along the periphery of the plate 28 in close proximity to the inner wall 11 of the air trap vessel 5. In the illustrated embodiment, the air trap vessel 5 is a cylinder having a circular cross-section.

[0052] FIG. 8 shows a liquid treatment apparatus according to one embodiment of the invention, wherein the apparatus further comprises a tube bracket assembly 32. The tube bracket assembly 32 comprises two elongate tubes 34 arranged in parallel, an inlet tube 31 and an outlet tube 33, wherein the tube bracket assembly 32 is detachably attached to the apparatus 2. This is advantageous in that the tube bracket assembly is easily transported together with the apparatus, and is accessible when the apparatus should be installed. During use the tubes are vertically mounted within the tank including the liquid 4 to be treated. The tubes 34 are configured to be connected to the inlet connection 22 and a second outlet connection 35 of said liquid treatment apparatus 2 via flexible tubes (not shown).

[0053] FIG. 9 shows the tube bracket assembly 32 in more detail, wherein the structure of the tubes 31, 33 and an attachment arrangement 37 is illustrated.

[0054] Accordingly, the tube bracket assembly 32 is preferably provided with an attachment arrangement 37 at one end. The attachment arrangement 37 is configured both to attach the tube bracket assembly 32 to the apparatus 2 during transportation, and also to facilitate easy mounting on an upper edge of a tank including liquid to be treated. When mounted the connection pipes of the outlet tube 33 (for liquid flowing from the tank to the liquid treatment apparatus) and inlet tube 31 (for liquid flowing back to the tank) are above the liquid level. The lower end of the inlet tube 31 is provided with a horizontally directed outlet tube part 39 (see FIG. 9a). The outlet tube part 39 provides for an essentially horizontally directed liquid 4 flow of treated liquid 4 returning to the liquid apparatus. The inlet tube 33 is rotatable around a longitudinal axis A (essentially vertical) to achieve an optimal liquid flow within the tank e.g. directing returned liquid away from the opening of the outlet tube 31 and also with regard to mixing aspects. Thus, the rationale behind enabling rotation of the inlet tube 33 is to be able to direct the inlet flow in an optimal direction.

[0055] FIG. 8 shows an embodiment of the invention wherein the apparatus 2 has a modular configuration or design and comprises a mounting socket 38 on which said pumping device 3, vessel 5 and treatment chamber 6 are mounted. The module arrangement makes the production cheaper in that different models of the product essentially are based upon the same components, with only minor differences, e.g. the number of treatment chambers. One over-all important aspect is the small foot-print. The foot-print, i.e. the floor area covered by the product, is a half standard pallet. The lower console has a height and a structure enabling for an operator to stand on the upper surface and easily reach the upper part of the product, e.g. when changing UV-lamp.

[0056] The inlet connection 22 and second outlet connection 35 of the liquid treatment apparatus 2 may be vertically arranged such that the connection openings 36 are directed upwards, which is clearly illustrated on FIGS. 4 and 5.

[0057] The present invention is not limited to the above-described preferred embodiments. Various alternatives, modifications and equivalents may be used. Therefore, the above embodiments should not be taken as limiting the scope of the invention, which is defined by the appending claims.