METHOD AND DEVICE FOR LIMITING ALGAE GROWTH IN CONDENSATE DRAIN LINES

Abstract

A device insertable inline in a condensation drain line for preventing algae “plugs” from forming in the drain line. The device has an inlet, an outlet and a reaction chamber therebetween. A charge of algaecide is positioned with respect to the floor of the reaction chamber in a feed channel so that, as condensate enters the inlet of the reaction chamber and is diverted toward the algaecide the algae in the condensate can be killed. Additional flow diverters apply backflow to retain the condensate in contact with the algaecide momentarily before the condensate exist the device and is discharged to the environment.

Claims

1. A device, comprising: (a) a reaction chamber having a floor and a wall, said floor and said wall defining an interior of said reaction chamber; (b) an inlet leading into said reaction chamber from outside said wall; (c) an outlet leading out of said reaction chamber, said outlet being spaced apart from said inlet, said floor of said reaction chamber being between said inlet and said outlet, said inlet and said outlet of said reaction chamber being dimensioned to connect to an inlet and an outlet of a condensate line, respectively, for receiving a flow of condensate into said inlet, said flow continuing across said floor of said reaction chamber, and out of said outlet; and (d) an algaecide in said reaction chamber and positioned with respect to said floor of said reaction chamber to interact with condensate entering said reaction chamber via said inlet and flowing across said floor of said reaction chamber from said inlet to said outlet.

2. The device of claim 1, further comprising a feed channel extending into said reaction chamber, said feed channel having an opening therethrough, and said charge of algaecide being dimensioned to fit inside said feed channel.

3. The device of claim 1, said algaecide being dissolvable in said condensate.

4. The device of claim 1, said algaecide being chlorine.

5. The device of claim 1, said algaecide being an acid.

6. The device of claim 5, said algaecide being calcium hypochlorite.

7. The device of claim 1, said algaecide being a liquid and said feed channel including a bottom with a weep hole leading to said floor of said reaction chamber for said liquid to drip through.

8. The device of claim 1, said charge of algaecide being a solid and said feed channel including a bottom with an opening leading to said floor of said reaction chamber.

9. The device of claim 1, said floor of said reaction chamber including an inlet flow diverter for directing movement of said condensate toward said algaecide and an outlet flow diverter for directing movement of said condensate away from said outlet.

10. The device of claim 8, said inlet flow diverter being at said inlet of said reaction chamber directing movement of condensate toward said algaecide.

11. The device of claim 8, said outlet flow diverter being spaced apart from said outlet of said reaction chamber to slow movement through said reaction chamber from said algaecide.

12. The device of claim 8, said outlet flow diverter slowing flow of said condensate from said reaction chamber into said outlet.

13. The device of claim 8, said inlet flow diverter being oriented to direct condensate toward said algaecide.

14. The device of claim 6, said feed tube having a cap.

15. A method for maintaining a flow of condensate in a condensate tube, said method comprises the steps of: (a) installing a reaction chamber in fluid communication with a condensate tube, said reaction chamber having an inlet and an outlet; (b) inserting an algaecide in said reaction chamber.

16. The method of claim 15, further comprising the step of delivering said algaecide to said reaction chamber over a period of time.

17. The method of claim 15, further comprising the step of diverting condensate toward said algaecide.

18. The method of claim 15, further comprising the step of inserting a feed channel into said reaction chamber.

19. The method of claim 15, said condensate tube having an upstream end and a downstream end, and wherein said method further comprises the step of installing said reaction chamber at said upstream end of said condensate tube.

20. The method of claim 15, wherein said method further comprises the steps of: (a) (a) verifying that said algaecide is present; and (b) adding algaecide when said effective amount is not present.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is an exploded, elevated, perspective view of the present device from the exit end showing the feed tube with a portion of the algaecide (in phantom lines) below it, and, again in phantom lines, the reaction chamber with the condensate diverters near the inlet and the outlet port, according to aspects of the disclosure;

[0016] FIG. 2 is an assembled, perspective view of the device of FIG. 1, with interior structures shown in phantom lines, according to an aspect of the disclosure;

[0017] FIG. 3 is a top cross-sectional view of the device that is shown in FIG. 2, taken along lines 3-3 of FIG. 2 and showing condensate flow lines, according to an aspect of the disclosure;

[0018] FIG. 4A is a vertical, cross-sectional, left-side view taken along lines 4-4 of FIG. 2, with arrows indicating the direction of condensate flow through the device, according to an aspect of the disclosure;

[0019] FIG. 4B is an alternative view of the device shown in FIG. 4A wherein the algaecide is a liquid and the dispensing of the algaecide is through a weep hole at the bottom of the feed channel;

[0020] FIG. 5 shows an end view of the device of FIG. 1, with the structure inside the reaction chamber shown in phantom lines, according to an aspect of the disclosure; and

[0021] FIGS. 6A and 6B show two potential, alternative arrangements for locating the present device with respect to the condensate drain line, in FIG. 6A of which, the device is added near the beginning of the condensate line, adjacent the appliance that produces the condensate, and FIG. 6B, the device is added closer to the end of the condensate line.

DETAILED DESCRIPTION

[0022] Referring now to the figures, FIG. 1 shows the present device 20 includes a reaction chamber 24 designed to be connected between an upstream condensate line 28 and a downstream condensate line 32, thereby intercepting the condensate for treatment of algae. Reaction chamber 24 may be installed close to the source of the condensate, such as an air conditioner or refrigerator, for example, or it may be attached at a break made in the condensate drain line to intercept condensate where installation is convenient. It is an advantage to receive the condensate closer to the condensate source in mitigating algae plug formation.

[0023] Device 20 permits controlled interaction between condensate and an algaecide so as to kill the algae that may be present in the condensate and thereby preclude plugging of condensate drain line 32 by preventing the formation of a mass of algae.

[0024] Referring now to FIG. 1, upstream condensate drain line 28 will run from a source of liquid water derived from condensing water vapor. Water vapor condenses as it is chilled, for example, by air conditioning or refrigeration. The condensate is then carried through condensate drain line 28 to the exterior of a building where it is released to the environment. Condensate drain line 28, made of polyvinylchloride (PCV), is drained by gravity. At times more than one drain line 20 may be joined to collect condensation from several sources for release to the environment through one drain line 20 directed to the exterior.

[0025] Device 20 includes reaction chamber 24 with an inlet 44 on a first side 46 of reaction chamber 24 that receives condensate from upstream condensate line 28, and includes an outlet 48 on a second side 50 of reaction chamber 24 that delivers condensate received from inside reaction chamber 24 to condensate drain line 32 on the other side of reaction chamber 24. To assure flow of condensate between inlet 44 and outlet 48, inlet 44 enters reaction chamber 24 elevated above floor 54 slightly with respect to outlet 48 which is set closer to floor 54 of reaction chamber 24, as best seen in FIG. 5.

[0026] A feed channel 56 communicates with the interior of reaction chamber 24 and extends above it. Feed channel 56, which may include a lid 60, is dimensioned to receive a charge of algaecide 58 that is a solid or semisolid, as seen in FIG. 4A, or a liquid, as seen FIG. 4B. Algaecide 58, when placed in feed channel descends until it touches floor 54 of device 20 at which point it extends beyond the bottom of feed channel 56 and onto reaction chamber 24 so as to react with the condensate that crosses floor 54 of reaction chamber 24 from inlet 44 to outlet 48 and reacts with the algae in that condensate. The algae that are killed are rendered unable to bind with other algae and form clumps that could plug condensation drain line 32.

[0027] Reaction chamber 24 may include diverters 68 for controlling the direction and for slowing the movement of condensate through reaction chamber 24 from inlet 44 across reaction chamber 24 though outlet 48, to facilitate the engagement of the moving condensate with the bottom of algaecide 58.

[0028] At inlet 44 of the reaction chamber 24, condensate is guided by inlet diverters 68 that channel condensate flow toward algaecide 58 which has descended feed channel 56 and rests on the floor 54 of reaction chamber 24. Algaecide 58 is positioned in reaction chamber 24 to receive the flow of the condensate from inlet diverters 68. As the condensate interacts with algaecide 58, a portion of algaecide 58 mixes with the condensate and reacts with algae in the condensate. As it does, additional algaecide 58 moves to rest on floor 54 and engage the continued flow of condensate. The algae in the condensate reacts with algaecide 58 as it continues to move toward outlet 48. An outlet diverter 72 slows the condensate in order to facilitate the completion of the interaction between algaecide 58 and condensate. The condensate then passes through outlet 48 of reaction chamber 24.

[0029] Additional algaecide 58 may be added from time to time to feed channel 56. It may be added, for example, by placing a quantity in the form of a solid “stick” or block periodically into feed channel where the algaecide stick descends by gravity into position engaging floor 54 of reaction chamber 24 where the lowest portion of algaecide 58 makes contact with the flow of condensate and is consumed by the reaction with the algae. As algaecide 58 is consumed, algaecide 58 continues its decent. Algaecide 58 can continue to react with the algae in the condensate for a period of time, which may be days or weeks, or a month. Periodically then, algaecide 58 feed channel 56 will need to be replenished simply by inserting a charge of algaecide 58 into feed channel 56.

[0030] Algaecide may be in the form of a solid prism, as shown, in FIGS. 1A, 1B, and 1C, or be a rod or rectangular parallelepiped that conforms to the shape of its feed channel 56, where it descends easily and the extent of its depletion will be obvious on inspection. Feed channel 56 may have a cap 60.

[0031] The long dimension of the algaecide in the form of a stick or rod may then conveniently serve as a measure of rate of use (as the equivalent of sand in an hour glass), to measure the time left before the stick is consumed and will need to be replaced. The cross sectional area will be the interaction area with the condensate forwarded by the flow from the inlet diverters. Outlet diverter 72 in part cooperates with inlet diverters 68 to urge condensate to react with algaecide. A modest amount of calculation and experimentation will enable those of ordinary skill to coordinate the size, number and spacing of inlet diverters 68 and outlet diverter 72, the relative heights of inlet 44 with respect to outlet 48 and cross section and height of feed channel 56 required to reduce the algae population of a typical condensate flow in different environments to prevent algae agglomeration and plugging of condensate lines.

[0032] A cap 60 on feed channel 56 allows algaecide 58 to remain clean. On removal of cap 60, a user can, by observing the extent algaecide 58 has been depleted by how far from the cap 62 of feed channel 56 algaecide 58 descended since feed channel 56 was last filled, determine the approximate rate of use. Optionally, feed channel 56 may be marked with gradations to permit a more precise estimation of days remaining until replacement algaecide 58 will be needed.

[0033] Algaecide 58 may be in a solid or a liquid form. A mild acid such as a chlorine (ClO.sub.2), such as “pool” chlorine can be obtained in solid form such as a stick, a rod, or a powder; or alternatively, algaecide 58 may be a liquid acid such as vinegar (CH3COOH), or it may be a proprietary, biodegradable, algae-controlling compound, or a combination of algaecides. A combination of liquid chlorine and vinegar, for example, may be used provided care is taken. Also, algaecide 58, if in solid form, may be shaped so as to increase exposure to the condensate, such as by having a spiral exterior groove or vertical channels.

[0034] In use, device 20 is first attached to a condensate drain line 32. Device 20 may be attached to the end of condensate line nearest to the source of the condensate as shown in FIG. 6A, or may be inserted at another location if that location provides easy access to device 20.

[0035] Inserting device 20 in a condensate drain line 32 running from the appliance that generates the condensate requires drain line 32 to be cut in order to insert device 20. The upstream end at that cut is then attached to inlet 44 of device 20. The downstream end at the same cut is then attached to the outlet 48 of device 20.

[0036] Once in use, feed channel 56 of device 20 may be checked periodically, more often during in wet humid weather and less often in cooler dryer weather, to determine the rate at which algaecide is being depleted. The connections and general functioning the device 20 should also be checked. In apartment complexes, feed channels 56 for device 20 may be simply topped up periodically with algaecide 58. Device 20 may be inspected for connections, during which inspection, cap 60 is removed and feed channel 56 is inspected for depletion of algaecide 58.

[0037] Those skilled in the maintenance of drain lines will appreciate, from a careful reading of the foregoing detailed description, many advantages of the feature described and the many savings in time and effort to manage multiple drain line, particularly in warmer, moister climates where air conditioning is widely used.