Non-circulating tank and kit for use with liquid heating unit

Information

  • Patent Grant
  • 6739517
  • Patent Number
    6,739,517
  • Date Filed
    Monday, October 15, 2001
    23 years ago
  • Date Issued
    Tuesday, May 25, 2004
    20 years ago
Abstract
A tank for use with a liquid heating vessel of a hydronic radiant heating system to assist in the simultaneous sealing and venting of air from the system where the heating vessel has a flue for release of exhaust, the tank including a liquid holder that is exposed to the atmosphere and an aperture defined in the holder such that the flue of the vessel may extend upward through the aperture of the tank.
Description




STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT




Not applicable.




REFERENCE TO A MICROFICHE APPENDIX, IF ANY




Not applicable.




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates generally to a tank for holding liquid, and more specifically, to a tank for use with a liquid heating unit of a hydronic radiant heating system.




2. Background Information




The use of radiant heating systems is well known. Most systems utilize a pressurized source for supply of water or heating liquid. Recently it has been discovered that a non-externally pressurized space heating system is available for preferred use. Such system is disclosed in U.S. patent application Ser. No. 09/416,608, filed Oct. 12, 1999. Such system utilizes a ballast or reservoir for, among other reasons, releasing air contained within the heating system. Use of such system and ballast helps in overcoming some inherent drawbacks of typical radiant heating systems and the assembly of the systems.




Some examples of inventions concerned with the use of heating systems and radiant heating systems for which patents have been granted are found in the following: U.S. Pat. No. 5,007,583; Schwarz, U.S. Pat. No. 4,296,883; Yanna, U.S. Pat. No. 3,554,441; Malmstrom, Carlson, U.S. Pat. No. 1,418,583; Lincke et al.




None of these patents provide a non-externally pressurized space heating system that utilizes a non-circulating releasing means for releasing air contained within the system or that utilize a tank having unique features such that a flue of a heating vessel may extend therethrough. Consequently, applicant has invented a tank for use with a liquid heating vessel of a hydronic radiant heating system to accommodate extension of the flue, while providing many additional features that are unique to the structure described herein.




SUMMARY OF THE INVENTION




The present invention is directed to a tank for use with a liquid heating vessel of a hydronic radiant heating system, the heating vessel having a flue for release of exhaust. The tank includes a liquid holding means for holding liquid utilized with the heating system and an aperture means for receiving the flue which extends therethrough, the aperture means defined by the liquid holding means.




The present invention may preferably be used in conjunction with a heating vessel and system such as that described in U.S. patent application Ser. No. 09/416,608. A standard heating vessel can be used in conjunction with the invention.




A further embodiment of the present invention includes a do-it-yourself hydronic space heating kit for assembly of a space heating system utilizing a heat vessel for heating liquid, the heat vessel having a flue, piping connected to the heat vessel for receiving heated liquid and circulating the heated liquid throughout coils and back to the heat vessel, the kit including a tank for holding water, the tank including an aperture, the aperture adapted to receive the flue which extends therethrough, and the tank having releasing means for releasing air contained within the system. The kit may also include a circulating pump sized to connect with the piping; a connecting means, such as a flexible tubing, to connect the tank to the vessel; or a pipe nipple to assist in connecting the tank to the vessel. Other system components may be added to the kit as desired.




The above summary of the present invention is not intended to describe each illustrated embodiment or every implementation of the present invention. The figures and detailed description that follow more particularly exemplify these embodiments.











BRIEF DESCRIPTION OF THE DRAWINGS




The invention may be more completely understood in consideration of the following detailed description of various embodiments of the invention in connection with the accompanying drawings, in which:





FIG. 1

is a perspective view of one embodiment of the present invention, the tank positioned atop a heating vessel.





FIG. 2

is a perspective view of the present invention.





FIG. 3

is a bottom perspective view of the invention shown in FIG.


2


.





FIG. 4

is a front view of the invention.





FIG. 5

is a side view of the invention.





FIG. 6

is a top view of the invention.





FIG. 7

is a further side view of the invention.





FIG. 8

is a bottom view of the invention.





FIG. 9

is a back view of the invention.





FIG. 10

is a perspective view of the invention.





FIG. 11

is a perspective view of the invention.





FIG. 12

is a perspective view of the invention.





FIG. 13

is an elevation view of a resulting heating system utilizing a further embodiment of the invention.





FIG. 14

is a top view of a tank component of the invention referenced in FIG.


13


.





FIG. 15

is a Partial perspective view of one embodiment of the present invention, the heating vessel positioned atop a coil unit.





FIG. 16

is a partial front view of the present invention showing use of a strip between the tank and a vessel.





FIG. 17

is a front section view of a strip in relation to the tank and vessel.





FIG. 18

is a perspective view of the detached strip shown in FIG.


17


.











While the invention is amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not necessarily to limit the invention to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.




DESCRIPTION OF THE EMBODIMENTS




The present invention is directed to a tank that is used in conjunction with a liquid heating vessel of a hydronic radiant heating system. The heating vessels have a flue for release of exhaust. A heating vessel may be of a general water heater type or of a boiler type, each of which generally require venting of exhaust or vapors. Venting of exhaust is typically accomplished by use of a flue that extends from the water heater or boiler to the open atmosphere or other space. The tank is designed to be positioned atop the heating vessel for appropriate and convenient use and assembly.




Referring to

FIGS. 1-3

, one embodiment of the present invention is shown where the tank


20


is positioned atop water heater or vessel


40


. Vessel


40


holds liquid which is heated for use in a heating system. Tank


20


includes a liquid holder


21


. Liquid holder


21


may be one of a variety of articles capable of holding liquid, preferably made of light-weight easily manufactured material such as sheet metal or plastic materials. Tank


20


includes aperture


22


through which the flue


42


of the heating vessel


40


extends. As shown in

FIGS. 1-3

, tank


20


is substantially doughnut shaped but may be adapted to a configuration suitable for accommodating the extension of flue


42


. Aperture


22


allows for convenient placement of tank


20


about vessel


40


.

FIG. 10

illustrates tank


20


in a substantially horseshoe configuration. This allows for easy attachment or detachment of tank


20


to a vessel


40


that is already fitted with flue


42


because flue


42


need not be removed for such connection. The horseshoe configuration also allows for ease of maintenance or repair of the system or system components.

FIG. 11

illustrates tank


20


in a substantially C-shaped configuration. Such configuration also allows for easier connection or detachment of the tank from a heating vessel. Such configuration further accommodates for use of a power-vent atop the vessel


40


. It may be appreciated that a variety of configurations may be used in order to achieve the required results. Moreover, tank


20


may be of a wall-mounted variety as long as it includes an aperture


22


for extension of flue


42


. Aperture


22


runs substantially vertically through tank


20


.




As shown in

FIGS. 2

,


8


and


12


, liquid holder


21


includes inner tank wall


26


, outer tank wall


24


, and bottom tank wall


27


. Such configuration defines a trough


44


in which liquid is retained. Tank


20


may optionally include cover


28


to cover trough


44


which protects against insertion of articles or dust. Cover


28


may be secured in place with a variety of connection means. Preferably cover


28


may be selectively removed. Cover


28


includes refill port


34


which assists in the refill of liquid if necessary. Refill port also exposes liquid within trough


44


to the atmosphere and facilitates release of air bubbles from the system. Without cover


28


the trough


44


is substantially open to the atmosphere. Open air trough


44


and refill port


34


may each operate as air release means. It can be appreciated that other configurations are available for air release means such that the water within tank


20


is exposed to the atmosphere.




As shown in

FIG. 1

, inner wall


26


and flue


42


define a clearance


46


which allows flue


42


to extend through tank


20


such that there is no or minimal contact between flue


42


and tank


20


. It can be appreciated that such clearance may vary as desired. It is possible to not include a clearance such that the inner wall


26


and flue


42


abut, however applicant has found the present configuration preferable so as to minimize temperature increases in the liquid within tank


20


. Maintaining temperature assists in control of evaporation.




In operation, liquid does not actively circulate through tank


20


into the system or vessel


40


. Tank


20


is non-circulating. There is no input of liquid to tank


20


from the liquid circulating system. Rather, the liquid in tank


20


is present to isolate the system from the atmosphere and to provide automatic air bubble release means. If air bubbles are released from the vessel and system through tank


20


, an equal volume of liquid is readily available for replacing the air bubble to allow for efficient operation of the system. The non-circulation also isolates the liquid in the tank


20


from active circulation within the system so that the liquid remains at atmospheric pressure and ambient temperature which lessens evaporation. The liquid is generally a mixture of water and glycol which is commonly used in radiant heating systems. If necessary, liquid can be easily added to tank


20


. Because the system is non-externally pressurized, and open to the atmosphere, a user can pour liquid directly into tank


20


.




Referring to

FIGS. 4-9

, various views of the present invention are shown. As shown in

FIGS. 4 and 6

, aperture


22


runs vertically through tank


20


. Tank


20


further includes optional indicator


32


which preferably includes a transparent element in order to ascertain and monitor the liquid level within tank


20


.




Tank


20


further includes optional leg or legs


38


to allow placement above or on top of vessel


40


. Legs


38


provide separation between tank


20


and vessel


40


which accommodates connection of tank


20


to vessel


40


. Such separation also allows piping from the circulating coil system to be connected to a return port which is commonly configured on top of the vessel


40


. Such separation further allows for use of a draft hood to be positioned atop the vessel


40


. A draft hood is commonly used in a standard vessel to assist in venting of exhaust. Piping from the circulating coil system may be positioned beneath tank


20


for connection to the return port, or alternatively such piping may extend through the aperture


22


. If piping extends through the aperture


22


, tank


20


should be configured such that a portion of tank


20


extends above the upper-most location of the piping. Legs


38


operate as leg means to provide separation. It can be appreciated that other leg means is contemplated in order to provide such separation, including use of a strip of sheet metal which extends from tank


20


or other material disposed to provide desired separation. As shown in

FIGS. 16-18

, strip


39


may be used to provide desired separation.




Outlet port


36


connects with vessel


40


so that liquid within tank


20


communicates with vessel


40


. It may be appreciated that a variety of connecting means are available to connect port


36


with vessel


40


. A pipe nipple configuration is used. Preferably, a flexible tubing extends from port


36


to connect with a receiving port of the vessel


40


.




Tank


20


further includes optional liquid actuated safety switch


30


which monitors the level of water within tank


20


and operates as a safety mechanism in the event of a low liquid situation. If necessary, switch


30


may operate to shut down the system in the case of a low liquid condition. An optional refill switch may also be included to automatically replenish tank


20


if necessary.




In another embodiment of the invention, a do-it-yourself hydronic space heating kit is provided.

FIG. 13

illustrates one version of the completed system which assembly is made convenient by use of the kit. The kit utilizes components that are used in conjunction with a heat vessel


212


for heating liquid where the heat vessel


212


includes a flue


278


and the system includes piping


228


connected to the heat vessel for receiving heated liquid and circulating the heated liquid throughout coils (not shown) and back to the heat vessel. The kit includes a tank


254


as further detailed in the above description, together with a circulating pump


224


of a configuration suitable for connection to the system piping


228


, and a connecting means such as a pipe nipple


271


for connecting the tank


254


to the vessel


212


. Preferably connecting means includes a flexible tubing. Pipe nipple


271


may be used in conjunction with a vinyl tube to accommodate connection. The above components of the kit are most convenient for assembly of a desired system, but It can be appreciated that additional components may be included to accommodate easier assembly and lessen the time a worker needs to set-up the system. An instruction sheet


54


may be included with the kit.




Other components that may be found in the kit include a circulation pump having flanges


224


, a high temperature limit switch for safety control and tempering valve, additional pipe nipples, 90 degree pipe elbows and hose barb fittings, tubing clamps, a line voltage thermostat


52


(for operation of the pump and/or fan), a thermocouple junction block adapter (for connecting the liquid level switch and high temperature limit switch to a millivolt gas valve), wiring harness to connect switches, a fan coil unit


56


mounted within a stand (as an alternative to coils set in concrete), heating coils, and instructions


54


for assembly of a non-externally pressurized space heating system. One such system is shown in patent application Ser. No. 09/416,608, which is incorporated herein by reference. It can be appreciated that the piping from the circulating system can be connected to an auxiliary or side port (not shown) of the vessel


212


so that such piping need not extend through the aperture.




As shown in

FIG. 13

, liquid from coils external to the vessel


212


returns to the vessel


212


through return port


248


which is defined in the vessel


212


. Tank


254


is integrally connected to vessel


212


. This may be preferred with a sealed combustion type vessel. It can be appreciated that tank


254


may be alternatively separated from vessel


212


for use with a draft hood for instance. In such case, return piping from the coils may be connected to return port


248


without extending through tank


254


. Preferably, such piping would run beneath tank


254


for attachment to return port


248


, or would run to a side port.




As shown in

FIG. 14

, tank


254


includes refill port


260


, outlet port


270


, indicator


256


, inner tank wall


26


and outer tank wall


24


. As shown in

FIG. 14

, tank


254


is positioned atop vessel


212


. Flue


278


extends upward. Circulation piping which connects at return port


248


also extends upward through tank


254


.




The advantages and improvements of the tank of the present invention are numerous. These advantages and improvements are enumerated with reference to employing the invention on a space heating system.




The tank of the present invention can be used in conjunction with a non-externally pressurized space heating system. The tank holds liquid which allows air bubbles to be released from the heating system. The tank also isolates the system from the open atmosphere to prevent introduction of air bubbles. The tank permits efficient and convenient installation above a heating vessel that utilizes a flue for removal of exhaust. This feature results in convenient and functional space location. The tank includes an aperture that also separates the tank from contact with the flue so as to avoid excessive heating of the liquid contained within the tank. This feature lessens the likelihood of liquid evaporation. The tank is easily installed atop a vessel and about the exhaust flue. The tank can also be economically fabricated using general manufacturing techniques.




While the present invention has been described with reference to several particular example embodiments, those skilled in the art will recognize that many changes may be made thereto without departing from the spirit and scope of the present invention, which is set forth in the following claims.



Claims
  • 1. A non-circulating tank for use with a liquid heating vessel of a non-externally pressurized space heating system, the heating vessel having a flue for release of exhaust, said tank comprising;liquid holding means for holding liquid utilized with the heating system, said liquid holding means including a top having an opening to the atmosphere for releasing air from the system, said liquid holding means having an outer tank wall, an inner tank wall and a bottom tank wall; connecting means for connecting said tank to the heating vessel so that liquid within said tank communicates with the vessel and so that air bubbles may migrate from the system to the atmosphere; leg means for creating a separation between said tank and the heating vessel; and aperture means for receiving the flue which extends vertically through said aperture, said aperture means defined by said liquid holding means.
  • 2. The tank according to claim 1 wherein said liquid holding means is doughnut shaped.
  • 3. The tank according to claim 1 wherein said liquid holding means is horseshoe shaped.
  • 4. A non-circulating tank for use with a heating vessel of a non-externally pressurized space heating system, the system of the variety having a heat vessel for heating liquid, piping connected to the heat vessel for receiving the heated liquid and circulating the heated liquid throughout coils and back to the heat vessel, the piping including a pump for circulating liquid through the piping and the coils, the heat vessel positioned above the coils and having a flue for release of exhaust, said tank comprising:liquid holding means for holding liquid utilized with the heating system, said liquid holding means including a top having an opening to the atmosphere for releasing air from the system, said liquid holding means having an outer tank wall, an inner tank wall and a bottom tank wall; connecting means for connecting said tank to the heating vessel so that liquid within said tank communicates with the vessel; leg means for creating a separation between said tank and the heating vessel; and aperture means for receiving the flue which extends vertically through said aperture, said aperture means defined by said liquid holding means.
  • 5. A do-it-yourself hydronic space heating kit for assembly of a space heating system utilizing a heat vessel for heating liquid, the heat vessel having a flue, piping connected to the heat vessel for receiving heated liquid and circulating the heated liquid throughout coils and back to the heat vessel, said kit comprising:a non-circulating tank for holding water, said tank including an aperture adapted to receive the flue which extends therethrough, and said tank having releasing means for releasing air contained within the system; a circulating pump sized to connect with the piping; and a connecting means for connecting said tank to the vessel.
  • 6. A do-it-yourself hydronic space heating kit according to claim 5 wherein said kit includes a heating vessel.
  • 7. A do-it-yourself hydronic space heating kit according to claim 5 wherein said kit includes a line voltage thermostat and instructions for assembly.
  • 8. A do-it-yourself hydronic space heating kit according to claim 5 wherein said tank includes leg means for creating a separation between said tank and the heating vessel.
  • 9. An improved method of radiant space heating of the type utilizing a heat vessel for heating liquid, the heat vessel having a flue, piping connected to the heat vessel for receiving heated liquid and circulating the heated liquid with at least one circulating pump throughout coils and back to the heat vessel, the improvement comprising the steps of:providing a non-circulating tank comprising: a liquid holding means for holding liquid in communication with the heat vessel, said liquid holding means including a top having an opening to the atmosphere for releasing air from the heat vessel, said liquid holding means having an outer tank wall, an inner tank wall and a bottom tank wall; connecting means for connecting said tank to the heating vessel so that liquid within said tank communicates with the vessel and so that air bubbles may migrate from the heat vessel to the atmosphere; leg means for creating a separation between said bottom tank wall and the heating vessel; and aperture means for receiving the flue which extends vertically through said aperture, said aperture means defined by said liquid holding means; and positioning said tank atop the heat vessel in a spaced separation position from the heat vessel; whereby said tank is removed from contact with higher temperature sources in order to minimize temperature increases in the liquid within said tank.
  • 10. An improved method of radiant space heating according to claim 9 wherein said positioning step includes positioning said tank in a spaced clearance position from the flue.
  • 11. A tank for use with a liquid heating vessel of a hydronic radiant heating system, the heating vessel having a flue for release of exhaust, said tank comprising;liquid holding means for holding liquid utilized with the heating system; leg means for separating said liquid holding means from the heating vessel; and aperture means for receiving the flue which extends therethrough, said aperture means defined by said liquid holding means.
  • 12. The tank according to claim 1 wherein said leg means includes a strip of material.
  • 13. The tank according to claim 12 wherein said strip includes sheet metal.
  • 14. The tank according to claim 1 wherein said leg means includes a leg.
CROSS-REFERENCE TO RELATED APPLICATIONS, IF ANY

Applicant is owner of pending U.S. patent application Ser. No. 09/416,608, filed Oct. 12, 1999, for Non-Externally Pressurized Space Heating System and Apparatus.

US Referenced Citations (12)
Number Name Date Kind
1418583 Lincke et al. Jun 1922 A
2115706 Cornell, Jr. May 1938 A
3554441 Malmstrom et al. Jan 1971 A
3850230 Margen Nov 1974 A
4278230 Allen Jul 1981 A
4296883 Yanna Oct 1981 A
4601426 Brosenius Jul 1986 A
4656836 Gilbertson Apr 1987 A
4915296 Matsumoto et al. Apr 1990 A
4921166 Matsumoto et al. May 1990 A
5007583 Schwarz Apr 1991 A
5372185 Lannes Dec 1994 A
Non-Patent Literature Citations (1)
Entry
Gregory A. Krueger, U.S. patent application Ser. No. 09/416,601 for Non-externally Pressurized Space Heating System and Apparatus, Filed Oct. 11, 1999.