US2858823A - Liquid heating device for warming engines and the like - Google Patents

Description

v. v. KELLEY 7 2,858,823

LIQUID HEATING DEVICE FOR WARMING ENGINES AND THE LIKE Nov. 4, 1958 Filed May '7, 1956 v INVENTOR. VE RN V. K EL 1 E Y Malawi-772W HTTORNEYS United States Patent Gil-ice 2,858,823 Patented Nov. 4, 1958 LIQUID HEATING DEVICE FOR WARMING ENGINES AND THE LIKE Vern V. Kelley, Milaca, Minn.

'- Application May 7, 1956, Serial No. 583,087

4 Claims. (Cl. 123-1425) This invention relates to heating devices.

Low climatic temperatures render many types of equipment almost unusable. Engines of trucks, bulldozers and the like are ditficult to start, and equipment such as stock watering tanks freezes over to prevent cattle from getting water. Many such devices employ liquid, such as water or the like for one purpose or another, and, of course if such water could be heated, the device would be warmed and rendered usable.

An object of my invention is to provide new and improved apparatus which is readily attachable to equipment that is exposed to low temperatures for warming liquids therein and thereby warming the equipment so that it may be readily used.

Another object of my invention is the provision of a novel portable device which is connectible in flow come munication with the cooling system of a truck or tractor engine for warmingthe coolant therein and thereby warming the engine to facilitate starting thereof.

Still another object of my invention is to provide a liquid-warming device including a combustion engine, the exhaust from which is' passed through the heat transfer coils to heat water or other liquid which is circulated therearound.

These and other objects and advantages of my invention will more fully appear from the following description made in connection with the accompanying drawings wherein like reference characters refer to the same parts throughout the several views and in which:

Fig. 1 is a perspective view, partly broken away, of the heating device comprising the present invention;

Fig. 2 is a detail horizontal section view taken on a substantially horizontal plane as indicated substantially at 2-2 in Fig. l;

Fig. 3 is a perspective view showing an application of the present invention to a crawler-type tractor; and

Fig. 4 is a perspective view, partly broken away, of a modified form of the present invention for warming the water in a stock watering tank.

The invention as seen in Fig. 1 comprises a generally cylindrical tank or enclosure having a bottom 11 and a top 12. A combustion engine indicated in general by numeral 13 is affixed as by welding at 14 to the top of the tank 10 and has an exhaust outlet 15. The combustion engine 14 has a driving member 16 rotatably mounted on a vertical axis which is connected by a belt 17 to a driven member or pulley 18 of a liquid pump 19 which is aflixed as by band 20 to the enclosure 10. The pump 19 hasa liquid flow inlet 21 and a liquid flow outlet 22 which is connected by means of conduit 23 to the water cooling system of the combustion engine 13. The cooling system of combustion engine 13 is connected by a conduit 24 to the inlet fitting 25 which is secured in the lower portion of the side wall of tank 10. Flow communication is thereby provided from the inlet 21 of pump 19 to the lower end portion of the tank 10. The tank 10 also has a liquid flow outlet 26 at the upper portion there- A heat transfer coil 27 is disposed within the enclosure 10 and the upper inlet end 28 of coil 27 opens through the upper portion of enclosure 10 and is connected to the exhaust outlet of the combustion engine 13. The lower discharge end 29 opens through the lower end of the enclosure 10 for discharging exhaust from the engine outwardly into free air. It will be noted in Fig. 2 that the heat transfer coil is of the double wound type with one coil portion 30 wound concentrically and outwardly of a second coil portion 31. The concentric coil portions 30 and 31 provide a substantial heat transfer area for transmitting the heat from the hot combustion gases to liquid contained within the tank 10.

The inlet 21 of pump 19 is connected through a flow control valve 32 to a conduit 33 to the lower front por tion of the power engine 34 of a power implement 35. The conduit 33 may be connected to the engine adjacent the water pump 36 thereof. The outlet 26 of tank 10 is connected by means of conduit 37 to the upper rear portion of the power engine 34 in flow communication with the liquid cooling system thereof. The tank 10 has a mounting bracket 38 aflixed thereto and a mounting rod or shaft 39 aflixed to the bracket to adapt the mechanism for easy mounting on the power implement which may be provided with suitable hooking means for supporting the rod 39. The engine-warming mechanism comprising the present invention may also be applied to a truck type tractor having an enclosed cab and a hot water heater, in which case, the inlet conduit 33 would be connected to .the heater hose which is conventionally attached to the engine adjacent the water pump.

In operatiomit is normally quite difiicult to start such a large power engine 34 as is conventionally employed in a power implement such as the endless-track tractor 35. The combustion engine 13 may generally be quite easily started in cold weather because of its light nature.

When the combustion engine 13 is started, the pump 19 will be driven to cause flow of the cooling liquid from power engine 34 through the conduit 33 into pump 19, through the conduits 23 and 24 and into the inlet 25 of enclosure 10. The hot exhaust from the combustion engine 13 will be driven through the exhaust outlet 15 and downwardly through the heat transfer coil 27 and will be discharged at the lower discharge end 29 thereof. As the hot exhaust gases flow through the heat transfer coil 27, the cool liquid from the power engine 34 will be heated as it moves upwardly through the tank 10. The liquid will enter the tank at the bottom and will be first circulated around the lowermost portion of the heat coil 27 which is adjacent the lower end thereof. The water will circulate upwardly to be progressively heated to high temperatures as it circulates around the upper portion of the coil 27 which is substantially hotterthan the lower portion because of the proximity thereto of the exhaust outlet 15. The heated liquid will flow outwardly through the outlet 26 and through 'the conduit'37 into the upper rear portion of the engine 34 for providing flow circulation throughthe engine 34 and injecting warm liquid thereinto. It should be apparent that some types of combustion engines are air cooled rather than water cooled and in such applications the outlet 22 of pump 19 will be connected directly to the inlet 25 of the tank 10. The combustion engine 13 will be run for a period of time, and it has been found that approximately onehalf hour is sufficient, to circulate sufficient fluid from the power engine 34 around the heat transfer coil 27 and back to the power engine 34 for warming the power engine sufliciently to permit easy starting thereof even though the climatic temperatures may be well below zero.

In the modification of the invention shown in Fig. 4, the mechanism is arranged for heating the water in the stock watering tank 40. The combustion engine 41 which may beused for pumping water into the stock watering tank 40 as through a conduit 42, has the exhaust outlet 43 connected to the inlet 4-4 of a heat transfer coil 45 which is immersed in the water in the stock watering tank. The discharge end 46 of the coil 45 extends outwardly through the tank side wall for discharging the combustion gases from engine 41 as the gases have been used for heating the water in the tank.

It will be noted that in both of these applications of the liquid heating mechanism, the problem of expansion due to changes in temperatures of the liquid is avoided by virtue of the fact that the combustion gases flow within the coil and the water or liquid to be heated flows around the outside of the coil.

It will be seen that I have provided a new and improved liquid heating device which may be applied to a heavy power engine for heating the cooling liquid there of and thereby heating the engine to facilitate ready and easy starting thereof, and which is also well adapted for heating liquids in other types of machinery and equipment which is normally exposed to low climatic temperatures and thereby facilitate the full usage of such equipment. It will, of course, be understood that various changes may be made in the form, details, arrangement and proportions of the parts without departing from the scope of our invention which consists of the matter shown and described herein and set forth in the appended claims.

What is claimed is:

1. In apparatus for heating the cooling liquid of a power engine, said apparatus having in combination a rigid liquid-confining enclosure, a combustion engine mounted on said enclosure and having an exhaust outlet, a heat transfer coil within said enclosure and having an inlet end connected with said exhaust outlet and also having a discharge end opening through said enclosure, a liquid pump drivably connected with said combustion engine to be operated thereby and having one flow con nection with the power engine for passing cooling liquid therebetween, said enclosure having a liquid inlet and a liquid outlet, one connected to the pump in fluid communication and the other connected to the power engine for carrying cooling liquid between the power engine and the enclosure, whereby the cooling liquid will be circulated through the enclosure to be warmed by heat transfer from the exhaust passing through the coil and thereby cause the power engine to be heated to facilitate ready and easy starting thereof.

2. In apparatus for heating the cooling liquid of a machine, said apparatus comprising a rigid liquid-confining enclosure, a combustion engine mounted on said enclosure and having an exhaust outlet, a heat transfer coil within said enclosure and having an inlet end connected with said exhaust outlet for receiving exhaust therefrom and also having a discharge end opening through said enclosure, said enclosure having a liquid inlet and a liquid outlet, conduit means connected with said liquid inlet and outlet and with the machine and arranged to facilitate circulation of the cooling liquid from the machine and through said enclosure to be heated and then back to the machine for warming the same.

3. In apparatus for heating the cooling liquid of a power engine, said apparatus having in combination an upright'liquid-confining enclosure having upper and lower lit ends, a heat transfer coil within said enclosure and having an inlet end extending through the upper portion of said enclosure and having a discharge end opening through the lower end of said enclosure, a combustion engine secured on the upper end of said enclosure and having an exhaust outlet connected with the inlet end of said coil whereby to circulate the hot exhaust through the coil for warming the enclosure interior, said combustion engine also having a rotary driving member on a vertical axis, a rotary liquid pump mounted on said enclosure and having a driven member rotating on a vertical axis and drivably connected with the driving member of the combustion engine, a pair of liquid flow conduits adapted for connection with the power engine in widely spaced relation with each other and in fluid communication with the cooling liquid therein, said conduits being respectively connected in flow communication with the upper and lower ends of the enclosure, said pump being connected in flow communication in one of said conduits and arranged to move the liquid into the lower end of the enclosure and out of the upper end thereof, whereby to forcibly circulate water from the power engine and upwardly through the enclosure to be heated by the heat from the exhaust of the combustion engine, and then back to the power engine.

4. In combination, a power implement having a liquidcooled power engine, an engine-warming device comprising a liquid-confining enclosure secured to the power implement, a pair of liquid flow conduits respectively connected to the front and rear portions of the power engine in flow communication with the cooling liquid thereof, said conduits being respectively connected in widely spaced relation with respect to each other and circulating water therethrough and through the power engine, a heat transfer coil within said enclosure and having an upper inlet end opening through the enclosure and also having a lower discharge end opening through the enclosure, a combustion engine mounted on said enclosure and having an exhaust outlet connected with the inlet of said heat transfer coil whereby to circulate hot exhaust therethrough for warming the enclosure interior and the liquid therein, said combustion engine also having a driving member rotating on a vertical axis, and a rotary pump having a rotary driven member on a vertical axis and drivably connected with said driving member of said combustion engine, said pump being connected in flow communication in one of said conduits whereby to circulate cooling liquid from the power engine and through the enclosure to be warmed therein and thereby facilitate warming of the power engine of the implement for easy starting thereof.

References Cited in the file of this patent UNITED STATES PATENTS 1,866,015 Davey July 5, 1932 2,414,214 Spackman Ian. 14, 1947 2,533,881 Dufi Dec. 12, 1950 2,623,511 Welin-Berger Dec. 30, 1952 2,661,015 Allred et a1. Dec. 1, 1953 2,681,052 Kazial June 15, 1954 2,737,169 Kimberlin Mar. 6, 1956 FOREIGN PATENTS 884,163 France Apr. 12, 1943

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