US833829A - Method of heating, purifying, and regulating water. - Google Patents

Description

No. 833.829." PATENTED 00123, 1906.

' Q J. w. GAMBLE.

METHOD OF HEATING, PURIFYING, AND REGULATING WATER.

APPLICATION FILED fill-0.9. 190 5. I

nvygrkroe MG I M ATTORNEY' UNITED STATES PATENT oEEIoE;

JOSEPH'WILLARD GAMBLE, OF PHILADELPHIA, PENNSYLVANIA,

ASSIGNOR ,TO JOSEPH S.

LovE nNc WHARTON, WILLIAM S.

' HALLOWELL, AND JOHN l .0. JONES, DOINGBUSINESS AS HAR- RISON SAFETY BOILER WORKS, OF PHILADELPHIA, PENNSYL- VAN IA, A FIRM.

METHODOF HEATING, PURIFYING, AND REGULATING WATER.

Specification of Letters Patent.

Patented 001;. 23, 1906.

Application filed December 9, 1905. Serial No. 291,022

To all whom it may concern:

Be it known that I, JOSEPH WILLARD GAMBLE, a citizen of the United States, and a resident of and whose post-office address is No. 2602 North Thirtieth street, in the city of Philadelphia and State of Pennsylvania, have invented certain new and useful Improvements in Methods of Heating, Purifying, and Regulating Water, of which the following is a specification.

My invention relates to improvements in the method of heating, purifying, and regulating a supply of liquid, but especially to the treatment of water, and more especially to the instances where chemical solution is supplied to the water, which is subsequently filtered and adapted for feeding boilers or other similar purpose.

The objects of my invention are especially, first, to provide a method of insuring an ample supply of heated and treated feed-water irrespective of the condition of the filter; second, to provide a method simple, positive, efficient, and automatic in operation.

ere chemical solution is supplied to feedwater in a heater there is a consequent precipitation of impurities, which fall to the bottom of the'tank and may be removed when necessary. Moreover, therapidity with which this precipitation is accomplished Varies according to the temperature of the water. These impurities, however, finall choke or reduce the effectiveness of the fi ter, When this occurs, of course the efiicient operation of the whole system is seriously affected or is at a standstill, thus rendering inadequate the ultimate-supply available for use, and it becomes necessary tosecure an increased supply of water for the pump or other distributing means, even if such supply be not so thoroughly prepared as it Would be were there no obstruction and the apparatus operating at its usual capacity and performing its functions in the usual manner and sequence. It is important, nevertheless, that the necessary increment shall be both heated and, so far as possible, purified by the chemical treatment, even if the precipitation has not been entirely removed by the filter. Therefore instead of relying upon the original parts of my invention.)

I cold-Water supply for the increment I take it cm the heater and purifier at some point in the circulation before or in front of the filter, and since thevlower strata havebeen given more time for the precipitation and agglomeration of the impurities I prefer to draw on them for my increment. It is obvious, moreover, that thls process should be in general automatic and at regulation. .7

I accomplish'the ,desired ends by the process described and illustrated in-the following the same time capable of description and drawings and particularly claimed hereinafter.

In the drawings, like symbols of reference refer to like parts throughout the respective views.

Figure 1 is an elevation ofa combined heater, purifier, and filter embodying myinvention, showing a portion of the casing broken away and the devices-within principally in section, Figs. 2 and 3 show modifications tion.

In Fig. 1 A is a heater, which I prefer to place upon or. over the tank B, containing the filter, because of the economy of space and compactness of operating means thus attained, though I do not limit myself to that location, since it is not. necessary to the operation of the apparatus that it shall be in one integral structure 'or particular arrangement or form. The tank B contains a filter-bed 15 and is provided-[with man andrhand holes 18 1.9 for cleaning and the usual pipes for flushing and withdrawing waste, (the latter not here shown to avoid complicating the drawings and because, they are wellknown in the art and common to such devices and are not 1 is the exhaust-pipe from engine or other source of steam-supply to the system. 2 is a separator. 3 is the outlet-pipe from heater to atmosphere. 4. is the cold-water feed; chemical solution or reagent such as 1s generally used for the purpose of forming, with the impurities in the water, an insoluble precipitate, as is well known. cold-Water-supply pipe operated automatically through intermediate mechanism 'bythe of my invention,,-also partly in sec- 6 is a valve in'the 5, the supply-pipe for a float 8 rising and falling in the float-chamber 7 according as the water-level in the system rises or falls, all dependent upon the amount withdrawn from the same for utilization. 9 is the vent for the float-chamber; 10, the water-trays in the heater, shown through an open manhole. All of these features being old, I will not particularly describe them further than I have done to make clear the advantage and operation of my improvement, as follows: 11 is a hood or shield forming a chamber open at the bottom and so placed that this opening shall be comparatively close to the filter, or, in other words, in that stratum of the treated water which has been longest subjected to treatment. 12 is a ventpipe to prevent siphoning. 13 is a device comprising pipes and fittings, all of which constitute a by-pass and attachments or means for carrying the water from in front of the filter to the discharge side thereof around the same, and so leading a full supply to the outlet 16 irrespective of the condition of the filter.

In Fig. 3 I have also shown a regulating valve 17 in the by-pass, and in all figures the plugs 20, which permit the by-pass pipes to be examined, cleaned, &c.

In Fig. 2, 25 is the inlet to the by-pass. 24 is a spring or otherwise loaded checkvalve placed preferably in the lower run of the by-pass.

The operation of the device is as follows: Referring to Figs. 1 and 2, the cold-water feed enters through 4 in amount determined by height of water-line and regulated by float 8, operating valve 6, which float may be so adjusted as to establish any desired waterline, either before or during the operation. A suitable amount of chemical reagent enters feed-water at 5 and mixes therewith. Then falling into trays 10, the mixture is heated by the exhaust-steam entering through 1 2, all of which is well known in the art and need not be more particularly described. The heated and chemically-treated water now gradually loses the impurities previously held in suspension by precipitation. As this process requires sometime, of course the water that has been longest subjected to the treatment will generally contain the least impurities, since it has been given the most time for the pre cipitation and the agglomeration of the impurities. This is naturally the ease with the lower strata. Normally the water passes progressively and continuously through the ilter 15 into the passagechamber-14f, and so out through 16; but, as has been said, when the filter becomes clogged by the precipitates the supply of treated water passing through the filter may be so diminished that the quantity drawn from the filter and through the outlet 16 is far below the normal capacity of the apparatus and is entirely in adequate for the needs of the users. In such event the by-pass system 1.1 12 13 may be called into play, as follows: Owing to the choking of the filter, the water-line tends to rise until the supply of cold water feed is entirely cut off by float 8. operating valve 6. Before this point is reached, however, the water-line rises over and covers the inlet of the by-pass and continues to flow therethrough until the water-line falls below the inlet of by-pass. Thus sufficient is diverted around the filter to make up the deficiency caused by its choking, and since I preferably take this increment from the lower portion of water I attain the advantage of all the treatment except the final one of complete filtration. This operation may be manually regulated by the adjustment of the float S, as above stated, and also by the regulatingvalve 17. (See Fig. 3.) Referring now to Fig. 2, in order to render the system still more automatic and reliable it is sometimes desirable to place a resistance in the by-pass, so that the filter is normally the line of least resistance, thus insuring the circulation through thefilter at all times exceptwhcn obstructed andv thus the by pass will not begin to operate until this obstruetioi'i of the filter occurs, and, moreover, insuring the resumption of interrupted circulation through the filter and consequent cutting off of by-pass as soon as the obstruction is removed. (lne way of accomplishing this is to place a springloaded swing check-valve or an equivalent. device in the lower run of the by-pass. .In the arrangement shown in Fig. 2, 24: is this resistance, specifically in this instance a swinging weight-loaded check-valve. The operation of this modification is as follows: The inlet 25 is habitually submerged, and if with the head available a sufficient supply passes through the filter-bed then all of the supply is taken from this source because of the obstruction to flow through the by-pass caused by the loaded valve 24 or other form of resistance. If, however, sufficient cannot be taken in this manner because of the obstruction or resistance of the filterbed, then the withdrawal of water from the part of the tank beyond the filter-bed tends to decrease or overcome the resistance in the by-pass or, as in the figure, to open the cheek-valve. Up to a certain point this tendency is ineffective. If, however, the resistance or obstruction of the filter-bed is still increased, the resistamie in the bypass is balanced and finally exceeded by the former, when the by-pass automatically opens and a supply begins to pass around the filter-bed sufficient to make up the dif ference between the quantity passing through the filter-bed and the total quantity required. Of course it will be understood that the resistance caused by the check-valve may be varied at will by changing the adjustment or load of the check-valve. I may also add the regulating-valve 17. (Shown in Fig. 3.)

1 the purification of water, since my invention is applicable to the It is evident that my improvement is not 'mited to its application in any particular (1 of water-heater, as the one illustrated; nor is it confined to use in a heater and purifier, as it might be equally applicable in a process of heating or purifying nor to any particular design, form, or arrangement of parts. Moreover,

any particular liquid, as

is so intended; nor do I limit myself to any particular form of resistance, as a springvalve or loaded valve, as any resistance which will prevent the operation of the by-pass un- I t1l the resistance of the'filter becomes too great to allow an adequate supply of water to pass to the outlet will come within the intent and meaning of my invention.

Where I have used the words varying inversely as the filter, or words to that effect, I do not mean that the quantity in actual measurement which passes through the by-pass varies inversely as the actual quantity passing through the filter in any fixed ratio, as three parts to one part or other fixed proportion; but I mean that the flow through the by-pa'ssincreases or diminishes in quantity inversely as the flow through the filter increases or diminishes until either the increment'passing through the by-pass is sufficient to make up the deficiency in the quantity passing through the filter or the quantity passing through the filter is sufficient in itself and the increment ceases to flow through the by-pass.

What I do claim, and desire to protect by Letters Patent, is

1. The method of heating, purifying and regulating water, which consists in automatically supplying water and a purifying chemical to a heater in proportion as the water is discharged therefrom, heating the solution, filtering the water, discharging the same, and automatically supplementing the quantity of filtered water discharged by such an increment of heated but'unfiltered water as will I do not limit myself to as the purification and regulation of any liquid, and

quantity passing through the make up any deficiency in the quantity passing through the filter.

2'. The method of heating, purifying and regulating water, which consists in automatically supplying water ancla purifying chemical to a heater in proportion as the water is discharged therefrom; heating the solution, filtering the water, and automatically supplementing the quantity of water passing through the filter, by an increment of unfiltered but heated water, varying in quantity inversely quantity passing through the filter.

3. The method of heating, purifying and regulating water, which consists in heating the water, precipitating the impurities therein, filtering the water, and automatically supplementing the quantity of filtered water by an increment of unfiltered Water varying inversely as the quantity filtered.

4. The method of heating and regulating water, which consists in heating the water,

filtering the same, and automatically supplementing, the quantity of filtered water by an increment of unfiltered but heated water varying inversely as the quantity filtered.

5. The method of heating and regulating water, which consists in heating the water,

filtering the same, and automatically supplementing the quantity of filtered water by an increment of unfiltered but heated water varying directly as the resistance of the filter.

6. The method of water heating, purification and regulation, which consists in automatlcally supplementing the supply of purified water by an increment which has been heated and partially purified.

7. The method of water heating, purifying and regulation, which consists in adding a chemical solution to the supply, heating the mixture, filtering the same and automatically supplementing the filtered supply by an unltered increment.

Signed at Philadelphia, in the county of Philadelphia and State of Pennsylvania, this 25th day of November,.A. D. 1905 JOSEPH WILLARD GAMBLE. Witnesses:

JosEPH M. HEWLETT, E. E. HELLER.

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