US2748411A - Spray guard - Google Patents

Description

, June 5, 1956 v. R. O'BRIEN 4 SPRAY GUARD' Filed Aug. 7, 1952 SPRAY GUARD Vincent Richard OBrien, St. Paul, Minn., assignor to Fastee Products, Inc., St. Paul, Minn., a corporation of Minnesota Application August 7, 1952, Serial No. 303,094

8 Claims. (Cl. 15-129) This invention relates to spray guards for use in conjunction with spray valve and nozzle assemblies of the type that are used on kitchen sinks. More particularly, it relates to a self-engaging spray guard adapted to be readily attached or detached from a spray valve and nozzle assembly as a result of its inherent shape for the purpose of adapting the assembly for more effective cleaning operations as well as for rinsing without attendant splashing.

This invention is an improvement on my inventions disclosed and claimed in application for patent, S. N. 210,474, filed February 12, 1951, by me and entitled Multi-Purpose Spray Guard, and in application for patent, S. N. 266,700, filed January 16, 1952, by me and entitled Sink Spray. Although the spray guards disclosed and claimed in these two prior applications operate in a very satisfactory manner, I have found that by modifying the spray guard as to its shape and certain structural features, I can provide a spray guard which is substantially more easily attached and detached relative to the spray valve and nozzle assembly and will have a longer useful life.

It is a general object of my invention to provide a novel and improved spray guard for sink spray valve and nozzle assemblies which is of cheap and simple construction and efficient operation and can be constructed with a minimum of material.

A more specific object is to provide a spray guard which may be more readily attached to and detached from a spray valve and nozzle assembly.

Another object is to provide a spray guard which is constructed to be attached to the spray valve and nozzle assembly by frictional engagement only.

Another object is to provide a spray guard having an automatically dispensing detergent chamber constructed therewithin.

Another object is toprovide a spray guard wherein only the valve element and nozzle need be furnished to provide a complete valve and nozzle assembly and spray guard.

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 or similar parts throughout the several views, and in which:

.Fig. 1 is a side elevational view of a spray valve and nozzle assembly with a spray guard embodying my invention attached thereto in position for operation;

Fig. 2 is a plan view of the same;

Fig. 3 is a vertical sectional view of the structure shown in Fig. l and taken approximately along line 3-3 ofFig.1;

Fig. 4 is a vertical sectional view of-a second embodiment of my invention with the valve element and nozzle received therewithinfrom below; and 1 Fig. 5 is a front elevational view of one embodiment of my invention which is especially adapted for washing the human hair, with a portion of the view broken away to show the interior thereof ate l 2,748,41 l Patented June 5, 1956 One embodiment of my invention may include, as shown in Figs. 13, a generally frusto-conically shaped tubular member indicated generally as 6 formed of resilient, water-resistant material such as rubber. As best shown in Figs. 2 and 3, this tubular member is open at its upper and lower ends and is adapted to receive a spray valve and nozzle assembly indicated generally as 7 therewithin from above. The valve element is housed within thehousing portion 8 and the nozzle 9 is threadedly connected to the lower end thereof. Thetubular member 6 has inner walls theupper portions 10 of which are substantially vertical and are complementary in shape to the spray valve andnozzle assembly 7. Theupper portions 10 of these inner walls converge at the lower sections thereof to provide a seat 11 complementary in shape to the nozzle 9 and engaging the nozzle when theassembly 7 is received within thetubular member 6. In other words, the nozzle 9 rests upon the converging portions 11 of theupper portion 10 of the inner wall and the seat-defining portions 11 surround the opening of the nozzle. The valve and nozzle assembly 8-has aneck portion 7a, which is ordinarily connected to thehose 12 which normally leads from the sink to provide water to the valve and nozzle assembly.

Extending outwardly and rearwardly from the generally frusto-conically shapedouter walls 13 of thetubular member 6 is ashoulder member 14 which is provided with an upwardly facing groove orchannel 15 therewithin. Thischannel 15 is complementary in shape to theneck portion 7a of the valve andnozzle assembly 7 and fits it snugly so as to engage the same in tight-fitting frictional engagement. Thus theentire valve assembly 7, including at least a part of theneck portion 7a, fits within the upper portion of thetubular member 6 in tight-fitting frictional engagement so that the spray guard will remain in position throughout the washing operations without any additional means of securing the same to it.

The inner walls of thetubular member 6 diverge below the seat portions 11 and extend first downwardly as at 16 and then upwardly and outwardly as at 17 and then downwardly as at 18. Adjacent the lower end of thetubular member 6 is an inwardly extending abutment shoulder 19 which has an annular groove or recess 20 immediately adjacent thereto and slightly below the same. Thereafter the inner walls extend downwardly and outwardly and terminate in a lowerperipheral edge 21 which extends in substantially the same plane throughout itslength. In other words, if thetubular member 6 is placed upon a flat surface, the lower peripheral edge will normally engage the fiat surface throughout the length of the circumference of the tubular'member 6 at its lower end.

Mounted within the recess orgroove 28 is anannular plate 22 having acentral opening 23 and an upwardly extendingsleeve 24 which defines the central opening. The outer diameter of thissleeve 24 is substantially equal or slightly larger than the inner diameter of the opening of the seat-forming portions 11 and is of sufficient length so as to extend upwardly to a position against the nozzle 9 and so as to surround the opening of the nozzle. Theplate member 22 and thesleeve 24 extending upwardly into the seat-defining portions 11, together form anannular chamber 25 which extends around thesleeve element 24 and between that member and the lower portions of the inner walls of thetubular member 6. This chamber is adapted to contain asupply of liquid detergent which is injected into the chamber through afiller opening 26 which in turn is normally closed by a tight-fitting stopper 27. Formed in the portions of theplate member 22 which extend upwardly to thesleeve 24 is a very small discharge opening 28 through which the detergent may escape in a manner to be hereinafter described. It should be noted that theplate 22 and the 3sleeve 24 together form a partition member which forms thechamber 25 in conjunction with the inner walls of thetubular member 6.

Mounted on the underside of theplate 22 is an annular channel 29. As best shown in Fig. 3, this channel faces downwardly and contains therewithin an annular brush 3% which extends downwardly to a level slightly below the lowerperipheral edge 21 of thetubular member 6.

Fig. shows an embodiment of my invention somewhat similar to the embodiment shown in Figs. l3 with the exception that the channel 29 and thebrush 30 have been omitted therefrom. in all other respects this spray guard is constructed identically with the spray gnard shown in Figs. 1-3 and accordingly the corresponding parts bear the same numerical references.

Fig. 4 shows another embodiment of my invention wherein the tubular member indicated generally as 3i has anupright portion 32 and a generally horizontally extendingneck portion 33. As shown in Fig. 4, theupright portion 32 and theneck portion 33 are formed integrally with the neck portion internally threaded as at 34 to engage the externally threaded end of a watercarrying conduit 35. A rubber washer 36 makes the connection fluid-tight. Thepassage 37 extends horizontally through theneck portion 33 and it extends downwardly through theupright portion 32.

At the top of theupright portion 32 there is arecess 38 adapted to accommodate the valve lever 3? which pivots upon anupstanding rib 49 provided for that purpose within therecess 37, this rib 4t) acting as a fulcrum for the lever 3?. Extending downwardly from this recess is asmall passage 41 which is of sufficient diameter to accommodate a connectingrod 42 which is connected at its upper end to the forward end of thelever 39 and the lower end of which extends downwardly through awasher 43 into the main passage of thetubular member 31. The diameter of thepassage 37 is increased at this point to accommodate avalve element 44 which is threaded onto the lower end of therod 42 and which maintains aspring 45 in slightly compressed condition.

Immediately below the widened portion of thepassage 37 is a stillwider portion 46 which has defining walls which are internally threaded. The diameter of this portion of the passage is equal to the externally threaded portions of thevalve nozzle 47 which is inserted from below. Awasher 48 provides a seat for thevalve element 44 and is held in place by the threaded engagement between thenozzle 47 and the threads as at 46.

Thetubular member 31 has a downwardly extendingcollar 49 within its interior which is of a diameter at least equal to the diameter of the head of thenozzle 47 and extends below the nozzle a substantial distance as shown in Fig. 4. The inner walls extend upwardly and then downwardly from thiscollar 49 to a point adjacent the lower portion thereof where there is an abutment shoulder 59 and anannular groove 51. The lowerperipheral edge 52 of thetubular member 31 extends in substantially the same plane throughout its length similar to the embodiment shown in Figs. 1-3.

Mounted within thegroove 41 is anannular plate 53 which has a central opening defined by portions thereof which extends upwardly as at 54 and terminate in a sleeve 55 which extends within the interior of thecollar 49 and is engaged by the same. This sleeve 55 is of suflicient length to abut against thenozzle 49. The sleeve 55 and theplate 53 together form a partition which, in conjunction with the inner walls of the tubular member, forms a detergent-containing chamber 56 adapted to retain detergent therewithin and to be filled through a filler opening 57 which is normally closed by a removable stopper 5%. Theplate 53 has a very small discharge opening 53:: through which the detergent is discharged.

Mounted on the underside of theplate 53 is an inverted channel 59 and anannular brush 60 mounted therewithin,

4 the lower end portions of which extend to a level slightly below the lower peripheral edge of thetubular member 31.

In use, thetubular member 6 may be readily attached to or detached from the spray valve andnozzle assembly 7 by merely inserting the assembly into the upper open end of the tubular member to a position shown in Fig. 1. The assembly is inserted until the nozzle 9 abuts against the seat defining portions 11 of the tubular memher and theneck portion 7a rests against the channel defining portions of theabutment shoulder 14. In view of the tight-fitting relationship and the conformation of the inner walls of thetubular member 6 and the channel 35 to the shape of the spray valve and nozzle assembly, the assembly is held securely to thetubular member 6 by frictional engagement. When it is desired, it is a relatively easy matter to detach thetubular member 6 from the assembly by merely pulling directly upwardly on the assembly.

The function of the shoulder member id is to provide support for theneck portion 7a and positively prevent accidental disengagement of the valve and nozzle assembly from thetubular member 6. It performs this function due to the fact that it extends outwardly beyond theouter walls 13 of the tubular member so that any downward pressure upon the neck portion 711 will cause the nozzle to swing outwardly in an arc much wider than would otherwise be the case since the assembly must pivot upon the rearmost supporting edge of theshoulder member 14. In addition to precluding the accidental disconnection of thetubular member 6 from theassembly 7, the presence of the channel 1.5 also facilitates the insertion of the assembly into the tubular member.

In use, the assembled unit is pressed against the surface to be cleansed so that the lower peripheral edge thereof engages the surface. When the water is permitted to flow through the assembly a back pressure is built up within the lower portions of thetubular member 6 and this pressure is transmitted to the interior of thechamber 25 through thedischarge opening 28. When the lower peripheral edge of thetubular member 6 is permitted to disengage the surface being cleansed, this pressure is of course reduced and as a result there is a small outward fiow of detergent through thedischarge opening 28 which readily mixes with the water with which the cleansing operation is being accomplished. Thebrush 30 is utilized to dislodge the more stubborn and securely attached particles from the surface to be cleansed. It can be readily seen that the amount of detergent can be adjusted at will by merely regulating the extent of pressure applied to thetubular member 6 andassembly 7. If considerable detergent is desired a back pressure may be built up repeatedly within the interior of thetubular member 6 with repeated releases of the pressure so as to cause additional detergent to flow outwardly and mix with the water.

Fig. 5 shows an embodiment of my invention especially well-adapted for the washing of the human hair. The only distinction between this embodiment and the embodiment shown in Figs. 1-3 is that thebrush 30 and the channel 29 are not secured to theplate 22. The partion member or plate member and the discharge opening therein function in the same manner as described hereinabove.

The structure shown in Fig. 4 shows an embodiment of my invention which will eliminate the need for a separate complete valve and nozzle assembly as shown in Fig. 1. This particular embodiment shows the neck portion being incorporated integrally with the rest of the tubular member and the tubular member constructed so as to permit therod 42, thespring 45, thevalve element 44, thewasher 48 and thenozzle 47 to all be inserted from below before theplate member 40 is snapped into place in therecess 51. The operation and function of this particular embodiment is the same as described hereinabove for the structure shown in Figs. 1-3.

Thus it can be seen that I have provided a novel and improved spray guard for use with a spray valve and nozzle assembly which can be more readily attached and detached relative to the assembly desired.

Since there is no requirement of a separate engaging element which, when constructed of material such as rubber, frequently wears out long before the remaining portions of the device are worn, the useful life of the spray guard is extended substantially. In addition there is a substantial saving in the time required for attaching or detaching the guard. Considerable inconvenience is avoided by using this simple means of attachment and detachment to the assembly.

It should be noted that the amount of detergent injected into the stream of water which is used for washing the surface to be cleansed, may be regulated by the user at will with a minimum of inconvenience. The user has a constantly supplied detergent always available and there is no question involved in its use. The entire device is simple in both construction and operation and can be manufactured with a minimum of material and at a minimum of cost.

It will, of course, be understood that various changes may be made in the form, details, arrangement and proportions of the various parts without departing from the scope of my invention.

What I claim is:

1. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of surfaces comprising a tubular member formed of a resilient, waterresistant material, said member having a lower peripheral edge extending in substantially the same plane throughout and having inner walls the upper portions of which are adapted to receive therein in positive fluid tight non-threaded engaging relation such a spray valve and nozzle assembly, the lower portions of the inner walls of said member being of substantially greater internal diameter than said upper portions and greater than the diameter of the spray nozzle, a plate member secured to the lower portions of said inner walls and extending therebetween below the spray nozzle and entirely above said lower peripheral edge and having a centrally disposed opening therethrough, and a sleeve member mounted on said plate member and defining said opening and extending upwardly therefrom to a position adjacent the spray nozzle and in engagement with said upper portions of said inner walls to form in conjunction with said plate member and the lower portions of said inner walls a chamber adapted to contain a detergent, said plate member having a small discharge opening therein through which the detergent may pass as a result of variations of pressure within the chamber.

2. The structure defined in claim 1 and an annularly arranged brush mounted on the underside of said plate member in surrounding relation to its opening and depending therefrom to a level only slightly below the lower peripheral edge of said tubular member to permit said lower peripheral edge to be brought into flush engagement with a flat surface to be cleaned and to thereby create a back pressure within said chamber.

3. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of surfaces comprising a tubular member formed of a resilient, water-resistant material, said member having inner walls the upper portions of which are complementary in shape to the external surface of the spray valve and nozzle assembly and are adapted to receive the same therewithin from above in positive tight-fitting non-threaded frictionally-engaging relation, the lower portions of said inner walls diverging downwardly from the spray nozzle and terminating at the lower peripheral edge of said member in substantially the same plane throughout, and an open channeled shoulder member formed of resilient material carried exteriorly by said member adjacent its upper end and extending laterally therefrom, said shoulder member having its channel open at the top and facing upwardly and being shaped to conform to the shape of z the neck portion of said assembly to support and positively engage the same to thereby resist positively the separation of said tubular member from the spray valve and nozzle assembly.

4. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of surfaces comprising a tubular member formed of a resilient, waterresistant material, said member having inner walls the upper portions of which are complementary in shape to the external surface of the spray valve and nozzle assembly and are adapted to receive the latter therewithin from above in positive, tight-fitting, frictionally-engaging non-threaded relation, the lower portions of said inner walls being below the lower end of the spray nozzle and being of substantially greater internal diameter than said upper portions, said tubular member having tapered outer walls, and a channeled shoulder member mounted upon said outer walls adjacent the upper end of said tubular member and extending laterally therefrom and having its channel open at the top and facing upwardly and adapted to receive therein from above in tight-fitting frictional non-threaded engagement the neck portion of such an assembly to support the same and positively resist the separation of said tubular member from the spray valve and nozzle assembly.

5. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of surfaces comprising a tubular member formed of a resilient, water-resistant material, said member having a lower peripheral edge extending in substantially the same plane throughout and having inner walls the upper portions of which are adapted to receive therein in positive engaging relation such a spray valve and nozzle assembly, the lower portions of the inner walls of said member being of substantially greater internal diameter than said upper portions and greater in diameter than the diameter of the spray nozzle, and a partition member secured to the lower portions of said inner walls and extending therebetween entirely above the lower peripheral edge of said member and below the spray nozzle andl having a central opening formed therethrough, the portions of said partition member defining its central opening extending upwardly to a position adjacent the spray nozzle and in engagement with the upper portions of said inner walls to form in conjunction with the remainder of said partition member and the lower portions of said inner walls a chamber adapted to contain a detergent, said remaining portion of said partition member having a very small discharge opening formed therein through which the detergent may pass as a result of variations in pressure within the chamber formed by alternately pressing the lower peripheral edge of said tubular member against a fiat surface while the spray valve is open and then releasing the same.

6. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of generally flat surfaces comprising a tubular member formed of a resilient, water-resistant material and having an upright portion and a horizontally extending neck portion, said portions being made integral with each other and having a passage extending therethrough, said member having a lower peripheral edge extending in substantially the same plane throughout and having inner walls within the upright portion the upper parts of which are adapted to receive therein in positive fluid-tight non-threaded engaging relation such a spray valve and nozzle assembly, the lower parts of the inner walls of said upright portion of said member being of substantially greater internal diameter than the upper parts and greater than the diameter of the spray nozzle, a plate member secured to the lower parts of said inner walls and extending therebetween entirely below the lower end of the spray nozzle and entirely above said lower peripheral edge and having a centrally disposed opening therethrough, and a sleeve member mounted on said plate member and defining said opening and extending upwardly therefrom to a position adjacent the spray nozzle and in engagement with the upper part of'said inner Walls to form in conjunction with said plate member and the lower parts of the inner walls a chamber adapted to contain a detergent, said plate member having a small discharge opening therein through which the detergent may pass as a result of variations of pressure within the chamber.

7. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of generally flat surfaces comprising a tubular member formed of an elastic and resilient water-resistant material, said member having inner walls the upper portions of which are complementary in shape to the external surface of the spray valve and nozzle assembly and are adapted to receive the same therewithin from above in positive tightfitting, frictionally-engaging non-threaded relation, the lower sections of the upper portions of said inner walls converging inwardly to form a seat for the lower end surface of the nozzle and to engage the same when the valve and nozzle assembly is received within said tubular member, the lower portions of said inner walls diverging downwardly from a point adjacent the spray nozzle and terminating at the lower peripheral edge of said member in substantially the same plane throughout, and a channeled shoulder member formed of resilient material carried exteriorly by said member adjacent its upper end and extending laterally outwardly therefrom, said shoulder member having its channel open at its top and facing upwardly and being shaped to conform to the shape of the neck portion of said assembly to support and positively frictionally engage the same to thereby resist positively the separation of said tubular member from the spray valve and nozzle assembly.

8. A spray guard for use in conjunction with a spray valve and nozzle assembly in the cleaning of generally flat surfaces comprising, a tubular member formed of a resilient water-resistant material, said member having a lower peripheral edge extending in substantially the same plane throughout and having inner walls the upper portions of which are adapted to receive therein in positive fluid-tight non-threaded engaging relation such a spray valve and nozzle assembly, the lower sections of the upper portions of said inner walls converging to form a seat for the lower end of the nozzle of such an assembly and to engage the same When the latter is received within said tubular member, the lower portions of the inner walls of said tubular member being of substantially greater internal diameter than said upper portions and greater than the diameter of the spray nozzle, a plate member secured to the lower portions of said inner walls and extending therebetween entirely below the lower end of the spray nozzle and in vertically spaced relation thereto and entirely above said lower peripheral edge and in vertically spaced relation thereto and having a centrally disposed opening therethrough, and a sleeve member mounted on said plate member and defining said opening and extending upwardly therefrom to a position within the seat-defining portions of said inner walls and engaging the same to form in conjunction with said plate member and the lower portions of said inner walls a chamber adapted to contain a detergent, said plate member having a small discharge opening therein through which the detergent may pass as a result of variations of pressure within thechamber.

References Cited in the file of this patent UNITED STATES PATENTS 605,929 Smead June 21, 1898 2,075,964 Teigeler Apr. 6, 1937 2,502,937 Franklin Apr. 4, 1950 2,504,506 Du-For Apr. 18, 1950 FOREIGN PATENTS 883,863 France :'Apr. 5, 1943

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