US3657740A - Ventilated welder{3 s mask assembly - Google Patents

Abstract

A ventilated welder''s mask assembly in which the user''s head is subjected to a stream of air for cooling purposes, which air stream maintains a slightly higher pressure that that of the ambient atmosphere within the mask to minimize the possible entry of toxic fumes into the latter. The stream of air into the mask is supplied from a supported electrically operated blower unit worm by the user, but with the unit being removably connectable to a flexible hose that extends to a source of fresh air under pressure remote from the welding area. The unit is connected to a hose in the manner described when the mask assembly is worn in a confined spaced in which toxic fumes are present.

Description

United States Patent Cialone ['45] Apr. 25, 1972 1 VENTILATED WELDERS MASK ASSEMBLY Armando A. Cialone, 5304 Killder, Long [72] Inventor:

Beach, Calif. 90808 [22] Filed: Nov. 26, 1969 [21] Appl. No.2 880,054

[52] U.S.Cl ..2/8,2/171.3,128/142.3,

, Y 128/ 142.7 [51] Int. Cl. ..A6lf 9/06 [58] Field ol'Search....; ..'2/8,9, 10, 3,171.3;

[56] References Cited UNITED STATES PATENTS 2,314,078 3/1943 Crawford ..239/590.5 2,882,894 4/1959 Fahey et a1 ..2/8 UX 3,413,972 12/1968 Depping ...128/142.7 3,467,965 9/1969 Murphy ..2/8 3,496,703 2/1970 MacLeod et a1 ..l28/142.7 X

FOREIGN PATENTS OR APPLICATIONS 732,248 6/1955 Great Britain ..2/l0

Primary Examiner-James R. Boler Attorney-William C. Babcock [57] ABSTRACT A ventilated welders mask assembly in which the users head is subjected to a stream of air for cooling purposes, which air stream maintains a slightly higher pressure that that of the ambient atmosphere within the mask to minimize the possible entry of toxic fumes into the latter.

The stream of air into the mask is supplied from a supported I electrically operated blower unit worm by the user, but with the unit being removably connectable to a flexible hose that extends to a source of fresh air under pressure remote from the welding'area. The unit is connected to a hose in the manner described when the mask assembly is worn in a confined spaced in which toxic fumes are present.

1 Claim, 6 Drawing Figures PATENTEDAPRZSS 1912 3.657. 740

u 7 INVENTOR.

flank/v00 b'mL ONE 40 84 44 lmlamlmliw 52 4% BY 5 aw %W 02 Arr-02m BACKGROUND OF THE INVENTION 1 Field of the Invention A ventilated welders mask assembly that may be worn not only for cooling purposes, but to minimize the danger to the wearer thereof from exposure to toxic fumes.

2. Description of the Prior Art In the past, various types of welders masks have been devised and used in which fresh air has been fed into the interior thereof through a flexible hose to not only cool the head of the welder, but to minimize the possibility of exposing the welder to toxic fumes. Connection of an air supply hose to a welders mask seriously impedes the movement of the welder, which is undesirable unless absolutely necessary, such as when a welder is working in a confined space with a minimum of effective vantilation. Normally, but a small percentage of a we]- ders time is spent working in such confined spaces.

The present invention provides a mask assembly by which a welder is supplied with a current of air for cooling purposes, without the necessity of connecting the assembly to an air supply hose that restricts the welders movement, but with the assembly being removably connectable to such a hose when required, such as when a welder is working in a confined space, containing toxic fumes.

The present invention overcomes the operational disadvantages of prior ventilated welders mask assemblies by providing one that may be worn without a hose connected thereto, but with the assembly being connectable to an air supply hose when necessity so requires.

SUMMARY OF THE INVENTION The invention includes a welders mask, which by a flexible conduit, is connected to an electrically operated blower unit that is preferably supported from a belt worn by the welder, with the blower unit when actuated, supplying a constant stream of air to the mask for cooling the welders head. Means is provided on the blower unit for connecting a free end of a flexible hose to the interior of the unit. The flexible hose extends to a source of fresh air under pressure, and is connected to the blower unit, only when the welder wearing the mask assembly is working in a confined space having poor ventilation, such as the hold of a ship. When the welding assembly is supplied with fresh air by actuation of the blower unit, the welder wearing the same is free to move without restriction.

A major object of the present invention is to provide a ventilated welders mask assembly which when worn, supplies a constant stream of fresh air that discharges about the welders head for cooling purposes, with this cooling effect being achieved without restriction of movement of the welder, as occurs when the mask assembly is connected to a flexible hose extending to a source of fresh air under pressure located in an area remote from that in which the welder is operating.

Another object of the invention is to supply a ventilated welders mask assembly that may be worn as a self-contained unit to permit the welder maximum flexibility of movement, but if necessary the unit may be removably engaged by an air supply hose that provides the welder with uncontaminated air.

A still further object of the invention is to supply a ventilated welders mask assembly of relatively simple mechanical structure which may be fabricated from standard, commercially available materials, is simple and easy to use, and may be retailed at a substantially low price as to encourage widespread use thereof.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 3 is a fragmantary cross-sectional view of the mask,

taken on the line 33 of FIG. 2;

FIG. 4 is a vertical cross-sectional view of the blower unit assembly, taken on theline 44 of FIG. I;

FIG. 5 is a fragmantary cross-sectional view of the blower unit assembly, taken on the line 5-5 of FIG. 1; and

FIG. 6 is a perspective view of a central supply station for a number of flexible hose, each of which is adapted to be removably connected to one of the blower units shown in FIG. I to supply air under pressure to one of the welders helmet assemblies when the welder is working in a confined space containing toxic fumes.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A ventilated mask assembly A shown in FIG. 1 includes a conventional welders maskB formed from a hard rigid nonmetallic opaque material. The mask B includes aforward wall 10 that serves to support a dark glass insert 12 as is conventional with such devices. Theforward wall 10 merges into atop wall 14 and twoside walls 16. A head piece 18 (FIG; 2 is disposed within the upper confines of the mask, and is pivotally connected to theside walls 16 of the assembly A by pins 18a.

Anair discharge member 20 is provided as may best be seen in FIGS. 1', 2, and 3, which includes upper and'lowerwalls 22 and 24. (FIG. 2) connected on their longitudinal edges byside walls 26. A number ofpartitions 28, as illustrated in FIG. 3, extends between the top wall 22 andlower wall 24, and cooperate therewith to define a member oflongitudinal passages 30 that are so arranged as to distribute a stream of air overa relatively wide area as it discharges from themember 20. It will be noted in FIG. 3 that at least a part of thepartitions 28 are angularly disposed relative to one another.

Air is discharged into the interior ofmember 20 through atubular inlet 32 that extends outwardly from a rear wall 34 thereof. Theair discharge member 20 is connected to thetop wall 14 by clips 36 (FIG. 1), or other conventional fastening means.

Anair inlet 32 is connected to a flexible conduit C, as shown in FIG. 1, and extends downwardly from the mask B where it is connected to an electrically actuaged blower unit D. The unit D, as may best beseen in FIG. 1, includes a closed box 45 that is defined by upper andlower walls 38 and 40 (FIG. 4 that are connected at their outer extremities byend walls 42 and 44, and first andsecond side walls 46 and 48.

The second side wall 48 that is removably secured to box 45 (FIG. 1) by conventional fastening means (not shown) or by hinge means (also not shown). A blower E is provided (FIG. 4) that includes two circular, laterally spaced flat 'discs 50, and a number of transverse blades 52 extend between the outer peripheral portions of the disc. Acentral opening 54 is formed in one of the discs 50 that is in communication with anopening 56 formed in thefirst side wall 46, as illustrated in FIG. 5. A grooved pulley 58 is secured to the center of that disc 50 most remote from thefirst side wall 46, and this pulley 58 is rotatably supported on astub shaft 68 that projects from the second side wall 48.

A number of spacedpartitions 70, 72, 74 project from thefirst side wall 46, which together with thetop wall 38, lower wall 40, and second side wall 48 cooperatively define abattery compartment 76, a confinedspace 78 of circular transverse cross section in which the blower E rotates, and anair discharge passage 78 that is in communication with the blower E. Thepassage 78 terminates in a tubular air outlet 80 that projects upwardly from thetop wall 38, and is se'alingly engaged by the lower end of the conduit C.

The confinedspace 76 serves to house a number ofbatteries 82 that are in electrical engagement with tworesilient clips 84 supported within the box 45, as may best be seen in FIG. 2. Theclips 84 serve to connect thebatteries 82 toelectrical conductors 86 that extend to themotor 66 and a switch 88 provided with an actuating handle 90 that projects through anopening 92 inend wall 44, as may best be seen in FIG. 1.

Afilter unit 94 as seen in FIG. 5, includes a ring 96 andperforated wall 98 that is connected to a first edge portion of the ring. Ring 96 is removably held in theopening 56 by a circular projecting rib I00 that engages arecess 102 formed infirst side wall 46, with this recess being in communication with the opening 56.

Theunit 94 has a body of filtering material 104 situated within the confines of the ring 96, which filtering material is held between theperforated side wall 98 and a second perforatedside wall 106 disposed inwardly from theopening 56, and forms a part of thefirst side wall 46. The blower unit D is preferably removably supported by conventional means (not shown) from a belt 108 that extends around the waist of the welder (not shown).

When the mask assembly A is in place on awelder in the condition shown in FIG. 1 the switch 88 is closed by movement of the handle 90, to complete an electric circuit between thebatteries 82 and themotor 66. Themotor 66 drives the blower E in a counterclockwise direction (FIG. 4) to draw air through thefilter unit 94 and discharge the same upwardly through thepassage 78 into conduit C through which the air flows to discharge from themember 20, as may be seen in FIG. 2. Due to the angular positioning of thepassages 30, the air is distributed substantially evenly around the head for cooling purposes of the welder on which the mask A is mounted.

Two arcuate slots 1 are formed in thefirst side wall 46 on opposite sides of opening 56 and are adapted to be removably engaged by two .l-shaped members 112 that project outwardly from a cylindrical shell 114 shown in FIG. 6. The shell 114 is connected to ahose 116 that extends to a box 1 18 to which air under pressure is supplied through aconduit 120 which leads to a source of fresh air under pressure in an area remote from that in which the welding operation is taking place.

When themembers 112 removably engage the slots 110, the outer edge 1140 of shell 114 are forced into sealing contact with the exterior surface of thefirst side wall 46 adjacent to theopening 56. After the air fromhose 116 enters confined space 50 it flows between blades 52 to pass upwardly through thepassage 78 into conduit C and then discharges through thepassages 30 into the confines of the mask B to not only cool the welders head (not shown) when wearing the mask, but to build up a pressure within the mask that is slightly higher than the pressure of the ambient atmosphere exteriorly to the mask. Due to this positive pressure within the confines of the mask B, the welder wearing the mask may operate in a confined space containing toxic fumes without breathing the same. 7

The air supplied to theconduit 120 must be from an area exteriorly of the confined space in which a welder is operating if the confined space contains toxic fumes. Theconduit 120 not only supplies fresh air to the interior of thebox 118 for a single hose, but for a number ofhoses 116, each of which extends to an individual mask assembly A. Thehose 116 will normally be used only to supply air to the unit D when the mask assembly A is being used in a confined space containing toxic fumes.

I claim:

1. In combination with a welders mask including a forward wall that supports a dark glass panel, a top wall, and twoside walls extending rearwardly from said forward wall, a device for ventilating the interior of said mask, comprising:

a. portable electrically operatable blower means;

b. a flexible air discharge conduit extending from said blower means;

c. an air discharge member located on the rear interior portion of said top wall, said air discharge member connected to said conduit, said air discharge member being provided with a plurality of laterally spaced, longitudinally extending passages for distributing air from said conduit over the head of a welder wearing said mask for cooling purposes, as well as to maintain an air pressure in said mask slightly above that of the ambient atmosphere to prevent entry of toxic fumes into said mask with at least a portion of said passages in angular relationship;

d. means for removably supporting said blower means from the user of said mask; wherein said blower means is encased in a compact box, and said first means comprises a belt worn by said welder to which said box is secured e. means on said box for removably connecting an end of a flexible hose thereto to communicate with the interior thereof which hose extends to a source of fresh air under pressure at a location remote from the area atwhich a welding operation is conducted, with said hose, box, conduit, and discharge member cooperatively supplying fresh air to said mask in sufficient volume that a welder wearing said mask may operate in an atmosphere contaminated with toxic fumes without danger of breathing the latter; and

f. a tubular discharge member on the free end of said hose,

with said discharge member having a plurality of circumferentially spaced, L-shaped prongs projecting forwardly therefrom, and said means comprises a plurality of armate slots formed in a wall of said box around said opening, which slots are capable of being removably engaged by said prongs to support said discharge member from said box in communication with said opening.

Claims (1)

1. In combination with a welder''s mask including a forward wall that supports a dark glass panel, a top wall, and two side walls extending rearwardly from said forward wall, a device for ventilating the interior of said mask, comprising: a. portable electrically operatable blower means; b. a flexible air discharge conduit extending from said blower means; c. an air discharge member located on the rear interior portion of said top wall, said air discharge member connected to said conduit, said air discharge member being provided with a plurality of laterally spaced, longitudinally extending passages for distributing air from said conduit over the head of a welder wearing said mask for cooling purposes, as well as to maintain an air pressure in said mask slightly above that of the ambient atmosphere to prevent entry of toxic fumes into said mask with at least a portion of said passages in angular relationship; d. means for removably supporting said blower means from the user of said mask; wherein said blower means is encased in a compact box, and said first means comprises a belt worn by said welder to which said box is secured e. means on said box for removably connecting an end of a flexible hose thereto to communicate with the interior thereof which hose extends to a source of fresh air under pressure at a location remote from the area at which a welding operation is conducted, with said hose, box, conduit, and discharge member cooperatively supplying fresh air to said mask in sufficient volume that a welder wearing said mask may operate in an atmosphere contaminated with toxic fumes without danger of breathing the latter; and f. a tubular discharge member on the free end of said hose, with said discharge member having a plurality of circumferentially spaced, L-shaped prongs projecting forwardly therefrom, and said means comprises a plurality of arcuate slots formed in a wall of said box around said opening, which slots are capable of being removably engaged by said prongs to support said discharge member from said box in communication with said opening.

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