US3260820A - Magnetic flow switch - Google Patents

Description

July l2, 1966 E. J. OBRIEN, JR 3,260,820

MAGNETIC FLOW SWITCH Filed Sept. 8, 1964 Wy/ www.

United States Patent O 3,260,820 MAGNETIC FLOW SWITCH Edward J. OBrien, Jr., Des Peres, Mo., assignor to The OBrien Corporation, St. Louis, Mo., a corporation of Missouri Filed Sept. 8, 1964, Ser. No. 394,940 3 Claims. (Cl. 200-87) The present invention relates generally to flow switches, and more particularly to a novel, explosion-proof ow switch adapted for use with a wide range of dry and iiuid materials or substances.

There has long existed the need of a sensitive, long-lived explosion-proof ow switch which is adapted for use with both dry materials and fluids. Heretofore, many struc tures have been devised for specific use with a particular material, but in the applicants expe-rience, wider adaptation of such switches is not feasible. Additionally, any flow switches available through patent disclosures or on the market are expensive to construct because of complexity of structure. More important, they are not suitable for operation in dust-filled atmospheres, dust having a tendency to choke the bearings. In the explosion-proof ilow switchfield, commercially acceptable devices are few in number.

Therefore, an object of the present invention is to provide a novel explosion-proof flow switch which satisfies the long-felt above-noted need.

In brief, the present novel explosion-proof flow switch includes a casing in which is sealed a magnetic reed switch. Hingedly suspended from the casing is a paddle Which is engaged by flowing material or substances. A permanentkmagnet is mounted adjacent the hinge for movement toward and away from the casing and enclosed magnetic reed switch for actuation of the latter by the former. Electrical wiring is provided for the switch and adjustable mounting structure is provided for the casing and supported parts.

Therefore, another object is to provide a novel explosion-proof flow switch which is of simple construction, yet is highly effective in responding to a predetermined efiiciency in the llow of material with which the switch is associated.

Other objects are to provide a novel explosion-proof iioW switch which is operationally sensitive, which will continue to operate over a long period of time with substantially no maintenance, which is adjustable in respect to the relationship of the paddle and the opening and closing of the reed switch, which is adjustable in respect to positioning of the llow switch in respect to material with which it is used, which protects the contacts of the reed switch from all dust, which separates the electrical switch one hundred percent from the area of the material thereby avoiding all possibility of explosions caused by sparking of the contact points, and which otherwise fullls the objects and advantages sought therefor.

The foregoing and other objects and advantages are apparent from the following description taken with the accompanying drawings, in which:

FIGURE 1 is a top plan view of an explosion-proof flow switch incorporating the principles of the present invention;

FIGURE 2 is a side elevational view thereof, looking upward in FIGURE l;

FIGURE 3 is an end elevational view thereof, looking from right to left in FIGURE l;

FIGURE 4 is a side elevational view thereof, looking downward in FIGURE l;

FIGURE 5 is an enlarged vertical longitudinal crosssectional view taken on substantially the line 5-5 of FIGURE 1;

FIGURE 6 is an enlarged vertical longitudinal crosslCe sectional view taken on substantially the line 6-6 of FIGURE 2;

FIGURE 7 is an enlarged horizontal cross-sectional view taken on substantially the line 7-7 of FIGURE 2;

FIGURE 8 is an isometric view of a permanent magnet forming part of the present switch;

FIGURE 9 is a plan view of the hinge element; and

FIGURE 10 is a diagrammatic view showing the present novel switch operatively installed in connection with flowing solid materials. k

Referring to the drawings more particularly by reference numerals, 20 indicates generally an explosion-proof llow switch made in accordance with the teachings of the present invention. Broadly, theflow switch 20 includes acasing 22, amagnetic reed switch 24 sealed or potted therein, a union fitting ormounting coupling 26, ahinge member 28, apaddle 30, apermanent magnet 32, and a magnet holder orSupport 34 adjustably mounted on saidpaddle 30.

Thecasing 22 may be of the configuration clearly shown in the drawings and includes a threadedannular extension 36, achamber 38 opening to the outside through abore 40 in theextension 36, and acutout 42. Themagnetic reed switch 24 is disposed in thechamber 38 and is sealed or potted against entry of fluids and solids by anysuitable material 44. Theswitch 24 is of any manufacture and of any selected type, and includes aglass casing 45 normally closed,switch blades 46 and 48 mounted therein andterminals 50 and 52 extending through theglass casing 45 in sealed relation (FIG. 5). The size-of theswitch 24 depends on the particular installation.Suitable wires 54 and 56 lead to theterminals 50 and 52, respectively, through thecoupling 26 which is threaded onto theextension 36 and is internally threaded to adjustably receive a mounting post, or the like, not shown.

Thehinge member 28 is secured to one side of thecasing 22 from which thecutout 42 is formed by means of analuminum strip plate 58 and stainless steel screws 60 (FIGS. 2 and 6). The lower edge of thestrip plate 58 is turned out at 62 to permit thehinge member 28 to move back and forth without a sharp bend effect. Thehinge member 28 may be of neoprene with a nylon insert, an explosion-proof composite structure having long flexing life. It is clear that thishinge member 28 overcomes the dust clogging problem long existing with bearings and the like where the flowing material is grain and the like.

Thepaddle 30, which may be of aluminum as is thecasing 22 andcoupling 26, is secured to thehinge member 28 by analuminum strip plate 64 and aluminum brads orscrew 66. Themagnet holder 34, which is of aluminum and of the conguration clearly illustrated, is removably mounted on thepaddle 30 by an aluminum nutland bolt assembly 68. Themagnet holder 34 is vertically and pivotally adjustable about the nut andbolt assembly 68 to position themagnet 32, the former adjustment by means of aslot 70 in theholder 34. This adjustment allows for close tuning of sensitivity. Adjustment of the magnet in this manner can change the set point and also the span of the instrument. Theholder 34 has achannel 72 formed at the top which receives thepermanent magnet 32, which may be an alnico bar, in clamping engagement against the face of the paddle 30 (FIG. 6). Thepaddle 30 andmagnet holder 34 may take other desired forms.

It will be understood that the flux from thepermanent magnet 32 is effective to close and hold closed theswitch blades 46 and 48 of themagnetic reed switch 24 in the well known manner thereof when themagnet 32 is in a predetermined position in relation to theswitch blades 46 and 48, here illustrated as substantially vertical or depending. Upon movement of themagnet 32 out of o)switch blades 46 and 48 closing range, as by flowing material, the latter open under predetermined bias.

In FIGURE 10, theow switch 20 is shown diagrammatically in respect to a iow of drysolid material 74, as grain, on abelt 76 fed from ahopper 78. Should thehopper 78 clog andmaterial 74 fail to feed onto thebelt 76, thepaddle 30 will move by gravity towards a vertical position. Assuming theswitch blades 46 and 48 as opened with thepaddle 30 in the position of FIGURE 10, they will close as thepaddle 30, due to failure ofmaterial 74, reaches some selected position between that of FIGURE l land a vertical position to shut olf machinery feeding and packaging or otherwise handling thematerial 74. Thepermanent magnet 32 pivots or swings With thepaddle 30. This relationship of closed-openedswitch blades 46 and 48 can be reversed in respect to the positions of thepaddle 30, if desired. As indicated, the several parts, except theswitch blades 46 and 48, are of aluminum or other suitable, substantially nonmagnetic material.

It will be noted that thepaddle 30 is hinged to swing out with material flow even to a horizontal position, which protects theswitch 20 against damage from overowing material.

Two ormore paddles 30 in side by side relation may be employed as parts of aswitch 20. Such structure remains operative should onepaddle 30 become lodged in raised position from some cause. Two ormore switches 24 may also be employed if desirable.

The presentnovel ow switch 20 also will function with flowing fluids to stop associated mechanisms upon diminishing of the cross section of the flowing liquid or of the pressure of flowing gas.

It is apparent that the present novel ow switch fullls the objects and advantages sought therefor.

It is to be understood that the foregoing description and `the accompanying drawing have been given by way of illustration and example. It is also to be understood that changes in form of the elements, rearrangement of parts, and substitution of equivalent elements, which will be obvious to -those skilled in the art, are contemplated as within the scope of the present invention which is limited only by the claims which follow.

What is claimed is:

1. In combination, an explosion-proof flow switch comprising a compact casing, supporting means connected to said casing, a magnetic reed switch sealed within said casing, electrical wires operatively connected to said magnetic reed switch and extending from said casing, a flexible hinge member connected to said casing and extending therefrom, a materials engaging paddle connected to said hinge member and extending therefrom, a permanent ymagnet mounted on said paddle for movement therewith adapted to move the magnetic reed switch in one position thereof, and a magnet holder removably and adjustably trapping said permanent magnet against said paddle for quick removal and adjustment, the magnet holder being adjustable vertically on the paddle to vary the swinging moment.

2. The combination of claim 1 in which said paddle is mounted for pivotal movement through an arc of at least half a circle from a normal operative position in at least one direction of movement, with divergent mouth clamping means connecting the hinge member to the casing to permit said pivotal movement without causing localized sharp bending of the hinge member.

3. The combination ofclaim 2 in which said casing includes a cutout along one longitudinal corner and said permanent magnet is disposed therein when in normal position.

References Cited by the Examiner UNITED STATES PATENTS 1,830,673 11/1931 Noren 20G-81.9 2,307,304 1/1943 Rudd 20G-81.9 2,600,011 6/ 1952 MacDonald et -al 200--84 2,600,309 6/1952 MacDonald et al. 200-87 2,628,296 2/ 1953 Dillman 20G-81.9 3,104,289 9/1963 Segel ZOO-S7 3,148,254 9/1964 Clason 200-81.9

ROBERT K. SCHAEFER, Primary Examiner.

BERNARD A. GILHEANY, Examiner.

B. DOBECK, Assistant Examiner.

Claims (1)

1. IN COMBINATION, AN EXPLOSION-PROOF FLOW SWITCH COMPRISING A COMPACT CASING, SUPPORTING MEANS CONNECTED TO SAID CASING, A MAGNETIC REED SWITCH SEALED WITHIN SAID CASING, ELECTRICAL WIRES OPERATIVELY CONNECTED TO SAID MAGNETIC REED SWITCH AND EXTENDING FROM SAID CASING, A FLEXIBLE HINGE MEMBER CONNECTED TO SAID CASING AND EXTENDING THEREFROM, A MATERIALS ENGAGING PADDLE CONNECTED TO SIAD HINGE MEMBER AND EXTENDING THEREFROM, A PERMANENT MAMGNET MOUNTED ON SAID PADDLE FOR MOVEMENT THEREWITH ADAPTED TO MOVE THE MAGNETIC REED SWTICH IN ONE POSITION THEREOF, AND A MAGNET HOLDER REMOVABLY AND ADJUSTABLE TRAPPING SAID PERMANENT MAGNET AGAINST SAID PADDLE FOR QUICK REMOVAL AND ADJUSTMENT, THE MAGNET HOLDER BEING ADJUSTABLE VERTICALLY ON THE PADDLE TO VARY THE SWITCHING MOMENT.

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