United States Patent 1191 Cullen et al. C
1 Nov. 11, 1975 DESICCANT END CAP [73] Assignee: Multiform Desiccant Products, Inc.,
Buffalo, NY.
Primary E.\umiI1erGeorge E. Lowrance Attorney, Agent, or Firm-Joseph P. Gastel [57] ABSTRACT [22] Filed; Ap 1, 1974 A desiccant end cap for mounting on a hollow cylindrical member having an annular flange with a face [21] Appl' 4361,90 portion and an outer annular portion extending transversely thereto comprising a cup-like member having [52] US. Cl 206/204; 312/31 1 an end Portion and an annular Tim extending Substan- [51 rm. c1. 13651) 81/24 tinlly perpendicularly to the end Portion for overlying [58] Field of Search 206/204; 312/31, 31.1 Said Outer portion of Said flange with an interference fit. desiccant container means mounted centrally on [56] References Cit d said end portion for positioning within said hollow tu- UNITED STATES PATENTS bular member, spacer dimples on the end portion of 7 53] 084 l l H 950 S 7 2 said cap for positioning said end portion in spaced re- Q M951 83? lationship to the face portion of the flange, and latch- 2:676:1171; 4/1951 yongiiiiiji iiiijiijjjii: 515/31, ne dimple on end nm for engaging said flange with 2.690.946 10/1954 Roehrl 206/204 holdmg 2.9l5.404 12/1959 T .1 v 312/3111 3.583.596 6/1971 229/43 15 Clam, 8 D'awmg U.S. Patent Nov. 11,1975 SheetlofZ 3,918,578
US. Patent Nov. 11, 1975Sheet 2 0f 2 DESICCANT END CAP The present invention relates to a desiccant end cap used for the purpose of preventing the flange on the end of a wave guide tube from being subjected to the effects of moisture.
By way of background, wave guides used in the electronic industry are fabricated by securing adjacent wave guide tubes to each other in substantially perfect alignment. This securing is effected by placing adjacent flanges on the ends of adjacent tubes in a suitable fixture and thereafter welding the ends of the wave guide tubes to each other. In order to obtain substantially perfect alignment, the flanges have surfaces thereon which are machined to very close tolerances and these surfaces are used as reference areas which are engaged by the fixtures. If the reference areas have scale, corrosion or rust thereon, perfect alignment cannot be effected and therefore the wave guide installation will not function properly. Inaddition, if there is scale, corrosion or rust on the adjacent surfaces of the wave guide tubes which are to be welded to each other, there is the possibility that improper joining will occur.
It is accordingly an important object of the present invention to provide a desiccant end cap for mounting on the flange of a wave guide to protect all portions thereof from the effects of moisture and therefore prevent the formation of scale, corrosion or rust.
Another object of the present invention is to provide a desiccant end cap which can be slipped on and off of the flange of a wave guide in an extremely simple and expedient manner and which, once installed, will remain securely in position until it is purposely removed.
Yet another object of the present invention is to provide a desiccant end cap for the flange of a wave guide which is fabricated in such a manner so that it provides a clearance space between certain portions of the end cap and the adjacent flange so as to permit unimpeded communication between the desiccant carried by the end cap and the various surfaces of the flange.
A still further object of the present invention is to provide a desiccant end cap for a wave guide which is extremely simple in construction and highly reliable in operation. Other objects and attendant advantages of the present invention will readily be perceived hereafter.
The present invention relates to a desiccant end cap for mounting on a member having a face portion and an outer portion extending transversely thereto comprising a cup-like member having an end portion, a rim extending from said end portion for overlying said outer portion of said member, desiccant container means mounted on said end portion, and spacer means for causing said end portion to be oriented in spaced relationship to said face portion to permit communication between said desiccant container means and said face portion.
The various aspects of the present invention will be more fully understood when the following portions of the specification are read in conjunction with the accompanying drawings wherein:
FIG. 1 is a fragmentary side elevational view of a wave guide mounting the desiccant end caps of the present invention at its opposite ends with the end caps being covered by protective boots;
FIG. 2 is a fragmentary cross sectional view taken substantially along line 2-2 of FIG. 1;
FIG. 3 is an enlarged fragmentary cross sectional view similar to FIG. 2 but with the desiccant cup also being in cross section;
FIG. 4 is a cross sectional view of the desiccant end cap taken substantially along line 4-4 of FIG. 5;
FIG. 5 is a plan view of the desiccant end cap looking into the open end thereof;
FIG. 6 is a plan view of the desiccant end cap looking at the outer end thereof;
FIG. 7 is a cross sectional view of a modified type of end cap having an impermeable layer of material secured to the outer end thereof; and
FIG. 8 is a fragmentary cross sectional view ofa modifled form of desiccant container which may be substituted for the constructions shown in FIGS. 1-7.
Thedesiccant end cap 10 of the present invention is adapted to be mounted onflanges 11 which are located at the outer end portions ofwave guide tube 12.Protective boots 13, which form no part of the present invention, are fabricated from a suitable rubber-like plastic material and are shrunk-fitted over flanges llhavingend caps 10 installed thereon.
By way of background,steel flange 11 mounted on steel wave guide"tube 12 includes aface 1'4 having anannular rib portion 15 extending outwardly fromannular portion 16 which has an annular groove 17' therein.Annular rib 15 is flush with the end 17 of thewave guide tube 12.Flange 11 also includes anannular surface 18 which is suitably joined toouter surface 19 ofwave guide tube 12 which has a plastic liner 19' therein. In addition,flange 11. includes an outerannular surface 20 which is machined to a very close tolerance as it is used'as a reference surface during the joining of adjacent flanges of adjacent wave guides, which must be in substantially perfect alignment. Therefore it is mandatory that outerannular surface 20 be kept free of rust, scale, or any other form'of defacing corrosion which could alter its dimensions in any respect, as such alterations could result in an improper alignment between adjacent wave guides. Furthermore, sincesurfaces 15 and 17 are placed in abutting engagement with like surfaces on an adjacent wave guide when they are joined, they must also be kept free of rust, scale or corrosion, in order to insure their proper alignment and their proper joining by a suitable welding process.
The improvedend cap 10 of the present invention protects the end oftube 12, rib l4 and thecritical surface 20 offlange 11 from corrosion and foreign matter which could be deposited thereon.End cap 10 includes a flexible body portion 21 in the form of a shallow cuplike member having a circular substantially planar end portion orpanel 22 with an integralannular rim 23 extending substantially perpendicularly thereto. An outerflared lip 24 is formed at the open end ofrim 23 for guidingcap 10 ontosurface 20 offlange 11. The inner diameter ofrim 23 engagesflange surface 20 with an interference fit so that it is mounted snugly thereon. A plurality ofdimples 25 are circumferentially spaced on the inner surface ofrim 23 for engaging therear side 26 offlange 11 with a latching action to retaincap 10 securely in its installed position. Because of the existence ofdimples 25, if desired,rim 23 need not provide an interference fit but can have an extremely close fit which is not an interference fit. Also, if desired, under certain conditions it may be permissible to rely only on the interference fit to retaincap 10 in its mounted position, in which event dimples 25 may be omitted. Acup 30, which contains asuitable desiccant 29, is centrally mounted on theinside surface 27 ofend panel 22.
In the installed position of cap onflange 11, a clearance space 31 is provided between theinside surface 27 ofend portion 22 and the adjacent surfaces ofrib 14 and tube end 17. This clearance space is provided bydimples 28 which are circumferentially spaced on end portion 21 and are locatedproximate rim 23. As can be seen from FIG. 3, except fordimples 28, there is a clearance between all portions on the inside ofend portion 22 and the outside ofcup 30, on one hand, and the adjacent portions offlange 11 and the end 17 oftube 12, on the other hand. This permits the effect of thedesiccant 29 withincup 30 to be unrestrictedly communicated to clearance space 31 to thereby maintain the end surface offlange 11 exposed to a continual drying action. As noted above, the only areas of contact betweencap 10 andflange 11 are atrim 23 and atdimples 28. However, because of the fact thatrim 23 anddimples 28 are made out ofa material which is permeable, the desiccating effect ofdesiccant 29 is also communicated through therim 23 to flange surface and throughdimples 28 to the portions ofsurface 16 underdimples 28. Bead silica gel has been found preferable for use as desiccant 29. However, other natural or synthetic desiccants such as granular silica gel, molecular sieve in the form of granules, beads or pellets, montmorillonite, or calcium sulphate are also suitable.
Desiccant cup 30 includes anend wall 32 and atapered side wall 33 which merges into anannular flange 34 which is secured tosurface 27, as by ultrasonic sealing, solvent welding, or suitable adhesive. Taperedside wall 33 aids in guidingcap 10 during installation. In thisparticular case container 30 is fabricated from cellulose acetate propionate and cup member 21 is fabricated from cellulose acetate butyrate, which is transparent. However, other materials may be used. As noted above, while the material from which cup member 21 is made is permeable so that the absorbing effect of the desiccant can be communicated tosurface 20 and the portions ofsurface 16 against which dimples 28 abut, it is less permeable than the material ofcup 30 so as to restrict the transmittal of ambient moisture therethrough. As can be seen from FIG. 3, whenend cap 10 is in position, it will protect the various covered and confined surfaces which must be protected. In addition,cap 10 may also be removed so as to permit access to the flange or thetube 12, as required. Thus,cap 10 not only provides a desiccating effect during long term storage but it also functions as a short-term desiccant and a dust cover during the time that the wave guide is in the plant during fabrication.
Acard 36 is positioned withincup 30 againstsurface 27 and is visible through the transparent material from which cup member 21 is fabricated so that the color of thecobalt chloride spot 37 may be compared with the color ofpanel 38 for the purpose of determining the activity of the desiccant incup 30.
It is to be noted that there is a double layer of material, namely,flange 34 and end portion 21 opposite wave guide 17 so that this material acts as a cushion to prevent marring of end surface 17 in the event that the outer surface of end panel 21 is engaged by a foreign object.
As can be seen from FIG. 2, when theprotective boot 13 is shrunk into place, it deforms the flaredlip 24, this being possible because of the fact that the plastic from which rim 23 is fabricated is flexible, as noted above.
The wall thickness of cup 21 is 0.040 inches and the wall thickness ofcup 30 is 0.004 inches.Dimples 25 and 28 are hemispherical and have an outer radius of about 0.030 inches. The fact that cup 21 is relatively thick as compared tocup 30 also contributes to a slower rate of permeability through cup 21. If desired, the outside surface ofend portion 22 of cup 21 may be painted with an impermeable paint to reduce its permeability.
In FIG. 7 an alternate embodiment of the present invention is disclosed. This embodiment which is designated l0 differs from the embodiments of FIGS. l-6 in that cap member 40 is suitably formed of one piece of material so as to provide a taperedfrustoconical cup portion 41, anannular front portion 42, and arim 43.Rim 43 has dimples 25' which are analogous todimples 25 described above. In addition, dimples 28' are provided which are analogous todimples 28 described above. However, to complete the end cap, an impermeable transparent circular planar disc ofmaterial 44 is applied across the end ofcap 10 and is attached to annular surface by any suitable means such as ultrasonic sealing, solvent welding, or a suitable adhesive. The fact thatdisc 44 is impermeable cuts down on the exposure of thedesiccant 45 to the area outside oftube 12. An indicator card 36', which is analogous toindicator card 36 of FIG. 8, is secured to the inside surface ofdisc 44.
In FIG. 8 a still further embodiment of the present invention is disclosed. This embodiment is essentially the same in all respects as the embodiment of FIG. 7 except that thedesiccant cup 41 includes a plurality ofapertures 47 in theend surface 48 thereof and a porous retentive barrier, namely, a piece offelt 49 covers these apertures to prevent the desiccant 45 from falling out. With the construction of FIG. 8 there is a greater permeability or an improved water vapor transmission rate throughcup 41 than is obtainable with the cups of FIGS. 1-7 which are not perforated.
It can thus be seen that the improved end caps of the present invention is manifestly capable of achieving the above enumerated objects and while the preferred embodiments of the present invention have been disclosed, it will be appreciated that the present invention is not limited thereto but may be otherwise embodied within the scope of the following claims.
What is claimed is:
l. A desiccant end cap for mounting on a member having a face portion and an outer portion extending transversely thereto comprising a cup-like member having an end portion, a rim extending from said end portion for overlying said outer portion of said member, desiccant container means mounted on said end portion, and spacer means for providing an effective clearance space between substantially said entire end portion and said face portion to permit effective communication between said desiccant container means and substantially said entire face portion.
2. A desiccant end cap as set forth in claim 1. including securing means on said rim for securing said end cap to said member.
3. A desiccant end cap as set forth in claim 1 wherein said rim includes an outwardly flared end portion for guiding said rim onto said outer portion of said member.
4. A desiccant end cap as set forth in claim 3 including securing means on said rim for securing said end cap to said member.
5. A desiccant end cap as set forth inclaim 4 wherein said securing means comprise spaced dimples extending inwardly from said rim.
6. A desiccant end cap as set forth in claim 1 wherein said end portion merges into said desiccant container means which comprises a cup portion which is formed integrally with said end portion, and panel means secured across said end portion as a cover for said cup portion.
7. A desiccant end cap as set forth in claim 6 wherein said panel means extends substantially entirely across said end portion and causes said end portion to be relatively impermeable.
8. A desiccant end cap as set forth in claim 1 wherein said desiccant container means comprises cup means on said end portion, desiccant means in said cup means, aperture means in said cup means for increasing the permeability of said cup means, and porous retentive barrier means covering said aperture means for preventing said desiccant means from passing through said aperture means.
9. A desiccant end cap for mounting on a member having a face portion and an outer portion extending transversely thereto comprising a cup-like member having an end portion, a rim extending from said end portion for overlying said outer portion of said member, desiccant container means mounted on said end portion, and spacer means for providing a clearance space between said end portion and said face portion to permit communication between said desiccant container means and said face portion, said spacer means comprising spaced dimples extending inwardly from said end portion toward said face portion.
10. A desiccant end cap as set forth in claim 9 wherein said desiccant container means comprises cup means mounted on said end portion.
l1.'A desiccant end cap as set forth inclaim 10 wherein said end portion is substantially planar.
12. A desiccant end cap for mounting on a member having a face portion and an outer portion extending transversely thereto comprising a cup-like member having an end portion, a rim extending from said end portion for overlying said outer portion of said member, desiccant container means mounted on said end portion, spacer means for providing a clearance space between said end portion and said face portion to permit communication between said desiccant container means and said face portion, securing means on said rim for securing said end cap to said member, said securing means comprising first spaced dimples extending inwardly from said rim, and said spacer means comprising second spaced dimples extending inwardly from said end portion toward said face portion.
13. A desiccant end cap as set forth inclaim 12 wherein said desiccant container means comprises cup means mounted on said end portion.
14. A desiccant end cap for mounting on a member having a face portion and an outer portion extending transversely thereto comprising a cup-like member having an end portion, a rim extending from said end portion for overlying said outer portion of said member, desiccant container means mounted on said end portion, and spacer means for providing a clearance space between said end portion and said face portion to permit communication between said desiccant container means and said face portion, said rim being permeable and of a size to engage said outer portion of said member, whereby the effect of said desiccant is communicated to said outer portion through said clearance space and through said permeable rim.
15. A desiccant end cap as set forth inclaim 14 wherein said rim is of a size to engage said outer portion with an interference fit.