Wiping device

An apparatus for wiping lenses or the like to clean them includes a wiping means for wiping a lens and a support means for supporting the wiping means in operative relation. Adhesive means may be used to attach the wiping means to the support means. Respective support means may be connected by a force fit frictional engagement of a protruding member in a receptacle associated with respective support means. A pair of support means may have respective heads for holding respective wiping means in operative relation; one of the heads may be concave and the other convex with respect to a plane therebetween. Moreover, means to facilitate manual grasping of the apparatus for convenient use also may be provided as part of the support means. A cleaning material or the like may be provided in the wiping material. A break-away locking mechanism holds the support means in parallel positional relationship for ordinary use, and in response to application of adequate force, the break-away locking mechanism releases to permit relative rotation of the two support means.

TECHNICAL FIELD 
The present invention relates generally to wiping devices, more particular 
to devices for wiping lenses, and in the preferred form to an apparatus 
for wiping eyeglass lenses to clean them. 
BACKGROUND OF PRIOR ART 
Users of eyeglasses often are disturbed by dirt, water, e.g. from rain, or 
the like that accumulates on the lenses and by the need occasionally, and 
sometimes all too frequently, to clean the lenses. Typically users of 
eyeglasses clean the lenses by wiping with a paper towel, tissue, 
handkerchief, other cloth, and sometimes with a special wiping cloth 
intended for eyeglass lenses. Such prior wiping means usually are not as 
clean as they should be because of the manner in which they are stored or 
otherwise are used, and, therefore, when used do not fully clean eyeglass 
lenses. Also, a satisfactory and clean wiping device is not always 
conveniently available when needed to wipe lenses. 
Several U-shape wiping devices have been developed in the past for wiping 
eyeglass lenses. Such devices typically include a pair of interconnected 
resilent supports on which wiping material is mounted. The supports may be 
separated or allowed to separate to permit a lens to pass between the 
wiping material, and the device may be resiliently deformed to urge the 
wiping material into engagement into the lenses to wipe them. There are a 
number of disadvantages encountered with such prior devices which the 
present invention is intended to overcome. For example, in some prior 
devices abrasion of the lenses may occur, and in others the wiping 
material may too easily become dirty. Moreover, some of such prior devices 
are relatively expensive. 
BRIEF SUMMARY OF INVENTION 
As it is described herein, the preferred embodiment of the present 
invention relates to an apparatus for wiping eyeglass lenses. It will be 
appreciated, however, that the invention may be used for wiping other 
types of lenses and the like. 
Fundamentally and in accordance with the invention there is provided an 
apparatus for wiping lenses or the like to clean them, and such an 
apparatus is adaptable to wipe simultaneously opposite sides of a lens or 
the like or may be pivotably opened to wipe a single surface. The 
apparatus includes wiping means for wiping a lens and support means for 
supporting the wiping means in operative relation to effect such cleaning. 
According to one aspect of the invention adhesive means attaches the 
wiping means to support means, and according to another aspect a tapered 
connector arrangement provides a force fit frictional interconnection for 
holding a pair of support means to place the wiping means in operative 
relation. According to an additional aspect the support means includes a 
pair of relatively large head portions to which respective wiping means 
are rotatably coupled, and the head portions are respectively concave and 
convex relative to a plane therebetween or at least one of the head 
portions is so curbed. According to a further aspect an enlarged body 
portion and ribs at one end of the support means facilitate secure manual 
grasping of the apparatus for use. 
With the foregoing in mind a primary object of the present invention is to 
improve wiping devices and, more particularly, to improve eyeglass wiping 
devices. 
An another object is to facilitate cleaning lenses and, more particularly, 
eyeglass lenses. 
An additional object is to keep clean the wiping surfaces of wiping 
material used in a device for wiping lenses. 
A further object is to avoid abrasion of lenses by a wiping device 
therefor. 
Still another object is to improve the wiping characteristics of a device 
for wiping lenses, especially to clean such lenses. 
Still an additional object is to facilitate connecting supports of wiping 
material in an apparatus for wiping lenses. 
Still a further object is to facilitate the manual grasping and use of a 
device for wiping lenses. 
Even another object is to reduce and preferrably to minimize the cost for 
an eyeglass wiping device. 
Even an additional objection is to provide an eyeglass wiping device that 
can be carried in a purse, pocket or the like ready for use at virtually 
any time, to provide such a device that remains relatively clean ready for 
use at virtually any time, to avoid dirtying or otherwise disturbing the 
medium in which the device is carried, as well as to enable relatively 
facile cleaning of the wiping material of such apparatus. 
These and other objects and advantages of the present invention will become 
more apparent as the following description proceeds. 
To the accomplishment of the foregoing and related ends, the invention, 
then, comprises the features hereinafter fully described in the 
specification and particularly pointed out in the claims, the following 
description and the annexed drawings setting forth in detail a certain 
illustrative embodiment of the invention, this being indicative, however, 
of but one of the various ways in which the principles of the invention 
may be employed.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring in detail to the drawing, in FIGS. 1-5 an eyeglass wiping device 
according to the invention is shown at 1. The device 1 includes upper and 
lower parts 2,3 which are interconnected mechanically by a connector 4. 
Each of the upper and lower parts 2,3 includes wiping material 5,6 and 
support means 7,8 that support the wiping material and that are coupled by 
the connector 4 to hold the wiping material in relationship operatively to 
wipe a lens placed therebetween. 
The device 1 includes a wiping portion 10 which is used to wipe a lens and 
enlarged body portion 11 which is constructed in a manner to facilitate 
manual grasping of the device 1 and manipulation thereof to wipe a lens or 
the like. The wiping portion 10 also may be designed to facilitate manual 
grasping of the overall device 1. The enlarged body portion 11, 
accordingly, includes a pair of enlarged bodies 12,13 at ends of the 
support means 7,8 remote from the wiping portion 10. The enlarged bodies 
12,13 may be of a size that conveniently fit into the hand of the user, 
such as in the palm of the hand while the thumb and forefinger of the hand 
extend toward and possibly over at least part of the wiping portion 10. 
Furthermore, the enlarged body portion 11 includes smoothly curved rib 
surfaces 14,15, which with the spacing and arrangement of the support arms 
18,19 relative to each other and to the enlarged body portion 11 
facilitate secure manual grasping of the device 1. Preferably the edges or 
corners of the device that are exposed to a hand of a user are smoothly 
curved to avoid concentrated pressure or force that might cause discomfort 
to a user or tearing of the user's clothing. 
The connector means 4 is located at the enlarged body portion 11. The 
connector means includes a protruding generally cylindrical member 20 seen 
in FIGS. 1-4 which extends upwardly from its base area 20' adjacent and 
coupled to the enlarged body 13 of the lower part 3 of the device 1. The 
protrusion member 20 is stepped, including rounded protrusions 21,22 where 
the major extent of the member 20 leaves or protrudes from the body 13. 
The members 20 (20 primarily referring to the longer part or protrusion 
portion), and 21,22 also may be tapered, being wider near the base 20'; 
and the stepped protrusion portions 21,22 are of lower height that the 
protrusion 20. 
The connector means 4 also includes a receptacle or socket 25 in the 
enlarged body 12 of the uper part 2 of the device 1. The receptacle 25 is 
of a size and configuration adapted to receive the members 20-22 in close 
fitting intimate relation in the manner illustrated in FIG. 2, and it is 
closed on all four sides and at one end to prevent access to the member 20 
that would otherwise too easily permit separating of the bodies 12,13. To 
assure strength and security of the connection between members 20-22 and 
receptacle 25, preferably at least one, and preferably the members 20-22, 
are tapered so that a reasonable amount of force is required fully to 
insert the protrusion(s) into the receptacle and so that the frictional 
retention of the same will be adequate to avoid unwanted separation of the 
parts 2,3 after they have been assembled in the manner shown in FIG. 2. 
The receptacle 25 is stepped (FIGS. 2, and 5-7) with shallow areas 26a-26d 
and deep area 27. The deep receptacle area 27 is cylindrical and permits 
secure interfit with protrusion 20 while still permitting rotation about 
the common axis of such cylindrical area 27 and protrusion 20. The shallow 
areas 26a,26b are at opposite sides of the body 14 in a line with the deep 
area 27 like the line 23 (FIG. 3) to receive inserted therein the stepped 
protrusions 21,22 when the protrusion 20 is fully inserted into the deep 
area 27. The areas 26a,26b are near sides of the body 12 so that the 
linear extent of the bodies 12,13 must be aligned as shown in FIGS. 1 and 
2 or as shown in FIG. 9 to make connecting use of the areas 26a,26b. 
Additionally, the pair of shallow recesses 26c,26d are in a line with each 
other and recess 27 at 90 degrees relative to the first mentioned line to 
function as the areas 26a,26b to hold a connection of the members 2,3 at 
right angle relation as shown in FIG. 8. The stepped protrusions 21,22 and 
the recesses 26a-26d may be tapered to facilitate separating the 
connection therebetween and rotation of the bodies 2,3 while preferably a 
substantial extent of teh protrusion 20 remains in receptacle 27 to 
maintain a physical connection between the bodies 2,3. 
As an example, as is seen in FIG. 4, the member 20 is tapered approximately 
one degree from the normal to the surfaces of the enlarged body portion 13 
from which the member protrudes. Such taper is on both sides of the member 
20, although it may be only on a single side, if desired. Also, if 
desired, the receptacle itself may be tapered from a relatively wide 
opening into which the member 20 is inserted down to a relatively narrower 
bottom 28, while the sides of the member 20 are parallel to each other, 
this arrangement also providing the good force fit inter-engagement of 
such connector means 4. 
The bodies 12,13 and connector means 4, as well as the support arms 18,19, 
are of a design and construction that facilitate injection molding thereof 
using relatively minimum amount of material, on the one hand, to 
manufacture the device 1, while, on the other hand, providing secure 
support for the wiping portion 10 of the device 1, strength of connection 
of the upper and lower parts 2,3 and facility of use of the device. Also, 
only a minimum number of parts are required to form the connector means 4. 
Curved, tapered ribs 28,29 along support arms 18,19 strengthen the latter 
while minimizing quantity of material required for the support means 7,8. 
Although the plan view width, as is seen in FIGS. 2, 3 and 5 of the 
enlarged bodies 12, 13 and support arms 18, 19 of the support means 7,8 
are relatively narrow to minimize the material required to make the same, 
to minimize the cost for the same, to minimize the weight of the same, and 
to facilitate manual holding of the device 1, the plan view dimension of 
the holder heads 30,31 of support means 7,8 is of a relatively large size 
to maximize the quantity of wiping material 5,6 in the device 1 and, more 
particularly, to provide relatively large wiping surfaces 32, 33 of such 
material for wiping the respective surfaces of a lens. The holder heads 
30, 31 of the support means 7, 8 are circular in plan view to enable use 
of circular wiping material 5,6 that relatively easily can wipe all 
portions of a lens which usually will not have sharp corners. The curved 
plan of the holder heads 30, 31 also avoids any sharp edges that might cut 
the material of a pocket or other container for the device 1 and also 
avoids the possibility of injury to a user by a sharp cornered device. The 
holder heads 30, 31 also have upstanding circumferential lips 34, 35, 
respectively about the respective edges of each platform 36, 37 of the 
holder heads generally confining the wiping material 5,6 within the 
circular boundaries of such edges or lips. On the other hand, the edges 
34, 35 are relatively widely spaced from each other i.e. having a shorter 
height or vertical dimension than the thickness or vertical dimension of 
the wiping material 5,6, in order that a substantial quantity of wiping 
material will not be rigidly confined thereby so as to permit relatively 
facile deformation of the wiping material by a lens inserted between the 
surfaces 32, 33 thereof. 
The surfaces 32, 33 of the wiping material 5,6 preferably are mounted in 
the holders heads 30,31 in a manner such that those surfaces are in direct 
abutting confrontation with each other most preferably along a plane 
identified as 40. The material 5, 6 most preferably has a resilient 
characteristic and preferably has a free form vertical dimension, i.e. 
when unsupported by respective holder heads 30, 31, greater than the space 
provided therefor between the respective platforms 36, 37 in the device 1 
so that such wiping material 5, 6 will be under at least a slight 
compression with the surfaces 32, 33 engaged. Such slight compression 
reduces the possibility of dirt having access to and accumulating on the 
surfaces 32, 33 while the resilient nature of the material 5, 6 still is 
adequate to enable a lens to be inserted along the plane 40 to be wiped on 
both surfaces of the lens by the respective surfaces 32, 33 of the wiping 
material. The plan dimension or cross-section of the platforms 36, 37 and 
of the surfaces 32, 33 is such that ordinarily it would be somewhat 
smaller than the smallest diameter dimension of the ordinary eyeglass lens 
so that the lens may be inserted between the surfaces 32,33 in the device 
1 and then the device 1 may be manipulated to cause those surfaces to wipe 
over the lens surfaces, preferably cleaning the same. Alternatively, in an 
event that the plan or a cross-section dimension of the surfaces 32, 33 
exceeds that of a lens intended to be cleaned thereby, such lens still may 
be cleaned by the device 1, due to the resilient nature of the wiping 
material 5, 6 that may overlap the lens frame or other means used to hold 
the lens while it is moved between the surfaces 32, 33 engagement with 
portions thereof. 
Preferrably the platform 36 of the holder head 30 is convex with respect to 
the plane 40 and the platform 37 of the holder head 31 is concave with 
respect to the plane 40 in order to match the usual shape of most eyeglass 
lenses which ordinarily have a concave surface and a convex surface. 
Usually the device 1 would be placed on an eyeglass lens to wipe the same 
in a manner such that the convex surface of the lens would engage the 
wiping material surface 32 so as to be generally parallel with the convex 
platform 36 that provides a generally uniform pressure against the lens 
during the wiping, then; and the concave surface of the lens would be 
placed in engagement with the wiping surface 33 so that such lens surface 
is parallel to the concave platform 37 which generally causes the wiping 
material surface 33 to apply approximately uniform pressure to such lens 
surface. The exterior portions of the respective convex and concave 
platforms 36, 37 also tends to facilitate manual grasping of the device 1. 
A guide rail 37' partially about the platform 37 helps position and secure 
the wiping material 6 on such platform since the convex curve thereof 
minimizes the effective height of the lip or edge there. 
The wiping material 5, 6 is preferably formed of sponge or sponge-like 
material. Such material may be natural or synthetic. The preferred 
material is Scottfelt No. 4900 made by the Scott Paper Company which is 
anopen cell foam material. In one embodiment it has been found that a 
sponge material comprised of polyester and cotton, such a material being 
made by Rubbermaid Manufacturing Co., is a satisfactory choice of wiping 
material. A purely synthetic wiping material, for example a sponge made 
exclusively of polyester material, that is hard enough to effect a good 
wiping and is absorbent enough to wipe any moisture from the lens 
surfaces, also would be satisfactory. However, the hardness or 
abrasiveness of the wiping material should be minimized to the extent that 
it, of course, would be undesirable to scratch a lens during wiping 
thereof. The convex and concave platforms 36, 37, though, help to avoid 
the possibility of such a scratching. Moreover, to attach the wiping 
material 5, 6 to the respect platforms 36, 37 adhesive material applied 
directly or indirectly to the surface of the material 5,6 remote from the 
wiping surfaces 32,33, as is represented at 41, 42, may be employed. The 
adhesive material may permit the wiping material to be replaced, with 
other or cleaner material if desired, although in the preferred embodiment 
cleaning of the wiping material is possible so that replacement ordinarily 
would not be necessary. 
Usually the vertical dimension or spacing of the respective holder heads 
30, 31 would be preset according to the structural dimensions of the 
device 1 and the various portions thereof so that there is the desired 
resilient pressure between the surfaces 32, 33 without there being a need 
for resilient deformation of the support means 7, 8 during a wiping 
action. This presetting of the spacing between the holder heads and, thus, 
of the pressure of the surfaces 32, 33 against each other and, more 
specifically, against the surfaces of the lens, assures that a relatively 
controlled pressure will be exerted against such lens surfaces. It has 
been found that too great a pressure being exerted against the lenses not 
only may damage them, but also results in a less effective cleaning than a 
lighter, but controlled pressure would effect. However, if desired, the 
support arms 18, 19 and/or other portions of the respective support means 
7, 8 may be made resilient to enable manual control of such wiping 
pressure. Also, to maintain the rigid strength of the support arms 18,19 
and to help hold the present spacing of the platforms 36,37, strengthening 
ribs 43,44 may be provided at the junction of the bodies 12,13 and the 
support arms 18, 19. 
Ordinarily after the upper and lower parts 2, 3 of the eyeglass wiping 
device 1 have been assembled in the manner illustrated in FIG. 1, such 
device is ready for use to wipe eyeglass lenses or the like. It is 
preferred that the connector means 4 not be disassembled, for in that case 
the strength of subsequent connections would be diminished; however, if 
desired, for example for cleaning the wiping material 5, 6 or for 
replacing the same, such a parting at the connector means 4 may be 
permitted, depending on the strength of the connection there. 
In using the eyeglass wiping device 1, a person would in one hand hold a 
pair of eyeglasses with the temple legs pointing away from the person. The 
device 1 would be held in a manner such that the upper and lower convex 
and concave platforms 36, 37 are parallel with the corresponding upper and 
lower convex and concave surfaces of the eyeglass lenses. One lens of the 
pair of eyeglasses would be placed between the wiping material 5, 6 
generally along the plane 40 and the user may wipe the entire lens 
preferably with linear motion until the lens becomes satisfactorily clean. 
This step may be repeated for the other lens of the eyeglasses. 
If the wiping material 5, 6 were to become excessively dirty, they may be 
washed with a constant flow of warm water thereover. The material 5, 6 may 
be dried by squeezing them together releasing excess water and, 
thereafter, a paper towel may be placed therebetween to absorb any water 
residue. 
If desired, a small quantity of cleaning solvent or material may be placed 
in or near the center of each surface 32,33 of the wiping material 5,6 or 
even throughout such wiping material to assist in cleaning eyeglass 
lenses, for example. An example of such cleaning material may be one or a 
combination of silicone materials, such as, for example SF-1173 (a 
silicone cleaning agent) and/or Visocil (a silicone polishing and 
defogging agent) both sold by General Electric Company. The ratio of such 
materials may be varied depending on the desired relative amount of 
cleaning and/or polishing to be accomplished. 
The device 1 also may be used in an open mode by pivoting the bodies 12,13 
to the 90 degree or 180 degree positions shown, respectively, in FIGS. 8 
and 9. When in the 90 degree position of FIG. 8, the stepped protrusions 
21,22 lock into recesses 26c,26d; in the 180 degree position the 
protrusions 21,22 lock into the recesses 26b,26a, respectively. Such 
locking in both the open modes of FIGS. 8 and 9 and closed mode of FIGS. 1 
and 2, for example, prevents separation of the parts 12, 13 during sue and 
also facilitates secure manual grasping and manipulation of the device 1. 
In the open modes, the device 1 may be used to wipe camera lenses, large 
surfaces that otherwise could not or could not conveniently fit in the 
device 1 in the closed mode. 
The stepped protrusion/recess arrangement of the connector mechanism 4 not 
only provides multiple locked positions, but also facilitates break away 
opening of the device 1 from any one of the locked positions shown to an 
unlocked condition. For this purpose, the stepped protrusions 21,22 and/or 
the shallow recesses 26a-26d may be slightly tapered to urge the bodies 
12,13 away from each other when twisting force is applied to the device 1 
tending to rotate the bodies 12,13 in opposite directions about the axis 
(passing through ad parallel to the protrusion 20 and recess 27) of 
rotation of the device 1. However, the protrusion 20 ordinarily remains in 
the recess 27 during such relative rotation to maintain the bodies 12,13 
linked together. After the bodies have been rotated to the desired 
position, though, they may be urged toward each other along such 
rotational axis to lock the stepped protrusions 21,22 into a respective 
pair of recesses 26a-26d. 
STATEMENT OF INDUSTRIAL APPLICATION 
With the foregoing in mind it will be clear that the wiping device 1 may be 
used to wipe eyeglass lenses or other surfaces to remove dirt and the like 
.