This application is the US national stage of International Application No. PCT/EP2009/006522 filed on Sep. 8, 2009.
The present invention relates to a protective cap for a grease nipple or equivalent lubrication point.
Grease nipples are fittings provided on industrial machines that enable additional grease to be supplied to a lubricated moving part of the machine, such as a rolling element bearing. The nipples comprise a nipple head, to which a corresponding grease gun is attached, and a nipple body with a shank that is e.g. screwed into the machine part to be lubricated. To prevent contaminants from clogging up a grease nipple and to prevent their entry into the moving machine part, the nipple head is generally kept covered by a protective cap. In one commercially available type, a first part of the cap fits over and encloses the nipple head, and is removable in order to allow lubrication via the nipple head, while a second part of the cap remains attached to the grease nipple when the nipple head is uncovered. Commonly, the second part of the cap has a hole through which the shank of the grease nipple is inserted, thereby securing the cap to the nipple and preventing the cap from getting lost.
Grease nipples are available in a range of sizes. The diameter of the nipple head can vary, depending on the application and on the size of the grease gun to be used. Furthermore, grease nipples with the same head diameter are available with various shank diameters. Therefore, commercially available caps of the above-described type are usually supplied in sets comprising several pieces in a range of dimensions, whereby the first part of the cap is designed for a particular size of nipple head and the second part of the cap is designed for a particular shank diameter.
Consequently, there is room for improvement in terms of providing a protective cap that is easy to match to various sizes of grease nipple and which lessens the need to carry caps that do not have the right dimensions.
The aforementioned improvement is realized by means of the present invention, which relates to a protective cap for a grease nipple, the protective cap comprising a cap portion with an internal cavity that is shaped to fit over and enclose a nipple head of the grease nipple, and comprising an attachment portion with a first through hole that is attachable around a second part of the grease nipple, whereby the cap portion and the attachment portion of the protective cap are connected by a flexible tether. According to the invention, the attachment portion of the protective cap comprises at least a second through hole with a diameter different from a diameter of the first through hole.
In many applications, the second part of the grease nipple to which the attachment portion of the cap is attached is a shank of the grease nipple. The shank can be threaded or unthreaded. Consequently, one of the through holes in the attachment portion has a diameter that is adapted for a first shank diameter, while another of the through holes has a diameter that is adapted for a second shank diameter. A protective cap according to the invention is thus attachable to grease nipples with a particular nipple head size and different shank diameters.
When the grease nipple has a bulbous head, the attachment portion can also be attached around a corresponding neck part of the grease nipple. Thus, in a preferred embodiment of the invention, one of the through holes in the attachment portion has a diameter that is slightly smaller than a diameter of the grease nipple head, so that this through hole can be stretched over the nipple head, to attach the cap around the neck. Suitably, at least the attachment portion of the protective cap is made from a polymer material that readily allows elastic deformation.
In some embodiments of a protective cap according to the invention, the attachment portion comprises at least a third and a fourth through hole, each having a diameter different from the first and second diameters. This further increases the usability of the inventive cap. A greater number of through holes is also possible. In a particularly advantageous embodiment, the diameters of the through holes are adapted to receive the most common nipple shank diameters for a particular type of grease nipple, thereby enhancing the universal nature of the inventive cap.
In one embodiment of the invention, the attachment portion and the cap portion of the protective cap are manufactured separately and are joined together by means of the flexible tether. In a preferred embodiment, the attachment portion, the flexible tether and the cap portion are formed as a single piece, for example, in an injection moulding process. The advantage of this embodiment is a more economical and straightforward manufacturing process.
In a further development of the invention, the cap portion comprises at least a first and a second internal cavity of different dimensions, whereby the first internal cavity is shaped to fit over and enclose a first size of nipple head and the second internal cavity is shaped to fit over and enclose a second size of nipple head. A greater number of internal cavities is also possible. The advantage of this development is that the inventive cap can be used in combination with grease nipples of different head sizes and different shank diameters, thereby optimizing the cap's universal applicability.
In a still further development of the invention, the protective cap has means for affixing an information label. The cap portion and/or the flexible tether and/or the attachment portion of the protective cap can comprise means for affixing an information label. The information label can simply be an adhesive label that is affixed to an available space on one or more parts of the protective cap. Alternatively, the cap portion and/or the flexible tether and/or the attachment portion can be provided with e.g. a transparent pocket into which the information label is inserted. One advantage of this development is that the protective cap can be provided with information that prevents maintenance errors.
In a still further development of the invention, at least a part of the protective cap is provided with a visual and/or a tactile identifier. In one embodiment, the visual and/or tactile identifier is based on a particular size of nipple head, making it easy to select the required protective cap. Alternatively or additionally, the identifier can be based on a required type of grease or on a corresponding identifier on a particular type of grease gun. For example, the cap portion may have one or more colour codes corresponding to the one or more nipple head sizes which the cap is adapted to fit, while the attachment portion has a colour or a texturized surface which indicates the correct type of grease to be used. Many other types of visual and tactile identifiers are possible. Again, the provision of an identifier enhances maintenance procedures and helps prevent errors.
Thus, a protective cap according to the invention has several advantages, especially in industrial environments where the machinery is provided with grease nipples of different sizes. In the case of conventional caps that fit only one size of nipple, it is common practice to purchase sets of caps in a range of head diameter and shank diameter combinations. These sets will likely include individual combinations of dimensions that are not needed. Waste is therefore reduced by means of a protective cap that fits more than one size of grease nipple.
A protective cap according to the invention has further advantages, which will become apparent from the following detailed description and accompanying figures.
In the following, the invention is described with reference to the accompanying drawings, in which:
a shows a bottom view of one embodiment of a protective cap according the invention;
b shows a cross-sectional view of the same protective cap, taken through line X-X′ in
c shows a bottom view of another embodiment of a protective cap according the invention.
An example of a typical grease nipple is illustrated in
To prevent contaminants entering the grease nipple, it is common practice to keep the nipple head covered with a removable protective cap, part of which remains attached to the grease nipple when the head is uncovered, so that the cap is not dropped or lost. Conventional protective caps of this type are suitable for use on grease nipples with only one combination of head diameter dh and the shank diameter dsh. A protective cap according to the invention, by contrast, can be used on more than one combination of head and shank diameter. One embodiment of the inventive cap is shown in a bottom view in
Also making reference to
According to the invention, the attachment portion 24 incorporates a plurality of through holes, whereby each through hole has a unique diameter. In the embodiment depicted in
In one example of this embodiment, the cap portion 22 is adapted to fit a grease nipple of the type shown in
Taking as an example a grease nipple with a head diameter of 6 mm and a threaded shank of M6 diameter, the attachment portion 24 can therefore be attached to the grease nipple 10 by screwing the threaded shank 14 through the first through hole 26. Alternatively, the first through hole 26 can be stretched over the nipple head 12, such that the protective cap 20 is attached around the grease nipple 10 at the neck 17. Suitably, the protective cap 20 is made from a polymer material such as nylon plastic, which will allow this slight stretching of the through hole. Nylon plastic will also allow the required bending of the flexible tether 25 and will also enable the cap portion 22 to be stretched over the nipple head, if necessary.
Taking as a further example a grease nipple with the same head diameter of 6 mm but with a different threaded shank of M10 diameter, the protective cap 20 can be attached to the grease nipple 10 by screwing the threaded shank 14 through the third through hole 28. A through hole diameter d3 of 9.9 mm is also suitable for a grease nipple with a G1/8 (or R1/8) shank.
In the given example of the embodiment of
Advantageously, the attachment portion 24 is provided with through hole diameters that correspond to the most common shank diameters of a grease nipple with a particular head diameter. The number of through holes can also be adapted accordingly. In some examples, an attachment portion provided with only two through holes is sufficient, when two shank diameters are widely prevalent. In other examples, the attachment portion is provided with five or more through holes with unique diameters as needed.
The through holes 26, 27, 28, 29 can be arranged on the attachment portion 24 in any suitable manner. In one example, the through holes are arranged in a straight line in the longitudinal direction of the cap 20. Suitably, the through holes may be arranged in ascending order of diameter, with the smallest through hole placed closest to the cap portion 22. This linear arrangement enables the width of the cap to be minimized. In a further example, the through holes are arranged in a semi-circular fashion, such that a centre of each through hole is equidistant to a centre of the cap portion 22. This semi-circular arrangement requires less length, but more width. A balance between the length and width requirements of the attachment portion 24 can be obtained by arranging the through holes on a more acute curve or by arranging them in rows, as shown in
In a further development of the invention illustrated in
The protective cap according to the invention has been described with reference to the type of grease nipple illustrated in
A common application of grease nipples is to enable the relubrication of rolling element bearings. To ensure that a bearing reaches its expected service life, it is important that the bearing is lubricated with the right grease and according to the relubrication intervals prescribed by the bearing manufacturer. In machinery plants, it is therefore common practice to provide the lubrication points with information tags on which data such as the required grease type, the amount to be dispensed, the relubrication interval and the date of the last relubrication can be recorded. Often, such information tags are simply attached to a grease nipple.
In a further development of the invention, the protective cap comprises means for affixing an information label on which data such as the above-described can be recorded.
In one embodiment, as shown in
A number of aspects/embodiments of the invention have been described. It is to be understood that each aspect/embodiment may be combined with any other aspect/embodiment. The invention may thus be varied within the scope of the accompanying patent claims.
a and 2b, respectively showing a bottom view and a cross-sectional view of one embodiment of a protective cap according to the invention.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2009/006522 | 9/8/2009 | WO | 00 | 5/11/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/029453 | 3/17/2011 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2599472 | Miller | Jun 1952 | A |
2680497 | Miller | Jun 1954 | A |
2971045 | August | Feb 1961 | A |
3147824 | Henderson | Sep 1964 | A |
3974938 | Steadman | Aug 1976 | A |
4307748 | Mathias | Dec 1981 | A |
4318495 | Wood | Mar 1982 | A |
4706841 | Grajek | Nov 1987 | A |
4842304 | Jones | Jun 1989 | A |
5195561 | Wilson | Mar 1993 | A |
5241982 | Taylor | Sep 1993 | A |
6227399 | Angus et al. | May 2001 | B1 |
7954515 | Gerst | Jun 2011 | B2 |
20050023238 | Wong | Feb 2005 | A1 |
20100147629 | Joss et al. | Jun 2010 | A1 |
Number | Date | Country |
---|---|---|
202004019499 | Apr 2005 | DE |
Number | Date | Country | |
---|---|---|---|
20120217095 A1 | Aug 2012 | US |