US3178675A

US3178675A - Diagonal teeter terminal clamp

Info

Publication number: US3178675A
Application number: US306488A
Authority: US
Inventors: Charles E Gutshall
Original assignee: Illinois Tool Works Inc
Current assignee: Illinois Tool Works Inc
Priority date: 1963-09-04
Filing date: 1963-09-04
Publication date: 1965-04-13
Anticipated expiration: 1982-04-13
Also published as: GB1073479A

Description

A ril 13, 1965 c. E. GUTSHALL v 3,178,575

DIAGONAL TEETER TERMINAL CLAMP Filed Sept. 4, 1963 INVENTOR. Char as E Gufsh IIBY United States Patent Office 3,178,675 Patented Apr. 13, 1965 3,178,675 DIAGONAL TEETER TERMINAL CLAMP Charles E. Gutshall, Broadview, 111., assignor to Illinois Tool Works Inc., Chicago, 111., a corporation of Delaware Filed Sept. 4, 1963, Ser. No. 306,488 3 Claims. (Cl. 339246) This invention relates to wire clamps or connectors, and more particularly to an electrical terminal clamp or connector to which one or more electrical conductors or Wires may be detachably secured.

There are various conventional Ways of attaching electrical conductors to a terminal. One of the more common ways is to wrap the conductors around the shank of a bolt which is threadably secured to a base plate, and then tighten the bolt so as to clamp the conductors between the bolt head and base plate. Another conventional way is to clamp the conductors between a pair of flat plates which are drawn into contact with the conductors by a clamping member, such as a bolt or the like. Both of these connections have the disadvantage that any slight force applied along the longitudinal extent of the conductor will loosen the connection with the terminal. To overcome this difficulty, several prior art devices have been constructed with relatively complicated structural arrangements for retaining and holding the conductors to increase the mechanical, and thereby the electrical connection of the conductors to a terminal. However, these arrangements may require the use of more parts or material than the above described conventional means, and they may even be unsuitable for attaching conductors of different sizes to the electrical terminal.

It is, therefore, an object of the present invention to provide a terminal clamp which is relatively simple in construction, and which uses a minimum number of parts and amount of material to mechanically restrain electrical conductors of the same or different size from movement in any direction, and thereby insure a good electrical conneciton.

Another object of the present invention is to provide a terminal clamp wherein a flat plate is provided with a diagonal twist or bend to permit longitudinal and transverse clamping of electrical conductors or elongated Workparts of the same or different size to a flat base plate when the twisted plate is forced thereagainst.

Another object of the present invention is the provision of a terminal clamp having a fiat square plate which is deformed on both sides of a diagonal extending between one pair of opposed corners of such plate to accommodate and permit clamping of conductors or elongated workparts of the same or different size to a flat base plate.

A further object of the present invention is to provide a deformed plate in a terminal clamp which will accommodate Wires of different size and permit teetering or tilting of the plate when it is forced into contact with the largest wire or wires, and thus provide a torsional clamping force to the smaller Wire or wires.

Still a further object of the present invention is the provision of a terminal clamp wherein the plate having the diagonal twist may also be provided with opposed downwardly projecting flanges to prevent transverse moving of the workparts which are clamped thereby.

Another ob ect of the present invention is to provide a deformed Plate in a terminal clamp having such a configuration that it will readily permit attachment to the clamping member or bolt which forces such deformed plate into contact with the conductors and against the flat base plate.

Still another object of the present invention is to provide a terminal clamp which is economical, simple and efiicient in construction and use.

Other and further objects and advantages of the present invention will be apparent from the following description when taken in conjunction with the accompanying drawings wherein:

FIG. 1 is a perspective view of a terminal clamp constructed in accordance with the present invention, and showing the relative position of the parts prior to assembly;

FIG. 2 is a perspective View showing the terminal clamp of the present invention in clamped position;

FIG. 3 is a side elevational view of the terminal clamp, partly in section, and showing the relative positioning of the parts in clamped position;

FIG. 4 is a side elevation view of the deformed plate taken along lines 44 of FIG. 7;

FIG. 5 is a side elevation view of another portion of the deformed plate taken along line 55 of FIG. 7;

FIG. 6 is a side elevation view of still another portion of the deformed plate taken along line 6-6 of FIG. 7;

FIG. 7 is a top plan view of the deformed plate of the present invention;

FIG. 8 is a perspective view of another embodiment of the present invention having opposed downwardly projecting flanges;

FIG. 9 is a perspective view similar to FIG. 8, but showing the plate deformed in an opposite direction to that shown in FIG. 8;

FIG. 10 is a side elevational view of the terminal clamp using the embodiment of the deformed plate shown in FIG. 9;

FIG. 11 is a side elevational view similar to FIG. 10 and showing the deformed plate of FIG. 9 engaging a single conductor.

Although the invention is shown and described herein with reference to an electrical terminal clamp for connecting electrical conductors or wires, it Will be understood that it may be employed for connecting any type of elongated objects or workparts.

Referring now to the drawings wherein like numerals have been used to designate similar parts throughout the various figures, one embodiment of the terminal clamp constructed in accordance with the invention is shown in FIGS. 1-3. The terminal clamp generally comprises a pair of spaced-apart clamping plates Zti, 30, and a clamping member or rotary fastener 10 such as a bolt or the like for forcing the plates into contact with a pair of electrical conductors, designated as 52 and 54 in the drawings. The

plates

28 and 30 are preferably formed of an electrical conducting material, such as metal, and are constructed to accommodate the clamping member 10 therein for retaining and holding conductors positioned between the plates in a manner to be described.

The base plate 38 may take any general shape or configuration and may be made integral with a machine or other apparatus. As illustrated in FIG. 1 of the drawings, the base plate 30 is provided with a threaded aperture 32 for receiving the threaded shank 16 of the clamping member 10. The base plate 30 will be formed in such a manner that it will provide conductor or workpart receiving areas on opposite sides of the threaded aperture to accommodate and receive the

conductor

52 and 54.

The co-acting top clamping plate 20 is mounted on the clamping member 10 near the undersurface of the clamping member head 12 and may be a sheet metal stamping if desired. Because of the unique configuration of clamping plate 20,

wires

52, 54 will be restrained against longitudinal and transverse movement when the clamping member 10 forces the plate 20 into contact with the conductors and against the base clamping plate 30. The clamping plate 20 is preferably made in a square shape and is deformed in the vicinity of an imaginary diagonal extending between opposed corners of the plate to provide a downwardly facing concave surface. From an inspection of FIGS. 4-7, it will be evident that the clamping plate 20 is provided with

corners

24, 24a and 26, 26a, and that the clamping plate is deformed in the vicinity of an imaginary diagonal extending between

corners

26, 26a. While the plate 20 will normally be deformed on opposite sides of the diagonal extending between a pair of opposed corners, the plate may be deformed on opposite sides of a diagonal which is adjacent to, but not intersecting one or both of the opposed corner portions.

When the clamping plate is twisted or formed in this manner, it will provide a pair of opposed axially inclined converging portions or turned down

corners

28, 28a. These converging portions will contact and grip the conductors to mechanically restrain them from any longitudinal or transverse movement as will be evident from an inspection of FIGS. 2-3 where the clamping plate 20 holds the wires into contact with the base clamping plate. While the shape of the clamping plate 20 will permit the accommodation of wires of the same size or diameter, it is preferably used in conjunction with wires having varying sizes. In such a case, the clamping plate 20 will perform a unique function of teetering or tilting around the axis of its aperture when the clamping plate is forced into contact with the wire or wires having the largest size. Such a movement will be permitted because of the elliptical opening 22 formed in the clamping plate when it is diagonally twisted or bent, although a slight movement can take place if the opening was thereafter shaped to substantially its original form by compressing the plate between corners 26, 2611.

In application, the

wires

52, 54 will be located on opposite sides of the threaded aperture 32 of base plate 30. The clamping plate 20 is applied to clamping member along the reduced shank portion 14, and the head 12 of the clamping member is rotated by a suitable tool to permit the threaded shank 16 of the clamping member to engage within the threaded aperture 32. In this position, the plates will define parallel workpart or conductor receiving areas therebetween on opposite sides of the clamping member. As the clamping plate 20 is forced towards the base clamping plate 30, it will engage the wire 52 and will preliminarily clamp it in a predetermined position. At this point, the clamping plate 20 will teeter about the axis of its elliptical aperture 22 while remaining forced against the undersurface of the head 12 of the clamping member substantially along its entire extent. Upon further tightening, the clamping plate 20 will maintain the conductor 52 in clamped position and will exert a torsional clamping force on the smaller conductor 54 to force it toward the clamping member. When fully tightened, the clamping plate 20 will not only hold the

conductors

52, 54 from moving longitudinally, by the force applied normal to the axes of the conductors but it will also prevent any transverse movement of such conductors since the particular corner portion of the plate 20 resting atop the largest conductor 52 will grip it from moving in a transverse direction, and the undersurface of one of the converging portions will provide a wedging action against the smaller conductor 54 to fix it in a specific position.

The clamping plate 20 is preferably initially formed in a square shape since it need not then be oriented in any particular manner when it is used for restraining the conductors. When the clamping plate 20 is deformed in the manner shown by FIGS. 4-7, the marginal portions of the same, which include

corners

24, 24a and 26, 26a, will define a periphery when extended to lie within a common plane which will conform substantially to the initial undeformed shape of the clamping plate. The particular shape of the clamping plate 20 is not limited to a square configuration since it will be understood that the same longitudinal and transverse gripping concept of the present invention may be achieved by any suitable configured clamping plate.

In FIGS. 8-11, the clamping plate 40 conforms substantially to the clamping plate 20 previously described in construction and operation except that it has a pair of opposed downwardly projecting

flanges

44, 46 which may be used in the following manner. The flanges may be used either as a conductor restraining means for preventing movement of the conductors in a direction transverse to the axes of the conductors, or because the dimension between the flanges may be made slightly larger than the base plate 30, they may cooperate with the same and limit or restrict the movement of the clamping plate 49. This will be evident from an inspection of FIGS. 10-11 where the clamping plate 40 is substantially similar to the clamping plate 20 as shown in FIGS. 1-3 except that the flanges may be used to engage one or both of the conductors, or may cooperate with the base clamping plate 30 to restrict the movement of clamping plate 40.

Although the present terminal clamp has generally been shown and described as receiving a plurality of conductors of different sizes, it will be understood that the terminal clamp may receive a single wire or a plurality of wires of the same diameter. It will also be evident that the conductors are not limited to the cylindrical shape shown in the drawings, but may be square, polygonal, etc.

To increase the gripping power of

clamping plates

20 and 40, locking serrations maybe formed on their undersurface for grippingly engaging the conductors. Also, the particular shape of

clamping plates

20 and 40 will permit a permanent attachment to clamping member 10 around a reduced shank designated in the drawings by numeral 14 if such is desired.

From the foregoing, it will now be evident that the present invention contemplates a unique, but relatively simple structural arrangement wherein the

top clamping plate

20 or 40 may perform the functions of longitudinally and transversely gripping the conductors against the base clamping plate 30, and permit the clamping plates to teeter about the axis of its aperture should conductors of different size be used, all without having to orient the clamping plate shown in FIGS. 1-7 in any particular position.

The specific details and embodiments disclosed and claimed herein are for illustrative purposes only. Various changes in structure will no doubt occur to those skilled in the art and such changes are to be considered a part of the invention insofar as they fall within the spirit and scope of the appended claims.

The invention is claimed as follows:

1. A resilient clamping device for elongated workparts, and comprising a sheet metal stamping of substantially square-shaped configuration having a substantially centrally located aperture, and fastening means extending through the aperture, said stamping having a diagonal apex substantially coincident with one pair of opposed corners of the stamping and extending therebetween to form a dihedral, with the other pair of diagonally opposed corners extending downwardly from the apex and providing a downwardly facing concave-like surface adapted when positioned to face a complementary clamping surface to provide passageways for the elongated workparts on opposite sides of said aperture and traversing beneath said apex and an opposed pair of edges of the stamping, the portions of the stamping on opposite sides of the apex presenting the said opposed pair of edges thereof to resiliently and aggressively impinge on associated workparts as an incident to compression of the stamping by tightening the fastening means in said aperture toward the workparts.

2. A resilient clamping device as claimed in claim 1, wherein the margins of the stamping between said opposed pair of edges are each provided with a flange extending in the direction of the concave-like surface to provide opposed surfaces to facilitate trapping of the elongated workparts by the stamping when in association with a complementary clamping surface of a width substantially no greater than that of the stamping.

3. In combination with elongated workparts and a clamping plate with a surface against which the workparts are to be clamped, the provision of a sheet metal stamping of substantially square-shaped configuration having a substantially centrally located aperture, and fastening means extending through the aperture and engageable with the clamping plate, said stamping having a diagonal apex substantially coincident with one pair of Opposed corners of the stamping and extending therebetween to form a dihedral, with the other pair of diagonally opposed corners extending downwardly from the apex and providing a downwardly facing concave-like surface facing the said clamping surface to provide passageways for the elongated workparts on opposite sides of said aperture and traversing beneath said apex and an opposed pair of edges of the stamping, the portions of the stamping on opposite sides of the apex presenting the said opposed pair of edges thereof to resiliently and aggressively impinge on the associated workparts as an incident to compression of the stamping by tightening the fastening means into said clamping plate.

References iCited by the Examiner UNITED STATES PATENTS 1,807,462 5/31 Zehnder 339246 X 2,216,740 10/40 Hubbell 339-246 X 2,507,242 5/50 Bost 339-422 X 2,712,123 6/55 Wibell et a1. 339246 2,794,476 6/57 Hanneman 151- 55 3,016,510 1/62 Blonder 339--263 X 3,065,442 11/62 Hubbell et a1 339263 X 3,081,507 3/63 Gribble 339246 X FOREIGN PATENTS 828,865 1/ 52 Germany.

924,460 3 5 5 Germany.

284,976 4/31 Italy.

220, 3 15 1 1/ 42 Switzerland.

JOSEPH D. SEERS, Primary Examiner.

THOMAS J. HICKEY, Examiner.

Claims

1. A RESILIENT CLAMPING DEVICE FOR ELONGATED WORKPARTS, AND COMPRISING A SHEET METAL STAMPING OF SUBSTANTIALLY SQUARE-SHAPED CONFIGURATION HAVING A SUBSTANTIALLY CENTRALLY LOCATED APERTURE, AND FASTENING MEANS EXTENDING THROUGH THE APERTURE, SAID STAMPING HAVING A DIAGONAL APEX SUBSTANTIALLY COINCIDENT WITH ONE PAIR OF OPPOSED CORNERS OF THE STAMPING AND EXTENDING THEREBETWEEN TO FORM A DIHEDRAL, WITH THE OTHER PAIR OF DIAGONALLY OPPOSED CORNERS EXTENDING DOWNWARDLY FROM THE APEX AND PROVIDING A DOWNWARDLY FACING CONCAVE-LIKE SURFACE ADAPTED WHEN POSITIONED TO FACE A COMPLEMENTARY CLAMPING SURFACE TO PROVIDE PASSAGEWAYS FOR THE ELONGATED WORKPARTS ON OPPOSITE SIDES OF SAID APERTURE AND TRAVERSING BENEATH SAID APEX AND ON OPPOSED PAIR OF EDGES OF THE STAMPING, THE PORTIONS OF THE STAMPING ON OPPOSITE SIDES OF THE APEX PRESENTING THE SAID OPPOSED PAIR OF EDGES THEREOF TO RESILIENTLY AND AGGRESSIVELY IMPINGE ON ASSOCIATED WORKPARTS AS AN INCIDENT TO COMPRESSION OF THE STAMPING BY TIGHTENING THE FASTENING MEANS IN SAID APERTURE TOWARD THE WORKPARTS.