GB2129481A - Clip for fixing electric cables - Google Patents

Abstract

The clip comprises a block-like body 12 of moulded plastics material with a pair of cylindroconical bores 14 each adapted to receive a pointed fixing pin 16 therethrough and a plurality of recesses 26, 28 of different sizes in the bottom face of the body to accommodate different sized cables. Each pin 16 has a frustoconical end with an included angle which is less than the included angle of the frustoconical portion of the cylindroconical bore 14. Around the open end of each bore is an impact absorbing ring 36, which is of the same material as the body 12 and is adapted to absorb by crushing on impact excess energy that the tool used to drive the pins may contain. The body 12 has each bore disposed within a freely depending sleeve 46 to permit the axis of the pin 16 and bore 14 to shift or deflect to permit the pointed end of the pin to avoid a substantially impenetrable piece of aggregate in the concrete into which the pin is driven. <IMAGE>

Description

SPECIFICATION Clip for fixing electric cables or other elongated articles The present invention relates generally to clips for clamping wires, cables, or other elongated articles to supporting surfaces.

Clips for this purpose have been known and utilized with varying degrees of effectiveness. The various improvements constituting this invention were the results of attempts to overcome problems incurred by the clip disclosed in our U.S.

Patent No. 4 127 250. Other prior art includes cable clips comprising staples having a lining of compressible bridge material.

Except for the device disclosed in the above U.S. Patent, there are no known cable clips adapted to be used on many different supporting surfaces, including concrete. The particular problems in fastening a cable clip to concrete are different from those which are encountered in fastening to surfaces which have less structural integrity. The clip described in the above U.S.

Patent answered the overall problem of a multipurpose clip by providing a plastics block, of a very durable material such as Lexan polycarbonate, with a recess crossing one surface adapted to receive and clip to a wire and a pair of hardened steel pins suited to being struck by a hammer and driven into a support surface such as concrete.

The problems that occur with the prior art clips include: (1) the plastics block often being broken due to too much energy being imparted thereto by the tool used to drive the pins; (2) the block only being capable of fixing a single size of wire or cable; (3) the block breaking when one pin had been driven into concrete and as the second pin was driven it encountered a substantially impenetrable piece of aggregate and attempted to avoid it; (4) the block not being seated flush with the support surface because of spalling of the concrete as the pin began its penetration with the problem being compounded by the downward extrusion of the plastics block by the pin; (5) the block damaging the support surface when the surface is of a lesser structural integrity due to the large impacting force necessary to drive the pins through the block.

The specific examples of the clips in accordance with the present invention subsequently described overcome these problems as explained later.

According to one aspect of the invention, a clip adapted to fix at least one of a plurality of elongated articles such as electric wires or cables of predetermined sizes to a support surface comprises a body portion and fastening means for fixing said body portion to said support, said body portion including a first side adapted to engage said support surface and a second substantially exposed side, at least two recesses which are formed in said first side and each of which completely traverses said first side in a predetermined direction, at least one bore which is adapted to receive the fastening means and is substantially perpendicular to and offset from the longitudinal axis of each of said recesses, said fastening means including a first substantially pointed end and a second portion adapted to be impacted by a tool, each of said recesses being adapted to receive and position an elongated article of a cross sectional dimension different from the cross sectional dimension of the elongated article received by the other of said at least two recesses.

The clip preferably also or alternatively includes some or all of the following features:~ (1) an impact absorbing ring, which crushes on impact, for absorbing the excess energy of the tool used to drive a fastening device in the form of a pin; (2) a plurality of recesses for holding various sizes and configurations or wire or cable; (3) a provision for permitting the point of the pin to deflect in the body portion to avoid a substantially impenetrable object, e.g., a piece of aggregate in concrete;; (4) a cylindoconical bore that has a different included angle in a frustoconical portion thereof relative to the included angle of a frustoconical portion of the pin to permit the plastics material of which the body portion is preferably made directly in line with the end of the cylindroconical bore to extrude upwardly around the pin as it is driven to thereby provide a compaction of the area of the support surface where the pin penetrates; (5) predriving of the pins in the block with the pins being retained in the predriven condition to thereby permit attachment of the same cable clip to support surfaces having lesser structural integrity, e.g., stucco or plaster, by a blow of less force than that required to drive the pins through the block and into the support surface.

The clip may be manufactured efficiently and economically and yet be a product that functions effectively.

A number of examples of clips constructed in accordance with this invention are described below with reference to the accompanying drawings, wherein: Figure 1 is a perspective view of one example showing a siamese cable relative thereto; Figure 2 is a perspective view in partial section showing a depending aggregate avoider and a single larger cable relative thereto; Figure 3 is a persperctive view of another example; Figure 4 is a cross sectional view showing the relationship of a pin point relative to the bottom of a cylindroconical bore in one of the examples; Figure 5 is a cross sectional view showing depending aggregate avoiders relative to a cable receiving recess; Figure 6 is an end view of another example showing the relative positions of bores, aggregate avoiders, crushable rings, and recesses;; Figure 7 is a side view of the example of Figure 3 showing pins predriven relative to a block; and Figure 8 is a top view of a portion of another example showing a segmented annularly disposed impact absorber.

Referring now to the drawings and more particularly to Figs. 1 and 2 it will be seen that the wire routing clip assembly 10 comprises basically a block member 12 having a pair of bores 14 formed therein. The block 12 has an upper surface 22 and a lower surface 24. A pin 16, having a cylindrical portion 17 complementary in size to the cylindrical portion 15 of each respective bore 14, is aligned with and partially received in each bore 14. The pins 16 are adapted to be prepositioned so that their pointed ends 1 8 are received within each respective bore 14 and their end portions 20, adapted to be struck by a conventional tool, extend above the upper surface of the block. As an alternative to the straight pins (as best seen in Fig.

5) the pins may be formed as part of a U-shaped staple (as shown in Fig. 3). The block includes transversely extending recesses 26, 28, adapted to receive a cable or wire therein. The recesses are preferably positioned between the bores for reasons which become apparent from the following in depth disclosure. The block as shown in Figs. 1 and 2 are particularly well suited for routing of cables of different sizes or configurations wherein the routing device as depicted in Fig. 3 is shown as being suited for routing of a single cable of a particular size. It being understood that the rectangular block may have a similar arrangement of recesses 26, 28 therein and vice versa.

The recesses 26, 28 extend transversely across the entire width of the block 12 and preferably have restricted openings, as best seen as being protrusions 30 in Fig. 5, to aid in pre-assembling of the clip to a cable prior to the installation of the routing device on a support surface. Each recess ideally includes a strain relief 32 to aid in positioning of the cable relative to the support surface 34 by resisting movement of the cable along its longitudinal axis.

As best seen in Figs.1,2, and 3, the routing device includes an annular, crushable, impact absorbing ring 36 disposed on the upper surface 22 of the block 12 and protruding upwardly therefrom. The impact absorbing protrusions 36 are positioned about the open end of each bore 14 and are integrally molded with the block member 12. Each impact absorber 36 is adapted to be crushed upon heavy impact and substantially absorb the excess force that a conventional tool may have when it is used in driving the pins 16. It is contemplated by the invention that the impact absorbing protrusions 36 may take many different forms including a continuous annular ring (as shown as 36 seen in Figs.1~3), a segmented annular ring 37 (shown in Fig. 8), as well as protrusions in the form of dimples, etc.

Referring now to Figs.1,2 and 6, there is shown a number of shapes and sizes of transversly extending recesses 26, 28 in the block member 12 which permits the selection of wires of different sizes to be routed relative to a support surface 34. It can be seen in Fig. 1 that there are parallel transverse recesses 26 particularly adapted to route a siamese type cable 38 or in the alternative a pair of single cables side by side and as seen in Fig. 2 there is a single recess 28 for routing a single coaxial type cable 40. The recess 28 is shown as being substantially perpendicular relative to the parallel pair of transversly disposed recesses 28. While the angle of intersection of the recesses 26, 28 may vary, the critical feature is that the recesses 26, 28 be positioned between the pair of bores 14.Referring to Fig. 6, here it can be seen that the parallel transverse recesses 26 are in communication with one another for receiving the siamese type cable 38. Parallel to but spaced from these recesses 28 is a smaller transverse recess 42 for much smaller cable or wire. It should be readily apparent from this that the recesses may take any size of configuration as needed to accommodate a particular wire or cable. Referring again to Fig. 5, the recesses could include, as an option, inwardly directed extensions 30 for engaging and retaining the wire relative to the block member.

Referring now to Fig. 4, it can be seen that each of the pins 16 are of a cylindroconical configuration wherein the pointed end 18 is frustoconical and each frustoconical portion 18 of each cylindroconical pin 16 has an included angle I which is about 45 degrees and preferrably in the range of 40 to 50 degrees. Each bore 14 is the block member 12 is also of a cylindroconical configuration, but has a frustoconical portion 44 with an included angle which is substantially larger than that of the frustoconical portion 1 8 of the pin 16. Generally the included angle of the frustoconical portion of the bore is in the range of 60 degrees.The advantage of such an arrangement is that when the lower surface of the block member 1 2 is juxtaposed a support surface 34, e.g., concrete, and the pin 16 is impacted and driven through the end of the cylindroconical bore 14 into the support surface 34, it will be seen that the material, of which the block member 12 is formed, cooperates with the point 18 to form a positive compaction of the surface 34 in the area 35 in which the pin point 18 penetrates. When the included angle of the pin point 1 8 is less than the included angle of the frustoconical portion 44 of the cylindroconical bore 14 the initial compaction of the support surface 34 occurs in the immediate area of the very end of the pin point 18.

Compaction generally increasing in a radially concentric manner relative to the point of initial compaction to thereby control spalling of the support surface 34. If the included angles are equal a less desirable effect is achieved due to the material directly in line with the end of the bore being driven downwardly at too great a rate causing the device to be forced away from the surface. The arrangement disclosed by the instant invention provides for a very tight fit of the block member 12 relative to the support surface 34.

Referring now to Figs. 2 and 5 it can be seen that the cylindroconical bore 14 is contained within a depending sleeve member 46. The block member has an upper wall 48 from which the sleeve member depends and with which the sleeve member 46 is integrally formed. The sleeve member 46 is adapted to be flexed at its point of attachment to the upper wall 48 to permit the longitudinal axis of the pin 16, received in the cylindroconical bore 14, and the sleeve member 46 is shift to a point along which the axis would be able to move. The flexing is accomplished by the inherent flexibility of the material around the sleeve member attachment to wall 48 of the body portion 12.The advantage being that on installation of the routing device 10 on a support surface 34, such as concrete, where one of the pins 14 is driven into the support surface 34 and the other pin 14 is subsequently driven and strikes a substantially impenetrable object, e.g. a piece of aggregate, the pin point will be permitted to attempt to avoid the aggregate. Such an arrangement permits the pins 16 to no longer be parallel when driven thereby preventing breakage of the block 12 which would otherwise occur due to stresses imparted thereto if the block 12 were solid. It is comtemplated by this invention that the sleeve 46 may be continuous in nature or segmented.A segmented sleeve would, if needed, permit greater deflection of the longitudinal axis at the lower end thereof due to the fact that only a segment of the sleeve would need to be deflected when the axis shifts.

A segmented sleeve, which has individual depending sleeve segments (not shown) may be maintained in a predetermined pattern by a frangible ring (not shown) at the lower end. As a pin 16 is driven through the ring it would, ideally, break, thereby releasing the individual segments and permitting a greater degree of shifting of the axis while being able to positively maintain a pin 16 in a partially predriven position. This segmented sleeve arrangementresults in a substantial reduction in the stress in the area where the sleeve is attached to the lower side of the upper wall 48 of the body portion 12.

Referring now to Fig. 7 is can be seen that the pins 14 in this instance have been predriven relative to the block member 12 and that a cable 40 has been preassembled in the transverse recess 28. The routing device 10 of the instant invention, as seen here, can be used with support surfaces 34 that have a structural integrity which is substantially less than that of concrete. A typical problem encountered in installing devices of this type on plaster or stucco is that the energy necessarily impacted on the end 20 of the pin 16 to drive it relative to the block 12 is substantial and more than enough to damage the support surface 34. By predriving the pins 16 it can be seen that a nominal impact is necessary to drive the pins relative to support surface of a material such as plaster.When the clip 10 is used in this particular configuration the impact absorbing rings 34 cooperate with the aggregate avoider sleeve 46 to permit the pins 16 to be driven and splay as necessary within the support surface while preventing damage to the surface of the block 12 and the support surface 34. The method of using such a device thus entails the predriving of the pins 16 relative to the block 12, the attachment of the block 1 2 to the cable 40, the positioning of the device relative to the support surface 34 and the driving of the pins 1 6 into the support surface 34 by impacting the block in the general region of the impact absorbing rings 36 and ends 20 of the predriven pins 16.

Accordingly, this invention provides a simple and efficient wire clamping and routing device for securement of wire and cable to a support surface.

The advantages clearly being that damage to the block is substantially precluded by the impact absorbing ring, the ability of the block to route cables or wires of various sizes and configurations, and the ability of the device to be used on a support surface that has substantially impenetrable particles or objects therein. The method of predriving the pins and utilization of the block relative to a support surface of a lesser structural integrity is clearly an advantage to workmen in that the repair to damaged surfaces will be substantially eliminated.

While specific embodiments of various aspects of the invention have been disclosed it will be understood that variations and modifications thereof may be affected without departing from the spirit and scope of the novel concepts disclosed and claimed herein.

Claims (14)

1. A clip adapted to fix at least one of a plurality of elongated articles such as electric wires or cables of predetermined sizes to a support surface, the clip comprising a body portion and fastening means for fixing said body portion to said support, said body portion including a first side adapted to engage said support surface and a second substantially exposed side, at least two recesses which are formed in said first side and each of which completely traverses said first side in a predetermined direction, at least one bore which is adapted to receive the fastening means and is substantially perpendicular to and offset from the longitudinal axis of each of said recesses, said fastening means including a first substantially pointed end and a second portion adapted to be impacted by a tool, each of said recesses being adapted to receive and position an elongated article of a cross sectional dimension different from the cross sectional dimension of the elongated article received by the other of said at least two recesses.

2. A clip according to claim 1, in which there are two bores which are disposed on opposite sides of said at least two recesses, said fastening means cooperating with said two bores to secure said clip to said support surface.

3. A clip according to claim 2, wherein one of said at least two recesses is disposed substantially perpendicular to another of said at least two recesses.

4. A clip according to claim 3, wherein at least one of said recesses is a double recess adapted to receive and position a siamese-type cable.

5. A clip according to any one of the preceding claims, further comprising means integrally formed with said second side of said body portion adjacent said at least one bore for absorbing energy when impacted.

6. A clip adapted to fix an elongated article such as an electric wire or cable to a support surface, the clip comprising a body portion having a first side adapted to engage said support surface and a second substantially exposed side, a recess formed in said first side completely traversing said first side in a predetermined direction, at least one bore formed in said body portion to one side of said recess, a fastening means having a first end adapted to be retained within said at least one bore by being a retention fit and a second portion extending outwardly from the exposed side of the body portion, saaid first end including a pointed penetrating end and said second portion being adapted to be impacted to drive said fastening means axially, and means integrally formed with said second side of said body portion adjacent said at least one bore for absorbing energy when impacted.

7. A clip according to claim 5 or claim 6, wherein said means for absorbing energy includes a raised annularly disposed protrusion circumscribing the area where said fastening means enters said at least one bore, whereby when said second portion of said fastening means is impacted by a tool the energy exceeding the amount necessary to drive the fastener will be substantially dissipated by said tool engaging said raised protrusion.

8. A clip according to claim 7, wherein said annularly disposed raised protrusion is a continuous ring.

9. A clip adapted to fix an elongated article such as an electric wire or cable to a support surface, the clip comprising a body portion and fastening means, said body portion including a first side adapted to engage the support surface and a second substantially exposed side, a recess formed in said first side completely traversing said first side in a predetermined direction, at least one cylindroconical bore which is formed in said body portion and is disposed to one side of said recess, said cylindroconical bore including a frustoconical portion with an included angle of a first predetermined magnitude, said fastening means being substantially cylindroconical with a frustoconical portion thereof having an included angle of a second predetermined magnitude, said fastening means being adapted to be received within said at least one bore and to be driven axially into said support surface to fix the clip to the surface.

10. A clip according to claim 9, wherein said first predetermined angle is smaller than said second predetermined angle.

~ 1. A-clip according to claim 10, wherein said second predetermined angle is in the range of from 40 to 500.

12. A clip according to any one of claims 9 to 11, wherein the distal end of said at least one cylindroconical bore is juxtaposed to a plane containing said first side, whereby the frustoconical portion of said fastening means is adapted to be driven through the frustoconical portion of the bore into said support surface.

13. A clip according to claim 12, wherein said body portion is integrally moulded of a plastics material and said fastening means is metallic, whereby when the frustoconical portion of said fastening means is driven through said frustoconical portion of said bore the plastics material in the area of the frustoconical portion of said bore extrudes upwardly around said fastening means thereby compacting said surface in the area where said fastening means penetrates thereinto.

14. A clip according to claim 1, substantially as described with reference to Figures 1,2,4 and 5, or Figures 3 and 7, or Figure 6, or Figure 8, of the accompanying drawings.