JPH0562643B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a cable clamp for fixing cables and the like installed in electrical equipment and the like.

(Prior Art) Many cables and the like are installed in electrical equipment and the like, and these are usually fixed at predetermined locations using cable clamps.

FIGS. 3A, 3B, and 3C are configuration diagrams showing a conventional cable clamp. In Figure 3 A and B,
1 and 2 are stanchions (bolts) installed on a flat base (electrical equipment, etc.) 3, 4 and 5 are nuts,
6 is a flat member, 7 and 8 are rubber, and 9 and 10 are cables having approximately the same diameter. The cable clamp 11 in FIG. 3A connects the cables 9 and 10 directly to the cable fixing part 3,
0 to the base 3 at the same time. To determine the strength of the pressure, use nuts 4 and 5 on stanchions 1 and 2.
It is adjusted by screwing it into the The cable clamp 12 shown in FIG. 3B differs from the cable clamp 11 in that the cables 9 and 10 are arranged with rubbers 7 and 8 interposed therebetween. As described above, the cable clamps 11 and 12 can fix the cables 9 and 10 having substantially the same diameter, and can be easily attached and detached.

On the other hand, in FIG. 3C, 13 and 14 are cables with different diameters, and 15 and 16 are semicircular grooves 15a and 15 on the plate surface that match the diameters of the cables 13 and 14.
It is a flat plate on which 5b, 16a and 16b are formed. The cable clamp 17 is constructed by wiring the cable 13 between the grooves 15a and 16 and the cable 14 between the grooves 15b and 16b, and pressing the flat plate 15 against the flat plate 16. According to the cable clamp 17 described above, cables 13 and 14 of different diameters can be fixed simultaneously.

(Problems to be Solved by the Invention) However, the conventional cable clamp 11
Since the cables 9 and 10 are simply pressed against the base 3, there are problems in that the clamping force is weak and it is difficult to fix cables of different diameters at the same time. The cable clamp 12 compensates for the shortcomings of the cable clamp 11, but since it is constructed using the rubbers 7 and 8, there is a problem that the clamping force decreases due to wear (change in characteristics) of the rubber over time. be. On the other hand, cable clamp 1
7 has semicircular grooves 15a etc. formed in advance, so there is a problem that parts must be replaced if the cable configuration changes. Furthermore, both cable clamps have a problem in that sharp edges are formed at the contact portion (pressing portion) between the cable and the member.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to easily and stably fix a plurality of cables having different diameters and configurations at the same time with a strong clamping force.

(Means for Solving the Problems) The present invention, which solves the above-mentioned problems, is a cable clamp that clamps and fixes a cable between two flat members, in which the longitudinal direction of the cable is taken as the x-axis direction, When the direction in which the cable is held between the flat plate members is taken in the y-axis direction, one of the flat plate members is one in which the shape of the surface of the cable holding part in the xy cross section is a continuous curve with a gentle slope concave, As the other flat member,
The shape of the surface of the cable holding part in the xy cross section is a continuous curve having a gently sloping bulge facing the recess, and when fixing the cable, these flat members are integrated by facing each other via a spacer, As a result of the integration, the shape of the surface of the cable clamping portion of the one flat member is a concave part with a gentle slope, and the shape of the surface of the cable clamping part of the other flat plate member is a bulge with a gentle slope. It is characterized in that a space is formed between the two parts, and the cable placed in the space is displaced and bent in the y-axis direction along the space.

(Function) In the cable clamp having the above configuration, when the cable is fixed, the surface of the cable clamping part of one flat member has a gently sloping concave shape, and the surface of the cable clamping part of the other flat member has a gentle slope. A cable is placed in a space formed between the bulge of the slope, and the cable is displaced along the space in the y-axis direction and held in a bent state.

(Example) Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

Figure 1 is a configuration diagram showing one embodiment of the present invention, and Figure 1A shows the cable arrangement direction (z-axis direction).
Figure 1 (b) is a configuration diagram of the cable as seen from the longitudinal direction (x _- axis direction) (X ₁ FIG. 1 is a configuration diagram (a view seen from the Y ₁ Y ₂ arrow in FIG. In Figure 1, 21
and 22 are flat members having a substantially flat plate shape (x-axis direction: short width, y-axis direction: thickness, z-axis direction: long width), and the surface of the cable holding part is oriented in the y-axis direction. The continuous curved surfaces 23 and 24 are formed with unevenness having gentle slopes in opposite directions. In other words, as is clear from Figure 1,
The shape of the surface of the cable holding part in the xy cross section of the member 21 is a continuous curve (expressed as a "curve" here because of the shape on the xy cross section) with a gentle slope concave, and the shape of the surface of the cable holding part in the xy cross section of the member 22
The shape of the surface of the cable holding portion in cross section is a continuous curve having a gentle slope bulge opposite to the recess. The member 22 is the base 25
is screwed to. 26 and 27 are bolts,
28 and 29 are nuts, 30 and 31 are members 21
spacers 32 and 33 interposed between and 22;
is a cable. The spacers 30 and 31 have a cylindrical shape and are inserted into the bolts 26 and 27. Further, the cables 32 and 33 are arranged on the member 22 with the x-axis direction as the longitudinal direction and the Z-axis direction as the arrangement direction, and then fixed by pressing the member 21 toward the member 22 side. In other words, cable 32
and 33 are continuous curved surfaces 23 and 2 of each member 21, 22.
It is clamped and fixed between the two. This pressure is nut 2
This is accomplished by screwing and rotating bolts 8 and 29 onto bolts 26 and 27, and bringing members 21 and 22 into contact with both end surfaces of spacers 30 and 31. At this time, a desired pressing force, that is, a clamping force, can be obtained depending on the lengths of the spacers 30 and 31. As a result, the shape of the cable clamping part surface (continuous curved surface 23) of one member 21 is a gentle slope concave, and the part of the cable clamping part surface (continuous curved surface 24) of the other member 22 is shaped like a gentle slope. The cable 32 is placed in the space formed between the bulge and the bulge, and the cable 32 is displaced along the space in the y-axis direction and held in a bent state.

In the above configuration, since the cable clamp bends and fixes the cables 32 and 33, the contact surface between the members 21 and 22 and each cable becomes large. The clamping force increases depending on the size of this contact portion and the elastic force of the cable itself. Diameter 20
In the example of fixing ~30mm cable, approx.
It has been confirmed that it can withstand a pullout force of 16Kgf (this test was based on UL's 35lb. standard). Also, the above clamping force is based on the diameter difference of 2
It has also been confirmed that there is almost no difference even if the length is ~3 mm or the cable configuration is different.

Note that the present invention does not limit the means for integrating the members 21 and 22 to bolts and nuts. It may be a band or a means for that purpose. Further, the shape, length, etc. of the spacer can be arbitrarily selected. Furthermore, if cables with widely different diameters are to be fixed at the same time, an adapter 34 as shown in FIG.
(a member having a predetermined width in the z-axis direction) as member 22
Alternatively, the thinner cable may be routed over it.

(Effects of the Invention) As explained above, according to the present invention, the cable is displaced and bent in the y-axis direction at the cable clamping part,
The cable's own elastic force keeps it fixed, making it easy to connect multiple cables with different diameters and configurations.
In addition, it can be fixed with strong clamping force, and does not form sharp edges. or,
Since the flat plate members are integrated with the spacer interposed, a constant clamping force can always be obtained, and the cable can be stably fixed.

[Brief explanation of the drawing]

FIG. 1 is a configuration diagram showing one embodiment of the present invention, and FIG.
The figure is a configuration diagram of an adapter used in the cable clamp according to the present invention, and FIG. 3 is a configuration diagram showing a conventional example. 21, 22...Flat member, 23, 24...Continuous curved surface (cable holding part), 25...Base, 2
6,27...Boruto, 28,29...Natsuto, 3
0, 31... Spacer, 32, 33... Cable, 34... Adapter.

Claims (1)

[Claims] 1. In a cable clamp that clamps and fixes a cable between two flat members, when the longitudinal direction of the cable is taken as the x-axis direction and the direction in which the cable is held between the flat members is taken as the y-axis direction, one As the flat member, the shape of the surface of the cable clamping part in the xy cross section is a continuous curve with a gentle slope concavity, and as the other flat member, the shape of the surface of the cable clamping part in the xy cross section is as described above. A continuous curved line with a gentle sloping bulge facing the recess is used, and when the cable is fixed, these flat plate members are integrated by facing each other with a spacer in between.
As a result of the integration, the shape of the surface of the cable clamping portion of the one flat member is a concave part with a gentle slope, and the shape of the surface of the cable clamping part of the other flat plate member is a bulge with a gentle slope. A cable clamp characterized in that a space is formed between the two parts, and a cable disposed within the space is displaced and bent in the y-axis direction along the space.