DE10353254A1 - Eccentric load-limiting jaw clamp for holding and releasing rope on sailing boat has two pivoting spring-loaded jaws with curved toothed surfaces on sliding mountings which can move apart - Google Patents

Abstract

The load-limiting jaw clamp has two pivoting (F) spring-loaded jaws (G1,G2) with curved toothed surfaces (L) which can grip a rope. Each jaw is mounted on a rectangular baseplate (C) which has two L-shaped slots (E) for pins (D) on a large square main baseplate (A). Recesses (H) in the baseplates accommodate springs which allow the jaw clamp baseplates to move longitudinally and then outward to release the jaws and let the rope run free if a given load is exceeded.

Description

Field of use:

The The invention relates to an eccentric cable clamp in particular for the Use on sailing craft, which serves to cover the current good needed is, the invention in excess a defined tensile force of the rope on the clamping device, the rope independently let slip freely.

Characteristic of the known Prior art:

Known are clamping devices in various designs for attaching and fixing the current goods on sailing vessels but in their function in the occupied state of the power-gained Block the page steadily. This means that these clamps independent of The pulling force of the rope acting on them always a firm connection between mounting body and Make rope. This fixed connection is independent of the forces acting on the clamping device usually over selbstbekneifende lever mechanisms produced. This mode of action is in the loaded state, a static and permanent connection between the rope and the clamping body. One of the known embodiments of rope clamps are the eccentric rope clamps. A typical eccentric rope clamp comprises a base part, which may be arranged horizontally, on the two eccentric elements are attached. The Exenterelemente can mirror each other be executed. The eccentric elements can for rotation, mounted on spaced vertical axes be. An eccentric element can be resiliently biased so that it is rotates clockwise and the other element can be resiliently biased be so that it turns counterclockwise. Parts of the elements become thereby brought together in interaction. The area of each Elements that form the part that work together with the other element is brought, is provided with a toothing. A rope can be passed between the two eccentric elements, whereby the eccentric elements against the bias of each other wegggedrückt become. The toothed portions of the eccentric elements thus become biased in contact with the rope, causing a movement of the rope is prevented, at least in one direction, which the toothed Regions of the eccentric tends to bring closer to each other.

Disadvantages of the known Prior art:

Eccentric- Clamping devices according to the prior art can be created when exceeding tensile forces on the jammed rope, not independently reach the connection at or exceed trigger a defined traction and thus allow the free sliding of the rope.

To step personnel on, the material of the rope itself, at the clamp of the rope or the tethered components, so comes it inevitably leads to losses.

A accurate adjustment of the clamp in terms of static or dynamic Tensile load on the rope is up to the moment of release not possible yet.

The Moment of release when loading the rope on the clamping device is not reproducible.

Object of the invention:

task The invention is an eccentric clamping device in particular for the Use on sailing vehicles to create when exceeding a previously defined tensile force on the rope fixed in it, the same independent triggers, and let it slide freely. These The object is achieved by a device having the features of the claim 1 solved.

Advantages of the invention:

With This device can avoid material breakage or destruction in extreme load situations become.

At the current good fortified, usually much more expensive components like swords, rudders, masts and trees as well as sails or towing equipment be protected and stay on exceeding of previously defined forces receive.

at Regattas will only reach the limit in an extreme situation automatically triggered what if necessary to the loss of the position in the regatta field but not to Task by material break, etc. leads.

At the sailing in shallow waters is at grounding, the sword, Schwenkkiel or the rudder not necessarily destroyed, but by Timely triggering the clamp greater damage avoided.

Possible applications:

• I. Exenter clamping devices on sports boats and yachts are needed for a wide variety of applications. In the area of inland sailors is also sailed in shallow waters. The swords and the rudders of Jol Lens or cruisers are lowered by rope and lifted. In a setting on the conventional static clamping devices for ground contact for both the sword and the rudder blade loss or at least a defect is the result. A clamping device that triggers automatically when exceeding a defined tensile force at the moment of impact can avoid much damage here.
• II. In sports regattas is usually at the limit of the materials sailed. Despite the use of highly durable materials comes it always leads to damage due to excessive forces the rig or other involved assemblies of the boat. By the Use of eccentric clamping devices when exceeded a defined tensile load independently trigger if the loss is e.g. of the big tree, Mastes or other authoritative Assemblies of a regatta ship avoidable.
• III. Sometimes it is necessary that vehicles that are not can move more on their own must be towed. The previous static clamping devices have a permanent connection between towing and the towed vehicle. When exceeded the traction of the towing vehicle comes on the towed vehicle it always destructions on the tow ropes or the attachment points involved. By the Using an eccentric clamping device as described, this can destructions be prevented because the connection between tractors and towed Vehicle is timely, resolved at a defined time.

Presentation of the nature of Invention / embodiment:

Of the Invention is based on the object, an eccentric clamping device for ropes in such a way that in occupied state of the eccentric clamping device and upon reaching a defined tensile force of the rope on this device they opens independently and allows the free sliding of the rope.

According to the invention solved this task by that the eccentric clamping device off a basic element (A), on which there are two support elements (C) are movable in both the axial and radial directions are attached. The basic element (A) is with countersunk mounting holes (B) provided. In the basic element are guide elements (D), which are the support elements (C) record. In the base element also recesses (H) are provided the spring elements (I) can receive half-side and the free lateral Allow misalignment of the spring elements (I). Between the primitive (A) and the two support elements (C) spring elements (I) are arranged, which are the support elements (C), which by the guide elements (D) led and held to bias against the force-gained Bring page (KS).

According to the invention are the supporting elements (C) mirrored to each other and also have recesses (H) in their base area, which serve for half-side recording of the spring elements (I) and their allow axial and radial displacement. The support elements (C) are provided with recesses (E), which are the guide elements receive the basic element (D) and designed so that they are an axial Movement of the support elements in the direction of the force-granted side (KS) and on the other hand one radial movement to the outside allow when reaching the end points of the axial recess. The recesses on the support elements are further designed so that too unbalanced sliding out of the support elements not jamming the Lead elements can. The support elements are in your height so executed, that radially forces acting on them evenly the guiding elements of the Transferred basic element and thereby can not be misjudged or jammed. The support elements feature each over a vertical axis, on each of which an eccentric element (G) pivotable is appropriate.

This is according to the invention Eccentric element (G1) spring-biased (K) for rotation in a clockwise direction, while the eccentric element (G2) resiliently rotates for counterclockwise rotation is biased. The eccentric elements (G1 + G2) have areas on that with teeth (L) are provided, which face each other or point to each other, wherein in the initial position of the clamping device is a part of toothed areas (L) of the two eccentric elements (G1 + G2) almost in contact with each other. A rope can be between the two Eccentric elements (G1 + G2) are introduced, whereby the eccentric elements be pressed apart by twisting the Exenterelemente against the spring preload (K). The rope is then replaced by the on the two eccentric elements (G1 + G2) provided toothed areas (L) thereby detecting a movement of the Rope is prevented, at least in the direction that the toothed Regions of the eccentric tends to bring closer to each other.

Remains according to the invention This clamping mechanism in the original state therefore stable because the support elements (C) by the bias of the spring elements (I) to the base element at most only slightly can move in the axial direction and the positive and positive festering effect on the clamped rope is maintained.

As soon as the force on the eccentric elements (G1 + G2) and the one with it by the vertical axes (F) connected support elements a specific Value exceeds, become the support elements (C) at the moment of overcoming the bias of the spring elements (I) to the base element (A), respectively so far in the axial direction of kraftzugewannten side (KS) slip can, that the radially extending recesses on the support elements that to the outside directed lateral sliding out of these two elements allow. At this moment, the force and form-fitting festering effect of two eccentric (G1 + G2) thereby repealed that the two support elements (C), on each of which the vertical axes (D) for receiving the both eccentric elements (G1 + G2) are arranged by the voltage on the rope and the spring force (K) on the eccentric elements (G1 + G2) open the clamping device and allows the free sliding of the rope.

Claims (3)

Self-releasing eccentric clamping device for ropes, characterized in that it opens automatically when exceeding an adjustable, defined tensile force of the rope on the clamping device and thus allows the cable to slide freely. Vorrichung according to claim 1, characterized that the Eccentric clamping device consists of a basic element (A), on The two support elements (C) are movable in both the axial and radial directions are mounted where the base element (A) with recessed mounting holes (B) is provided with guide elements in the base element (D), the support elements (C) receive in the base element also recesses (H) provided are, the spring elements (I) can accommodate one half and allow the free lateral displacement of the spring elements (I) being between the base element (A) and the two support elements (C) spring elements (I) are arranged, which are the support elements (C), which by the guide elements (D) led and held to bias against the force-gained Bring page (KS). Vorrichung according to claim 1 or 2, characterized that the support elements (C) are mirror images of each other and also via recesses (H) in their base area feature, which serve for half-side recording of the spring elements (I) and their allow axial and radial displacement the support elements (C) are provided with recesses (E), which are the guide elements receive the base element (D) and are designed so that they an axial movement of the support elements in the direction of force-approved side (KS) and on the other hand a radial movement to the outside when reaching the end points allow the axial recess the recesses on the support elements so executed are that too an asymmetrical sliding out of the support elements is possible the support elements in your height so executed are that radial forces acting on them evenly the guide elements of the primitive and thereby can not be misjudged or jammed where the support elements each with one vertical axis, on each of which an eccentric element (G) pivotable is appropriate wherein the eccentric member (G1) is springy for rotation in a clockwise direction (K) is biased while the eccentric element (G2) resiliently rotates for counterclockwise rotation is biased wherein the eccentric elements (G1 + G2) have areas those with teeth (L) are provided, which face each other or point to each other, wherein in the initial position of the clamping device is a part of toothed areas (L) of the two eccentric elements (G1 + G2) almost Being in contact with each other with a rope between the two Eccentric elements (G1 + G2) can be inserted, causing the Eccentric by turning the Exenterelemente against the spring preload (K) pressed apart being the rope through the on the two eccentric elements (G1 + G2) provided toothed portions (L) is detected whereby a movement of the rope is prevented, at least in the Direction that tend the toothed portions of the eccentric elements closer to each other brings.