DE10113444A1 - Spring band element - Google Patents

Abstract

Shown and described is a spring band ring (1) with a spring band (3) which comprises an essentially ring-shaped hose end and with two overlapping, essentially circumferential tensioning ends (4, 5), a certain first diameter being present in the clamping state - clamping state - And the spring band (3) can be expanded against its own spring force with the aid of a tensioning tool to a second larger diameter - expanded state -. DOLLAR A The spring band ring (1) requires a particularly small amount of space because the clamping ends (4, 5) do not project radially beyond the then circular spring band (3) in the clamped state.

Description

The invention relates to a spring band element with a hose end in essentially ring-shaped spring band and with two each other overlapping, essentially circumferential spans which, in the clamped state, a certain first diameter lies - clamped state - and the spring band against its own spring force with the help of a clamping tool to a second larger diameter is spreadable - spreading state.

Spring band elements of the type described above are in the form of a spring band clamps for many years and in different designs known (see German Patents 36 33 486, 38 32 875, 43 05 649 and 44 24 046). With the help of such spring band clamps, for example pressure-tight seat of hose ends on the connecting piece of the cooling water guaranteed system of a motor vehicle engine. Such a spring band clamps have a certain inner diameter when clamped and can with the help of a tensioning mechanism attacking the tensioner against the own spring force of the spring band to a considerable extent larger diameters are spread - expanded state - in which chem the spring band clamp then one against the outside diameter of the hose end has a larger inner diameter and is therefore light over the end of the hose to be put on a connecting piece to the respective assembly point can be moved. The pressure-tight fit of a The end of the hose on a connecting piece is on the one hand through the egg Genelasticity of the hose end itself, on the other hand by the spring force of the Spring band clamp, d. H. of the spring band, because the spring band clamp slightly against its own spring force when clamped is widened.

In the known spring band clamps, the tension is essentially radially protruding from the spring band. On the one hand, this has the advantage that the tensioners are easily accessible for engaging the tensioning tool are, on the other hand, allows the arrangement of a holding element, whereby the spring band clamp can be fixed in the open state.  

A variety of proposals have been made in the prior art, such as the exciting on the one hand and the holding element on the other hand are to make the assembly of the spring as simple as possible for the mechanic enable band clamp in the engine compartment of a motor vehicle, the Pulling off the holding element should be easy and safe. A disadvantage of the known spring band clamps, however, is that protrude radially due to the the exciting and the holding element overlapping the exciting Compared to the diameter of the spring band clamp, relatively large installation space is required. There is also a risk that adjacent to the Spring band clamp components arranged by the radially protruding chip ends are damaged, especially if the connecting piece on which the spring band clamp is attached, or the neighboring components exert vibrations when operating the vehicle.

The invention is based on the object, a spring band element Specify the type described above, that only a small space may have and is designed so that damage to neighboring Components is avoided by the spring band element.

The spring band element according to the invention, in which the aforementioned On is resolved, is now primarily and essentially characterized net that the clamping in the clamped state does not circle radially over the then protrude round spring band. By not using the radially protruding ones A spring band ring with minimal dimensions is available for exciting people supply, which therefore requires only a minimal space. By the measure according to the invention, which in retrospect appears to be very simple not only the outer diameter of the spring band element on a mini mum reduced, damage to neighboring components is also ver prevents, since the spring band ring no longer protruding tensioners has.

The invention consciously accepts an apparent disadvantage that namely the spring band ring according to the invention, after having once in the Clamping condition has not been brought back - at least not without it great effort - disassembled, d. H. brought back into the spread state can be. This supposed disadvantage becomes an advantage  if, for example, a connection between two connecting pieces is released Should, the two connecting pieces otherwise, z. B. via a bayo nice closure, are connected. Here it is wanted that not the hose ends by loosening the spring band ring from the connection sockets are drawn, but the two connecting pieces z. B. with help of the bayonet catch are separated from each other. The fact that at disassembly of the spring band ring according to the invention is not possible, in such a case, incorrect dismantling by the Mon expensive prevented.

Advantageously, the Fe in the spring band ring according to the invention derband adjacent to the tensioners each on a free cut. On such a free cut enables the gripping of a clamping tool Exciting, without the tension laterally beyond the spring band have to protrude. This measure thus makes the installation space required may be further reduced. The exciting and the free are preferred cuts formed so that the clamping tool substantially along can attack the circumferential center line of the spring band. This will ge ensures that the spring band ring is symmetrical to the middle when spreading line is expanded so that an even load on the spring band is guaranteed.

It is particularly advantageous if there is mechanical overextension protective device is provided, which is effective between the exciting. Such a mechanical expansion protection device prevents Spread the spring band ring significantly above the permissible spread state beyond. In any case, it is by providing such a me chanic overextension protection device excluded that an over elongation and thus possible damage to the spring band ring occurs.

A particularly simple design of the overstretch protective device provides that the tensioning one each as a stop Nenden projection, the two projections towards each other are turning. When spreading the spring band ring with the help of a clamp tools abut the two projections so that an overstretch the spring band ring is prevented.  

According to a further particularly preferred embodiment of the invention the spring band has a cross-section which varies over its circumference, in particular a width varying over its circumference, the width in Direction of the exciting, optional material reduction by means of punching different window geometries for optimal constant chip Achieving state of health decreases. Because in the spring band ring in the clamp was the greatest strain in facing the exciting the middle area of the spring band can occur by a corresponding Variation of the cross section over the circumference of the spring band achieved who the one that is essentially the same in each area of the spring band Tension occurs. The surface is normalized under tension Stress understood. Thus, by varying the width of the Spring band optimally exploited the material, either by a Width reduction, optional material reduction by punching various window geometries to ensure optimal constant tension to achieve, the spring band near the tension a Redu Decoration of the weight of the spring band ring is accessible or by a ge aimed to increase the width of the spring band in the ge exciting opposite area an increase in the spring force of the spring band ring is possible.

The measure to be preferably used, the spring band of the inventor inventive spring band ring with a varying over its circumference Providing cross section can also be realized in that in the Fe derband punchings are made so that in the spring band quasi windows arise. The window geometries are like this chosen that the desired tension in the spring band is reached becomes.

In particular, there are now a variety of ways to design and develop the spring ring according to the invention. For this purpose, reference is made on the one hand to the claims subordinate to claim 1, on the other hand to the description of a preferred embodiment in conjunction with the drawing. In the drawing, FIG. 1 shows a spring ring band in the clamped state,

Fig. 2 shows the spring-type ring of Fig. 1 in the spread state,

Fig. 3 shows the spring-type ring of Fig. 1 in the developed state,

Fig. 4 shows the developed state of another embodiment egg nes spring band ring according to the invention and

Fig. 5 is a perspective view of the spring band ring in FIG. 1.

In Fig. 1, a spring band ring 1 is shown, which is placed on a hose end 2 of a hose. The spring band ring 1 is used for the firm connection of hoses to pipes, branch pieces or connectors in cooling water sersystemen, fuel systems or air lines, especially in the engine compartment of a motor vehicle. The spring band ring 1 consists of an essentially annular spring band 3 and two mutually overlapping, substantially circumferential clamping ends 4 , 5 . The spring band 3 and the tension ends 4 , 5 are formed in one piece, so that the tension ends 4 , 5 form the ends of the spring band 3 . In clamp the state, which is always referred to below as the clamped state, the spring band ring 1 has a certain (inner) diameter that is slightly smaller than the outer diameter of the hose end 2 , so that the hose end 2 is pressure-tight on a connecting rod, not shown here zen is pressed. This is shown in Figures 1 and 4 - but there without a hose end 2 - illustrated... There it is easy to see that the spans 4 , 5 in the clamped state do not protrude radially beyond the circular spring band 3 . The exciting ends 4 , 5 rather run exclusively in the circumferential direction of the spring band 3 , so that the outer dimensions of the spring band 3 essentially correspond to the outer diameter of the hose end 2 . The space required by the spring band ring 1 is therefore very low. In addition, damage to adjacent components is avoided by avoiding radially protruding spans.

The spring band 3 can be expanded to a second larger diameter against its own spring force with the aid of a tensioning tool, not shown, which can be a specific pair of pliers. This state, which is always referred to below as the spread state, is shown in FIG. 2. Adjacent to the tensioners 4 , 5 , the spring band 3 each has a cut 6 , 7 . The exciting 4 , 5 and the free cuts 6 , 7 are designed so that a clamping tool in wesentli Chen along the circumferential center line 8 of the spring band 3 can attack. In order to allow good and safe grip tools designed as pliers to grip points when spreading the spring band 3 , the end faces of the clamping ends 4 , 5 are formed as edges 9 which run essentially perpendicular to the circumferential center line 8 of the spring band 3 . These edges 9 support a stress on the spring band 3 which acts symmetrically to the circumferential center line 8 .

The exciting 4 , 5 have - opposite the edges 9 - each have a projection 10 , 11 , which together serve as overstretching device for the spring band 3 . The two projections 10 , 11 are arranged facing each other, so that when the spring band ring 1 is spread apart, the two projections 10 , 11 abut each other and thus prevent the spring band 3 from being overstretched.

As can be seen in particular from FIG. 3, the spring band 3 in this exemplary embodiment has a varying width 13 over its circumference 12 - which corresponds to the length of the spring band 3 in the unwound state of the spring band ring 1 , the width 13 in the direction of the tensioner 4th , 5 decreases. Both during spreading as a band ring in the clamping condition of the spring 1 is the bending stress acting on the spring strip 3 in the middle 14 of the spring band 3, that is at the most of the clamping 4, 5 remote area, is greatest. So that the spring band ring 1 has a given spring force, the spring band 3 must have a certain width 13 in the middle 14 . Since the bending stress acting on the spring band 3 decreases with increasing distance from the center 14 , the width 13 of the spring band 3 can also be smaller with increasing distance from the center 14 . Overall, a spring band 3 can thus be realized in which the available material is optimally utilized, ie in which the tension in each section of the spring band 3 is essentially the same.

The width 15 of the tensioner 4 , 5 is slightly less than half the maximum paint width 13 of the spring band 3 , so that on the one hand the two tensioners 4 , 5 when spreading the spring band ring 1 past each other who can, on the other hand, the total width of the spring band ring 1 not is greater than the maximum width 13 of the spring band 3 . Instead of the linear width reduction shown here via the bevels 16 , another form of variation of the width 13 is of course also possible.

What is achieved in the embodiment according to FIGS. 1 to 3 - as represented in FIG. 3 - by a varying width 13 of the spring band 3 is achieved in the embodiment according to FIG. 4 in that the spring band 3 is provided with punchings 17 is.

Claims (9)

1. Spring band element with a hose end substantially ring-shaped spring band ( 3 ) and with two overlapping, we essential in the circumferential direction tensioning ( 4 , 5 ), with a certain first diameter in the clamping state - Klemmzu stood - and the spring band ( 3 ) against its own spring force with the aid of egg nes clamping tool is spreadable to a second larger diameter - spreading state -, characterized in that the clamping ( 4 , 5 ) in the clamped state does not protrude radially beyond the then circular spring band ( 3 ). 2. Spring band element according to claim 1, characterized in that the Fe derband ( 3 ) adjacent to the tensioning ( 4 , 5 ) each have a free cut ( 6 , 7 ). 3. Spring band element according to claim 2, characterized in that the clamping ends ( 4 , 5 ) and the free cuts ( 6 , 7 ) are designed such that the clamping tool substantially along the circumferential center line ( 8 ) of the Fe derbandes ( 3 ) attack can. 4. Spring band element according to one of claims 1 to 3, characterized records that a mechanical expansion protection device is provided is. 5, spring band element according to claim 4, characterized in that the tensioning ends ( 4 , 5 ) each have a projection ( 10 , 11 ) serving as a stop, the two projections ( 10 , 11 ) facing each other. 6. Spring band element according to one of claims 1 to 5, characterized in that the spring band ( 3 ) has a cross-section varying over its circumference ( 12 ). 7. spring band element according to claim 6, characterized in that the Fe derband ( 3 ) over its circumference ( 12 ) varying width ( 13 ), the width ( 13 ) decreasing in the direction of the tensioning ( 4 , 5 ). 8. Spring band element according to one of claims 1 to 7, characterized in that the width ( 13 ) of the tensioning ends ( 4 , 5 ) is less than half the maximum width ( 13 ) of the spring band ( 3 ). 9. spring band element according to claim 6, characterized in that the spring band ( 3 ) is provided with punchings ( 17 ).