DE19642454C2 - Spring band clamp - Google Patents

Description

The invention relates to a spring band clamp from a ring-shaped spring band with a he most and a second end section, each one protruding over the circumference of the spring band clamp jaw to open the spring band clamp, where the first end section through a circumferential slot of the protrudes the second end section, the jaws about extend tangentially to the spring band, the spring band one Circumferential spring force compo is able to exercise those who are in the open state of the Spring band clamp is larger than in the operating state first end section in the open state of the spring band clamp under that closing spring component an abutment one from a U-shaped incision of the spring band quickly pressed out on a counter storage area at the free end of the jaw of the second The abutment surface bears a win includes a radius of the clamp and that Abutment and the abutment surface by a radial Relative movement of the end sections can be brought out of contact are.  

Such a spring band clamp is called a hose clamp for clamping a hose, e.g. B. a cooling water water or petrol hose in the automotive industry, on one Pipe or pipe socket with retaining rib used and is for example in DE 44 41 439 A1 with older times ranked. To ver the assembly of the hose simple, the spring band clamp for hose or Clamp manufacturers previously in the open state attached to the hose. The pre-opened condition will thereby achieved that the spring band clamp by means of egg ner so far on the jaws is expanded until the abutment behind the abut storage area snaps into place so that the spring band clamp can no longer contract. When assembling then the hose together with that through the clamp in the Pre-opened clamp held on the pipe pushed. Then the jaws are radially apart pressed until the abutment and the abutment area is out of order. The spring band clamp then pulls tightly around the under their spring force Hose together, placing the hose on the pipe stuck. The face of the radially outer instep bake at the free end of the second end portion of the Fe derbandes runs at right angles to the outside and Inside or plane of this jaw. The forehead che at the free end of the tab is chamfered. This bevel is difficult to manufacture. Further the clamping jaw of the second end section extends at an acute angle to the tangential direction radi al outwards. This jaw and the quick stand therefore relatively far radially outwards in hinders way. There is also a risk that the spring band clamp during transport or hand , for example, by hitting the instep bake the second end section or if the clamp accidentally falls on this jaw, from which ge opened state is unlocked and located under her  Spring force suddenly pulls together, being ge fly away like a lap and injure people or Objects can be damaged or lost.

The invention has for its object a spring to indicate band clamp of the type mentioned, the can be produced with less effort and in which the The risk is less that they come out of the pre-opened Condition closes unintentionally.

According to the invention, this object is achieved in that the abutment through a radially inner edge of the free en end face of the tab is formed and the win delimiting radius a radially inner edge of the Abutment surface tangent.

This solution has the advantage that the abutment and the abutment surface due to an unintended Force applied radially from the outside in the pre-opened state the spring band clamp on one of the end sections works, not accidentally get out of hand, but that Abutment under the tension of the spring band clamp strives to be radially outward, opposite to Opening direction to hike. That way is a firmer cohesion in the pre-opened Condition of the spring band clamp ensured. The tab can also be produced very easily, since it is after Formation of the U-shaped incision in the first end just cut obliquely radially outwards are needed without having to edit their face have to.

It is preferably ensured that the abutment surface through the bottom of a groove in the free end of the instep jaw of the second end portion is formed. The groove ensures guidance and axial position securing  the quick in the pre-opened state of the spring band claw le.

Then the clamping jaw of the second end section rest radially on the outside of the first end section. This The jaw and the tab are then in the pre-opened position Condition of the spring band clamp on the one hand not far radi al outwards. On the other hand, this jaw not unintentionally by a radially inward on it exerted force are pressed radially inwards, so that the abutment surface and the abutment out of order would come and the spring band clamp automatically closes, d. H. contracts.

An advantageous further development consists in that the abutment surface through the end face of a radially outward from the free end of the jaw of the second end portion between in the circumferential direction from this free end to the circumferential slot limiting cross-led incisions curved tongue is formed and the abutment surface perpendicular to the direction of the free end of the tongue stands. This tongue enables the abutment surface without machining, only by one Form punching.

It is also preferably ensured that the instep bake the second end portion radially outward bulges. This curvature makes it possible to use a simple tool, for example a conventional one Screwdriver, the clamping jaw of the second end cut relative to the first end portion of the spring band to push radially outward to the spring band clamp to unlock from the pre-opened condition so that it under their spring preload firmly around the clamped hose around. For this needs at for example, the blade of the screwdriver only  in the space between the curvature of the jaw of the second end portion and the first end portion guided and moved radially outwards or rotated to will.

The invention and its developments will be next based on the attached drawings of Ausfüh Example described in more detail. Show it:

Fig. 1 is a perspective view of a first imple mentation of an inventive hose clip in a pre-opened state,

Fig. 2 is a perspective view of the first exporting approximately example of the present invention spring clip in the closed state on a hose,

Fig. 3 shows a cross section of the first game Ausführungsbei the inventive hose clip in a pre-opened state,

Fig. 4 shows a detail of Fig stab. 3 in enlarged dimension,

Fig. 5 is a perspective view of a second imple mentation of an inventive hose clip in a pre-opened state,

Fig. 6 shows a detail of a cross section of Fig. 5,

Fig. 7 is a perspective view of a third imple mentation of an inventive hose clip in a pre-opened state,

Fig. 8 shows a detail of a cross section of Fig. 7,

Fig. 9 is a perspective view of a fourth imple mentation of an inventive hose clip in a pre-opened state,

Fig. 10 shows a detail of a cross section of Fig. 9,

Fig. 11 is a perspective view of a fifth exemplary embodiment of a spring band clamp according to the invention in the pre-opened state and

FIG. 12 shows a section of a cross section from FIG. 11.

The clamp shown consists of spring steel and serves as a hose clamp for clamping a claw 5 on a pipe or pipe socket, preferably of cooling water or gasoline hoses in motor vehicles.

The spring band clamp consists of a ring-shaped bent spring band 10 with a first end section 11 and a second end section 12 . The first end section 11 has at its end a clamping jaw 13 which is bent radially outwards and in the circumferential direction, and the second end section 12 also has a clamping jaw 14 which is also bent radially outwards and in the circumferential direction. The jaws 13 and 14 are used to open the spring band clamp from a relaxed or largely relaxed position according to FIG. 2, in which the diameter of the spring band clamp is smaller than in the pre-opened state shown in FIGS . 1, 3 and 4.

The first end portion 11 has in its closing direction arranged by an arrow 15 behind the clamping jaw 13 a expressed from a U-shaped incision 16 ago tab 17 , which is in the closing direction 15 of the end portion 11 and obliquely radially outward at an acute angle to the tangential direction the spring band clamp extends. The free end of the tab 17 has a perpendicular to the tab 17 end face, de ren radially inner edge of an abutment 18 ( Fig. 4) bil det, the abutment surface 19 formed by the bottom of a groove in the free end of the jaw 14 under the in the circumferential direction 15 directional closing force component of the spring band 10 is present. The same closing spring force component exerts the second end portion 12 in the opposite circumferential direction, indicated by an arrow 20 .

The abutment surface 19 includes an acute angle A with a radially inner edge 21 ( FIG. 4) of the Wi derlagerfläche 19 tangent radius R of the clamp. The clamping jaw 14 of the end section 12 lies in the open state according to FIGS . 1, 3 and 4 radially outside on the end section 11 .

The first end section 11 is somewhat narrower than the second end section 12 and is passed through a circumferential slot 22 of the second end section 12 from the inside to the outside.

A projection 24, which initially extends obliquely radially outward and then tangentially, is formed on a crosspiece 23 of the clamping jaw 14 .

When the spring band clamp assumes its (not shown) completely or partially relaxed state according to FIG. 2, the tab 17 also lies in the region of the circumferential slot 12 . In order to bring the spring band clamp against the spring force of the spring band 10 from the completely relaxed (not shown) position, in which it does not yet surround the hose 5 , to the position shown before opened according to FIGS. 1, 3 and 4, the clamping jaws 13 and 14 by means of a chuck attached at their free ends in the circumferential direction against the direction of arrows 15 and 20 together until the circumferential slot 22 of the second end section 12 final cross piece 23 has slid over the tab 17 . When removing the collet, the spring band clamp then pulls together again until the abutment 18 and the abutment surface 19 abut each other. In this pre-opened state, the spring band clamp is then pushed onto the hose 5 ge. Then the pushed on hose, a tube clamp on the tube 5, which is the tube 5 surrounding in its pre-opened condition of the spring band clip in the closed condition of FIG. 2 ge introduced. For this purpose, only a conventional, manually operated screwdriver with its blade needs to be inserted and rotated between the clamping jaw 13 and the projection 24 . The cross bar 23 is pressed radially to the outside via the tab 17 , so that the abutment 18 and the abutment surface 19 come out of contact and the spring band clamp tightens the hose.

The system of the tab 17 with its front edge 18 on the opposite to the radius R at the acute angle A inclined abutment surface 19 and the system of the clamping jaw 14 radially outwards at the end portion 11 in the before opened state of the spring clip have the part before that Abutment 18 and the abutment surface 19 during transport or handling of the spring band clamp in the pre-opened state due to an unintentional force that is exerted radially from the outside on the pre jump 24 or the clamping jaw or the tab 17 , do not come out accidentally so that the clamp would contract suddenly. If necessary, the clamp released could fly off like a projectile and injure people or damage objects due to the released very high tension. Rather, the inclined abutment surface 19 ensures that the abutment surface 18 strives to move radially outwards, counter to the opening direction, under the clamping force of the Schel le. In this way, a stronger cohesion of the jaws 13 and 14 is ensured in the open state of the clamp.

The tab 17 is also very easy to manufacture, since it only needs to be bent radially outwards after the incision 16 has been cut in the end section without having to machine its end face.

The groove in the end face of the clamping jaw 14 fer ner for a guide and axial position of the La cal 17 in the pre-opened state of the spring clip.

If the clamping jaws 13 , 14 in the circumferential direction of the arrows 15 , 20 are pressed slightly further than into the pre-opened position shown in FIGS . 1, 3 and 4, the inclined sections 25 and 26 of the pre-opened position lie close together Clamping jaw 13 and the projection 24 against each other so that the spring band clamp cannot be opened beyond an admissible amount.

The embodiment of FIGS. 5 and 6 differs from the first embodiment of FIGS . 1 to 4 only in that the abutment surface 19 through the end face of a radially outward from the free end of the jaw 14 between in order to start from this free end up to the cross bar 23 guided incisions bent tongue 27 is formed and the abutment surface 19 is perpendicular to the direction of the free end of the tongue 27 . Here one comes without machining the abutment surface 19 , and yet the angle A can be selected at least as large as in the first embodiment.

The third exemplary embodiment according to FIGS. 7 and 8 differs from the second exemplary embodiment according to FIGS. 5 and 6 essentially only in that the clamping jaw 14 is curved radially outwards, as is shown in FIGS. 7 and 8, and the projection 24 has been eliminated. In order to bring the spring band clamp from the pre-opened state according to FIGS . 7 and 8 to the closed state according to FIG. 2, only a conventional, manually operated screwdriver with its blade needs to be inserted into the space between the crosspiece 23 of the clamping jaw 14 and the most end portion 11 to be inserted and rotated. Here, in turn, the crosspiece 23 is pressed radially outward beyond the tab 17 , so that the abutment 18 and the abutment surface 19 come out of contact and the spring band clamp firmly pulls together around the hose. The projection 24 seen in the first embodiment is therefore not necessary for this. This has the further advantage that the outline of the spring band clamp is smaller both in the pre-opened state and in the closed state and the risk of unintentional hooking of the projection 24 with other objects in a trans port or handling is eliminated and thus the danger is avoided that the pre-opened spring band clamp closes unintentionally.

The embodiment according to FIGS. 9 and 10 differs from that according to FIGS. 7 and 8 only in that the groove in the free end of the clamping jaw 14 is designed somewhat longer, so that the legs on the other side of the groove are somewhat radially outward bent who can, as shown in Figs. 9 and 10. The jaw 14 therefore offers larger engagement surfaces for a clamping tool in the form of pliers at the free ends of the legs of the groove formed in the jaw 14 .

The embodiment according to FIGS. 11 and 12 differs from that according to FIGS. 9 and 10 only in that the curvature of the clamping jaw 14 is not round, but approximately trapezoidal. Referring to FIG. 12, this results in a larger clearance between the clamping jaw 14 and the first end portion 11 of the spring strip 10 for the introduction of a Entsicherungswerk zeugs.

Claims (5)

1. Spring band clamp made of an annularly bent spring band ( 10 ) with a first and a second end section ( 11 , 12 ), each of which has a clamping jaw ( 13 , 14 ) projecting over the circumference of the spring band clamp for opening the spring band clamp, the first end section ( 11 ) through a circumferential slot ( 22 ) of the second end section ( 12 ) protrudes, the clamping jaws ( 13 , 14 ) extend approximately tangentially to the spring band ( 10 ), the spring band ( 10 ) is able to exert a circumferential closing spring force component, which in open state of the spring band clamp is greater than in the operating state, the first end section ( 11 ) in the open state of the spring band clamp under that closing spring force component with an abutment ( 18 ) of a tab ( 17 ) pressed out of a U-shaped incision ( 16 ) of the spring band ( 10 ) ) on an abutment surface ( 19 ) at the free end of the clamping jaw ( 14 ) of the second end section ( 12 ) on li egt, the abutment surface ( 19 ) encloses an angle (A) with a radius (R) of the clamp and the abutment ( 18 ) and the abutment surface ( 19 ) can be disengaged by a radial relative movement of the end sections ( 11 , 12 ), characterized in that the abutment ( 18 ) is formed by a radially inner edge of the free end face of the flange ( 17 ) and the radius (R) bordering the angle (A) is a radially inner edge ( 21 ) of the abutment surface ( 19 ) affects. 2. Spring clip according to claim 1, characterized in that the abutment surface ( 19 ) is formed by the bottom of a groove in the free end of the clamping jaw ( 14 ) of the second end portion ( 12 ). 3. Spring band clamp according to claim 1 or 2, characterized in that the clamping jaw ( 14 ) of the second end portion ( 12 ) radially outside on the first Endab section ( 11 ). 4. Spring band clamp according to one of claims 1 to 3, characterized in that the abutment surface ( 19 ) through the end face of a radially outward from the free end of the clamping jaw ( 14 ) of the second end portion ( 12 ) between in the circumferential direction from this free end to to a circumferential slot ( 22 ) delimiting crossbar ( 23 ) guided A cut out bent tongue ( 27 ) is formed and the abutment surface ( 19 ) is perpendicular to the Rich direction of the free end of the tongue ( 27 ). 5. Spring band clamp according to claim 4, characterized in that the clamping jaw ( 14 ) of the second end section ( 12 ) is curved radially outwards.