阅读说明：本技术 可灵活插入的异形夹 (Flexibly-inserted special-shaped clamp ) 是由 马库斯·克莱默 纳坦·兰茨曼 于 2020-03-30 设计创作，主要内容包括：本发明涉及一种具有一夹带(2)及一夹紧装置(3)的异形夹(1),其具有在圆周方向(U)彼此间隔一距离(D)设置的两个夹爪(4),其中所述夹爪(4)设置在所述夹带(2)的每一端并且可以通过至少一个夹紧工具(5)的手段朝向彼此移动,其中在所述夹带(2)的一内侧(7)上,至少两个异形段(8)沿圆周彼此间隔开地设置,其中所述异形段(8)在每种情况下可以通过至少一个闩锁连接(9)的手段连接到所述夹带(2)。(The invention relates to a profiled clamp (1) having a clamping strap (2) and a clamping device (3), comprising two clamping jaws (4) which are arranged at a distance (D) from one another in the circumferential direction (U), wherein the clamping jaws (4) are arranged at each end of the clamping strap (2) and can be moved towards one another by means of at least one clamping tool (5), wherein on an inner side (7) of the clamping strap (2) at least two profiled sections (8) are arranged at a distance from one another in the circumferential direction, wherein the profiled sections (8) can be connected to the clamping strap (2) by means of at least one latching connection (9) in each case.)

1. A profiled clamp (1) having a clamping strap (2) and a clamping device (3), wherein at least two profiled sections (8) spaced apart from one another on the circumferential side are arranged on an inner side (7) of the clamping strap (2), characterized in that the at least two profiled sections (8) are connected to the clamping strap (2) by means of at least one latching connection (9).

2. The profile clamp of claim 1, wherein: the clamping strap (2) has at least one opening (14) for forming the latching connection (9), wherein at least one locking element (13) which can be inserted into the opening (14) is arranged on a rear side (10) of the profiled section (8) facing the clamping strap (2).

3. Profile clamp according to claim 1 or 2, characterized in that: the locking element (13) of the profiled section (8) is inserted into the at least one opening (14) in a positively locking and/or frictionally engaging manner.

4. Profiled clamp according to claim 2 or 3, characterized in that: the opening (17) of the entrainment band (2) has an elongated shape oriented in a circumferential direction of the entrainment band (2).

5. A profile clamp according to any one of claims 2 to 4, wherein: the at least one locking element (13) is arranged on the side (10) of the profiled section (8) facing the clamping strap (2) and is designed in a material-engaging manner.

6. A profile clamp according to any one of claims 2 to 5, wherein: the at least one locking element (13) is introduced into the profiled section (8) in a stamped state and/or by bending means.

7. A profile clamp according to any one of claims 1 to 6, wherein: the at least one profiled section (8) has a round, rectangular, triangular or trapezoidal contour, which is open on an inner side (11) facing away from the strap (2).

8. A profile clamp according to any one of claims 1 to 7, wherein: the entrainment band (2) is formed from a different material than the at least two profiled sections (8).

9. A profile clamp according to any one of claims 1 to 8, wherein: a sealing element (12) is positioned on at least one profiled section (8), wherein the sealing element (12) extends on the inner side (11) of the profiled section (8) facing away from the strap (2).

10. The profile clamp of claim 9, wherein: at least one web (16) for fixing the sealing element (12) is arranged on the side (11) of the profiled section (8) facing away from the clamping strap (2).

Technical Field

The invention relates to a profiled clamp having a clamping strap and a clamping device, which has two clamping jaws arranged at a distance from one another in a circumferential direction, wherein the clamping jaws are arranged in each case on the end side of the clamping strap and can be moved towards one another by means of at least one clamping tool, wherein at least two profiled sections which are spaced apart from one another on the circumferential side are arranged on the inner side of the clamping strap.

Background

For a liquid-tight connection of two pipelines, profiled clamps are usually used. Such a line has a connecting flange which is arranged at the end side and projects radially beyond the respective line. The profiled clamp can engage around and press the connection flanges of the pipelines together axially at the end faces of the pipelines facing away from each other. The pressing together of the connecting flanges is performed according to the principle of beveling. To this end, the profiled clamp has a plurality of profiled sections with a radially outwardly tapering profile.

The profiled clamp is usually made entirely of metal in order to be able to introduce a corresponding clamping force. In this case, the profiled section is usually fixed to a clamping strap by means of a welded or soldered connection, or the clamping strap itself is provided with a corresponding profiled intersection. The production of the profiled clamp is particularly complicated due to the introduction of the welded connection and the limited material choice. Furthermore, metal profiled clamps may damage sensitive or fragile connection flanges, such as those made of a plastic material or a glass.

Disclosure of Invention

It is therefore an object of the invention to provide a profiled clamp which can be produced with little complexity and can also be used with connecting flanges made of sensitive material.

The essential features of the invention are stated in the characterizing part of claim 1. Claims 2 to 11 relate to embodiments.

The invention relates to a profiled clamp having a clamping strap and a clamping device. The clamping device has two clamping jaws which are arranged at a distance from one another in a circumferential direction. The clamping jaws are in each case arranged on the end side of the clamping strap. Due to the at least one clamping means, the clamping jaws can be moved towards each other. Due to the clamping tool, the spacing between the clamping jaws can be reduced and the profile clamp can be clamped or closed. At least two profiled sections spaced apart from each other on the circumferential side are arranged on an inner side of the entrainment band, wherein the at least two profiled sections are connected to the entrainment band by means of at least one latching connection (means of at least one latching-on connection).

The clamping strap and the clamping jaw may preferably be made of a metallic material. The clamping means of the clamping device may be configured, for example, in the form of a releasable or non-releasable screw connection or as an adjustable or rigid toggle lever closure or the like.

The profiled section is preferably secured to the entrainment band by means of a latching connection. So that welding or soldering is no longer required to fix the profiled section. Thus, different material combinations can be used in the profile clamp according to the invention. In particular, combinations of materials that cannot be welded or soldered to one another can be used. The profiled section can be produced, for example, from fiber composites, elastomeric materials, thermoplastics, thermosets. The profiled section can also comprise a metallic material, wherein, because of the latching connection, the assembly of the profiled section on the strap can be simplified and accelerated.

The profiled clamp can therefore have profiled sections made of a "soft" material compared to metal and can therefore also be used in connection flanges of glass, composite or plastic material.

According to an embodiment, the clip band has at least one opening to construct the latching connection. At least one locking element which can be inserted into the opening of the clamping strap is arranged on a rear side of the profiled section facing the clamping strap. Thus, the at least one latching connection can be established by the opening with the at least one locking element of the profiled section.

The clamping strap can preferably have at least one opening for each profiled clamp used, which opening can receive in each case at least one locking element of the profiled clamp. Advantageously, a locking member may be inserted into each opening. In this case, the opening may be dimensioned in such a way that the locking element may protrude and engage in a positive locking manner. Thus, each profiled section can be positioned on the clamping band in a fixed manner by at least one constructed latching connection. Alternatively or additionally, at least one opening may be provided, which is formed in an elongated manner in the circumferential direction of the entrainment band, wherein such an opening may also receive locking elements of one or more profiled sections to form latching connections.

Preferably, the opening can be introduced into the entrainment band in an axial direction or transversely with respect to the circumferential direction of the entrainment band in a centered state. In a similar manner, the locking element can be arranged in an axially centered state on the side of the profiled section facing the entrainment band.

If the locking element of the profiled section is inserted into the at least one opening of the entrainment band in a positively locking and/or frictional engagement, the latching connection can be configured in a technically particularly simple manner and can be produced quickly. Inserting the profiled section into the clamping strap manually or in an automated manner is thereby sufficient to form a permanent connection between the clamping strap and the profiled section.

According to another embodiment, the opening of the entrainment band has an elongated shape oriented along the circumferential direction of the entrainment band. An opening formed in an elongated manner may be used to receive a plurality of locking elements. Alternatively or additionally, one or more locking elements may be inserted into the elongated opening and may form a latching connection that is movable in a circumferential direction. Thus, the elongated opening serves as a track and provides a defined movability of the profiled section in a circumferential direction, i.e. along the opening or the entrainment path. Thereby, the friction force generated between the profiled section and the connecting flange can be reduced when the profiled clamp is clamped.

According to another embodiment, the at least one locking element is arranged on the side of the profiled section facing the entrainment band and is constructed in a material-engaging manner. Preferably, the profiled section may comprise a plastics material and have one or more rear locking members for latching connection with the clip strap. Such a profiled section can be produced, for example, by an injection molding method. Alternatively, such a profiled section with a locking element can also be produced by an additive manufacturing method. The locking element can also be positioned subsequently at the rear of the profiled section, for example by means of gluing or welding. The rear side of a profiled section is the side of the profiled section facing the entrainment band.

The latching connection can be produced in a technically particularly simple manner if the at least one locking element is introduced into the profiled section in a stamped and/or bent state. Thus, the profiled section may comprise a plastics material or a metal. In the latched connection position, material can be pressed out of the rear side of the profiled section under the effect of pressure and temperature and form the locking element. Material pressed out of the rear side can be used to produce a positively locking and/or frictionally engaged latching connection.

According to a further embodiment, the at least one profiled section has a round, a rectangular, a triangular or a trapezoidal contour, which is open on the side facing away from the entrainment band. In this case, the profiled section has two profiled side flaps which are connected to each other by a profiled base. Profiled sections of different shapes can be combined with a universally usable clamping strap. In particular, it is possible to provide a profiled clamp which differs only in respect of the profiled section by only modifying the profiled section.

According to a further embodiment, the entrainment is constructed of the same material as the at least two profiled sections or of a different material. Due to the latching connection, materials that cannot be glued or welded to one another can be combined with one another. For example, the clip band with the gripping means may comprise a metal and the profiled section may comprise a plastics material. In particular, the profiled section may comprise a fibre reinforced plastics material, a carbon, an elastomeric material or the like. The profiled section may alternatively or additionally be at least partially reinforced or reinforced by metal strips or ribs. In this case, the profiled section may also comprise a metal base member covered by a plastics material.

Since the profiled sections are not welded to the clip strip, but "snap" into one another by means of a latching connection, a wider variety of materials can be used to produce the profiled clip.

If a seal is positioned on at least one profiled section, the use of a separate seal and an intermediate ring between the connecting flanges can be dispensed with. The seal extends away from the inner side of the entrainment band at the profiled section. For example, the seal may be configured in the form of a sealing ring or an annular flat seal which extends in a circumferential direction along the inner side of the profiled section and radially inwardly. Preferably, the sealing element is uninterrupted, i.e. forms a closed circle, and is at least partially connected to the entrainment band and/or the at least one profiled section. The orientation of the seal relative to the connecting flange can thereby be dispensed with.

The sealing element can be arranged and oriented on the profiled section in a particularly simple manner if at least one web for receiving the sealing element is arranged on the inner side of the profiled section facing away from the entrainment band.

Preferably, the at least one lamella is introduced into the opening contour in an axial direction in a centered state. The sealing element may preferably have a radially introduced recess or groove in which the web may protrude and secure the sealing element. In particular, the at least one lamella can be combined with different sealing elements.

According to another embodiment, the at least one sheet is configured to be rigid or flexible in an axial direction. Depending on the application of the profiled clamp, an axial compensation can be achieved when the connecting flange is positioned on the profiled section of the profiled clamp. For a sheet constructed in a rigid manner, a fixed connection point in the profiled clamp can be defined as a connection point of the connection flange.

Drawings

Other features, details and advantages of the invention will be understood from the wording of the claims and the following description of the embodiments with reference to the drawings, in which:

fig. 1 is a perspective view of a profiled clamp according to an embodiment.

Fig. 2 is a section a-a in fig. 1.

Fig. 3 is a perspective view of a profiled clamp according to another embodiment.

Fig. 4 is a section B-B of fig. 2.

Detailed Description

Fig. 1 is a perspective view of a profile clamp according to an embodiment of the present invention. The profiled clamp 1 has a clamping strap 2 and a clamping device 3. The clamping band 2 is made of a metal or a metal alloy, for example high-grade steel.

The clamping device 3 has two clamping jaws 4 which are arranged at a distance D from one another in a circumferential direction. The clamping jaws 4 are arranged at the ends of the clamping strap 2, respectively. Due to the at least one clamping means 5, the clamping jaws can be moved towards each other. According to the embodiment shown, the clamping device 3 is configured as a toggle lever closure

A lever which can be adjusted by means of a screw 6 is used as a clamping tool 5. With the screw 6, the distance D between the clamping jaws 4 can be adjusted in the closed state of the clamping tool 5. In fig. 1 and 3, the clamping device 3 is shown in a closed state.

According to the embodiment, three profiled sections 8 are provided at an inner side 7 of the clamping strap 2. The profiled sections 8 are spaced apart from one another in a circumferential direction U. For this purpose, the profiled section 8 is connected to the entrainment band 2 in a fixed manner by means of a latching connection 9.

The profiled section 8 has a side 10 or rear side facing the strap 2 and an inner side 11 facing away from the strap 2. At the rear side 10, the profiled section 8 is connected to the inner side 7 of the entrainment band 2 by means of a latching connection 9. According to an embodiment, each profiled section is provided on two latching connections following the entrainment band 2.

At the inner side 11 of the profiled section 8 facing away from the clamping strap 2, a sealing element 12 is provided. The sealing element 12 is configured as an annular sealing lip and extends at the circumferential side inside the profiled section 8.

Fig. 2 shows a section a-a in fig. 1 to illustrate the structure of a latching connection 9. The latching connection 9 is formed by a locking element 13 cooperating with an opening 14 formed in the strap 2.

The locking element 13 is constructed on the rear side 10 of the profiled section 8. According to the example shown, the profiled section 8 can be produced in one piece or in one piece with at least one locking element 13. For example, the profiled section 8 and the at least one locking element 13 may be made of a plastic material or a fiber reinforced plastic material.

The opening 14 is introduced into the entrainment band 2. For example, a plurality of openings can be punched into the clip strip 2 with a defined spacing from one another. In this embodiment, the opening 14 and the locking element 13 have a rectangular basic shape.

Due to a projection 15, the locking member 13 is formed in an axial direction a slightly larger than an axial extent of the opening 14. It is thus possible to push a locking member 13 through the opening 14 in a radial direction R with a defined applied force and to latch or lock. Due to this cooperation, a kind of latching connection 9 is created. For this purpose, the locking element 13 may also have an undercut into which an edge of the opening 14 can engage.

The profiled section 8 has a trapezoidal contour with the at least one locking element 13 at the rear side 10 thereof and is open on the inner side 11 facing away from the entrainment strip 2. In this embodiment, the opening angle B between the shaped flanks of the shaped segments 8 is 90 °. However, the opening angle B may be greater or smaller than 90 °.

At the inner side 11 of the profiled section 8, which is configured to open, a sheet 16 is arranged. The web 16 extends from the profiled section 8 in a radial direction R and is introduced into a groove of the seal. The web 16 can be connected to the profiled section 8 in a positively locking or materially engaging manner and thus position the sealing element 12 at least in a circumferential and/or axial direction in a fixed manner relative to the profiled section. In this case, provision may be made for no fixing means to be provided in the radial direction in order to achieve a relative movement between the sealing element and the profiled section in the event of a reduction in diameter as a result of the clamping of the profiled clamp. According to an alternative embodiment, the sheet 16 can be stamped in an annular manner and inserted in a non-releasable manner without a fixed connection into the opening angle B of the profiled section.

The profiled section 8 is intended to receive a connecting flange (not shown) of two pipelines. Preferably, in an axial direction a on both sides of the sealing element 12, a connecting flange of a pipeline can be provided, and due to the closing of the clamping device 3, the connecting flanges are pressed axially towards each other by the profiled sections 8 and against the sealing element 12.

Fig. 3 shows a profiled clamp 1 according to a further embodiment. In contrast to the profiled clamp 1 shown in fig. 1, no seal is provided in this case. Furthermore, the size of the opening 14 in a circumferential direction is significantly larger than the locking element 13 of the profiled section 8. For example, the opening may have a range of two to ten times the range in a circumferential direction U, as compared with a range of the locking member 13. Thanks to such an elongated opening 17, the profiled section 8 can be moved in a circumferential direction U over the locked locking element 13. In this case, the elongated opening 17 serves as a guide in which a displacement of the profiled section 8 in a circumferential direction is possible. Since the profiled section 8 can be displaced in the opening 17, a friction force can be reduced when the profiled clamp 1 is clamped between the profiled section 8 and the connecting flange.

Fig. 4 shows a section B-B of fig. 3. Here, the introduction of the locking element 13 into the profiled section 8 by means of a stamping/bending process is shown. The profiled section 8 stamped in this way can be produced from a metal sheet. The locking element 13 is slightly larger in an axial direction a than the opening 17 and can therefore be inserted into the opening in a frictionally engaging and/or positively locking manner.

Depending on the shape of the locking element 13, the profiled section 8 can be inserted laterally or obliquely from an axial direction into the openings 14, 17 provided for this purpose. Alternatively, the profiled section 8 can be latched in the opening 14, 17 along a radial direction R.

The present invention is not limited to one of the above-described embodiments, but may be modified in various ways. Thus, for example, more than two or three profiled sections may also be provided. Furthermore, the profiled section can also be constructed, for example, from a plurality of sections with two side pieces, each having at least one locking element which is received in a different or common opening in the clip band.

All features and advantages which are evident from the claims, the description and the drawings, including structural details, spatial arrangements and method steps, can be used both individually and in the most varied combinations in an inventive manner.

Reference numerals

1 Special-shaped clamp

2 clamp belt

3 clamping device

4 clamping jaw

5 clamping tool

6 Adjustable screw of clamping tool

7 inner side of the clip band

8 special-shaped section

9 clamping

10 rear side of the profiled section

11 inner side of the special-shaped section

12 seal

13 locking piece

14 opening

15 projection

16 thin plate

17 elongated opening

Axial direction A

Opening angle of B special-shaped section

Distance of D clamping jaws

R radial direction

In the U circumferential direction