RU226622U1 - Hinge clamp - Google Patents

Abstract

The utility model relates to the field of mechanical engineering, namely to hinged (power) clamps, which are used to connect flexible hoses or hoses with pipes made of hard (metal) material in various designs. The clamp contains: a tape (1), including an open annular part (6) and end parts (7) formed by the ends of the tape bent inward to form closed loops (8), in which windows (9) are made for the passage of the rod fastening element (4) , and in the end parts (7) tongues (10) are formed, which are bent relative to the end parts (7) with placement in reciprocal grooves (11) made in the annular part (6), and ensuring engagement with the annular part (6); two clamping elements (2, 3) in the form of solid cylinders, placed in the loops (8) of the tape (1) and having transverse holes (12) for the passage of the rod fastening element (4), and in the transverse hole (12) of one of the clamping elements (3) threaded; a rod fastening element (4) passing through the holes (12) of the clamping elements (2, 3) and the windows (9) of the hinges (8) and having, on the side of the free end (14), a threaded section (15) that engages with said thread in the hole (12) of the clamping element (3) and an arched liner (5) with sides (16), covering the open section of the annular part (6) of the tape and covering the edges of the tape (1), and the liner (5) is connected to one of the loops (8) tapes (1). The annular part (6) of the tape (1) in the area of connection with the end parts (7) has bends (18) directed outwards of the ring of the tape (1) and forming a receiving part for the ends of the tape (1). The technical result is an increase in the strength of the clamp and the maximum tightening torque of the connection of the flexible and rigid tubular elements. 3 salary f-ly, 4 ill.

Description

[01] Technical field

[02] The utility model relates to the field of mechanical engineering, namely to hinged (power) clamps, which are used to connect flexible hoses or hoses with pipes made of hard (metal) material in various structures related to motor transport, shipbuilding, machine tool construction, aviation and household industry.

[03] State of the art

[04] From the prior art, designs of hinged clamps are widely known, in which welding is used to connect parts of the tape (see, for example, RF patent RU 121890, 11/10/2012). Such clamps contain a tape rolled into a ring, two clamping elements, an insert that bridges the gap between the clamping elements, and a rod fastening element (screw). The tape has an open annular part and two end parts formed by the ends of the tape bent outward to form closed loops. In this case, in the loops of the tape there are cylindrical clamping (support) elements with transverse holes into which a rod fastening element passes, ensuring tightening of the clamp.

[05] The disadvantage of these analogues is the relatively low strength of the clamp and the low maximum tightening torque of the connection, due to the use of spot welding. When using galvanized steel strip, corrosion occurs in the welding area, which leads to an additional decrease in strength and reliability. This forces the finished product to be galvanized, which significantly complicates the production technology and cannot always provide high-quality coating.

[06] A pipe coupling for connecting pipe ends is known from the prior art (RF patent RU 2756715, 10/04/2021), which has a design similar to the claimed clamp. The coupling contains: a tape including an open annular part and end parts formed by the ends of the tape bent inward to form closed loops in which windows are made for the passage of a rod fastening element, and tongues are formed in the end parts, which are bent relative to the end parts and placed in reciprocal grooves , made in the annular part, and ensuring engagement with the annular part; two clamping elements in the form of solid cylinders placed in the loops of the tape and having transverse holes for the passage of a rod fastening element, and a thread is made in the transverse hole of one of the clamping elements; and a rod fastening element passing through the holes of the clamping elements and the hinge windows and having, on the side of the free end, a threaded portion that engages with said thread in the hole of the clamping element. Also, the design of the coupling may include an overlapping element that closes the gap between the loops. This element is made in the form of a ring placed inside the tape, in which a sealing gasket is additionally installed.

[07] This analogue is intended for a butt-tight connection of two pipes, as noted in the patent description. However, the analogue cannot be used as a power clamp for connecting a flexible tubular element (rubber hose or sleeve) with a rigid tubular element (for example, a pipe), carried out overlapping (when the flexible element is put on a rigid element). In such a connection, it is necessary to ensure uniform compression of the entire surface of the flexible element around the circumference, which is difficult in a hinged structure without the use of an arcuate liner. In this case, the annular covering element cannot perform the function of this liner, because its shape will not allow the clamp to evenly compress the connection of a flexible hose or pipe.

[08] The closest analogue of the utility model is a hinged clamp, disclosed in US patent US 6490765 B2, 12/10/2002. The clamp contains a tape, clamping elements and a rod fastening element. The tape includes an open annular part and end parts formed by the ends of the tape bent inward to form closed loops in which windows are made for the passage of the rod fastening element. In the end parts, tongues are formed, which are bent outward relative to the end parts, placed in reciprocal grooves made in the annular part and ensuring engagement with this annular part. The clamping elements are made in the form of hollow cylindrical sleeves placed in the loops of the tape and having transverse holes for the passage of the rod fastening element, one of which has a thread cut into it. In this case, the rod fastening element passes through the holes of the clamping elements and the hinge windows and has a threaded section on the side of the free end that engages with said thread in the hole of the clamping element. This analogue does not have the disadvantages inherent in welded clamps. However, the use of hollow sleeves as clamping elements reduces the strength properties of the connection. When tightening such a clamp, deformation of the clamping element may occur due to the small thickness of the sleeve wall, or failure of the threaded connection due to the short length of the threaded part in the hole of the clamping element, limited by the thickness of its walls. In addition, the design of such a clamp does not ensure uniform compression of the connection due to the presence of protruding ends of the tape on the inner surface. This also reduces the strength of the connection.

[09] Thus, the technical problem that the claimed utility model is aimed at solving is the insufficient reliability of the hinge clamps.

[010] Disclosure of the essence of the utility model

[011] The technical result of the utility model is to increase the strength of the connection between flexible and rigid tubular elements.

[012] The specified technical result is achieved in the utility model due to the fact that the hinge clamp contains: a tape, including an open annular part and end parts formed by the ends of the tape bent inward to form closed loops, in which windows are made for the passage of the rod fastening element, and in the end parts, tongues are formed, which are bent relative to the end parts, placed in reciprocal grooves made in the annular part, and ensuring engagement with the annular part; two clamping elements placed in the loops of the tape and having transverse holes for the passage of the rod fastening element, and a thread is made in the transverse hole of one of the clamping elements; and a rod fastening element passing through the holes of the clamping elements and the hinge windows and having, on the side of the free end, a threaded portion that engages with said thread in the hole of the clamping element. In this case, unlike the closest analogue, the clamping elements are made in the form of solid cylinders, and the annular part of the tape in the area of connection with the end parts has bends directed outward of the tape ring and forming a receiving part for the ends of the tape.

[013] The specified technical result is also achieved in private embodiments of the utility model due to the fact that:

[014] - a sleeve is put on the rod fastening element, placed between the head of the rod fastening element and the tape loop,

[015] - the rod fastening element is made in the form of a bolt or screw,

[016] - the tape is made of galvanized steel.

[017] Unlike similar clamps that use a welded connection of parts of the tape, the claimed clamp, through the use of bent tongues placed in the reciprocal grooves of the tape, makes it possible to increase the reliability of the connection of the end parts of the tape with its annular part. In addition, this design allows the ends of the tape to be bent inward, which gives greater connection strength compared to making external loops. The clamp production technology is also simplified due to the elimination of a complex welding operation and the possibility of using galvanized steel strip without galvanizing the finished product.

[018] Unlike the closest analogue, the clamping elements are made in the form of solid cylinders, which increases the strength and maximum tightening torque of the connection by increasing the length of the threaded part of the hole of the clamping element and eliminating its deformation. In addition, the clamp has bends in the tape that form receiving pockets for the ends bent inward, which gives uniform compression of the flexible hose or sleeve, unlike its closest analogue, where the ends at the junction with the annular part will create local excess pressure.

[019] In this case, unlike the coupling according to patent RU 2756715, the claimed clamp has, as a covering element, an arched liner with sides, covering the open section of the annular part of the tape and covering the edges of the tape. The specified liner, due to its arcuate shape in combination with the bends of the tape, allows you to create uniform pressure on the hose or sleeve during compression, moving along the tape, which will provide a greater maximum tightening torque and, as a result, increase the strength and tightness of the connection between the flexible and rigid tubular elements.

[020] Brief description of drawings

[021] The utility model is illustrated by drawings, where:

Figure 1 shows a general view of the clamp,

Figure 2 shows the front view of the clamp,

Figure 3 shows a side view of the clamp from the end of the rod fastening element,

Figure 4 shows a top view of the clamp.

[022] Structural elements are indicated in the figures by the following positions:

1 - tape,

2 - first clamping element,

3 - second clamping element,

4 - rod fastening element (screw or bolt),

5 - liner;

6 - annular part of the tape,

7 - end part of the tape,

8 - tape loop,

9 - hinge window,

10 - tongue of the end part,

11 - groove of the annular part,

12 - transverse hole of the clamping element

13 - head of the rod fastening element,

14 - end of the rod fastening element

15 - threaded section of the rod fastening element,

16 - bushing,

17 - side of the liner,

18 - bending of the tape.

[023] Implementation of a utility model

[024] The claimed clamp generally includes a galvanized steel strip (1), two clamping elements (2, 3), a rod fastening element (4) and a liner (5).

[025] The tape (1) is folded into an open ring forming an annular portion (6) and has two inwardly folded ends that form end portions (7) forming closed loops (8) of the tape (1). The loops (8) have extended windows (9) oriented along the tape to pass through the loops of the rod fastening element (4). The end parts (7) (at the ends of the tape) are rigidly attached to the annular part (6) of the tape. To do this, tongues (10) are cut out in the end parts (7), and there are matching grooves (11) in the annular part. In this case, the tongues (10) are bent relative to the end parts (7) essentially at an angle of 180° so that they pass into the reciprocal grooves (11) and engage with the annular part (6) (for clarity, in figures 1-4 the tongues (10 ) are shown not fully bent, at an angle of 90°). Thus, each tongue grips the outer surface of the annular part (6) in the area of the mating groove (11). In this case, the tongues (10) can be bent both in the direction of the edges of the tape and in the direction of its central part. Preferably, each annular part (7) is attached to the annular part (6) of the tape (1) by means of at least two tongues (10) and a corresponding number of mating grooves (11). In the area of connection of parts (6) and (7) of the tape (1), the annular part (6) may have small bends (18) directed outwards of the tape ring, which form a receiving part for the ends of the tape, which ensures a better fit of the tape to the part being connected and further increases the strength of the connection.

[026] The clamping elements (2, 3) are hinges of the clamp and are solid cylindrical elements (bosses) in which transverse holes (12) are made for the passage of the rod fastening element (4), combined with the windows (9) of the hinges (8) . In this case, in the hole (12) of one of the clamping elements (3) there is a thread, and in the other clamping element (2) the hole (12) is made smooth.

[027] The rod fastening element (4) is a screw or bolt with a head (13), on the free end (14) of which there is a threaded section (15). The rod fastening element (4) passes through the windows (9) of the hinges (8) and the holes (12) of the clamping elements (2, 3) in such a way that its head (13) is located on the side of the first clamping element (2) with a smooth hole, and the threaded portion (15) at the end (14) engages with the threads in the transverse hole (12) of the second clamping element (3), which ensures the tightening of the clamp.

[028] A cylindrical sleeve (16) may be placed on the shaft of the rod fastener (4) and placed between the head (13) and the hinge (8). Said bushing (16) ensures distance of the head (13) from the loop (8), making it easier to tighten the clamp when using a spanner, which can additionally increase the maximum tightening torque.

[029] The insert (5) is placed on the inside of the tape (1), covering the open area of the annular part (6). The insert (5) is made in the form of an arcuate element having a U-shaped profile with two sides (17) that wrap around the edges of the tape (1). In this case, the liner (5) is connected to one of the loops (8) of the tape (1) in the place of the annular part (6), for example, due to two internal protrusions formed on the sides (17) (not shown in the figures). The insert (5) protects the connected elements from cuts by the sharp edges of the tape and facilitates the sliding of the ends of the tape when tightening, which further increases the maximum tightening torque of the clamp connection.

[030] When installing the clamp, the rod fastening element (4) is removed from it and the tape (1) is placed around the tubular parts to be connected. Next, the rod element (4) is placed in the holes (12) of the clamping elements (2, 3) and tightened by rotating the head (13) using a suitable tool, in which the threaded section (15) engages with the thread of the hole (12) of the second clamping element (3), and the head (13) through the sleeve (16) exerts pressure on the loop, bringing the clamping elements (2, 3) closer together.

[031] The table below shows a comparison of the strength properties of clamps of the same size according to the declared utility model, the closest analogue (US 6490765 B2) and a clamp manufactured in accordance with the design of the coupling according to patent RU 2756715 (with a smaller tape width).

Claims (4)

1. Hinged clamp for connecting flexible and rigid tubular elements, containing a tape (1), including an open annular part (6) and end parts (7), formed by the ends of the tape bent inward to form closed loops (8), in which windows are made ( 9) for the passage of the rod fastening element (4), and in the end parts (7) tongues (10) are formed, which are bent relative to the end parts (7) with placement in reciprocal grooves (11) made in the annular part (6), and ensuring engagement with the annular part (6), two cylindrical clamping elements (2, 3), placed in the loops (8) of the tape (1) and having transverse holes (12) for the passage of the rod fastening element (4), and in the transverse hole ( 12) one of the clamping elements (3) has a thread, a rod fastening element (4) passing through the holes (12) of the clamping elements (2, 3) and the windows (9) of the hinges (8) and having a free end (14) on the side a threaded section (15) engaged with said thread in the hole (12) of the clamping element (3), and an arched liner (5) with sides (16) covering the open section of the annular part (6) of the tape and covering the edges of the tape ( 1), and the insert (5) is connected to one of the loops (8) of the tape (1), characterized in that the clamping elements (2, 3) are made in the form of solid cylinders, and the annular part (6) of the tape (1) in the zone connection with the end parts (7) has bends (18) directed outwards of the tape ring (1) and forming a receiving part for the ends of the tape (1). 2. The clamp according to claim 1, characterized in that the rod fastening element (4) is fitted with a sleeve (16) placed between the head (13) of the rod fastening element (4) and the loop (8) of the tape (1). 3. The clamp according to claim 3, characterized in that the rod fastening element (4) is made in the form of a bolt or screw. 4. The clamp according to claim 1, characterized in that the tape (1) is made of galvanized steel.