DE2262975C3 - Control organ for overload control of chains - Google Patents

Description

60

The invention relates to a control member for overload control of chains, in particular lashing and / or chain slings which, if the maximum permissible load for the respective chain is exceeded, a permanent Overload indicator supplies.

From GB-PS 8 97 116 a control member of the above type is known, which consists of a circular ring Link is formed after exceeding the maximum permissible load for the chain is deformed into an oval. The well-known controlling body is unable to fully satisfy for several reasons. A first reason is that the diameter of the circular ring member must be comparatively large in order to obtain a clear display. Another reason is that it is difficult to control the heat treatment of the annulus member so that the plastic deformation of the limb occurs with sufficient accuracy at a certain load and does not go uncontrollably into a destruction of the annulus member

It is also known from DE-OS 20 53 832 a Pre-set break element with two break inserts connected in parallel that take effect one after the other. at this predetermined breaking element, which is especially useful for glider towing devices is provided. the break inserts are formed by adjacent panels of the same length and width, those at the ends with Connection joint bores are provided for receiving screw bolts, which the break inserts Connect with straps and another screw bolt with thimbles. Between the connecting joint bores there are so-called breaking load bores through which the cross section of the breaking inserts is attached a point at a certain breaking load certain value is weakened around the two-stage To enable the known breaking element to work, the connection joint bores are one Break insert designed as elongated holes The predetermined breaking element described is capable of, apart from that it serves to fulfill a different task than the subject of the application, insofar as it is not satisfactory, than the accuracy with which the breaking strength of a plate weakened by drilling can be set, leaves something to be desired. The reason for this is that near the Boreholes develop stress peaks that easily exceed the yield point and solidification phenomena can trigger, which in turn influence the breaking load value. In addition, through the Breaking load bores the fiber flow in the breaking inserts can be interrupted in a way that more or less reduces the breaking load value.

The invention is based on the object of providing a control device of the type mentioned at the beginning create that is simple, compact and has a high response accuracy.

According to the invention, this object is achieved by creating a control element that has two Links of the chain can be connected, indicating an overload due to a change in their position to one another Has control parts that are used until the maximum permissible load on the chain is reached by at least a shear bolt in a normal operating position that is matched to the maximum load in terms of its shear strength from which they are held after exceeding the maximum load and shearing off the shear bolt pass into an overload display position in which they are held by at least one coupling element that is more resilient than the shear bolt.

The control member according to the invention offers the advantage over the known control member that the Function of the overload indicator and the overload transmission is assigned to different parts. That The locking device becomes effective when the maximum permissible load is exceeded, without the

The safety of the transmission of the forces occurring through the control body is at risk - The coupling element Rather, it guarantees that even after the shear bolt has been sheared off, the Forces are transferred. By using a shear bolt as a break when overloaded going component, a very precisely responsive control element is obtained in an extremely simple manner. the This is because the shear strength of a shear bolt can be determined more precisely and easily than that Breaking strength of plate-shaped breaking inserts provided with breaking load bores of the known Breaking element used type Opposite the elongated and in the direction of force flow arranged breaking inserts also offers a transverse bolt running transversely to the direction of force flow Advantage that it allows a short construction of the control member. Finally, after checking the respective chain and insertion of a new shear bolt, the control organ again within a very short period of time be taken into use because the shear bolt is replaceable

Developments of the invention are characterized in the subclaims

The invention is explained in more detail below with the aid of an exemplary embodiment shown in the drawing explained it shows

F i g. 1 shows the plan view of a first control element, shown partially in section, in the normal operating position

F i g. 2 shows the side view of the control member according to FIG. 1

3 shows a plan view corresponding to FIG. 1 the control unit in the overload display position

F i g. 4 shows a partial view of a chain with a second control element and

F i g. 5 shows the side view of the parts according to FIG. 4th

In Figs. 1 to 3, 11 and 12 are two control parts a first control body. These control parts have the form before. U-shaped bracket. The control part 11 is provided with a receptacle 14 at the end of its leg 13, while the leg 15 of the control part 12 has a receptacle 16 In the receptacles 14 and 16, the ends of the legs 17 and 18 of the protrude Control parts 11 and 12. Between the legs of the an insert 19 is arranged on both roller parts 11 and 12

The legs 13 and 15 and 17 and 18 are formed by fitting holes with round holes 20 and 21 for two aligned shear bolts 22 and 23 are provided. More round holes 24 and 25 as well Long holes 26 and 27 serve to guide or receive a coupling element 28, the cross section of which and strength is greater than the cross section and strength of the shear bolts 22 and 23.

The shear bolts 22 and 23 are at the initiation of

Tensile forces in the control body claimed on shear Is defined by the shear strength and the cross section of the shear bolts 22 and 23 transferable maximum load is exceeded, the control parts 11 and 12 go into the in F i g. 3 position shown above. In other words, they shift by a display amount a.

Since the shear bolt 22 in round holes 20 of the leg 15, the shear bolt 23, however, in round holes of the leg 13 is mounted, the two shear bolts must be aligned within the insert 19 can move. For this purpose, the insert is provided with a bushing 29 which forms an elongated hole. A further socket 30 surrounds the coupling element 28.

Should the control unit after an overload display has taken place are put back into use, the overloaded chain strand must be checked and then it is necessary to replace the destroyed shear bolts with new ones

In the F i g. 4 and 5 is a control element of a modified design with two control parts 31 and 32 The control part 31 has the shape of a plate which protrudes into a slot 33, which is like a gabel Projections 34 and 35 of the control part 32 is formed. The control part 31 is with the help of brackets 36 and 37 and bolts 38 and 39 are connected to a chain link of a chain strand. In two round holes 40 and 41 of the projections 34 and 35, the ends of a shear bolt 42 are also passed through Round hole 43 of the control part 31 protrudes into two further round holes 44 and 45 of the control part 32 and one The elongated hole 46 of the control part 31 is seated secured by a locking pin, a coupling element 48. This Coupling element 48 does not transmit any forces in the normal operating position shown in the drawing. It takes over the power transmission only when the Scherbobxn formed by a shear pin 4 ?. sheared off is, d. H. when the control part 31 has stepped out of the slot 33 so far that the coupling element it 48 comes to rest against the support surface 49 of the control part 32

The end of the control part 32 facing away from the bracket 36 is designed as an eyelet 50 into which another bracket 51 engages, which in turn has a bolt 52 with links of the chain strand to be checked for overload is connected

Through the illustrated design of the control parts or through the nature of their connection with the Chain links of a chain strand ensure that the control element can easily be integrated into a chain strand can be introduced and, if necessary, can also be simply exchanged, through the use a plate-shaped control part 31 gives a control member of particularly great simplicity and high Fatigue strength that is very easy to heat up

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Control unit for the upper load control of chains, in particular lashing and / or sling chains, that when the for the respective Chain provides a permanent overload indicator, characterized by that there are two links in the chain that can be connected, an overload due to a change their position to each other indicating control parts ι ο (11,12; 31, 32) has until reaching the permissible maximum load on the chain by at least one in its shear strength on the Shear bolts (22, 23; 42) matched to the maximum load are held in a normal operating position the one from which they were after exceeding the maximum load and shearing off the shear bolt (22,23; 42) pass into an upper load display position in which they be held by at least one coupling element (28; 48) which is more resilient than the Shear bolt. Z control element according to claim 1, characterized in that the coupling element (28; 48) is formed by a parallel to the shear bolt (22, 23; 42) arranged support bolt, which in the Area of the connection point or connection points between the two control parts (11, 12; 31,32) in at least one round hole (24,25; 44,45) of one (11; 31) and at least one elongated hole (26, 27; 46) of the other control part (12; 32) is led 3. Control member according to claim 1 or 2, characterized in that the Konuollteile (11, 12) of two essentially U-shaped. Ironing can be formed. 4. Control member according to claim 3, characterized in that one leg (13) of the first Control part (11) at the end with a receptacle (14) for one end of the leg (18) of the second Control part (12) is provided and the other leg (17) of the first control part (11) has a one corresponding receptacle (16) on the other leg of the second control part (12) pluggable end has, and that the receptacles (14; 16) and the ends of the respective legs of the shear bolt (22,23) and the coupling elements (28) are penetrated. 5. Control member according to claim 1 or 2, characterized in that a control part (31) has the shape a plate which is inserted into one of two fork-like projections (34,35) of the other control part (32) formed slot (33) protrudes. 6. Control member according to claim 5, characterized in that the plate-shaped control part (31) with at least one elongated hole (46) for the coupling element (48) and a fitting bore (43) for the shear bolt (42) is provided.