RU209377U1 - DEVICE FOR FASTENING BOTTOM SEISMIC STATIONS TO A HAIL - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used for rigid fastening to a cable (halyard) in various industries, in particular for attaching bottom stations to a halyard during seismic surveys in water areas. The technical result is to reduce the time of engagement and disengagement of the cable. The essence of the utility model lies in the fact that the device for attaching bottom seismic stations to the halyard contains a body with cable guides, a pair of eccentric clamping elements mounted on the body axis with the possibility of pressing the cable to the guides. In addition, each eccentric element is provided with a control lever mounted on the housing axis and connected to the eccentric element by means of a pin. According to the utility model, each guide is made in the form of a curved bracket, and the guides are installed in series along the cable and offset one relative to the other by a distance not less than the transverse dimension of the cable, with the possibility of the cable passing between the guides before its subsequent placement inside the bends of the guides. The bends of the guides are directed in opposite directions relative to the longitudinal geometric axis of the cable installed in the guides. Each eccentric element control lever is made in the form of a box-shaped protective casing located outside the eccentric element. In the opening of the casing there is a pin of the eccentric element with the possibility of rotation of the latter when the casing is turned, and the casing is provided with spring-loaded latches interacting with the casings with the possibility of their fixation from rotation in one of the positions. 1 w.p. f-ly, 6 ill.

Description

The utility model relates to the field of mechanical engineering and can be used for rigid fastening to a cable (halyard) in various industries, in particular for attaching bottom stations to a halyard during seismic surveys in water areas.

A cable clamp is known, comprising a housing with cable guides, a pair of eccentric clamping elements mounted on the axis of the housing with the possibility of pressing the cable to the guides, each eccentric is equipped with a control lever mounted on the axis of the housing and connected to the eccentric with a finger (see RU 2373442 C2, published 11/20/2009).

The disadvantages of the known device are the complexity of engagement and the need to either break the cable or thread it through the hole of the device, which increases the time of these operations.

The technical problem is to eliminate the noted shortcomings.

The technical result is the simplification of the engagement of the cable with the lock, while reducing the time of engagement and disengagement of the cable.

The problem is solved and the technical result is achieved by the fact that the device for attaching bottom seismic stations to the halyard contains a body with cable guides, a pair of eccentric clamping elements mounted on the axis of the body with the possibility of pressing the cable to the guides, while each eccentric element is equipped with a control lever mounted on the axis body and connected to the eccentric element with a pin, and according to the utility model, each guide is made in the form of a curved bracket and the guides are installed in series along the cable and offset one relative to the other by a distance not less than the transverse dimension of the cable with the possibility of the cable passing between the guides before its subsequent placement inside the bends of the guides, the bends of the guides are directed in opposite directions relative to the longitudinal geometric axis of the cable installed in the guides, each control lever of the eccentric element is made in the form of a box-shaped protective casing located outside the eccentric element, in the opening of the casing there is a pin of the eccentric element with the possibility of turning the latter when the casing is turned, and the casing is equipped with spring-loaded latches interacting with the casings with the possibility of their fixation from rotation in one of the positions. On the outer surface of the eccentric element in contact with the cable, spikes can be located.

The utility model is illustrated with the help of drawings.

On FIG. 1 shows a general view of the device for attaching bottom seismic stations to the halyard (hereinafter referred to as the device).

On FIG. 2 - device in section, in the closed position.

On FIG. 3 - the same, in the open position.

On FIG. 4 - sequence of rope engagement by the device, introduction of the rope into the gap between the guides.

On FIG. 5 - introduction of the cable into the guide devices.

On FIG. 6 - snapping the covers and pinching the cable in the guides.

The device comprises a housing 1 with guides 2 of the cable 3 (halyard, rope or any flexible element), a pair of eccentric clamping elements 4 mounted on the axis 5 of the housing 1 with the possibility of pressing the cable 3 to the guides 2. Each eccentric element 4 is equipped with a control lever mounted on body axis and connected to the eccentric element 4 by means of a pin 6. In this case, each guide 2 is made in the form of a curved bracket and the guides 2 are installed in series along the cable 3 and are displaced one relative to the other by a distance "d" not less than the transverse dimension of the cable 3 with the possibility the passage of the cable 3 between the guides 2 before its subsequent placement inside the bends of the guides 2. The bends of the guides 2 are directed in opposite directions relative to the longitudinal geometric axis of the cable 3 installed in the guides 2. Each control lever of the eccentric element 4 is made in the form of a box-shaped protective casing 7 located outside eccentric element and 4. In the hole 8 of the casing 7 there is a pin 6 of the eccentric element 4 with the possibility of turning the latter when the casing 7 is turned. Fixation is carried out due to the entry of the latch 9 into the reciprocal hole 10 in the casing 7.

On the outer surface of the eccentric element 4, in contact with the cable 3, spikes 11 can be located.

Housing 1 fastens all the elements together and performs the main function of engagement. The curved brackets of the guides 2 are parts of the body 1 and are fastened together with rivets 12 and the body 1 also has a hole 13 for attaching a leash (not shown in the drawings) or a carabiner. The axis 5 of the eccentric element 4 is riveted in the body 1. The spring on the axis 5 of the eccentric element presses it against the guide 2 of the body 1. The finger 6 of the eccentric element, protruding beyond the dimensions of the casing 7, contacts with the hole 8 in the protective casing 7 and serves to open the lock by lowering downwards of casings 7. Elastic or spring-loaded latch 9 has a special shape, blocks casing 7, excluding arbitrary opening of the device.

The described utility model is used as follows. The device is intended for attaching bottom stations to a halyard during seismic surveys in water areas, in the transit zone and on land areas adjacent to the water areas under study, in particular, to search for deep hydrocarbons, as well as for monitoring and engineering work. The device is securely fixed to a smooth halyard with a diameter of 8 to 12 mm, without the need for knots and additional adjustment. It has the effect of self-tightening, that is, with an increase in the load on the device, the clamping of the halyard will increase. The fixing elements have elastic latches, which facilitates the opening of the device in manual and automatic modes. The device has a symmetrical shape, so when lifting the "spit" with stations from either end, its unambiguous positioning is ensured.

The bottom station is attached to the device with a leash. During lowering operations, the device, delivered along with the station along the conveyor, is installed by the operator in the engagement carriage. During lifting operations, the device is unhooked from the halyard and sent further along the conveyor with the station.

To hook the device onto cable 3 (halyard) it is necessary:

1. Open the device - press the latches 9 to the stop and pull the casings 7 down.

2. Install the device on the cable 3 - insert the cable 3 into the slot between the guides 2 of the body 1 and turn the device 90º clockwise.

3. Close the device - slam the covers 7, it is not necessary to press the latches 9, the closure occurs automatically.

Thus, the use of the claimed device allows simple operations to ensure reliable and quick fixing of the bottom station to the halyard, which significantly speeds up the operations of lowering/raising the bottom stations. The device provides the possibility of hooking the clamp on a cable of infinite length (on any section of the cable).

Claims (2)

1. A device for fastening bottom seismic stations to a halyard, containing a body with cable guides, a pair of eccentric clamping elements mounted on the axis of the body with the possibility of pressing the cable to the guides, while each eccentric element is equipped with a control lever mounted on the axis of the body and associated with the eccentric element with the help of a finger, characterized in that each guide is made in the form of a curved bracket and the guides are installed in series along the cable and shifted relative to each other by a distance not less than the transverse size of the cable with the possibility of the cable passing between the guides before its subsequent placement inside the bends of the guides, the bends of the guides directed in opposite directions relative to the longitudinal geometric axis of the cable installed in the guides, each control lever of the eccentric element is made in the form of a box-shaped protective casing located outside the eccentric element, in the hole the skin the pin of the eccentric element is placed on the shaft with the possibility of rotation of the latter when the casing is turned, and the casing is provided with spring-loaded latches interacting with the casings with the possibility of their fixation from rotation in one of the positions. 2. A device for attaching bottom seismic stations to a halyard according to claim 1, characterized in that spikes are located on the outer surface of the eccentric element in contact with the cable.

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