CN203229344U - Underwater cable arrangement machine - Google Patents
Underwater cable arrangement machine Download PDFInfo
- Publication number
- CN203229344U CN203229344U CN 201320242173 CN201320242173U CN203229344U CN 203229344 U CN203229344 U CN 203229344U CN 201320242173 CN201320242173 CN 201320242173 CN 201320242173 U CN201320242173 U CN 201320242173U CN 203229344 U CN203229344 U CN 203229344U
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- cable
- rotation
- axis
- under water
- out cylinder
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Abstract
The utility model belongs to the field of ocean underwater transmission and particularly relates to an underwater cable arrangement machine capable of playing a role of guiding an underwater cable and enabling the cable to smoothly run. The underwater cable arrangement machine comprises a support connecting yoke body, a rotation device and a revolution device. The rotation device and the revolution device are respectively connected with both ends of the support connecting yoke body; the revolution device is provided with a revolution axis arranged on an underwater platform; one end of the support connecting yoke body is rotatably connected with the revolution axis; the support connecting yoke body and the rotation device do revolution around the revolution axis; the rotation device comprises a rotation axis and an outer cylinder; the rotation axis is arranged at the other end of the support connecting yoke body; the outer cylinder is sheathed onto the rotation axis and rotates around the rotation axis; and the cable on the underwater platform is located between a reel and the outer cylinder and is retracted and released along an axial direction. The underwater cable arrangement machine provided by the utility model can rotate within a wide range around the revolution axis, so that the running of the cable is positioned, and the cable is arranged in order. The outer cylinder can rotate around the rotation axis, so that friction of the contact of the outer cylinder and the cable is extremely small, and the normal movement of the cable is not influenced.
Description
Technical field
The utility model belongs to ocean water underdrive field, specifically a kind of underwater cable is play the guiding role and guarantees that cable is along the cable-remover under water of sliding operation.
Background technology
In oceanographic survey and resource exploration, often need transport instrument and equipment with cable.Because be subjected to the effect of ocean current in the ocean, cable often departs from the track of original design and operation.In order to guarantee cable operation in place, sometimes need running orbit is limited, as cable winding problem on cylinder of winch under water etc.Simultaneously, thisly spacingly can not apply too big friction force to cable again, in order to avoid influence its normal operation.
The utility model content
The purpose of this utility model is to provide a kind of cable-remover under water.This under water the pressure cable parts that contact with cable of cable-remover can on a large scale, rotate, to guarantee the location to the cable operation; The out cylinder that contacts with cable simultaneously again can be around self rotating shaft rotation, and the friction force that out cylinder is contacted with hawser is minimum, does not influence the proper motion of hawser substantially.
The purpose of this utility model is achieved through the following technical solutions:
Cable-remover under water of the present utility model is installed on the underwater platform, be positioned at the periphery of underwater platform coiling, described cable-remover under water comprises the moving device of autorotation device, support and connection support body and revolution, wherein the moving device of autorotation device and revolution is connected to the two ends of support and connection support body, the moving device of described revolution has the hollow shaft that is installed on the underwater platform, one end and the hollow shaft of support and connection support body are rotationally connected, and support and connection support body and autorotation device are around this hollow shaft revolution; Described autorotation device comprises the axis of rotation and out cylinder, and this axis of rotation is installed in the other end of described support and connection support body, and described out cylinder is enclosed within on this axis of rotation, around axis of rotation rotation; Cable on the described underwater platform is between described reel and described out cylinder, vertically and from inside to outside or ecto-entad folding and unfolding cable.
Wherein: the two ends of described out cylinder are rotationally connected by first antifriction-bearing box and the described axis of rotation respectively, are provided with in inside, out cylinder two ends the axial spacing silk braid of first antifriction-bearing box; Described out cylinder is the inner hollow structure, and described silk braid is contained in the end of out cylinder, and is connected with out cylinder by jackscrew; The described axis of rotation is stepped shaft, and the diameter at two ends is less than the diameter of centre, and described first antifriction-bearing box is by the shaft shoulder and silk braid axial location; The barrel at described out cylinder both ends radially has the screw that inserts for jackscrew; Described support and connection support body comprise be symmetrical arranged, two parts that structure is identical, every part includes side pole, upper cover and lower sleeve, wherein upper cover and lower sleeve are separately positioned on the two ends of side pole, the two ends of described hollow shaft respectively with two parts in lower sleeve be rotationally connected, and pass side pole in two parts respectively; The two ends of the described axis of rotation are installed in respectively on the upper cover in two parts, leave the gap between two end faces of out cylinder and the upper cover in described two parts; Be respectively equipped with at least one on the described two-part side pole and connect hanger, the connection hanger on the pole of both sides is symmetrical arranged, quantity is identical, links to each other by connecting panel between the connection hanger of symmetry each other on the pole of both sides; The described upper cover inboard of cylinder outward has the groove that the axis of rotation is installed; Described lower sleeve reaches on the side pole corresponding with lower sleeve and has through hole, and wherein the aperture of lower sleeve is greater than the aperture of side pole; Described hollow shaft is stepped shaft, the diameter at two ends is less than the diameter of centre, the less two ends of hollow shaft diameter are rotationally connected by second antifriction-bearing box and lower sleeve respectively, and this second antifriction-bearing box is by the shaft shoulder of hollow shaft and the gap axial location between described lower sleeve and the side pole aperture.
Advantage of the present utility model and good effect are:
1. revolution combines with rotation, the utility model can rotate on a large scale around hollow shaft, and to guarantee the location to the cable operation, out cylinder can be rotated around the axis of rotation again simultaneously, the friction force that out cylinder contacts with hawser is minimum, does not influence the proper motion of hawser.
2. rotation alerting ability, no matter the utility model is revolution or rotation, rotation all relies on ceramic rolling bearing to drive, and rotates more flexible.
3. anti-corrosive properties in the seawater, the most parts of the utility model are selected stainless steel material for use, and antifriction-bearing box is selected ceramic bearing for use, has stronger anti-seawater corrosion ability.
4. antifriction-bearing box of the present utility model can rotate in seawater for a long time, and antifriction-bearing box is arranged in out cylinder or lower sleeve, avoids the filling of invading of the winding of sea grass and silt.
Description of drawings
Fig. 1 is integral structure scheme drawing of the present utility model;
Fig. 2 is the partial enlarged drawing at A place among Fig. 1;
Fig. 3 is the partial enlarged drawing at B place among Fig. 1;
Fig. 4 is the utility model out cylinder structural representation;
Fig. 5 is the structural representation of the utility model support and connection support body;
Fig. 6 is the left view of Fig. 5;
Fig. 7 is the structural representation of the utility model axis of rotation;
Fig. 8 is the structural representation of the utility model hollow shaft;
Wherein: 1 is the autorotation device, and 101 is out cylinder, and 102 is first antifriction-bearing box, and 103 is jackscrew, and 104 is silk braid, and 105 is the axis of rotation, and 106 is screw;
2 are the support and connection support body, and 201 is side pole, and 202 is upper cover, and 203 is lower sleeve, and 204 for connecting hanger, and 205 is connecting panel, and 206 is tie bolt, and 207 is groove;
3 are the moving device of revolution, and 301 is hollow shaft, and 302 is second antifriction-bearing box.
The specific embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
Cable-remover under water of the present utility model is installed on the underwater platform, is positioned at the periphery of underwater platform coiling.As shown in Figure 1, cable-remover comprises the moving device 3 of autorotation device 1, support and connection support body 2 and revolution under water, wherein the moving device 3 of autorotation device 1 and revolution is connected to the two ends of support and connection support body 2, the moving device 3 of revolution has the hollow shaft 301 that is installed on the underwater platform, one end and the hollow shaft 301 of support and connection support body 2 are rotationally connected, autorotation device 1 integral body can be rotated around the hollow shaft 301 of the moving device 3 of revolution, simultaneously, autorotation device 1 and support and connection support body 2 can carry out rotation around the axis of rotation 105 again.
As Fig. 5, shown in Figure 6, support and connection support body 2 comprise be symmetrical arranged, two parts that structure is identical, every part includes side pole 201, upper cover 202 and lower sleeve 203, upper cover 202 and lower sleeve 203 two ends that are welded on side pole 201 respectively wherein, the inboard of every side pole 201 all is welded with at least one and connects that connection hanger 204 on 204, two side poles 201 of hanger is symmetrical arranged, quantity is identical; Present embodiment is to have welded two every side pole 201 to connect hanger.On two side poles 201 each other two of symmetry connect between the hangers 204 and link to each other by connecting panel 205, and by tie bolt 206 with to be connected hanger 204 affixed, two side poles 201 are linked into an integrated entity.Upper cover 202 opposed inside of two side poles 201 have groove 207, then have through hole on lower sleeve 203 and the side pole 201 corresponding with lower sleeve 203, and wherein the aperture of lower sleeve 203 is greater than the aperture of side pole 201.
As Fig. 2, Fig. 4 and shown in Figure 7, autorotation device 1 comprises out cylinder 101, first antifriction-bearing box 102, jackscrew 103, silk braid 104 and the axis of rotation 105, the axis of rotation 105 is stepped shaft, the diameter at two ends is less than the diameter of centre, and insert respectively in two grooves 207 on the upper cover 202 at the two ends of this axis of rotation 105.The less two ends of the axis of rotation 105 diameters are installed with first antifriction-bearing box 102 respectively, and out cylinder 101 is sleeved on first antifriction-bearing box 102, but with respect to the axis of rotation 105 rotations; Out cylinder 101 is the inner hollow structure, and the internal diameter of end, two ends is greater than the internal diameter of centre portion, is equipped with two silk braids 104 at out cylinder 101 two ends internal diameter larger parts; The barrel that out cylinder 101 packs into silk braid 104 radially has screw 106, insert jackscrew 103 in this screw 106, silk braid 104 is fixed, thereby to first antifriction-bearing box, 102 axial location, prevent that first antifriction-bearing box 102 from outwards sliding by the shaft shoulder on silk braid 104 and the axis of rotation 105 on the axis of rotation 105.All leave the gap between two end faces of out cylinder 101 and two upper covers 202, out cylinder 101 is freely rotated.
As Fig. 3 and shown in Figure 8, hollow shaft 301 is stepped shaft, and the diameter at two ends is less than the diameter of centre, and the less part of hollow shaft 301 two ends diameters is passed through hole on the lower sleeve 203 and the through hole on the side pole 201 successively; The less part of hollow shaft 301 two ends diameters is installed with second antifriction-bearing box 302 respectively, the less two ends of hollow shaft 301 diameters are rotationally connected with lower sleeve 203 by second antifriction-bearing box 302 respectively, and this second antifriction-bearing box 302 is by the shaft shoulder of hollow shaft 301 and the gap axial location between lower sleeve 203 and side pole 201 apertures.
Fitting process of the present utility model is:
A. as shown in Figure 5 and Figure 6, the two ends with upper cover 202 and the lower sleeve 203 of support and connection support body 2 is welded on side pole 201 respectively with connecting the inboard that hanger 204 is welded on side pole 201, constitute two strut bars;
B. as depicted in figs. 1 and 2, two first antifriction-bearing boxs 102 are through the two ends of the axis of rotation 105, out cylinder 101 is sleeved on first antifriction-bearing box 102, pack into two silk braids 104 respectively at the two ends of out cylinder 101 then, and with jackscrew 103 silk braid 104 is fixed, thereby by silk braid 104 antifriction-bearing box I102 is fixed;
C. as Fig. 1, Fig. 2 and shown in Figure 3, two second antifriction-bearing boxs 302 are through the two ends of hollow shaft 301, upper cover 202 is covered in the outer end of the axis of rotation 105, lower sleeve 203 is enclosed within on second antifriction-bearing box 302 of the moving device 3 of revolution.
D. as shown in Figure 1, with tie bolt 206 two connecting panels 205 are connected on the connection hanger 204, form cable-remover under water.
Principle of work of the present utility model is:
Claims (10)
1. cable-remover under water, it is characterized in that: this under water cable-remover be installed on the underwater platform, be positioned at the periphery of underwater platform coiling, described cable-remover under water comprises autorotation device (1), the moving device (3) of support and connection support body (2) and revolution, wherein the moving device (3) of autorotation device (1) and revolution is connected to the two ends of support and connection support body (2), described revolution is moved device (3) and is had the hollow shaft (301) that is installed on the underwater platform, one end of support and connection support body (2) and hollow shaft (301) are rotationally connected, and support and connection support body (2) and autorotation device (1) revolve round the sun around this hollow shaft (301); Described autorotation device (1) comprises the axis of rotation (105) and out cylinder (101), and this axis of rotation (105) is installed in the other end of described support and connection support body (2), and described out cylinder (101) is enclosed within on this axis of rotation (105), around the axis of rotation (105) rotation; Cable on the described underwater platform is between described reel and described out cylinder (101), vertically and from inside to outside or ecto-entad folding and unfolding cable.
2. by the described cable-remover under water of claim 1, it is characterized in that: the two ends of described out cylinder (101) are rotationally connected by first antifriction-bearing box (102) and the described axis of rotation (105) respectively, are provided with the silk braid (104) to first antifriction-bearing box (102) axial limiting in out cylinder (101) inside, two ends.
3. by the described cable-remover under water of claim 2, it is characterized in that: described out cylinder (101) is the inner hollow structure, and described silk braid (104) is contained in the end of out cylinder (101), and is connected with out cylinder (101) by jackscrew (103).
4. by the described cable-remover under water of claim 3, it is characterized in that: the described axis of rotation (105) is stepped shaft, and the diameter at two ends is less than the diameter of centre, and described first antifriction-bearing box (102) is by the shaft shoulder and silk braid (104) axial location.
5. by the described cable-remover under water of claim 3, it is characterized in that: the barrel at described out cylinder (101) both ends radially has the screw (106) that inserts for jackscrew (103).
6. by the described cable-remover under water of claim 1, it is characterized in that: described support and connection support body (2) comprise be symmetrical arranged, two parts that structure is identical, every part includes side pole (201), upper cover (202) and lower sleeve (203), wherein upper cover (202) and lower sleeve (203) are separately positioned on the two ends of side pole (201), the two ends of described hollow shaft (301) respectively with two parts in lower sleeve (203) be rotationally connected, and pass side pole (201) in two parts respectively; The two ends of the described axis of rotation (105) are installed in respectively on the upper cover (202) in two parts, leave the gap between two end faces of out cylinder (101) and the upper cover (202) in described two parts.
7. by the described cable-remover under water of claim 6, it is characterized in that: be respectively equipped with at least one on the described two-part side pole (201) and connect hanger (204), connection hanger (204) on the both sides pole (201) is symmetrical arranged, quantity is identical, links to each other by connecting panel (205) between the connection hanger (204) of symmetry each other on the both sides pole (201).
8. by claim 6 or 7 described cable-removers under water, it is characterized in that: described upper cover (202) inboard of cylinder (101) outward has the groove (207) that the axis of rotation (105) is installed.
9. by claim 6 or 7 described cable-removers under water, it is characterized in that: described lower sleeve (203) reaches on the side pole (201) corresponding with lower sleeve (203) and has through hole, and wherein the aperture of lower sleeve (203) is greater than the aperture of side pole (201).
10. by the described cable-remover under water of claim 9, it is characterized in that: described hollow shaft (301) is stepped shaft, the diameter at two ends is less than the diameter of centre, the less two ends of hollow shaft (301) diameter are rotationally connected by second antifriction-bearing box (302) and lower sleeve (203) respectively, and this second antifriction-bearing box (302) is by the shaft shoulder of hollow shaft (301) and the gap axial location between described lower sleeve (203) and side pole (201) aperture.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201320242173 CN203229344U (en) | 2013-05-07 | 2013-05-07 | Underwater cable arrangement machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201320242173 CN203229344U (en) | 2013-05-07 | 2013-05-07 | Underwater cable arrangement machine |
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CN203229344U true CN203229344U (en) | 2013-10-09 |
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CN 201320242173 Expired - Fee Related CN203229344U (en) | 2013-05-07 | 2013-05-07 | Underwater cable arrangement machine |
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CN (1) | CN203229344U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104140049A (en) * | 2013-05-07 | 2014-11-12 | 中国科学院海洋研究所 | Underwater cable press rolling device |
-
2013
- 2013-05-07 CN CN 201320242173 patent/CN203229344U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104140049A (en) * | 2013-05-07 | 2014-11-12 | 中国科学院海洋研究所 | Underwater cable press rolling device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20131009 Termination date: 20140507 |