Transmission adjusting mechanism for cable installation platformTechnical Field
The invention relates to the technical field of installation equipment, in particular to a transmission adjusting mechanism for a cable installation platform.
Background
With the rapid development of economy, the demand for energy is increasingly increased, the development force is continuously enhanced by taking submarine oil gas as an important component of energy, and a cable is taken as an important medium for transmitting energy and information, is one of key equipment for offshore oil development, and provides electric power, hydraulic pressure, chemical agent injection and data transmission for submarine equipment, so that the requirements on various performances of the cable are high, and various indexes of the cable need to be tested by simulating a deep sea environment. For example, simulating the occurrence of a break in a cable in the deep sea, cutting off the broken section, splicing a new cable, and then testing the cable. Because the armor of cable adopts multilayer armor steel wire transposition to form, for this weight of cable is heavy, and the staff need two at least people to draw together two sections of cables on mounting platform when the test, then the third staff welds two sections of cables, after the test is accomplished, then will abandon the cable of welding part, causes the material extravagant, and more need many staff during the test, the manual welding appears the deviation again easily, inefficiency.
Disclosure of Invention
The invention mainly aims to provide a transmission adjusting mechanism for a cable installation platform, which is used for solving the problems of operation by multiple persons, low efficiency, welding deviation and material waste in the prior art.
In order to achieve the above object, the present invention provides a transmission adjusting mechanism for a cable installation platform, the transmission adjusting mechanism comprising: a housing; the sleeve body is fixed in the shell; the transmission assembly comprises a transmission main body and a transmission auxiliary body, wherein one end of the transmission main body is connected in the transmission auxiliary body through threads and drives the transmission auxiliary body to axially reciprocate; the auxiliary transmission body is provided with a fixing piece, the fixing piece is arranged at one end of the auxiliary transmission body, a spiral guide assembly is arranged between the other end of the auxiliary transmission body and the sleeve body, and the spiral guide assembly is used for the auxiliary transmission body to be installed on the sleeve body to do spiral movement along a preset channel.
Further, the spiral guide assembly comprises at least one protrusion and a guide groove matched with the protrusion, the protrusion is arranged at the other end of the transmission auxiliary body, the guide groove is arranged on the sleeve body, and the transmission auxiliary body moves in the guide groove through the protrusion so as to realize spiral movement of the transmission auxiliary body relative to the sleeve body. The structure of combining the bulge and the guide groove is adopted, so that the bulge can move along a path set by the guide groove, the structure is very simple, the spiral movement of the transmission pair relative to the sleeve body can be well realized, and meanwhile, the bulge is arranged on the transmission pair body to increase the rigidity of the transmission pair body.
Further, the spiral guide assembly comprises two protrusions and two guide grooves matched with the two protrusions, and the two protrusions are uniformly distributed on the other end of the transmission auxiliary body. The two groups of bulges and the leading-in groove structure are arranged, so that the stress is uniform when the transmission auxiliary body moves spirally in the sleeve body, and the service life of the bulges is prolonged.
Further, the spiral guide assembly comprises at least one protrusion and a guide groove matched with the protrusion, the protrusion is arranged in the sleeve body, the guide groove is arranged at the other end of the transmission auxiliary body, and the transmission auxiliary body moves in the guide groove through the protrusion so as to realize spiral movement of the transmission auxiliary body relative to the sleeve body. The structure of combining the bulge and the guide groove is adopted, so that the bulge can move along a path set by the guide groove, the structure is very simple, and the transmission pair can perform spiral movement relative to the sleeve body well.
Further, the spiral guide assembly comprises two protrusions and two guide grooves matched with the two protrusions, and the two protrusions are uniformly distributed in the sleeve body. The two groups of bulges and the leading-in groove are arranged, so that the stress is even when the spiral auxiliary body moves spirally in the sleeve body, and the use life of the bulges is prolonged.
Further, the spiral angle of the guide groove is consistent with the spiral angle of the fixing piece. The spiral angle of the guide groove is consistent with the spiral angle of the fixing piece, and the setting of the self-defined angle is realized according to the cable test requirement.
Further, the axis angle of the guide groove is less than or equal to 60 degrees. The fixing piece is enabled to achieve a better spiral fixing effect.
Further, the fixing piece comprises clamping parts which are arranged in rows at equal angles, and the clamping parts are sector-shaped. According to the test demand, equipartition according to the circumference angle with the clamping part, can set up 2 or 3 or 4 or more, the clamping part shape is fan-shaped, and the clamping part misplaces with the buckle department of cable more easily, practices thrift product cost simultaneously.
Further, the section of the external thread on the transmission main body is trapezoid, and the top surface of the protrusion is arc-shaped. The external thread has a trapezoid cross section, so that the transmission main body can realize axial reciprocating transmission on the transmission auxiliary body, and the top surface of the bulge is arc-shaped, so that the bulge can conveniently slide in the guide-in groove.
Further, a plurality of connecting columns are arranged on the shell and used for connecting two sections of cables.
Further, a handle is arranged at the other end of the transmission main body, and the handle is used for radial movement of the transmission main body. The handle is arranged, so that the transmission main body is convenient to operate.
Compared with the prior art, the invention has the advantages that one end of the transmission main body is arranged in the transmission auxiliary body through threads and drives the transmission auxiliary body to do axial reciprocating motion, the spiral guide component is arranged between the transmission auxiliary body and the sleeve body, the spiral guide component realizes that the transmission auxiliary body is arranged on the sleeve body and does spiral motion along a preset channel, namely, when the transmission main body drives the transmission auxiliary body to do axial motion, the transmission auxiliary body does spiral motion along the preset channel on the sleeve body, namely, the fixing piece on the transmission auxiliary body does spiral motion simultaneously during the axial motion.
When the mounting is close to the buckle department of cable, clockwise rotation transmission main part makes the mounting block the buckle of cable block with mounting and buckle dislocation, make cable can zonulae occludens on the casing, because of mounting and buckle dislocation, the cable is difficult to break away from the casing, anticlockwise transport transmission main part after the test is accomplished, make the mounting turn forward and break away from the buckle ground fixed, the cable loosens with the casing, transmission adjustment mechanism who adopts this structure only needs alone just can realize fixing cable close-fitting on mounting platform, need not the welding, the cable of test can reuse, save material, it is efficient.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:
FIG. 1 is a schematic diagram of a transmission adjustment mechanism of the present invention;
FIG. 2 is a cross-sectional view of the drive adjustment mechanism of the present invention;
fig. 3 is a cross-sectional view of the sleeve of the present invention.
Wherein the figures include the following figures:
the device comprises a shell 1, a connecting column 11, a sleeve body 2, a transmission assembly 3, a transmission main body 31, a transmission auxiliary body 32, a fixing piece 321, a clamping portion 3211, a protrusion 33 and a guide groove 34.
Detailed Description
The invention mainly aims to provide a transmission adjusting mechanism for a cable installation platform, which is used for solving the problems of operation by multiple persons, low efficiency, welding deviation and material waste in the prior art.
The technical scheme in this application embodiment is for solving above-mentioned many people operation, and is efficient, appears welding deviation, the extravagant problem of material, and the overall thinking is as follows:
one end of the transmission main body is arranged in the transmission auxiliary body through threads and drives the transmission auxiliary body to do axial reciprocating motion, a spiral guide component is arranged between the transmission auxiliary body and the sleeve body, the spiral guide component realizes that the transmission auxiliary body is arranged on the sleeve body and does spiral motion along a preset channel, namely, when the transmission main body drives the transmission auxiliary body to do axial motion, the transmission auxiliary body does spiral motion along the preset channel on the sleeve body, namely, a fixing piece on the transmission auxiliary body does spiral motion simultaneously during axial motion.
When the mounting is close to the buckle department of cable, clockwise rotation transmission main part makes the mounting block the buckle of cable block with mounting and buckle dislocation, make cable can zonulae occludens on the casing, because of mounting and buckle dislocation, the cable is difficult to break away from the casing, anticlockwise transport transmission main part after the test is accomplished, make the mounting turn forward and break away from the buckle ground fixed, the cable loosens with the casing, transmission adjustment mechanism who adopts this structure only needs alone just can realize fixing cable close-fitting on mounting platform, need not the welding, the cable of test can reuse, save material, it is efficient.
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
As shown in fig. 1-3, a drive adjustment mechanism for a cable mounting platform, comprising: the device comprises a shell 11, a sleeve body 2 and a transmission assembly 3, wherein the sleeve body 2 is fixed in the shell 11; the transmission assembly 3 comprises a transmission main body 31 and a transmission auxiliary body 32, wherein one end of the transmission main body 31 is connected in the transmission auxiliary body 32 through threads and drives the transmission auxiliary body 32 to axially reciprocate; the transmission auxiliary body 32 is provided with a fixing piece 321, the fixing piece 321 is arranged at one end of the transmission auxiliary body 32, a spiral guide component is arranged between the other end of the transmission auxiliary body 32 and the sleeve body 2, and the spiral guide component is used for the transmission auxiliary body 32 to be installed on the sleeve body 2 to do spiral motion along a preset channel.
In particular, the spiral guide assembly comprises a protrusion 33 and a guide groove 34 matched with the protrusion 33, and the protrusion 33 and the guide groove are optimally distributed in two groups and uniformly distributed. The bulge 33 is arranged at the other end of the transmission auxiliary body 32, the guide groove 34 is arranged on the sleeve body 2, and the transmission auxiliary body 32 moves in the guide groove 34 through the bulge 33 so as to realize the spiral movement of the transmission auxiliary body 32 relative to the sleeve body 2; the protrusion 33 can also be arranged in the sleeve body 2, the guide groove 34 is arranged at the other end of the transmission auxiliary body 32, and the transmission auxiliary body 32 moves in the guide groove 34 through the protrusion 33 so as to realize the spiral movement of the transmission auxiliary body 32 relative to the sleeve body 2.
In specific implementation, the spiral angle of the guide groove 34, that is, the axial angle of the guide groove is consistent with the spiral angle of the fixing member 321, and most preferably, the axial angle of the guide groove 34 is set to be less than or equal to 60 degrees, so that the fixing member 321 is dislocated with the buckle on the cable, and the fixing effect is better.
In particular, the fixing member 321 includes a clip portion 3211 arranged in equal-angle rows, and the clip portion 3211 has a fan-like shape. According to the test requirement, the clamping portions 3211 are equally divided according to the circumferential angle, 2 or 3 or 4 or more clamping portions 3211 can be arranged, the shape of the clamping portions 3211 is fan-shaped, the clamping portions 3211 and the cable are easily staggered in a clamping manner, and meanwhile product cost is saved.
In particular, the external thread on the transmission body 31 has a trapezoidal cross-section, and the top surface of the protrusion 33 has a circular arc shape. The external thread has a trapezoid cross section, so that the transmission main body 31 can realize axial reciprocating transmission on the transmission auxiliary body 32, and the top surface of the bulge 33 is arc-shaped, so that the bulge can conveniently slide in the guide-in groove.
In specific implementation, a plurality of connecting columns 11 are arranged on the shell 11, and two sections of cables are respectively arranged at the front end and the rear end of the connecting columns 11.
Preferably, the other end of the transmission body 31 is provided with a handle (not shown in the drawings), and the rocking handle facilitates radial movement of the transmission body 31.
It should be noted that the terms "first," "second," and the like in the description and in the claims of the present application are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be capable of being practiced otherwise than as specifically illustrated and described herein.
The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations are possible to those skilled in the art. Any modification, approval, replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.