CN218824842U - High-strength tensile and compressive detection optical cable - Google Patents

Abstract

The utility model relates to the technical field of detection optical cables, in particular to a high-strength tensile compression-resistant detection optical cable, which comprises an optical cable body and a protection component; the protection assembly comprises a mounting sleeve, an anti-wear layer, a compression-resistant member and a connecting member; the installation sleeve is arranged on the outer side of the optical cable body, the anti-wear layer is arranged on the outer side of the installation sleeve, the compression-resistant component is connected with the installation sleeve, and the connecting component is located in the installation sleeve, so that the compression resistance of the detection optical cable body can be enhanced through the arranged component, the integral strength of the detection optical cable is improved, and the use performance of the detection optical cable is better in the actual use process.

Description

High-strength tensile and compressive detection optical cable

Technical Field

The utility model relates to an exploration optical cable technical field especially relates to a high strength tensile resistance to compression formula exploration optical cable.

Background

When the traditional detection optical cable works, the traditional detection optical cable is generally buried underground or in a corresponding position, so that the whole detection optical cable is easy to wear and cause partial damage.

In order to avoid serious abrasion on the surface of the optical cable, the existing detection optical cable is sleeved with a corresponding wear-resistant sleeve on the outer side, so that the overall wear-resistant performance is improved.

However, by adopting the above mode, because the detection optical cable is used under various types of conditions, when the detection optical cable is under stronger pressure, the existing detection optical cable can be easily deformed, so that the optical cable body inside the wear-resistant sleeve is damaged, and the service performance of the detection optical cable is greatly influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high strength tensile resistance to compression formula exploration optical cable can strengthen the compressive property of exploration optical cable body through the component that sets up to promote the holistic intensity of exploration optical cable, make the performance of exploration optical cable better in the in-service use process.

In order to achieve the purpose, the utility model provides a high-strength tensile compression-resistant detection optical cable, which comprises an optical cable body and a protection component;

the protection assembly comprises a mounting sleeve, an anti-wear layer, a compression-resistant member and a connecting member; the installation sleeve is sleeved on the outer side of the optical cable body, the anti-wear layer is arranged on the outer side of the installation sleeve, the compression-resistant member is connected with the installation sleeve, and the connecting member is located in the installation sleeve.

The compression-resistant component comprises a supporting block, a supporting rod, a compression sleeve, a sleeving part and an extrusion part, wherein the supporting block is connected with the mounting sleeve and is positioned in the mounting sleeve; the supporting rod is connected with the mounting sleeve and is positioned in the mounting sleeve; the pressing sleeve is connected with the supporting block, connected with the supporting rod and positioned in the mounting sleeve; the sheathing part is connected with the optical cable body; the pressing component is positioned in the pressing sleeve.

The sleeving part comprises a wrapping sleeve and a wrapping sleeve, and the wrapping sleeve is connected with the optical cable body and sleeved on the optical cable body; the wrapping sleeve is connected with the wrapping sleeve and sleeved on the wrapping sleeve.

The extrusion part comprises an elastic plug block and a hollow elastic ring, and the elastic plug block is connected with the wrapping sleeve and is positioned in the wrapping sleeve; the hollow elastic ring is connected with the wrapping sleeve and is positioned on one side of the wrapping sleeve.

The connecting component comprises a waterproof sleeve and a corrosion-resistant sleeve, and the waterproof sleeve is connected with the pressing sleeve and is positioned in the pressing sleeve; the corrosion-resistant sleeve is connected with the waterproof sleeve and sleeved on the wrapping sleeve.

The utility model discloses a high strength tensile resistance to compression formula exploration optical cable, through the supporting shoe with the bracing piece packing installation cover is pushed down and is dragged stability during, makes the installation cover with it is more stable to press the connection between the cover, simultaneously when receiving comparatively strong extrusion, can also be through being equipped with the elasticity chock with hollow elasticity circle comes right the wrapping cover reaches it inside the wrapping cover the optical cable body carries out the secondary protection, has realized the compressive property of strengthening the exploration optical cable body through the component that sets up to promote the holistic intensity of exploration optical cable, make the performance of exploration optical cable better in the in-service use process.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of the whole high-strength tensile and compressive type detection optical cable according to the first embodiment of the present invention.

Fig. 2 is a schematic view of the internal structure of the first embodiment of the mounting sleeve of the present invention.

Fig. 3 is a schematic structural view of the whole high-strength tensile and compressive type detection optical cable according to the second embodiment of the present invention.

In the figure: 101-an optical cable body, 102-an installation sleeve, 103-an anti-wear layer, 104-a supporting block, 105-a supporting rod, 106-a pressing sleeve, 107-a wrapping sleeve, 108-a wrapping sleeve, 109-an elastic chock block, 110-a hollow elastic ring, 201-a waterproof sleeve and 202-a corrosion-resistant sleeve.

Detailed Description

The embodiments of the invention will be described in detail hereinafter, examples of which are illustrated in the accompanying drawings, and the embodiments described hereinafter with reference to the drawings are exemplary and intended to be illustrative of the invention and should not be construed as limiting the invention.

The first embodiment of the present application is:

referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of the whole high-strength tensile and compressive type detection optical cable, and fig. 2 is a schematic structural diagram of the interior of the installation sleeve 102. The utility model provides a high strength tensile resistance to compression formula exploration cable: the optical cable comprises an optical cable body 101 and a protection assembly, wherein the protection assembly comprises an installation sleeve 102, an anti-wear layer 103, a compression-resistant member and a connecting member, the compression-resistant member comprises a supporting block 104, a supporting rod 105, a pressing sleeve 106, a sleeving part and a pressing part, the sleeving part comprises a wrapping sleeve 107 and a wrapping sleeve 108, and the pressing part comprises an elastic chock 109 and a hollow elastic ring 110, so that the problem that the existing detection optical cable is easily deformed when the detection optical cable is subjected to strong pressure is solved through the scheme, the optical cable body 101 in the abrasion-resistant sleeve is damaged, and the service performance of the detection optical cable is greatly influenced;

for the present embodiment, the optical cable bodies 101 are generally used as a group, and when the installation sleeve 102 is installed, the optical cable bodies 101 are installed together in a sleeve manner, so that the installation is more convenient in practical use.

The installation sleeve 102 is sleeved outside the optical cable body 101, the anti-abrasion layer 103 is arranged outside the installation sleeve 102, the compression-resistant member is connected with the installation sleeve 102, the connecting member is located in the installation sleeve 102, and the supporting block 104 is connected with the installation sleeve 102 and located in the installation sleeve 102; the supporting rod 105 is connected with the mounting sleeve 102 and is positioned in the mounting sleeve 102; the pressing sleeve 106 is connected with the supporting block 104, connected with the supporting rod 105 and positioned in the mounting sleeve 102; the sheathing member is connected to the optical cable body 101; the extrusion part is positioned in the pressing sleeve 106, and the wrapping sleeve 107 is connected with the optical cable body 101 and sleeved on the optical cable body 101; the wrapping sleeve 108 is connected with the wrapping sleeve 107 and sleeved on the wrapping sleeve 107, the corresponding wrapping sleeve 107 is sleeved outside each optical cable body 101, all the optical cable bodies 101 and the wrapping sleeves 107 are wrapped in the corresponding wrapping sleeves 108, so that the optical cable bodies 101 are intensively mounted and protected, the connecting members arranged outside the wrapping sleeves 108 and the wrapping sleeves 108 are wrapped together by the pressing sleeves 106, the corresponding supporting blocks 104 and the corresponding supporting rods 105 are arranged outside the pressing sleeves 106, every two supporting blocks 104 are arranged in a triangular shape, every two supporting rods 105 are also arranged in a triangular shape, the supporting blocks 104 are designed vertically, the supporting rods 105 are designed horizontally, the supporting blocks 104 and the supporting rods 105 are provided with a plurality of groups, the corresponding wear-resistant layers 103 are arranged at the tops of the supporting blocks 104 and the supporting rods 105 in a connecting manner, the corresponding wear-resistant layers 103 are arranged outside the mounting sleeves 102, so that the supporting blocks 104 and the supporting rods 105 can ensure that the supporting blocks 102 and the supporting rods 106 are connected with each other by the corresponding tensile-resistant layers 102, and the supporting blocks 102 can be integrally pressed by the tensile-resistant layers 105, and the supporting sleeves 102, and the supporting rods 102 can be integrally pressed by external force when the tensile-resistant structures and the supporting sleeves 102 are pressed, so that the supporting rods 105 are pressed.

Next, the elastic plug 109 is connected to the wrapping sleeve 108 and is located inside the wrapping sleeve 108; the hollow elastic ring 110 is connected with the wrapping sleeve 107 and located on one side of the wrapping sleeve 107, gaps existing in the wrapping sleeve 108 and between the wrapping sleeve 107 are filled by the elastic plug blocks 109 to ensure the overall wrapping stability of the wrapping sleeve 108, a plurality of groups of the wrapping sleeve 107 and the optical cable body 101 are designed in a circumferential mode, and the corresponding hollow elastic ring 110 is arranged at the center of a circle of the wrapping sleeve 107, so that when the wrapping sleeve 107 and the optical cable body 101 on one corresponding side are strongly extruded, the corresponding wrapping sleeve 107 and the optical cable body 101 can extrude the corresponding hollow elastic ring 110 through the deformation of the elastic plug blocks 109, and therefore the extruded wrapping sleeve 107 and the adjacent wrapping sleeve 107 are prevented from being damaged after being extruded, and the overall compression resistance is greatly improved.

The utility model provides an optical cable is surveyed to high strength tensile resistance to compression formula is when using, through supporting shoe 104 with bracing piece 105 packing installation cover 102 pushes down and stability when dragging makes installation cover 102 with it is more stable to press the connection between the cover 106, is receiving comparatively strong extrusion simultaneously, can also be through being equipped with elasticity chock 109 with hollow elastic ring 110 comes right wrapping cover 107 and inside wrapping cover 107 optical cable body 101 carries out the secondary protection, has realized strengthening the compressive property of surveying optical cable body 101 through the component that sets up to promote the holistic intensity of surveying optical cable, make the performance of surveying optical cable better in the in-service use process.

The second embodiment:

on the basis of the first embodiment, please refer to fig. 3, fig. 3 is a schematic structural diagram of the whole high-strength tensile and compressive type exploration optical cable of the second embodiment, and the connection member provided by the present invention includes a waterproof sleeve 201 and a corrosion-resistant sleeve 202.

The waterproof sleeve 201 is connected with the pressing sleeve 106 and is positioned in the pressing sleeve 106; the corrosion-resistant sleeve 202 is connected with the waterproof sleeve 201 and sleeved on the wrapping sleeve 108, the waterproof sleeve 201 is arranged on the inner side of the pressing sleeve 106, the corrosion-resistant sleeve 202 is arranged between the waterproof sleeve 201 and the wrapping sleeve 108, and the waterproof sleeve 201 and the corrosion-resistant sleeve 202 are respectively coated with corresponding waterproof coatings and corrosion-resistant coatings, so that the wrapping sleeve 107 and the optical cable body 101 inside the wrapping sleeve 108 and the wrapping sleeve 108 are better protected.

When the high-strength tensile and compression-resistant detection optical cable of the embodiment is used, the waterproof sleeve 201 and the corrosion-resistant sleeve 202 can be arranged to ensure the overall use stability of the wrapping sleeve 108, so that the wrapping sleeve 107 and the optical cable body 101 inside the wrapping sleeve 108 can provide guarantee for the working stability, and the practicability of the whole device is greatly enhanced.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (5)

1. A high-strength tensile compression-resistant detection optical cable comprises an optical cable body and is characterized in that,

the device also comprises a protection component;

the protection assembly comprises a mounting sleeve, an anti-wear layer, a compression-resistant member and a connecting member; the installation sleeve is sleeved on the outer side of the optical cable body, the anti-abrasion layer is arranged on the outer side of the installation sleeve, the compression-resistant component is connected with the installation sleeve, and the connecting component is located in the installation sleeve.

2. The high strength optical fiber cable for tensile and compressive detection according to claim 1,

the compression-resistant member comprises a supporting block, a supporting rod, a compression sleeve, a sleeving part and an extrusion part, and the supporting block is connected with the mounting sleeve and is positioned in the mounting sleeve; the supporting rod is connected with the mounting sleeve and is positioned in the mounting sleeve; the pressing sleeve is connected with the supporting block, connected with the supporting rod and positioned in the mounting sleeve; the sheathing part is connected with the optical cable body; the pressing component is positioned in the pressing sleeve.

3. The high strength optical fiber cable for tensile and compressive detection according to claim 2,

the sheathing part comprises a wrapping sleeve and a tightening sleeve, and the wrapping sleeve is connected with the optical cable body and sheathed on the optical cable body; the wrapping sleeve is connected with the wrapping sleeve and sleeved on the wrapping sleeve.

4. The high strength optical fiber cable for tension and compression detection according to claim 3,

the extrusion component comprises an elastic chock block and a hollow elastic ring, and the elastic chock block is connected with the wrapping sleeve and is positioned in the wrapping sleeve; the hollow elastic ring is connected with the wrapping sleeve and is positioned on one side of the wrapping sleeve.

5. The high strength optical fiber cable for tension and compression detection according to claim 3,

the connecting component comprises a waterproof sleeve and a corrosion-resistant sleeve, and the waterproof sleeve is connected with the pressing sleeve and is positioned in the pressing sleeve; the corrosion-resistant sleeve is connected with the waterproof sleeve and sleeved on the wrapping sleeve.

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