CN217215245U - High-density electric cable protection device - Google Patents

Abstract

The utility model discloses a high density electrical method cable protection device, include: the first baffle is covered right above the cable steel joint, and the vertical downward projection of the first baffle covers the cable steel joint; and the numbering mechanism comprises a plurality of digital rotating wheels which are arranged at intervals, and any digital rotating wheel is rotatably arranged on the first baffle. The utility model can effectively avoid the cable steel joint from being drenched, and the digital rotating wheel is rotated to number the electrodes; not only can protect cable steel and connect, can number the electrode moreover, simple structure, it is easy and simple to handle, the suitability is good, but also reuse reduces extravagant and environmental pollution.

Description

High-density electric cable protection device

Technical Field

The utility model relates to an electrical prospecting technical field. More specifically, the utility model relates to a high density electrical method cable protection device.

Background

The high-density electrical method is a developed and mature geophysical exploration method and can be used in the fields of resource exploration, engineering exploration, environmental monitoring and the like. When high-density electrical prospecting is carried out, dozens to hundreds of electrodes (the distance between the common electrodes is 1 meter to 10 meters) are arranged on a ground prospecting line at equal intervals, the electrodes are connected with special cables, and then the prospecting operation is started.

The high-density electric method electrode is usually made of stainless steel, and the electrode form usually adopts a bracket type, and specifically comprises the following steps: and a steel chisel (about 50cm in length and about 1.3cm in diameter) with a sharp lower end, wherein an L-shaped angle steel serving as a bracket is welded at a position which is about 10cm away from the top end of the steel chisel, and is used for placing and connecting a cable steel joint. The high-density electric cable adopts a sectional type structure, an insulating skin is coated outside the cable, a naked steel joint is arranged in the middle of each section of the cable, the steel joint of the cable is arranged on the arranged electrode bracket, and the steel joint of the cable and the electrode bracket are firmly bound by an elastic rubber rope, so that the connection of the cable electrode is completed.

Some monitoring items need to acquire data at high frequency within a long operation period (several weeks to several months), for example, once every day or once every two days, and in order to ensure the accuracy of the monitoring data, the high-density electrical method electrodes and cables do not move as much as possible within the whole operation period after the arrangement is completed. In long-term monitoring operation, rainfall weather sometimes occurs, and for high-density electric cables, the part of the cable coated with the insulating skin is good in waterproofness, and steel joints are made of multiple materials in a joint mode, so that the waterproof performance is relatively poor, the situations of electric leakage and short circuit are easy to occur after rain, and the accuracy of survey data is affected. In order to prevent this, the common method is to wrap the plastic bag at the cable steel joint after the electrode and the cable are laid, so as to prevent the cable steel joint from being exposed to rain.

In addition, when the electrodes are laid, pile number plates are nailed on the ground beside the electrodes, the serial numbers of the electrodes or the positions (meters) of exploration lines are written, and therefore the positions corresponding to the exploration result graphs on the actual exploration lines are rapidly determined; however, the pile number plate is usually made of wood or bamboo, the electrode number or the exploratory line distance (meters) is written on the pile number plate, if the pile number plate is used for one time, a large amount of material is prepared and specially manufactured, and if the pile number plate is recycled, the pile number plate with the required electrode number needs to be found in a plurality of pile number plates in the next use, so that the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to solve at least the above problems and to provide at least the advantages which will be described later.

The utility model also aims at providing a high density electrical method cable protection device not only can protect the cable steel to connect, can number the electrode moreover, simple structure, and is easy and simple to handle, but reuse reduces extravagantly and environmental pollution.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a high-density electrical cable protection device, comprising:

the first baffle plate is covered right above the cable steel joint, and the vertical downward projection of the first baffle plate covers the cable steel joint;

and the numbering mechanism comprises a plurality of digital rotating wheels which are arranged at intervals, and any digital rotating wheel is rotatably arranged on the first baffle.

Preferably, the baffle further comprises a pair of second baffles which are arranged at intervals along the width direction of the first baffle and are vertically arranged on two sides of the first baffle, and any one of the second baffles is connected with the first baffle.

Preferably, the numbering mechanism further comprises a shell which is a hollow cylindrical structure arranged on one of the second baffles, and the axis of the shell is parallel to the length direction of the first baffle; an opening and a cover body capable of opening and closing the opening are arranged on the side wall of the shell, and the opening is of a long strip-shaped structure extending along the axial direction of the shell; the plurality of digital rotating wheels are uniformly distributed at intervals along the axial direction of the shell, and any digital rotating wheel is arranged in the shell and is in rotating connection with the shell; any digital wheel protrudes from the opening.

Preferably, the numbering device further comprises:

the plurality of partition plates are uniformly distributed at intervals along the axial direction of the shell, and any partition plate is arranged in the shell and is vertical to the axis of the shell; the inner part of the shell is divided into a plurality of cavities by a plurality of partition plates, and any cavity is communicated with the opening;

the first rotating shafts are correspondingly arranged in one cavity, and any one of the first rotating shafts is coaxial with the shell; one end of any first rotating shaft is rotatably connected with the corresponding partition plate/the shell, and the other end of the first rotating shaft is rotatably connected with the corresponding partition plate; a digital rotating wheel is fixedly sleeved on a first rotating shaft.

Preferably, the method further comprises the following steps:

the pair of support rods are arranged at intervals along the length direction of the first baffle plate and are positioned on two sides of the shell, any one support rod is vertically arranged, and the lower end of the support rod is connected with one second baffle plate;

one support rod is correspondingly provided with a second rotating shaft, and any second rotating shaft is positioned between the shell and the support rod corresponding to the shell; any second rotating shaft is coaxial with the shell, one end of any second rotating shaft is fixedly connected with the shell, and the other end of the second rotating shaft is rotatably connected with the corresponding supporting rod.

Preferably, the device further comprises a sleeve, the sleeve is vertically arranged on the side face, close to the first baffle, of one of the second baffles, the lower end of the sleeve is open, and the sleeve is located below the first baffle;

preferably, the first baffle is of an inverted V-shaped structure arranged horizontally.

Preferably, the cover body is made of transparent materials.

The utility model discloses at least, include following beneficial effect:

the utility model is provided with the first baffle and the plurality of digital rotating wheels, the first baffle cover is arranged right above the cable steel joint, the cable steel joint can be effectively prevented from being drenched, and the electrodes can be numbered by rotating the digital rotating wheels; the cable joint protection device has the advantages that the cable joint protection device can protect a cable steel joint, can number electrodes, is simple in structure, simple and convenient to operate, good in applicability and reusable, and reduces waste and environmental pollution;

the utility model is also provided with a shell, the side wall of the shell is provided with an opening and a cover body capable of opening and closing the opening, and any digital rotating wheel is rotatably arranged in the shell; through the cooperation use of casing and lid, be convenient for carry out the operation of numbering when blockking that open-air sand blown by the wind dust gets into influence digital runner performance in the casing, be favorable to improving suitability and performance.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a perspective view of the high-density electrical cable protection device according to one embodiment of the present invention in use;

fig. 2 is a side view of the high-density electrical cable protection device according to one embodiment of the present invention in use;

fig. 3 is a schematic structural diagram of the high-density electrical cable protection device according to one embodiment of the present invention;

fig. 4 is an exploded view of the high-density electrical cable protection device according to one embodiment of the present invention;

fig. 5 is a schematic structural diagram of the housing according to one embodiment of the present invention;

fig. 6 is a schematic structural diagram of the cover body according to one embodiment of the present invention;

fig. 7 is a bottom view of the cover according to one embodiment of the present invention;

description of reference numerals: a first baffle plate 1; a cable steel joint 2; a digital wheel 3; a second baffle 4; a housing 5; an opening 6; a lid body 7; a partition plate 8; a first rotating shaft 9; a support bar 10; a second rotating shaft 11; a sleeve 12; a groove 13; a cable 14; an electrode 15; a bracket 16.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It should be noted that, in the description of the present invention, the directions or positional relationships indicated are the directions or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, and the indication or suggestion that the indicated device or element must have a specific direction, be constructed and operated in a specific direction is not understood as a limitation of the present invention.

As shown in fig. 1-7, the utility model provides a high density electrical method cable protection device, include:

the cable connector comprises a first baffle plate 1, a second baffle plate and a connecting piece, wherein the first baffle plate 1 is covered right above a cable steel connector 2, and the vertical downward projection of the first baffle plate 1 covers the cable steel connector 2;

the numbering mechanism comprises a plurality of digital rotating wheels 3 which are arranged at intervals, and any digital rotating wheel 3 is rotatably arranged on the first baffle plate 1; any digital rotating wheel 3 is of a ten-prism structure, one prism surface is provided with one number, and ten prism surfaces are sequentially provided with 0-9 numbers;

in the technical scheme, the first baffle plate 1 can be detachably connected with the upper end of the electrode 15, after the electrode 15 is connected with the cable, the first baffle plate 1 is connected with the upper end of the electrode 15, the first baffle plate 1 is positioned above the cable steel connector 2 and the bracket 16 and shields the cable steel connector 2 and the bracket 16, the cable steel connector 2 can be effectively prevented from being exposed to rain, and the protection effect is achieved; when the electrode 15 needs to be numbered, the plurality of digital rotating wheels 3 are rotated to enable any digital rotating wheel 3 to display the number required to be displayed, and the numbers displayed by the plurality of digital rotating wheels 3 of the numbering mechanism are combined according to the arrangement sequence to form the pile number of the electrode 15; when the electrodes 15 need to be numbered, only the digital rotating wheel 3 needs to be rotated, so that the operation is simple and convenient; the number of the digital rotating wheels 3 is preferably four, and the four digital rotating wheels 3 can be combined to form any integer between 0000-9999, so that the conventional requirement of numbering the high-density electric electrode 15 can be met;

the utility model is provided with the first baffle 1 and the plurality of digital rotating wheels 3, the first baffle 1 is covered and arranged right above the cable steel joint 2, the cable steel joint 2 can be effectively prevented from being drenched, and the digital rotating wheels 3 can be rotated to number the electrodes 15; not only can protect cable steel connects 2, can number electrode 15 moreover, simple structure, it is easy and simple to handle, but also reuse reduces extravagant and environmental pollution.

In another technical solution, the device further includes a pair of second baffles 4, which are arranged at intervals along the width direction of the first baffle 1 (as shown in fig. 2, the left-right direction is the width direction of the first baffle 1), and are vertically arranged at two sides of the first baffle 1, and any one of the second baffles 4 is connected with the first baffle 1; the pair of second baffles 4 and the first baffle 1 form a cover body with an inverted U-shaped structure, the cable steel connector 2 and the bracket 16 are both positioned in the cover body, the rain shielding effect is better, and the cable steel connector 2 can be further prevented from being exposed to rain; the pair of second baffle plates 4 and the first baffle plate 1 can be integrally formed, so that the processing is convenient, and the structure is more stable; the sizes of the pair of second baffles 4 can be different, and the cover body of the inverted U-shaped structure formed by the pair of second baffles 4 and the first baffle 1 can completely cover the cable steel connector 2 and the bracket 16, so that the cable steel connector 2 is effectively prevented from being exposed to rain.

In another technical scheme, the numbering mechanism further comprises a shell 5 which is a hollow cylindrical structure arranged on one of the second baffles 4, and the axis of the shell 5 is parallel to the length direction of the first baffle 1; an opening 6 and a cover 7 capable of opening and closing the opening 6 are arranged on the side wall of the shell 5, and the opening 6 is a long strip-shaped structure extending along the axial direction of the shell 5; the plurality of digital rotating wheels 3 are uniformly distributed at intervals along the axial direction of the shell 5, and any digital rotating wheel 3 is arranged in the shell 5 and is rotationally connected with the shell 5; any digital rotating wheel 3 protrudes out of the opening 6;

one side of the cover body 7 can be hinged with the side wall of the shell 5, the cover body 7 can be buckled on the shell 5, and the opening 6 can be opened and closed by pulling the cover body 7; the digital rotating wheel 3 protrudes out of the opening 6 and does not interfere with the cover body 7, so that the digital rotating wheel 3 can be conveniently shifted, the opening and closing of the cover body 7 are not influenced, the size of the opening 6 can enable the serial number formed by the plurality of digital rotating wheels 3 to be clearly visible, and the rotation of the digital rotating wheels 3 is not limited; when the number of the electrode 15 needs to be numbered, the cover body 7 is opened, the digital rotating wheels 3 are shifted, any digital rotating wheel 3 is rotated to display the number required to be displayed, and the cover body 7 is closed; use through the cooperation of casing 5 and lid 7, be convenient for carry out the operation of numbering when blockking that open-air sand blown by the wind dust gets into the influence digital runner 3 performance in casing 5, be favorable to improving suitability and performance.

In another technical solution, the numbering mechanism further includes:

a plurality of partition plates 8 which are uniformly arranged at intervals along the axial direction of the shell 5, wherein any partition plate 8 is arranged in the shell 5 and is vertical to the axial line of the shell 5; the plurality of partition plates 8 divide the interior of the shell 5 into a plurality of cavities, and any cavity is communicated with the opening 6;

a plurality of first rotating shafts 9, one first rotating shaft 9 is correspondingly arranged in one cavity, and any first rotating shaft 9 is coaxial with the shell 5; one end of any first rotating shaft 9 is rotatably connected with the corresponding partition plate 8/the shell 5, and the other end is rotatably connected with the corresponding partition plate 8; a digital rotating wheel 3 is fixedly sleeved on a first rotating shaft 9;

the digital rotating wheels 3 are not interfered with each other, the structure is more stable, and the digital rotating wheels 3 can be conveniently stirred; any of the first shafts 9 is preferably a damped shaft to facilitate the stable display of the number wheel 3 with the desired displayed number.

In another technical solution, the method further comprises:

a pair of support rods 10, which are arranged at intervals along the length direction of the first baffle 1 and are positioned at two sides of the shell 5, wherein any one support rod 10 is vertically arranged, and the lower end of the support rod is connected with one second baffle 4;

one support rod 10 is correspondingly provided with one second rotating shaft 11, and any second rotating shaft 11 is positioned between the shell 5 and the support rod 10 corresponding to the shell; any second rotating shaft 11 is coaxial with the shell 5, one end of any second rotating shaft 11 is fixedly connected with the shell 5, and the other end of the second rotating shaft 11 is rotatably connected with the corresponding support rod 10;

the shell 5 is rotatably connected with the pair of support rods 10 through the pair of second rotating shafts 11, and the position of the opening 6 can be adjusted through rotating the shell 5, so that numbering operation and pile number checking are facilitated; any second shaft 11 is preferably a damped shaft to facilitate the housing 5 to be fixed at any angle.

In another technical scheme, the baffle further comprises a sleeve 12, the sleeve 12 is vertically arranged on the side surface, close to the first baffle 1, of one of the second baffles 4, and the lower end of the sleeve 12 is open and is positioned below the first baffle 1; the side wall of the sleeve 12 is hermetically connected with one of the second baffles 4 and the first baffle 1; the inner diameter of the sleeve 12 is matched with the size of the upper end of the electrode 15, when the device needs to be installed, the upper end of the electrode 15 is inserted into the sleeve 12, when the device needs to be dismantled, the sleeve 12 is separated from the upper end of the electrode 15, the device is simple and convenient to install and dismantle, and time and labor are saved; the inner side wall of the sleeve 12 can be laid with a rubber layer, which is beneficial to improving the stability of the structure after installation; the first baffle 1, the pair of second baffles 4 and the sleeve 12 can be integrally formed, so that the processing is convenient, and the structure is more stable; one of them second baffle 4 is close to can set up recess 13 on the side of first baffle 1, recess 13 extends and link up the bottom of one of them second baffle 4 along vertical direction, and recess 13 is the semi-cylindrical structure, and sleeve 12 inlays and locates in recess 13, and the size of recess 13 matches with the upper end of electrode 15, plays the spacing effect of counter electrode 15, and the installation of being convenient for, and is favorable to improving the stability of installation back structure.

In another kind of technical scheme, first baffle 1 is the type of falling V structure that the level set up, and the both sides of its length direction of first baffle 1 are less than the middle part, can be with falling down the rainwater water conservancy diversion on 1 top surface of first baffle to the stronger part of 14 waterproof performance of cable, can further avoid cable steel to connect 2 to suffer from drenching.

In another kind of technical scheme, lid 7 is made for transparent material, can clearly show the digit of digit runner 3, does not open lid 7 and just can look over the stake number directly perceivedly, is convenient for look over the stake number.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (8)

1. High density electrical method cable protection device, its characterized in that includes:

the first baffle plate is covered right above the cable steel joint, and the vertical downward projection of the first baffle plate covers the cable steel joint;

and the numbering mechanism comprises a plurality of digital rotating wheels which are arranged at intervals, and any digital rotating wheel is rotatably arranged on the first baffle.

2. The high-density electrical method cable protection device of claim 1, further comprising a pair of second baffles, which are arranged at intervals along the width direction of the first baffle and are vertically disposed on both sides of the first baffle, and any one of the second baffles is connected to the first baffle.

3. The high-density electrical cable protection device of claim 2, wherein said numbering device further comprises a housing having a hollow cylindrical configuration disposed on one of said second baffles, said housing having an axis parallel to the length of said first baffle; an opening and a cover body capable of opening and closing the opening are arranged on the side wall of the shell, and the opening is of a long strip-shaped structure extending along the axial direction of the shell; the plurality of digital rotating wheels are uniformly distributed at intervals along the axial direction of the shell, and any digital rotating wheel is arranged in the shell and is in rotating connection with the shell; any digital wheel protrudes from the opening.

4. A high density electrical cable protection device as in claim 3 wherein said numbering mechanism further comprises:

the plurality of partition plates are uniformly distributed at intervals along the axial direction of the shell, and any partition plate is arranged in the shell and is vertical to the axis of the shell; the inner part of the shell is divided into a plurality of cavities by a plurality of partition plates, and any cavity is communicated with the opening;

the first rotating shafts are correspondingly arranged in one cavity, and any one of the first rotating shafts is coaxial with the shell; one end of any first rotating shaft is rotatably connected with the corresponding partition plate/the shell, and the other end of the first rotating shaft is rotatably connected with the corresponding partition plate; a digital rotating wheel is fixedly sleeved on a first rotating shaft.

5. A high density electrical cable protection device as in claim 3, further comprising:

the pair of support rods are arranged at intervals along the length direction of the first baffle plate and are positioned on two sides of the shell, any one support rod is vertically arranged, and the lower end of the support rod is connected with one second baffle plate;

one support rod is correspondingly provided with a second rotating shaft, and any second rotating shaft is positioned between the shell and the support rod corresponding to the shell; any second rotating shaft is coaxial with the shell, one end of any second rotating shaft is fixedly connected with the shell, and the other end of the second rotating shaft is rotatably connected with the corresponding supporting rod.

6. The high density electrical cable protection device of claim 2, further comprising a sleeve vertically disposed on a side of one of the second baffles adjacent to said first baffle, said sleeve being open at a lower end thereof and positioned below said first baffle.

7. A high density electrical cable protection device as in claim 1 wherein said first baffle is a horizontally disposed inverted V-shaped structure.

8. A high density electrical cable protection device as in claim 3 wherein said cover is made of a transparent material.

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