CN114552510B - Cable laying and shielding device for construction based on electronics and intelligent engineering - Google Patents

Abstract

The invention provides a cable laying shield device for electronic and intelligent engineering construction, which relates to the technical field of cable laying and comprises the following components: the invention relates to a cable laying shield sleeve, which is characterized in that pigment colors of color filling layers filled in annular containing cavities in all the cable laying shield sleeves which are welded together are different, through the arrangement of the color filling layers and color identification areas, workers can judge which color filling layer in the cable laying shield sleeve is consistent with the dyeing of current water by observing the color of the water and color character identifications arranged in the center areas of the color identification areas, so that which cable laying shield sleeve is damaged can be judged quickly, the problem that once a cable protection pipe enters water due to slight damage which cannot be observed by naked eyes in a certain position, the position of the slight damage cannot be judged in time, the cable protection pipe needs to be inspected sequentially according to the areas, and the efficiency is greatly influenced is solved.

Description

Cable laying and shielding device for construction based on electronics and intelligent engineering

Technical Field

The invention relates to the technical field of cable laying, in particular to a cable laying shield device for construction based on electronics and intelligent engineering.

Background

When the electronic engineering and the intelligent engineering are constructed, cables need to be laid, and the wiring requirements of equipment are met.

When the existing cable is laid, the adopted laying shield device has the following defects:

the cable laying shielding device is mostly a cable protection pipe, but once a certain part of the existing cable protection pipe generates fine damage which can not be observed by naked eyes and leads to water inflow, the position of the fine damage can not be judged in time, the cable protection pipe needs to be checked according to regions in sequence, the efficiency is greatly influenced, and when the existing cable protection pipe is purchased or applied, the production date of the cable protection pipe can not be judged, if the cable protection pipe with overlong production date is purchased or applied, the quality can not be ensured, the potential safety hazard exists, when the existing cable is alternately laid along the cable protection pipe, the existing cable is easy to generate friction obstruction with the inner peripheral surface of the cable protection pipe, and the alternate laying efficiency of the cable is influenced.

Disclosure of Invention

In view of the above, the present invention provides a cable laying shield device for construction based on electronics and intelligent engineering, which can confirm the production date of the current cable laying shield sleeve by matching the date identification color bar with the color corresponding identification and the digital identification, so that a user can avoid the occurrence of the condition of laying shield sleeve with quality not guaranteed due to long purchase or application date by confirming the production date of the cable laying shield sleeve.

The invention provides a cable laying shield device for construction based on electronics and intelligent engineering, which specifically comprises: the cable laying shielding barrel is internally provided with an annular containing cavity, the width of the annular containing cavity is one sixth of the wall thickness of the cable laying shielding barrel, and the annular containing cavity is arranged at the adjacent outer peripheral surface part in the cable laying shielding barrel; a color filling layer is filled in the annular containing cavity, and the color filling layer is pigment powder; a color identification area is arranged at the front side part of the top end of the outer circumferential surface of the cable laying shield cylinder, the color identification area is of a square structure, and a color character identification is arranged in the center area of the color identification area; the color character mark corresponds to the pigment color of the color filling layer;

the number of the cable laying shielding cylinders is not limited to one, the number of the cable laying shielding cylinders can be increased or decreased, every two adjacent cable laying shielding cylinders are welded, and the pigment colors of the color filling layers filled in the annular containing cavities in all the commonly welded cable laying shielding cylinders are different.

Optionally, the front end and the rear end edge of the outer peripheral surface of the cable laying shelter are chamfered.

Optionally, a date identification area is arranged at the top end of the outer circumferential surface of the cable laying shield cylinder, and the date identification area is in a rectangular structure; the left side of the date mark area is provided with ten color corresponding marks from front to back, and the color corresponding marks are in a circular structure; the colors of the marks corresponding to the ten colors are not consistent, and part of the marks corresponding to the colors in the marks corresponding to the ten colors correspond to the colors of the six date mark color bars.

Optionally, ten digital marks are arranged in the right side of the date mark area from front to back, and the ten digital marks respectively correspond to the positions of the ten marks corresponding to the colors; the ten numbers are respectively identified as "0", "1", "2", "3", "4", "5", "6", "7", "8", "9".

Optionally, a protection cylinder is inserted into an inner peripheral surface of the cable laying shielding cylinder, a diameter of the protection cylinder is smaller than an inner diameter of the cable laying shielding cylinder, a length of the protection cylinder is consistent with a length of the cable laying shielding cylinder, and the protection cylinder and the cable laying shielding cylinder are in a coaxial state.

Optionally, five rows of buffer members are arranged between the outer circumferential surface of the protective cylinder and the inner circumferential surface of the cable laying shield cylinder, and each row is fixedly connected by six buffer members distributed in an annular array; the whole cylindrical structure that is of bolster, the bolster adopts the silica gel material.

Optionally, fifteen rows of sliding auxiliary units are rotatably mounted on the lower half portion of the inner circumferential surface of the protective cylinder, and each row of sliding auxiliary units is composed of twenty sliding auxiliary pieces uniformly distributed in one hundred and eighty degrees; the sliding auxiliary part is a ball.

Optionally, six date marking color strips are integrally inserted between the bottom of the front end face and the bottom of the rear end face of the cable laying shielding cylinder, and the six date marking color strips are uniformly distributed.

Advantageous effects

According to the invention, through the matching of the date identification color strips, the color corresponding identifications and the digital identifications, when a user buys or applies the cable laying shield tube, the user can clockwise observe the six date identification color strips, the color corresponding identifications corresponding to the colors of the six date identification color strips and the digital identifications of the corresponding positions, so that the production date of the current cable laying shield tube can be confirmed, and the user can avoid the situation that the quality cannot be ensured due to the fact that the purchase or application date is longer by confirming the production date of the cable laying shield tube.

In addition, through the arrangement of the color filling layer and the color identification area, when one cable laying shield cylinder in all the cable laying shield cylinders which are welded together is slightly damaged, water enters the cable laying shield cylinder or water exists around the laying area, the water is in contact with the color filling layer in the cable laying shield cylinder which is slightly damaged, pigment powder in the color filling layer is dissolved in the water to dye the water, and at the moment, a worker can judge which color filling layer in the cable laying shield cylinder is consistent with the current dyeing of the water by observing the color of the water and the color character identification arranged in the central area of the color identification area, so that which cable laying shield cylinder is damaged can be quickly judged, and the quick winding repair or replacement is facilitated.

In addition, fifteen rows of sliding auxiliary units are rotatably mounted on the lower half portion of the inner circumferential surface of the protective cylinder, each row of sliding auxiliary units consists of twenty sliding auxiliary pieces which are uniformly distributed in one hundred and eighty degrees, and the sliding auxiliary pieces are balls.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a front end axial view schematic according to the present invention;

FIG. 2 illustrates a rear end axial view structural schematic in accordance with the present invention;

FIG. 3 shows a schematic top view of the structure according to the present invention;

FIG. 4 shows a front view structural schematic in accordance with the present invention;

FIG. 5 shows a schematic cross-sectional view of a cable laying shield canister and shield canister according to the present invention;

FIG. 6 shows a schematic view of the enlarged partial structure at A of FIG. 5 in accordance with the present invention;

FIG. 7 shows a schematic cross-sectional view of another perspective of a cable laying casing and shield canister according to the present invention;

fig. 8 is a schematic structural view showing a state in which two cable laying sleeves according to the present invention are welded;

list of reference numerals

1. A cable laying shielding cylinder; 101. a date identification area; 102. the color corresponds to the identification; 103. a digital identification; 104. a color identification area; 105. color character identification; 106. a date identification color bar; 107. a color filling layer; 2. a protective cylinder; 201. a sliding aid; 202. a buffer.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

The embodiment is as follows: please refer to fig. 1 to 8:

the invention provides a cable laying shield device for construction based on electronics and intelligent engineering, which comprises: the cable laying sheltering tube 1 is characterized in that an annular containing cavity is formed in the cable laying sheltering tube 1, the width of the annular containing cavity is one sixth of the wall thickness of the cable laying sheltering tube 1, and the annular containing cavity is formed in the adjacent outer peripheral surface part in the cable laying sheltering tube 1; the annular receiving cavity is filled with the color filling layer 107, and the color filling layer 107 is pigment powder, so when the cable laying shielding cylinder 1 is slightly damaged, water enters the cable laying shielding cylinder 1 or water exists around a laying area, the water is contacted with the color filling layer 107 in the cable laying shielding cylinder 1 which is slightly damaged, and the pigment powder in the color filling layer 107 is dissolved in the water to dye the water;

a color identification area 104 is arranged at the front side part of the top end of the outer peripheral surface of the cable laying shielding cylinder 1, the color identification area 104 is of a square structure, and a color character identification 105 is arranged in the center area of the color identification area 104; the colored text indicia 105 corresponds to the color of the pigment of the color fill layer 107; the number of the cable laying shielding cylinders 1 is not limited to one, the number of the cable laying shielding cylinders 1 can be increased or decreased, every two adjacent cable laying shielding cylinders 1 are welded, and the pigment colors of the color filling layers 107 filled in the annular receiving cavities in all the cable laying shielding cylinders 1 which are welded together are different, so when a certain cable laying shielding cylinder 1 is slightly damaged, a worker can judge which cable laying shielding cylinder 1 is damaged by observing the color of water and the color character marks 105 arranged in the central area of the color mark area 104, and the color filling layer 107 in which cable laying shielding cylinder 1 is consistent with the current dyeing of water, so that the cable laying shielding cylinder 1 can be judged quickly to be damaged, the cable laying shielding cylinder is beneficial to or quick winding repairing or replacing, and when the cable laying shielding device is replaced, because the cable laying shielding cylinder 1 is welded by a plurality of cable laying shielding cylinders 1, only one cable laying shielding cylinder 1 which is damaged needs to be replaced, is more convenient and fast.

Furthermore, according to the embodiment of the present invention, as shown in fig. 3, the front end and the rear end edge portions of the outer peripheral surface of the cable laying shield casing 1 are chamfered, so that the cable laying shield casing 1 having a fine damage can be easily replaced.

In addition, according to the embodiment of the present invention, as shown in fig. 5, a protection tube 2 is inserted into the inner circumferential surface of the cable laying shield tube 1, the diameter of the protection tube 2 is smaller than the inner diameter of the cable laying shield tube 1, the length of the protection tube 2 is the same as the length of the cable laying shield tube 1, the protection tube 2 and the cable laying shield tube 1 are in a coaxial state, as shown in fig. 4 and 5, five rows are formed between the outer circumferential surface of the protection tube 2 and the inner circumferential surface of the cable laying shield tube 1, and each row is fixedly connected by six buffers 202 distributed in an annular array; the whole cylindrical structure that is of bolster 202, bolster 202 adopt the silica gel material, through the setting of the bolster 202 that adopts the silica gel material, when cable laying cover a section of thick bamboo 1 received extrusion, collision, this bolster 202 that adopts the silica gel material played corresponding buffering protective effect.

Furthermore, according to the embodiment of the present invention, as shown in fig. 4 and 5, fifteen rows of sliding assistance units are rotatably mounted on the lower half portion of the inner peripheral surface of the shield casing 2, and each row of sliding assistance units is composed of twenty sliding assistance pieces 201 uniformly distributed in one hundred and eighty degrees; the slip auxiliary 201 is the ball, through the setting of this slip auxiliary 201, does benefit to when the cable is laid through the interlude of a protection section of thick bamboo 2, and this slip auxiliary 201 plays the supplementary effect of slip, avoids the cable direct and takes place to hinder the friction with the 2 inner peripheral surfaces of a protection section of thick bamboo, and influences the interlude of cable and lay, leads to the cable to take place the emergence of the condition of bending.

In addition, according to the embodiment of the present invention, as shown in fig. 4, six date marking color strips 106 are inserted between the bottom of the front end surface and the bottom of the rear end surface of the cable laying shielding cylinder 1, and the six date marking color strips 106 are uniformly distributed, as shown in fig. 3, a date marking area 101 is disposed at the top end of the outer circumferential surface of the cable laying shielding cylinder 1, and the date marking area 101 is in a rectangular structure; ten color corresponding marks 102 are arranged in the left side of the date mark area 101 from front to back, and the color corresponding marks 102 are in a circular structure; the colors of the ten color corresponding marks 102 are different from each other, the middle color corresponding mark 102 in the ten color corresponding marks 102 corresponds to the color of the six date mark color bars 106, as shown in fig. 3, ten digital marks 103 are arranged in the right side of the date mark area 101 from front to back, and the ten digital marks 103 respectively correspond to the positions in the ten color corresponding marks 102; the ten numerical identifiers 103 are respectively "0", "1", "2", "3", "4", "5", "6", "7", "8" and "9", and by the cooperation of the date identifier color bar 106, the color corresponding identifier 102 and the numerical identifier 103, when a user purchases or applies the cable laying mask cartridge 1, the user can confirm the production date of the current cable laying mask cartridge 1 by clockwise observing the color corresponding identifier 102 and the numerical identifier 103 of the corresponding position corresponding to the colors of the six date identifier color bars 106, for example, the clockwise colors of the six date identifier color bars 106 respectively correspond to "2", "0", "2", "1" and "0", so that the production date of the current cable laying mask cartridge 1 is 2021 year 10 month, and the user can confirm the production date of the cable laying mask cartridge 1, the situation that the laying shield cylinder cannot be guaranteed in quality due to long purchase or application date is avoided.

The specific use mode and function of the embodiment are as follows:

firstly, six uniformly distributed date marking color strips 106 are jointly and integrally inserted between the bottom of the front end face and the bottom of the rear end face of the cable laying shielding barrel 1;

furthermore, ten color corresponding marks 102 with different colors are arranged on the left side of the date mark area 101 from front to back, part of the color corresponding marks 102 in the ten color corresponding marks 102 corresponds to the colors of six date mark color bars 106, ten position corresponding digital marks 103 in the ten color corresponding marks 102 are arranged on the right side of the date mark area 101 from front to back, and the ten position corresponding digital marks 103 are respectively '0', '1', '2', '3', '4', '5', '6', '7', '8', '9';

through the matching of the date identification color bar 106, the color corresponding identification 102 and the number identification 103, when a user purchases or applies the cable laying shield cylinder 1, the user can confirm the production date of the current cable laying shield cylinder 1 by observing the six date identification color bars 106, the color corresponding identifications 102 corresponding to the colors of the six date identification color bars 106 and the number identifications 103 corresponding to the colors of the six date identification color bars, for example, the clockwise colors of the six date identification color bars 106 respectively correspond to '2', '0', '2', '1', '0', so that the production date representing the current cable laying shield cylinder 1 is 2021 years and 10 months, and the user can avoid the situation that the cable laying shield cylinder cannot be guaranteed in quality due to long purchase or application date by confirming the production date of the cable laying shield cylinder 1;

secondly, an annular containing cavity is formed in the cable laying shelter barrel 1, the annular containing cavity is formed in the adjacent outer peripheral surface part in the cable laying shelter barrel 1, and a color filling layer 107 which is pigment powder is filled in the annular containing cavity;

furthermore, a color identification area 104 is arranged at the front side part of the top end of the outer peripheral surface of the cable laying shielding cylinder 1, a color character identification 105 is arranged in the center area of the color identification area 104, and the color character identification 105 corresponds to the pigment color of the color filling layer 107;

through the arrangement of the color filling layer 107 and the color identification area 104, when one cable laying shielding cylinder 1 in all the cable laying shielding cylinders 1 which are welded together is slightly damaged, water enters the cable laying shielding cylinder 1 or water exists around the laying area, the water is in contact with the color filling layer 107 in the cable laying shielding cylinder 1 which is slightly damaged, pigment powder in the color filling layer 107 is dissolved in the water to dye the water, at this time, a worker can judge which color filling layer 107 in the cable laying shielding cylinder 1 is consistent with the current dyeing of the water by observing the color of the water and the color character identification 105 arranged in the central area of the color identification area 104, thereby quickly judging which cable laying shielding cylinder 1 is damaged, facilitating or quickly winding and repairing or replacing, and when the cable laying shielding device is replaced, because the cable laying shielding device is welded by a plurality of cable laying shielding cylinders 1, therefore, only one damaged cable laying shielding cylinder 1 needs to be replaced, and the method is more convenient and faster;

thirdly, a protective cylinder 2 is inserted into the inner peripheral surface of the cable laying shielding cylinder 1, five rows are arranged between the outer peripheral surface of the protective cylinder 2 and the inner peripheral surface of the cable laying shielding cylinder 1, each row is fixedly connected by six buffer members 202 distributed in an annular array shape, the whole buffer members 202 are in a cylindrical structure, the buffer members 202 are made of silica gel, when the cable is laid, the cable can be alternately laid through the protective cylinder 2 through the arrangement of the protective cylinder 2, and when the cable laying shielding cylinder 1 is extruded and collided, the buffer members 202 made of silica gel play a corresponding buffer protection effect through the arrangement of the buffer members 202 made of silica gel;

the lower half part of the inner circumferential surface of the protective cylinder 2 is rotatably provided with fifteen rows of sliding auxiliary units, each row of sliding auxiliary units consists of twenty sliding auxiliary pieces 201 which are uniformly distributed in one hundred eighty degrees, the sliding auxiliary pieces 201 are balls, and the arrangement of the sliding auxiliary pieces 201 is beneficial to the sliding auxiliary effect when the cable is penetrated and laid through the protective cylinder 2, so that the cable is prevented from directly generating interference friction with the inner circumferential surface of the protective cylinder 2 to influence the penetrating and laying of the cable, and the cable is prevented from being bent.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (8)

1. Based on electron and intelligent engineering construction are laid with cable and are covered device, its characterized in that includes: the cable laying shielding barrel (1), wherein an annular containing cavity is formed in the cable laying shielding barrel (1), the width of the annular containing cavity is one sixth of the wall thickness of the cable laying shielding barrel (1), and the annular containing cavity is formed in the adjacent outer peripheral surface part in the cable laying shielding barrel (1);

the annular receiving cavity is filled with a color filling layer (107), the color filling layer (107) is pigment powder, when the cable laying shielding cylinder (1) is slightly damaged, water enters the cable laying shielding cylinder (1) or water exists around a laying area, the water is in contact with the color filling layer (107) in the cable laying shielding cylinder (1) with the slight damage, and the pigment powder in the color filling layer (107) is dissolved in the water to dye the water;

a color identification area (104) is arranged at the front side part of the top end of the outer peripheral surface of the cable laying shielding cylinder (1), the color identification area (104) is of a square structure, and a color character identification (105) is arranged in the center area of the color identification area (104);

the color text mark (105) corresponds to the pigment color of the color filling layer (107);

the number of the cable laying shielding cylinders (1) is not limited to one, the number of the cable laying shielding cylinders can be increased or decreased, every two adjacent cable laying shielding cylinders (1) are welded, and the pigment colors of the color filling layers (107) filled in the annular containing cavities in all the cable laying shielding cylinders (1) which are welded together are different.

2. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 1, wherein: the edge parts of the front end and the rear end of the peripheral surface of the cable laying shielding cylinder (1) are chamfered.

3. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 1, wherein: the inner peripheral surface of the cable laying shielding cylinder (1) is inserted with a protective cylinder (2), the diameter of the protective cylinder (2) is smaller than the inner diameter of the cable laying shielding cylinder (1), the length of the protective cylinder (2) is consistent with that of the cable laying shielding cylinder (1), and the protective cylinder (2) and the cable laying shielding cylinder (1) are in a coaxial state.

4. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 3, wherein: the outer circumferential surface of the protective cylinder (2) is fixedly connected with the inner circumferential surface of the cable laying shielding cylinder (1) through five rows, and each row is formed by six buffer parts (202) distributed in an annular array;

the whole buffer member (202) is of a cylindrical structure, and the buffer member (202) is made of silica gel.

5. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 4, wherein: fifteen rows of sliding auxiliary units are rotatably arranged on the lower half part of the inner circumferential surface of the protective cylinder (2), and each row of sliding auxiliary units consists of twenty sliding auxiliary pieces (201) which are uniformly distributed in one hundred and eighty degrees;

the sliding auxiliary part (201) is a ball.

6. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 1, wherein: six date marking color strips (106) are jointly and integrally inserted between the bottom of the front end face and the bottom of the rear end face of the cable laying shielding cylinder (1), and the six date marking color strips (106) are uniformly distributed.

7. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 6, wherein: a date mark area (101) is arranged at the top end of the outer peripheral surface of the cable laying shielding cylinder (1), and the date mark area (101) is of a rectangular structure;

ten color corresponding marks (102) are arranged in the left side of the date mark area (101) from front to back, and the color corresponding marks (102) are in a circular structure;

the colors of the ten color corresponding marks (102) are not consistent, and part of the color corresponding marks (102) in the ten color corresponding marks (102) correspond to the colors of six date mark color bars (106).

8. The cable laying shield device for construction based on electronics and intelligent engineering as claimed in claim 7, wherein: ten digital marks (103) are arranged on the right side of the date mark area (101) from front to back, and the ten digital marks (103) respectively correspond to the positions of the ten color corresponding marks (102);

the ten numerical identifiers (103) are respectively "0", "1", "2", "3", "4", "5", "6", "7", "8" and "9".

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