CN112421494A - Slotting and wiring process for communication engineering construction - Google Patents

Abstract

The invention discloses a slotting wiring process for communication engineering construction, which relates to the technical field of communication engineering construction, and specifically comprises S1 slotting preparation; s2, slotting and receiving; s3, grinding waste materials; s4, line laying and S5, and groove backfilling. This communication engineering construction is with fluting wiring technology, can restrict the fluting width and improve the regularity aesthetic property of slot through the baffle, and the baffle surface shows there is the slot degree of depth, slot staggered position degree of depth size and treats the line specification model information of laying, and it has the relevant position to distribute, make things convenient for the staff to observe, and set up in the front end of slot degree of depth change section in the attention device, can remind the staff in advance to notice the slot degree of depth and be about to change, and the waste material that the fluting produced can regard as the backfill through recovery processing, thereby be favorable to avoiding waste rubbish to appear, avoid environmental pollution, also be favorable to reducing construction cost.

Description

Slotting and wiring process for communication engineering construction

Technical Field

The invention relates to the technical field of communication engineering construction, in particular to a slotting and wiring process for communication engineering construction.

Background

Communication engineering often needs the fluting wiring in the work progress, lays communication line and can guarantee information transmission's noncongestion and accuracy, and its construction flow is according to design drawing fluting roughly, again lays the circuit to the ditch inslot of relevant position and whether detect to connect smoothly, backfill the ditch groove after detecting errorlessly can.

Waste materials generated by slotting in the existing slotting and wiring process cannot be recycled, so that a large amount of waste is generated, and the waste wastes need to be treated by a large amount of labor cost and can have certain influence on the environment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a slotting and wiring process for communication engineering construction, and solves the problems that waste materials generated by slotting of the existing slotting and wiring process cannot be recycled, so that a large amount of waste garbage is generated, and a large amount of labor cost is consumed for processing the waste garbage and certain influence is caused on the environment.

In order to achieve the purpose, the invention is realized by the following technical scheme: a slotting and wiring process for communication engineering construction comprises the following operation processes:

s1, slotting preparation:

erecting baffles by taking double lines as base lines according to a design drawing, wherein a channel formed between the baffles is a groove to be trenched, and marking grooving information and specification and model of a line to be paved on the surface of the baffles;

s2, slotting and receiving:

performing slotting operation on a channel formed between the baffles by using a slotting machine, controlling the slotting size according to slotting information on the surfaces of the baffles in the step S1, and collecting waste materials generated by slotting after slotting;

s3, grinding waste materials:

crushing and grinding the collected waste materials by a crusher and a grinder until the waste materials are decomposed into gravel;

s4, laying a circuit:

classifying the lines with different specifications and purposes according to the specifications of the lines to be laid in the step S1, and laying the lines into the corresponding grooves;

s5, trench backfilling:

and (4) fully mixing the gravel-shaped waste material obtained in the step S3 with cement and water, pouring the mixture into the groove, ensuring uniform coverage, completing backfilling operation, and removing the baffle after pouring.

Optionally, in the step S1, a laser level is used to form two laser beams, and the two laser beams are parallel to each other.

Optionally, in the step S1, the baffles are aluminum alloy baffles, the baffles are arranged in parallel, and the distance between the baffles is the width of the slot.

Optionally, the slotting information marked on the surface of the baffle plate in the step S1 includes groove depth information and depth dimensions at the intersection of the grooves.

Optionally, in the step S1, the information marked on the surface of the baffle and the specification and model of the line to be laid are marked at corresponding positions of the baffle, wherein the groove depth information is uniformly marked on the surface of the baffle, the depth of the groove is marked at the intersection of the grooves, and the specification and model of the line to be laid are marked at the head and tail ends of the groove to be laid.

Optionally, in the step S2, a warning indicator is disposed on the surface of the baffle plate, and the warning indicator is disposed at the front end of the groove depth variation section.

Optionally, during the grooving, when the grooving machine approaches a groove position where the groove depth needs to be deepened, the warning device senses the grooving machine and gives a prompt, so as to prompt an employee to notice that the groove depth is about to change in advance.

Optionally, in the step S3, the waste material is first crushed into blocks by the crusher, then the hard material which cannot be mixed with cement in the waste material is screened out by a screening device, and the obtained screening material is ground into gravel by the grinder.

Optionally, the waste material in the form of gravel in the step S5, cement and water are mixed thoroughly, wherein the waste material is 50 parts by weight, the cement is 20 parts by weight and the water is 10 parts by weight.

The invention provides a slotting and wiring process for communication engineering construction, which has the following beneficial effects:

this communication engineering construction is with fluting wiring technology, can restrict the fluting width and improve the regularity aesthetic property of slot through the baffle, and the baffle surface shows there is the slot degree of depth, slot staggered position degree of depth size and treats the line specification model information of laying, and it has the relevant position to distribute, make things convenient for the staff to observe, and set up in the front end of slot degree of depth change section in the attention device, can remind the staff in advance to notice the slot degree of depth and be about to change, and the waste material that the fluting produced can regard as the backfill through recovery processing, thereby be favorable to avoiding waste rubbish to appear, avoid environmental pollution, also be favorable to reducing construction cost.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention provides a technical scheme that: a slotting and wiring process for communication engineering construction comprises the following operation processes:

s1, slotting preparation:

erecting baffles by taking double lines as base lines according to a design drawing, wherein a channel formed between the baffles is a groove to be trenched, and marking grooving information and specification and model of a line to be paved on the surface of the baffles;

s2, slotting and receiving:

performing slotting operation on a channel formed between the baffles by using a slotting machine, controlling the slotting size according to slotting information on the surfaces of the baffles in the step S1, and collecting waste materials generated by slotting after slotting;

s3, grinding waste materials:

crushing and grinding the collected waste materials by a crusher and a grinder until the waste materials are decomposed into gravel;

s4, laying a circuit:

classifying the lines with different specifications and purposes according to the specifications of the lines to be laid in the step S1, and laying the lines into the corresponding grooves;

s5, trench backfilling:

and (4) fully mixing the gravel-shaped waste material obtained in the step S3 with cement and water, pouring the mixture into the groove, ensuring uniform coverage, completing backfilling operation, and removing the baffle after pouring.

In step S1, a laser level is used to form two laser beams parallel to each other.

And in the step S1, the baffles are aluminum alloy baffles which are arranged in parallel, and the distance between the baffles is the width of the slot.

And S1, marking slotting information on the surface of the baffle plate in the step of 1, wherein the slotting information comprises groove depth information and groove intersection depth size.

And S1, marking the information marked on the surface of the baffle plate and the specification and model of the line to be laid at the corresponding position of the baffle plate, wherein the groove depth information is uniformly marked on the surface of the baffle plate, the depth dimension of the groove staggered position is marked at the groove staggered position, and the specification and model of the line to be laid are marked at the head end and the tail end of the groove to be laid.

And S2, arranging a warning indicator on the surface of the baffle plate, wherein the warning indicator is arranged at the front end of the groove depth change section.

When the slotting machine is close to a slot part needing to deepen the slot depth, the warning device senses the slotting machine and gives a prompt, so that staff are prompted to notice that the slot depth is about to change in advance, the attention of the staff is improved, the slot depth is conveniently and accurately controlled, and the warning device is a KS-SF05R infrared warning device.

And S3, crushing the waste into blocks by the crusher, screening out hard substances which cannot be mixed with the cement in the waste by screening equipment, and grinding the obtained screening substances into gravel by the grinder.

The waste material in the gravel shape, the cement and the water in the step S5 are sufficiently mixed, wherein the waste material comprises 50 parts by weight, the cement comprises 20 parts by weight and the water comprises 10 parts by weight.

The invention provides a slotting and wiring process for communication engineering construction, which has the following beneficial effects:

can restrict the fluting width and improve the regularity aesthetic property of slot through the baffle, and the baffle surface shows there is the slot degree of depth, slot crossing depth dimension and treats the line specification model information of laying, and it has the relevant position to distribute, make things convenient for the staff to observe, and set up in the front end of slot degree of depth change section in the attention device, can remind the staff in advance to notice the fluting degree of depth and be about to change, and the waste material that the fluting produced can regard as the backfill material through recovery processing, thereby be favorable to avoiding waste rubbish to appear, avoid environmental pollution, also be favorable to reducing construction cost.

To sum up, the slotting and wiring process for communication engineering construction comprises the following operation processes:

s1, slotting preparation: erecting baffles by taking double lines as base lines according to a design drawing, wherein a channel formed between the baffles is a groove to be trenched, and marking grooving information and specification and model of a line to be paved on the surface of the baffles;

s2, slotting and receiving: performing slotting operation on a channel formed between the baffles by using a slotting machine, controlling the slotting size according to slotting information on the surfaces of the baffles in the step S1, and collecting waste materials generated by slotting after slotting;

s3, grinding waste materials: crushing and grinding the collected waste materials by a crusher and a grinder until the waste materials are decomposed into gravel;

s4, laying a circuit: classifying the lines with different specifications and purposes according to the specifications of the lines to be laid in the step S1, and laying the lines into the corresponding grooves;

s5, trench backfilling: fully mixing the gravel-shaped waste material obtained in the step S3 with cement and water, pouring the mixture into the groove, ensuring uniform coverage, completing backfilling operation, and removing the baffle after pouring;

this communication engineering construction is with fluting wiring technology, can restrict the fluting width and improve the regularity aesthetic property of slot through the baffle, and the baffle surface shows there is the slot degree of depth, slot staggered position degree of depth size and treats the line specification model information of laying, and it has the relevant position to distribute, make things convenient for the staff to observe, and set up in the front end of slot degree of depth change section in the attention device, can remind the staff in advance to notice the slot degree of depth and be about to change, and the waste material that the fluting produced can regard as the backfill through recovery processing, thereby be favorable to avoiding waste rubbish to appear, avoid environmental pollution, also be favorable to reducing construction cost.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (9)

1. The utility model provides a communication engineering construction is with fluting wiring technology which includes, its characterized in that: comprises the following steps:

s1, slotting preparation:

erecting baffles by taking double lines as base lines according to a design drawing, wherein a channel formed between the baffles is a groove to be trenched, and marking grooving information and specification and model of a line to be paved on the surface of the baffles;

s2, slotting and receiving:

performing slotting operation on a channel formed between the baffles by using a slotting machine, controlling the slotting size according to slotting information on the surfaces of the baffles in the step S1, and collecting waste materials generated by slotting after slotting;

s3, grinding waste materials:

crushing and grinding the collected waste materials by a crusher and a grinder until the waste materials are decomposed into gravel;

s4, laying a circuit:

classifying the lines with different specifications and purposes according to the specifications of the lines to be laid in the step S1, and laying the lines into the corresponding grooves;

s5, trench backfilling:

and (4) fully mixing the gravel-shaped waste material obtained in the step S3 with cement and water, pouring the mixture into the groove, ensuring uniform coverage, completing backfilling operation, and removing the baffle after pouring.

2. The slotting and wiring process for communication engineering construction according to claim 1, wherein the slotting and wiring process comprises the following steps: and in the step S1, two laser level meters are used for forming laser beams, and the two laser beams are parallel to each other.

3. The slotting and wiring process for communication engineering construction according to claim 1, wherein the slotting and wiring process comprises the following steps: and in the step S1, the baffles are aluminum alloy baffles which are arranged in parallel, and the distance between the baffles is the width of the slot.

4. The slotting and wiring process for communication engineering construction according to claim 1, wherein the slotting and wiring process comprises the following steps: and the slotting information marked on the surface of the baffle plate in the step S1 comprises groove depth information and the depth size of the groove intersection.

5. The slotting and wiring process for communication engineering construction according to claim 4, wherein the slotting and wiring process comprises the following steps: and S1, marking the information marked on the surface of the baffle plate and the specification and model of the line to be laid at the corresponding position of the baffle plate, wherein the groove depth information is uniformly marked on the surface of the baffle plate, the depth dimension of the groove intersection is marked at the groove intersection, and the specification and model of the line to be laid are marked at the head end and the tail end of the groove to be laid.

6. The slotting and wiring process for communication engineering construction according to claim 1, wherein the slotting and wiring process comprises the following steps: and in the step S2, an alarm is arranged on the surface of the baffle plate and is arranged at the front end of the groove depth change section.

7. The slotting and wiring process for communication engineering construction according to claim 6, wherein the slotting and wiring process comprises the following steps: during grooving, when the grooving machine approaches to a groove part needing deepening the groove depth, the warning device senses the grooving machine and gives a prompt, and therefore staff are prompted to notice that the grooving depth is about to change in advance.

8. The slotting and wiring process for communication engineering construction according to claim 1, wherein the slotting and wiring process comprises the following steps: and in the step S3, the waste is crushed into blocks by the crusher, then hard substances which cannot be mixed with the cement in the waste are screened out by screening equipment, and the obtained screening substances are ground into gravel by the grinder.

9. The slotting and wiring process for communication engineering construction according to claim 1, wherein the slotting and wiring process comprises the following steps: the waste material in the gravel shape in the step S5, cement and water are sufficiently mixed, wherein the waste material comprises 50 parts by weight, the cement comprises 20 parts by weight and the water comprises 10 parts by weight.