CN104700161A - Risk factor identification-based construction site patrol optimization method and system - Google Patents

Abstract

The invention provides a risk factor identification-based construction site patrol optimization method and system. The method specifically comprises the following steps: previously setting and storing risk factors and risk level information corresponding to the risk factors existing in a construction site in a pipe network intelligent patrol system; acquiring construction site information in real time and matching the acquired construction site information with the risk factor preset by the system and the risk level information corresponding to the risk factor; if the information matching is successful, automatically generating a patrol period of the construction site by the pipe network intelligent patrol system according to a predetermined rule, and assigning related construction site management personnel to perform patrol management work of the construction site according to the patrol period. By matching the acquired construction site information with the preset risk factor and the risk level, the construction site patrol period is automatically provided, and the patrol efficiency is improved.

Description

A kind of construction site based on risk factors collection inspection optimization method and system

Technical field

The present invention relates to gas ductwork inspection technical field, particularly relate to a kind of construction site based on risk factors collection inspection optimization method and system.

Background technology

Gas Pipe inspection has extremely important effect in the process of combustion gas accumulating conveying, is the link of the indispensable indispensability of safety in production; In the face of building site quantity and the polygon construction form of surge, the site management personnel that experience is enriched again also can face situation at a loss as to what to do.There is not the construction site visiting method of standardization, procedure in the market, easily cause the difference of the inspection level caused because of site management personnel profile.

That is, the defect existed in prior art is: the inspection cycle lacking robotization is arranged, and causes gas pipeline inspection inefficiency.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

The technical problem to be solved in the present invention is, for the above-mentioned defect of prior art, a kind of construction site based on risk factors collection inspection optimization method and system are provided, are intended to solve in prior art the inspection cycle setting lacking robotization, the defect causing gas pipeline inspection inefficiency by the present invention.

The technical scheme that technical solution problem of the present invention adopts is as follows:

Based on a construction site inspection optimization method for risk factors collection, described inspection optimization method is used for, in pipe network intelligence inspection system, wherein, comprising step:

S1, arranges in pipe network intelligence inspection system and store risk factors and the risk class information corresponding to described risk factors of construction site existence in advance;

S2, Real-time Collection construction site information, and the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated;

If the success of S3 information matches, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.

The described inspection of the construction site based on risk factors collection optimization method, wherein, the risk factors that described construction site exists comprise: basic condition factor and administrative intervention factor.

The described inspection of the construction site based on risk factors collection optimization method, wherein, described basic condition factor comprises: construction operation project progress, construction operation controllable degree and construction operation and pipeline range information; Described administrative intervention factor comprises: construction operation supervision degree, the safeguard measure implementation of conditions of described construction site, described pipe network importance degree, described ductwork pressure rank and described pipe network information integrity degree.

The described inspection of the construction site based on risk factors collection optimization method, wherein, risk class information corresponding to described risk factors comprises: one-level, secondary, three grades, level Four and Pyatyi; Wherein one-level is the highest, Pyatyi is minimum.

The described inspection of the construction site based on risk factors collection optimization method, wherein, described step S3 specifically comprises step:

The risk class information that the construction site information of Real-time Collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated by S31, pipe network intelligence inspection system;

If the match is successful and the building site comprising more than 3 primary risks in the building site or described administrative intervention factor comprising more than 2 primary risks in described basic condition factor detected for S32, then set for the first inspection cycle;

If the match is successful and the building site having and have primary risk in the building site of 1 primary risk or described administrative intervention factor detected in described basic condition factor for S33, then set for the second inspection cycle;

S44 otherwise, in other cases then set the 3rd inspection the cycle;

S45, pipe network intelligence inspection system carries out the inspection management work of construction site according to the inspection period allocated associated worksite managerial personnel of described setting.

Based on a construction site inspection optimization system for risk factors collection, wherein, comprising:

Prestore module, for arranging in pipe network intelligence inspection system in advance and storing risk factors and the risk class information corresponding to described risk factors of construction site existence;

Information acquisition module, for Real-time Collection construction site information, and mates the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors;

Inspection cycle set module, if for information matches success, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.

The described inspection of the construction site based on risk factors collection optimization system, wherein, the risk factors that described construction site exists comprise: basic condition factor and administrative intervention factor.

The described inspection of the construction site based on risk factors collection optimization system, wherein, described basic condition factor comprises: construction operation project progress, construction operation controllable degree and construction operation and pipeline range information; Described administrative intervention factor comprises: construction operation supervision degree, the safeguard measure implementation of conditions of described construction site, described pipe network importance degree, described ductwork pressure rank and described pipe network information integrity degree.

The described construction site based on risk factors collection inspection optimization system, wherein, risk class information corresponding to described risk factors comprises: one-level, secondary, three grades, level Four and Pyatyi; Wherein one-level is the highest, Pyatyi is minimum.

The described inspection of the construction site based on risk factors collection optimization system, wherein, described inspection cycle set module specifically comprises:

Information matching unit, mates the risk class information that the construction site information of Real-time Collection is corresponding with described in the risk factors of systemic presupposition and described risk factors for pipe network intelligence inspection system;

First inspection period setting unit, if for the match is successful and the building site comprising more than 3 primary risks in the building site or described administrative intervention factor comprising more than 2 primary risks in described basic condition factor detected, then set for the first inspection cycle;

Second inspection period setting unit, if for the match is successful and the building site having and have primary risk in the building site of 1 primary risk or described administrative intervention factor detected in described basic condition factor, then set for the second inspection cycle;

3rd inspection period setting unit, for otherwise, in other cases then set the 3rd inspection the cycle;

Inspection management work allocation units, carry out the inspection management work of construction site according to the inspection period allocated associated worksite managerial personnel of described setting for pipe network intelligence inspection system.

A kind of construction site based on risk factors collection provided by the present invention inspection optimization method and system, described method specifically comprises: arrange in pipe network intelligence inspection system in advance and store the risk factors of construction site existence and risk class information corresponding to described risk factors; Real-time Collection construction site information, and the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated; If information matches success, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.The present invention by the construction site information of collection being mated with the risk factors pre-set in system and risk class, thus automatically provides the building site inspection cycle, improves inspection efficiency.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the first preferred embodiment of the construction site inspection optimization method that the present invention is based on risk factors collection.

Fig. 2 is the functional block diagram of the first preferred embodiment of the construction site inspection optimization system that the present invention is based on risk factors collection.

Embodiment

The invention discloses a kind of construction site based on risk factors collection inspection optimization method and system, for making object of the present invention, technical scheme and advantage clearly, clearly, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1, Fig. 1 is the process flow diagram of the first preferred embodiment of the construction site inspection optimization method that the present invention is based on risk factors collection.The inspection of the construction site based on risk factors collection optimization method shown in Fig. 1, comprising:

Step S101, arranges in pipe network intelligence inspection system and store risk factors and the risk class information corresponding to described risk factors of construction site existence in advance.

Need in the embodiment of the present invention to arrange in pipe network intelligence inspection system in advance and store risk factors and the risk class information corresponding to described risk factors of construction site existence, wherein, the risk factors that described construction site exists comprise: basic condition factor and administrative intervention factor.

Further, described basic condition factor comprises: construction operation project progress, construction operation controllable degree and construction operation and pipeline range information; Described administrative intervention factor comprises: construction operation supervision degree, the safeguard measure implementation of conditions of described construction site, described pipe network importance degree, described ductwork pressure rank and described pipe network information integrity degree.

Further, the risk class information setting described risk factors corresponding comprises: one-level, secondary, three grades, level Four and Pyatyi; Wherein one-level is the highest, Pyatyi is minimum.

Step S102, Real-time Collection construction site information, and the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated.

If the success of step S103 information matches, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.

In the embodiment of the present invention, described step S103 specifically comprises step:

The risk class information that the construction site information of Real-time Collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated by S31, pipe network intelligence inspection system;

If the match is successful and the building site comprising more than 3 primary risks in the building site or described administrative intervention factor comprising more than 2 primary risks in described basic condition factor detected for S32, then set for the first inspection cycle;

If the match is successful and the building site having and have primary risk in the building site of 1 primary risk or described administrative intervention factor detected in described basic condition factor for S33, then set for the second inspection cycle;

S44 otherwise, in other cases then set the 3rd inspection the cycle;

S45, pipe network intelligence inspection system carries out the inspection management work of construction site according to the inspection period allocated associated worksite managerial personnel of described setting.

Preferably, the described first inspection cycle is at least patrol twice every day; The described second inspection cycle is at least patrol once every day; The described 3rd inspection cycle is at least patrol once for every two days.If there is two or more rank simultaneously, to be as the criterion with the rank that the cycle of patrolling is short.Without the building site of supervising or supervision is poor, according to its construction speed, can suitably increase inspection number of times.

To be described according to an embody rule embodiment below.

The first step, construction site information element is summed up as pipe network information three bulk in construction site characteristic information, site management information and building site, each block has all done very detailed content and definition.

1 construction site characteristic information

Construction site characteristic information comprises construction operation project progress, construction operation controllable degree and operation and pipeline distance.

1.1 according to construction operation project progress, can be divided into:

1) active period building site, refers to there is construction operation, and likely has influence on the operation of pipeline and facility, as foundation dredging etc.;

2) stationary phase building site, refer to suspension of works, stockyard, building site or (containing ground) operation on the ground, on pipeline and facility impact less;

3) uncertain phase building site, refers to the construction operation point of construction period uncertain or provisional (being less than for 7 consecutive days).

1.2 according to construction operation controllable degree, can be divided into:

1) building site that controllable degree is high, refers to that operating type is little on periphery impact, not easily produces the engineering of secondary event, as hand excavation etc.

2) building site that controllable degree is low, refers to that operation is more difficult and holds the construction controlled, as operations such as Directional Drilling, push pipe, explorations.

1.3, according to the distance of construction operation apart from pipeline, can be divided into:

1) operation within the scope of pipe protection: by Shenzhen's pipe protection requirement, low pressure, middle pressure pipeline protection domain are the region within the scope of tube wall and 1 meter, facility outer rim both sides; Sub-high pressure pipe protection scope is the region within the scope of tube wall and 2 meters, facility outer rim both sides; Pressure piping protection domain is the region within the scope of tube wall and 5 meters, facility outer rim both sides.

2) operation within the scope of pipe control: by Shenzhen's pipe protection requirement, low pressure, middle pressure pipeline range of control are that tube wall and 1 meter, facility outer rim both sides are to the region within the scope of 6 meters; Sub-high pressure pipe control scope is that tube wall and 2 meters, facility outer rim both sides are to the region within the scope of 10 meters; Pressure piping range of control is that tube wall and 5 meters, facility outer rim both sides are to the region within the scope of 50 meters.

3) the extraneous operation of pipe control: by Shenzhen's pipe protection requirement, low pressure, middle pressure pipeline range of control are the region over tube wall and 6 meters, facility outer rim both sides; Sub-high pressure pipe control scope is the region over tube wall and 10 meters, facility outer rim both sides; Pressure piping range of control is the region over tube wall and 50 meters, facility outer rim both sides.

2 construction site management information

2.1, according to construction operation supervision degree, can be divided into:

1) construction operation that supervision is stronger, Zhi You government work permit, there are the engineering of supervision in government and our unit.

2) construction operation that supervision is more weak.

3) without the operation of supervision, refer to without the need to government's work permit, and the engineering of unmanned supervision and management.

2.2, according to the safeguard measure implementation of conditions of construction site to pipe network, can be divided into:

1) do not formulate protection scheme, implement safeguard measure.

2) formulation has protection scheme, but specifically do not implement.

3) formulate and have protection scheme, implement and have safeguard measure.

3 pipe network characteristic informations

3.1 press pipe network importance degree, can be divided into

1) to essential industry user air feed.

2) 10000 families (containing) above user's gas may be affected.

3) responsible consumer may be affected or affect 5000 families (containing) above user's gas.

4) below 5000 families user's gas may be affected.

3.2 press ductwork pressure, can be divided into

1) high pressure pipe network.

2) sub-high pressure pipe network.

3) fecder system network.

4) low-pressure pipe network.

3.3 press pipe network information integrity degree, can be divided into:

1) GIS does not have, but there is pipe network at scene.

2) GIS has, scene does not have pipe network.

3) all there is pipe network at GIS and scene, but information is not inconsistent.

4) all there is pipe network at GIS and scene, and information conforms to.

Second step, the information content that three bulks comprise is integrated in the mobile phone terminal of pipe network intelligence inspection system by us.

3rd step, by means of inspection mobile phone, site management personnel can accomplish to have no gather all building sites information and report with omitting.

4th step, all construction sites information is carried out the judgement of risk factors collection and risk class by us.

Further; risk class setting corresponding to described risk factors is as shown in following table; wherein table 1 is the risk class division of construction operation project progress; table 2 is that construction operation controllable degree risk class divides; table 3 is that construction operation and pipeline range information risk class divide; table 4 is the division of construction operation supervision degree risk class; table 5 is that the safeguard measure implementation of conditions risk class of construction site divides; table 6 is that pipe network importance degree risk class divides; table 7 is that ductwork pressure rank risk class divides, and table 8 is that pipe network information integrity degree risk class divides.

Table 1

Table 2

Table 3

Table 4

Table 5

Table 6

Table 7

Table 8

The risk class corresponding according to the risk factors of above setting, the rule preset by generates the inspection cycle changing building site automatically in system background.Described preset rules is: if having 2(to contain in basic condition factor) individual above primary risk, or in administrative intervention factor 3(containing) building site of individual above primary risk, every day at least patrols twice.Have 1 primary risk in basic condition factor, or have the building site of primary risk in administrative intervention factor, every day at least patrols once.Except the building site except above-mentioned 2, within every two days, at least patrol once.If there is two or more rank simultaneously, to be as the criterion with the rank that the cycle of patrolling is short.Without the building site of supervising or supervision is poor, according to its construction speed, can suitably increase inspection number of times.Site management personnel carry out the inspection management work in building site according to the inspection cycle generated afterwards.

Based on above-described embodiment, the present invention also provides a kind of construction site based on risk factors collection inspection optimization system, as shown in Figure 2, comprising:

Prestore module 100, for arranging in pipe network intelligence inspection system in advance and storing risk factors and the risk class information corresponding to described risk factors of construction site existence; As detailed above.

Information acquisition module 200, for Real-time Collection construction site information, and mates the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors; As detailed above.

Inspection cycle set module 300, if for information matches success, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel; As detailed above.

Further, the risk factors that described construction site exists comprise: basic condition factor and administrative intervention factor; Described basic condition factor comprises: construction operation project progress, construction operation controllable degree and construction operation and pipeline range information; Described administrative intervention factor comprises: construction operation supervision degree, the safeguard measure implementation of conditions of described construction site, described pipe network importance degree, described ductwork pressure rank and described pipe network information integrity degree.

Further, the risk class information that described risk factors are corresponding comprises: one-level, secondary, three grades, level Four and Pyatyi; Wherein one-level is the highest, Pyatyi is minimum.

Further, described inspection cycle set module specifically comprises:

Information matching unit, mates the risk class information that the construction site information of Real-time Collection is corresponding with described in the risk factors of systemic presupposition and described risk factors for pipe network intelligence inspection system; As detailed above.

First inspection period setting unit, if for the match is successful and the building site comprising more than 3 primary risks in the building site or described administrative intervention factor comprising more than 2 primary risks in described basic condition factor detected, then set for the first inspection cycle; As detailed above.

Second inspection period setting unit, if for the match is successful and the building site having and have primary risk in the building site of 1 primary risk or described administrative intervention factor detected in described basic condition factor, then set for the second inspection cycle; As detailed above.

3rd inspection period setting unit, for otherwise, in other cases then set the 3rd inspection the cycle; As detailed above.

Inspection management work allocation units, carry out the inspection management work of construction site according to the inspection period allocated associated worksite managerial personnel of described setting for pipe network intelligence inspection system; As detailed above.

Preferably, the described first inspection cycle is at least patrol twice every day; The described second inspection cycle is at least patrol once every day; The described 3rd inspection cycle is at least patrol once for every two days.If there is two or more rank simultaneously, to be as the criterion with the rank that the cycle of patrolling is short.Without the building site of supervising or supervision is poor, according to its construction speed, can suitably increase inspection number of times.

In sum, a kind of construction site based on risk factors collection provided by the present invention inspection optimization method and system, described method specifically comprises: arrange in pipe network intelligence inspection system in advance and store the risk factors of construction site existence and risk class information corresponding to described risk factors; Real-time Collection construction site information, and the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated; If information matches success, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.The present invention by the construction site information of collection being mated with the risk factors pre-set in system and risk class, thus automatically provides the building site inspection cycle, improves inspection efficiency.

Should be understood that, application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (10)

1., based on a construction site inspection optimization method for risk factors collection, described inspection optimization method is used for, in pipe network intelligence inspection system, it is characterized in that, comprising step:

S1, arranges in pipe network intelligence inspection system and store risk factors and the risk class information corresponding to described risk factors of construction site existence in advance;

S2, Real-time Collection construction site information, and the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated;

If the success of S3 information matches, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.

2. the inspection of the construction site based on risk factors collection optimization method according to claim 1, it is characterized in that, the risk factors that described construction site exists comprise: basic condition factor and administrative intervention factor.

3. the inspection of the construction site based on risk factors collection optimization method according to claim 2, it is characterized in that, described basic condition factor comprises: construction operation project progress, construction operation controllable degree and construction operation and pipeline range information; Described administrative intervention factor comprises: construction operation supervision degree, the safeguard measure implementation of conditions of described construction site, described pipe network importance degree, described ductwork pressure rank and described pipe network information integrity degree.

4. the construction site based on risk factors collection according to claim 2 inspection optimization method, is characterized in that, risk class information corresponding to described risk factors comprises: one-level, secondary, three grades, level Four and Pyatyi; Wherein one-level is the highest, Pyatyi is minimum.

5. the inspection of the construction site based on risk factors collection optimization method according to claim 4, it is characterized in that, described step S3 specifically comprises step:

The risk class information that the construction site information of Real-time Collection is corresponding with described in the risk factors of systemic presupposition and described risk factors is mated by S31, pipe network intelligence inspection system;

If the match is successful and the building site comprising more than 3 primary risks in the building site or described administrative intervention factor comprising more than 2 primary risks in described basic condition factor detected for S32, then set for the first inspection cycle;

If the match is successful and the building site having and have primary risk in the building site of 1 primary risk or described administrative intervention factor detected in described basic condition factor for S33, then set for the second inspection cycle;

S44 otherwise, in other cases then set the 3rd inspection the cycle;

S45, pipe network intelligence inspection system carries out the inspection management work of construction site according to the inspection period allocated associated worksite managerial personnel of described setting.

6., based on a construction site inspection optimization system for risk factors collection, it is characterized in that, comprising:

Prestore module, for arranging in pipe network intelligence inspection system in advance and storing risk factors and the risk class information corresponding to described risk factors of construction site existence;

Information acquisition module, for Real-time Collection construction site information, and mates the risk class information that the construction site information of described collection is corresponding with described in the risk factors of systemic presupposition and described risk factors;

Inspection cycle set module, if for information matches success, then pipe network intelligence inspection system generates the inspection cycle of described construction site automatically according to a pre-defined rule, and carries out the inspection management work of construction site according to described inspection period allocated associated worksite managerial personnel.

7., according to claim 6 based on the construction site inspection optimization system of risk factors collection, it is characterized in that, the risk factors that described construction site exists comprise: basic condition factor and administrative intervention factor.

8., according to claim 7 based on the construction site inspection optimization system of risk factors collection, it is characterized in that, described basic condition factor comprises: construction operation project progress, construction operation controllable degree and construction operation and pipeline range information; Described administrative intervention factor comprises: construction operation supervision degree, the safeguard measure implementation of conditions of described construction site, described pipe network importance degree, described ductwork pressure rank and described pipe network information integrity degree.

9. according to claim 7 based on the construction site inspection optimization system of risk factors collection, it is characterized in that, risk class information corresponding to described risk factors comprises: one-level, secondary, three grades, level Four and Pyatyi; Wherein one-level is the highest, Pyatyi is minimum.

10., according to claim 9 based on the construction site inspection optimization system of risk factors collection, it is characterized in that, described inspection cycle set module specifically comprises:

Information matching unit, mates the risk class information that the construction site information of Real-time Collection is corresponding with described in the risk factors of systemic presupposition and described risk factors for pipe network intelligence inspection system;

First inspection period setting unit, if for the match is successful and the building site comprising more than 3 primary risks in the building site or described administrative intervention factor comprising more than 2 primary risks in described basic condition factor detected, then set for the first inspection cycle;

Second inspection period setting unit, if for the match is successful and the building site having and have primary risk in the building site of 1 primary risk or described administrative intervention factor detected in described basic condition factor, then set for the second inspection cycle;

3rd inspection period setting unit, for otherwise, in other cases then set the 3rd inspection the cycle;

Inspection management work allocation units, carry out the inspection management work of construction site according to the inspection period allocated associated worksite managerial personnel of described setting for pipe network intelligence inspection system.