CN111673894A

CN111673894A - Automatic tubular pile autoclaved maintenance method and device and storage medium

Info

Publication number: CN111673894A
Application number: CN202010576665.2A
Authority: CN
Inventors: 吴斌; 秦全荣
Original assignee: Suzhou Haihong Cement Products Co ltd
Current assignee: Suzhou Fenhu Investment Group Co ltd
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2020-09-18
Anticipated expiration: 2040-06-22
Also published as: CN111673894B

Abstract

The application relates to the technical field of concrete pipe piles, in particular to an automatic autoclaved maintenance method, an automatic autoclaved maintenance device and a storage medium for a pipe pile, and aims to solve the problem that the maintenance effect of the pipe pile in the related technology is low, and the technical scheme is that the area division is as follows: uniformly dividing the curing pool into N areas according to the floor area of the curing pool; steam is fed in a subarea way: steam is introduced into the curing pool from the center of each zone. Evenly divide into N regions with the maintenance pond, and locate to letting in steam in the maintenance pond from every regional center, steam gets into in the maintenance pond to the diffusion all around that corresponds the region for steam is dispersion relatively for even in corresponding the region, and then can improve the maintenance pond in be heated evenly, makes the tubular pile in the maintenance pond evenly contact with steam, thereby can improve the maintenance effect of tubular pile.

Description

Automatic tubular pile autoclaved maintenance method and device and storage medium

Technical Field

The application relates to the technical field of concrete pipe piles, in particular to a method and a device for automatically maintaining a pipe pile by autoclaving and a storage medium.

Background

The prestressed concrete tubular pile can be divided into a post-tensioning prestressed tubular pile and a pre-tensioning prestressed tubular pile. The pre-tensioning prestressed pipe pile is a hollow cylindrical elongated concrete prefabricated member made up by adopting pre-tensioning prestressed process and centrifugal forming method, mainly formed from cylindrical pile body, end plate and steel ferrule.

In the manufacturing process of the prestressed pipe pile, the pipe pile with the die sleeve is required to be placed into a steam curing pool together for curing, and normal-pressure steam curing in the production process of the prestressed pipe pile determines the demolding strength and the concrete quality of the pipe pile and the effective stress of the pipe pile after demolding, and is an important process in the production of the pipe pile.

A current steam maintenance pond, refer to fig. 1, including cell body 1, the apron 2 of setting on cell body 1, be provided with a plurality of steam jet pipe 3 on a lateral wall of cell body 1, place the tubular pile and end in cell body 1 bottom. And after the cover plate 2 is covered, steam is introduced into the pool body 1, so that the tubular pile can be subjected to heat treatment maintenance.

However, steam that the tubular pile contacted is inhomogeneous in the in-service use process for the maintenance effect of tubular pile is lower.

Disclosure of Invention

In order to help improve the maintenance effect of the tubular pile, the application provides an automatic tubular pile autoclaved maintenance method, an automatic tubular pile autoclaved maintenance device and a storage medium.

In a first aspect, the application provides an automatic tubular pile autoclaving maintenance method, which adopts the following technical scheme:

an automatic tubular pile autoclaved maintenance method comprises a steam conveying method, wherein the steam conveying method comprises the following steps:

area division: uniformly dividing the curing pool into N areas according to the floor area of the curing pool;

steam is fed in a subarea way: steam is introduced into the curing pool from the center of each zone.

Through adopting above-mentioned technical scheme, will support the pond and evenly divide into N region, and locate to letting in steam in the maintenance pond from every regional center, steam gets into in the maintenance pond to the regional diffusion all around that corresponds for steam is dispersion relatively more even in corresponding region, and then can improve the maintenance pond in be heated evenly, makes tubular pile and steam evenly contact in the maintenance pond, thereby can improve the maintenance effect of tubular pile.

Preferably, the method comprises a temperature detection method, wherein the temperature detection method comprises the following steps:

acquiring a threshold value: acquiring a preset temperature standard value a and a first temperature threshold value b;

and (3) detecting data: detecting temperature information in each area in real time to obtain a temperature detection value c;

primary judgment: comparing the temperature detection value c with a temperature standard value a, judging whether the difference value between the temperature detection value c and the temperature standard value a is smaller than a first temperature threshold value b, and if so, marking as normal; if not, entering the step for judging again;

judging again: judging whether the temperature detection value c is smaller than a temperature standard value a or not, and if so, entering the step for primary processing; if not, performing secondary processing;

primary treatment: increasing the amount of steam introduced into the area;

secondary treatment: the amount of steam introduced into the region is reduced.

Through adopting above-mentioned technical scheme, select different processing methods according to the big or small relation between the temperature detection value an in the region and the temperature standard value a, the temperature in the accurate each region of control of being convenient for is convenient for improve the homogeneity of being heated of tubular pile to can improve the maintenance effect of tubular pile.

Preferably, the step of primary processing specifically includes:

threshold value acquisition: acquiring a preset second temperature threshold d, wherein the second temperature threshold d is greater than the first temperature threshold b;

primary judgment: judging whether the difference value between the temperature detection value c and the temperature standard value a is smaller than a second temperature threshold value d, if so, entering step one-stage adjustment; if not, entering a step of secondary adjustment;

primary adjustment: performing primary adjustment on specific parameters influencing the steam quantity;

secondary regulation: secondary adjustments are made to specific parameters that affect the amount of steam.

Through adopting above-mentioned technical scheme, according to the different regulation mode of selecting of difference between temperature detection value c in the region and the temperature standard value a, the steam volume that this region of regulation lets in that can be convenient for accurate, quick, and then can adjust the temperature in this region to can improve the maintenance effect of tubular pile.

Preferably, the step one-stage adjustment specifically includes:

priority configuration: configuring priorities of a plurality of specific parameters influencing the steam volume of the area, wherein the priorities of the specific parameters are different from each other;

primary parameter adjustment: and regulating each specific parameter in turn according to the priority sequence.

By adopting the technical scheme, when the difference value between the temperature detection value c and the temperature standard value a in the area is smaller than the second temperature threshold value d, the specific parameters are sequentially adjusted according to the priority order, so that the temperature in the area can reach the temperature standard value a or be infinitely close to the temperature standard value a as soon as possible.

Preferably, the step of secondary regulation specifically comprises:

secondary parameter adjustment: a number of specific parameters affecting the steam volume in the zone are adjusted simultaneously.

By adopting the technical scheme, when the difference value between the temperature detection value c and the temperature standard value a in the area is greater than the second temperature threshold value d, a plurality of specific parameters influencing the steam quantity in the area are adjusted simultaneously, so that the temperature in the area can reach the temperature standard value a or be infinitely close to the temperature standard value a.

In a second aspect, the application provides an automatic tubular pile autoclaved maintenance device, adopts following technical scheme:

an automatic tubular pile autoclaved maintenance device comprises a pool body and a cover plate arranged on the pool body, wherein the bottom wall of the pool body is uniformly divided into a plurality of areas, steam spray pipes are arranged on the bottom wall of the pool body and positioned in the corresponding areas, the steam spray pipes are arranged at the central positions of the corresponding areas, and heat insulation layers are arranged on the steam spray pipes;

one side of cell body is provided with steam generator, steam generator's delivery outlet is connected with the house steward, the one end of steam spray tube all is connected with the house steward, be provided with first valve on the house steward, be provided with the second valve on the steam spray tube, the controller of first valve and second valve all is connected with control center.

Through adopting above-mentioned technical scheme, the steam spray tube setting is located at the center that corresponds the region, and when steam passed through the steam spray tube blowout, to diffusion all around, increased the homogeneity of steam dispersion in the cell body, and then can improve the homogeneity of being heated of tubular pile to can improve the effect of tubular pile maintenance.

Preferably, the cover plate is provided with an infrared temperature measuring sensor facing the bottom wall of the tank body at a position corresponding to the corresponding region, the infrared sensor faces the center of the corresponding region, and the infrared temperature measuring sensor is connected with the control center.

Through adopting above-mentioned technical scheme, infrared temperature sensor is used for detecting the temperature information in corresponding region to with temperature information transmission to control center, be convenient for judge the internal temperature of pond, thereby can further improve the maintenance effect of tubular pile.

Preferably, one end of the steam spray pipe, which is far away from the steam generator, is flush with the bottom wall of the tank body, a flow guide shell is arranged on the bottom wall of the tank body and at the position of the corresponding steam spray pipe, and the cross section of the flow guide shell is in a trapezoidal arrangement;

the water conservancy diversion casing includes roof and curb plate, it is provided with a plurality of infiltration hole to run through on the curb plate.

By adopting the technical scheme, in the process of autoclaving and maintaining the tubular pile, liquid formed by steam condensation is accumulated at the bottom of the pool body, and the arrangement of the flow guide shell reduces the influence on the discharge of the steam caused by the fact that the liquid after the steam condensation flows into the steam jet pipe; steam enters the pool body through the permeation holes and can be diffused to the periphery, so that the temperature in the pool body is more uniform, and the maintenance effect of the tubular pile is improved;

on the other hand, the setting of water conservancy diversion casing for the tubular pile is placed on the roof, and is contactless with the diapire of cell body, thereby can further improve the homogeneity that the tubular pile is heated.

Preferably, one side of the pool body is provided with a water collecting pool, a flow channel is arranged on the bottom wall of the pool body, and one end of the flow channel is connected with the water collecting pool through a pipeline.

Through adopting above-mentioned technical scheme, gather in the cell body bottom easily after steam condensation is liquid for the direct soaking in aqueous of tubular pile bottom leads to the tubular pile bottom to rust easily. Due to the arrangement of the flow channel, liquid formed by condensing steam can be discharged into the water collecting pool through the flow channel in time, so that the influence of accumulated liquid on the heating of the tubular pile is reduced, and the heating uniformity of the tubular pile is further improved; and the occurrence of the rusty condition at the bottom of the tubular pile can be effectively reduced.

In a third aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program capable of being loaded by a processor and performing any of the methods described above.

Through adopting above-mentioned technical scheme, can save corresponding procedure, be convenient for improve the maintenance effect of tubular pile.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the steam conveying method, the maintenance pool is uniformly divided into N areas according to the floor area of the maintenance pool, steam is introduced into the maintenance pool from the center of each area, and enters the maintenance pool to diffuse around the corresponding area, so that the uniform heating in the maintenance pool can be improved, the tubular piles in the maintenance pool are uniformly contacted with the steam, and the maintenance effect of the tubular piles can be improved;

2. the steam spray pipe is arranged on the bottom wall of the pool body and is positioned in the center of the corresponding area, so that the dispersion uniformity of steam in the pool body is improved, the heating uniformity of the tubular pile can be improved, and the tubular pile maintenance effect can be improved;

3. through the setting of curb plate, roof and infiltration hole, steam passes through the infiltration hole and gets into the cell internal, can make the temperature in the cell internal more even with steam to diffusion all around, helps improving the maintenance effect of tubular pile.

Drawings

FIG. 1 is a schematic view of a steam curing pool shown in the background of the present application;

FIG. 2 is a block flow diagram of a vapor delivery method shown in an embodiment of the present application;

fig. 3 is a schematic diagram illustrating area division in the automatic tubular pile autoclaved maintenance method according to the embodiment of the application;

FIG. 4 is a block flow diagram of a method for temperature detection according to an embodiment of the present disclosure;

FIG. 5 is a block flow diagram of a process of steps shown in an embodiment of the present application;

fig. 6 is a schematic structural diagram of an automatic tubular pile autoclave maintenance device shown in the embodiment of the application;

fig. 7 is an exploded view of an automatic tubular pile autoclave maintenance device shown in an embodiment of the application;

fig. 8 is an enlarged view of a portion a in fig. 6;

fig. 9 is an enlarged view of a portion B in fig. 7.

Description of reference numerals: 1. a tank body; 2. a cover plate; 3. a steam nozzle; 4. a steam generator; 5. a header pipe; 6. a first valve; 7. a second valve; 9. a flow-guiding housing; 10. a top plate; 11. a side plate; 12. a penetration hole; 13. an infrared temperature measuring sensor; 14. a water collecting tank; 15. and a flow passage.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses an automatic tubular pile autoclaved maintenance method which comprises a steam conveying method and a temperature detection method;

referring to fig. 2 and 3, the vapor delivery method includes:

Referring to fig. 4, the temperature sensing method includes:

primary treatment: increasing the amount of steam introduced into the area;

secondary treatment: the amount of steam introduced into the region is reduced.

Referring to fig. 5, the step one-time processing is specifically set as:

Referring to fig. 5, the step one adjustment is specifically set as:

Specifically, specific parameters influencing the steam quantity of each zone are set as the flow rate of the steam and the time for introducing the steam into the zone, and the priority of the flow rate of the steam is higher than the time for introducing the steam.

If the difference between the temperature detection value c and the temperature standard value a of one area is greater than the first temperature threshold value b, the size between the temperature detection value c and the temperature standard value a needs to be judged, if the temperature detection value c is smaller than the temperature standard value a, the size between the difference between the temperature detection value c and the temperature standard value a and the second temperature threshold value d needs to be judged, if the difference between the temperature detection value c and the temperature standard value a is smaller than the second temperature threshold value d, the flow rate of the steam introduced into the area is firstly adjusted according to the setting of priority, the flow rate of the steam is increased, and then the time of the steam introduced into the area is prolonged, so that the temperature of the area can reach the temperature standard value a or be infinitely close to the temperature standard value a.

Referring to fig. 5, the step two-level adjustment is specifically set as:

If the difference between the temperature detection value c and the temperature standard value a of one area is greater than the first temperature threshold value b, the size between the temperature detection value c and the temperature standard value a needs to be judged, if the temperature detection value c is smaller than the temperature standard value a, the size between the difference between the temperature detection value c and the temperature standard value a and the second temperature threshold value d needs to be judged, and if the difference between the temperature detection value c and the temperature standard value a is greater than the second temperature threshold value d, the flow rate of steam in the area and the time for introducing the steam are adjusted simultaneously, so that the temperature in the area can reach the temperature standard value a or approach to an infinite temperature standard value a.

The secondary treatment mode of the step is the same as the primary treatment mode of the step, and the secondary treatment mode is used for reducing the steam amount introduced into the corresponding area.

Referring to fig. 6, the embodiment of the application further discloses an automatic tubular pile autoclaved maintenance device, which comprises a pool body 1 and a cover plate 2 arranged on the pool body 1, wherein the pool body is uniformly divided into a plurality of regions according to the area of the bottom wall of the pool body 1, and a steam spray pipe 3 is arranged on the bottom wall of the pool body 1 and at the center position of the corresponding region.

Referring to fig. 6, the steam spray pipe 3, the tank body 1 and the cover plate 2 are all provided with heat preservation layers, and specifically, the heat preservation layers can be made of aerogel felt, glass wool, expanded perlite, micro-nano heat insulation materials and the like.

Referring to fig. 7 and 8, a steam generator 4 is arranged on one side of the tank body 1, a main pipe 5 is connected to an output port of the steam generator 4, one end of the main pipe 5, which is far away from the steam generator 4, is connected with a steam spray pipe 3, and one end of the steam spray pipe 3, which is far away from the main pipe 5, extends into the tank body 1 and is flush with the bottom wall of the tank body 1. The main pipe 5 is provided with a first valve 6, the steam spray pipe 3 is provided with a second valve 7, the second valve 7 and the controller of the first valve 6 are connected with a control center, and the control center is used for controlling the opening and closing of the first valve 6 and the second valve 7.

Referring to fig. 9, a diversion shell 9 is arranged on the bottom wall of the tank body 1 and is covered at the corresponding steam jet pipe 3, the cross section of the diversion shell 9 is trapezoidal, the diversion shell 9 comprises a top plate 10 and four side plates 11, one end of each side plate 11 is connected with the top plate 10, the other end of each side plate 11 is connected with the bottom wall of the tank body 1, two adjacent side plates 11 are connected, and the side plates 11 are provided with a plurality of penetration holes 12 in a penetrating manner.

Referring to fig. 9, when the steam is sprayed out from the steam spraying pipe 3, the steam is sprayed to the periphery of the flow guiding shell 9 through the permeation holes 12 on the side plate 11, so that the steam can be uniformly dispersed in the pool body 1.

Referring to fig. 7, an infrared temperature sensor 13 is disposed on the cover plate 2 at a position corresponding to the corresponding region, the infrared temperature sensor 13 faces the center of the corresponding region, and the infrared temperature sensor 13 is connected to the control center for detecting the temperature of each region in real time.

Referring to fig. 7 and 8, a temperature standard value a, a first temperature threshold value b and a second temperature threshold value d are preset in the control center, and the second temperature threshold value d is greater than the first temperature threshold value b; the infrared temperature measurement sensor 13 detects temperature information of a corresponding area in real time and sends the temperature information to the control center, the control center generates a temperature detection value according to the received temperature information, compares the temperature detection value with a temperature standard value a, judges whether a difference value between the temperature detection value and the temperature standard value a is smaller than a first temperature threshold value b, marks the temperature detection value as normal when the temperature detection value is judged to be yes, judges whether the temperature detection value is smaller than the temperature standard value a when the temperature detection value is not judged to be yes, and increases the amount of steam introduced into the area when the temperature detection value is judged to be yes; and if the judgment result is no, reducing the steam amount of the steam introduced into the area.

Specifically, when it is desired to increase or decrease the amount of steam introduced into the region, the following operations are performed: firstly, judging whether the difference value between the temperature detection value and the temperature standard value a is smaller than a second temperature threshold value d, if so, adjusting the specific parameters influencing the steam flow according to the priority sequence, and if not, simultaneously adjusting the specific parameters influencing the steam flow.

Referring to fig. 7 and 8, in particular, specific parameters affecting the amount of steam are set as the flow rate of steam and the time for which the steam is introduced into the region, and the flow rate of steam has a higher priority than the time for which the steam is introduced.

For example, if the difference between the temperature detection value and the temperature standard value a of a region is greater than the first temperature threshold value b, the magnitude between the temperature detection value and the temperature standard value a needs to be determined, if the temperature detection value is less than the temperature standard value a, the magnitude between the difference between the temperature detection value and the temperature standard value a and the second temperature threshold value d needs to be determined, if the difference between the temperature detection value and the temperature standard value a is less than the second temperature threshold value d, according to the setting of the priority, the flow rate of the steam introduced into the region is firstly adjusted, the second valve 7 on the steam spray pipe 3 corresponding to the region is adjusted through the control center, so that the flow rate of the steam in the steam spray pipe 3 is increased, then the time for introducing the steam into the region is prolonged, and the time for closing the second valve 7 on the steam spray pipe 3 corresponding to the region is controlled through the control center, so that the temperature of the region can reach the temperature standard value a or infinitely close to the temperature standard value a.

If the difference value between the temperature detection value and the temperature standard value a is larger than a second temperature threshold value d, the flow rate of the steam in the area and the time for introducing the steam are adjusted simultaneously, so that the temperature in the area can reach the temperature standard value a or be infinitely close to the temperature standard value a.

Referring to fig. 7, a water collecting tank 14 is disposed on one side of the tank body 1, a flow passage 15 is disposed on the bottom wall of the tank body 1 along the length direction thereof, the flow passage 15 is uniform along the width direction of the tank body 1, the flow passage 15 is arranged in an arc shape, and the flow passage 15 is connected to the water collecting tank 14 through a pipeline. When steam is condensed into liquid, the liquid is accumulated at the bottom of the pool body 1, so that the bottom of the tubular pile is directly soaked in water, and the bottom of the tubular pile is easily rusted. The arrangement of the flow channel 15 enables the steam to be liquid after being condensed and then flows into the flow channel 15, and the liquid is discharged into the water collecting tank 14 through the flow channel 15, so that the occurrence of the rusty condition at the bottom of the tubular pile is effectively reduced.

The implementation principle of the automatic tubular pile autoclaved maintaining device in the embodiment of the application is as follows:

when the tubular pile needs to be subjected to steam maintenance, firstly, the cover plate 2 is lifted by the lifting equipment, then the tubular pile is placed in the pool body 1, the cover plate 2 is reset by adopting the crane again, and due to the arrangement of the flow guide shell 9, the tubular pile is placed on the top plate 10, so that the bottom of the tubular pile is not propped against the bottom wall of the pool body 1,

open first valve 6 and second valve 7 for steam that steam generator 4 produced passes through house steward 5 and steam spray tube 3 and gets into cell body 1 in, because 3 evenly distributed of steam spray tube, steam gets into cell body 1 and inwards diffuses all around, makes the steam of tubular pile contact comparatively even, and then can improve the maintenance effect of tubular pile.

The embodiment of the application also discloses a computer readable storage medium, which stores a computer program capable of being loaded by a processor and executing any one of the methods.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An automatic tubular pile autoclaved maintenance method is characterized in that: comprising a steam delivery method comprising:

2. The automatic autoclaved maintenance method of the tubular pile according to claim 1, characterized in that: the temperature detection method comprises the following steps:

primary treatment: increasing the amount of steam introduced into the area;

secondary treatment: the amount of steam introduced into the region is reduced.

3. The automatic autoclaved maintenance method of the tubular pile according to claim 2, characterized in that: the step of primary treatment specifically comprises the following steps:

4. The automatic autoclaved maintenance method of the tubular pile according to claim 3, characterized in that: the step one-stage regulation specifically comprises the following steps:

5. The automatic autoclaved maintenance method of the tubular pile according to claim 3, characterized in that: the step of secondary regulation specifically comprises the following steps:

6. The utility model provides an automatic evaporate and press maintenance device of tubular pile which characterized in that: the device comprises a pool body (1) and a cover plate (2) arranged on the pool body (1), wherein the bottom wall of the pool body (1) is uniformly divided into a plurality of areas, steam spray pipes (3) are arranged on the bottom wall of the pool body (1) and positioned in the corresponding areas, the steam spray pipes (3) are arranged at the central positions of the corresponding areas, and heat-insulating layers are arranged on the steam spray pipes (3);

one side of cell body (1) is provided with steam generator (4), the delivery outlet of steam generator (4) is connected with house steward (5), the one end of steam spray tube (3) all is connected with house steward (5), be provided with first valve (6) on house steward (5), be provided with second valve (7) on steam spray tube (3), first valve (6) all are connected with control center with the controller of second valve (7).

7. The automatic tubular pile autoclaved maintenance device according to claim 6, characterized in that: the cover plate (2) is provided with an infrared temperature measuring sensor (13) facing the bottom wall of the tank body (1) at a position corresponding to the corresponding region, the infrared temperature measuring sensor (13) faces the center of the corresponding region, and the infrared temperature measuring sensor (13) is connected with the control center.

8. The automatic tubular pile autoclaved maintenance device according to claim 6, characterized in that: one end of the steam spray pipe (3) far away from the steam generator (4) is flush with the bottom wall of the tank body (1), a flow guide shell (9) is arranged on the bottom wall of the tank body (1) and at the position corresponding to the steam spray pipe (3), and the cross section of the flow guide shell (9) is in a trapezoidal arrangement;

the flow guide shell (9) comprises a top plate (10) and a side plate (11), and a plurality of penetration holes (12) penetrate through the side plate (11).

9. The automatic tubular pile autoclaved maintenance device according to claim 6, characterized in that: one side of cell body (1) is provided with catch basin (14), be provided with runner (15) on the diapire of cell body (1), the one end of runner (15) is connected with catch basin (14) through the pipeline.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any of claims 1-5.