CN106217625B - A kind of multi-functional curing means of large-sized reinforced concrete profiled member and its method of work - Google Patents

Abstract

The invention discloses a kind of multi-functional curing means of large-sized reinforced concrete profiled member and its method of work, it is made of main body rack, lifting device, travelling platform, wind vane, hurricane drier, controller；The main body rack is welded by channel steel, and slide is equipped with the top of main body rack；Main body rack side is disposed with lifting device, and opposite side is disposed with wind vane, and wherein lifting device bottom side is equipped with controller；The travelling platform is located on the slide of main body rack, and travelling platform is rolled with main body rack and connected；The hurricane drier is placed in travelling platform bottom centre, and hurricane drier is drivingly connected with travelling platform；A kind of multi-functional curing means of large-sized reinforced concrete profiled member of the present invention, the apparatus structure is simple, and the degree of automation is high, and manual operation is simple, and labor intensity is low；The problems such as causing damaged, the rotten and nutrition leak of air dry matter the device avoids the situation such as bad weather not in time is manually overturn, can effectively improve the air-dried effect of air dry matter.

Description

A kind of multi-functional curing means of large-sized reinforced concrete profiled member and its method of work

Technical field

The invention belongs to new energy apparatus field, and in particular to a kind of multi-functional maintenance of large-sized reinforced concrete profiled member Device.

Background technology

In the industrial production, many materials or finished product need to be kept for a very long time in dry environment, this It is because causing microbial reproduction in wet environment, easily makes it rotten.Such as weaving, food processing and storage food Deng in the past, we were dried by natural air drying, the sun, so as to reach certain desiccation degree.Generation in the time immemorial, People are in order to allow food to dry faster, the characteristics of using air, accelerate the process of dried foods by hole, this is also earliest Natural drying stove.

Drying machine industry is in China's starting more developed country than later, but by constantly exploring, and drying machine industry is in State also achieves positive achievement.Current drying machine industry has had very on a large scale in China, and the production of drying machine can Enough meets the needs of market, at present, traditional drier unit is the main drying equipment of domestic market and international market demand.

The artificial time in certain intervals is needed to operate it in traditional drying process.This drying mode needs artificial Timed maintenance, labor intensity is big, time-consuming and laborious, and because of artificial the upset situation such as not in time its can be caused damaged, rotten or Nutrition leak；In addition, it also suffers from the restriction of weather, when experience rainy weather can not be packed up as early as possible, then can Drenched and occur polluting or go mouldy.Also air dry operation is carried out using dryer, although dryer can solve weather restriction Influence and object is dried, but in drying course, it is still desirable to mechanical equipment carries out turning operation to object, therefore, This method still remains the high phenomenon of breakage rate；Further, since by the way of drying, nutrient loss is not only resulted in, The substantial amounts of energy can also be expended.

The content of the invention

In order to solve the above technical problem, the present invention provides a kind of multi-functional maintenance dress of large-sized reinforced concrete profiled member Put, including：Main body rack 1, lifting device 2, travelling platform 3, wind vane 4, hurricane drier 5, controller 6；The main body rack 1 by Channel steel is welded, and the top of main body rack 1 is equipped with slide；1 side of main body rack is disposed with lifting device 2, opposite side cloth Wind vane 4 is equipped with, wherein 2 bottom side of lifting device is equipped with controller 6, and wind vane 4 is connected by conducting wire and the control of controller 6 Connect；The travelling platform 3 is located on the slide of main body rack 1, and travelling platform 3 is rolled with main body rack 1 and connected；The hurricane drier 5 are placed in 3 bottom centre of travelling platform, and hurricane drier 5 is drivingly connected with travelling platform 3.

Further, the lifting device 2 includes：Elevator 2-1, lifting driving motor 2-2, pulley 2-3, steel wire rope 2- 4, directive slide track 2-5, workbench 2-6；2 top of lifting device is equipped with elevator 2-1, and elevator 2-1 sides are equipped with lifting Drive motor 2-2；Center is equipped with pulley 2-3 on the downside of the elevator 2-1, and steel wire rope 2-4 is wound with pulley 2-3；It is described to lead It is located at 2 side of lifting device to slide 2-5, workbench 2-6, directive slide track 2-5 and workbench 2- is installed on directive slide track 2-5 6 are slidably connected, and wherein workbench 2-6 tops corner is fixedly connected with steel wire rope 2-4 one end；

The lifting driving motor 2-2 is connected by conducting wire and the control of controller 6.

Further, the workbench 2-6 includes：Folding guardrail 2-6-1, tool box 2-6-2, control panel 2-6-3, carries Ceiling level sensor 2-6-4, lifting lug 2-6-5；Corner is equipped with lifting lug 2-6-5 at the top of the workbench 2-6, and lifting lug 2-6-5 is circle Ring-type, lifting lug 2-6-5 are welded and fixed with workbench 2-6；Side is equipped with folding guardrail 2-6-1, folding before and after the workbench 2-6 Guardrail 2-6-1 and workbench 2-6 hinge connections；Control panel 2-6-3 is equipped with along center on the workbench 2-6 sides inner wall, Lifting limit sensors 2-6-4, control panel 2-6-3 and lifting limit sensors 2- are wherein disposed with control panel 2-6-3 6-4 is connected by conducting wire and the control of controller 6；The control panel 2-6-3 both sides are symmetrically distributed with tool box 2-6-2, work Tool case 2-6-2 and workbench 2-6 is welded and fixed.

Further, the travelling platform 3 includes：Motor 3-1 is driven, drives reduction box 3-2, drive shaft 3-3, rotates electricity Machine 3-4, tumbler 3-5, walking limit sensors 3-6；3 center of travelling platform is equipped with tumbler 3-5, tumbler 3-5 sides are equipped with rotary electric machine 3-4；The 3 top side angle of travelling platform is equipped with driving reduction box 3-2, wherein driving is slowed down Case 3-2 input shafts end is equipped with driving motor 3-1, and driving reduction box 3-2 output shaft ends are equipped with drive shaft 3-3；The walking Limit sensors 3-6 is located at 3 both side ends of travelling platform, and walking limit sensors 3-6 shares two；

The driving motor 3-1, rotary electric machine 3-4 and walking limit sensors 3-6 are controlled by conducting wire and controller 6 Connection.

Further, the hurricane drier 5 includes：Rotation axis 5-1, wind turbine supporting rack 5-2, air-dry chamber outer wall 5-3, wind turbine 5- 4；The air-dried chamber outer wall 5-3 is rectangle net structure, air-dries chamber outer wall 5-3 and is fixedly connected with travelling platform 3；The hurricane drier 5 inside centers are equipped with wind turbine supporting rack 5-2, and wherein wind turbine supporting rack 5-2 tops center is equipped with rotation axis 5-1, rotation axis 5-1 with Tumbler 3-5 is drivingly connected；The wind turbine 5-4 is fixed on wind turbine supporting rack 5-2, and wind turbine 5-4 shares 4.

Further, the wind turbine 5-4 includes：Support plate 5-4-1, air velocity transducer 5-4-2, fan driving motor 5-4- 3, humidity sensor 5-4-4, flabellum 5-4-5；The support plate 5-4-1 is channel steel, and support plate 5-4-1 and supporting rack 5-2 is welded It is fixed；The support plate 5-4-1 upper surfaces center is equipped with fan driving motor 5-4-3, the installation of fan driving motor 5-4-3 shaft ends There is flabellum 5-4-5；The support plate 5-4-1 one sides are equipped with air velocity transducer 5-4-2 and humidity sensor 5-4-4；

The air velocity transducer 5-4-2, fan driving motor 5-4-3 and humidity sensor 5-4-4 pass through conducting wire and control The control of device 6 processed is connected.

Further, the blade 6-4 is molded by high molecular material pressing mold, the constituent and manufacturing process of blade 6-4 It is as follows：

First, flabellum 5-4-5 constituents：

Count in parts by weight, 55~96 parts of 2- methyl -2- acrylic acid 2- (lignocaine) ethyl ester, N- (2- ethoxys) - N, N- dimethyl -3- [(1- oxos-octadecyl) amino] 124~158 parts of -1- the third ammonium methylsulfuric acids ester, the tertiary fourths of 3- nitros -2- 153~214 parts of oxygen formamido group ethyl benzoate, 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) ammonia Base] phenyl] azo] 38~82 parts of methyl benzoate, the 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butyl groups Amino) 78~153 parts of-acetophenone hydro-chloride, L-2- (the tertiary fourth oxygen acyl groups of N-) -3', 4'- dimethoxys phenylalanine ethyl ester 46~ 79 parts, concentration for the ppm of 55 ppm~75 2- (acetylamino) -3- (4- hydroxyl -3,5- diiodo-s phenyl) 67~185 parts of propionic acid, β-(3,5- bis- iodo- 4- hydroxyphenyls) 136~258 parts of α-aminopropionic acid, N- acetyl group -3- [3,5- bis- iodo- 4- (to methoxyl group) benzene Epoxide] 267~356 parts of phenylalaninate, 124~176 parts of crosslinking agent, 2- hydroxyl -4- phthaloyl imino butyric acid 136~265 parts, 3,5- bis- bromo- 185~275 parts of -2-Hydroxylbenzamides of N- (4- bromos phenyl), 3- (N, N- dimethoxycarbonyls Ethyl) 64~146 parts of amino-4-methoxyacetanilide, 3- hydroxy-ns-(4- methoxyphenyls) -4- (phenylazo) -2- naphthalenes 147~196 parts of formamide；

The crosslinking agent is 2- methyl -4- nitro -5- chloroanilines, 2- (3- aryloxy methyl -4- phenyl -1,2,4- triazoles -5- Sulfenyl) ethyl acetate, any one in acetic acid 2- (1,1- dimethyl ethyls) cyclohexyl；

2nd, the manufacturing process of flabellum 5-4-5, comprises the steps of：

1st step：Ultra-pure water 3500~4350 of the electrical conductivity for the μ S/cm of 3.25 μ S/cm~6.85 is added in a kettle Part, start blender in reaction kettle, rotating speed is the rpm of 135 rpm~168, starts heat pump, rises to reactor temperature 95 DEG C~136 DEG C；Sequentially add 2- methyl -2- acrylic acid 2- (lignocaine) ethyl ester, N- (2- ethoxys)-N, N- diformazans Base -3- [(1- oxos-octadecyl) amino] -1- the third ammonium methylsulfuric acids ester, the tertiary fourth oxygen formamido group benzoic acid second of 3- nitros -2- Ester, to being completely dissolved, it is 5.5~8.5 to adjust pH value for stirring, agitator speed is adjusted to the rpm of 155 rpm~235, temperature is 125 DEG C~185 DEG C, when esterification 8~20 is small；

2nd step：Take 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) amino] phenyl] azo] benzene Methyl formate, 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butylaminos)-acetophenone hydro-chloride carry out powder Broken, powder diameter is 1100~1500 mesh；L-2- (the tertiary fourth oxygen acyl groups of N-) -3' is added, 4'- dimethoxy phenylalanine ethyl esters mix Close uniform, be laid in pallet, tiling thickness is the mm of 30 mm~45, uses the dosage to be for the kGy of 8.6 kGy~9.4, energy The alpha ray of the MeV of 6.0 MeV~10.0 irradiates 120~240 minutes, and the same dose of β x ray irradiation xs 120~240 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in 2- (acetylamino) -3- (4- hydroxyl -3,5- diiodo-s phenyl) third In acid, reaction kettle is added, agitator speed is the rpm of 80 rpm~145, and temperature is 115 DEG C~155 DEG C, and starting vacuum pump makes instead The vacuum of kettle is answered to reach the MPa of -0.45 MPa~2.85, when keeping this state response 15~35 small；Pressure release is simultaneously passed through radon gas, Make reacting kettle inner pressure for the MPa of 0.85 MPa~1.35, insulation stand 10~20 it is small when；Agitator speed is promoted to 165 rpm ~245 rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add β-(the iodo- 4- hydroxyphenyls of 3,5- bis-) α-aminopropionic acid, N- acetyl After base -3- [3,5- bis- iodo- 4- (to methoxyl group) phenoxy group] phenylalaninate is completely dissolved, it is mixed to add crosslinking agent stirring Close so that the hydrophilic lipophilic balance of reaction kettle solution is 3.5~6.4, when insulation standing 12~24 is small；

4th step：When agitator speed is 254 rpm~315 rpm, 2- hydroxyl -4- phthalyls Asia is sequentially added Aminobutyric acid, bis- bromo- N- of 3,5- (4- bromos phenyl) -2-Hydroxylbenzamide, 3- (N, N- dimethoxycarbonyl ethyl) amino -4- P-methoxyacetanilide and 3- hydroxy-ns-(4- methoxyphenyls) -4- (phenylazo) -2- naphthalenecarboxamides, lift reaction kettle pressure Power, reaches the MPa of 1.15 MPa~1.75, temperature is 135 DEG C~235 DEG C, when polymerisation 20~35 is small；Reaction is completed Reacting kettle inner pressure is down to 0 MPa afterwards, is cooled to 22 DEG C~36 DEG C, discharging, enters molding press and can be prepared by flabellum 5-4-5.

Further, the invention also discloses a kind of work of the multi-functional curing means of large-sized reinforced concrete profiled member Method, this method include following steps：

1st step：The article carrying for needing desiccation to workbench 2-6, subsequent staff is passed through operation control surface by staff The lifting of plate 2-6-3 control workbench 2-6 and moving horizontally for travelling platform 3, at the same time, inside workbench 2-6 Lifting limit sensors 2-6-4 and walking limit sensors 3-6 inside travelling platform 3 start to work, limit work 3 displacement of platform 2-6 and travelling platform；When staff reaches suitable position, staff pacifies the article of carrying at this time Place and air-dry on chamber outer wall 5-3, after laying for goods completion, workbench 2-6 is minimized place by staff, and passes through behaviour Control panel 2-6-3 and manipulate 3 row of travelling platform to suitable position；

2nd step：Staff presses the automatic air-drying start button on control panel 2-6-3, and controller 6 connects in real time at this time Receive the information of wind vane 4 and air velocity transducer 5-4-2 monitorings and be shown on control panel 2-6-3；Outside wind vane 4 monitors When boundary's wind speed is less than 5m/s, controller 6 controls fan driving motor 5-4-3 to start and accelerate, at the same time, when in wind turbine 5-4 When portion air velocity transducer 5-4-2 detects that wind speed reaches the upper limit wind speed set by user, controller 6 controls fan driving motor 5-4-3 stops accelerating；When wind vane 4 monitors that extraneous wind speed is higher than 5 m/s, the control driving motor of controller 6 5-4-3 stops Rotate；

3rd step：Staff presses the start button air-dried manually on control panel 2-6-3, user's wind speed setting value, this When 6 real-time reception wind vane 4 of controller and air velocity transducer 5-4-2 monitoring information and be shown on control panel 2-6-3；When The wind speed that wind vane 4 detects is less than set by user during definite value, and controller 6 controls fan driving motor 5-4-3 to start, and passes through wind Fast sensor 5-4-2 feedacks control to adjust the rotating speed of fan driving motor 5-4-3；When the wind speed that wind vane 4 detects is high When definite value set by user, controller 6 controls fan driving motor 5-4-3 to stop operating；

4th step：In air drying process, the humidity sensor 5-4-4 inside wind turbine 5-4 monitors ambient atmosphere humidity simultaneously in real time It is shown on control panel 2-6-3；When outside air relative humidity is higher than 70 %, controller 6 produces warning message, prompts to use Outdoor boundary's relative air humidity is higher, should not be air-dried.

A kind of multi-functional curing means of large-sized reinforced concrete profiled member disclosed by the invention, the advantage is that：

(1) device is ingenious in design, simple in structure, convenient for installation and maintenance；

(2) the plant automation degree is high, and it is low entirely to air-dry hand labor intensity；

(3) the device avoids the upset in drying process to object, drying objects breakage rate is reduced；

(4) device can effectively avoid because recycling produces the problem of polluting or going mouldy not in time caused by weather reason.

A kind of multi-functional curing means of large-sized reinforced concrete profiled member of the present invention, the apparatus structure is simple, The degree of automation is high, and manual operation is simple, and labor intensity is low；The situation such as bad weather not in time is overturn the device avoids artificial And the problems such as causing damaged, the rotten or nutrition leak of air dry matter, the air-dried effect of air dry matter can be effectively improved.

Brief description of the drawings

Fig. 1 is a kind of heretofore described multi-functional curing means structural representation of large-sized reinforced concrete profiled member Figure.

Fig. 2 is heretofore described lifting device structure diagram.

Fig. 3 is heretofore described Working table structure schematic diagram.

Fig. 4 is heretofore described travelling platform structure diagram.

Fig. 5 is heretofore described hurricane drier structure diagram.

Fig. 6 is heretofore described blower fan structure schematic diagram.

Fig. 7 is that heretofore described flabellum fatigue strength changes over time figure.

In figure 1 above~Fig. 6, main body rack 1, lifting device 2, elevator 2-1, lifting driving motor 2-2, pulley 2-3, Steel wire rope 2-4, directive slide track 2-5, workbench 2-6, folding guardrail 2-6-1, tool box 2-6-2, control panel 2-6-3, lifting Limit sensors 2-6-4, lifting lug 2-6-5, travelling platform 3, drives motor 3-1, drives reduction box 3-2, drive shaft 3-3, rotates Motor 3-4, tumbler 3-5, walk limit sensors 3-6, wind vane 4, hurricane drier 5, rotation axis 5-1, wind turbine supporting rack 5- 2, air-dried chamber outer wall 5-3, wind turbine 5-4, support plate 5-4-1, air velocity transducer 5-4-2, fan driving motor 5-4-3, humidity biography Sensor 5-4-4, flabellum 5-4-5, controller 6.

Embodiment

It is multi-functional to a kind of large-sized reinforced concrete profiled member provided by the invention with reference to the accompanying drawings and examples to support Protection unit is further described.

As shown in Figure 1, it is a kind of heretofore described multi-functional curing means knot of large-sized reinforced concrete profiled member Structure schematic diagram.It is seen in fig. 1, that including：Main body rack 1, lifting device 2, travelling platform 3, wind vane 4, hurricane drier 5, control Device 6；The main body rack 1 is welded by channel steel, and the top of main body rack 1 is equipped with slide；1 side of main body rack is disposed with Lifting device 2, opposite side are disposed with wind vane 4, and wherein 2 bottom side of lifting device is equipped with controller 6, and wind vane 4 is by leading Line is connected with the control of controller 6；The travelling platform 3 is located on the slide of main body rack 1, and travelling platform 3 is rolled with main body rack 1 Dynamic connection；The hurricane drier 5 is placed in 3 bottom centre of travelling platform, and hurricane drier 5 is drivingly connected with travelling platform 3.

As shown in Fig. 2, it is heretofore described lifting device structure diagram.Find out from Fig. 2 or Fig. 1, lifting dress Putting 2 includes：Elevator 2-1, lifting driving motor 2-2, pulley 2-3, steel wire rope 2-4, directive slide track 2-5, workbench 2-6；Institute State 2 top of lifting device and be equipped with elevator 2-1, elevator 2-1 sides are equipped with lifting driving motor 2-2；Under the elevator 2-1 Side center is equipped with pulley 2-3, and steel wire rope 2-4 is wound with pulley 2-3；The directive slide track 2-5 is located at 2 side of lifting device, Workbench 2-6 is installed, directive slide track 2-5 is slidably connected with workbench 2-6, wherein workbench 2-6 tops on directive slide track 2-5 Corner is fixedly connected with steel wire rope 2-4 one end；

The lifting driving motor 2-2 is connected by conducting wire and the control of controller 6.

As shown in figure 3, it is heretofore described Working table structure schematic diagram.Find out from Fig. 3 or Fig. 1, workbench 2-6 Including：Folding guardrail 2-6-1, tool box 2-6-2, control panel 2-6-3, lift limit sensors 2-6-4, lifting lug 2-6-5；Institute State corner at the top of workbench 2-6 and be equipped with lifting lug 2-6-5, lifting lug 2-6-5 is annular shape, and lifting lug 2-6-5 and workbench 2-6 welding is solid It is fixed；Side is equipped with folding guardrail 2-6-1, folding guardrail 2-6-1 and workbench 2-6 hinge connections before and after the workbench 2-6；Institute State and be equipped with control panel 2-6-3 along center on the inner wall of workbench 2-6 sides, lifting limit is wherein disposed with control panel 2-6-3 Level sensor 2-6-4, control panel 2-6-3 and lifting limit sensors 2-6-4 are connected by conducting wire and the control of controller 6； The control panel 2-6-3 both sides are symmetrically distributed with tool box 2-6-2, and tool box 2-6-2 is welded and fixed with workbench 2-6.

As shown in figure 4, it is heretofore described travelling platform structure diagram.Find out from Fig. 4 or Fig. 1, walking is flat Platform 3 includes：Motor 3-1 is driven, drives reduction box 3-2, drive shaft 3-3, rotary electric machine 3-4, tumbler 3-5, walking is spacing Sensor 3-6；3 center of travelling platform is equipped with tumbler 3-5, and tumbler 3-5 sides are equipped with rotary electric machine 3-4；Institute State 3 top side angle of travelling platform and be equipped with driving reduction box 3-2, wherein driving reduction box 3-2 input shafts end is equipped with driving electricity Machine 3-1, driving reduction box 3-2 output shaft ends are equipped with drive shaft 3-3；The walking limit sensors 3-6 is located at travelling platform 3 Both side ends, walking limit sensors 3-6 share two；

The driving motor 3-1, rotary electric machine 3-4 and walking limit sensors 3-6 are controlled by conducting wire and controller 6 Connection.

As shown in figure 5, it is heretofore described hurricane drier structure diagram.Find out from Fig. 5 or Fig. 1, hurricane drier 5 wraps Include：Rotation axis 5-1, wind turbine supporting rack 5-2, air-dry chamber outer wall 5-3, wind turbine 5-4；The air-dried chamber outer wall 5-3 is netted for rectangle Structure, air-dries chamber outer wall 5-3 and is fixedly connected with travelling platform 3；5 inside center of hurricane drier is equipped with wind turbine supporting rack 5-2, its Middle wind turbine supporting rack 5-2 tops center is equipped with rotation axis 5-1, rotation axis 5-1 and tumbler 3-5 drive connection；The wind turbine 5-4 is fixed on wind turbine supporting rack 5-2, and wind turbine 5-4 shares 4.

As shown in fig. 6, it is heretofore described blower fan structure schematic diagram.Find out from Fig. 6 or Fig. 1, wind turbine 5-4 bags Include：Support plate 5-4-1, air velocity transducer 5-4-2, fan driving motor 5-4-3, humidity sensor 5-4-4, flabellum 5-4-5；Institute It is channel steel to state support plate 5-4-1, and support plate 5-4-1 is welded and fixed with supporting rack 5-2；The support plate 5-4-1 upper surfaces center Equipped with fan driving motor 5-4-3, fan driving motor 5-4-3 shaft ends are provided with flabellum 5-4-5；The support plate 5-4-1 mono- Side is equipped with air velocity transducer 5-4-2 and humidity sensor 5-4-4；

The air velocity transducer 5-4-2, fan driving motor 5-4-3 and humidity sensor 5-4-4 pass through conducting wire and control The control of device 6 processed is connected.

A kind of course of work of multi-functional curing means of large-sized reinforced concrete profiled member of the present invention is：

1st step：The article carrying for needing desiccation to workbench 2-6, subsequent staff is passed through operation control surface by staff The lifting of plate 2-6-3 control workbench 2-6 and moving horizontally for travelling platform 3, at the same time, inside workbench 2-6 Lifting limit sensors 2-6-4 and walking limit sensors 3-6 inside travelling platform 3 start to work, limit work 3 displacement of platform 2-6 and travelling platform；When staff reaches suitable position, staff pacifies the article of carrying at this time Place and air-dry on chamber outer wall 5-3, after laying for goods completion, workbench 2-6 is minimized place by staff, and passes through behaviour Control panel 2-6-3 and manipulate 3 row of travelling platform to suitable position；

2nd step：Staff presses the automatic air-drying start button on control panel 2-6-3, and controller 6 connects in real time at this time Receive the information of wind vane 4 and air velocity transducer 5-4-2 monitorings and be shown on control panel 2-6-3；Outside wind vane 4 monitors When boundary's wind speed is less than 5m/s, controller 6 controls fan driving motor 5-4-3 to start and accelerate, at the same time, when in wind turbine 5-4 When portion air velocity transducer 5-4-2 detects that wind speed reaches the upper limit wind speed set by user, controller 6 controls fan driving motor 5-4-3 stops accelerating；When wind vane 4 monitors that extraneous wind speed is higher than 5 m/s, the control driving motor of controller 6 5-4-3 stops Rotate；

3rd step：Staff presses the start button air-dried manually on control panel 2-6-3, user's wind speed setting value, this When 6 real-time reception wind vane 4 of controller and air velocity transducer 5-4-2 monitoring information and be shown on control panel 2-6-3；When The wind speed that wind vane 4 detects is less than set by user during definite value, and controller 6 controls fan driving motor 5-4-3 to start, and passes through wind Fast sensor 5-4-2 feedacks control to adjust the rotating speed of fan driving motor 5-4-3；When the wind speed that wind vane 4 detects is high When definite value set by user, controller 6 controls fan driving motor 5-4-3 to stop operating；

4th step：In air drying process, the humidity sensor 5-4-4 inside wind turbine 5-4 monitors ambient atmosphere humidity simultaneously in real time It is shown on control panel 2-6-3；When outside air relative humidity is higher than 70 %, controller 6 produces warning message, prompts to use Outdoor boundary's relative air humidity is higher, should not be air-dried.

A kind of multi-functional curing means of large-sized reinforced concrete profiled member of the present invention, the apparatus structure is simple, The degree of automation is high, and manual operation is simple, and labor intensity is low；The situation such as bad weather not in time is overturn the device avoids artificial And the problems such as causing damaged, the rotten or nutrition leak of air dry matter, the air-dried effect of air dry matter can be effectively improved.

It is the embodiment of the manufacturing process of flabellum 5-4-5 of the present invention below, embodiment is in order to further illustrate this The content of invention, but should not be construed as limiting the invention.Without departing from the spirit and substance of the case in the present invention, to this hair The modification and replacement that bright method, step or condition are made, belong to the scope of the present invention.

Unless otherwise specified, the conventional means that technological means used in embodiment is well known to those skilled in the art.

Embodiment 1

Flabellum 5-4-5 of the present invention is manufactured according to following steps, and is counted in parts by weight：

1st step：3500 parts of the ultra-pure water that electrical conductivity is 3.25 μ S/cm is added in a kettle, starts stirring in reaction kettle Device, rotating speed are 135 rpm, start heat pump, reactor temperature is risen to 95 DEG C；Sequentially add 2- methyl -2- acrylic acid 55 parts of 2- (lignocaine) ethyl ester, N- (2- ethoxys)-N, N- dimethyl -3- [(1- oxos-octadecyl) amino] -1- third 153 parts of the tertiary fourth oxygen formamido group ethyl benzoate of 124 parts of ammonium methylsulfuric acid ester, 3- nitros -2-, stirring are adjusted to being completely dissolved PH value is 5.5, agitator speed is adjusted to 155 rpm, temperature is 125 DEG C, when esterification 8 is small；

2nd step：Take 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) amino] phenyl] azo] benzene 38 parts of methyl formate, 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butylaminos)-acetophenone hydro-chloride 78 Part is crushed, and powder diameter is 1100 mesh；Add L-2- (the tertiary fourth oxygen acyl groups of N-) -3', 4'- dimethoxy phenylalanine ethyl esters 46 parts are uniformly mixed, and are laid in pallet, and tiling thickness is 30 mm, use dosage as α that 8.6 kGy, energy are 6.0 MeV X ray irradiation x 120 minutes, and the same dose of β x ray irradiation xs 120 minutes；

3rd step：Through the 2nd step handle mixed-powder be dissolved in concentration be 45 ppm 2- (acetylamino) -3- (4- hydroxyls - 3,5- diiodo- phenyl) in 67 parts of propionic acid, reaction kettle is added, agitator speed be 80 rpm, and temperature is 115 DEG C, startup vacuum pump The vacuum of reaction kettle is set to reach -0.45 MPa, when keeping this state response 15 small；Pressure release is simultaneously passed through radon gas, makes in reaction kettle Pressure is 0.85 MPa, when insulation standing 10 is small；Agitator speed is promoted to 165 rpm, simultaneous reactions kettle pressure release to 0MPa；According to Secondary addition β-(the iodo- 4- hydroxyphenyls of 3,5- bis-) 136 parts of α-aminopropionic acid, N- acetyl group -3- [bis- iodo- 4- of 3,5- (to methoxyl group) Phenoxy group] after 267 parts of phenylalaninate is completely dissolved, adds 124 parts of crosslinking agent and be stirred so that reaction kettle solution Hydrophilic lipophilic balance is 3.5, when insulation standing 12 is small；

4th step：When agitator speed is 254 rpm, 2- hydroxyl -4- phthaloyl imino butyric acid is sequentially added 136 parts, bis- bromo- N- of 3,5- (4- bromos phenyl) 185 parts of -2-Hydroxylbenzamide, 3- (N, N- dimethoxycarbonyl ethyl) amino - 64 parts of 4- p-methoxyacetanilides and 3- hydroxy-ns -147 parts of (4- methoxyphenyls) -4- (phenylazo) -2- naphthalenecarboxamides, carry Reactor pressure is risen, reaches 1.15 MPa, temperature is 135 DEG C, when polymerisation 20 is small；By in reaction kettle after the completion of reaction Pressure is down to 0 MPa, is cooled to 22 DEG C, discharging, enters molding press and can be prepared by flabellum 5-4-5.

The crosslinking agent is 2- methyl -4- nitro -5- chloroanilines.

Embodiment 2

Flabellum 5-4-5 of the present invention is manufactured according to following steps, and is counted in parts by weight：

1st step：4100 parts of the ultra-pure water that electrical conductivity is 4.52 μ S/cm is added in a kettle, starts stirring in reaction kettle Device, rotating speed are 145 rpm, start heat pump, reactor temperature is risen to 115 DEG C；Sequentially add 2- methyl -2- propylene Sour 75 parts of 2- (lignocaine) ethyl ester, N- (2- ethoxys)-N, N- dimethyl -3- [(1- oxos-octadecyl) amino] -1- Third 142 parts of ammonium methylsulfuric acid ester, 185 parts of the tertiary fourth oxygen formamido group ethyl benzoates of 3- nitros -2-, stirring are adjusted to being completely dissolved It is 6.8 to save pH value, agitator speed is adjusted to 195 rpm, temperature is 155 DEG C, when esterification 14 is small；

2nd step：Take 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) amino] phenyl] azo] benzene 68 parts of methyl formate, 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butylaminos)-acetophenone hydro-chloride 115 parts are crushed, and powder diameter is 1300 mesh；Add L-2- (the tertiary fourth oxygen acyl groups of N-) -3', 4'- dimethoxy phenylalanines 56 parts of ethyl ester is uniformly mixed, and is laid in pallet, and tiling thickness is 38, uses dosage as α that 9.2 kGy, energy are 8.0 MeV X ray irradiation x 180 minutes, and the same dose of β x ray irradiation xs 180 minutes；

3rd step：Through the 2nd step handle mixed-powder be dissolved in concentration be 65 ppm 2- (acetylamino) -3- (4- hydroxyls - 3,5- diiodo- phenyl) in 135 parts of propionic acid, reaction kettle is added, agitator speed be 110 rpm, and temperature is 135 DEG C, startup vacuum Pump makes the vacuum of reaction kettle reach 1.25 MPa, when keeping this state response 25 small；Pressure release is simultaneously passed through radon gas, makes in reaction kettle Pressure is 1.15 MPa, when insulation standing 15 is small；Agitator speed is promoted to 210 rpm, simultaneous reactions kettle pressure release to 0MPa；According to Secondary addition β-(the iodo- 4- hydroxyphenyls of 3,5- bis-) 210 parts of α-aminopropionic acid, N- acetyl group -3- [bis- iodo- 4- of 3,5- (to methoxyl group) Phenoxy group] after 310 parts of phenylalaninate is completely dissolved, adds 140 parts of crosslinking agent and be stirred so that reaction kettle solution Hydrophilic lipophilic balance is 4.5, when insulation standing 18 is small；

4th step：When agitator speed is 285 rpm, 2- hydroxyl -4- phthaloyl imino butyric acid is sequentially added 195 parts, bis- bromo- N- of 3,5- (4- bromos phenyl) 235 parts of -2-Hydroxylbenzamide, 3- (N, N- dimethoxycarbonyl ethyl) amino - 105 parts of 4- p-methoxyacetanilides and 3- hydroxy-ns -165 parts of (4- methoxyphenyls) -4- (phenylazo) -2- naphthalenecarboxamides, Reactor pressure is lifted, reaches 1.45 MPa, temperature is 185 DEG C, when polymerisation 28 is small；By reaction kettle after the completion of reaction Interior pressure is down to 0 MPa, is cooled to 30 DEG C, discharging, enters molding press and can be prepared by flabellum 5-4-5.

The crosslinking agent is 2- (3- aryloxy methyl -4- phenyl -1,2,4- triazole -5- sulfenyls) ethyl acetate.

Embodiment 3

Flabellum 5-4-5 of the present invention is manufactured according to following steps, and is counted in parts by weight：

1st step：4350 parts of the ultra-pure water that electrical conductivity is 6.85 μ S/cm is added in a kettle, starts stirring in reaction kettle Device, rotating speed are 168 rpm, start heat pump, reactor temperature is risen to 136 DEG C；Sequentially add 2- methyl -2- propylene Sour 96 parts of 2- (lignocaine) ethyl ester, N- (2- ethoxys)-N, N- dimethyl -3- [(1- oxos-octadecyl) amino] -1- Third 158 parts of ammonium methylsulfuric acid ester, 214 parts of the tertiary fourth oxygen formamido group ethyl benzoates of 3- nitros -2-, stirring are adjusted to being completely dissolved It is 8.5 to save pH value, agitator speed is adjusted to 235 rpm, temperature is 185 DEG C, when esterification 20 is small；

2nd step：Take 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) amino] phenyl] azo] benzene 82 parts of methyl formate, 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butylaminos)-acetophenone hydro-chloride 153 parts are crushed, and powder diameter is 1500 mesh；Add L-2- (the tertiary fourth oxygen acyl groups of N-) -3', 4'- dimethoxy phenylalanines 79 parts of ethyl ester is uniformly mixed, and is laid in pallet, tiling thickness is 45 mm, uses dosage as 9.4 kGy, energy 10.0 The alpha ray of MeV irradiates 240 minutes, and the same dose of β x ray irradiation xs 240 minutes；

3rd step：Through the 2nd step handle mixed-powder be dissolved in concentration be 95 ppm 2- (acetylamino) -3- (4- hydroxyls - 3,5- diiodo- phenyl) in 185 parts of propionic acid, reaction kettle is added, agitator speed be 145 rpm, and temperature is 155 DEG C, startup vacuum Pump makes the vacuum of reaction kettle reach 2.85 MPa, when keeping this state response 35 small；Pressure release is simultaneously passed through radon gas, makes in reaction kettle Pressure is 1.35 MPa, when insulation standing 20 is small；Agitator speed is promoted to 245 rpm, simultaneous reactions kettle pressure release to 0MPa；According to Secondary addition β-(the iodo- 4- hydroxyphenyls of 3,5- bis-) 258 parts of α-aminopropionic acid, N- acetyl group -3- [bis- iodo- 4- of 3,5- (to methoxyl group) Phenoxy group] after 356 parts of phenylalaninate is completely dissolved, adds 176 parts of crosslinking agent and be stirred so that reaction kettle solution Hydrophilic lipophilic balance is 6.4, when insulation standing 24 is small；

4th step：When agitator speed is 315 rpm, 2- hydroxyl -4- phthaloyl imino butyric acid is sequentially added 265 parts, bis- bromo- N- of 3,5- (4- bromos phenyl) 275 parts of -2-Hydroxylbenzamide, 3- (N, N- dimethoxycarbonyl ethyl) amino - 146 parts of 4- p-methoxyacetanilides and 3- hydroxy-ns -196 parts of (4- methoxyphenyls) -4- (phenylazo) -2- naphthalenecarboxamides, Reactor pressure is lifted, reaches 1.75 MPa, temperature is 235 DEG C, when polymerisation 35 is small；By reaction kettle after the completion of reaction Interior pressure is down to 0 MPa, is cooled to 36 DEG C, discharging, enters molding press and can be prepared by flabellum 5-4-5.

The crosslinking agent is acetic acid 2- (1,1- dimethyl ethyls) cyclohexyl.

Reference examples

Reference examples are the flabellum of certain commercially available brand.

Embodiment 4

Flabellum described in the flabellum 5-4-5 and reference examples that embodiment 1~3 is prepared carries out using effect contrast.It is right The two unit mass, tensile strength of material, heat distortion temperature, corrosion rate are counted, and the results are shown in Table 1.

As seen from Table 1, flabellum 5-4-5 of the present invention, its unit mass, tensile strength of material, heat distortion temperature are rotten The indexs such as erosion speed are superior to the product of prior art production.

In addition, as shown in fig. 7, it is that heretofore described flabellum fatigue strength changes over time figure.Find out in figure, implement Flabellum 5-4-5 used in example 1~3, its fatigue of materials intensity are significantly better than existing product with usage time intensity of variation.

Claims (8)

1. a kind of multi-functional curing means of large-sized reinforced concrete profiled member, including：Main body rack（1）, lifting device（2）, Travelling platform（3）, wind vane（4）, hurricane drier（5）, controller（6）；It is characterized in that, the main body rack（1）Welded by channel steel Connect and form, main body rack（1）Top is equipped with slide；The main body rack（1）Side is disposed with lifting device（2）, opposite side cloth It is equipped with wind vane（4）, wherein lifting device（2）Bottom side is equipped with controller（6）, wind vane（4）Pass through conducting wire and controller （6）Control connection；The travelling platform（3）Positioned at main body rack（1）Slide on, travelling platform（3）With main body rack（1）Rolling Dynamic connection；The hurricane drier（5）It is placed in travelling platform（3）Bottom centre, hurricane drier（5）With travelling platform（3）It is drivingly connected.

A kind of 2. multi-functional curing means of large-sized reinforced concrete profiled member according to claim 1, it is characterised in that The lifting device（2）Including：Elevator（2-1）, lifting driving motor（2-2）, pulley（2-3）, steel wire rope（2-4）, it is oriented to Slide（2-5）, workbench（2-6）；The lifting device（2）Top is equipped with elevator（2-1）, elevator（2-1）Side is equipped with Lifting driving motor（2-2）；The elevator（2-1）Downside center is equipped with pulley（2-3）, pulley（2-3）On be wound with steel wire Rope（2-4）；The directive slide track（2-5）Positioned at lifting device（2）Side, directive slide track（2-5）On workbench is installed（2- 6）, directive slide track（2-5）With workbench（2-6）It is slidably connected, wherein workbench（2-6）Top corner and steel wire rope（2-4）One End is fixedly connected；

The lifting driving motor（2-2）Pass through conducting wire and controller（6）Control connection.

A kind of 3. multi-functional curing means of large-sized reinforced concrete profiled member according to claim 2, it is characterised in that The workbench（2-6）Including：Folding guardrail（2-6-1）, tool box（2-6-2）, control panel（2-6-3）, lift spacing biography Sensor（2-6-4）, lifting lug（2-6-5）；The workbench（2-6）Top corner is equipped with lifting lug（2-6-5）, lifting lug（2-6-5）For Annular shape, lifting lug（2-6-5）With workbench（2-6）It is welded and fixed；The workbench（2-6）Front and rear side is equipped with folding guardrail （2-6-1）, folding guardrail（2-6-1）With workbench（2-6）Hinge connection；The workbench（2-6）Along center on the inner wall of side Equipped with control panel（2-6-3）, wherein control panel（2-6-3）On be disposed with lifting limit sensors（2-6-4）, control panel （2-6-3）With lifting limit sensors（2-6-4）Pass through conducting wire and controller（6）Control connection；The control panel（2-6- 3）Both sides are symmetrically distributed with tool box（2-6-2）, tool box（2-6-2）With workbench（2-6）It is welded and fixed.

A kind of 4. multi-functional curing means of large-sized reinforced concrete profiled member according to claim 1, it is characterised in that The travelling platform（3）Including：Drive motor（3-1）, drive reduction box（3-2）, drive shaft（3-3）, rotary electric machine（3-4）, Tumbler（3-5）, limit sensors of walking（3-6）；The travelling platform（3）Center is equipped with tumbler（3-5）, rotate dress Put（3-5）Side is equipped with rotary electric machine（3-4）；The travelling platform（3）Top side angle is equipped with driving reduction box（3-2）, its Middle driving reduction box（3-2）Input shaft end is equipped with driving motor（3-1）, drive reduction box（3-2）Output shaft end, which is equipped with, to be driven Moving axis（3-3）；The walking limit sensors（3-6）Positioned at travelling platform（3）Both side ends, limit sensors of walking（3-6） Share two；

The driving motor（3-1）, rotary electric machine（3-4）With walking limit sensors（3-6）Pass through conducting wire and controller（6） Control connection.

A kind of 5. multi-functional curing means of large-sized reinforced concrete profiled member according to claim 4, it is characterised in that The hurricane drier（5）Including：Rotation axis（5-1）, wind turbine supporting rack（5-2）, air-dry chamber outer wall（5-3）, wind turbine（5-4）；It is described Air-dry chamber outer wall（5-3）For rectangle net structure, chamber outer wall is air-dried（5-3）With travelling platform（3）It is fixedly connected；The hurricane drier （5）Inside center is equipped with wind turbine supporting rack（5-2）, wherein wind turbine supporting rack（5-2）Top center is equipped with rotation axis（5-1）, turn Moving axis（5-1）With tumbler（3-5）It is drivingly connected；The wind turbine（5-4）It is fixed on wind turbine supporting rack（5-2）On, wind turbine（5- 4）Share 4.

A kind of 6. multi-functional curing means of large-sized reinforced concrete profiled member according to claim 5, it is characterised in that The wind turbine（5-4）Including：Support plate（5-4-1）, air velocity transducer（5-4-2）, fan driving motor（5-4-3）, humidity biography Sensor（5-4-4）, flabellum（5-4-5）；The support plate（5-4-1）For channel steel, support plate（5-4-1）With supporting rack（5-2）Weldering Connect fixation；The support plate（5-4-1）Upper surface center is equipped with fan driving motor（5-4-3）, fan driving motor（5-4-3） Shaft end is provided with flabellum（5-4-5）；The support plate（5-4-1）One side is equipped with air velocity transducer（5-4-2）And humidity sensor Device（5-4-4）；

The air velocity transducer（5-4-2）, fan driving motor（5-4-3）And humidity sensor（5-4-4）By conducting wire with Controller（6）Control is connected.

A kind of 7. multi-functional curing means of large-sized reinforced concrete profiled member according to claim 6, it is characterised in that The flabellum（5-4-5）It is molded by high molecular material pressing mold, flabellum（5-4-5）Constituent and manufacturing process it is as follows：

First, flabellum（5-4-5）Constituent：

Count in parts by weight, 55~96 parts of 2- methyl -2- acrylic acid 2- (lignocaine) ethyl ester, N- (2- ethoxys)-N, N- Dimethyl -3- [(1- oxos-octadecyl) amino] 124~158 parts of -1- the third ammonium methylsulfuric acids ester, the tertiary fourth oxygen first of 3- nitros -2- 153~214 parts of amido benzoic acid ethyl ester, 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) amino] benzene Base] azo] 38~82 parts of methyl benzoate, 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butylaminos)- 78~153 parts of acetophenone hydro-chloride, L-2- (the tertiary fourth oxygen acyl groups of N-) -3', 46~79 parts of 4'- dimethoxys phenylalanine ethyl ester, Concentration for the ppm of 55 ppm~75 2- (acetylamino) -3- (4- hydroxyl -3,5- diiodo-s phenyl) 67~185 parts of propionic acid, β-(3, The iodo- 4- hydroxyphenyls of 5- bis-) 136~258 parts of α-aminopropionic acid, N- acetyl group -3- [3,5- bis- iodo- 4- (to methoxyl group) phenoxy group] 267~356 parts of phenylalaninate, 124~176 parts of crosslinking agent, 2- hydroxyl -4- phthaloyl iminos butyric acid 136~ 265 parts, 3,5- bis- bromo- 185~275 parts of -2-Hydroxylbenzamides of N- (4- bromos phenyl), 3- (N, N- dimethoxycarbonyl ethyl) 64~146 parts of amino-4-methoxyacetanilide, 3- hydroxy-ns-(4- methoxyphenyls) -4- (phenylazo) -2- naphthalene formyls 147~196 parts of amine；

The crosslinking agent is 2- methyl -4- nitro -5- chloroanilines, 2- (3- aryloxy methyl -4- phenyl -1,2,4- triazole -5- sulphur Base) ethyl acetate, any one in acetic acid 2- (1,1- dimethyl ethyls) cyclohexyl；

2nd, flabellum（5-4-5）Manufacturing process, comprise the steps of：

1st step：Ultra-pure water 3500~4350 part of the electrical conductivity for the μ S/cm of 3.25 μ S/cm~6.85 is added in a kettle, is opened Blender in dynamic reaction kettle, rotating speed are the rpm of 135 rpm~168, start heat pump, reactor temperature is risen to 95 DEG C ~136 DEG C；Sequentially add 2- methyl -2- acrylic acid 2- (lignocaine) ethyl ester, N- (2- ethoxys)-N, N- dimethyl -3- [(1- oxos-octadecyl) amino] -1- the third ammonium methylsulfuric acids ester, the tertiary fourth oxygen formamido group ethyl benzoates of 3- nitros -2-, are stirred Mix to being completely dissolved, it is 5.5~8.5 to adjust pH value, agitator speed is adjusted to the rpm of 155 rpm~235, temperature is 125 DEG C ~185 DEG C, when esterification 8~20 is small；

2nd step：Take 4- [[2- (acetylamino) -4- [double (3- methoxyl group -3- oxopropyls) amino] phenyl] azo] benzoic acid Methyl esters, 4- acetoxy-3s-acetoxy-methyl-α-(N- benzyl-N- tert-butylaminos)-acetophenone hydro-chloride are crushed, Powder diameter is 1100~1500 mesh；Add L-2- (the tertiary fourth oxygen acyl groups of N-) -3', the mixing of 4'- dimethoxys phenylalanine ethyl ester Uniformly, it is laid in pallet, tiling thickness is the mm of 30 mm~45, uses dosage as the kGy of 8.6 kGy~9.4, energy 6.0 The alpha ray of the MeV of MeV~10.0 irradiates 120~240 minutes, and the same dose of β x ray irradiation xs 120~240 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in 2- (acetylamino) -3- (4- hydroxyl -3,5- diiodo-s phenyl) propionic acid In, reaction kettle is added, agitator speed is the rpm of 80 rpm~145, and temperature is 115 DEG C~155 DEG C, and starting vacuum pump makes reaction The vacuum of kettle reaches the MPa of -0.45 MPa~2.85, when keeping this state response 15~35 small；Pressure release is simultaneously passed through radon gas, makes Reacting kettle inner pressure is the MPa of 0.85 MPa~1.35, insulation stand 10~20 it is small when；Agitator speed be promoted to 165 rpm~ 245 rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add β-(the iodo- 4- hydroxyphenyls of 3,5- bis-) α-aminopropionic acid, N- acetyl After base -3- [3,5- bis- iodo- 4- (to methoxyl group) phenoxy group] phenylalaninate is completely dissolved, it is mixed to add crosslinking agent stirring Close so that the hydrophilic lipophilic balance of reaction kettle solution is 3.5~6.4, when insulation standing 12~24 is small；

4th step：When agitator speed is 254 rpm~315 rpm, 2- hydroxyl -4- phthaloyl iminos are sequentially added Butyric acid, bis- bromo- N- of 3,5- (4- bromos phenyl) -2-Hydroxylbenzamide, 3- (N, N- dimethoxycarbonyl ethyl) amino -4- methoxies Base antifebrin and 3- hydroxy-ns-(4- methoxyphenyls) -4- (phenylazo) -2- naphthalenecarboxamides, lift reactor pressure, make It reaches the MPa of 1.15 MPa~1.75, and temperature is 135 DEG C~235 DEG C, when polymerisation 20~35 is small；Will be anti-after the completion of reaction Answer pressure in kettle to be down to 0 MPa, be cooled to 22 DEG C~36 DEG C, discharging, enters molding press and can be prepared by flabellum（5-4-5）.

A kind of 8. method of work of the multi-functional curing means of large-sized reinforced concrete profiled member, it is characterised in that this method bag Include following steps：

1st step：Staff will need the article carrying of desiccation to workbench（2-6）, subsequent staff passes through control panel （2-6-3）Control workbench（2-6）Lifting and travelling platform（3）Move horizontally, at the same time, positioned at workbench（2- 6）Internal lifting limit sensors（2-6-4）With positioned at travelling platform（3）Internal walking limit sensors（3-6）Start work Make, limit workbench（2-6）And travelling platform（3）Displacement；When staff reaches suitable position, staff at this time The articles ride of carrying is put into air-dried chamber outer wall（5-3）On, after laying for goods completion, staff is by workbench（2-6） Place is minimized, and passes through control panel（2-6-3）Manipulate travelling platform（3）Go to suitable position；

2nd step：Staff presses control panel（2-6-3）On automatic air-drying start button, controller at this time（6）Connect in real time Receive wind vane（4）And air velocity transducer（5-4-2）The information of monitoring is simultaneously shown in control panel（2-6-3）On；Work as wind vane（4） When monitoring that extraneous wind speed is less than 5m/s, controller（6）Control fan driving motor（5-4-3）Start and accelerate, at the same time, Work as wind turbine（5-4）Internal air velocity transducer（5-4-2）When detecting that wind speed reaches the upper limit wind speed set by user, controller （6）Control fan driving motor（5-4-3）Stop accelerating；Work as wind vane（4）When monitoring that extraneous wind speed is higher than 5 m/s, control Device（6）Control driving motor（5-4-3）Stop operating；

3rd step：Staff presses control panel（2-6-3）On start button air-dried manually, user's wind speed setting value, at this time Controller（6）Real-time reception wind vane（4）And air velocity transducer（5-4-2）The information of monitoring is simultaneously shown in control panel（2-6- 3）On；Work as wind vane（4）The wind speed of detection is less than set by user during definite value, controller（6）Control fan driving motor（5-4-3） Start, and pass through air velocity transducer（5-4-2）Feedack controls to adjust fan driving motor（5-4-3）Rotating speed；Work as wind Xiang Biao（4）The wind speed of detection is higher than set by user during definite value, controller（6）Control fan driving motor（5-4-3）Stop operating；

4th step：In air drying process, wind turbine（5-4）Internal humidity sensor（5-4-4）Monitor ambient atmosphere humidity simultaneously in real time It is shown in control panel（2-6-3）On；When outside air relative humidity is higher than 70 %, controller（6）Warning message is produced, is carried Show that user's outside air relative humidity is higher, should not be air-dried.