CN105444486A - Multi-way valve circulation system for cooling system - Google Patents

Abstract

The invention relates to the technical field of bridge building construction, in particular to a multi-way valve circulation system for a cooling system. The multi-way valve circulation system comprises a water inlet system, the water inlet system comprises a main pipe communicated with a pumping device and a first pipeline communicated with the main pipe, the first pipeline is communicated with a plurality of first branch pipes, and each first branch pipe is communicated with a water inlet of one cooling pipe. According to the scheme, the multi-way valve circulation system is communicated with the cooling pipes, namely cooling water of a water source is pumped into the multi-way valve circulation system by the pumping device and then enters the cooling pipes, the water inlets are connected to the multi-way valve circulation system, the water pumping work of all the cooling pipes can be completed by one pumping device, and therefore the structure is simplified, and the equipment cost is lowered.

Description

A kind of banked direction control valves circulatory system for cooling system

Technical field

The present invention relates to bridge building operations technical field, be specifically related to a kind of banked direction control valves circulatory system for cooling system.

Background technology

Bridge is as the structure of the complicated landform of a kind of common leap, it is the important traffic infrastructure of modernization construction, in bridge construction process, a large amount of concreting operations can be related to, for the xoncrete structure that this kind of volume size of bridge bearing platform is larger, how ensureing concrete pouring quality, is the problem can not avoided in current bridge construction.

Current common settling mode comprises two aspects, the improvement of the material component to concrete itself on the one hand, by adopting the component of different ratio and different additives, improving the performance of concrete itself, ensureing the performance of this kind of large volume concrete structural with this; Being improve the maintenance operation after having built on the other hand, by adopting no maintenance method to course of hardening, ensureing that the xoncrete structure finally obtained has satisfactory texture quality.

The optimization of above-mentioned two aspects can optimize the quality of the xoncrete structure finally obtained really, but, through a large amount of construction tests and further research, present inventor finds, at present for the construction of this kind of mass concrete, also have the problem that another has a strong impact on concrete structure quality, it is exactly the heat of hydration problem in course of hardening, that is: exothermic reaction during hydrated cementitious makes to release amount of heat in cement setting hardening process, this heat makes the temperature of inside concrete exceed outer field temperature, particularly for large volume concrete structural, great thermal stress is produced in xoncrete structure, the residual stress of xoncrete structure inside is become after concrete hardening completes, the serious mechanical property that have impact on xoncrete structure, time serious, make concrete surface produce crack and even occur through crack, xoncrete structure is caused to there is serious security incident risk, or directly cause xoncrete structure to be scrapped to do over again.

So, based on above-mentioned, need a kind of device that effectively can reduce the heat of hydration in large volume concrete structural hardening process at present badly.

Summary of the invention

The object of the invention is to: in current large volume concrete structural work progress, concrete structure quality is caused to be difficult to guaranteed deficiency owing to there is the heat of hydration, there is provided a kind of for reducing large volume concrete structural, solidify the device with internal water heat-transmission in hardening process.

A kind of cooling system for large volume concrete structural construction, include the cooling tube that some are arranged on inside concrete, described cooling tube one end is water inlet, the other end is delivery port, described water inlet and water source are connected, also include pumping installations, the water at water source is pumped into described cooling tube by described pumping installations.

In the such scheme of the application, in the casting process carrying out large volume concrete structural, cooling tube is arranged on inside concrete, in concrete setting and hardening process, start pumping installations, the cooling water at water source enters cooling tube by water inlet, then discharged by delivery port, in this process, cooling water takes away the heat of hydration of inside concrete, so, reduce the temperature difference of each position in large volume concrete structural, and then reduce the thermal stress of large volume concrete structural inside, reduce the residual stress after xoncrete structure sclerosis, reduce the risk that gap appears in xoncrete structure, the architecture quality of guarantee large volume concrete structural like this.

As preferably, some cooling tubes are arranged in same plane.

In the such scheme of the application, each cooling tube is arranged in same plane, ensures the uniformity that cooling system cools with aspect xoncrete structure, ensure cooling effect, improve the cooling quality of cooling system, further reduce the temperature difference at each position in xoncrete structure.

As preferably, some cooling tubes are spaced apart, and the spacing between adjacent two cooling tubes is identical.

In the such scheme of the application, the spacing between adjacent two cooling tubes is identical, also further ensures the uniformity of the application's cooling system cooling.

As preferably, described cooling tube is provided with bending in a longitudinal direction thereof, makes cooling tube in a longitudinal direction thereof in back-shaped shape.

In the such scheme of the application, cooling tube is set to back-shaped shape, a cooling tube is made to have longer length, and then for the large volume concrete structural of same volume, the cooling tube of less radical can be adopted, decrease the quantity of water inlet and delivery port, and then simplify the structure of the application's cooling system; And, decrease the stabilising arrangement to cooling tube in casting process, reduce manufacturing cost and use cost, also simplify and cause flow process, reduce difficulty of construction and workload.

As preferably, described cooling tube does not stretch out xoncrete structure on direction longitudinally.

As preferably, described cooling tube is steel pipe.

In the such scheme of the application, on the one hand: cooling tube is not stretching out xoncrete structure along on the direction of its longitudinal direction, that is, when cooling tube covers by concreting, cooling tube is coated on inside concrete completely, and then make each position of cooling tube all can play cooling effect to xoncrete structure, while meeting cooling effect, also save the use material manufacturing cooling tube; On the other hand: the cooling system of the application, because cooling tube is arranged in xoncrete structure, after refrigerating work procedure completes, cooling tube is still retained with xoncrete structure, so, adopt the cooling system of the application, in the stage of concrete setting and sclerosis, play cooling xoncrete structure inner, ensure that xoncrete structure solidifies and the effect of quality of hardening; And after refrigerating work procedure, the cooling tube of the application plays again the effect of reinforcement, improve the intensity of xoncrete structure, and then further improve the mechanical property of large volume concrete structural; Again on the one hand, because cooling tube is back-shaped shape, add the globality of cooling tube, when as reinforcement, be no matter the effect can playing strengthening in the axis of cooling tube or radial direction to large volume concrete structural, also further enhance the mechanical property of xoncrete structure.

As preferably, the water inlet of described cooling tube is also provided with water inlet pipe, and the water outlet of described cooling tube is also connected with outlet pipe, and described water inlet pipe and outlet pipe towards waiting to build concrete direction, and build concrete thickness higher than waiting.

In the such scheme of the application, by arranging water inlet pipe and outlet pipe, and towards waiting to build concrete direction, first be avoid forming the breach stretched out for water inlet pipe and outlet pipe in the side of xoncrete structure, after cooling, shutoff can be carried out, the carrying out of convenient construction easily to water inlet pipe and outlet pipe.

As preferably, the water inlet of adjacent two cooling tubes and delivery port are near arranging.

In such scheme, the water inlet of adjacent two cooling tubes and delivery port are near arranging, first be that the pipeline facilitating the application's cooling system connects, meanwhile, less in caloric value, or when cooling requires lower, each cooling tube can be carried out the series connection that first place connects, further simplify the structure of the application's cooling system, also simplify operation, reduce work difficulty.

As preferably, described cooling system also includes the banked direction control valves circulatory system, the described banked direction control valves circulatory system includes water inlet system, described water inlet system includes the supervisor that connects with pumping installations and is responsible for described the first pipeline connected, described first pipeline is connected and has some first arms, each root first arm is all connected with the water inlet of a cooling tube.

In the such scheme of the application, the banked direction control valves circulatory system is adopted to be connected with cooling tube, namely, the cooling water at water source is pumped the first pumping of device and enters the banked direction control valves circulatory system, enter into cooling tube again, each water inlet is connected and enters the banked direction control valves circulatory system, adopt a pumping installations can realize doing the pump water conservancy project of all cooling tubes, further simplify the structure, also reduce equipment cost.

As preferably, described supervisor is provided with the first valve, described first valve disconnects for the connected sum controlling described supervisor and described first pipeline, and regulates supervisor's cooling water to enter the flow of the first pipeline.

In the such scheme of the application, by arranging the first valve controlling its break-make and flow on supervisor, the control of break-make and the adjustment of flow can be carried out according to practice of construction situation, improve the controllability of the application's cooling system, save cooling water resources, and, in the starting stage of carrying out cooling, because concrete does not well solidify, there is the support strength and good mobility of telling somebody what one's real intentions are, when flowing into cooling water in cooling tube, the pressure of cooling tube to lower concrete sharply increases, when pressure exceedes the concrete support limit, generation sinks to being shifted by cooling tube, not only bad for cooling effect, also very likely in the formation space, shift position of cooling tube, reduce the mechanical properties such as the intensity of xoncrete structure, time serious, even cause scrapping and doing over again of xoncrete structure, so, in this application, first valve regulated flow can be passed through, control the weight of the cooling water entered in cooling tube, in the starting stage of cooling, make that there is in cooling tube less cooling water, while realizing refrigerating function, also cooling tube is avoided to sink, along with concrete solidifying gradually, the increase of concrete support intensity, augmented flow gradually again, increase the flow of cooling tube inner cooling water, and then ensure that the reliability of concrete structure quality.

As preferably, each root first arm is all provided with the second valve controlling its break-make and flow.

In the such scheme of the application, each root first arm is all provided with the second valve, by arranging the second valve, and then the independent control realized each root cooling tube, so, for each position of xoncrete structure, can both be independent according to practice of construction situation, the break-make of cooling tube and flow are controlled, such as, for being positioned at middle part, the position that caloric value is larger, the flow of increase cooling tube inner cooling water that can be suitable, and for the position of both sides, the flow of reduction cooling tube inner cooling water that can be suitable, improve cooling system accuracy of temperature control and efficiency, so, the uniformity of further guarantee large volume concrete structural internal temperature, improve mechanical property and the reliability of mass concrete.

As preferably, described first pipeline is also connected with the first return pipe, described first return pipe is also connected with water source, described first return pipe is provided with the 3rd valve controlling its break-make and flow.

In the such scheme of the application, first pipeline arranges the first return pipe, first return pipe is arranged the 3rd valve, in actual cooling procedure, can according to the first valve, the combination of the second valve and the 3rd valve, in the non-stop-machine situation of pumping installations, realize the adjustment to cooling tube inner cooling water flow, avoid the frequent start-stop of pumping installations, ensure that the reliability of the permission of pumping installations, simultaneously, because the first return pipe and water source are connected, unwanted cooling water can be got back in water source, avoid waste, further reduce the use cost of the application's cooling system.

As preferably, the described banked direction control valves circulatory system also includes return water system, described return water system includes is responsible for described the second pipe connected, and described upper second pipe is communicated with some second arms, and each root second arm is all connected with the delivery port of a cooling tube.

As preferably, described supervisor is also provided with the 4th valve, described 4th valve disconnects for the connected sum controlling described supervisor and described second pipe, and regulates supervisor's cooling water to enter the flow of second pipe.

As preferably, described second pipe is also provided with the second return pipe, described second return pipe is also connected with water source, the second return pipe is provided with the 6th valve controlling its break-make.

In the such scheme of the application, by arranging second pipe and the second arm, the cooling system of the application is made to form a circulatory system, after cooling water enters cooling tube by water inlet, second pipe is entered into again by delivery port, then flow back to water source by the second return pipe, cooling water is recycled, further reduce the use cost of the application's cooling system, on the other hand, for the cooling of large volume concrete structural, cooling water enters in cooling tube, flow in this process of delivery port by water inlet, cooling water is while the heat taking away xoncrete structure inside, cooling water also this heating itself, that is, cooling tube is greater than the concrete intensity of cooling near to delivery port to the concrete intensity of cooling near water inlet, so, although cooling system can take away the heat of xoncrete structure inside, but the temperature difference of xoncrete structure inside but still exists, particularly for large volume concrete structural, adopt cooling tube length longer, this temperature difference is larger, in order to solve this difficult problem, present inventor introduces return water system in the banked direction control valves circulatory system, at recovery cooling water, while saving water resource, also make, in practice of construction, when there is the larger temperature difference in the xoncrete structure near water inlet and the xoncrete structure near delivery port, can by the water inlet direction of conversion cooling water and water outlet direction, namely, cooling water has the delivery port of cooling tube to enter, then flowed out by the water inlet of cooling tube, so, to reduce near cooling tube water inlet concrete temperature difference near concrete and delivery port, and then further ensure the quality of xoncrete structure, improve mechanical property and the reliability of xoncrete structure.In practical operation, when needs conversion Inlet and outlet water direction, following operation can be entered: open the 3rd valve and the 4th valve, close the first valve and the 6th valve, simultaneously, ensure that the second valve is in open mode, so, cooling water can be entered cooling tube by the delivery port pumping of cooling tube by pumping installations, and cooling water is flowed out by water inlet again, then water source is flowed into by the first return pipe after entering the first pipeline, so, namely achieve the commutation of cooling water, whole operating process is simple, fast, difficulty of construction is reduced.

As preferably, each root second arm is all provided with the 5th valve controlling its break-make and flow.

In the such scheme of the application, by arranging the 5th valve, make when being intake by cooling tube delivery port, the flow in cooling tube still can be adjusted, further improves the controllability of cooling system, further ensures the quality of xoncrete structure.

As preferably, described water source is water tank.

As preferably, described first return pipe and the second water pipe are connected for dismountable with between water source.

In such scheme, first return pipe and the second return pipe are connected for dismountable with between water source, carrying out in cooling construction, when too high by cooling tube inner cooling water temperature, first return pipe or the second return pipe are pulled down from water source, the water flowed out from cooling tube is directly discharged to outside water source, avoids the water level at water source too high and reduce cooling effect.

The banked direction control valves circulatory system of the application, owing to including water inlet system and return water system, the Inlet and outlet water direction of cooling system can be exchanged, in actual cooling procedure, by the conversion to Inlet and outlet water direction, ensure that cooling system is to the uniformity of concrete cooling, ensures the quality of xoncrete structure; Again on the one hand, by arranging the first valve, the second valve, the 4th valve and the 5th valve that control break-make and adjust flux, improve cooling system accuracy of temperature control and efficiency, not only ensure that the cooling xoncrete structure that cooling system can be good is inner, but also make simple to operate, convenient, reduce the possibility using difficulty and workman's maloperation; And recycling of cooling water can also be realized, reduce the cost of cooling construction.

in sum, owing to have employed technique scheme, the beneficial effect of the banked direction control valves circulatory system is:

The Inlet and outlet water direction of cooling system can be exchanged, in actual cooling procedure, by the conversion to Inlet and outlet water direction, ensure that cooling system is to the uniformity of concrete cooling, ensures the quality of xoncrete structure; Again on the one hand, by arranging the first valve, the second valve, the 4th valve and the 5th valve that control break-make and adjust flux, improve cooling system accuracy of temperature control and efficiency, not only ensure that the cooling xoncrete structure that cooling system can be good is inner, but also make simple to operate, convenient, reduce the possibility using difficulty and workman's maloperation; And recycling of cooling water can also be realized, reduce the cost of cooling construction.

Accompanying drawing explanation

Fig. 1 is the structural representation that the banked direction control valves circulatory system coordinates with cooling tube;

Fig. 2 is the structural representation of the banked direction control valves circulatory system;

Fig. 3 is the structural representation of cooling tube;

Fig. 4 is the structural representation that cooling system is arranged,

Mark in figure: 1-cooling tube, 2-water inlet, 3-delivery port, 4-pumping installations, 5-water inlet pipe, 6-outlet pipe, the 7-banked direction control valves circulatory system, 71-water inlet system, 72-return water system, 8-is responsible for, 9-first pipeline, 10-first arm, 11-first return pipe, 12-second pipe, 13-second arm, 14-second return pipe, 15-first valve, 16-second valve, 17-the 3rd valve, 18-the 4th valve, 19-the 5th valve, 20-the 6th valve, 21-water source.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described in detail.

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Embodiment, as Figure 1-4,

A kind of cooling system for large volume concrete structural construction, include the cooling tube 1 that some are arranged on inside concrete, described cooling tube 1 one end is water inlet 2, the other end is delivery port 3, described water inlet 2 is connected with water source 21, also include pumping installations 4, the water at water source 21 is pumped into described cooling tube 1 by described pumping installations 4.

In the such scheme of the present embodiment, in the casting process carrying out large volume concrete structural, cooling tube 1 is arranged on inside concrete, in concrete setting and hardening process, start pumping installations 4, the cooling water at water source 21 enters cooling tube 1 by water inlet 2, then discharged by delivery port 3, in this process, cooling water takes away the heat of hydration of inside concrete, so, reduce the temperature difference of each position in large volume concrete structural, and then reduce the thermal stress of large volume concrete structural inside, reduce the residual stress after xoncrete structure sclerosis, reduce the risk that gap appears in xoncrete structure, the architecture quality of guarantee large volume concrete structural like this.

As preferably, some cooling tubes 1 are arranged in same plane.

In the such scheme of the present embodiment, each cooling tube 1 is arranged in same plane, ensures the uniformity that cooling system cools with aspect xoncrete structure, ensure cooling effect, improve the cooling quality of cooling system, further reduce the temperature difference at each position in xoncrete structure.

As preferably, some cooling tubes 1 are spaced apart, and the spacing between adjacent two cooling tubes 1 is identical.

In the such scheme of the present embodiment, the spacing between adjacent two cooling tubes 1 is identical, also further ensures the uniformity of the present embodiment cooling system cooling.

As preferably, described cooling tube 1 is provided with bending in a longitudinal direction thereof, makes cooling tube 1 in a longitudinal direction thereof in back-shaped shape.

In the such scheme of the present embodiment, cooling tube 1 is set to back-shaped shape, a cooling tube 1 is made to have longer length, and then for the large volume concrete structural of same volume, the cooling tube 1 of less radical can be adopted, decrease the quantity of water inlet 2 and delivery port 3, and then simplify the structure of the present embodiment cooling system; And, decrease the stabilising arrangement to cooling tube 1 in casting process, reduce manufacturing cost and use cost, also simplify and cause flow process, reduce difficulty of construction and workload.

As preferably, described cooling tube 1 does not stretch out xoncrete structure on direction longitudinally.

As preferably, described cooling tube 1 is steel pipe.

In the such scheme of the present embodiment, on the one hand: cooling tube 1 is not stretching out xoncrete structure along on the direction of its longitudinal direction, that is, when cooling tube 1 covers by concreting, cooling tube 1 is coated on inside concrete completely, and then make each position of cooling tube 1 all can play cooling effect to xoncrete structure, while meeting cooling effect, also save the use material manufacturing cooling tube 1; On the other hand: the cooling system of the present embodiment, because cooling tube 1 is arranged in xoncrete structure, after refrigerating work procedure completes, cooling tube 1 is still retained with xoncrete structure, so, adopt the cooling system of the present embodiment, in the stage of concrete setting and sclerosis, play cooling xoncrete structure inner, ensure that xoncrete structure solidifies and the effect of quality of hardening; And after refrigerating work procedure, the cooling tube 1 of the present embodiment plays again the effect of reinforcement, improve the intensity of xoncrete structure, and then further improve the mechanical property of large volume concrete structural; Again on the one hand, because cooling tube 1 is back-shaped shape, add the globality of cooling tube 1, when as reinforcement, be no matter the effect can playing strengthening in the axis of cooling tube 1 or radial direction to large volume concrete structural, also further enhance the mechanical property of xoncrete structure.

As preferably, water inlet 2 place of described cooling tube 1 is also provided with water inlet pipe 5, and delivery port 3 place of described cooling tube 1 is also connected with outlet pipe 6, and described water inlet pipe 5 and outlet pipe 6 towards waiting to build concrete direction, and build concrete thickness higher than waiting.

In the such scheme of the present embodiment, by arranging water inlet pipe 5 and outlet pipe 6, and towards waiting to build concrete direction, first be avoid forming the breach stretched out for water inlet pipe 5 and outlet pipe 6 in the side of xoncrete structure, after cooling, shutoff can be carried out, the carrying out of convenient construction easily to water inlet pipe 5 and outlet pipe 6.

As preferably, the water inlet 2 of adjacent two cooling tubes 1 and delivery port 3 are near arranging.

In such scheme, the water inlet 2 of adjacent two cooling tubes 1 and delivery port 3 are near arranging, first be that the pipeline facilitating the present embodiment cooling system connects, meanwhile, less in caloric value, or when cooling requires lower, each cooling tube 1 can be carried out the series connection that first place connects, further simplify the structure of the present embodiment cooling system, also simplify operation, reduce work difficulty.

As preferably, described cooling system also includes the banked direction control valves circulatory system 7, the described banked direction control valves circulatory system 7 includes water inlet system 71, described water inlet system 71 includes the supervisor 8 connected with pumping installations 4 and the first pipeline 9 connected with described supervisor 8, described first pipeline 9 is connected and has some first arms 10, each root first arm 10 is all connected with the water inlet 2 of a cooling tube 1.

In the such scheme of the present embodiment, the banked direction control valves circulatory system 7 is adopted to be connected with cooling tube 1, namely, the cooling water at water source 21 is pumped the first pumping of device 4 and enters the banked direction control valves circulatory system 7, enter into cooling tube 1 again, each water inlet 2 is connected and enters the banked direction control valves circulatory system, adopt a pumping installations 4 can realize doing the pump water conservancy project of all cooling tubes 1, further simplify the structure, also reduce equipment cost.

As preferably, described supervisor 8 is provided with the first valve 15, described first valve 15 disconnects with the connected sum of described first pipeline 9 for controlling described supervisor 8, and regulates supervisor 8 cooling water to enter the flow of the first pipeline 9.

In the such scheme of the present embodiment, by arranging the first valve 15 controlling its break-make and flow on supervisor 8, the control of break-make and the adjustment of flow can be carried out according to practice of construction situation, improve the controllability of the present embodiment cooling system, save cooling water resources, and, in the starting stage of carrying out cooling, because concrete does not well solidify, there is the support strength and good mobility of telling somebody what one's real intentions are, when flowing into cooling water in cooling tube 1, the pressure of cooling tube 1 pair of lower concrete sharply increases, when pressure exceedes the concrete support limit, generation sinks to being shifted by cooling tube 1, not only bad for cooling effect, also very likely in the formation space, shift position of cooling tube 1, reduce the mechanical properties such as the intensity of xoncrete structure, time serious, even cause scrapping and doing over again of xoncrete structure, so, in the present embodiment, first valve 15 adjust flux can be passed through, control the weight of the cooling water entered in cooling tube 1, in the starting stage of cooling, make, in cooling tube 1, there is less cooling water, while realizing refrigerating function, also cooling tube 1 is avoided to sink, along with concrete solidifying gradually, the increase of concrete support intensity, augmented flow gradually again, increase the flow of cooling tube 1 inner cooling water, and then ensure that the reliability of concrete structure quality.

As preferably, each root first arm 10 is all provided with the second valve 16 controlling its break-make and flow.

In the such scheme of the present embodiment, each root first arm 10 is all provided with the second valve 16, by arranging the second valve 16, and then the independent control realized each root cooling tube 1, so, for each position of xoncrete structure, can both be independent according to practice of construction situation, the break-make of cooling tube 1 and flow are controlled, such as, for being positioned at middle part, the position that caloric value is larger, the flow of increase cooling tube 1 inner cooling water that can be suitable, and for the position of both sides, the flow of reduction cooling tube 1 inner cooling water that can be suitable, improve cooling system accuracy of temperature control and efficiency, so, the uniformity of further guarantee large volume concrete structural internal temperature, improve mechanical property and the reliability of mass concrete.

As preferably, described first pipeline 9 is also connected with the first return pipe 11, described first return pipe 11 is also connected with water source 21, described first return pipe 11 is provided with the 3rd valve 17 controlling its break-make and flow.

In the such scheme of the present embodiment, first pipeline 9 arranges the first return pipe 11, first return pipe 11 is arranged the 3rd valve 17, in actual cooling procedure, can according to the first valve 15, the combination of the second valve 16 and the 3rd valve 17, in the non-stop-machine situation of pumping installations 4, realize the adjustment to cooling tube 1 inner cooling water flow, avoid the frequent start-stop of pumping installations 4, ensure that the reliability of the permission of pumping installations 4, simultaneously, because the first return pipe 11 is connected with water source 21, make unwanted cooling water can get back in water source 21, avoid waste, further reduce the use cost of the present embodiment cooling system.

As preferably, the described banked direction control valves circulatory system also includes return water system 72, described return water system 72 includes the second pipe 12 connected with described supervisor 8, described upper second pipe 12 is communicated with some second arms 13, each root second arm 13 is all connected with the delivery port 3 of a cooling tube 1.

As preferably, described supervisor 8 is also provided with the 4th valve 18, described 4th valve 18 disconnects with the connected sum of described second pipe 12 for controlling described supervisor 8, and regulates supervisor 8 cooling water to enter the flow of second pipe 12.

As preferably, described second pipe 12 is also provided with the second return pipe 14, described second return pipe 14 is also connected with water source 21, the second return pipe 14 is provided with the 6th valve 20 controlling its break-make.

In the such scheme of the present embodiment, by arranging second pipe 12 and the second arm 13, the cooling system of the present embodiment is made to form a circulatory system, after cooling water enters cooling tube 1 by water inlet 2, second pipe 12 is entered into again by delivery port 3, then flow back to water source 21 by the second return pipe 14, cooling water is recycled, further reduce the use cost of the present embodiment cooling system, on the other hand, for the cooling of large volume concrete structural, cooling water enters in cooling tube 1, flow in this process of delivery port 3 by water inlet 2, cooling water is while the heat taking away xoncrete structure inside, cooling water also this heating itself, that is, concrete intensity of cooling near cooling tube 1 pair of water inlet 2 is greater than the concrete intensity of cooling near to delivery port 3, so, although cooling system can take away the heat of xoncrete structure inside, but the temperature difference of xoncrete structure inside but still exists, particularly for large volume concrete structural, adopt cooling tube 1 length longer, this temperature difference is larger, in order to solve this difficult problem, the inventor of the present embodiment introduces return water system in the banked direction control valves circulatory system, at recovery cooling water, while saving water resource, also make, in practice of construction, when there is the larger temperature difference in the xoncrete structure near the xoncrete structure near water inlet 2 and delivery port 3, can by the water inlet direction of conversion cooling water and water outlet direction, namely, cooling water has the delivery port 3 of cooling tube 1 to enter, then flowed out by the water inlet 2 of cooling tube 1, so, to reduce near cooling tube 1 water inlet 2 concrete temperature difference near concrete and delivery port 3, and then further ensure the quality of xoncrete structure, improve mechanical property and the reliability of xoncrete structure.In practical operation, when needs conversion Inlet and outlet water direction, following operation can be entered: open the 3rd valve 17 and the 4th valve 18, close the first valve 15 and the 6th valve 20, simultaneously, ensure that the second valve 16 is in open mode, so, cooling water can be entered cooling tube 1 by delivery port 3 pumping of cooling tube 1 by pumping installations 4, and cooling water is flowed out by water inlet 2 again, then water source 21 is flowed into by the first return pipe 11 after entering the first pipeline 9, so, namely achieve the commutation of cooling water, whole operating process is simple, fast, difficulty of construction is reduced.

As preferably, each root second arm 13 is all provided with the 5th valve 19 controlling its break-make and flow.

In the such scheme of the present embodiment, by arranging the 5th valve 19, make when being intake by cooling tube 1 delivery port 3, the flow in cooling tube 1 still can be adjusted, further improve the controllability of cooling system, further ensure the quality of xoncrete structure.

As preferably, described water source 21 is water tank.

As preferably, described first return pipe 11 and being connected for dismountable between the second water pipe with water source 21.

In such scheme, first return pipe 11 and the second return pipe 14 are connected for dismountable with between water source 21, carrying out in cooling construction, when too high by cooling tube 1 inner cooling water temperature, first return pipe 11 or the second return pipe 14 are pulled down from water source 21, the water flowed out from cooling tube 1 is directly discharged to outside water source 21, avoids the water level at water source 21 too high and reduce cooling effect.

The banked direction control valves circulatory system 7 of the present embodiment, owing to including water inlet system 71 and return water system 72, the Inlet and outlet water direction of cooling system can be exchanged, in actual cooling procedure, by the conversion to Inlet and outlet water direction, ensure that cooling system is to the uniformity of concrete cooling, ensures the quality of xoncrete structure; Again on the one hand, by arranging the first valve 15, second valve 16, the 4th valve 18 and the 5th valve 19 that control break-make and adjust flux, improve cooling system accuracy of temperature control and efficiency, not only ensure that the cooling xoncrete structure that cooling system can be good is inner, but also make simple to operate, convenient, reduce the possibility using difficulty and workman's maloperation; And recycling of cooling water can also be realized, reduce the cost of cooling construction.

All any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. the banked direction control valves circulatory system for cooling system, it is characterized in that: include water inlet system, described water inlet system includes the supervisor that connects with pumping installations and is responsible for described the first pipeline connected, described first pipeline is connected and has some first arms, each root first arm is all connected with the water inlet of a cooling tube.

2. the banked direction control valves circulatory system according to claim 1, it is characterized in that: described supervisor is provided with the first valve, described first valve disconnects for the connected sum controlling described supervisor and described first pipeline, and regulates supervisor's cooling water to enter the flow of the first pipeline.

3. the banked direction control valves circulatory system according to claim 2, is characterized in that: each root first arm is all provided with the second valve controlling its break-make and flow.

4. the banked direction control valves circulatory system according to claim 3, is characterized in that: described first pipeline is also connected with the first return pipe, and described first return pipe is also connected with water source, described first return pipe is provided with the 3rd valve controlling its break-make and flow.

5. the banked direction control valves circulatory system according to claim 4, it is characterized in that: the described banked direction control valves circulatory system also includes return water system, described return water system includes is responsible for described the second pipe connected, described upper second pipe is communicated with some second arms, each root second arm is all connected with the delivery port of a cooling tube.

6. the banked direction control valves circulatory system according to claim 5, it is characterized in that: described supervisor is also provided with the 4th valve, described 4th valve disconnects for the connected sum controlling described supervisor and described second pipe, and regulates supervisor's cooling water to enter the flow of second pipe.

7. the banked direction control valves circulatory system according to claim 6, is characterized in that: described second pipe is also provided with the second return pipe, described second return pipe is also connected with water source, the second return pipe is provided with the 6th valve controlling its break-make.

8. the banked direction control valves circulatory system according to claim 7, is characterized in that: each root second arm is all provided with the 5th valve controlling its break-make and flow.

9. the banked direction control valves circulatory system according to claim 8, is characterized in that: described water source is water tank.

10. the banked direction control valves circulatory system according to claim 9, is characterized in that: described first return pipe and the second water pipe are connected for dismountable with between water source.