CN114776011B - Cooling equipment for pouring mass concrete - Google Patents

Abstract

The application relates to cooling equipment for pouring mass concrete, which comprises a plurality of cooling frames which are parallel to each other and are arranged at intervals, wherein each cooling frame comprises a plurality of connecting pipes, a plurality of organ pipes are arranged between the adjacent connecting pipes along the length direction of the connecting pipes, mounting pipes which are communicated with the connecting pipes are arranged on the connecting pipes and are positioned at the positions of the end parts of the organ pipes, the organ pipes are detachably connected to the mounting pipes and are used for communicating the adjacent connecting pipes, a plurality of telescopic pipes are arranged between the connecting pipes of the adjacent cooling frames along the length direction of the connecting pipes, fixing pieces for fixing the telescopic pipes to any adjusted length are arranged on the telescopic pipes, the cooling equipment also comprises an adjusting mechanism for adjusting the height of the plurality of cooling frames positioned in a pouring template, and two ends of one connecting pipe of the uppermost cooling frame in the plurality of cooling frames are provided with a water inlet pipe and a water outlet pipe; the application has the advantage that the cooling equipment can be driven to be suitable for concrete with different specifications.

Description

Cooling equipment for pouring mass concrete

Technical Field

The application relates to the field of building construction, in particular to cooling equipment for pouring mass concrete.

Background

The initial temperature and hydration heat temperature rise of the interior after the concrete is poured, and the temperature reduction by natural and forced measures is called concrete cooling. The aim of controlling the temperature of the concrete is to prevent the concrete from generating cracks in the construction period and the working period, and the method is an important guarantee of the concrete pouring quality.

The Chinese patent with the issued publication number of CN215564620U discloses a mass concrete cooling device, which comprises a concrete cooling device body; the cooling device body set up in the concrete, the cooling device body be equipped with inlet tube and outlet pipe, inlet tube and outlet pipe between be equipped with the cooling tubular product, the cooling tubular product include main cooling pipe and supplementary cooling pipe, main cooling pipe and supplementary cooling pipe alternately set up, the junction of main cooling pipe and supplementary cooling pipe is equipped with the solenoid valve.

For the related art in the above, there are the following technical drawbacks: the main cooling pipe and the auxiliary cooling pipe are poured inside the concrete to cool the concrete, and when the volumes of the concrete are different, the cooling devices with different specifications are required to be prefabricated, so that the applicability of the same cooling device is reduced.

Disclosure of Invention

In order to enable the same cooling equipment to be suitable for concrete with different specifications, the application provides cooling equipment for pouring mass concrete.

The application provides a pour bulky cooling device for concrete adopts following technical scheme:

the utility model provides a pour bulky cooling equipment for concrete, includes a plurality of cooling framves that are parallel to each other and interval set up, every cooling frame all includes a plurality of connecting pipes, adjacent be provided with a plurality of organ pipes along the length direction of connecting pipe between the connecting pipe, just be located the tip place of organ pipe on the connecting pipe and be provided with the installation pipe with the connecting pipe intercommunication, organ pipe detachable connection just is used for with adjacent connecting pipe intercommunication on the installation pipe, be provided with on the installation pipe and be used for installing the confined closure of pipe when not needing the installation pipe, adjacent be provided with a plurality of flexible pipes along the length direction of connecting pipe between the connecting pipe of cooling frame, flexible pipe is used for with the adjacent cooling frame's connecting pipe intercommunication, be provided with on the flexible pipe and be used for being fixed to the mounting of length after the arbitrary regulation with flexible pipe, cooling equipment is still including the adjustment mechanism who is arranged in the height of pouring the template of a plurality of cooling frames, and one of the both ends of the uppermost cooling frame's connecting pipe are provided with inlet tube and outlet pipe in a plurality of cooling frames.

Through adopting above-mentioned technical scheme, through driving the organ pipe and stretching out and drawing back, thereby adjust the interval between the adjacent connecting pipe in every cooling frame, through driving the flexible pipe and stretching out and drawing back and fixing the flexible pipe through the mounting, thereby adjust the interval between the adjacent cooling frame, thereby cooling equipment can be applicable to the concrete of different specifications, can dismantle the both ends of organ pipe and connect on the mounting pipe, thereby adjust the quantity of organ pipe and connecting pipe, make the concrete of different quantity organ pipe and connecting pipe can further be applicable to different specifications, adopt the sealing member to seal the mounting pipe that will not need to use, thereby prevent that the inside cooling water of connecting pipe from flowing out in the mounting pipe; the arrangement of the water inlet pipe and the water outlet pipe is convenient for conveying cooling water into the connecting pipe, the telescopic pipe and the organ pipe; the setting of adopting the organ pipe has increased the area of contact with the inside between the concrete to the cooling effect has been increased.

Optionally, the first bar hole has all been seted up along the length direction of connecting pipe on the connecting pipe relative face of cooling frame, the installation pipe slides and sets up in first bar downthehole, be provided with in the first bar downthehole being used for with first bar hole confined first flexible sealing member when the installation pipe is located the downthehole slip of first bar.

By adopting the technical scheme, the mounting pipes are arranged in the first strip-shaped holes in a sliding manner, so that the positions of the organ pipes between the adjacent connecting pipes are adjusted, the organ pipes at different positions can be suitable for different types of concrete, and the applicability of cooling equipment is further improved; the arrangement of the first telescopic sealing piece can achieve the sealing effect on the first strip-shaped hole, and cooling water inside the connecting pipe is prevented from flowing out from the first strip-shaped hole.

Optionally, the first flexible sealing member includes first organ board, first organ board sets up in first bar downthehole along the length direction in first bar hole, the both ends of first organ board are fixed to be set up on the both ends inner wall in first bar hole, first recess has been seted up along the length direction in first bar hole on the face that first bar hole is relative of connecting pipe, the both sides of first organ board are located the flexible removal of first recess, the mounting tube wears to establish and fixed connection on first organ board.

Through adopting above-mentioned technical scheme, when the installation pipe removes, the installation pipe can drive first organ board and be located first bar downthehole flexible for first organ board can be located flexible removal in the first recess, and first organ board can play confined effect to first bar hole all the time when flexible, adopts its simple structure of setting of first organ board, has improved the sealed effect to first bar hole.

Optionally, the flexible pipe includes fixed pipe and grafting and sliding connection at the intraductal movable tube of fixed, the mounting includes wears to establish and threaded connection's fixing bolt on the fixed pipe, fixing bolt's pole portion butt is to the movable tube.

Through adopting above-mentioned technical scheme, adopt its simple structure of setting of fixed pipe and movable pipe, be convenient for drive flexible pipe and stretch out and draw back, the setting of adopting fixing bolt is convenient for be fixed the movable pipe to the fixed intraductal optional position to make adjacent cooling frame can be fixed to different intervals, make a plurality of cooling frames applicable in different concretes, improved cooling equipment's suitability.

Optionally, the second bar hole has been seted up along the length direction of connecting pipe on the adjacent connecting pipe of cooling frame is relative, fixed pipe and removal intraductal, be provided with in the second bar hole of connecting pipe and be used for the second flexible sealing member with second bar hole confined when fixed pipe and removal pipe are located the downthehole slip of second bar.

By adopting the technical scheme, the telescopic pipes are arranged in the second bar-shaped holes in a sliding manner, so that the positions of the telescopic pipes between the adjacent cooling frames are adjusted, the telescopic pipes at different positions can be further suitable for different types of concrete, and the applicability of cooling equipment is further improved; the second telescopic sealing piece can seal the second strip-shaped hole, so that cooling water in the connecting pipe is prevented from flowing out from the second strip-shaped hole.

Optionally, the second flexible sealing member includes the second organ board, the second organ board sets up in the second bar downthehole along the length direction in second bar hole, the both ends of second organ board are fixed to be set up on the both ends inner wall in second bar hole, the second recess has been seted up along the length direction in second bar hole on the second bar hole relative face of connecting pipe, the both sides of second organ board are located the flexible removal of second recess, flexible pipe wears to establish and fixed connection on the second organ board.

Through adopting above-mentioned technical scheme, when flexible pipe removes, flexible pipe can drive the second organ board and be located the downthehole flexible of second bar for the second organ board can be located the concertina movement of second recess, and the second organ board can play confined effect to the second bar hole all the time when flexible, adopts the setting up its simple structure of second organ board, has improved the sealed effect to the second bar hole.

Optionally, the adjustment mechanism includes bottom plate and crossbeam, be provided with on the crossbeam and be used for fixing the cooling frame of the upper portion in a plurality of cooling frames to the fixed mechanism on the crossbeam, be provided with on the bottom plate and be used for driving the elevating system that the crossbeam drove the cooling frame and go up and down.

Through adopting above-mentioned technical scheme, it is fixed with the cooling frame of the upper portion in a plurality of cooling frames through fixed establishment, drive the cooling frame through elevating system and go up and down for the cooling frame of upper portion drives a plurality of cooling frames and goes up and down, makes the cooling frame can be gone up and down to the central point department of template, thereby has improved a plurality of cooling frames and has pour the effect in pouring to the concrete, and can further make a plurality of cooling frames even distribution in the concrete, has improved the cooling effect to the concrete.

Optionally, be provided with the body of rod on the crossbeam, the tip that the body of rod kept away from the crossbeam is provided with the plate body, be provided with a plurality of installation poles on the plate body, fixed establishment includes a plurality of couples and a plurality of link, a plurality of the articulated setting of couple one-to-one is on the installation pole, a plurality of the link one-to-one sets up on a plurality of connecting pipes of the cooling frame of uppermost, the couple is used for the link.

Through adopting above-mentioned technical scheme, adopt the setting of couple and link its simple structure, be convenient for install fixedly to the cooling frame.

Optionally, the lifting mechanism comprises a lifting electric cylinder fixedly arranged on the bottom plate, and the cross beam is fixedly arranged on the driving end of the lifting electric cylinder.

Through adopting above-mentioned technical scheme, drive the crossbeam through lift jar and go up and down for the crossbeam drives a plurality of cooling frames and goes up and down, adopts the setting of lift jar its simple structure, has improved the drive effect to the crossbeam.

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

the cooling device comprises a plurality of cooling frames, wherein each cooling frame is provided with a connecting pipe, the connecting pipes are connected with the connecting pipes, the cooling frames are connected with the connecting pipes, the connecting pipes are connected with the connecting pipes, and the cooling devices are connected with the connecting pipes. The arrangement of the water inlet pipe and the water outlet pipe is convenient for conveying cooling water into the connecting pipe, the telescopic pipe and the organ pipe;

the mounting pipes are arranged in the first strip-shaped holes in a sliding mode, so that the positions of the organ pipes between the adjacent connecting pipes are adjusted, the organ pipes at different positions can be suitable for different types of concrete, and the applicability of cooling equipment is further improved; the arrangement of the first telescopic sealing piece can achieve the sealing effect on the first strip-shaped hole, so that cooling water in the connecting pipe is prevented from flowing out from the first strip-shaped hole;

the telescopic pipes are arranged in the second strip-shaped holes in a sliding mode, so that the positions of the telescopic pipes between the adjacent cooling frames are adjusted, the telescopic pipes at different positions can be further suitable for different types of concrete, and the applicability of cooling equipment is further improved; the second telescopic sealing piece can seal the second strip-shaped hole, so that cooling water in the connecting pipe is prevented from flowing out from the second strip-shaped hole.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a structure of a connecting tube for showing adjacent cooling racks according to an embodiment of the present application;

FIG. 3 is a schematic view of a connection tube for showing adjacent cooling racks according to an embodiment of the present application;

FIG. 4 is a schematic cross-sectional view for showing a connection pipe according to an embodiment of the present application;

fig. 5 is an enlarged view of a portion a in fig. 4.

Reference numerals illustrate: 1. a cooling rack; 11. a connecting pipe; 111. a water inlet pipe; 112. a water outlet pipe; 12. installing a pipe; 121. a cover; 122. an organ pipe; 13. a telescopic tube; 131. a fixed tube; 132. a moving tube; 133. a fixing bolt; 134. a rubber ring; 14. a first bar-shaped hole; 141. a first organ plate; 142. a first groove; 15. a second bar-shaped hole; 151. a second organ plate; 152. a second groove; 16. a bottom plate; 161. a cross beam; 162. a rod body; 163. a plate body; 164. a mounting rod; 165. a hook; 166. hanging rings; 167. lifting electric cylinder.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a cooling device for pouring mass concrete. In combination with fig. 1 and 2, a cooling device for pouring mass concrete comprises a plurality of cooling frames 1 which are parallel to each other and are arranged at intervals, each cooling frame 1 comprises a plurality of connecting pipes 11, adjacent connecting pipes 11 are arranged at intervals in parallel to each other, two ends of one connecting pipe 11 of the cooling frame 1 at the uppermost part of the plurality of cooling frames 1 are provided with a water inlet pipe 111 and a water outlet pipe 112, a plurality of organ pipes 122 are arranged between the adjacent connecting pipes 11 along the length direction of the connecting pipe 11, and the length direction of the organ pipes 122 is arranged along the length direction of the connecting pipe 11 perpendicular to each other.

Referring to fig. 1 and 2, in order to detachably connect the organ pipe 122 between the adjacent connection pipes 11, the connection pipe 11 is provided with a mounting pipe 12 communicating with the connection pipe 11 at a position where an end of the organ pipe 122 is located, the organ pipe 122 is detachably connected to the mounting pipe 12 and is used for communicating the adjacent connection pipes 11, in this embodiment, the end of the organ pipe 122 is sleeved and screwed on the mounting pipe 12, and the mounting pipe 12 is provided with a sealing member for sealing the mounting pipe 12 when the mounting pipe 12 is not needed, and the sealing member includes a sealing cover 121 sleeved and screwed on the mounting pipe 12.

Referring to fig. 1 and 3, in order to communicate adjacent cooling racks 1, a plurality of telescopic pipes 13 are provided between the connecting pipes 11 of the adjacent cooling racks 1 along the length direction of the connecting pipes 11, each telescopic pipe 13 comprises a fixed pipe 131 and a movable pipe 132 inserted and slidingly connected in the fixed pipe 131, each telescopic pipe 13 is used for communicating the connecting pipe 11 of the adjacent cooling rack 1, a fixing piece for fixing the telescopic pipe 13 to any adjusted length is provided on each telescopic pipe 13, each fixing piece comprises a fixing bolt 133 which is penetrated and connected on the fixed pipe 131 in a threaded manner, and the rod part of each fixing bolt 133 is abutted to the corresponding movable pipe 132; in order to improve the sealing effect between the fixed tube 131 and the moving tube 132, a rubber ring 134 for abutting against the outer wall of the moving tube 132 is provided on the fixed tube 131 in a circumferential direction.

Referring to fig. 4 and 5, in order to adjust the position of the organ pipe 122 between the adjacent connection pipes 11 in the cooling rack 1, first strip-shaped holes 14 are formed in the opposite surfaces of the connection pipes 11 of the cooling rack 1 along the length direction of the connection pipes 11, the installation pipes 12 are slidably disposed in the first strip-shaped holes 14, and first telescopic seals for sealing the first strip-shaped holes 14 when the installation pipes 12 are located in the first strip-shaped holes 14 and slide are disposed in the first strip-shaped holes 14.

Referring to fig. 4 and 5, the first telescopic sealing member includes a first organ plate 141, the first organ plate 141 is disposed in the first bar hole 14 along the length direction of the first bar hole 14, two ends of the first organ plate 141 are fixedly disposed on two inner walls of the first bar hole 14, a first groove 142 is formed in the opposite surface of the first bar hole 14 of the connecting pipe 11 along the length direction of the first bar hole 14, the cross section of the first groove 142 is in a U-shaped configuration, two sides of the first organ plate 141 are disposed in the first groove 142 to move in a telescopic manner, two side edges of the first organ plate 141 are abutted to the bottom wall of the first groove 142, and the mounting pipe 12 is arranged in a penetrating manner and fixedly connected to the first organ plate 141.

Referring to fig. 4 and 5, in order to adjust the position of the telescopic tube 13 between the adjacent cooling racks 1, a second bar-shaped hole 15 is formed on the opposite surface of the connecting tube 11 of the adjacent cooling racks 1 along the length direction of the connecting tube 11, the fixed tube 131 and the moving tube 132 are slidably disposed in the second bar-shaped hole 15, and a second telescopic sealing member for sealing the second bar-shaped hole 15 when the fixed tube 131 and the moving tube 132 are slidably disposed in the second bar-shaped hole 15 is disposed in the second bar-shaped hole 15.

Referring to fig. 4 and 5, the second telescopic sealing member includes a second organ plate 151, the second organ plate 151 is disposed in the second bar hole 15 along the length direction of the second bar hole 15, two ends of the second organ plate 151 are fixedly disposed on two inner walls of the second bar hole 15, a second groove 152 is formed on the opposite surface of the second bar hole 15 of the connecting pipe 11 along the length direction of the second bar hole 15, the cross section of the second groove 152 is in a U-shaped configuration, two sides of the second organ plate 151 are located in the second groove 152 to move in a telescopic manner, two side edges of the second organ plate 151 are abutted to the bottom wall of the second groove 152, and the telescopic pipe 13 is penetrated and fixedly connected to the second organ plate 151.

Referring to fig. 1 and 3, in order to adjust the heights of the plurality of cooling racks 1, the cooling apparatus further includes an adjusting mechanism for adjusting the heights of the plurality of cooling racks 1 located in the casting mold; the adjusting mechanism comprises a bottom plate 16 and a cross beam 161, the bottom plate 16 is placed on the ground, a rod body 162 is arranged on the cross beam 161, the rod body 162 is arranged along the length direction perpendicular to the cross beam 161, a plate body 163 is arranged at the end part, far away from the cross beam 161, of the rod body 162, the plate body 163 is arranged along the length direction perpendicular to the rod body 162, and a plurality of mounting rods 164 are arranged on the plate body 163.

Referring to fig. 1 and 3, a fixing mechanism for fixing the uppermost cooling rack 1 of the plurality of cooling racks 1 to the cross beam 161 is provided on the cross beam 161; the fixing mechanism comprises a plurality of hooks 165 and a plurality of hanging rings 166, the plurality of hooks 165 are hinged on the mounting rod 164 in a one-to-one correspondence manner, the plurality of hanging rings 166 are arranged on the plurality of connecting pipes 11 of the uppermost cooling rack 1 in a one-to-one correspondence manner, and the hooks 165 are used for being hung on the hanging rings 166; the lifting mechanism for driving the cross beam 161 to drive the cooling rack 1 to lift is arranged on the bottom plate 16 and comprises a lifting electric cylinder 167 fixedly arranged on the bottom plate 16, and the cross beam 161 is fixedly arranged on the driving end of the lifting electric cylinder 167.

The implementation principle of the cooling equipment for pouring mass concrete in the embodiment of the application is as follows: when the cooling equipment is required to be arranged in the concrete, a proper amount of cooling rack 1 is selected according to the size of the concrete, the length of the organ pipe 122 is adjusted by sleeving the organ pipe 122 on the mounting pipe 12 in a threaded manner, the mounting pipe 12 is driven to move in the first strip-shaped hole 14, the mounting pipe 12 drives the first organ plate 141 to stretch out and draw back in the first strip-shaped hole 14, the position of the organ pipe 122 is adjusted, the moving pipe 132 is driven to move in the fixed pipe 131 through driving, the moving pipe 132 is fixed to any position in the fixed pipe 131 through the fixing bolt 133, the distance between adjacent cooling racks 1 is adjusted through adjusting the length of the telescopic pipe 13, at the moment, the telescopic pipe 13 is driven to move in the second strip-shaped hole 15 through driving the telescopic pipe 13, the telescopic pipe 13 is driven to stretch out and draw back in the second strip-shaped hole 15, the position of the telescopic pipe 13 is adjusted, the cooling rack 1 is fixed to a plurality of mounting rods 164 through the hooks 165 and the hanging rings 166, and the lifting frames are driven to lift through the lifting cylinders at the moment, the positions of the concrete in the plurality of lifting frames are adjusted, and the cooling equipment is applicable to the cooling equipment is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A pour bulky cooling device for concrete which characterized in that: the cooling rack (1) comprises a plurality of cooling racks (1) which are arranged in parallel and at intervals in the vertical height direction, each cooling rack (1) comprises a plurality of connecting pipes (11) which are arranged in the horizontal direction, a plurality of organ pipes (122) are arranged between the adjacent connecting pipes (11) along the length direction of the connecting pipes (11), mounting pipes (12) which are communicated with the connecting pipes (11) are arranged on the connecting pipes (11) and are positioned at the positions of the end parts of the organ pipes (122), the organ pipes (122) are detachably connected to the mounting pipes (12) and are used for communicating the adjacent connecting pipes (11), a sealing piece which is used for sealing the mounting pipes (12) when the mounting pipes (12) are not needed is arranged on the mounting pipes (12), a plurality of telescopic pipes (13) are arranged between the connecting pipes (11) of the adjacent cooling racks (1) along the length direction of the connecting pipes (11), the telescopic pipes (13) are used for communicating the upper and lower adjacent end parts of the cooling racks (1), the telescopic pipes (13) are provided with a plurality of telescopic pipes (13) which are used for pouring cooling devices which are used for fixing the length of any telescopic pipes (13) into a plurality of adjusting templates (1) and are positioned in the cooling rack, and the cooling mechanism comprises a plurality of adjusting mechanisms, two ends of one connecting pipe (11) of the uppermost cooling rack (1) in the plurality of cooling racks (1) are provided with a water inlet pipe (111) and a water outlet pipe (112); first bar hole (14) have all been seted up along the length direction of connecting pipe (11) on the connecting pipe (11) relative face of cooling frame (1), install pipe (12) slip setting in first bar hole (14), be provided with in first bar hole (14) of connecting pipe (11) and be used for being located first bar hole (14) confined first flexible sealing member when sliding in first bar hole (14) of installing pipe (12).

2. The cooling apparatus for casting mass concrete according to claim 1, wherein: the first telescopic sealing piece comprises a first organ plate (141), the first organ plate (141) is arranged in the first bar-shaped hole (14) along the length direction of the first bar-shaped hole (14), two ends of the first organ plate (141) are fixedly arranged on the inner walls of two ends of the first bar-shaped hole (14), a first groove (142) is formed in the opposite surface of the first bar-shaped hole (14) of the connecting pipe (11) along the length direction of the first bar-shaped hole (14), two sides of the first organ plate (141) are located in the first groove (142) to stretch and move, and the mounting pipe (12) is arranged in a penetrating mode and fixedly connected to the first organ plate (141).

3. The cooling apparatus for casting mass concrete according to claim 1, wherein: the telescopic pipe (13) comprises a fixed pipe (131) and a moving pipe (132) which is inserted and connected in the fixed pipe (131) in a sliding mode, the fixed piece comprises a fixed bolt (133) which is arranged in a penetrating mode and connected to the fixed pipe (131) in a threaded mode, and the rod portion of the fixed bolt (133) is abutted to the moving pipe (132).

4. A cooling apparatus for casting mass concrete according to claim 3, wherein: the second strip-shaped holes (15) are formed in the opposite faces of the connecting pipes (11) of the adjacent cooling frames (1) along the length direction of the connecting pipes (11), the fixed pipes (131) and the movable pipes (132) are arranged in the second strip-shaped holes (15) in a sliding mode, and second telescopic sealing pieces used for sealing the second strip-shaped holes (15) when the fixed pipes (131) and the movable pipes (132) are located in the second strip-shaped holes (15) in a sliding mode are arranged in the second strip-shaped holes (15).

5. The cooling apparatus for casting mass concrete according to claim 4, wherein: the second flexible sealing member includes second organ board (151), second organ board (151) set up in second bar hole (15) along the length direction in second bar hole (15), the both ends of second organ board (151) are fixed to be set up on the both ends inner wall in second bar hole (15), second recess (152) have been seted up along the length direction in second bar hole (15) on the second bar hole (15) relative face of connecting pipe (11), the both sides of second organ board (151) are located flexible removal in second recess (152), flexible pipe (13) wear to establish and fixed connection on second organ board (151).

6. The cooling apparatus for casting mass concrete according to claim 1, wherein: the adjusting mechanism comprises a bottom plate (16) and a cross beam (161), wherein a fixing mechanism for fixing the uppermost cooling rack (1) of the cooling racks (1) onto the cross beam (161) is arranged on the cross beam (161), and a lifting mechanism for driving the cross beam (161) to drive the cooling racks (1) to lift is arranged on the bottom plate (16).

7. The cooling apparatus for casting mass concrete according to claim 6, wherein: be provided with body of rod (162) on crossbeam (161), body of rod (162) are kept away from the tip of crossbeam (161) and are provided with plate body (163), be provided with a plurality of installation poles (164) on plate body (163), fixed establishment includes a plurality of couples (165) and a plurality of link (166), a plurality of couple (165) one-to-one articulates and sets up on installation pole (164), a plurality of link (166) one-to-one set up on a plurality of connecting pipes (11) of cooling frame (1) at the uppermost, couple (165) are used for the link to link (166).

8. The cooling apparatus for casting mass concrete according to claim 7, wherein: the lifting mechanism comprises a lifting electric cylinder (167) fixedly arranged on the bottom plate (16), and the cross beam (161) is fixedly arranged on the driving end of the lifting electric cylinder (167).