CN216992430U - Concrete pipe pile evaporates foster equipment - Google Patents

Abstract

The utility model relates to a concrete tubular pile evaporates foster equipment belongs to tubular pile processing technology field, and it is including evaporating foster pool liner, evaporate foster pool liner in and be located evaporate the both ends of foster pool liner and all be provided with a plurality of fixed subassemblies, fixed subassembly is used for fixed confession concrete tubular pile evaporates foster equipment and evaporates the both ends of the tubular pile of fostering, leave the space between the tubular pile. This application has the production quality who helps improving the tubular pile.

Description

Concrete pipe pile evaporates foster equipment

Technical Field

The application relates to the technical field of tubular pile processing, in particular to concrete tubular pile steam curing equipment.

Background

In the manufacturing process of the concrete pipe pile, the centrifugally formed belt die is put into a steam curing pool for steam curing treatment, so that the strength of the concrete reaches over 40Mpa after the concrete is cured for 4 to 8 hours under normal pressure.

At present there is the pond of raising by vaporization including the pond body of raising by vaporization body and a plurality of pond linings of raising by vaporization, every is evaporated and is raised the pond lining and pile up a plurality of dry mixed concrete pipe piles, evaporate and raise the pond lining be located evaporate the pond body of raising by vaporization and with evaporate and form between the pond body of raising by vaporization and evaporate the chamber, evaporate the chamber and can heat evaporating the pond lining of raising by vaporization, and then can evaporate the operation of raising by vaporization to concrete pipe pile.

In the process of implementing the present application, the inventors found that the above-mentioned technology has at least the following problems:

pile up the concrete tubular pile in the intermediate position in the lining of steam curing pond and be difficult to be heated for concrete tubular pile in same steam curing pond lining is heated inhomogeneously, and then influences the production quality of concrete tubular pile easily.

SUMMERY OF THE UTILITY MODEL

In order to improve the production quality of tubular pile, this application provides a concrete tubular pile evaporates foster equipment.

The application provides a concrete pipe pile evaporates foster equipment adopts following technical scheme:

the utility model provides a concrete tubular pile evaporates foster equipment, includes evaporates foster pond lining, evaporate foster pond lining in and be located evaporate the both ends of foster pond lining and all be provided with a plurality of fixed subassemblies, fixed subassembly is used for fixed confession concrete tubular pile evaporates foster equipment and evaporates the both ends of foster tubular pile, leave the space between the tubular pile.

Through adopting above-mentioned technical scheme, leave the space between the tubular pile and make the in-process of evaporating the foster to the tubular pile, evaporate foster pond lining and be located the tubular pile of different positions and can the thermally equivalent, help avoiding being located the tubular pile of intermediate position because of with the air area of contact little and be heated inhomogeneous and lead to the tubular pile easy fracture, and then help improving the production quality of tubular pile.

Preferably, two disks are respectively arranged in the steam curing pool liner and at two ends of the steam curing pool liner, the disks are located between the fixing component and the steam curing pool liner, the inner surfaces of the two ends of the steam curing pool liner in the horizontal direction are rotatably connected to the circle center of the disks, and the fixing component is distributed at the edge of the disks.

Through adopting above-mentioned technical scheme, when needs take out the tubular pile from evaporating foster pond lining, open the top cap to the rotating disc, the tubular pile rotates to the top of disc, and then helps taking out the tubular pile from evaporating foster pond lining. When the tubular pile needs to be placed into the steam-curing pool liner, the disc is rotated until the fixing component which is not used for fixing the tubular pile on the disc is close to the open top of the steam-curing pool liner, so that the tubular pile is favorably placed into the steam-curing pool liner.

Preferably, the fixing assembly comprises a vertical plate and a horizontal plate; the vertical plate is arranged along the vertical direction, the vertical plate is connected with the disc in a rotating mode, the horizontal plate is arranged along the horizontal direction, one end of the horizontal plate is connected to the bottom end of the vertical plate, and the horizontal plate is used for supporting the pipe pile.

Through adopting above-mentioned technical scheme, the horizontal plate is fixed the tubular pile on the disc to when the disc takes place to rotate, vertical board also can take place to rotate, helps avoiding the tubular pile from the horizontal plate landing.

Preferably, a screw is arranged on the disk, the screw is arranged along the horizontal direction, one end of the screw is fixed on the disk, and the other end of the screw penetrates through the vertical plate and is rotatably connected with the vertical plate.

Through adopting above-mentioned technical scheme, through the screw, vertical board rotates with the disc to be connected, and when the first disc took place to rotate, vertical board can use the screw to take place to rotate as the center, helps making the horizontal plate remain at the horizontality throughout.

Preferably, the upper surface of horizontal plate is provided with the draw-in groove, the tip setting of tubular pile is in the draw-in groove.

Through adopting above-mentioned technical scheme, draw-in groove on the horizontal plate helps fixing the tubular pile on the horizontal plate, and then helps avoiding the both ends of tubular pile to take place to rotate on the horizontal plate and lead to coming off from the horizontal plate.

Preferably, a motor is arranged outside the steam-curing pool liner, and an output shaft of the motor penetrates through the lining wall of the steam-curing pool liner and is connected to the circle center of the disc.

Through adopting above-mentioned technical scheme, the motor provides drive power for the rotation of disc. When evaporating the tubular pile and fostering, starter motor for the circular motion is done to the tubular pile of connection between two discs this moment, helps avoiding leading to evaporating the tubular pile in the fostering pond lining to be heated inhomogeneously because of evaporating the temperature inequality of fostering pond lining top and bottom, and then helps improving the production quality of tubular pile.

Preferably, a steam-curing pool body is arranged on the outer side of the steam-curing pool liner, a plurality of steam-curing openings are formed in the top end of the steam-curing pool body in a penetrating mode along the vertical direction, a plurality of steam-curing pool liners are arranged on the steam-curing pool liner, the top end of each steam-curing pool liner is arranged in an open mode, one steam-curing pool liner corresponds to one steam-curing opening, and the edge of the open end of each steam-curing pool liner is connected with the edge of the corresponding steam-curing opening; a gap is arranged between the steam-curing pool liner and the steam-curing pool body to form a steam cavity; a steam pipe is arranged on the outer side of the steam-curing pool body, a plurality of branch pipes extend out of the steam pipe, and one end, far away from the steam pipe, of each branch pipe is connected to the steam-curing pool body and communicated with the steam cavity.

Through adopting above-mentioned technical scheme, heating the steaming chamber is, and steam enters into the steam intracavity through a plurality of branch pipes on the steam pipe, helps making the steam chamber be heated evenly, and then helps making the steam-curing pond lining be heated evenly and improves the product quality of tubular pile.

Preferably, the branch pipes are provided with air valves, a detachable abutting plate is arranged between every two adjacent steam-curing pool liners, the abutting plate is arranged along the vertical direction, the top end of the abutting plate penetrates through the top end of the steam-curing pool body, and the two ends of the abutting plate in the horizontal direction are in contact with the inner surface of the steam-curing pool body.

Through adopting above-mentioned technical scheme, when evaporating a small amount of tubular pile and fostering, put into a plurality of adjacent pond linings that evaporate with a plurality of tubular piles and nourish the inslot, will be close to with the pneumatic valve on the branch pipe of the pond lining that evaporates fostering that does not use and close to the board of supporting between the pond lining that evaporates fostering that will have the tubular pile and the pond lining that evaporates fostering that does not use puts down, help reducing the region that the steaming chamber needs the heating, and then help avoiding evaporating the wasting of resources that the chamber heats completely and lead to true when fostering a small amount of tubular piles.

Preferably, a limiting groove is formed in the inner surface of the bottom end of the steam-curing tank body, and the bottom end of the abutting plate is located in the limiting groove.

Through adopting above-mentioned technical scheme, when evaporating a small amount of tubular piles and fostering, the spacing groove can be fixed the bottom of supporting the board, avoids supporting that the bottom of supporting the board can not be fine and supports on evaporating fostering the cell body and lead to steam to enter into the region that the chamber does not need the heating.

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

1. gaps are reserved among the tubular piles, so that the tubular piles at different positions in the steam curing pool liner can be uniformly heated in the steam curing process of the tubular piles, the phenomenon that the tubular piles at the middle positions are unevenly heated due to small contact area with air is avoided, and the production quality of the tubular piles is improved;

2. when the tubular pile is steamed, the disks rotate, and the tubular pile connected between the two disks does circular motion, so that the tubular pile in the steam curing pool liner is prevented from being heated unevenly due to uneven temperatures of the top and the bottom in the steam curing pool liner, and the production quality of the tubular pile is improved;

3. when a small amount of tubular piles are steamed, the tubular piles are placed into a plurality of adjacent steaming pool liners, air valves close to branch pipes of the unused steaming pool liners are closed, and supporting plates between the steaming pool liners with the tubular piles and the unused steaming pool liners are put down, so that the area of a steaming cavity needing to be heated is reduced, and resource waste caused by complete heating of a real steaming cavity when a small amount of tubular piles are steamed is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a concrete pipe pile steam curing device according to an embodiment of the present application.

Fig. 2 is a sectional view of the steam-curing tank according to the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a fixing assembly according to an embodiment of the present application.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Description of reference numerals: 1. a steam-curing pond component; 11. a tubular pile; 12. steaming the pond body; 121. steaming and curing the mouth; 122. a limiting groove; 123. a top cover; 13. lining the steam-curing pool; 131. a disc; 14. steaming the cavity; 15. a resisting plate; 151. a limiting plate; 2. a heat supply assembly; 21. a steam pipe; 22. a branch pipe; 221. an air valve; 3. a fixing component; 31. a vertical plate; 311. a screw; 32. a horizontal plate; 321. a card slot; 4. an electric motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses concrete pipe pile evaporates foster equipment. Referring to fig. 1, the concrete pipe pile steam curing equipment comprises a steam curing pool component 1 and a heat supply component 2, wherein the steam curing pool component 1 is used for storing pipe piles 11 for steam curing of the concrete pipe pile steam curing equipment. The heat supply component 2 is connected outside the steam-curing pool component 1, so that the heat supply component 2 can provide steam heating for the tubular piles 11 in the steam-curing pool component 1. Combine fig. 2, be provided with fixed subassembly 3 in the pond subassembly of evaporating fostering 1, fixed subassembly 3 is used for fixing tubular pile 11 and leave the space between the tubular pile 11, helps making and evaporates fostering tubular pile 11 that the in-process that fosters in the pond subassembly 1 of evaporating fostering in tubular pile 11 can the thermally equivalent, helps avoiding being located tubular pile 11 of intermediate position because of being heated inhomogeneously with the air area of contact is little, and then helps improving tubular pile 11's production quality.

Referring to fig. 2, the steam-curing pool assembly 1 includes a steam-curing pool body 12 and a plurality of steam-curing pool liners 13, wherein the steam-curing pool body 12 is hollow, a plurality of steam-curing ports 121 are formed through the top end of the steam-curing pool body 12, and the plurality of steam-curing ports 121 are distributed along the horizontal direction. The steam-curing tank lining 13 is arranged in the steam-curing tank body 12, the top end of each steam-curing tank lining 13 is open, each steam-curing tank lining 13 corresponds to one steam-curing opening 121, and the edge of the open end of each steam-curing tank lining 13 is connected with the edge of the steam-curing opening 121. Gaps are reserved between two adjacent steaming tank liners 13, gaps are reserved between the steaming tank liners 13 and the inner surfaces of the steaming tank bodies 12, and a steaming cavity 14 is formed by the gaps between the two adjacent steaming tank liners 13 and the gaps between the steaming tank liners 13 and the steaming tank bodies 12. The top end of the steaming pond lining 13 is provided with a top cover 123, and the edge of the top cover 123 is positioned in the steaming mouth 121 and is contacted with the open edge of the steaming pond lining 13.

Referring to fig. 3, a circular disc 131 is disposed at each of two ends of the steam-curing pool liner 13 in the steam-curing pool liner 13, the fixing assembly 3 includes a plurality of vertical plates 31 disposed at one end of each circular disc 131 far away from the steam-curing pool liner 13, the vertical plates 31 are distributed along the vertical direction, and in combination with fig. 4, a screw 311 is disposed on each vertical plate 31, and each screw 311 is divided into a polish rod portion and a screw rod portion, wherein the polish rod portion penetrates through each vertical plate 31 along the horizontal direction, and the screw rod portion is in threaded connection with the circular disc 131, so that the vertical plate 31 is rotatably connected with the circular disc 131. The bottom of every vertical board 31 all is provided with a horizontal plate 32, horizontal plate 32 sets up along the horizontal direction, horizontal plate 32 and vertical board 31 are integrative to be made, and the top of horizontal plate 32 is provided with draw-in groove 321, the both ends of tubular pile 11 are located respectively on two discs 131 and lie in same horizontal line's draw-in groove 321 of horizontal plate 32, the internal surface of draw-in groove 321 is the arcuation and the tip of tubular pile 11 and the laminating of draw-in groove 321 internal surface, make tubular pile 11 stabilized on horizontal plate 32, and then realize that tubular pile 11 is fixed in steaming and curing pond lining 13.

Referring to fig. 1, a plurality of motors 4 are disposed outside the steam raising tank body 12, and the number of the motors 4 is the same as that of the steam raising tank liners 13, and referring to fig. 3, an output shaft of each motor 4 horizontally penetrates through the steam raising tank body 12, the steam chamber 14 and one steam raising tank liner 13 and is connected to a disc 131, so that the disc 131 can rotate around the output shaft of the motor 4. When the tubular pile 11 is steamed, the motor 4 is started to rotate the disc 131, and at this time, each vertical plate 31 rotates by taking the corresponding screw 311 as a center, so that the horizontal plate 32 is kept in a horizontal state, and the tubular pile 11 is prevented from sliding off the horizontal plate 32 due to the fact that the horizontal plate 32 rotates reversely; at this time, the tubular pile 11 in the steam-curing pool liner 13 performs circular motion by taking the center of the circular disc 131 as the center, so as to help avoid the influence on the quality of the tubular pile 11 caused by uneven heating of the tubular pile 11 in the steam-curing pool liner 13 due to uneven temperature at the top and the bottom of the steam-curing pool liner 13.

Referring to fig. 1, the heat supply assembly 2 includes a steam pipe 21 disposed at an end of the steam-curing tank 12 away from the motor 4, a plurality of branch pipes 22 extend from the steam pipe 21, an end of the branch pipe 22 away from the steam pipe 21 is connected to an outer wall of the steam-curing tank 12, and the branch pipe 22 is disposed in communication with the steam chamber 14. The number of the branch pipes 22 is the same as that of the steam-curing pool liners 13, and each branch pipe 22 corresponds to one steam-curing pool liner 13.

Referring to fig. 2, a resisting plate 15 is arranged between two adjacent steam-curing tank liners 13 and in the steam-curing tank body 12, the resisting plate 15 is arranged in the vertical direction, two ends of the resisting plate 15 in the horizontal direction are in contact with the inner surface of the steam-curing tank body 12, the top end of the resisting plate 15 penetrates through the top end of the steam-curing tank body 12, a limiting groove 122 is arranged on the inner surface of the bottom end of the steam-curing tank body 12, the bottom end of the resisting plate 15 is arranged in the limiting groove 122 and is attached to the inner surface of the limiting groove 122, so that the resisting plate 15 divides a steam cavity 14 between the two adjacent steam-curing tank liners 13. The top end of the abutting plate 15 is provided with a limiting plate 151, and the lower surface of the limiting plate 151 abuts against the upper surface of the top end of the steam-curing tank body 12. Referring to fig. 1, each branch pipe 22 is provided with an air valve 221. When a small amount of the tubular piles 11 are steamed, the air valves 221 on the branch pipes 22 close to the steaming pool liner 13 with the tubular piles 11 stored therein are opened, which is helpful for reducing the area of the steaming cavity 14 to be heated, and is further helpful for avoiding resource waste caused by completely heating the whole steaming cavity 14 when the small amount of the tubular piles 11 are steamed.

The implementation principle of the concrete pipe pile steam curing equipment in the embodiment of the application is as follows: when the tubular pile 11 is steamed, the motor 4 is started to rotate the disc 131, and at this time, each vertical plate 31 rotates around the corresponding screw 311, which is helpful for keeping the horizontal plate 32 in a horizontal state, and further helps to prevent the tubular pile 11 from sliding off the horizontal plate 32 due to the reverse rotation of the horizontal plate 32; at this time, the tubular pile 11 in the steam-curing pool performs circular motion by taking the circle center of the disc 131 as the center, thereby being helpful for avoiding uneven heating of the tubular pile 11 in the steam-curing pool lining 13 due to uneven temperature at the top and the bottom of the steam-curing pool lining 13. When the tubular pile 11 needs to be placed into the steam-curing pool liner 13, the disc 131 is rotated until the horizontal plate 32 without the tubular pile 11 is placed to the position close to the opening of the steam-curing pool liner 13, namely the highest position of the disc 131, and then the two ends of the tubular pile 11 are placed in the clamping grooves 321 of the two horizontal plates 32 on the two discs 131 which are positioned on the same horizontal line; when the tubular pile 11 needs to be taken out from the steaming pool liner 13, the disc 131 is rotated until the tubular pile 11 moves to the opening close to the steaming pool liner 13, namely the highest position of the disc 131, and then the tubular pile 11 is taken out from the clamping groove 321. When a small amount of the tubular piles 11 are steamed, the air valves 221 on the branch pipes 22 close to the steaming pool liner 13 with the tubular piles 11 stored therein are opened, which is helpful for reducing the area of the steaming cavity 14 to be heated, and is further helpful for avoiding resource waste caused by completely heating the whole steaming cavity 14 when the small amount of the tubular piles 11 are steamed.

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

Claims (9)

1. The utility model provides a concrete tubular pile evaporates foster equipment, includes evaporates foster pond lining (13), its characterized in that: evaporate and nourish in the pond lining (13) and be located evaporate the both ends of fostering pond lining (13) and all be provided with a plurality of fixed subassemblies (3), fixed subassembly (3) are used for the fixed both ends that supply concrete tubular pile evaporate foster equipment and evaporate tubular pile (11) of fostering, leave the space between tubular pile (11).

2. The concrete pipe pile steam-curing equipment as claimed in claim 1, wherein: the steam-curing pond lining is characterized in that two ends of the steam-curing pond lining (13) are respectively provided with a disc (131) in the steam-curing pond lining (13), the discs are positioned between the fixing component (3) and the steam-curing pond lining (13), the inner surfaces of the two ends of the steam-curing pond lining (13) in the horizontal direction are rotatably connected to the circle center of each disc (131), and the fixing components (3) are distributed on the edge of each disc (131).

3. The concrete pipe pile steam-curing equipment as claimed in claim 2, wherein: the fixing assembly (3) comprises a vertical plate (31) and a horizontal plate (32); vertical board (31) set up along vertical direction, and vertical board (31) with disc (131) rotate to be connected, horizontal plate (32) set up along the horizontal direction, the bottom at vertical board (31) is connected to the one end of horizontal plate (32), horizontal plate (32) are used for providing the supporting role to tubular pile (11).

4. The concrete pipe pile steam-curing equipment as claimed in claim 3, wherein: the disc (131) is provided with a screw (311), the screw (311) is arranged along the horizontal direction, one end of the screw (311) is fixed on the disc (131), and the other end of the screw (311) penetrates through the vertical plate (31) and is in rotating connection with the vertical plate (31).

5. The concrete pipe pile steam-curing equipment as claimed in claim 4, wherein: the upper surface of horizontal plate (32) is provided with draw-in groove (321), the tip setting of tubular pile (11) is in draw-in groove (321).

6. The concrete pipe pile steam-curing equipment as claimed in claim 5, wherein: the outer side of the steam-curing pool liner (13) is provided with a motor (4), and an output shaft of the motor (4) penetrates through the liner wall of the steam-curing pool liner (13) and is connected to the circle center of the disc (131).

7. The concrete pipe pile steam-curing equipment according to any one of claims 1 to 6, wherein: a steam-curing tank body (12) is arranged on the outer side of the steam-curing tank liner (13), a plurality of steam-curing openings (121) are formed in the top end of the steam-curing tank body (12) in a penetrating mode along the vertical direction, a plurality of steam-curing tank liners (13) are arranged, the top end of each steam-curing tank liner (13) is arranged in an open mode, one steam-curing tank liner (13) corresponds to one steam-curing opening (121), and the edge of the open opening of each steam-curing tank liner (13) is connected with the edge of the corresponding steam-curing opening (121); a gap is arranged between the steam-curing pool liner (13) and the steam-curing pool body (12) to form a steam cavity (14); a steam pipe (21) is arranged on the outer side of the steam-curing pool body (12), a plurality of branch pipes (22) extend out of the steam pipe (21), and one end, far away from the steam pipe (21), of each branch pipe (22) is connected to the steam-curing pool body (12) and communicated with the steam cavity (14).

8. The concrete pipe pile steam-curing equipment as claimed in claim 7, wherein: the branch pipes (22) are provided with air valves (221), a detachable abutting plate (15) is arranged between every two adjacent steam curing tank liners (13), the abutting plate (15) is arranged along the vertical direction, the top end of the abutting plate (15) penetrates through the top end of the steam curing tank body (12), and two ends of the abutting plate (15) in the horizontal direction are in contact with the inner surface of the steam curing tank body (12).

9. The concrete pipe pile steam-curing equipment as claimed in claim 8, wherein: the inner surface of the bottom end of the steam-curing tank body (12) is provided with a limiting groove (122), and the bottom end of the abutting plate (15) is positioned in the limiting groove (122).

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