CN211640389U - Tubular pile steam curing system - Google Patents

Abstract

The utility model discloses a tubular pile evaporates foster system includes that a plurality of tubular piles that are used for evaporating foster evaporate foster equipment and be used for placing the pond of evaporating foster equipment of taking mould tubular pile and tubular pile to evaporate foster, tubular pile evaporates foster equipment and includes a plurality of structures of evaporating foster, evaporate foster structure and set up in the surplus thick liquid hole front end of tubular pile corresponding one by one, evaporate foster structure and include the bottom plate, be fixed in the bottom plate and along the linear slide rail that the surplus thick liquid hole direction of tubular pile set up, install in linear slide rail's mounting bracket, be used for driving the gliding cylinder of mounting bracket and adorn in the mounting bracket admittedly and with the steam pipe of steam generator intercommunication, when evaporating. This evaporate foster system has set up and has led to steam alone to every tubular pile inner wall for steam heat directly transmits whole tubular pile product from tubular pile product inner chamber, need not to fill earlier and evaporate foster pond space and transmit the heat to the tubular pile product by the tubular pile mould again. The heat loss is reduced, the heat conduction efficiency is increased, the cost is saved, and the steam curing effect of the tubular pile is better.

Description

Tubular pile steam curing system

Technical Field

The utility model belongs to tubular pile preparation field, concretely relates to tubular pile evaporates foster system.

Background

In the preparation process of the tubular pile, a plurality of working procedures such as concrete assembling and mould entering, material distribution, mould closing, tensioning, centrifugal forming, steam curing, mould removing, inspection, pressure steam curing, warehousing and the like are required, wherein the high-temperature steam curing has important influence on the hydration hardening degree, strength development, durability and the like of the tubular pile, and the steam curing is an essential working procedure in the production industry of the tubular pile. However, the traditional tubular pile steam curing equipment has the following defects:

traditional high temperature steam maintenance mode lets in steam for directly toward evaporating to foster the pond, and the steam heat spreads earlier to evaporating to foster the whole space in pond, transmits to inside tubular pile product by the tubular pile mould again, makes the heat waste evaporate foster the space in pond and the tubular pile mould on, produces steam leakage easily, influences the utilization of the energy, causes cost loss.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art not enough, an object of the utility model is to provide a tubular pile evaporates foster system and includes that a plurality of tubular piles that are used for evaporating foster to the tubular pile evaporate foster equipment and be used for placing the pond of evaporating foster of taking mould tubular pile and tubular pile to evaporate foster equipment, tubular pile evaporates foster equipment and includes a plurality of structures of evaporating foster, evaporate foster structure and set up in the surplus thick liquid hole front end of tubular pile corresponding one by one, evaporate foster structure and include the bottom plate, be fixed in the bottom plate and along the straight line slide rail that the surplus thick liquid hole direction of tubular pile set up, slidable installs in the mounting bracket of straight line slide rail admittedly, adorn in the bottom plate and be used for driving the mounting bracket along the gliding cylinder of straight line slide rail and adorn in the. This evaporate foster system has set up alone to the steam that leads to of every tubular pile inner wall for responding national energy saving and emission reduction's call, in order to reduce the manufacturing cost of enterprise for steam heat directly transmits whole tubular pile product from tubular pile product inner chamber, need not to fill earlier and evaporate foster pond space and transmit to the tubular pile product by the tubular pile mould again. The heat loss is reduced, the cost is saved, and the steam curing effect of the tubular pile is better.

The purpose of the utility model is realized by adopting the following technical scheme:

the tubular pile steam curing system comprises

The tubular pile steam curing equipment comprises a plurality of steam curing structures which correspond to tubular piles one by one, a plurality of transverse moving structures which are used for driving the steam curing structures to move in a horizontal direction perpendicular to residual pulp holes of the tubular piles, two vertical lifting structures which are used for driving the steam curing structures to move in a vertical direction perpendicular to openings of the tubular piles and a fixed frame which is used for installing the steam curing structures;

the fixed frame comprises a cuboid frame and a plurality of rectangular frames arranged in the cuboid frame at intervals in parallel, lifting linear slide rails and a plurality of supporting pieces for supporting the rectangular frame are vertically arranged on two sides of the cuboid frame, every two supporting pieces are arranged perpendicular to the lifting linear slide rails in a relative mode, the rectangular frame can slide along the lifting linear slide rails, the rectangular frame comprises two first rod bodies arranged along the opening direction of the tubular pile and two second rod bodies arranged perpendicular to the opening direction of the tubular pile, the adjacent first rod bodies and the adjacent second rod bodies are perpendicular to each other, and a plurality of steam-curing structures are arranged on the two second rod bodies at intervals;

the steam-curing structure is arranged at the front end of the residual pile pulp hole of the tubular pile one by one correspondingly, the steam-curing structure comprises a bottom plate, a linear slide rail fixed on the bottom plate and arranged along the residual pile pulp hole direction, an installation frame slidably installed on the linear slide rail, a cylinder fixedly installed on the bottom plate and used for driving the installation frame to slide along the linear slide rail, and a steam pipe fixedly installed on the installation frame and communicated with a steam generating device, wherein during steam curing, the cylinder pushes the installation frame and the steam pipe until the steam pipe enters the residual pile pulp hole;

the transverse moving structure comprises a transverse sliding groove which is arranged on the second rod body along the second rod body, a sliding block which is fixed on the bottom plate and can slide on the transverse sliding groove, a transverse air cylinder which is fixedly arranged on the second rod body and used for pushing the sliding block to move along the transverse sliding groove, and a metal strip which is used for connecting two adjacent steam-curing devices on the bottom plate, one end of the metal strip is provided with a strip-shaped groove, the other end of the metal strip is fixed on the bottom plate adjacent to the steam-curing structure, the bottom plate is fixedly provided with a screw which passes through the strip-shaped groove to connect the metal strip to the bottom plate in a floating way, the screws can slide in the strip-shaped grooves, and when the screws move transversely, the transverse air cylinder pushes the plurality of steam-curing structures on the same second rod body one by one through the metal strips to move so as to change the intervals among all the steam-curing structures on the same second rod body;

two vertical lift structure symmetry set up in cuboid frame both sides, vertical lift structure including set up in the cushion cap of cuboid frame top, set up in the directive wheel, the vertical setting of cushion cap just are used for connecting a plurality of rectangular frame's connecting piece, a plurality of interval set up in the connecting piece just is used for supporting rectangular frame's angle sign indicating number, connection are fixed in the balancing weight of connecting piece one end and be used for the drive the directive wheel pivoted rotates the motor, the connecting piece is walked around the directive wheel, adjacent two between the rectangular frame connecting piece length homogeneous phase just is greater than adjacent two distance between the support piece, it is a plurality of the angle sign indicating number sets up adjacent two respectively between the rectangular frame the connecting piece, during the vertical lift, the rotation motor rotates and drives the directive wheel rotates and the connecting piece promotes makes the angle sign indicating number promotes a plurality of rectangular frame promotes one by one and realizes adjacent two between the rectangular frame Interval change;

and the steam curing pool is used for placing the pipe piles with the die and the pipe pile steam curing equipment.

Further, the steam curing structure is provided with a sealing element for preventing steam from diffusing, the sealing element is fixed on the mounting frame, a through hole is formed in the center of the sealing element, and the steam pipe penetrates through the through hole.

Furthermore, the sealing member is installed in the mounting bracket through three push rods, the push rods are installed in the mounting bracket through the A-shaped part, the push rods are triangular and are respectively slidably fixed on the A-shaped part, and the push rods are sleeved with springs for providing pressing force.

Furthermore, the inner diameter of the steam pipe is less than or equal to 20mm, and the size of the through hole of the sealing element is designed to correspond to the size of the outer diameter of the steam pipe.

Further, the cushion cap is equipped with first directive wheel, driving shaft and second directive wheel, the driving shaft corresponds two first directive wheel is equipped with the action wheel, the second directive wheel corresponds first directive wheel setting respectively, the connecting piece tightly walks around corresponding position first directive wheel, action wheel and second directive wheel in proper order, rotate the motor with the driving shaft intercommunication, drive when rotating the motor and drive the action wheel rotates the drive the connecting piece promotes.

Further, mounting bracket both sides are equipped with first pulley, the mounting bracket pass through first pulley with the cooperation of linear slide rail is along the linear slide rail removes, first body of rod both sides are equipped with the second pulley, rectangular frame passes through the second pulley with the cooperation of lift linear slide rail is along the removal of lift linear slide rail.

Furthermore, the steam curing structures on the two adjacent rectangular frames are arranged in a staggered mode.

Further, the connecting piece is a chain or a rope.

Further, evaporate the foster pond and include a plurality of chambeies of evaporating foster, evaporate foster chamber including being used for placing the first cavity of taking the mould tubular pile and being used for placing the tubular pile evaporates the second cavity of foster equipment, first cavity and second cavity intercommunication, the cushion cap is located the top of second cavity.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a tubular pile evaporates foster system includes that a plurality of tubular piles that are used for evaporating foster to the tubular pile evaporate foster equipment and be used for placing the pond of evaporating foster equipment of taking mould tubular pile and tubular pile to evaporate foster, tubular pile evaporates foster equipment and includes a plurality of structures of evaporating foster, evaporate foster structure and set up in the surplus thick liquid hole front end of tubular pile with corresponding one by one, evaporate foster structure and include the bottom plate, be fixed in the bottom plate and along the linear slide rail that the surplus thick liquid hole direction of tubular pile set up, slidable installs in the mounting bracket of linear slide rail, adorn in the bottom plate admittedly and be used for driving the mounting bracket along the gliding cylinder of linear slide rail and adorn in the mounting bracket admittedly and with the steam. This evaporate foster system has set up alone to the steam that leads to of every tubular pile inner wall for responding national energy saving and emission reduction's call, in order to reduce the manufacturing cost of enterprise for steam heat directly transmits whole tubular pile product from tubular pile product inner chamber, need not to fill earlier and evaporate foster pond space and transmit to the tubular pile product by the tubular pile mould again. The heat loss is reduced, the cost is saved, and the steam curing effect of the tubular pile is better.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the tubular pile steam curing system of the present invention;

fig. 2 is a partial schematic structural view of the preferred embodiment of the tubular pile steam curing system of the present invention;

fig. 3 is a schematic structural view of the preferred embodiment of the tubular pile steam curing equipment of the present invention;

fig. 4 is a schematic structural view of a preferred embodiment of the tubular pile steam-curing structure of the present invention;

fig. 5 is a partial schematic structural view of the preferred embodiment of the tubular pile steam curing equipment of the present invention;

fig. 6 is an enlarged view of a portion of fig. 5 according to the present invention;

fig. 7 is an enlarged view of a portion of B of fig. 5 according to the present invention;

FIG. 8 is a schematic structural view of a preferred embodiment of the lateral shifting structure of the present invention;

FIG. 9 is a bottom view of a preferred embodiment of the lateral shifting structure of the present invention;

FIG. 10 is a schematic structural view of the vertical lifting device according to the present invention in a tensioned state;

FIG. 11 is a schematic structural view of the vertical lifting device of the present invention in a collapsed state;

fig. 12 is a plan view of a preferred embodiment of the vertical lift device of the present invention.

In the figure: 1. a tubular pile steam curing system; 2. tubular pile steam curing equipment; 3. a steam curing pool; 31. a steam curing cavity; 311. a first chamber; 312. a second chamber; 4. steaming the structure; 41. a base plate; 42. a linear slide rail; 43. a mounting frame; 44. a cylinder; 45. a steam pipe; 46. a seal member; 461. a through hole; 47. a push rod; 48. a spring; 49. an A-shaped part; 5. a lateral movement structure; 51. a transverse chute; 52. a transverse cylinder; 53. a metal strip; 531. A strip-shaped groove; 6. a vertical lifting structure; 61. a bearing platform; 62. a first steering wheel; 63. a second steering wheel; 64. a drive shaft; 641. a driving wheel; 65. a connecting member; 66. corner connectors; 67. a balancing weight; 68. rotating the motor; 7. a fixed frame; 71. a rectangular parallelepiped frame; 72. a rectangular frame; 721. a first rod body; 722. a second rod body; 73. lifting the linear slide rail; 74. a support member; 8. and (4) tube piles.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model discloses as shown in fig. 1-12, tubular pile evaporates foster system 1 and includes that a plurality of tubular pile that are used for evaporating foster to tubular pile 8 evaporate foster equipment 2 and is used for placing area mould tubular pile 8 and tubular pile evaporate foster equipment 2 evaporate foster pond 3, tubular pile evaporates foster equipment 2 includes a plurality of structures 4 of evaporating foster, evaporate foster structure 4 and set up in the surplus thick liquid hole front end of tubular pile 8 correspondingly one by one, evaporate foster structure 4 and include bottom plate 41, be fixed in bottom plate 41 and along the straight line slide rail 42 that the surplus thick liquid hole direction of tubular pile 8 set up, slidable installs in the mounting bracket 43 of straight line slide rail 42, adorn admittedly in bottom plate 41 and be used for driving mounting bracket 43 along the gliding cylinder 44 of straight line slide rail 42 and adorn in mounting bracket 43 and with the steam pipe 45 of steam generation device intercommunication admittedly, during the steam foster, cylinder. This evaporate foster system for responding national energy saving and emission reduction's call, in order to reduce the manufacturing cost of enterprise, set up and lead to steam alone to every 8 inner walls of tubular pile for steam heat directly transmits to whole tubular pile 8 products from 8 product inner chambers of tubular pile, need not to fill full 3 spaces of evaporating foster pond and then transmit to 8 products of tubular pile by 8 moulds of tubular pile earlier. The heat loss is reduced, the cost is saved, and the steam curing effect of the tubular pile 8 is better.

The tubular pile steam curing equipment 2 comprises a plurality of steam curing structures 4 corresponding to tubular piles 8 one by one, a plurality of transverse moving structures 5 for driving the steam curing structures 4 to move in a horizontal direction perpendicular to residual pulp holes of the tubular piles 8, two vertical lifting structures 6 for driving the steam curing structures 4 to move in a vertical direction perpendicular to the residual pulp holes of the tubular piles 8, and a fixing frame 7 for mounting the steam curing structures 4; because this scheme will evaporate foster structure 4 in order to the energy saving alone to every tubular pile 8 evaporates foster, when tubular pile 8's specification is different, need adjust evaporating foster structure 4, set up through foretell structure cooperation and make evaporate foster structure 4 under the circumstances of firm installation, evaporate foster in the same pond 3 that evaporates of different time quantum can evaporate the tubular pile 8 of different specifications, make this evaporate foster equipment not only can evaporate foster to the tubular pile 8 of a pipe diameter, the suitability is stronger.

The fixing frame 7 in this embodiment includes a rectangular frame 71 and a plurality of rectangular frames 72 arranged in the rectangular frame 71 at parallel intervals, a lifting linear slide rail 73 and a plurality of supporting members 74 for supporting the rectangular frames 72 are vertically arranged on both sides of the rectangular frame 71, two pairs of supporting members 74 are arranged in a manner of being perpendicular to the lifting linear slide rail, the supporting members 74 on both sides are parallel to each other, and the rectangular frames 72 are four supporting members 74 at the same height. The rectangular frame 72 can slide along the lifting linear slide rail 73, the rectangular frame 72 includes two first rod bodies 721 arranged along the direction of the residual slurry holes of the tubular pile 8 and two second rod bodies 722 arranged perpendicular to the direction of the residual slurry holes of the tubular pile 8, the adjacent first rod bodies 721 and the second rod bodies 722 are perpendicular to each other, the second pulleys are arranged on two sides of the first rod bodies 721 on the rectangular frame 72, and the rectangular frame 72 moves along the lifting linear slide rail 73 by the cooperation of the second pulleys and the lifting linear slide rail. The plurality of steam-curing structures 4 can be fixed on the rectangular frames 72 with different heights by arranging the fixed frames 7, so that the tubular piles 8 with different heights in one-to-one correspondence are steamed and cured, and the whole structure is firmer and more stable. The bottom of fixed frame 7 still is equipped with a plurality of universal wheels, and a plurality of universal wheels set up respectively at the back of the rectangular frame 72 of bottommost, and direct contact ground makes things convenient for the removal to evaporate foster equipment.

Preferably, the plurality of steam-curing structures 4 are arranged on the two second rods 722 at intervals, and the plurality of steam-curing structures 4 on the two adjacent rectangular frames 72 are arranged in a staggered manner. Because the contact surface is that the circular running wheel on the 8 moulds of tubular pile contacts each other when the 8 moulds of tubular pile stack, when piling up and placing, the tubular pile 8 on two adjacent high layers is crisscross the setting, will install correspondingly and evaporate the crisscross setting of curing structure 4 on two adjacent rectangular frame 72, can be faster aim at tubular pile 8 and carry.

The steam-curing structure 4 in this embodiment is correspondingly arranged at the front end of the residual slurry hole of the tubular pile 8 one by one, the steam-curing structure 4 includes a bottom plate 41, a linear slide rail 42 fixed on the bottom plate 41 and arranged along the residual slurry hole direction of the tubular pile 8, a mounting bracket 43 slidably mounted on the linear slide rail 42, a cylinder 44 fixedly mounted on the bottom plate 41 and used for driving the mounting bracket 43 to slide along the linear slide rail 42, a steam pipe 45 fixedly mounted on the mounting bracket 43 and communicated with a steam generating device, and a sealing member 46 for preventing steam from diffusing, the sealing member 46 is fixed on the mounting bracket 43, a through hole 461 is formed in the center of the sealing member 46, the steam pipe 45 is arranged by penetrating through the through hole 461, wherein first pulleys are arranged on two sides of the mounting bracket 43, the mounting bracket 43 is matched with the linear slide rail 42 through the first pulleys to move along the linear slide rail 42, during steam-curing, make steam directly switch on to the inner wall of tubular pile 8 in, the inlet port of tubular pile 8 can be plugged up to sealing member 46 simultaneously, prevents that leading-in steam from giving out again and coming to steaming and curing the pond 3 in, leads to heat utilization to rate to reduce.

Preferably, sealing member 46 is installed in mounting bracket 43 through three push rods 47, can adopt concatenation or whole preparation, push rod 47 is installed in mounting bracket 43 through A word type spare 49, push rod 47 is triangle-shaped slidable respectively and is fixed in A word type spare 49, can stably promote sealing member 46 to tubular pile 8 through above-mentioned design, and sealing member 46 adopts the hemisphere type design, the opening face is towards tubular pile 8, the diameter of sealing member 46 is greater than the internal diameter of tubular pile 8, guarantee that sealing member 46 can just wrap up tape mould tubular pile 8 after cylinder 44 pushes out, ensure the leakproofness.

In the steam curing process, the different specifications of the tubular piles 8 (the different distances from the running wheels of the tubular piles 8 to the residual slurry holes) and the irregular arrangement of the tubular piles 8 often occur, so that the distances between the inner cavity end surfaces of the tubular piles 8 and the steam curing structure 4 in the same steam curing cavity 31 are different, and the arrangement distances are random. In this scheme, in addition to pushing the sealing member 46 and the steam pipe 45 into the corresponding tubular pile 8 through the cylinder 44 on each steam-curing structure 4, the push rod 47 of the scheme is sleeved with the spring 48 for providing pressing force, the sealing member 46 is made of elastic material, through the above arrangement, the pushing stroke of the cylinder 44 can reach the end face of the tubular pile 8 placed farthest in the steam-curing pool 3, when steam curing is started, if the placing distance of the tubular pile 8 is just the farthest distance, the cylinder 44 pushes the sealing member 46 and the steam pipe 45 all the time to finish the stroke, and the sealing member 46 just abuts against the end face of the tubular pile 8. If the tubular pile 8 is placed within the farthest stroke of the cylinder 44, the cylinder 44 pushes the mounting frame 43 together with the sealing element 46 and the steam pipe 45 on the push rod 47 to move forward, the sealing element 46 will contact the tubular pile 8 first, at this time, the sealing element 46 will deform to a certain extent, at the same time, the push rod 47 will slide backward on the a-shaped element 49 under the pressure and compress the spring 48, the sealing element 46 is pressed against the tubular pile 8 by the reaction force of the spring 48, and the steam pipe 45 enters the inner cavity of the tubular pile 8, so that the end face of the tubular pile 8 can be effectively sealed at different distances.

Preferably, the inner diameter of the steam pipe 45 in the present embodiment is 20mm or less, and the size of the through hole 461 of the sealing member 46 is designed to correspond to the size of the outer diameter of the steam pipe 45. The steam pipe 45's size is little, can realize reaching farther jet distance when providing little injection pressure, satisfy the steam of the longer tubular pile 8 of length and nourish, can guarantee simultaneously that the output quantity of steam can not be too big in the same time, the rate gap that makes tubular pile 8 concrete inner wall intensification and outside intensification can not be too big, guarantee that the difference in temperature of inner wall and outer wall keeps at the limit value, avoid influencing tubular pile 8's steam-fostering effect, supplementary upper temperature monitoring simultaneously, compare in traditional steam-fostering mode, can show the supply of reduction steam, energy saving and consumption reduction, produce apparent economic benefits.

The transverse moving structure 5 in this embodiment includes a transverse sliding groove 51 which is installed on the second rod body 722 along the second rod body 722, a sliding block which is fixed on the bottom plate 41 and can slide on the transverse sliding groove 51, a transverse air cylinder 52 which is fixedly installed on the second rod body 722 and is used for pushing the sliding block to move along the transverse sliding groove 51, and a metal bar 53 which is used for connecting two adjacent steam-curing devices on the bottom plate 41, wherein a strip groove 531 is formed at one end of the metal bar 53, the other end of the metal bar 53 is fixed on the bottom plate 41 which is adjacent to the steam-curing structure 4, a screw is fixedly installed on the bottom plate 41, the screw passes through the strip groove 531 to connect the metal bar 53 to the bottom plate 41 in a floating manner, and the screw can slide in the strip groove 531. In the scheme, only one transverse cylinder 52 is correspondingly arranged on each rectangular frame 72, a push rod 47 of each transverse cylinder 52 is fixedly connected with the steam-curing structure 4 at the edge, when the transverse cylinders move transversely, the push rods 47 of the transverse cylinders 52 firstly push the connected steam-curing structures 4 and move metal sheets, when screws slide from one end to the other end of the strip-shaped groove 531 of each metal sheet, the metal sheets are clamped again to sequentially drag the next steam-curing structure 4 to move transversely one by one so as to change the interval between two adjacent steam-curing structures 4, and the changed interval length of the two adjacent steam-curing structures 4 is equal to the length of the strip-shaped groove 531 on each metal sheet. Wherein horizontal spout 51 and slider set up in pairs, and set up respectively on two second body of rod 722, evaporate and foster bottom plate 41 of structure 4 and install on two sliders, and the push rod 47 of horizontal cylinder 52 sets up in bottom plate 41 and connects, and through this setting messenger evaporate foster structure 4 when carrying out lateral shifting, remove more steadily.

Preferably, because the inside of the steam-curing pool 3 is in a high-temperature and high-humidity environment during steam-curing, in order to ensure that the forward pushing and the lateral movement of the steam-curing structure 4 can be smoothly performed, the air cylinders 44 in the present embodiment all adopt the high-temperature-resistant and water-vapor-resistant air cylinders 44, the air cylinders 44 need to be customized, the cost is high, and in the lateral movement structure 5, only one lateral air cylinder 52 is arranged on the same rectangular frame 72, so that the cost can be saved.

The two vertical lifting structures 6 in this embodiment are symmetrically disposed on two sides of the rectangular frame 71, each vertical lifting structure 6 includes a supporting platform 61 disposed above the rectangular frame 71, a steering wheel disposed on the supporting platform 61, a connecting member 65 vertically disposed and used for connecting a plurality of rectangular frames 72, a plurality of corner connectors 66 disposed at intervals on the connecting member 65 and used for supporting the rectangular frames 72, a counterweight 67 connected and fixed to one end of the connecting member 65, and a rotating motor 68 used for driving the steering wheel to rotate, the connecting member 65 bypasses the steering wheel, the lengths of the connecting members 65 connected between two rectangular frames 72 are the same and greater than the distance between two adjacent supporting members 74, the plurality of corner connectors 66 are disposed on the connecting member 65 between two adjacent rectangular frames 72, wherein the connecting member 65 passes through the first rod 721 of each rectangular frame 72, and a corner connector 66 is disposed after passing through the first rod 721 at the bottom end, the rectangular frames 72 are all connected in a penetrating mode, the connecting piece 65 can be a chain or a rope, the chain is preferably adopted in the scheme, the service life of the rectangular frames can be long in the high-temperature and high-humidity environment, the corner connectors 66 are two T-shaped pieces, and the corner connectors 66 are fixed on the connecting piece 65 through two positioning pins.

Through the structural design, each rectangular frame 72 is placed on four supporting pieces 74 at the same height in the initial state, the length of the connecting piece 65 between every two adjacent rectangular frames 72 is long than the distance between the adjacent supporting pieces 74, and the connecting piece 65 is in a loose state; when carrying out vertical lift, open rotation motor 68, make rotation motor 68 rotate and drive the directive wheel and rotate, the balancing weight 67 of the connecting piece 65 other end descends this moment, connecting piece 65 rotates along with the directive wheel and stimulates toward balancing weight 67 one side, other side connecting piece 65 is at the in-process that promotes, the corner connector 66 on the connecting piece 65 of top supports the bottom of the rectangular frame 72 of top and continues to promote upwards, after straightening connecting piece 65, next corner connector 66 just supports second rectangular frame 72 this moment, second rectangular frame 72 just begins to receive the pulling force of connecting piece 65, promote upwards one by one, descend to the bottom end until balancing weight 67 one side, the rectangular frame 72 of top rises to the top, when connecting piece 65 all was straightened, accomplish vertical lift, interval between every two adjacent rectangular frame 72 at this moment grow. When the descending is needed to adjust the interval, the steering motor is reversed, the rotating wheel rotates to lift one side of the counterweight block 67, the rectangular frame 72 on the other side is placed on the corresponding support piece 74, the connecting piece 65 continuously descends to restore the initial loose state, and the interval between every two adjacent rectangular frames 72 is reduced.

Because the connecting members 65 in the present solution are connected in an open loop, the connecting members 65 are not connected end to form a closed loop, when the steering wheel rotates to drive the connecting members 65, the contact area between the connecting members 65 and the steering wheel is too small (too few gear teeth of the chain contacting the steering wheel), which may cause unstable situation and easily jump out of the steering wheel, for this solution, two first steering wheels 62, a driving shaft 64 and two second steering wheels 63 are provided on the supporting platform 61, the driving shaft 64 is provided with two driving wheels 641 corresponding to the two first steering wheels 62, the two second steering wheels 63 are respectively provided corresponding to the two first steering wheels 62, two connecting members 65 are provided on the same side of the vertical lifting structure 6, the two connecting members 65 are respectively provided on both sides of the first rod body 721, the two connecting members 65 sequentially and tightly pass around the first steering wheels 62, the driving wheels 641 and the second steering wheels 63 at corresponding positions, and the rotating motors 68 are communicated with the driving shaft, when the rotating motor 68 rotates, the driving wheel 641 is driven to rotate to drive the connecting member 65 to lift. Wherein the first steering wheel 62 and the second steering wheel 63 are arranged at the same height and are erected at a high position, and the driving shaft 64 is arranged between the two and is lower than the two. Through adopting the position relation who sets up a plurality of directive wheels, action wheel 641 and above-mentioned three, make connecting piece 65 tightly walk around first directive wheel 62, action wheel 641 and second directive wheel 63 in proper order, through revolving many times, increased the area of contact between connecting piece 65 and the runner (directive wheel and action wheel 641), when guaranteeing to rotate motor 68 and rotate, connecting piece 65 can be stable around on the runner, avoid connecting piece 65 to take place the condition of tripping, influence going on of lift flow. And adjust the setting through the distance between action wheel 641 and the second directive wheel 63, can realize adjusting second directive wheel 63 both sides connecting piece 65 contained angle, when the angle of contained angle diminishes, can make connecting piece 65 have better promotion effect.

Because the running wheels of the tubular piles 8 are cylindrical, the running wheels have different sizes due to different pipe diameters, and when the tubular piles 8 with different running wheel sizes are steamed, the steaming structure 4 needs to be positioned again, through the design of the transverse moving structure 5 and the vertical lifting structure 6, the tubular pile steam curing equipment 2 can steam-cure tubular piles 8 with two different pipe diameters, when the tubular pile 8 with a larger pipe diameter is replaced, only the transverse cylinder 52 of the transverse moving structure 5 and the rotating motor 68 of the vertical lifting structure 6 need to be started, so that the push rod 47 of the transverse moving cylinder 44 is pushed to the tail end of the stroke, the rotating motor 68 rotates to lift the uppermost rectangular frame 72 to the top, the distance between the steam-curing structures 4 on the same rectangular frame 72 is increased, the distance between every two adjacent rectangular frames 72 is also increased, and at the moment, the steam-curing structures 4 are aligned to the tubular piles 8 with larger pipe diameters again and steam-cured. When the tubular pile 8 with the smaller pipe diameter is replaced, the push rod 47 of the transverse air cylinder 52 contracts again and returns to the initial state, and meanwhile, the motor rotates reversely, so that the rectangular frame 72 descends and returns to the initial position again, and at the moment, the steam curing structure 4 is aligned to the tubular pile 8 with the smaller pipe diameter, and steam curing of the tubular pile 8 can be realized.

The steam-curing pond 3 in this embodiment is provided with a plurality of steam-curing cavities 31, the steam-curing cavities 31 include a first cavity 311 for placing the pipe pile 8 with the die and a second cavity 312 for placing the pipe pile steam-curing equipment 2, the first cavity 311 and the second cavity 312 are communicated, an anti-collision beam is arranged between the first cavity 311 and the second cavity 312, and the bearing platform 61 is arranged on the anti-collision beam above the second cavity 312. The tubular pile 8 of many well specifications can be realized evaporating simultaneously and foster work efficiency.

The above embodiments are only preferred embodiments of the present invention, and the scope of protection of the present invention cannot be limited thereby, (for example, the manner of eliminating lateral movement and vertical lifting so that the apparatus can only accommodate one type of tubular pile 8.) any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are all within the scope of protection claimed by the present invention.

Claims (9)

1. Tubular pile evaporates foster system, its characterized in that: comprises that

The tubular pile steam curing equipment comprises a plurality of steam curing structures which correspond to tubular piles one by one, a plurality of transverse moving structures which are used for driving the steam curing structures to move in a horizontal direction perpendicular to residual pulp holes of the tubular piles, two vertical lifting structures which are used for driving the steam curing structures to move in a vertical direction perpendicular to openings of the tubular piles and a fixed frame which is used for installing the steam curing structures;

the fixed frame comprises a cuboid frame and a plurality of rectangular frames which are arranged in the cuboid frame at intervals in parallel, lifting linear slide rails and a plurality of supporting pieces for supporting the rectangular frame are vertically arranged on two sides of the cuboid frame, every two supporting pieces are arranged perpendicular to the lifting linear slide rails in a relative mode, the rectangular frame can slide along the lifting linear slide rails, the rectangular frame comprises two first rod bodies arranged along the opening direction of the tubular pile and two second rod bodies arranged perpendicular to the opening direction of the tubular pile, the adjacent first rod bodies and the adjacent second rod bodies are perpendicular to each other, and a plurality of steam-curing structures are arranged on the two second rod bodies at intervals;

the steam-curing structure is arranged at the front end of the residual pile pulp hole of the tubular pile one by one correspondingly, the steam-curing structure comprises a bottom plate, a linear slide rail fixed on the bottom plate and arranged along the residual pile pulp hole direction, an installation frame slidably installed on the linear slide rail, a cylinder fixedly installed on the bottom plate and used for driving the installation frame to slide along the linear slide rail, and a steam pipe fixedly installed on the installation frame and communicated with a steam generating device, wherein during steam curing, the cylinder pushes the installation frame and the steam pipe until the steam pipe enters the residual pile pulp hole;

the transverse moving structure comprises a transverse sliding groove which is arranged on the second rod body along the second rod body, a sliding block which is fixed on the bottom plate and can slide on the transverse sliding groove, a transverse air cylinder which is fixedly arranged on the second rod body and used for pushing the sliding block to move along the transverse sliding groove, and a metal strip which is used for connecting two adjacent steam-curing devices on the bottom plate, one end of the metal strip is provided with a strip-shaped groove, the other end of the metal strip is fixed on the bottom plate adjacent to the steam-curing structure, the bottom plate is fixedly provided with a screw which passes through the strip-shaped groove to connect the metal strip to the bottom plate in a floating way, the screws can slide in the strip-shaped grooves, and when the screws move transversely, the transverse air cylinder pushes the plurality of steam-curing structures on the same second rod body one by one through the metal strips to move so as to change the intervals among all the steam-curing structures on the same second rod body;

two vertical lift structure symmetry set up in cuboid frame both sides, vertical lift structure including set up in the cushion cap of cuboid frame top, set up in the directive wheel, the vertical setting of cushion cap just are used for connecting a plurality of rectangular frame's connecting piece, a plurality of interval set up in the connecting piece just is used for supporting rectangular frame's angle sign indicating number, connection are fixed in the balancing weight of connecting piece one end and be used for the drive the directive wheel pivoted rotates the motor, the connecting piece is walked around the directive wheel, adjacent two between the rectangular frame connecting piece length homogeneous phase just is greater than adjacent two distance between the support piece, it is a plurality of the angle sign indicating number sets up adjacent two respectively between the rectangular frame the connecting piece, during the vertical lift, the rotation motor rotates and drives the directive wheel rotates and the connecting piece promotes makes the angle sign indicating number promotes a plurality of rectangular frame promotes one by one and realizes adjacent two between the rectangular frame Interval change;

and the steam curing pool is used for placing the pipe piles with the die and the pipe pile steam curing equipment.

2. The tubular pile steam curing system of claim 1, wherein: the steam curing structure is provided with a sealing element for preventing steam from diffusing, the sealing element is fixed on the mounting frame, a through hole is formed in the center of the sealing element, and the steam pipe penetrates through the through hole.

3. The tubular pile steam curing system of claim 2, wherein: the sealing member through three push rods install in the mounting bracket, the push rod pass through A style of calligraphy spare install in the mounting bracket, the push rod is triangle-shaped slidable respectively and is fixed in A style of calligraphy spare, the spring that is used for providing the packing force is equipped with to the push rod cover.

4. The tubular pile steam curing system of claim 2, wherein: the inner diameter of the steam pipe is less than or equal to 20mm, and the size of the through hole of the sealing element is designed to correspond to the size of the outer diameter of the steam pipe.

5. The tubular pile steam curing system of claim 1, wherein: the cushion cap is equipped with first directive wheel, driving shaft and second directive wheel, the driving shaft corresponds two first directive wheel is equipped with the action wheel, the second directive wheel corresponds first directive wheel setting respectively, the connecting piece tightly walks around corresponding position in proper order first directive wheel, action wheel and second directive wheel, rotate the motor with the driving shaft intercommunication, drive when rotating the motor and rotating the action wheel and rotate the drive the connecting piece promotes.

6. The tubular pile steam curing system of claim 1, wherein: the mounting bracket both sides are equipped with first pulley, the mounting bracket passes through first pulley with the cooperation of linear slide rail is along linear slide rail removes, first body of rod both sides are equipped with the second pulley, rectangular frame passes through the second pulley with the cooperation of lift linear slide rail is along lift linear slide rail removes.

7. The tubular pile steam curing system of claim 1, wherein: the steam curing structures on the two adjacent rectangular frames are arranged in a staggered mode.

8. The tubular pile steam curing system of claim 1, wherein: the connecting piece is a chain or a rope.

9. The tubular pile steam curing system of claim 1, wherein: evaporate and foster pond and include a plurality of chambeies of evaporating foster, evaporate foster chamber including being used for placing the first cavity of taking the mould tubular pile and being used for placing the tubular pile evaporates foster equipment's second cavity, first cavity and second cavity intercommunication, the cushion cap is located the top of second cavity.

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