CN114102826B - Precast concrete stake is with evaporating foster system - Google Patents

Abstract

The invention discloses a steam curing system for precast concrete piles, which belongs to the technical field of precast concrete pile curing and comprises a support frame, a moving mechanism, a first collecting assembly, a second collecting assembly, a water absorbing assembly and a collecting cylinder, wherein the support frame is arranged in a steam curing shed, the support frame is horizontally arranged at the upper part of an inner cavity of the steam curing shed, the moving mechanism is connected to the support frame in a sliding manner, the first collecting assembly, the second collecting assembly, the water absorbing assembly and the collecting cylinder are arranged on the moving mechanism, the top end of the second collecting assembly is contacted with the top of the inner cavity of the steam curing shed, the inner wall of the first collecting assembly is contacted with a precast concrete pile, the water absorbing assembly collects condensed water processed by the first collecting assembly and the second collecting assembly into the collecting cylinder, so that large-area condensed water collection of the inner wall of the steam curing shed and the precast concrete pile is realized, subsequent treatment of the steam curing shed or the precast concrete pile is not needed, and water resources are saved.

Description

Precast concrete stake is with evaporating foster system

Technical Field

The invention relates to the technical field of precast concrete pile curing, in particular to a steam curing system for precast concrete piles.

Background

Precast concrete piles are generally concrete piles manufactured by a preliminary molding method using a mold at a factory or a construction site. The precast concrete pile can bear larger load, is firm and durable, has high construction speed and more reliable quality than the cast-in-place pile. In order to improve the concrete strength of the precast concrete pile as soon as possible, accelerate the demoulding speed of the precast concrete pile, improve the production efficiency of the precast concrete pile and the precast concrete pile needs steam curing.

The existing steam curing structure is used for curing the concrete piles, a large amount of condensed water vapor can be carried on the steam curing shed and the concrete piles, when workers take out the concrete piles from the steam curing area, the concrete piles carrying a large amount of condensed water vapor are required to be subjected to subsequent treatment, the operation is troublesome, and the condensed water vapor cannot be collected and recovered, so that serious water resource waste is caused.

Aiming at the related technology, the invention provides a steam curing system for precast concrete piles.

Disclosure of Invention

In order to solve the problem that a large amount of condensed water vapor can be carried on a steam curing shed and a concrete pile and cannot be treated, the invention provides a steam curing system for precast concrete piles.

The invention provides a steam curing system for precast concrete piles, which adopts the following technical scheme: the steam curing system for the precast concrete pile comprises a steam curing platform, a steam pipe arranged in the steam curing platform, a steam curing shed arranged at the top of the steam curing platform, a support frame arranged in the steam curing shed, a moving mechanism, a first collecting component, a second collecting component, a water absorbing component and a collecting cylinder,

the support frame level sets up in the inner chamber upper portion of evaporating the foster canopy, mobile mechanism sliding connection is on the support frame, first collection subassembly, second collection subassembly, water absorption subassembly and collection section of thick bamboo set up in on the mobile mechanism, the top of second collection subassembly with evaporate the inner chamber top contact of foster canopy, the inner wall and the precast concrete stake contact of first collection subassembly, water absorption subassembly will the comdenstion water of first collection subassembly and second collection subassembly processing is collected to the inside of collection section of thick bamboo.

Through adopting above-mentioned technical scheme, mobile mechanism removes the in-process, can strike off the comdenstion water of evaporating the support canopy inner wall through the second and collect, and the subassembly that absorbs water constantly produces the suction to first collection subassembly inside simultaneously, can adsorb the comdenstion water of precast concrete stake surface through first collection subassembly and collect, can carry out great area to the collection of comdenstion water from evaporating support canopy one side to the opposite side, carries out recycle in last to the collection section of thick bamboo, the effect of water economy resource.

Optionally, the inner chamber of steam curing platform is opened there is the steam generation chamber, the top in steam generation chamber is equipped with the support grid, the steam pipe extends to the one end equipartition in steam generation chamber is in the below of support grid.

By adopting the technical scheme, the steam curing effect of the precast concrete pile is improved.

Optionally, the water outlet end of the water absorbing assembly is connected with a lower collecting pipe, the water outlet end of the second collecting assembly is connected with an upper collecting pipe, and the upper collecting pipe and the lower collecting pipe are connected in parallel to the collecting cylinder.

Through adopting above-mentioned technical scheme, can be with the comdenstion water that the subassembly absorption of absorbing and the comdenstion water that the second collection subassembly was collected unify and retrieve to the collection section of thick bamboo in.

Optionally, the moving mechanism comprises a base, the base is equipped with the walking wheel, driving motor is installed to the bottom of base, driving motor's output is connected with drive bevel gear, one side of drive bevel gear pass through the gear train with the pivot of walking wheel is connected.

By adopting the technical scheme, the travelling wheel is realized to drive the base to walk on the supporting frame.

Optionally, the subassembly that absorbs water includes negative pressure section of thick bamboo and driven bevel gear, driven bevel gear with the inside drive bevel gear meshing of moving mechanism, driven bevel gear's outer wall is connected with the inner chamber of negative pressure section of thick bamboo through the connecting rod piston, the both sides wall of negative pressure section of thick bamboo is equipped with first check valve and second check valve respectively.

By adopting the technical scheme, the connecting rod piston is driven to reciprocate in the negative pressure cylinder, so that the first one-way valve and the second one-way valve on the two side walls are intermittently opened.

Optionally, the second one-way valve is communicated with the first collecting assembly through a pipeline, and the first one-way valve is connected with a lower collecting pipe on the collecting cylinder.

By adopting the technical scheme, the condensed water is absorbed and discharged.

Optionally, the first collection subassembly includes the clearance frame, the inner wall of clearance frame is equipped with the sponge that absorbs water, the inner chamber equipartition of clearance frame has a plurality of branch holes that absorb water that are linked together with the sponge that absorbs water, a plurality of branch holes that absorb water are through the branch connection that absorbs water, the branch pipe that absorbs water is connected with the subassembly that absorbs water through the pipeline.

By adopting the technical scheme, the condensed water wiped by the water absorbing sponge can be collected by the water absorbing branch holes and the water absorbing branch pipes.

Optionally, the second collection subassembly includes the water collection box, the bottom of water collection box is equipped with the collecting pipe, it has Y water catch bowl to open between the inside of water collection box and collecting pipe, top one side of water collection box is equipped with scrapes the liquid piece.

Through adopting above-mentioned technical scheme, clearance that can be quick, the comdenstion water after the clearance can be left in the collection cylinder through Y type water catch bowl and collecting pipe.

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

1. according to the invention, the support frame is arranged in the steam curing shed, and the moving mechanism drives the first collecting assembly, the second collecting assembly, the water absorbing assembly and the collecting cylinder to move in the steam curing shed, so that large-area condensate water collection on the inner wall of the steam curing shed and the precast concrete piles is realized.

2. According to the invention, condensed water on the inner wall of the steam curing shed can be scraped and collected in the moving process through the second collecting component; the water absorption assembly continuously generates suction to the inside of the first collecting assembly, the condensed water on the surface of the precast concrete pile can be adsorbed and collected through the first collecting assembly, the steam curing shed or the precast concrete pile does not need to be subjected to subsequent treatment, and the operation is convenient.

3. When the steam curing greenhouse works, condensed water can be collected in a large area only by moving from one side of the steam curing greenhouse to the other side, and finally, the condensed water is recycled in the collecting cylinder, so that the effect of saving water resources is achieved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an enlarged view of the portion A of the present invention;

FIG. 3 is a schematic view of the steam-curing platform structure of the invention;

FIG. 4 is a schematic view of the movement mechanism and the absorbent assembly of the present invention;

FIG. 5 is a schematic view of a first collection assembly of the present invention;

fig. 6 is a schematic view of a second collection assembly according to the present invention.

Reference numerals illustrate: 1. a steam curing platform; 101. a steam generation chamber; 102. a support grid; 2. a steam pipe; 3. steaming and curing the greenhouse; 4. a support frame; 5. a moving mechanism; 51. a base; 52. a walking wheel; 53. a driving motor; 54. driving a bevel gear; 55. a gear set; 6. a first collection assembly; 61. cleaning a frame; 62. a water-absorbing branch hole; 63. a water absorbing sponge; 64. a water suction branch pipe; 7. a second collection assembly; 71. a water collecting box; 72. a water collection tank; 73. a manifold; 74. a liquid scraping sheet; 8. a water absorbing component; 81. a negative pressure cylinder; 82. a driven bevel gear; 83. a connecting rod piston; 84. a first one-way valve; 85. a second one-way valve; 9. a collection cylinder; 91. a lower collection tube; 92. and (5) an upper collecting pipe.

Detailed Description

The invention is described in further detail below with reference to fig. 1-6.

Referring to fig. 1-2, the invention discloses a steam curing system for precast concrete piles, which comprises a steam curing platform 1 and a steam pipe 2 arranged in the steam curing platform 1, wherein a steam curing shed 3 is arranged at the top of the steam curing platform 1, the steam curing platform 1 is a platform for placing precast concrete piles to be steamed, steam enters the steam curing platform 1 through the steam pipe 2 and is diffused in the steam curing shed 3 after passing through the precast concrete piles, after the steam curing is finished, condensed water is covered on the inner wall of the steam curing shed 3 and the precast concrete piles,

also comprises a supporting frame 4, a moving mechanism 5, a first collecting component 6, a second collecting component 7, a water absorbing component 8 and a collecting cylinder 9 which are arranged in the steam curing shed 3,

the support frame 4 level sets up on the inner chamber upper portion of evaporating the foster canopy 3, mobile mechanism 5 sliding connection is on support frame 4, the support of mobile mechanism 5 removal is regarded as to support frame 4, the stroke of support frame 4 is decided as required to precast concrete pile's pile up mode, be equipped with the track that provides mobile mechanism 5 removal on the support frame 4, first collection subassembly 6, second collection subassembly 7, water absorption subassembly 8 and collection section of thick bamboo 9 set up on mobile mechanism 5, the top of second collection subassembly 7 and the inner chamber top contact of evaporating the foster canopy 3, in the removal in-process of mobile mechanism 5, can strike off the comdenstion water of evaporating the foster canopy 3 inner wall through second collection subassembly 7 and collect, the inner wall and the precast concrete pile contact of first collection subassembly 6, in the removal in-process of mobile mechanism 5, the comdenstion water that can adsorb the precast concrete pile surface through first collection subassembly 6 is collected to the inside of collection section of thick bamboo 9 through second collection subassembly 7 and first collection subassembly 6 processing comdenstion water through water absorption subassembly 8 is absorbed to collection section of thick bamboo 9, the effect of saving water resources are retrieved.

The water outlet end of the water absorbing component 8 is connected with a lower collecting pipe 91, the water outlet end of the second collecting component 7 is connected with an upper collecting pipe 92, the upper collecting pipe 92 and the lower collecting pipe 91 are connected in parallel to the collecting cylinder 9, and condensed water absorbed by the water absorbing component 8 and condensed water collected by the second collecting component 7 can be uniformly recovered into the collecting cylinder 9 through the upper collecting pipe 92 and the lower collecting pipe 91.

Referring to fig. 3, the inner cavity of the steam curing platform 1 is provided with a steam generating cavity 101, a supporting grid 102 is arranged above the steam generating cavity 101, one end of the steam pipe 2 extending to the steam generating cavity 101 is uniformly distributed below the supporting grid 102, steam emitted from one end extending to the steam generating cavity 101 can be ensured to be uniformly distributed on the surface of the precast concrete pile through the supporting grid 103, and the steam curing effect on the precast concrete pile is improved.

Referring to fig. 4, the moving mechanism 5 includes a base 51, a travelling wheel 52 is disposed on the base 51, a driving motor 53 is installed at the bottom of the base 51, an output end of the driving motor 53 is connected with a driving bevel gear 54, one side of the driving bevel gear 54 is connected with a rotating shaft of the travelling wheel 52 through a gear set 55, when the moving mechanism 5 moves, the driving motor 53 needs to be started, the driving motor 53 drives the gear set 55 to rotate through the driving bevel gear 54, thereby driving the rotating shaft of the travelling wheel 52 to rotate through the gear set 55, the travelling wheel 52 is driven to walk on the support frame 4, and the gear set 55 includes a gear fixed on the rotating shaft of the travelling wheel 52 and a gear fixed on a driven bevel gear 82.

The water absorbing assembly 8 comprises a negative pressure cylinder 81 and a driven bevel gear 82, the driven bevel gear 82 is meshed with the driving bevel gear 54 inside the moving mechanism 5, the outer wall of the driven bevel gear 82 is connected with the inner cavity of the negative pressure cylinder 81 through a connecting rod piston 83, two side walls of the negative pressure cylinder 81 are respectively provided with a first one-way valve 84 and a second one-way valve 85, the driving bevel gear 54 can drive the driven bevel gear 82 to rotate in the moving process of the moving mechanism 5, and the connecting rod piston 83 can be driven to reciprocate in the negative pressure cylinder 81 in the rotating process of the driven bevel gear 82, so that the first one-way valve 84 and the second one-way valve 85 on the two side walls are intermittently opened.

The second check valve 85 is communicated with the first collecting assembly 6 through a pipeline, the first check valve 84 is connected with the lower collecting pipe 91 on the collecting cylinder 9, when the connecting rod piston 83 moves downwards in the negative pressure cylinder 81, under the action of negative pressure, the first check valve 84 is closed when the second check valve 85 is opened, at this time, condensed water and sundries collected by the first collecting assembly 6 can enter the negative pressure cylinder 81 through the second check valve 85, then, when the connecting rod piston 83 moves upwards in the negative pressure cylinder 81, the first check valve 84 is opened, the second check valve 85 is closed, and condensed water and sundries in the negative pressure cylinder 81 can be discharged and collected through the lower collecting pipe 91.

Referring to fig. 5, the first collecting assembly 6 includes a cleaning frame 61, a water absorbing sponge 63 is disposed on an inner wall of the cleaning frame 61, the water absorbing sponge 63 can be cleaned and absorbed on a surface of a precast concrete pile, a plurality of water absorbing branch holes 62 communicated with the water absorbing sponge 63 are uniformly distributed in an inner cavity of the cleaning frame 61, the water absorbing branch holes 62 can collect water absorbed by the water absorbing sponge 63, the water absorbing branch holes 62 are connected through water absorbing branch pipes 64, the water absorbing branch pipes 64 are connected with the water absorbing assembly 8 through pipelines, and condensed water wiped by the water absorbing sponge 63 can be collected by the water absorbing branch holes 62 and the water absorbing branch pipes 64 under the action of the water absorbing assembly 8.

Referring to fig. 6, the second collecting assembly 7 includes a water collecting box 71, a collecting pipe 73 is arranged at the bottom of the water collecting box 71, a Y-shaped water collecting groove 72 is formed between the water collecting box 71 and the inside of the collecting pipe 73, a liquid scraping sheet 74 is arranged at one side of the top of the water collecting box 71, the width of the water collecting box 71 can meet the width of the steam curing shed 3, therefore, the water vapor on the inner wall of the steam curing shed 3 is fully collected, in the moving process of the second collecting assembly 7, the liquid scraping sheet 74 can be used for rapidly cleaning, and the cleaned condensed water can be reserved in the collecting cylinder 9 through the Y-shaped water collecting groove 72 and the collecting pipe 73.

The invention relates to an implementation working principle of a steam curing system for precast concrete piles, which comprises the following steps:

in the process of curing the precast concrete pile by a worker, the steam pipe 2 discharges steam into the steam curing shed 3 through the steam holes on the outer wall, and the precast concrete pile is cured in the steam curing shed 3 under the continuous high-temperature environment; after the precast concrete pile is cured, the driving moving mechanism 5 moves on the supporting frame 4, the moving mechanism 5 moves the in-process, the condensed water on the inner wall of the steam curing shed 3 can be scraped and collected through the second collecting component 7, meanwhile, the water absorbing component 8 continuously sucks the inside of the first collecting component 6, the condensed water on the surface of the precast concrete pile can be adsorbed and collected through the first collecting component 6, the condensed water can be collected in a large area by moving from one side of the steam curing shed 3 to the other side, and finally, the condensed water can be recycled in the collecting barrel 9, so that the effect of saving water resources is achieved.

The above embodiments are not intended to limit the scope of the present invention, so: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (4)

1. The utility model provides a precast concrete stake is with evaporating foster system, includes evaporating foster platform (1) and sets up in evaporating foster platform (1) inside steam pipe (2), evaporate foster platform (1) top and be equipped with evaporating foster canopy (3), its characterized in that: the steam curing greenhouse also comprises a supporting frame (4), a moving mechanism (5), a first collecting component (6), a second collecting component (7), a water absorbing component (8) and a collecting cylinder (9) which are arranged in the steam curing greenhouse (3),

the support frame (4) is horizontally arranged on the upper portion of an inner cavity of the steam curing shed (3), the moving mechanism (5) is connected to the support frame (4) in a sliding mode, the first collecting component (6), the second collecting component (7), the water absorbing component (8) and the collecting cylinder (9) are arranged on the moving mechanism (5), the top end of the second collecting component (7) is in contact with the top portion of the inner cavity of the steam curing shed (3), the inner wall of the first collecting component (6) is in contact with a precast concrete pile, and condensed water processed by the first collecting component (6) and the second collecting component (7) is collected into the collecting cylinder (9) by the water absorbing component (8);

the water outlet end of the water absorbing assembly (8) is connected with a lower collecting pipe (91), the water outlet end of the second collecting assembly (7) is connected with an upper collecting pipe (92), and the upper collecting pipe (92) and the lower collecting pipe (91) are connected in parallel to the collecting cylinder (9);

the moving mechanism (5) comprises a base (51), a travelling wheel (52) is arranged on the base (51), a driving motor (53) is arranged at the bottom of the base (51), the output end of the driving motor (53) is connected with a driving bevel gear (54), and one side of the driving bevel gear (54) is connected with a rotating shaft of the travelling wheel (52) through a gear set (55);

the water absorption assembly (8) comprises a negative pressure cylinder (81) and a driven bevel gear (82), the driven bevel gear (82) is meshed with a driving bevel gear (54) in the moving mechanism (5), the outer wall of the driven bevel gear (82) is connected with the inner cavity of the negative pressure cylinder (81) through a connecting rod piston (83), and a first one-way valve (84) and a second one-way valve (85) are respectively arranged on two side walls of the negative pressure cylinder (81);

the second one-way valve (85) is communicated with the first collecting assembly (6) through a pipeline, and the first one-way valve (84) is connected with a lower collecting pipe (91) on the collecting cylinder (9).

2. A steam curing system for precast concrete piles according to claim 1, wherein: the steam-curing platform is characterized in that a steam generation cavity (101) is formed in an inner cavity of the steam-curing platform (1), a support grid (102) is arranged above the steam generation cavity (101), and one ends of steam pipes (2) extending to the steam generation cavity (101) are uniformly distributed below the support grid (102).

3. A steam curing system for precast concrete piles according to claim 1, wherein: the first collection assembly (6) comprises a cleaning frame (61), water absorbing sponge (63) is arranged on the inner wall of the cleaning frame (61), a plurality of water absorbing branch holes (62) communicated with the water absorbing sponge (63) are uniformly distributed in the inner cavity of the cleaning frame (61), the water absorbing branch holes (62) are connected through water absorbing branch pipes (64), and the water absorbing branch pipes (64) are connected with the water absorbing assembly (8) through pipelines.

4. A steam curing system for precast concrete piles according to claim 1, wherein: the second collecting assembly (7) comprises a water collecting box (71), a collecting pipe (73) is arranged at the bottom of the water collecting box (71), a Y-shaped water collecting groove (72) is formed between the water collecting box (71) and the inside of the collecting pipe (73), and a liquid scraping sheet (74) is arranged on one side of the top of the water collecting box (71).

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