CN116065844A

CN116065844A - Concrete curing equipment for building engineering

Info

Publication number: CN116065844A
Application number: CN202310247679.3A
Authority: CN
Inventors: 陈能
Original assignee: Guangdong Dragon Construction Engineering Co ltd
Current assignee: Guangdong Dragon Construction Engineering Co ltd
Priority date: 2023-03-15
Filing date: 2023-03-15
Publication date: 2023-05-05
Anticipated expiration: 2043-03-15
Also published as: CN116065844B

Abstract

The invention relates to the field of constructional engineering, in particular to concrete curing equipment for constructional engineering, which comprises a frame, a traveling system, a vibrating system and the like; the frame is connected with a traveling system; the frame is connected with a vibrating system, and the vibrating system is connected with a running system. According to the invention, the two splayed third scrapers are tightly attached to the surface of the plastic film on the concrete layer in the rightward moving process, and simultaneously scrape the edges on both sides of the plastic film, so that the phenomena that the plastic film cannot be tightly attached to the surface of the concrete layer, a large cavity exists in the plastic film paved on the concrete layer, the plastic film bulges and the edges on both sides of the plastic film are wrinkled are overcome.

Description

Concrete curing equipment for building engineering

Technical Field

The invention relates to the field of constructional engineering, in particular to concrete curing equipment for constructional engineering.

Background

In the present stage, when the plastic film is paved and moisture-preserving maintenance is carried out on the concrete layer which is just poured and is once smeared, a hand-held film paving device is needed to walk on the concrete layer which is once smeared, because the area of feet is smaller, people step on the concrete layer and then sink deeply, and the compactness and uniformity of the concrete layer which is once smeared are greatly influenced.

Meanwhile, when the concrete layer which is just poured and is subjected to primary plastering is vibrated, the moisture of the concrete layer in the film spreading area is discharged by the vibrating machine, so that the moisture of the concrete layer in the film spreading area is reduced, the edge of the plastic film which is already paved can be wrinkled by air flow generated during vibration, the plastic film which is already paved is separated from the concrete layer, and meanwhile, convex edges are generated on the concrete layers on two sides of the vibrating machine when the vibrating machine impacts the concrete layer at upper and lower high frequencies.

Meanwhile, when the plastic film is paved on the concrete layer after one-time plastering and pressing for moisturizing, the plastic film cannot be tightly adhered to the surface of the concrete layer, the plastic film has a phenomenon that the plastic film bulges due to the fact that the inside of the plastic film is large in cavity, and meanwhile, the inside of the plastic film can generate large cavities when the plastic film is paved manually, so that folds can be generated at the edges of two sides of the plastic film when the plastic film is adhered to the concrete layer.

Disclosure of Invention

The invention provides concrete curing equipment for construction engineering, which aims to overcome the defects that fingerprints generated during manual film laying can damage the compactness and uniformity of a freshly poured concrete layer, meanwhile, the moisture of the concrete layer in a film laying area can be reduced during vibration, a well-laid plastic film can be separated from the concrete layer, and meanwhile, the plastic film cannot be tightly adhered to the surface of the concrete layer.

The technical proposal is as follows: the concrete curing equipment for the construction engineering comprises a frame, a second scraping plate, a guide plate, a traveling system, a vibrating system and a film paving system; the frame is connected with a traveling system; the walking system is fixedly connected with two second scraping plates; the frame is connected with a vibrating system, the vibrating system is fixedly connected with two guide plates, and the vibrating system is connected with a running system; the vibrating system is connected with a film laying system; the walking system is used for supporting and dragging the connected parts to walk; the vibrating system is used for vibrating the concrete layer; the film laying system is used for laying the plastic film on the concrete layer.

Optionally, the traveling system comprises a first wheel, a conical fluted disc, a bevel gear, a first driving motor, a second wheel, a storage hopper, an ejector, a first connecting plate, a first scraping plate, a second scraping plate, a stop block, a first water pipe, a filter tip, a water pump, a second water pipe and a support plate; the frame is rotationally connected with a first wheel; the first wheel is fixedly connected with a conical fluted disc; the frame is fixedly connected with a first driving motor; the output shaft of the first driving motor is fixedly connected with a bevel gear, and the bevel gear is meshed with a bevel gear disc; the frame is rotationally connected with a second wheel, and the second wheel is positioned at the left side of the first wheel; the frame is fixedly connected with a storage hopper, and the storage hopper is positioned between the first wheel and the second wheel; the storage hopper is fixedly connected with a plurality of ejectors; the nozzle of the sprayer is provided with a nozzle; the storage hopper is fixedly connected with a first connecting plate; the first connecting plate is fixedly connected with two first scraping plates; the frame is fixedly connected with two support plates; two support plates are fixedly connected with a stop block respectively; two stop blocks are fixedly connected with a second scraping plate respectively; the two stop blocks are fixedly connected with a first water pipe together; the first water pipe is communicated with two filters; the frame is fixedly connected with a water pump which is communicated with the first water pipe; the water pump is communicated with a second water pipe; the first wheel and the second wheel are used for supporting and towing the connected components to walk.

Optionally, the vibrating system comprises a connecting frame, a spring rod, a vibrating plate, a vibrating motor, a guide plate, a second connecting plate, a first baffle, a fixing frame and a second baffle; the frame is fixedly connected with a connecting frame, and the connecting frame is fixedly connected with a second water pipe; the connecting frame is fixedly connected with two spring rods; the two spring rods are fixedly connected with a vibrating plate; the vibrating plate is provided with a plurality of diversion trenches; the vibrating plate is fixedly connected with a vibrating motor; the vibrating plate is fixedly connected with the two guide plates; the front side and the rear side of the connecting frame are fixedly connected with two second connecting plates respectively; the second connecting plates at each side are fixedly connected with a first baffle; each first baffle is provided with an arc bending part; the connecting frame is fixedly connected with a fixing frame; the fixed frame is fixedly connected with a second baffle; the vibrating plate is used for vibrating the concrete layer.

Optionally, the film laying system comprises a fixed seat, a fixed rod, a third connecting plate, a second driving motor, a rotating rod, a scraping strip, a connecting rod and a third scraping plate; the connecting frame is fixedly connected with two fixing seats; the two fixing seats are detachably connected with a fixing rod in a rotating way; the connecting frame is fixedly connected with a third connecting plate; the third connecting plate is fixedly connected with two second driving motors; the output shafts of the two second driving motors are fixedly connected with a rotating rod respectively; the two rotating rods are fixedly connected with a scraping strip respectively; the third connecting plate is fixedly connected with two connecting rods; the two connecting rods are fixedly connected with a third scraping plate respectively; the third blade is used for laying the plastic film on the concrete layer.

Optionally, the scraping strip is spiral.

Optionally, the deflector is arc-shaped.

Optionally, the second scraper is arranged in an arc shape.

Optionally, two third scrapers are provided in a splayed configuration.

Optionally, the two first scrapers are arranged in a splayed shape.

Optionally, the cross section of the vibrating plate is obliquely arranged.

The beneficial effects of the invention are as follows: according to the invention, the ejector is controlled to be opened, so that the nozzle of the ejector fills concrete in the storage hopper into the rectangular groove on the concrete layer which is milled by the first wheel, the defect that the rectangular groove appears after the concrete layer is milled to be submerged is avoided, in the process, two splayed first scrapers are arranged and arc-shaped scrapers scrape the concrete layer which falls into the rectangular groove, at the moment, the second wheel compacts the concrete layer filled in the rectangular groove in the rightward walking process, and the compactness and uniformity of the concrete layer are ensured.

According to the invention, the discharged moisture is prevented from diffusing to the periphery through the second scraping plate and the stop block, meanwhile, the concrete layers at the two side edges of the second wheel are scraped, meanwhile, the water pump is controlled to be started, the moisture accumulated in the second scraping plate is conveyed to the film paving area of the concrete layer below the plastic film through the second water pipe, the moisture discharged from the concrete layer at the right side of the vibrating plate is prevented from diffusing outwards through the second stop plate, the moisture accumulated between the vibrating plate and the second stop plate passes through a plurality of diversion grooves formed in the vibrating plate and flows to the film paving area of the concrete layer below the plastic film after being guided by the diversion plates, meanwhile, the moisture discharged from the concrete layer at the front side and the rear side of the vibrating plate is prevented from diffusing to the two sides through the first stop plate and flows to the concrete layer below the plastic film after being guided by the curved arc part of the first stop plate, so that the moisture in the concrete layer of the film paving area is prevented from being discharged through the second stop plate, and the moisture in the concrete layer of the film paving area is prevented from being reduced, and the moisture in the film paving area is prevented from influencing the moisture retaining effect of the plastic film.

According to the invention, the curved arc parts on the second baffle plate and the first baffle plate are clung to the edges of the paved plastic films to move rightwards, so that the phenomenon that the edges of the paved plastic films are wrinkled to separate from a concrete layer due to air flow generated by the vibrating plate is prevented, and meanwhile, the curved arc parts on the first baffle plate scrape the convex edges of the concrete layer generated on two sides of the vibrating plate, so that the phenomenon that the edges of the paved plastic films are wrinkled to separate from the concrete layer due to air flow generated by using a vibrator in the prior art is avoided.

According to the invention, the two third scrapers which are arranged in a splayed shape are clung to the surface of the plastic film on the concrete layer in the rightward moving process, and the bubbles in the plastic film on the concrete layer are extruded to the two sides of the plastic film, so that the bubbles are discharged, and meanwhile, the edges of the two sides of the plastic film are scraped, so that the wrinkles on the edges of the two sides of the plastic film are eliminated, and the phenomena that the plastic film cannot be clung to the surface of the concrete layer tightly, and the large cavity exists in the plastic film paved on the concrete layer, so that the edges on the two sides of the plastic film bulge and the wrinkles are generated are overcome.

Drawings

FIG. 1 is a schematic view of a construction of a first perspective of a concrete curing apparatus for construction of the present invention;

FIG. 2 is a schematic view of a construction of a second perspective of the concrete curing apparatus for construction of the present invention;

FIG. 3 is a schematic view of a combined partial structure of a first view of a frame and a traveling system disclosed by the concrete curing equipment for construction engineering of the present invention;

FIG. 4 is a schematic view of a combined partial structure of a second view of a carriage and traveling system disclosed by the concrete curing apparatus for construction engineering of the present invention;

FIG. 5 is a schematic diagram of a combined partial structure of a frame, a traveling system, a vibrating system and a film laying system disclosed by the concrete curing equipment for construction engineering;

FIG. 6 is a schematic view of a combined partial structure of a first view of a vibrating system and a film laying system disclosed by the concrete curing equipment for construction engineering of the present invention;

FIG. 7 is a schematic view showing a partial structure of a vibrating system disclosed by the concrete curing equipment for construction engineering of the present invention;

FIG. 8 is a cross-sectional view of a vibrating system disclosed by the concrete curing equipment for construction engineering of the present invention;

fig. 9 is a schematic view showing a combined partial structure of a second view angle of the vibrating system and the film laying system disclosed by the concrete curing equipment for construction engineering.

The reference symbols in the drawings: 1-frame, 2-plastic film, 3-concrete layer, 101-first wheel, 102-conical fluted disc, 103-bevel gear, 104-first driving motor, 105-second wheel, 106-storage hopper, 107-ejector, 108-first connecting plate, 109-first scraper, 1010-second scraper, 1011-stopper, 1012-first water pipe, 1013-filter, 1014-water pump, 1015-second water pipe, 1016-support plate, 201-connecting frame, 202-spring rod, 203-vibrating plate, 204-vibrating motor, 205-deflector, 206-second connecting plate, 207-first baffle, 208-fixing frame, 209-second baffle, 301-fixing seat, 302-fixing rod, 303-third connecting plate, 304-second driving motor, 305-rotating rod, 306-scraping strip, 307-connecting rod, 308-third scraper, 3 a-rectangular slot, 107 a-nozzle, 203 a-deflector slot, 207 a-curved arc portion.

Detailed Description

The following description is of the preferred embodiments of the invention, and is not intended to limit the scope of the invention.

Example 1

1-9, the concrete curing equipment for the construction engineering comprises a frame 1, a second scraper 1010, a guide plate 205, a traveling system, a vibrating system and a film paving system; the frame 1 is connected with a traveling system; the walking system is fixedly connected with two second scraping plates 1010; the frame 1 is connected with a vibrating system, the vibrating system is fixedly connected with two guide plates 205, and the vibrating system is connected with a running system; the vibrating system is connected with a film laying system; the travelling system supports and pulls the connected parts to travel, the vibrating system vibrates the concrete layer 3, the film paving system lays the plastic film 2 on the concrete layer 3, the compactness and uniformity of the freshly poured concrete layer 3 are ensured, the moisture reduction of the concrete layer 3 in the film paving area is avoided, meanwhile, the plastic film 2 which is already laid is prevented from being separated from the concrete layer 3, and the plastic film 2 is ensured to be tightly adhered to the surface of the concrete layer 3 during laying.

Footprint produced during manual film laying can destroy compactness and uniformity of the freshly poured concrete layer 3, moisture of the concrete layer 3 in a film laying area can be reduced during vibration, the plastic film 2 which is already laid can be separated from the concrete layer 3, and meanwhile, the plastic film 2 cannot be tightly adhered to the surface of the concrete layer 3. In view of the above, the invention provides a concrete curing device for construction engineering.

When the device is used, the concrete curing equipment for the construction engineering is manually placed on the concrete layer 3 which is just poured and is subjected to primary plastering through a hoisting mode of external equipment, then the running state of the device is manually checked and adjusted, the running of the device is controlled, then the plastic film 2 is manually placed into a film laying system, and the running system is controlled to run so as to drive the connected parts to move rightwards;

next, the running system is controlled to run, new concrete is filled in the rectangular groove 3a on the concrete layer 3 which is milled by the running system, so that the compactness and uniformity of the concrete layer 3 are ensured, and the defect of the rectangular groove 3a after the concrete layer 3 is milled to be submerged is avoided;

in the process, the running system is controlled to run, and the water pressed out by the running system is collected and conveyed into the film laying system;

in the process, the vibrating system is controlled to operate, the concrete layer 3 is subjected to secondary wiping and vibrating, in the process, the vibrating system prevents discharged water from diffusing to the periphery, and the laid plastic film 2 is prevented from being separated from the concrete layer 3;

meanwhile, the plastic film 2 is paved on the concrete layer 3 by the film paving system, in the process, the film paving system prevents the plastic film 2 from generating wrinkles when being discharged, and meanwhile, the film paving system discharges bubbles inside the plastic film 2 paved on the concrete layer 3 and eliminates the wrinkles at the edge of the plastic film 2.

The traveling system comprises a first wheel 101, a bevel gear 102, a bevel gear 103, a first driving motor 104, a second wheel 105, a storage hopper 106, an injector 107, a first connecting plate 108, a first scraper 109, a second scraper 1010, a stop 1011, a first water pipe 1012, a filter 1013, a water pump 1014, a second water pipe 1015 and a support 1016; the frame 1 is rotatably connected with a first wheel 101; the first wheel 101 is fixedly connected with a bevel gear 102; the frame 1 is connected with a first driving motor 104 through bolts; an output shaft of the first driving motor 104 is fixedly connected with a bevel gear 103, and the bevel gear 103 is meshed with the bevel gear disc 102; the frame 1 is rotatably connected with a second wheel 105, and the second wheel 105 is positioned at the left side of the first wheel 101; the frame 1 is fixedly connected with a storage hopper 106, and the storage hopper 106 is positioned between the first wheel 101 and the second wheel 105; the storage hopper 106 is connected with a plurality of ejectors 107 through bolts; the head of the ejector 107 is provided with a nozzle 107a; the storage hopper 106 is fixedly connected with a first connecting plate 108; the first connecting plate 108 is fixedly connected with two first scraping plates 109; two support plates 1016 are fixedly connected with the frame 1; two support plates 1016 are each fixedly connected with a stop 1011; two baffle blocks 1011 are fixedly connected with a second scraper 1010 respectively; the two baffle blocks 1011 are fixedly connected with a first water pipe 1012; the first water pipe 1012 is communicated with two filters 1013; the frame 1 is connected with a water pump 1014 through bolts, and the water pump 1014 is communicated with a first water pipe 1012; the water pump 1014 is communicated with a second water pipe 1015; by controlling the opening of the ejector 107, the nozzle 107a of the ejector 107 fills the concrete in the storage hopper 106 into the rectangular groove 3a on the concrete layer 3 which is milled by the first wheel 101, so that the defect of the rectangular groove 3a after the concrete layer 3 is milled to be submerged is avoided.

The vibrating system comprises a connecting frame 201, a spring rod 202, a vibrating plate 203, a vibrating motor 204, a guide plate 205, a second connecting plate 206, a first baffle 207, a fixing frame 208 and a second baffle 209; the frame 1 is fixedly connected with a connecting frame 201, and the connecting frame 201 is fixedly connected with a second water pipe 1015; the connecting frame 201 is fixedly connected with two spring rods 202; the two spring rods 202 are fixedly connected with a vibrating plate 203; the vibrating plate 203 is provided with a plurality of diversion trenches 203a; the vibrating plate 203 is connected with a vibrating motor 204 through bolts; the vibrating plate 203 is fixedly connected with two guide plates 205; two second connection plates 206 are welded to the front and rear sides of the connection frame 201, respectively; the second connecting plates 206 on each side are fixedly connected with a first baffle 207; each first baffle 207 is provided with an arc portion 207a; the connecting frame 201 is fixedly connected with a fixing frame 208; the fixed frame 208 is fixedly connected with a second baffle 209; the second baffle 209 prevents outward diffusion of water discharged from the concrete layer 3 on the right side of the vibrating plate 203, and water accumulated between the vibrating plate 203 and the second baffle 209 passes through a plurality of diversion trenches 203a formed in the vibrating plate 203, and flows to a film laying region on the concrete layer 3 below the plastic film 2 after being diverted by the diversion plate 205, so that the water reduction of the concrete layer 3 in the film laying region by the vibrating plate 203 is avoided.

The film laying system comprises a fixed seat 301, a fixed rod 302, a third connecting plate 303, a second driving motor 304, a rotating rod 305, a scraping strip 306, a connecting rod 307 and a third scraping plate 308; the connecting frame 201 is connected with two fixing seats 301 through bolts; the two fixing seats 301 are detachably connected with a fixing rod 302 in a rotating way; the connecting frame 201 is fixedly connected with a third connecting plate 303; the third connecting plate 303 is fixedly connected with two second driving motors 304; the output shafts of the two second driving motors 304 are fixedly connected with a rotating rod 305 respectively; each of the two rotating rods 305 is fixedly connected with a scraping strip 306; the third connecting plate 303 is fixedly connected with two connecting rods 307; a third scraper 308 is fixedly connected to each of the two connecting rods 307; the bubbles inside the plastic film 2 laid on the concrete layer 3 are discharged by the two third scrapers 308 arranged in a splayed manner, which are closely attached to the surface of the plastic film 2 on the concrete layer 3 in the rightward movement process, and the wrinkles at the edges of the plastic film 2 are eliminated.

The scraping bar 306 is spirally shaped, and pulls the plastic film 2 forward and backward by rotating, thereby eliminating wrinkles generated on the plastic film 2.

The guide plate 205 is arc-shaped, so that water flowing out of the guide groove 203a can be conveniently guided to the middle part of the vibrating plate 203.

The second scraper 1010 is arc-shaped, so that the second scraper 1010 can ensure that water in the rectangular groove 3a does not overflow when scraping the edge of the rectangular groove 3 a.

The two third scrapers 308 are arranged in a splayed shape, and squeeze air bubbles inside the plastic film 2 to the two side edges of the plastic film 2, so that the air bubbles are discharged out of the plastic film 2, and the two side edges of the plastic film 2 are scraped to be flat.

The two first scrapers 109 are provided in a splayed shape, and uniformly spread the concrete falling into the rectangular grooves 3a while scraping it off the concrete.

The cross section of the vibrating plate 203 is inclined, so that the water flowing out of the diversion trench 203a can flow to the concrete layer 3 rapidly.

When the concrete curing device is used, the concrete curing device for the construction engineering is manually placed on the concrete layer 3 which is just poured and is subjected to primary plastering through an external device hoisting mode, then the running state of the device is manually checked and adjusted, the running of the device is controlled, then the fixing seat 301 is manually disassembled, the fixing rod 302 wound with the plastic film 2 is placed in the fixing seat 301, then the pre-prepared concrete is manually placed in the storage hopper 106, then the plastic film 2 on the fixing rod 302 is manually discharged, and one end of the fixing rod is fixed on the concrete layer 3;

subsequently, the first driving motor 104 is controlled to start, the bevel gear 103 is driven to rotate by the bevel gear disc 102 through the output shaft of the first driving motor 104, and the connected part is driven to move rightwards by the rotation of the first wheel 101 on the concrete layer 3;

then, the sprayer 107 is controlled to be opened, and the concrete in the storage hopper 106 is filled into the rectangular groove 3a on the concrete layer 3 which is milled out by the first wheel 101 through the nozzle 107a of the sprayer 107, so that the defect of the rectangular groove 3a after the concrete layer 3 is milled to be submerged is avoided;

in the process, two splayed first scrapers 109 are arranged and arc-shaped to scrape the concrete falling into the rectangular groove 3a, at the moment, the second wheel 105 compacts the concrete filled in the rectangular groove 3a in the rightward walking process, so that the compactness and uniformity of the concrete layer 3 are ensured, in the process, the second wheel 105 can discharge the moisture in the concrete layer 3, at the moment, the second scrapers 1010 and the stop dogs 1011 prevent the discharged moisture from diffusing to the periphery, and meanwhile, the concrete layer 3 at the two side edges of the second wheel 105 is scraped;

at the same time, the water pump 1014 is controlled to be started, the filter 1013 communicated with the first water pipe 1012 filters the water accumulated in the second scraper 1010 and pumps the filtered water into the second water pipe 1015, and the second water pipe 1015 conveys the water to the film laying area on the concrete layer 3 below the plastic film 2 and the surface of the plastic film 2, so that the plastic film 2 is tightly attached to the surface of the concrete layer 3;

in the process, the vibration motor 204 is controlled to start, the vibration motor 204 drives the vibration plate 203 to perform secondary wiping and vibrating on the concrete layer 3 under the telescopic fit of the spring rod 202, in the process, the concrete layer 3 can discharge more water under the vibrating of the vibration plate 203, at the moment, the second baffle 209 prevents the water discharged by the concrete layer 3 on the right side of the vibration plate 203 from diffusing outwards, and the water accumulated between the vibration plate 203 and the second baffle 209 passes through a plurality of diversion trenches 203a formed in the vibration plate 203 and flows to a film paving area on the concrete layer 3 below the plastic film 2 after being diverted by the diversion plate 205;

meanwhile, the first baffle 207 prevents the water discharged from the concrete layer 3 at the front and rear sides of the vibrating plate 203 from diffusing to two sides and is guided to the concrete layer 3 below the plastic film 2 through the curved part 207a of the first baffle 207, so that the water in the concrete layer 3 in the film spreading area is prevented from being discharged by the existing vibrating machine, the water in the concrete layer 3 in the film spreading area is reduced, and the moisturizing effect of the plastic film 2 is influenced;

in the process, the curved arc parts 207a on the second baffle 209 and the first baffle 207 are tightly attached to the edges of the plastic film 2 which is already paved, so that the edges of the plastic film 2 which is already paved are prevented from being wrinkled by air flow generated by the vibrating plate 203 to be separated from the concrete layer 3, and meanwhile, the curved arc parts 207a on the first baffle 207 are used for scraping the convex edges of the concrete layer 3 generated on two sides of the vibrating plate 203;

meanwhile, the fixing rod 302 continuously releases and lays the plastic film 2 on the concrete layer 3 in the process of moving rightwards along with the frame 1, in the process, as the left end of the plastic film 2 is clung to the concrete layer 3, vertical stripe-shaped folds are generated when the plastic film 2 is released from the fixing rod 302, the plastic film 2 is in a tightening state, at the moment, the plastic film 2 is clung to the plastic film 2 to rotate through the spiral scraping strips 306, and the plastic film 2 is pulled to the front side and the rear side, so that the folds are eliminated when the plastic film 2 is released;

in this process, since the vibrating plate 203 generates air flow when vibrating the concrete layer 3, the air flow can make the plastic film 2 continuously fly when discharging, so that the laying is difficult, and at this time, since the spiral scraping strip 306 is tightly attached to the plastic film 2 to rotate, an inclined drainage groove is generated on the plastic film 2, so that the air flow generated during vibrating is led to be discharged to two sides of the plastic film 2;

meanwhile, the two third scraping plates 308 which are arranged in a splayed shape cling to the surface of the plastic film 2 on the concrete layer 3 in the rightward moving process, and air bubbles inside the plastic film 2 on the concrete layer 3 are extruded to two sides of the plastic film 2 so as to discharge the air bubbles, and meanwhile, the edges of the two sides of the plastic film 2 are scraped, so that wrinkles on the edges of the two sides of the plastic film 2 are eliminated.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims

1. The concrete curing equipment for the construction engineering comprises a frame (1); the method is characterized in that: the device also comprises a second scraper (1010), a guide plate (205), a traveling system, a vibrating system and a film laying system; the frame (1) is connected with a traveling system; the walking system is fixedly connected with two second scraping plates (1010); the frame (1) is connected with a vibrating system, the vibrating system is fixedly connected with two guide plates (205), and the vibrating system is connected with a running system; the vibrating system is connected with a film laying system; the walking system is used for supporting and dragging the connected parts to walk; the vibrating system is used for vibrating the concrete layer (3); the film laying system is used for laying the plastic film (2) on the concrete layer (3).

2. The concrete curing apparatus for construction engineering according to claim 1, wherein the traveling system comprises a first wheel (101), a bevel gear (102), a bevel gear (103), a first driving motor (104), a second wheel (105), a storage hopper (106), an ejector (107), a first connecting plate (108), a first scraper (109), a stopper (1011), a first water pipe (1012), a filter tip (1013), a water pump (1014), a second water pipe (1015) and a support plate (1016); the frame (1) is rotationally connected with a first wheel (101); the first wheel (101) is fixedly connected with a bevel gear disc (102); the frame (1) is fixedly connected with a first driving motor (104); an output shaft of the first driving motor (104) is fixedly connected with a bevel gear (103), and the bevel gear (103) is meshed with the bevel gear disc (102); the frame (1) is rotatably connected with a second wheel (105), and the second wheel (105) is positioned at the left side of the first wheel (101); the frame (1) is fixedly connected with a storage hopper (106), and the storage hopper (106) is positioned between the first wheel (101) and the second wheel (105); the storage hopper (106) is fixedly connected with a plurality of ejectors (107); the nozzle (107 a) is arranged on the nozzle head of the ejector (107); the storage hopper (106) is fixedly connected with a first connecting plate (108); the first connecting plate (108) is fixedly connected with two first scraping plates (109); the frame (1) is fixedly connected with two support plates (1016); each of the two support plates (1016) is fixedly connected with a stop block (1011); two baffle blocks (1011) are fixedly connected with a second scraping plate (1010) respectively; the two baffle blocks (1011) are fixedly connected with a first water pipe (1012) together; the first water pipe (1012) is communicated with two filters (1013); the frame (1) is fixedly connected with a water pump (1014), and the water pump (1014) is communicated with a first water pipe (1012); the water pump (1014) is communicated with a second water pipe (1015); the first wheel (101) and the second wheel (105) are used for supporting and towing the connected components to walk.

3. The concrete curing apparatus for construction engineering according to claim 2, wherein the vibrating system comprises a connecting frame (201), a spring rod (202), a vibrating plate (203), a vibrating motor (204), a second connecting plate (206), a first baffle (207), a fixing frame (208) and a second baffle (209); the frame (1) is fixedly connected with a connecting frame (201), and the connecting frame (201) is fixedly connected with a second water pipe (1015); the connecting frame (201) is fixedly connected with two spring rods (202); the two spring rods (202) are fixedly connected with a vibrating plate (203); the vibrating plate (203) is provided with a plurality of diversion trenches (203 a); the vibrating plate (203) is fixedly connected with a vibrating motor (204); the vibrating plate (203) is fixedly connected with two guide plates (205); two second connecting plates (206) are fixedly connected to the front side and the rear side of the connecting frame (201) respectively; the second connecting plates (206) on each side are fixedly connected with a first baffle (207) respectively; each first baffle (207) is provided with an arc bending part (207 a); the connecting frame (201) is fixedly connected with a fixing frame (208); the fixed frame (208) is fixedly connected with a second baffle (209); the vibrating plate (203) is used for vibrating the concrete layer (3).

4. A concrete curing apparatus for construction engineering according to claim 3, wherein the film laying system comprises a fixing seat (301), a fixing rod (302), a third connecting plate (303), a second driving motor (304), a rotating rod (305), a scraping bar (306), a connecting rod (307) and a third scraping plate (308); the connecting frame (201) is fixedly connected with two fixing seats (301); the two fixing seats (301) are detachably connected with a fixing rod (302) in a rotating way; the connecting frame (201) is fixedly connected with a third connecting plate (303); the third connecting plate (303) is fixedly connected with two second driving motors (304); the output shafts of the two second driving motors (304) are fixedly connected with a rotating rod (305) respectively; the two rotating rods (305) are fixedly connected with a scraping strip (306) respectively; the third connecting plate (303) is fixedly connected with two connecting rods (307); a third scraping plate (308) is fixedly connected with each of the two connecting rods (307); the third scraper (308) is used for paving the plastic film (2) on the concrete layer (3).

5. A concrete curing apparatus for construction according to claim 4, characterized in that the scraping strip (306) is spiral.

6. A concrete curing apparatus for construction according to claim 3, characterized in that the deflector (205) is arranged in an arc shape.

7. A concrete curing apparatus for construction according to claim 2, characterized in that the second blade (1010) is arranged in an arc shape.

8. A concrete curing apparatus for construction according to claim 4, characterized in that two third scrapers (308) are provided in a splayed shape.

9. A concrete curing apparatus for construction according to claim 2, characterized in that two first scrapers (109) are provided in a splayed arrangement.

10. A concrete curing apparatus for construction according to claim 3, characterized in that the cross section of the vibrating plate (203) is inclined.