CN114293697A - Green ecological environment-friendly roof and construction method thereof - Google Patents

Abstract

The invention relates to a green ecological environment-friendly roof which comprises a roof sloping plate, wherein the outer surface of the roof sloping plate is provided with a plurality of rows of arched arc-shaped surfaces, a plurality of rows of ventilation openings penetrating through the inner surface and the outer surface of the roof sloping plate are arranged in the roof sloping plate, the outer ends of the ventilation openings are arranged on the arc-shaped surfaces, and the inner ends of the ventilation openings are higher than the outer ends of the ventilation openings. This application has the air circulation nature that improves indoor to improve indoor cooling rate's effect.

Description

Green ecological environment-friendly roof and construction method thereof

Technical Field

The invention relates to the field of buildings, in particular to a green ecological environment-friendly roof and a construction method thereof.

Background

With the improvement of living standard, most people live in new houses in rural areas, and the houses newly built in the rural areas are generally made of concrete roofs. Although the one-time investment cost of the concrete roof is several times higher than that of a tile house, the concrete roof does not need to be maintained frequently, the maintenance cost is low, and the waterproof performance is good, so the concrete roof is mostly adopted in the newly-built house at present.

In summer, after the concrete roof is irradiated by sunlight, the temperature is easy to rise, the raised temperature is easy to conduct into a room through the concrete, the indoor temperature is overhigh, the indoor high temperature is continuously maintained until nine or ten o' clock at night, even in some places in the south, the indoor high temperature is continuously maintained until two points in the morning, the indoor temperature is slowly reduced, and the rest and health of people are seriously influenced.

In view of the above-mentioned related art, the inventors consider that there is a drawback that the indoor cooling rate of a house having a concrete roof is slow.

Disclosure of Invention

In order to improve the indoor cooling speed of a house with a concrete roof, the application provides a green ecological environment-friendly roof and a construction method thereof.

The application provides a green ecological environment-friendly roof and a construction method thereof, which adopts the following technical scheme:

first aspect, the application provides a green ecological environmental protection roof, adopts following technical scheme:

the utility model provides a green ecological environmental protection roof, includes the roof swash plate, the surface of roof swash plate is equipped with the arcwall face of multiseriate hunch-up, be equipped with the multiseriate in the roof swash plate and run through the internal surface of roof swash plate and the vent of surface, the outer end of vent is located on the arcwall face, the inner of vent is higher than the outer end of vent.

Through adopting above-mentioned technical scheme, the air current improves indoor air circulation nature from indoor past vent outward diffusion, and the vent can improve indoor air flow rate to improve indoor cooling rate. In addition, the vent improves the contact area of the roof sloping plate and the air, the heat dissipation speed of the roof sloping plate is accelerated, and the heat of the roof sloping plate is brought to the outdoor air in the process that the air flows from the indoor to the outdoor through the vent, so that the temperature of the roof sloping plate is reduced. When the outside has wind, wind can blow in the room with outside low temperature air from the vent, cools down to the room in, especially in evening, and indoor and outdoor difference in temperature is great, and is showing most to indoor cooling effect. The cambered surface can avoid rainwater to stop in vent department to avoid the rainwater to flow into the room from vent department, reduce the probability that the roof leaked.

Preferably, the length of the vent is greater than 200 mm.

Through adopting above-mentioned technical scheme, vent length is longer, and the probability that the rainwater entered into the room from the vent is just lower, and the vent is too long will improve the construction degree of difficulty, and 200 mm's length can enough reduce the probability that the rainwater entered into the room to enough accepted degree, can not lead to the construction degree of difficulty too big again.

Preferably, the height difference between the inner end of the ventilation opening and the outer end of the ventilation opening is not less than 10 mm.

Through adopting above-mentioned technical scheme, the difference in height of the inner of vent and outer end is big more, and the rainwater is just difficult more to enter into indoor from the vent, and the difference in height of the inner of vent and outer end is not less than 10mm can avoid the rainwater to flow backwards in the vent.

Preferably, the distance between the upper side wall of the ventilation opening and the lower side wall of the ventilation opening is 5-10 mm.

Through adopting above-mentioned technical scheme, the distance between the last lateral wall of vent and the lower lateral wall can influence the rainwater and get into indoor probability from the vent, can influence the flow efficiency of indoor air current simultaneously, still can influence the cooling efficiency and the indoor light luminance of roof swash plate, so the distance between the last lateral wall of vent and the lower lateral wall can not too big, also can not too little, 5-10mm is the comparatively practical scope that obtains through the experiment.

In a second aspect, the application provides a construction method of a green ecological environment-friendly roof, which adopts the following technical scheme:

a construction method of a green ecological environment-friendly roof comprises the following steps:

s1, prefabricating the model: according to the shape of the designed ventilation opening, a plastic foam block is prefabricated into a model, and the shape of the model is the same as that of the ventilation opening;

s2, building a pouring template: building a pouring template, binding reinforcing steel bars on the template, then fixedly mounting the model on the pouring template, avoiding the contact with the reinforcing steel bars, and arranging the models into a plurality of rows;

s3, pouring the sloping roof plate: pouring concrete, wherein the surface of the concrete is not higher than the outer end surface of the model;

s4, processing the outer surface of the sloping roof plate: gathering and compacting the concrete on two sides of the same column of models towards the middle by adopting a ditching device, so that a plurality of columns of arched arc-shaped surfaces are formed on the outer surface of the roof sloping plate, and the outer ends of the models penetrate through the arc-shaped surfaces;

s5, removing the template and the model: and after the strength of the concrete meets the requirement, removing the template, and then ejecting the model out of the roof sloping plate to form the ventilation opening.

Through adopting above-mentioned technical scheme, adopt the plastic foam piece to prefabricate into the model, can conveniently destroy the model and ejecting from the roof swash plate when demolising, make things convenient for subsequent model to demolish, demolish the model after, the hole that the model caused is the vent, adopt ditching device to gather and the compaction toward the centre to the concrete of the both sides of same row of model for the outer surface of the roof swash plate of model department is higher than the roof swash plate of model both sides, make the rainwater flow toward the both sides of vent, can't locate the accumulation at the vent.

Preferably, in step S2, the distance between the form and the steel bar is not less than 20 mm.

Through adopting above-mentioned technical scheme, ensure to have sufficient concrete between vent and the reinforcing bar, avoid the condition that the reinforcing bar exposes to take place.

Preferably, in step S2, the mold is mounted on the mold plate by driving two steel nails from bottom to top, and then inserting one end of the mold into the two steel nails.

Through adopting above-mentioned technical scheme, two steel nails can restrict the model and rotate, fix the model on the steel nail, during the installation directly with the model insert the steel nail can, simple to operate, and it is little to demolish influence of template.

Preferably, the ditching device includes support frame, slide bar, driving trolley, ditching wheel, ditching motor, two baffles and two clamp plates, the slide bar install in on the support frame, driving trolley install in on the slide bar and can follow the slide bar motion, ditching wheel, ditching motor, two baffles and two clamp plates all install in on the driving trolley, the ditching wheel rotate connect in driving trolley's lower part, two the baffle is located the both sides of ditching wheel, two the clamp plate is all located the baffle is followed driving trolley traffic direction's rear, two the clamp plate is two fixed connection respectively the baffle.

Through adopting above-mentioned technical scheme, ditching motor drive ditching wheel rotates, it splashes toward the both sides of ditching wheel to open the slot between two adjacent models, the concrete that ditching wheel was dug, be blockked by the baffle, stop in the both sides of the slot of opening, along with the drive dolly gos forward, the clamp plate promotes the concrete of slot both sides and carries out the compaction, the concrete compaction that will dig out is in the both sides of slot, form multiseriate arcwall face at roof inclined plane's surface, it is efficient to adopt ditching device to make the arcwall face.

Preferably, the slide bar passes through adjustment mechanism and connects the support frame, adjustment mechanism includes slider, regulation pole and regulating block, slider slidable mounting in on the support frame and can follow the support frame lateral sliding, it is fixed in to adjust the pole on the slider, regulating block slidable mounting in on adjusting the pole and can following adjust the pole and do vertical slip, the slide bar is fixed in on the regulating block, be equipped with first spacing bolt on the regulating block, first spacing bolt can support tightly adjust the pole, be equipped with the spacing bolt of second on the slider, the spacing bolt of second can support tightly the support frame.

By adopting the technical scheme, the second limiting bolt is loosened, the sliding block is pushed to drive the ditching device to slide to the position needing ditching on the supporting frame, and then the second limiting bolt is screwed so that the sliding block is fixed on the supporting frame; loosening the first limiting bolt, adjusting the adjusting block to reach the required height to enable the ditching wheel to meet the ditching height, screwing the first limiting bolt, fixing the adjusting block on the adjusting rod, and ditching to manufacture an arc-shaped surface; and after the arc-shaped surfaces are arranged in a row, loosening the first limiting bolt, heightening the slide bar, loosening the second limiting bolt, pushing the slide bar to the next position to be ditched, adjusting the height of the slide bar to be ditched, and sequentially carrying out the steps until the arc-shaped surfaces of the inclined surfaces of the roof are manufactured.

Preferably, the adjusting rod is provided with a first scale, and the support frame is provided with a second scale on one side of the sliding track of the sliding block.

Through adopting above-mentioned technical scheme, the regulation of the position of slide bar can be made things convenient for to first scale and second scale.

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

1. airflow diffuses outwards from the indoor through the ventilation opening, so that the indoor air ventilation performance is improved, and the ventilation opening can improve the indoor air flow rate, so that the indoor cooling speed is improved; in addition, the vent improves the contact area of the roof sloping plate and the air, accelerates the heat dissipation speed of the roof sloping plate, and brings the heat of the roof sloping plate to the outdoor air in the process that the air flows from the indoor to the outdoor through the vent, thereby reducing the temperature of the roof sloping plate;

2. according to the shape of the designed ventilation opening, a plastic foam block is prefabricated into a model, the model can be conveniently ejected out of the sloping plate of the roof after being destroyed during dismantling, the subsequent model is convenient to dismantle, and a hole caused by the model is the ventilation opening after the model is dismantled;

3. ditching motor drive ditching wheel rotates, drives out the slot between two adjacent models, and the concrete that ditching wheel was dug splashes toward the both sides of ditching wheel, is blockked by the baffle, stops in the both sides of the slot of digging, advances along with the drive trolley, and the clamp plate promotes the concrete of slot both sides and carries out the compaction, and the concrete compaction that will dig out is in the both sides of slot, forms multiseriate arcwall face at the surface on roof inclined plane, adopts ditching device to make the efficient of arcwall face.

Drawings

Fig. 1 is a schematic structural view of a green ecological roof according to an embodiment of the present application.

Fig. 2 is a flow chart of a construction method of a green ecological roof according to an embodiment of the present application.

Fig. 3 is a schematic structural view of a furrowing device used in a construction method of a green ecological roof according to an embodiment of the present application.

Description of reference numerals: 1. a roof sloping plate; 2. an arc-shaped surface; 3. a vent; 41. a support frame; 42. a slide bar; 43. driving the trolley; 44. a ditching wheel; 45. a baffle plate; 46. pressing a plate; 471. a slider; 472. adjusting a rod; 473. an adjusting block; 474. a first limit bolt; 475. and a second limit bolt.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses green ecological environment-friendly roof. Referring to fig. 1, a green ecological environment-friendly roof includes roof swash plate 1, and the surface of roof swash plate 1 is equipped with multiseriate arcwall face 2 that arches, is equipped with multiseriate vent 3 that runs through the internal surface and the surface of roof swash plate 1 in the roof swash plate 1, and on the arcwall face 2 was located to the outer end of vent 3, the inner of vent 3 was higher than the outer end of vent 3.

The cross section of the vent 3 is rectangular, the length of the vent 3 is more than 200mm, the height difference between the inner end of the vent 3 and the outer end of the vent 3 is not less than 10mm, the distance between the upper side wall of the vent 3 and the lower side wall of the vent 3 is 5-10mm, and the width of the vent 3 is 150 mm.

The fixed couple that is equipped with in below at the edge of roof swash plate 1, the couple can be used for hanging cultivated in a pot, keeps the green ecology on roof, keeps the air around the house clear simultaneously.

The implementation principle of the green ecological environment-friendly roof in the embodiment of the application is as follows: indoor temperature is high, and indoor air current improves indoor air circulation nature from indoor through vent 3 toward outer diffusion, vent 3 improves indoor air flow velocity to improve indoor cooling rate. In addition, the air vents 3 increase the contact area between the roof sloping plate 1 and the air, increase the heat dissipation speed of the roof sloping plate 1, and reduce the temperature of the roof sloping plate 1 by bringing the heat of the roof sloping plate 1 to the outdoor air in the process that the air flows from the indoor to the outdoor through the air vents 3. The cambered surface 2 can prevent rainwater from staying at the vent 3, and water leakage of the roof is avoided.

The embodiment of the application also discloses a construction method of the green ecological environment-friendly roof. Referring to fig. 2, a construction method of a green ecological environment-friendly roof includes the steps of:

s1, prefabricating the model: according to the designed shape of the ventilation opening 3, a plastic foam block is prefabricated into a model, the model is in a cuboid shape, and the shape of the model is the same as that of the ventilation opening 3. Prefabricating a template for pouring, wherein the template is made of wood plates.

S2, building a pouring template: drawing line elevation, coating a release agent on the surface of the template, building the template to the position where the roof sloping plate is poured, and binding reinforcing steel bars on the template. Then two steel nails are nailed into from bottom to top in the position of design installation model on the template respectively, after the steel nail is nailed, insert two steel nail internal fixation with the one end of model next, this section time of model installation on the steel nail after the steel nail is nailed, must have the workman to nurse by the steel nail, avoid other workings to step on the steel nail, in addition, if after the steel nail is nailed, do not install the model again, then need to hammer the steel nail and buckle, avoid the steel nail to other workings. The reinforcing bar needs to be avoided during model installation, and the distance between the model and the reinforcing bar is not less than 20mm, avoids model and reinforcing bar contact. The models are arranged into a plurality of columns, the models in the same column are bound with each other by adopting two ropes, the two ropes are respectively arranged on two sides of the models, the ropes enable the models in the same column to move in a mutual correlation manner, and the probability that a single model is separated from the template is reduced.

S3, pouring the sloping roof plate 1: and pouring concrete, conveying the concrete to a pouring position by adopting a pumping mode, fully vibrating the concrete while pouring, and keeping the surface of the concrete not higher than the outer end surface of the model.

S4, processing the outer surface of the sloping roof plate 1: before the concrete initial set, adopt ditching device with the concrete of the both sides of same row of model toward centre gathering and compaction for roof swash plate 1's surface forms multiseriate hunch-up arcwall face 2, and arcwall face 2 is run through to the outer end of model, and arcwall face 2 is leading-in with the rainwater toward both sides, is two adjacent arcwall faces 2 between for the concave surface, and the concave surface can carry out the water conservancy diversion to the rainwater, avoids the rainwater to stop on roof swash plate 1.

S5, removing the template and the model: and after the strength of the concrete meets the requirement, removing the template, and then ejecting the model out of the roof sloping plate 1 to form the vent 3. In-process that the model was demolishd, can use the sharp-pointed billet of one end earlier to run through the model, can use the hammer supplementary during running through, then extract the billet again, leave a hole of being convenient for the model shrinkage deformation on the model, then support on the model with the pole that one end was fixed with the board, with hammer pole, release vent 3 with the model.

Referring to fig. 3, when the ditching device is used, the ditching device is arranged between two rows of adjacent models to ditch concrete between the two rows of adjacent models and form an arc-shaped surface 2. The ditching device includes support frame 41, slide bar 42, driving trolley 43, ditching wheel 44, ditching motor, two baffles 45 and two clamp plates 46, and support frame 41 includes four vertical support bars, two horizontal bracing pieces and two vertical support bars, and two horizontal bracing pieces and two vertical support bars connect into a rectangle frame, four angles of rectangle frame of upper end difference fixed connection of four vertical support bars, and vertical support bar is fixed in on the wall. The slide bar 42 is parallel to the roof sloping plate 1, and two ends of the slide bar 42 are respectively connected with two transverse support bars in a sliding way through an adjusting mechanism. The driving trolley 43 is mounted on the sliding rod 42 and can move along the sliding rod 42, and a power mechanism for driving the trolley 43 to move is arranged in the driving trolley 43. Ditching wheel 44, ditching motor, two baffles 45 and two clamp plates 46 all install on drive dolly 43, and ditching wheel 44 rotates to be connected in the lower part of drive dolly 43, and the surface on ditching wheel 44 is equipped with two rows of symmetrical scrapers, and the scraper blade scrapes out the concrete toward the both sides of ditching wheel 44, and the both sides of ditching wheel 44 are vertically located to two baffles 45, and the lower part of baffle 45 is the same with the height of the axis of ditching wheel 44. The two pressing plates 46 are arranged behind the baffle 45 along the running direction of the driving trolley 43, the lower surfaces of the pressing plates 46 have the same radian as the designed arc-shaped surface 2, and the front ends of the two pressing plates 46 are fixedly connected with the rear ends of the two baffles 45 respectively. The front end of clamp plate 46 is equipped with one end direction section, and the rear end of clamp plate 46 is equipped with the compaction section, and the direction section is from top to bottom slope setting, and the lower extreme of direction section and the front end fixed connection of compaction section and junction rounding off, the direction section pushes away the concrete that baffle 45 intercepted down and levels, and the compaction section carries out the compaction to smooth concrete and forms arcwall face 2, and the compaction section is floating the vestige that baffle 45 caused on the concrete. The adjusting mechanism comprises a sliding block 471, an adjusting rod 472 and an adjusting block 473, the sliding block 471 is slidably mounted on the transverse supporting rod and can slide along the transverse supporting rod, the adjusting rod 472 is vertically fixed on the upper portion of the sliding block 471, the adjusting block 473 is slidably mounted on the adjusting rod 472 and can vertically slide along the adjusting rod 472, and the adjusting block 473 is fixedly connected with one end of the sliding rod 42. The adjusting block 473 is provided with a first limiting bolt 474, the first limiting bolt 474 can abut against the adjusting rod 472, the slider 471 is provided with a second limiting bolt 475, and the second limiting bolt 475 can abut against the transverse supporting rod. Be equipped with first scale on adjusting pole 472, can directly perceivedly know the height-adjusting of slide bar 42 through first scale, be equipped with the second scale on the horizontal bracing piece, can directly perceivedly know the horizontal adjusting position of slide bar 42 through the second scale. Ditching motor drive ditching wheel 44 rotates, and the slot is driven out between two adjacent models, and the concrete that ditching wheel 44 was dug splashes toward ditching wheel 44's both sides, is blockked by baffle 45, stops in the both sides of the slot of digging out, advances along with drive dolly 43, and clamp plate 46 promotes the concrete of slot both sides and carries out the compaction, and the concrete compaction that will dig out is in the both sides of slot, forms multiseriate arcwall face 2 at roof inclined plane's surface.

The implementation principle of the construction method of the green ecological environment-friendly roof in the embodiment of the application is as follows: adopt the plastic foam piece to prefabricate into the model, can conveniently destroy the model and ejecting from roof swash plate 1 during demolising, make things convenient for subsequent model to demolish, demolish the model after, the hole that the model caused is vent 3 promptly, adopt ditching device to gather and the compaction toward the centre to the concrete of the both sides of same row of model for the outer surface of the roof swash plate 1 of model department is higher than the roof swash plate 1 of model both sides, make the rainwater toward the both sides flow of vent 3, can't locate the accumulation at vent 3.

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

Claims (10)

1. The utility model provides a green ecological environmental protection roof which characterized in that: including roof swash plate (1), the surface of roof swash plate (1) is equipped with arc face (2) that the multiseriate hunch-up, be equipped with the multiseriate in roof swash plate (1) and run through the internal surface of roof swash plate (1) and vent (3) of surface, the outer end of vent (3) is located on arc face (2), the inner of vent (3) is higher than the outer end of vent (3).

2. The green ecological roof as claimed in claim 1, wherein: the length of the ventilation opening (3) is more than 200 mm.

3. The green ecological roof as claimed in claim 1, wherein: the height difference between the inner end of the ventilation opening (3) and the outer end of the ventilation opening (3) is not less than 10 mm.

4. The green ecological roof as claimed in claim 1, wherein: the distance between the upper side wall of the ventilation opening (3) and the lower side wall of the ventilation opening (3) is 5-10 mm.

5. A construction method of green ecological roof as claimed in any one of claims 1 to 4, comprising the steps of:

s1, prefabricating the model: according to the shape of the designed ventilation opening (3), a plastic foam block is prefabricated into a model, and the shape of the model is the same as that of the ventilation opening (3);

s2, building a pouring template: building a pouring template, binding reinforcing steel bars on the template, then fixedly mounting the model on the pouring template, avoiding the contact with the reinforcing steel bars, and arranging the models into a plurality of rows;

s3, pouring the sloping roof plate (1): pouring concrete, wherein the surface of the concrete is not higher than the outer end surface of the model;

s4, processing the outer surface of the sloping roof plate (1): gathering and compacting the concrete on two sides of the same row of models towards the middle by adopting a ditching device, so that a plurality of rows of arched arc-shaped surfaces (2) are formed on the outer surface of the roof sloping plate (1), and the outer ends of the models penetrate through the arc-shaped surfaces (2);

s5, removing the template and the model: and (3) after the strength of the concrete meets the requirement, removing the template, and then ejecting the model out of the sloping roof plate (1) to form the vent (3).

6. The construction method of green ecological roof as claimed in claim 5, wherein: in step S2, the distance between the installed form and the steel bar is not less than 20 mm.

7. The construction method of green ecological roof as claimed in claim 5, wherein: in step S2, two steel nails are driven into the position of the form mounting die from bottom to top, and then one end of the form is inserted into the two steel nails.

8. The construction method of green ecological roof as claimed in claim 5, wherein: the ditching device comprises a supporting frame (41), a sliding rod (42), a driving trolley (43), a ditching wheel (44), a ditching motor, two baffle plates (45) and two pressing plates (46), the sliding rod (42) is arranged on the supporting frame (41), the driving trolley (43) is arranged on the sliding rod (42) and can move along the sliding rod (42), the ditching wheel (44), the ditching motor, the two baffle plates (45) and the two pressure plates (46) are all arranged on the driving trolley (43), ditching wheel (44) rotate connect in the lower part of drive dolly (43), two baffle (45) are located the both sides of ditching wheel (44), two clamp plate (46) are all located baffle (45) are followed drive dolly (43) traffic direction's rear, two clamp plate (46) are two fixed connection respectively baffle (45).

9. The construction method of green ecological roof as claimed in claim 8, wherein: the sliding rod (42) is connected with the supporting frame (41) through an adjusting mechanism, the adjusting mechanism comprises a sliding block (471), an adjusting rod (472) and an adjusting block (473), the sliding block (471) is slidably mounted on the supporting frame (41) and can slide along the supporting frame (41) transversely, the adjusting rod (472) is fixed on the sliding block (471), the adjusting block (473) is slidably mounted on the adjusting rod (472) and can slide vertically along the adjusting rod (472), the sliding rod (42) is fixed on the adjusting block (473), the adjusting block (473) is provided with a first limiting bolt (474), the first limit bolt (474) can tightly abut against the adjusting rod (472), a second limit bolt (475) is arranged on the sliding block (471), the second limiting bolt (475) can abut against the supporting frame (41).

10. The construction method of green ecological roof as claimed in claim 9, wherein: the adjusting rod (472) is provided with a first scale, and the support frame (41) is provided with a second scale on one side of the sliding track of the sliding block (471).

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