CN105672589A - Intelligent air exhausting and heat dissipation device - Google Patents
Intelligent air exhausting and heat dissipation device Download PDFInfo
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- CN105672589A CN105672589A CN201610009958.6A CN201610009958A CN105672589A CN 105672589 A CN105672589 A CN 105672589A CN 201610009958 A CN201610009958 A CN 201610009958A CN 105672589 A CN105672589 A CN 105672589A
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- roof
- sluicing
- obstruct
- hole
- sluicing top
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04D—ROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
- E04D13/00—Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage; Sky-lights
- E04D13/17—Ventilation of roof coverings not otherwise provided for
- E04D13/174—Ventilation of roof coverings not otherwise provided for on the ridge of the roof
Abstract
The invention discloses an intelligent air exhausting and heat dissipation device which comprises a roof, a left drainage top, right drainage top, an additional left drainage top, an additional right drainage top and an outer roof. The roof is provided with an inner ventilation opening. The left drainage top and the right drainage top are provided with a left inner barrier and a right inner barrier. The bottom of the additional left drainage top and the bottom of the additional right drainage top are provided with drainage holes respectively. Heat dissipation holes are formed between the outer roof and the additional left and right drainage tops respectively. The device is characterized in that the included angles between the inner and right inner barriers and the roof are larger than 120 degrees, the stroke of the left and right drainage tops is larger than the stroke of the outer roof, and the hole diameter of the heat dissipation holes is multiple times that of the drainage holes. Accordingly, hot air in a room is exhausted from the inner ventilation opening to the heat dissipation holes, rainwater is drained from the drainage holes in a free falling body mode, and the amount of rainwater falling into the heat dissipation holes is multiple times that of the rainwater falling into the drainage holes, so that external rainwater is prevented from retrograding upwards from the left drainage top and the right drainage top, and the purposes of natural ventilation and complete rain blocking, environmental protection and energy saving are achieved.
Description
Technical field
The present invention relates to the ventilation system of a kind of buildings, particularly relate to a kind of intelligent array wind heat radiator.
Background technology
It is well known that owing to tradition buildings is by Exposure to Sunlight, it is easy to heat absorption, and not easy heat radiation, the especially buildings of concrete-containing building material, once irradiate by long-term sunlight daytime, it is easy to heat absorption, not easy heat radiation, and then affects room temp, promote room temp, or factory building is that varnish board is built, equally being easy to heat absorption, hot-fluid system rises from lower to upper, constantly promotes room temp, even if therefore to night in summer, still it is sultry hard to bear in room.
Though some dealers install fixing sprinkler additional on roof, like this, it is necessary to additionally install water pipe and water route additional, not only wasting water source, spray area is incomplete, uneven, dispels the heat limited; Some dealers, install heat radiation fan additional on roof, rotate by machine and discharge warm air, this heat radiation fan cost height of right device and palpus electricity consumption, and construction need to cut former roof; Or the material of the change building materials having, but solar heat protection building materials or constructional heat-insulating price height, have and use effect phase and not hot also vexed.
Conventional buildings can be seen a little roof in the most top place of ridge, these both sides, little roof are ventilative, can device window or blind window or net, hot-fluid in room can be discharged through both sides, little roof, but when meeting rainy or typhoon, windage is too big, and high wind accompanies rainwater also to penetrate in room through window, and inconvenient.
The present inventor once invented air discharging and radiating roof apparatus as shown in Figure 1, include a roof 10, one left sluicing top 11, one right sluicing top 12, one sets up left sluicing top 13, one sets up right sluicing top 14 and an outer roof 15, there are ventilation port 16 on roof 10, roof 10 is at least provided with left sluicing top 11 and a right sluicing top 12, a left inside obstruct 111 is had in one left sluicing top 11, left inside obstruct 111 is formed by the left top sluicing top 11 upwards extends, right sluicing has a right inside obstruct 121 in pushing up, right inside obstruct 121 is formed by the right top sluicing top 12 upwards extends, interior ventilation port 16 it is between left inside obstruct 111 and right inside obstruct 121, setting up left sluicing top 13 is positioned at above left sluicing top 11, lower section is provided with weep hole 131, setting up right sluicing top 14 is positioned at above right sluicing top 12, lower section is provided with weep hole 141, outer roof 15 is set up in above roof 10, with set up left sluicing top 13, set up and respectively have a heat radiation hole 17 between right sluicing top 14.
When the warm air in room is circulated to interior ventilation port 16 from lower to upper, then discharge warm air by heat radiation hole 17, discharge rainwater by weep hole 131, and the rainwater entered outside stopping by left inside obstruct 111, right inside obstruct 121, reach the object of natural ventilation.
As shown in Figure 2, also by this case contriver is invented, include a roof 20, one left sluicing top 21, one right sluicing top 22, one sets up left sluicing top 23, one sets up right sluicing top 24 and an outer roof 25, there are ventilation port 26 on roof 20, roof 25 is at least provided with left sluicing top 21 and a right sluicing top 22, a left inside obstruct 211 is had in left sluicing top 21, left inside obstruct 211 is formed by the left top sluicing top 21 upwards extends, and the angle on this left inside obstruct 211 and roof 20 is less than 120 degree of angles, a right inside obstruct 222 is had in right sluicing top 22, right inside obstruct 222 is formed by the right top sluicing top 22 upwards extends, and the angle on this right inside obstruct 222 and roof 22 is less than 120 degree of angles, setting up left sluicing top 23 stands on above left sluicing top 21, lower section is provided with weep hole 231, setting up right sluicing top 24 stands on above right sluicing top 22, lower section is provided with weep hole 241, outer roof 25 is set up in above roof 20, with set up left sluicing top 23, set up and respectively have a heat radiation hole 27 between right sluicing top 24.
When the warm air in room is circulated to interior ventilation port 26 from lower to upper, then discharge warm air by heat radiation hole 27, discharge rainwater by weep hole, and the rainwater entered outside stopping by left inside obstruct 23, right inside obstruct 24, reach the object of natural ventilation.
Above-mentioned two structures and " roof apparatus of natural convection " then released, all obtain industry certainly.
Summary of the invention
Main purpose of the present invention provides the buildings by the varnish board of tradition is built to reconstruct, ridge varnish board will be leaned on to remove, set up left and right sluicings top and outer roof in top, left and right sluicing top overlap joint one, construct simple and easy, the engineering time is short, with low cost, do not destroy original structure, safety reaches natural ventilation and keeps off the rain the intelligent array wind heat radiator of object without deceiving;
Another object of the present invention system provides the warm air in room to be circulated to air draft mouth from lower to upper, it flow to interior ventilation port again, warm air is discharged again by heat radiation hole, rainwater is discharged by weep hole in freely falling body mode, the rainwater made via and fall into by heat radiation hole, cannot by left sluicing top and right sluicings top retrograde and on, reaching natural ventilation keeps off the rain the intelligent array wind heat radiator of object completely;
The intelligent array wind heat radiator that the present invention the 3rd object system provides the roof of comparatively wide-angle A type applicable;
The intelligent array wind heat radiator that the present invention the 4th object system provides the roof of circular arc type applicable;
The present invention the 5th object system provides the roof of circular arc type or the intelligent array wind heat radiator of frame.
The above-mentioned technical problem of the present invention is mainly solved by following technical proposals:
A kind of intelligent array wind heat radiator, includes:
One roof is the top of a buildings, and there is ventilation port on roof, and roof is at least provided with a left sluicing top and right sluicing top;
One left sluicing top, is positioned at the left side above roof, has a left inside obstruct, and the top that left inside obstruct is left sluicing top extends and formed;
One right sluicing top, is positioned at the right above roof, has a right inside obstruct, and the top that right inside obstruct is right sluicing top extends and formed;
One sets up left sluicing top, is positioned at top, left sluicing top, and lower section is provided with weep hole;
One sets up right sluicing top, is positioned at top, right sluicing top, and lower section is provided with weep hole;
One outer roof, is set up in above roof, and set up left sluicing top, set up right sluicings top between respectively have a heat radiation hole;
It is characterized in that: the angle on this left inside obstruct and roof is greater than 120 degree of angles, the angle on this right inside obstruct and roof is also greater than 120 degree of angles, and the left top that sluices is greater than outer room top line journey with the right stroke sluicing top, and heat radiation hole opening is several times as much as weep hole opening;
Accordingly, warm air in room is circulated to interior ventilation port from lower to upper, warm air is discharged again by heat radiation hole, rainwater is discharged by weep hole in freely falling body mode, this left top that sluices is greater than outer room top line journey with the right stroke sluicing top, the amount of rainfall made via and fall into by heat radiation hole, it is several times as much as and enters from weep hole, use stop outer enter rainwater cannot by left sluicings top and right sluicings push up retrograde and on, more level and smooth along reducing windage and do not need power heat extraction by structure, reach natural ventilation and keep off the rain completely and reduce the windage energy-conservation object without carbon again.
As preferably, this weep hole position is lower than heat radiation position, hole.
As preferably, this heat radiation hole, outer roof is positioned at sets up lower section, left sluicing top, or heat radiation hole is positioned at, and setting up sluices pushes up lower section.
As preferably, this outer roof is a circular arc type roof, and the angle on its left inside obstruct and roof is 180 degree of angles to the maximum, the angle on this right inside obstruct and roof is maximum is also 180 degree of angles.
Another technical scheme of the present invention:
A kind of intelligent array wind heat radiator, includes:
One roof is the top of a buildings, and there is ventilation port on roof, and roof is at least provided with a left sluicing top and right sluicing top;
One left sluicing top, is positioned at the left side above roof, has a left inside obstruct, and the top that left inside obstruct is left sluicing top extends and formed;
One right sluicing top, is positioned at the right above roof, has a right inside obstruct, and the top that right inside obstruct is right sluicing top extends and formed;
One sets up left sluicing top, is positioned at top, left sluicing top, and lower section is provided with weep hole;
One sets up right sluicing top, is positioned at top, right sluicing top, and lower section is provided with weep hole;
One outer roof, is set up in above roof, and set up left sluicing top, set up right sluicings top between respectively have a heat radiation hole;
It is characterized in that: the angle on this left inside obstruct and roof is 180 degree of angles, the angle on this right inside obstruct and roof is also 180 degree of angles, set up left sluicing top and set up upper end, right sluicing top and be respectively overlapped in upper end, outer roof, respectively it is provided with a heat radiation hole, top, and the left top that sluices is greater than outer room top line journey with the right stroke sluicing top, the opening several times in heat radiation hole, top are greater than the opening of weep hole;
Accordingly, warm air in room is circulated to interior ventilation port from lower to upper, warm air is discharged again by heat radiation hole and heat radiation hole, top, rainwater is discharged by weep hole in freely falling body mode, this left sluicing is pushed up, the right stroke sluicing top and outer roof is greater than sets up left sluicing top, set up right sluicing top line journey, make the amount of rainfall fallen into via heat radiation hole, top, it is several times as much as and can enter from weep hole, use stop rainwater cannot by left sluicings top and right sluicings push up retrograde and on, more level and smooth along reducing windage and do not need power heat extraction by structure, reach natural ventilation keep off the rain completely and reduce the windage energy-conservation object without carbon again.
As preferably, this weep hole position is lower than heat radiation position, hole.
3rd technical scheme of the present invention:
A kind of intelligent array wind heat radiator, includes:
One roof is the top of a buildings, has ventilation port in, is at least provided with left sluicing top and the right sluicing top of circular arc type;
One left sluicing top, is positioned at the left side above roof;
One right sluicing top, is positioned at the right above roof;
One outer roof, is set up in above roof;
It is characterized in that: this outer roof and roof are upper-lower position, at least forming an outer air draft mouth, have at least one ventilative pipe within this outer air draft mouth, this ventilative pipe is provided with a plurality of asymmetric air-permeating hole;
Accordingly, warm air in room is circulated to interior ventilation port from lower to upper, it flow to ventilative pipe again through air-permeating hole, warm air is discharged again by outer air draft mouth, and stop that rainwater enters interior ventilation port by ventilative pipe, discharge rainwater in freely falling body mode by left and right sluicing top, reach the object that natural ventilation is kept off the rain completely.
As preferably, there is a left extension on this left sluicing top, form single outer air draft mouth.
As preferably, forming two outer air draft mouths between this outer roof and roof, respectively have ventilative pipe in two outer air draft mouths.
The useful effect of the present invention:
A kind of intelligent array wind heat radiator of the present invention, it is that the buildings built the varnish board of tradition reconstructs (or the buildings of newly-built baking finish wave board also can directly build), thus the warm air become in a kind of room is circulated to interior ventilation port from lower to upper, warm air is discharged again by heat radiation hole, rainwater is discharged by weep hole in freely falling body mode, its construction is simple and easy, the engineering time is short, with low cost, do not destroy original structure, do not use the energy, and can natural ventilation keep off the rain, be the heat abstractor of a kind of safety and environmental protection.
Accompanying drawing explanation
Fig. 1 is the roof apparatus diagrammatic cross-section of known air discharging and radiating.
Fig. 2 is the roof apparatus diagrammatic cross-section of another known air discharging and radiating.
Fig. 3 is the present invention the 1st embodiment diagrammatic cross-section.
Fig. 4 is the present invention the 2nd embodiment diagrammatic cross-section.
Fig. 5 is the present invention the 3rd embodiment diagrammatic cross-section.
Fig. 6 is the diagrammatic cross-section of the present invention the 4th embodiment.
Fig. 7 is the ventilative pipe section enlarged diagram of Fig. 6.
Fig. 8 is the ventilative pipe schematic perspective view of Fig. 6.
Fig. 9 is the present invention the 5th embodiment diagrammatic cross-section.
Description of reference numerals:
10, roof, 11 left sluicing tops, 12, right sluicings top, 13, top of setting up left sluicings, 14, set up right sluicing and push up, 15, outer roof, 16, interior ventilation port, 111, left inside obstruct, 121, right inside obstruct, 131, weep hole, 141, weep hole, 17, hole of dispelling the heat;
20, roof, 21, left sluicing top, 22, right sluicings top, 23, top of setting up left sluicings, 24, set up right sluicing and push up, 25, outer roof, 26, interior ventilation port, 211, left inside obstruct, 222, right inside obstruct, 231, weep hole, 241, weep hole, 27, hole of dispelling the heat;
30, roof, 31, left sluicing top, 32, right sluicings top, 33, top of setting up left sluicings, 34, set up right sluicing and push up, 35, outer roof, 36, interior ventilation port, 311, left inside obstruct, 321, right inside obstruct, 331, weep hole, 341, weep hole, 37, hole of dispelling the heat;
40, roof, 41, left sluicing top, 42, right sluicings top, 43, top of setting up left sluicings, 44, set up right sluicing and push up, 45, outer roof, 46, interior ventilation port, 411, left inside obstruct, 421, right inside obstruct, 431, weep hole, 441, weep hole, 47, hole of dispelling the heat;
50, roof, 51, left sluicing top, 52, right sluicings push up, 53, left sluicing top is set up, 54, set up right sluicings and push up, 55, outer roof, 56, interior ventilation port, 511, left inside obstruct, 521, right inside obstruct, 531, weep hole, 541, weep hole, 551, heat radiation hole, 552, heat radiation hole, 57, top heat radiation hole, 58, ridge cover plate;
60, roof, 61, left sluicing top, 62, right sluicings push up, 63, outer roof, 64, interior ventilation port, 611, left extension, 65, outer air draft mouth;
70, ventilative pipe, 71, air-permeating hole;
80, roof, 81, left sluicing top, 82, right sluicings push up, 83, outer roof, 84, interior ventilation port, 85, outer air draft mouth.
Embodiment
Below by embodiment, and by reference to the accompanying drawings, the technical scheme of the present invention is described in further detail.
Embodiment:
The device of a kind of intelligent air discharging and radiating of the present invention, the buildings that the baking finish wave board of tradition is built is reconstructed (or the buildings of newly-built baking finish wave board also can directly build) by main system,
The present invention the 1st embodiment, as shown in Figure 3, the present invention includes a roof 30, one left sluicing top 31, one right sluicing top 32, one sets up left sluicing top 33, one sets up right sluicing top 34 and an outer roof 35, roof 30 is the top of a buildings, for the roof 30 of A type, there are ventilation port 36 on roof 30, roof 30 is at least provided with left sluicing top 31 and a right sluicing top 32, the baking finish wave boards that left sluicing top 31 and the right top 32 that sluices all belong to flat, one left sluicing top 31 is positioned at the left side above roof 30, inside there is a left inside obstruct 311, left inside obstruct 311 is formed by the left top sluicing top 31 upwards extends, and the angle on this left inside obstruct 311 and roof 30 is greater than 120 degree of angles, (left inside obstruct 311 mainly tie up to left sluice top 31 tops part baking finish wave board remove after, increase by a left inside obstruct 311), right sluicing top 32 is positioned at the right above roof 30, inside there is a right inside obstruct 321, right inside obstruct 321 is formed by the right top sluicing top 32 upwards extends, and the angle on this right inside obstruct 321 and roof is also greater than 120 degree angles (after right inside obstruct 321 mainly ties up to the part baking finish wave board dismounting on right 32 tops, top that sluice, increase by a right inside obstruct 321), interior ventilation port 36 it is between left inside obstruct 311 and right inside obstruct 321, setting up left sluicing top 33 is positioned at above left sluicing top 31, lower section is provided with weep hole 331, setting up right sluicing top 34 is positioned at above right sluicing top 32, lower section is provided with weep hole 341, outer roof 35 is set up in above roof 30, with set up left sluicing top 33, set up and respectively have a heat radiation hole 37 between right sluicing top 34, heat radiation hole 37 opening is several times as much as weep hole 331, 341, weep hole 331, 341 openings of sizes are only held and are discharged rainwater and position lower than heat radiation position, hole 37, and the left top 31 that sluices is greater than outer roof 35 stroke with the right stroke sluicing top 32, ridge baking finish wave board will be leaned on to remove, its primary structure does not change, set up left sluicing top 33, right sluicing top 34 and outer roof 35, also can be provided with skeleton to support, this heat radiation hole, outer roof 37 is positioned to be set up below left sluicing top 33, or set up below right sluicing top 34.
The structure device of above, the device of a kind of intelligent air discharging and radiating of the present invention, the 1st embodiment, the warm air in room is circulated to interior ventilation port 36 from lower to upper, then discharges warm air by heat radiation hole 37, discharges in roundabout large S-shaped convection type; Rainwater is discharged by weep hole 331,341 in freely falling body mode, this left top 31 that sluices is greater than outer roof 35 stroke with the right stroke sluicing top 32, the amount of rainfall made via and fall into by heat radiation hole 37, it is several times as much as and can enter from weep hole 331,341, use stop rainwater cannot by left sluicings push up 31 with right sluicings push up 32 retrograde and on, solve rainwater expulsion problem, without the need to electric power, more level and smooth along reducing windage and do not need power heat extraction by structure, reach natural ventilation and keep off the rain completely and reduce the windage energy-conservation object without carbon again.
The present invention the 2nd embodiment, as shown in Figure 4, include a roof 40, one left sluicing top 41, one right sluicing top 42, one sets up left sluicing top 43, one sets up right sluicing top 44 and an outer roof 45, roof 40 is the top of a buildings, there are ventilation port 46 on roof 40, roof 45 is at least provided with left sluicing top 41 and a right sluicing top 42, the baking finish wave boards that left sluicing top 41 and the right top 42 that sluices all belong to flat, one left sluicing top 41 is positioned at the left side above roof 40, inside there is a left inside obstruct 411, the top that left inside obstruct 411 is the left top 41 that sluices extends and is formed, and the angle on this left inside obstruct 411 and roof 40 is 180 degree of angles to the maximum, right sluicing top 42 is positioned at the right above roof 40, inside there is a right inside obstruct 421, the top that right inside obstruct 421 is the right top 42 that sluices extends and is formed, and this right inside obstruct 421 maximum with the angle on roof 40 be also 180 degree of angles, interior ventilation port 46 it is between left inside obstruct 411 and right inside obstruct 421, setting up left sluicing top 43 is positioned at above left sluicing top 41, lower section is provided with weep hole 431, setting up right sluicing top 44 is positioned at above right sluicing top 42, lower section is provided with weep hole 441, outer roof 45 is set up in above roof 40, outer roof 45 is a circular arc type roof, with set up left sluicing top 43, set up and respectively have a heat radiation hole 47 between right sluicing top 44, opening is several times as much as weep hole 431, 441, weep hole 431, 441 openings of sizes are only held and are discharged rainwater and position lower than heat radiation hole 47, and the left top 41 that sluices is greater than outer roof 45 stroke with the right stroke sluicing top 42.
The structure device of above, 2nd embodiment, warm air in room is circulated to interior ventilation port 46 from lower to upper, warm air is discharged again by heat radiation hole 47, discharge in roundabout large S-shaped convection type, rainwater is discharged by weep hole 431 in freely falling body mode, this left top 41 that sluices is greater than outer roof 45 stroke with the right stroke sluicing top 42, the amount of rainfall made via and fall into by heat radiation hole 47, it is several times as much as from weep hole 431, 441 amount of rainfalls that can enter, use stop rainwater, cannot by left sluicing push up 41 with right sluicings top 42 retrograde and on, solve rainwater expulsion problem, without the need to electric power, more level and smooth along reducing windage and do not need power heat extraction by structure, reach natural ventilation keep off the rain completely and reduce the windage energy-conservation object without carbon again.
The present invention the 3rd embodiment, as shown in Figure 5, it is include a roof 50, one left sluicing top 51, one right sluicing top 52, one sets up left sluicing top 53, one sets up right sluicing top 54 and an outer roof 55, roof 50 is the top of a buildings, there are ventilation port 56 on roof 50, roof 50 is at least provided with left sluicing top 51 and a right sluicing top 52, left sluicing top 51 is positioned at the left side above roof 50, there is a left inside obstruct 511, the top that left inside obstruct 511 is the left top 51 that sluices extends and is formed, this left inside obstruct 511 is 180 degree of angles to the maximum with the angle on roof 50, right sluicing top 52 is positioned at the right above roof 50, there is a right inside obstruct 521, the top that right inside obstruct 521 is the right top 52 that sluices extends and is formed, this right inside obstruct 521 is maximum with the angle on roof 50 is also 180 degree of angles, setting up left sluicing top 53 is positioned at above left sluicing top 51, lower section is provided with weep hole 531, setting up right sluicing top 54 is positioned at above right sluicing top 52, lower section is provided with weep hole 541, set up left sluicing top 53 and have a ridge cover plate 58 in 54 intersections, right sluicing top with setting up, outer roof 55 is set up in above roof 50, with set up left sluicing top, set up between right sluicing is pushed up and respectively have a heat radiation hole 551, 552, set up left sluicing top 53 and set up 54 upper ends, right sluicing top and be respectively overlapped in outer roof 55 and upper end, roof 50, respectively it is provided with a heat radiation hole, top 57, heat radiation hole 57, top opening is several times as much as weep hole 531, 541, weep hole 531, 541 openings of sizes only hold discharge rainwater, and position is lower than heat radiation hole 551, 552, and the left top 51 that sluices is greater than outer roof 55 stroke with the right stroke sluicing top 52.
The structure device of above, the 3rd embodiment, the warm air in room is circulated to interior ventilation port 56 from lower to upper, then discharges warm air by heat radiation hole 551,552 and heat radiation hole 57, top, discharges in roundabout large S-shaped convection type, rainwater in freely falling body mode by weep hole 531, 541 discharge, openings of sizes only holds discharge rainwater, this left sluicing top 51, the right stroke sluicing top 52 and outer roof 55 is greater than sets up left sluicing top 51, set up right sluicing top 52 strokes, make via and dispel the heat by top hole 57 and heat radiation hole 551, 552 rainwater fallen into, cannot by left sluicing push up 51 with right sluicings top 52 retrograde and on, make the amount of rainfall fallen into via heat radiation hole 57, top, it is several times as much as the amount of rainfall that can enter from weep hole 531, use outside stopping the rainwater entered, more level and smooth along reducing windage and do not need power heat extraction by structure, reach natural ventilation keep off the rain completely and reduce the windage energy-conservation object without carbon again.
The present invention the 4th embodiment, see 6, 7, shown in 8 figure, it is include a roof 60, one left sluicing top 61, one right sluicing top 62 and an outer roof 63, roof 60 is the top of a buildings, there are ventilation port 64 in, at least it is provided with the left sluicing top 61 of circular arc type and right sluicing top 62, left sluicing top 61 is positioned at the left side above roof 60, right sluicing top 62 is positioned at the right above roof 60, outer roof 63 is set up in above roof 60, this outer roof 63 is upper-lower position with roof 60, there is a left extension 611 on left sluicing top 61, form single outer air draft mouth 65, within this outer air draft mouth 65, there is at least one ventilative pipe 70, this ventilative pipe 70 is provided with a plurality of asymmetric air-permeating hole 71.
The structure device of above, 4th embodiment, when producing a preset temperature in room or in frame, in room or the warm air of frame be circulated to interior ventilation port 64 from lower to upper, it flow to ventilative pipe 70 again through air-permeating hole 71, discharge warm air by outer air draft mouth 65 again, discharge in roundabout large S-shaped convection type; And stop that rainwater enters interior ventilation port 64 by ventilative pipe 70, in freely falling body mode by left sluicing top 61, right sluicing top 62 discharge rainwater, reach the object that natural ventilation is kept off the rain completely, and the 4th applicable frame set up in open air of embodiment.
The present invention the 5th embodiment, as shown in Figure 9, it is include a roof 80, one left sluicing top 81, one right sluicing top 82 and an outer roof 83, roof 80 is the top of a buildings, there are ventilation port 84 in, at least it is provided with the left sluicing top 81 of circular arc type and right sluicing top 82, left sluicing top 81 is positioned at the left side above roof 80, right sluicing top 82 is positioned at the right above roof 80, outer roof 83 is set up in above roof 80, this outer roof 83 is upper-lower position with roof 80, two outer air draft mouths 85 are formed between this outer roof 83 and roof 80, ventilative pipe 70 is respectively had in two outer air draft mouths 85, this ventilative pipe 70 is provided with a plurality of asymmetric air-permeating hole 71.
The structure device of above, 5th embodiment, when producing a preset temperature in room or in frame, in room or the warm air of frame be circulated to interior ventilation port 84 from lower to upper, it flow to ventilative pipe 70 again through air-permeating hole 71, warm air is discharged again by outer air draft mouth 85, and stop that rainwater enters interior ventilation port 84 by ventilative pipe 70, in freely falling body mode by left sluicing top 81, right sluicing top 82 discharge rainwater, more level and smooth along reducing windage and do not need power heat extraction by structure, reach natural ventilation and keep off the rain completely and reduce the windage energy-conservation object without carbon again.
Claims (9)
1. an intelligent array wind heat radiator, includes:
One roof is the top of a buildings, and there is ventilation port on roof, and roof is at least provided with a left sluicing top and right sluicing top;
One left sluicing top, is positioned at the left side above roof, has a left inside obstruct, and the top that left inside obstruct is left sluicing top extends and formed;
One right sluicing top, is positioned at the right above roof, has a right inside obstruct, and the top that right inside obstruct is right sluicing top extends and formed;
One sets up left sluicing top, is positioned at top, left sluicing top, and lower section is provided with weep hole;
One sets up right sluicing top, is positioned at top, right sluicing top, and lower section is provided with weep hole;
One outer roof, is set up in above roof, and set up left sluicing top, set up right sluicings top between respectively have a heat radiation hole;
It is characterized in that: the angle on this left inside obstruct and roof is greater than 120 degree of angles, the angle on this right inside obstruct and roof is also greater than 120 degree of angles, and the left top that sluices is greater than outer room top line journey with the right stroke sluicing top, and heat radiation hole opening is several times as much as weep hole opening;
Accordingly, warm air in room is circulated to interior ventilation port from lower to upper, warm air is discharged again by heat radiation hole, rainwater is discharged by weep hole in freely falling body mode, this left top that sluices is greater than outer room top line journey with right stroke sluicing top, make via and by the amount of rainfall that falls into of heat radiation hole, be several times as much as and enter from weep hole, use stop outer enter rainwater not easily by left sluicings top and right sluicings push up retrograde and on, reach the object that natural ventilation is kept off the rain completely and reduced windage energy-conserving and environment-protective again.
2. intelligent array wind heat radiator according to claim 1, it is characterised in that: this weep hole position is lower than heat radiation position, hole.
3. intelligent array wind heat radiator according to claim 1, it is characterised in that: this heat radiation hole, outer roof is positioned at sets up lower section, left sluicing top, or heat radiation hole is positioned at, and setting up sluices pushes up lower section.
4. intelligent array wind heat radiator according to claim 1, it is characterized in that: this outer roof is a circular arc type roof, the angle on its left inside obstruct and roof is 180 degree of angles to the maximum, and the angle on this right inside obstruct and roof is maximum is also 180 degree of angles.
5. an intelligent array wind heat radiator, includes:
One roof is the top of a buildings, and there is ventilation port on roof, and roof is at least provided with a left sluicing top and right sluicing top;
One left sluicing top, is positioned at the left side above roof, has a left inside obstruct, and the top that left inside obstruct is left sluicing top extends and formed;
One right sluicing top, is positioned at the right above roof, has a right inside obstruct, and the top that right inside obstruct is right sluicing top extends and formed;
One sets up left sluicing top, is positioned at top, left sluicing top, and lower section is provided with weep hole;
One sets up right sluicing top, is positioned at top, right sluicing top, and lower section is provided with weep hole;
One outer roof, is set up in above roof, and set up left sluicing top, set up right sluicings top between respectively have a heat radiation hole;
It is characterized in that: the angle on this left inside obstruct and roof is 180 degree of angles, the angle on this right inside obstruct and roof is also 180 degree of angles, set up left sluicing top and set up upper end, right sluicing top and be respectively overlapped in upper end, outer roof, respectively it is provided with a heat radiation hole, top, and the left top that sluices is greater than outer room top line journey with the right stroke sluicing top, the opening several times in heat radiation hole, top are greater than the opening of weep hole;
Accordingly, warm air in room is circulated to interior ventilation port from lower to upper, warm air is discharged again by heat radiation hole and heat radiation hole, top, rainwater is discharged by weep hole in freely falling body mode, this left top that sluices, the right top that sluices are greater than with the stroke on outer roof to be set up left sluicings and pushes up, sets up right sluicing top line journey, make the amount of rainfall fallen into via heat radiation hole, top, it is several times as much as and can enter from weep hole, use stop rainwater not easily by left sluicings top and right sluicings push up retrograde and on, reach the object that natural ventilation is kept off the rain completely and reduced windage energy-conserving and environment-protective again.
6. intelligent array wind heat radiator according to claim 5, it is characterised in that: this weep hole position is lower than heat radiation position, hole.
7. an intelligent array wind heat radiator, includes:
One roof is the top of a buildings, has ventilation port in, is at least provided with left sluicing top and the right sluicing top of circular arc type;
One left sluicing top, is positioned at the left side above roof;
One right sluicing top, is positioned at the right above roof;
One outer roof, is set up in above roof;
It is characterized in that: this outer roof and roof are upper-lower position, at least forming an outer air draft mouth, have at least one ventilative pipe within this outer air draft mouth, this ventilative pipe is provided with a plurality of asymmetric air-permeating hole;
Accordingly, warm air in room is circulated to interior ventilation port from lower to upper, it flow to ventilative pipe again through air-permeating hole, warm air is discharged again by outer air draft mouth, and stop that rainwater enters interior ventilation port by ventilative pipe, discharge rainwater in freely falling body mode by left and right sluicing top, reach the object that natural ventilation is kept off the rain completely and reduced windage energy-conserving and environment-protective again.
8. intelligent array wind heat radiator according to claim 7, it is characterised in that: there is a left extension on this left sluicing top, forms single outer air draft mouth.
9. intelligent array wind heat radiator according to claim 7, it is characterised in that: form two outer air draft mouths between this outer roof and roof, in two outer air draft mouths, respectively have ventilative pipe.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610009958.6A CN105672589A (en) | 2016-01-07 | 2016-01-07 | Intelligent air exhausting and heat dissipation device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610009958.6A CN105672589A (en) | 2016-01-07 | 2016-01-07 | Intelligent air exhausting and heat dissipation device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN105672589A true CN105672589A (en) | 2016-06-15 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201610009958.6A Pending CN105672589A (en) | 2016-01-07 | 2016-01-07 | Intelligent air exhausting and heat dissipation device |
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| Country | Link |
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| CN (1) | CN105672589A (en) |
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Application publication date: 20160615 |