CN209653240U - Roof ventilation temperature adjustment combination unit - Google Patents
Roof ventilation temperature adjustment combination unit Download PDFInfo
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- CN209653240U CN209653240U CN201920151682.4U CN201920151682U CN209653240U CN 209653240 U CN209653240 U CN 209653240U CN 201920151682 U CN201920151682 U CN 201920151682U CN 209653240 U CN209653240 U CN 209653240U
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- wall
- temperature adjustment
- roof ventilation
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- 238000009423 ventilation Methods 0.000 title claims abstract description 44
- 239000011464 hollow brick Substances 0.000 claims abstract description 69
- 239000000463 material Substances 0.000 claims description 9
- 239000011449 brick Substances 0.000 claims description 4
- 230000003447 ipsilateral effect Effects 0.000 claims description 4
- 230000000694 effects Effects 0.000 abstract description 12
- 238000009413 insulation Methods 0.000 abstract description 3
- 230000017525 heat dissipation Effects 0.000 description 6
- 238000010276 construction Methods 0.000 description 5
- 238000013461 design Methods 0.000 description 5
- 238000010586 diagram Methods 0.000 description 5
- 238000000034 method Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 3
- 230000007246 mechanism Effects 0.000 description 2
- 229920003023 plastic Polymers 0.000 description 2
- 239000004033 plastic Substances 0.000 description 2
- 238000012545 processing Methods 0.000 description 2
- 230000009467 reduction Effects 0.000 description 2
- 238000013022 venting Methods 0.000 description 2
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 1
- 238000005273 aeration Methods 0.000 description 1
- 238000004378 air conditioning Methods 0.000 description 1
- 230000004323 axial length Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000009529 body temperature measurement Methods 0.000 description 1
- 229910052799 carbon Inorganic materials 0.000 description 1
- 238000005266 casting Methods 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 230000001066 destructive effect Effects 0.000 description 1
- 238000001035 drying Methods 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 230000002787 reinforcement Effects 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 230000007480 spreading Effects 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
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Abstract
A kind of roof ventilation temperature adjustment combination unit, comprising multiple hollow bricks, it is multiple along longitudinal direction overlap and along transverse direction be overlapped in adjacent hollow bricks between the first wave plate and multiple are overlapped in adjacent hollow bricks along the longitudinal direction and are set to the second wave plate between adjacent first wave plate along the transverse direction.Each hollow brick includes top cover, two lateral brackets and multiple interior brackets for being respectively arranged at the wall extended respectively from the side wall of bottom wall, two side walls, multiple walls extended between the side wall from the bottom wall, linking extended from the bottom wall interval in the side wall with the wall.The bottom wall, the side wall, the wall and the top cover define the culvert of multiple ventilations jointly.After the completion of first wave plate and second wave plate overlap joint, multiple ventilating ducts that can reach heat insulation and dissipation effect are also formed.
Description
Technical field
The utility model relates to a kind of effectiveness structures for being set to building roof, more particularly to a kind of roof ventilation tune
Temperature combination unit.
Background technique
The roof of building is the part for being primarily subjected to sunshine, in about 10~12 hours one day sunshine-durations, roof
It can continue to absorb thermal energy due to by sunshine, if ventilation and heat can not be efficiently used, or reach heat-insulated effect by other mechanism
Fruit, then not only the temperature on roof can continue to rise or even thermal energy will be conducted from roof to space within doors, cause indoor sultry
Sense.In view of the ventilation and heat or heat-insulated demand on roof, current existing technology would generally be using modular construction come shape
At ventilating duct, and using specific heat-insulated material, the roof that reduction construction is completed as far as possible persistently absorbs heat.
However, using modular construction compared to integrated construction for, in addition to part is more and spends built-up time
Other than disadvantage, assembling difficulty also influences whether assembling rightness, and may influence the ventilating duct being pre-designed.And it uses merely
The mode of heat-insulated material, and the design of package assembly may be limited and influenced by material, it is difficult to it effectively combines logical
The design in air duct.Therefore, how to reduce number of parts and simplify assembling, and design enough airspaces and reach heat-insulated drop
Temp effect then becomes related fields pursuer and wants the emphasis broken through.
Summary of the invention
The purpose of this utility model is to provide it is a kind of can improve sunshine heating and assemble convenient roof ventilation temperature adjustment group
It attaches together and sets.
The utility model roof ventilation temperature adjustment combination unit, comprising it is multiple along transverse direction and longitudinal direction perpendicular to one another each other
It is spaced the hollow brick of array, multiple overlaps and be overlapped in along the transverse direction two adjacent hollow bricks along the longitudinal direction each other
Between the first wave plate and it is multiple be overlapped in along the longitudinal direction between two adjacent hollow bricks, and be set to along the transverse direction
The second wave plate between the first adjacent wave plate.
Each hollow brick include bottom wall, two be spaced each other along the transverse direction and from the side that the bottom wall extends in the same direction
Wall, multiple walls extended in the same direction between the side wall with the side wall from the bottom wall are connected and stand in the side wall with described
Top cover of the wall in contrast to the side of the bottom wall, two lateral brackets extended respectively from the side wall with direction away from each other,
And multiple interior brackets for being respectively arranged at the wall.The bottom wall, the side wall, the wall and the common boundary of the top cover
Make multiple penetrate through along the longitudinal direction and along the spaced culvert of the transverse direction.
Each first wave plate include axially extend and in the unrestrained peak piece of arc sheet, two respectively from the unrestrained peak piece phase
Anti- two sides extend outwardly and for be overlapped in the hollow brick lateral bracket Extendible flake and two it is past from the Extendible flake respectively
Direction away from each other extends, and is respectively formed the arc-like sheet of the arcuation in the same direction with the unrestrained peak piece.Wherein, second wave plate
It is the interior bracket for being overlapped in two adjacent hollow bricks.
It the purpose of this utility model and solves its technical problem also following technical measures can be used to further realize.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein each hollow brick further includes multiple from the bottom
Wall extends downwardly, and the foot material of multiple ventilating ducts is defined along the transverse direction interval.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein each hollow brick includes two walls, and
Two interior brackets extended respectively from the wall toward direction away from each other, and define three culverts.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein the unrestrained peak piece of each the first wave plate is along the axis
To section, be in anisopleual camber line.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein the unrestrained peak piece of each the first wave plate has along institute
The axial front end for being located at opposite end and rear end and two notch to set to the concave respectively from the front end and the rear end are stated,
Each first wave plate is the direction with the front end towards the front end of another the first wave plate, passes through first wave plate
Correspondence notch be mutually clamped and mutually overlapped along the longitudinal direction.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein there are two the Extendible flake tools of each the first wave plate
It sets to the concave respectively from the axial opposite end, and the side wall for for corresponding hollow brick stretches the tongue-and-groove set.
Preferably, roof ventilation temperature adjustment above-mentioned combination unit, wherein one of Extendible flake of each the first wave plate
Tool is stretched for the Extendible flake for another the first wave plate and to be set there are two setting to the concave respectively from the axial opposite end
Grooving.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein the arc-like sheet of each the first wave plate is to wear
In one of culvert of corresponding hollow brick, and contact in corresponding hollow brick be located at the ipsilateral side wall with it is described
Top cover.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein each second wave plate includes axially extending
Curved arc piece and two extend outwardly from the curved arc piece two opposite sides respectively, and for be overlapped in adjacent hollow bricks it is described in
The bonding jumper of bracket, there are two the opposite ends respectively certainly along axial direction to set to the concave for each bonding jumper tool, and for for correspondence
One of wall of hollow brick stretches the card slot set.
Preferably, roof ventilation temperature adjustment above-mentioned combination unit, the wherein wall of each hollow brick and the top
Being between lid is in be extended continuously and be mutually linked, and an arc-shaped top cambered surface, the curved arc of each the second wave plate is collectively formed
Piece is not bonded the top cambered surface completely.
Preferably, roof ventilation temperature adjustment combination unit above-mentioned, wherein the roof ventilation temperature adjustment combination unit also wraps
Containing the auxiliary unit for assembling the hollow brick, first wave plate and second wave plate, the auxiliary unit includes more
It is a for the fixed fork hook along the longitudinal direction overlapped first wave plate and at least one be arranged in multiple hollow bricks
Culvert, the cable wire of the relative position for fixing the hollow brick.
The beneficial effect of the utility model is: through the hollow brick, first wave plate and second wave plate
Three kinds of components are not required to additionally cooperate other tools or part, can assemble easy and conveniently.And after being completed, by each
The air passage formed after the culvert of hollow brick and first wave plate and second wave plate overlap joint, can pass through air-flow
The thermal energy of sunshine is removed, and forms heat-insulated mechanism whereby, indoor temperature is effectively reduced.
Detailed description of the invention
Fig. 1 is a stereogram exploded view, illustrates a first embodiment of the utility model roof ventilation temperature adjustment combination unit;
Fig. 2 is a perspective view, illustrates the hollow brick of the first embodiment;
Fig. 3 is a perspective view, illustrates one first wave plate of the first embodiment;
Fig. 4 is a front view, illustrates a unrestrained peak piece of first wave plate;
Fig. 5 is a perspective view, illustrates one second wave plate of the first embodiment;
Fig. 6 to Fig. 8 is set of process schematic diagram, illustrates the process for assembling the first embodiment;
Fig. 9 is a stereogram exploded view, illustrate two described in the first wave plate the case where mutually terminating;
Figure 10 is a schematic diagram, illustrates the ventilation effect formed after first wave plate mutually terminates;
Figure 11 is a schematic diagram, when illustrating to assemble the first embodiment, in the processing side of first wave plate on finished product periphery
Formula;
Figure 12 is a stereogram exploded view, is illustrated after executing processing as shown in figure 11, and the mode of first wave plate is assembled;
Figure 13 is the schematic diagram of side angle, illustrates heat dissipation and the insulative effectiveness of the first embodiment;
Figure 14 is the schematic diagram of a three-dimensional viewpoin, auxiliary Figure 10 illustrate the first embodiment in the heat dissipation of different direction and
Heat insulation;
Figure 15 is a perspective view different from the visual angle Figure 14, and it is scattered that cooperation Figure 14 illustrates that the first embodiment can produce together
The position of thermal effect;
Figure 16 is a stereogram exploded view, illustrates a second embodiment of the utility model roof ventilation temperature adjustment combination unit,
An and auxiliary unit of the second embodiment;
Figure 17 is a partial enlarged view, illustrates a fork hook of the auxiliary unit;And
Figure 18 is a perspective view, illustrates the case where second embodiment is completed.
Specific embodiment
The utility model is described in detail with reference to the accompanying drawings and embodiments.
Refering to fig. 1, a first embodiment of the utility model roof ventilation temperature adjustment combination unit, hangs down each other comprising multiple edges
A straight transverse direction T and a longitudinal direction V be spaced each other array hollow brick 1, it is multiple each other along the longitudinal direction V overlap and along institute
State the first wave plate 2 that transverse direction T is overlapped between two adjacent hollow bricks 1 and it is multiple be overlapped in along the longitudinal direction V it is adjacent
Between two hollow bricks 1, and it is set to along the transverse direction T the second wave plate 3 between the first adjacent wave plate 2.Wherein, described hollow
Brick 1 has constant weight, is the basis of construction roof ventilation temperature adjustment combination unit, and first wave plate 2 and second wave
Plate 3 is preferably made with plastics, can also be extensive using its own elasticity with elasticity other than forming and being easy and is low in cost
It answers power and assembles.
Referring to Fig.2, the hollow brick 1 is preferably made in a manner of casting by being cold-pressed, but it is not limited thereto.Each hollow brick 1
It is spaced each other including a bottom wall 11, two along the transverse direction T and the side wall that extends in the same direction from the bottom wall 11 12, two is from institute
State bottom wall 11 be connected between the side wall 12 with the wall 13, one that the side wall 12 extends in the same direction in the side wall 12 with it is described vertical
Wall 13 is extended respectively from the side wall 12 with direction away from each other in contrast to the top cover 14, two of the side of the bottom wall 11
15, two interior brackets 16 for being respectively arranged at the wall 13 of lateral bracket and four extend downwardly from the bottom wall 11, and along institute
It states the interval transverse direction T and defines the foot material 17 of three ventilating ducts 170.The bottom wall 11, the side wall 12, the wall 13,
And the top cover 14 defines three jointly and penetrates through along the longitudinal direction V and along the spaced culvert 100 of the transverse direction T.
Wherein, the interior bracket 16 is to extend respectively from the wall 13 toward the culvert 100 positioned at two sides.
Refering to Fig. 3 and Fig. 4 and cooperate Fig. 2, every one first wave plate 2 includes a unrestrained peak that is axially extending along one and being in arc sheet
Piece 21, two extends outwardly respectively from 21 two opposite sides of unrestrained peak piece and the lateral bracket 15 for being overlapped in the hollow brick 1
Extendible flake 22 and two extend respectively from the Extendible flake 22 toward direction away from each other, and be respectively formed one and the wave
The arc-like sheet 23 of the arcuation in the same direction of peak piece 21.As shown in figure 4, the unrestrained peak piece 21 of every one first wave plate 2 is along the axial section,
It is in anisopleual camber line on the basis of a center reference line L by lateral midpoint.Each wave peak piece 21 has edge
A front end 211 that the axial direction is located at opposite end and a rear end 212 and two are respectively from the front end 211 and the rear end
212 notch 213 to set to the concave.And there are two respectively from described axial opposite two for the tool of Extendible flake 22 of every one first wave plate 2
End sets to the concave, and for stretching the tongue-and-groove 221 set for the side wall 12 of corresponding hollow brick 1, and wherein an Extendible flake 22 also has two
It is a to set to the concave respectively from the axial opposite end, and the Extendible flake 22 for for another first wave plate 2 stretches the grooving set
222, that is to say, that every one first wave plate 2 only has the Extendible flake 22 of wherein side to be formed with the grooving 222.
Refering to Fig. 5 and cooperate Fig. 2, every one second wave plate 3 includes one along an axially extending curved arc piece 31 and two difference
Extend outwardly from 31 two opposite sides of curved arc piece, and the bonding jumper of the interior bracket 16 for being overlapped in adjacent hollow bricks 1
32, there are two respectively from the card slot 321 to set to the concave along axial opposite end for each tool of bonding jumper 32.
Refering to Fig. 6 to Fig. 8 and cooperate Fig. 2, is that elder generation is as illustrated in fig. 6, along the transverse direction when assembling this first embodiment
T positions the position of adjacent hollow brick 1, and a piece of first wave plate 2 is then set up in two adjacent hollow bricks 1 towards that
On this two lateral brackets 15.At this point, the tongue-and-groove 221 of the Extendible flake 22 of first wave plate 2, it will be respectively for described hollow
The two side walls 12 of brick 1 toward each other, which are stretched, sets, whereby in above-below direction and left and right directions all fixes first wave plate 2.Cause
The arc-like sheet 23 for first wave plate 2 is to be arranged in a wherein culvert 100 for corresponding hollow brick 1, and contact is in right
It answers hollow brick 1 to be located at the ipsilateral side wall 12 and the top cover 14, therefore passes through the elasticity that plastic material itself has, it can shape
First wave plate 2 is positioned at the limit power of up and down direction.It, will be a piece of described after the assembling for completing first wave plate 2
The curved arc piece 31 of second wave plate 3 is stretched is placed in the centrally located culvert 100 of corresponding hollow brick 1, at this time second wave plate 3
The bonding jumper 32 will be overlapped on the interior bracket 16 of the culvert 100 positioned at two sides respectively along the longitudinal direction V, and institute
It states card slot 321 and is then stretched respectively for the wall 13 of corresponding hollow brick 1 and set.Then, make second wave plate 3 along the longitudinal direction
The other end of V, be also fixed on one in an identical manner described in hollow brick 1, that is, complete the installing of second wave plate 3.
Refering to Fig. 9 and Figure 10, it is worth illustrating, overlaps two the first wave plates 2 when extending along the longitudinal direction V
When, be as illustrated in fig. 9, make one of them first wave plate 2 with the rear end 212 towards another the first wave plate 2 it is described after
The direction at end 212, is mutually clamped by the correspondence notch 213 of first wave plate 2 and is mutually overlapped along the longitudinal direction V.This
When, first wave plate 2 at the notch 213 other than being mutually clamped, the Extendible flake 22 of every one first wave plate 2,
It can stretch and be placed in the grooving 222 of the Extendible flake 22 of another first wave plate 2 respectively, make to be located at the ipsilateral Extendible flake 22 whereby
The similar fixed effect up and down being superimposed with each other is generated, the bond strength that first wave plate 2 mutually terminates effectively is strengthened.
1 and Figure 12 refering to fig. 1, when the spreading range of assembling has been approached expected size, in order to allow the finished product being completed
Peripheral part presentation is smooth, and according to every one first wave plate 2 along axial length dimension, middle section can be cut as illustrated in fig. 11
And leave adjacent to both ends and there are the side of integrated structure section 2 '.Since the side section 2 ' equally can pass through the unrestrained peak
The notch 213 of piece 21 and the tongue-and-groove 221 of the Extendible flake 22 and grooving 222, are terminated at another first wave plate 2, as long as cutting
Length it is appropriate, i.e., formed around finished product using side section 2 ', it is ensured that the finished product being completed is that periphery is presented
Smooth shape.
Again refering to Fig. 6 to Fig. 8 and Figure 12, through the above steps, as long as along the transverse direction T and longitudinal direction V according to
The position of the hollow brick 1 is set according to required size, then installs first wave plate 2 and second wave plate 3 successively, is not required to make
With any screw lock part, special tool(s), the destructive reinforcement process of mud work, piling, nailing reinforcing etc., Ji Ke are not needed yet
Do not change it is existing build object structure in the case where, cooperate needed for area roof and be laid with really.
Refering to fig. 13, the finished product after being completed, along the longitudinal direction V as shown in figure 12, in 2 phase of the first wave plate
The position mutually terminated, by the asymmetric kenel that the unrestrained peak piece 21 is presented, so that every one first wave plate 2 is from the front end
211 and from 212 end of rear end depending on shape can be presented difference, therefore when first wave plate 2 mutual overlap joint in a reverse direction
When, two can be formed along the longitudinal direction V by the unrestrained peak piece 21 of first wave plate 2 by the characteristic of above-mentioned shape difference
The venting channels 201 of perforation.And the culvert 100 of each hollow brick 1 and the foot material 17 support on the spot face when formed
Ventilating duct 170, also can be along the longitudinal direction V-arrangement at allowing the path of airflow.In addition, the wall 13 of each hollow brick 1
Being between the top cover 14 is in be extended continuously and be mutually linked, and an arc-shaped top cambered surface 134 is collectively formed, every one second wave
The curved arc piece 31 of plate 3 is not bonded the top cambered surface 134 completely, can form the ventilating path of different kenels whereby yet.It is good divulging information
In the case where good, the foot material 17 is cooperated to make the bottom wall 11 of the hollow brick 1 far from the design of ground a distance, moreover it is possible to effectively
Ponding is avoided, the drying for building object for being laid with this first embodiment is maintained.
4 and Figure 15 refering to fig. 1 is practical new in order to further increase this other than the ventilating path along the longitudinal direction V
The heat dissipation of type, heat-insulated efficiency, through the curved arc form that the arc-like sheet 23 of every one first wave plate 2 is presented, with the second adjacent wave
The segment difference that the bonding jumper 32 of plate 3 is formed can form the ventilating path along the transverse direction T, optimize heat-insulated and heat dissipation effect.
As shown in figure 15, generally with second wave plate 3, two hollow bricks 1 worn by one second wave plate 3, and with it is above-mentioned
One the second wave plate 3 cooperates, and is overlapped in the common structure of 2 part-structure of the first wave plate of the side of described two hollow bricks 1
(show as the imaginary line C of Figure 15 is enclosed) at a basic unit.Wherein, in a basic unit, exist there are two by described
It is not complete that the unrestrained peak piece 21 of first wave plate 2 is formed by two venting channels 201, the four curved arc pieces 31 in second wave plate 3
The top cambered surface 134 of the hollow brick 1 of full fitting two sides be formed by channel and six be formed in second wave plate 3 with
It is formed by channel between first wave plate 2 of two sides formation segment difference, a total basic unit can form ten different directions
Ventilation path either cooperate so that the first embodiment for building completion constitutes good and comprehensive aeration structure
Natural wind, or even free convection when without forced wind, can generate good ventilation, heat dissipation effect.
Specifically, through utility model people it is practical be laid with the first embodiment and execute temperature measurement, due to described
The planar extended structure completely built that first embodiment is constituted, can obstruct the sunlight of direct projection angle, in light direct projection really
In the case where especially can avoid light direct irradiation in building object surface.Object surface is built with midsummer direct projection, so that building object surface temperature
In the case where can be of about 60 DEG C, if using the cooling effect of the first embodiment up to 17 DEG C~21 DEG C of gap.It is dropped with this
Premised on temp effect, the temperature for reducing the interior space can be synchronized certainly, and the interior space can also reduce air-conditioning according to air conditioner
The running of machine is born, and a large amount of operating electricity charge and maintenance cost can be saved under being used for a long time, implements the environmental protection concept of carbon reduction.
6 and Figure 17 refering to fig. 1, for the utility model roof ventilation temperature adjustment combination unit second embodiment, described second
Embodiment and the first embodiment the difference is that: the second embodiment also includes one for assembling the hollow brick 1, institute
The auxiliary unit 4 of the first wave plate 2 and second wave plate 3 is stated, the auxiliary unit 4 includes multiple for fixing along described vertical
The fork hook 41 of direction V overlapped first wave plate 2, and at least one be arranged in multiple hollow bricks 1 culvert 100, be used for
The cable wire 42 of the relative position of the fixed hollow brick 1.
In order to further increase the strong of chain fixation between the hollow brick 1, first wave plate 2 and second wave plate 3
The fork hook 41 can be used in first wave plate 2 through mutually overlapped the position of the notch 213 to further fix in degree.
And an at least cable wire 42 optionally especially can also mutually wrap around the hollow brick 1 for being located at periphery, strengthen the sky
Strength of connection between heart brick 1.In addition to this, the second embodiment may achieve ventilation identical with the first embodiment, dissipate
Heat, heat insulation.
Refering to fig. 18, in addition to through ventilation, heat dissipation, heat-insulated effect and the effect of reach other than, when the hollow brick 1,
In the case that the size design of first wave plate 2 and second wave plate 3 is proper, escape demand can be cooperated, so that array is arranged
Distance between the hollow brick 1 of column maintains 55~60 centimeters, especially preferably meets common people's single step travel distance
58.5 centimeters.Therefore, when need the utility model roof ventilation temperature adjustment combination unit as escape platform in use, due to this reality
The robust structure using chain fixation is combined the unit with New Roof ventilating temperature-regulating, in the situation that each 1 position of hollow brick consolidates
Under, escape directly can be directly trampled for personnel.
Claims (11)
1. a kind of roof ventilation temperature adjustment combination unit;It is characterized by: the roof ventilation temperature adjustment combination unit includes:
Multiple hollow bricks are spaced each other array along transverse direction and longitudinal direction perpendicular to one another, each hollow brick includes bottom wall, two
It is a along the transverse direction be spaced each other and from side wall that the bottom wall extends in the same direction, it is multiple from the bottom wall between the side wall with
Wall that the side wall extends in the same direction, linking in the side wall and the wall in contrast to the side of the bottom wall top cover, two
It is a respectively from the side wall with away from each other direction extend lateral bracket and multiple Netos for being respectively arranged at the wall
Frame, the bottom wall, the side wall, the wall and the top cover define multiple penetrate through along the longitudinal direction and along institute jointly
State the spaced culvert of transverse direction;
Multiple first wave plates are overlapped along the longitudinal direction each other, and are overlapped between two adjacent hollow bricks along the transverse direction,
Each first wave plate include axially extend and in the unrestrained peak piece of arc sheet, two respectively from the unrestrained peak piece two opposite sides to
Outer extension and the Extendible flake of the lateral bracket for being overlapped in the hollow brick and two are respectively from the Extendible flake toward away from each other
Direction extend, and be respectively formed the arc-like sheet of the arcuation in the same direction with the unrestrained peak piece;And
Multiple second wave plates are overlapped in the interior bracket of two adjacent hollow bricks along the longitudinal direction, and along the transverse square
To being set between the first adjacent wave plate.
2. roof ventilation temperature adjustment combination unit according to claim 1, it is characterised in that: each hollow brick further includes more
It is a to be extended downwardly from the bottom wall, and define along the transverse direction interval foot material of multiple ventilating ducts.
3. roof ventilation temperature adjustment combination unit according to claim 1, it is characterised in that: each hollow brick includes two
The wall and two interior brackets extended respectively from the wall toward direction away from each other, and define described in three
Culvert.
4. roof ventilation temperature adjustment combination unit according to claim 1, it is characterised in that: the unrestrained peak of each the first wave plate
Piece is in anisopleual camber line along the axial section.
5. roof ventilation temperature adjustment combination unit according to claim 4, it is characterised in that: the unrestrained peak of each the first wave plate
Piece concaves from the front end and the rear end respectively with the front end and rear end that are located at opposite end along the axial direction and two
If notch, each first wave plate is the direction with the front end towards the front end of another the first wave plate, passes through institute
The correspondence notch for stating the first wave plate is mutually clamped and mutually overlaps along the longitudinal direction.
6. according to claim 1, roof ventilation temperature adjustment described in 4,5 any claims combines the unit, it is characterised in that: each
There are two the Extendible flake tools of a first wave plate sets to the concave from the axial opposite end respectively, and for for corresponding hollow
The side wall of brick stretches the tongue-and-groove set.
7. according to claim 1, roof ventilation temperature adjustment described in 4,5 any claims combines the unit, it is characterised in that: each
There are two one of Extendible flake tools of a first wave plate sets to the concave from the axial opposite end respectively, and for for another
The Extendible flake of one the first wave plate stretches the grooving set.
8. roof ventilation temperature adjustment according to claim 1 combination unit, it is characterised in that: each the first wave plate it is described
Arc-like sheet be arranged in one of culvert of corresponding hollow brick, and contact in corresponding hollow brick be located at it is ipsilateral described in
Side wall and the top cover.
9. roof ventilation temperature adjustment combination unit according to claim 3, it is characterised in that: each second wave plate includes edge
Axially extending curved arc piece and two extend outwardly from the curved arc piece two opposite sides respectively, and for being overlapped in adjacent hollow
The bonding jumper of the interior bracket of brick, there are two the opposite ends respectively certainly along axial direction to set to the concave for each bonding jumper tool, and
For stretching the card slot set for one of wall of corresponding hollow brick.
10. roof ventilation temperature adjustment according to claim 9 combination unit, it is characterised in that: each hollow brick it is described
It is and an arc-shaped top cambered surface to be collectively formed in being extended continuously and be mutually linked between wall and the top cover, each the
The curved arc piece of two wave plates is not bonded the top cambered surface completely.
11. roof ventilation temperature adjustment combination unit according to claim 1, it is characterised in that: the roof ventilation temperature adjustment
Combination unit is described auxiliary also comprising the auxiliary unit for assembling the hollow brick, first wave plate and second wave plate
Help unit include it is multiple for the fixed fork hook along the longitudinal direction overlapped first wave plate and at least one be arranged in it is more
The culvert of a hollow brick, the cable wire of the relative position for fixing the hollow brick.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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TW107217177 | 2018-12-18 | ||
TW107217177U TWM577038U (en) | 2018-12-18 | 2018-12-18 | Roof ventilation and temperature regulation assembly device |
Publications (1)
Publication Number | Publication Date |
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CN209653240U true CN209653240U (en) | 2019-11-19 |
Family
ID=66997125
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201920151682.4U Withdrawn - After Issue CN209653240U (en) | 2018-12-18 | 2019-01-29 | Roof ventilation temperature adjustment combination unit |
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CN (1) | CN209653240U (en) |
TW (1) | TWM577038U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111335556A (en) * | 2018-12-18 | 2020-06-26 | 詹广志 | Roof ventilation and temperature regulation combined device |
-
2018
- 2018-12-18 TW TW107217177U patent/TWM577038U/en unknown
-
2019
- 2019-01-29 CN CN201920151682.4U patent/CN209653240U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111335556A (en) * | 2018-12-18 | 2020-06-26 | 詹广志 | Roof ventilation and temperature regulation combined device |
CN111335556B (en) * | 2018-12-18 | 2021-04-06 | 詹广志 | Roof ventilation and temperature regulation combined device |
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TWM577038U (en) | 2019-04-21 |
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