CN105484431A - Tile capable of preventing backflow - Google Patents

Abstract

The present invention relates to a tile capable of preventing a backflow and, The tile is characterized in that an upper flange, which has a drain groove, and a drain channel, along which rainwater is drained, are formed on the surface of the body of the tile; a lower flange is formed on the back surface of the body, the lower flange having guide protrusions for discharging frost, a back surface for preventing a backflow of rain drops, and an auxiliary protrusion portion; a drain groove and a drain channel are formed on the upper flange on the surface of the body, the drain groove penetrating the upper flange in the up/down direction, and the drain channel being arranged on the lower portion of the upper flange and being shaped to be open downwards such that rainwater is drained; guide protrusions and a drain surface are formed on the back surface of the body, the guide protrusions being arranged on the lower portion of an attachment surface, in order to discharge frost, in the shape of bands protruding from the left and right sides of the back surface so as to face each other, the guide protrusions on the left and right sides being inclined in a V-shape, and the drain surface being arranged between the guide protrusions and a clinging groove and being formed in the back surface in a flat manner in order to be connected with the clinging groove. The frost flows into the center of the back surface along the guide protrusions. The tile is capable of preventing leakage of water.

Description

Can prevent adverse current watt

Technical field

The present invention relates to can prevent adverse current watt, more specifically, relate to as follows a kind of prevent adverse current watt, it is characterized in that, watt body surfaces be formed with the upper flange with rhone and the draining road for rain-water drainage,

At the back side of described main body, be formed the guide hump for discharging frostwork, for make raindrop (S) cannot adverse current the back side, there is the lower flange in auxiliary projection portion;

At the upper surface flange of described main body, be formed with the rhone that vertically side is formed through, meanwhile, be formed with the draining road of open shape downwards, described draining road is configured at the bottom of described upper flange, so that rain-water drainage;

At the back side of described main body, be formed with guide hump and draining face to discharge frostwork, described guide hump is configured at the bottom of attachment surface, the band shape protruded overleaf opposite to each other in left and right side, tilts make left and right side form V-arrangement; Described draining face is configured at described guide hump and is adjacent between groove, is formed flatly overleaf, to be adjacent to groove described in being connected to, to be configured and frostwork can be made to flow into the central authorities at the back side along described guide hump; Be formed with the auxiliary projection of the band shape be configured between described draining face and lower flange, and lower flange is formed obliquely, makes the back side more more increase upward; The frostwork being configured the described draining face of induction inflow flows to side by means of the auxiliary projection protruded, and drops onto the main body being positioned at below; Draining road is formed wide at the top and narrow at the bottomly, makes upper flange from main body until lower flange, has drainage distance to greatest extent, and, form the surface area to both sides to greatest extent commodiously, cut off the adverse current of rainwater, thus can prevent drainage, be configured the corrosion that can prevent framework.

Background technology

Generally speaking, watt be clay of becoming reconciled, it is shaping, dry in a mold, refine in firing furnace and form, as the roof Material of building, its kind forms verge tile, plain tile, watt lamp, ridge tiles, tap, the concave tile that drips, drip various form and the shapes such as convex tile according to form and use location.

And, so manufacture watt on the top of building, on the timber frame of being constructed with clathrate by beam and vertical wood, vertically square overlap puts construction.

Then, side adjoin watt between finish up with watt covering to cover watt by name.

On the other hand, if examination watt (1) in the past as shown in Figure 1, in four side plate shapes, be formed with the main body (10) of the circle that left and right side tilts, if observe section, form arc (ARC) shape of caving in downwards.

In addition, be protruding with lower flange (20) at the back side of the lower terminal end of described main body (10), be configured the rainwater that prevents from discharging along the phenomenon of main body (10) back side adverse current.

And, on the top of described main body (10) surface (15), be protruding with upper flange (30), make to prevent rainwater adverse current and the framework that leaks phenomenon.

Wherein, protrude in the side, left and right of described main body (10) and be formed with side flange (40), rainwater cannot be leaked to side.

And, in order to construct on framework to watt (1), as shown in Figure 2, on the beam (T) of the middle bottom of framework (F), put the first piece watt (1), put thereon the second piece watt (1), now, make lower flange (20) be positioned at upper flange (30) below of the first piece watt (1).

In this way, put watt (1) from below upward and construct overlappingly.

On the other hand, if the problem of examination watt (1) in the past that formed like this, then as follows.

The first, as shown in Figure 2, during rainfall, along described main body (10), trickling is to the rainwater of below along lower terminal end, condenses in the lower end of lower flange (20).

Now, if wind blows inversely, then raindrop cross the upper flange (30) of watt (1) being configured at below, drop onto on framework (F), thus leak, there is the problem that framework (F) is corroded.

Wherein, this phenomenon wind is reverse scrape time occur, even if in watt (1) under the state of top and the bottom overlap, be configured at top watt (1) lower flange (20) and be configured at bottom watt (1) surface (15) between there is gap, thus wind substantially passes, and raindrop also can adverse current.

The second, as shown in Figures 2 and 3, because watt (1) rides over the constructing structure of framework (F), thus there is described watt (1) and to slide downwards because of gravity the problem dropped.

3rd, as shown in Figure 3, under the state of beam (T) that watt (1) is supported in framework (F), because the back side (13) of described main body (10) is rounded face, thus, under the state being adjacent to beam (T), there is the phenomenon of rotating to the direction of arrow.

Therefore, operator steps on when watt (1) carries out operation, and watt (1) is moved and dropped on the ground, there is the problem that injured security incident occurs.

4th, in winter, flow out along the described back side (13) at watt frostwork that the back side of (1) (13) occurs, drop onto on framework (F), there is the problem that framework (F) is corroded.

Prior art document

Patent document

(patent document 0001) No. 30-0564165th, Korea S's Design Registration (2010.06.09)

(patent document 0002) Japanese Laid-Open Patent Publication Laid-Open 2004-3007675 (2004.10.28)

(patent document 0003) Japan registration utility model publication No. 3100423rd, utility model registration (2004.01.07)

(patent document 0004) day disclosure utility model No. 53-095516, publication (1978.08.03)

Summary of the invention

the technical problem that invention will solve

The object of the present invention is to provide a kind of prevent adverse current watt, be configured and can prevent drainage while cut-out rainwater adverse current, the frostwork that can prevent winter from occurring at watt back side flows out along watt back side and drops onto the corrosion to framework on framework.

for the technological means of problem solved

For reaching described object, the present invention relates to a kind of prevent adverse current watt, described watt is formed with the upper flange with rhone and the draining road for rain-water drainage in body surfaces;

At the back side of described main body, be formed the guide hump for discharging frostwork, for make raindrop (S) cannot adverse current the back side, there is the lower flange in auxiliary projection portion;

At the upper surface flange of described main body, be formed with the rhone that vertically side is formed through, meanwhile, be formed with the draining road of open shape downwards, described draining road is configured at the bottom of described upper flange, so that rain-water drainage;

At the back side of described main body, guide hump and draining face is formed in order to discharge frostwork, described guide hump is configured at the bottom of attachment surface, the band shape protruded overleaf opposite to each other in left and right side, tilt make left and right side form V-arrangement, described draining face is configured at described guide hump and is adjacent between groove, is formed flatly overleaf, to be adjacent to groove described in being connected to; Be configured and frostwork can be made to flow into the central authorities at the back side along described guide hump; Be formed with the auxiliary projection of the band shape be configured between described draining face and lower flange, and lower flange is formed obliquely, makes the back side more more increase upward; The frostwork being configured the described draining face of induction inflow flows to side by means of the auxiliary projection protruded, and drops onto the main body being positioned at below; Draining road is formed wide at the top and narrow at the bottomly, makes upper flange from main body until lower flange, has drainage distance to greatest extent, and, also form the surface area to both sides to greatest extent commodiously, cut off the adverse current of rainwater, thus can prevent drainage, be configured the corrosion that can prevent framework.

invention effect

Of the present invention prevent adverse current watt there is following effect.

First, the width of the width degree of draining route of the present invention in top, bottom is narrow, thus in the exit portion that width is narrow, drainage speed is accelerated, elongated by the drainage distance of the rainwater of outfall drain, makes rainwater fully deliver to the draining road of the main body being positioned at bottom, due to this structure, the effect had is, compared with background technology, can reduce rainwater in lower flange condensation and the phenomenon of adverse current is carried out at the reverse back side along main body.

The second, in the present invention, the back side of lower flange is in the state tilted with raising up upward, and the feature thus had is difficult to adverse current, if there are the raindrop overcoming this lower flange and adverse current, then again can be cut off by described auxiliary projection.

3rd, in the present invention, mounting projection is mounted on beam, is fixed on beam by means of nail, thus has and can prevent from sliding into below because of gravity and the effect of the phenomenon dropped.

4th, in the present invention, the face contacting beam by means of attachment surface is larger than background technology, thus the feature had is, when operation, when operator steps on, compared with background technology, can body rotation be reduced and injured phenomenon of falling on the ground, firmly can be supported in beam.

5th, in the present invention, by means of guide hump and draining face, can prevent frostwork drop to through be positioned at the main body of bottom nail and nail and nail is corroded, the phenomenon that beam is rotten can be prevented.

6th, in the present invention, when frostwork or rainwater flow into upper flange top, also be there is the effect that easily can be discharged to below by rhone

Accompanying drawing explanation

Fig. 1 is the stereogram of the state of the beam of framework that watt to be supported in of diagram conventional art.

Fig. 2 is that diagram is the sectional drawing of watt state of constructing on framework of conventional art.

Fig. 3 is diagram observes Fig. 1 lateral view from K direction.

Fig. 4 be diagram of the present invention prevent adverse current watt stereogram.

Fig. 5 be diagram of the present invention prevent adverse current watt the stereogram of bottom.

Fig. 6 is the sectional drawing intercepted along the C-C' line of Fig. 4.

Fig. 7 is the diagram stereogram preventing the state of framework that watt to be supported in of adverse current of the present invention.

Fig. 8 is the sectional drawing intercepted along the F-F' line of Fig. 7.

Fig. 9 is the stereogram of major part assembled state of the present invention.

Description of reference numerals

100. watt of 110. main body

111. surperficial 113. back sides

115. lower flange 117. back sides

119. upper flange 121. rhones

122. upper end flange 123. side flanges

124. are adjacent to groove 125. draining road

126. outlet 127. nail

128. nails 129. mount projection

131. attachment surface 133. guide humps

135. draining face 137. auxiliary projection

Detailed description of the invention

With reference to the accompanying drawings, embodiments of the invention are described in detail, so that those skilled in the art can easily implement.But the present invention can embody with multiple different form, is not limited to embodiment described herein.

And, in order to clearly state the present invention in the accompanying drawings, and illustrating that irrelevant part is omitted, by manual in the whole text, imparting similar reference numeral for similar part.

In manual in the whole text, when saying that certain part comprises certain inscape, as long as no the record especially opposed, then mean and do not get rid of other inscape, but can also comprise other inscape.

Fig. 4 be diagram of the present invention prevent adverse current watt stereogram, Fig. 5 be diagram of the present invention prevent adverse current watt the stereogram of bottom, Fig. 6 is the sectional drawing intercepted along the C-C' line of Fig. 4, Fig. 7 is the diagram stereogram preventing the state of framework that watt to be supported in of adverse current of the present invention, Fig. 8 is the sectional drawing intercepted along the F-F' line of Fig. 7, Fig. 9 is the stereogram of major part assembled state of the present invention, and the present invention together will illustrate with accompanying drawing.

First, as shown in Figure 9, of the present invention watt (1) is on the top of building, on the timber frame (F) of being constructed with clathrate by beam (T) and vertical wood (V), after vertically square overlap is put, finish up with covering watt (2) covering between watt (10) that side is adjacent.

It is four side plate shapes that overlap is put in described watt (1) of framework (F), is configured with the circular body (110) that side, left and right tilts, if observe section, then in arc (arc) shape.

And, be formed with the upper flange (119) of protrusion on the top of described main body (110) surface (111), to prevent the adverse current of rainwater.

In addition, the upper end flange (122) protruded respectively upward from upside and the left and right side end of described main body (110) and side flange (123) is configured with.

Wherein, be formed and be adjacent to groove (124), the described groove (124) that is adjacent to is in the back side (113) of main body (110), be configured at bottom, open to left and right side and below, put the upper flange (119) in other watt (1).

And, the lower flange (115) of the band shape of protrusion is formed in the described lower terminal end being adjacent to groove (124).

On the other hand, at the back side of main body (110), guide hump (133) is formed in order to discharge frostwork, described guide hump (133) is configured at the bottom of attachment surface (131), the band shape protruded overleaf opposite to each other in left and right side, tilts make left and right side form V-arrangement.

And, the draining face of being formed (135), described draining face (135) is configured at described guide hump (133) and is adjacent between groove (124), (113) are formed flatly overleaf, to be adjacent to groove (124) described in being connected to, to be configured and frostwork can be made along the central authorities guiding convex (133) to flow into the back side (117).

Wherein, be formed with the auxiliary projection (137) of the band shape be positioned between described draining face (135) and lower flange (115), and lower flange is formed obliquely, and makes the back side more more increase upward.

And the frostwork that induction flows into described draining face (135) flows to side by means of the auxiliary projection (137) protruded, and drops onto the main body (110) being positioned at below.

On the other hand, draining road (125) is formed wide at the top and narrow at the bottomly, make upper flange (119) from main body (110) until lower flange (115), there is drainage distance to greatest extent, and, form the surface area to both sides to greatest extent commodiously, cut off the adverse current of rainwater, thus can prevent drainage.

Formed of the present inventionly to form the following detailed description of by forming as above.

First, as shown in Figure 4, be configured with in open shape downwards, the draining road (125) of the channel-shaped that width is narrower downwards, in its surface in main body (110) (111), be configured at the bottom of upper flange (119), so that rainwater carries out draining, the drainage speed of rainwater improved.

In addition, as shown in Figure 4, be configured with and be configured between upper flange (119) and upper end flange (122) and the nail (127) of through main body (110).

And, as shown in Figure 5, nail (127) is formed in the back side (113) of main body (110), as shown in Figure 5, the mounting projection (129) of protrusion is formed in the back side (113) of main body (110), described mounting protruding (129) is configured at the top of nail (127), makes the beam (T) being mounted on framework (F).

Wherein, the nail (127) that (113) are formed overleaf is formed flatly, and comprises the attachment surface (131) being adjacent to beam (T) and forms.

Namely, it is formed is by means of mounting protruding (129), first time prevents main body (110) from sliding because of gravity and the phenomenon declined downwards, nail (128) is put in described nail (127), follow closely in beam (T), thus the phenomenon of decline can be prevented for the second time.

In addition, in order to make the efficient draining of frostwork formed at the back side (113) of main body (110), as shown in Figure 5, be formed with guide hump (133), described guide hump (133) is configured at the bottom of attachment surface (131), (113) band shape of protruding opposite to each other overleaf in left and right side, tilts make left and right side form V-arrangement.

Wherein, each guide hump (133) is formed obliquely down downwards with raising, and the guide hump (133) that thus both sides are corresponding forms V-arrangement mutually.

And, be formed with draining face (135) as shown in Figure 5, described draining face (135) is configured at guide hump (133) and is describedly adjacent between groove (124), be formed flatly in the described back side (113), be adjacent to groove (124) to be connected to.

Wherein, be formed with the auxiliary projection (137) of the band shape configured between draining face (135) and lower flange (115), the length of described auxiliary projection (137) and lower flange (115) be configured insert opposite side main body (110) side flange (123) between.

On the other hand, as shown in Figure 6, the back side (117) of lower flange (115) is formed slopely with raising up upward, to prevent the adverse current of raindrop (S).

And, to be configured with in upper flange the rhone (121) that vertically side is formed through, can draining rapidly when flowing into the top of upper flange (119) with convenient rainwater.

Wherein, rhone (121) is formed at the sunk part of main body (110), thus easily can play drain function.

In addition, as shown in Figure 7, the lower end width (V2) of main body (110) is formed less than upper end width (V1), thus formed the water to lower end draining easily to be dropped to be configured at the central portion of watt (100) of below, the phenomenon of leaking between draining to watt (100) does not thus occur.

Examine or check construction example of the present invention and the drainage procedure of this formation below.

Vertical wood (V) construction is carried out as shown in Fig. 7 and Fig. 8, Fig. 9, under the state being fixed on the surface of described vertical wood (V) at beam (T), make on the beam (T) preventing from the mounting projection (129) of watt (100) of adverse current to be articulated in being positioned at below of the present invention.

Now, because main body (110) does not decline, thus nail (128) can be put into nail (127) and easily ground nail in beam (T).

Wherein, certainly beam (T) is also supported with in bottom of the present invention.

In addition, the face contacting beam (T) by means of attachment surface (131) is larger than background technology, thus the advantage had is, when operation, when operator steps on, main body (110) can be reduced to rotate and the injured phenomenon that drops on the ground, firmly can be supported in beam (T).

In this state, upper overlapping another main body (110) of the main body (110) being fixed on beam (T), between the upper flange (119) making the lower flange (115) of described another main body (110) and auxiliary projection (137) be configured in the main body (110) being positioned at below and draining road (125).

Wherein, lower flange (115) is formed thicker than auxiliary projection (137), makes to be supported on the surface (111) of another main body (110) being positioned at below.

And, be adjacent to the upper end flange (122) and side flange (123) that accommodate another main body (110) in groove (124), thus the bottom of superposed main body (110) is lifted, and prevents the phenomenon of rainwater adverse current.

Now, in the mounting projection (129) of the main body (110) of top overlap while being mounted on beam (T), also nailed (128) by the nail (127) of the main body (110) being positioned at top, superposed main body (110) is fixed on beam (T).

In this way, make the present invention upward overlap come.

Be that this construction is fitly carried out to side, main body (110) is the formation that fitly configures of side to the left and right.

Wherein, the top of the main body (110) corresponding in side, covers watt (2) as shown in Figure 9 and finishes up.

Therefore, according to the present invention, main body (110) is supported in beam (T) by means of mounting protruding (129), beam (T) is fixed on by means of nail (128), therefore, it is possible to prevent the phenomenon of the present invention's landing downwards because of gravity.

On the other hand, under the state of so construction, if rained, then as shown in Fig. 7 and Fig. 8, Fig. 9, main body (110) is bending shape, in the state tilted downwards, the rainwater catchment thus dropping onto the surface (111) of main body (110), in draining road (125), is together discharged downwards with the rainwater dropping onto draining road (125).

Now, draining road (125) is formed wide at the top and narrow at the bottomly, makes, from the upper flange (119) of main body (110) to lower flange (115), to have drainage distance to greatest extent, and, also form the surface area to both sides to greatest extent commodiously.

Therefore, because the top of pressure ratio wider width exporting (126) is low, thus pressure differential occurs, compared with when not having the difference of upper and lower width, rainwater flows down quickly.

That is, as shown in Figure 7, elongated by the drainage distance of rainwater exporting (126) draining, the draining road (125) of the main body (110) rainwater fully being delivered to be positioned at bottom.

Wherein, because the width exporting (126) is narrower than the width on draining road (125) top, thus flow path area is narrower more downwards.

According to mass conservation law, the same time is identical by the flow speed of each flow path area.

Namely, due to S1V1=S2V2 (S1, S2: the area in each place, draining road, V1V2: the area in each place, draining road), thus increased by the speed of the rainwater of described outlet (126) draining, the drainage distance of rainwater is elongated, fully delivers to the draining road (125) of the main body (110) being positioned at bottom.

Therefore, it is possible to reduce the phenomenon of the rainwater reverse back side along main body (110) (113) adverse current after upper flange (115) condensation.

On the other hand, when rainfall stops, as shown in Figure 6, under the state that raindrop (S) are condensed in lower flange (115), if blown from outside, then along the back side (113) adverse current of main body (110).

But, in the present invention, the back side (117) of lower flange (115) is in the state tilted with raising up upward, thus adverse current is difficult to, if the described back side (117) are parallel with the back side (113) of main body (110), then more easily there is reflux problem.

But, overcome this lower flange (115) and the raindrop of adverse current if had, then again cut off by described auxiliary projection (137).

And, in the winter time, the air comprising steam runs into the back side (113) of the main body (110) becoming cold because of outer gas, then form frostwork, this flows to the central authorities of the back side (113) as shown in Figure 5 along guide hump (133).

Wherein, along the back side (113) after the draining face of inflow (135), through described nail (127), induction makes to drop to the main body (110) being positioned at below.

Now, the draining face (135) of channel-shaped and be configured at below main body (110) upper end flange (122) between be formed with gap, thus make frostwork pass through and fall downwards.

The frostwork so fallen as shown in Figure 4, is discharged to draining road (125) by the rhone (121) formed in upper flange (119).

Wherein, if there is no guide hump (133) and draining face (135), so at frostwork after described upper end (K) condensation being adjacent to groove (124), when dropping onto below, nail (128) is by fast erosion, leak between nail (128) and nail (127), make the phenomenon that the beam (T) below being supported in is rotten.

But the present invention has the advantage that can solve problem as above.

Aforesaid explanation of the present invention is used for illustrating, those skilled in the art are appreciated that when not changing technological thought of the present invention or essential feature, can easily be deformed into other concrete form.

Therefore, the embodiment of above description is interpreted as just example and non-limiting in all respects.Such as, each inscape illustrated with single shape also can disperse to implement, and in like manner, the inscape illustrated by discrete form also can be implemented with the form combined.

Compared with detailed description, scope of the present invention is represented by following claims book, and all changes of deriving from the meaning of claims and scope and its impartial concept or the form of distortion are interpreted as being contained in scope of the present invention.

Claims (3)

1. one kind can prevent adverse current watt, it is characterized in that,

The upper flange (119) with rhone (121) and the draining road (125) for rain-water drainage is formed on the surface (111) of the main body (110) of described watt (100);

The guide hump (133) for discharging frostwork is formed, for preventing the back side (117) of raindrop (S) adverse current and there is the lower flange (115) of auxiliary projection portion (137) at the back side (113) of described main body (110);

Wherein, surface (111) upper flange (119) of described main body (110) is formed the rhone (121) that vertically side is formed through, and, draining road (125) is formed in the bottom of described upper flange (119), described draining road (125) is formed as the shape opened downwards, so that rain-water drainage;

At the back side (113) of described main body (110), guide hump (133) is formed in order to discharge the frostwork of condensation, described guide hump (133) is configured at the bottom of attachment surface (131), be formed as left and right side (113) band shape of protruding opposite to each other overleaf, left and right side tilts and forms V-arrangement;

Be configured at described guide hump (133) and draining face (135) level terrain be adjacent between groove (124) is formed in the back side (113), to be connected with the described groove (124) that is adjacent to;

Make frostwork flow into the back side (113) central authorities and draining face (135) along described guide hump (133), and drop onto the main body (110) being positioned at below through nail (127),

The back side (117) of described lower flange (115) is formed in the mode tilted with raising up upward, even if make when blowing, raindrop (S) also cannot adverse current;

And make to overcome described lower flange (115) and the raindrop of adverse current (S) can be cut off again by auxiliary projection portion (137).

2. according to claim 1 prevent adverse current watt, it is characterized in that,

Described draining face (135) is configured at described guide hump (133) and is adjacent between groove (124) and is formed flatly (113) overleaf, to be connected with the described groove (124) that is adjacent to, thus to make frostwork flow to the central authorities of the back side (117) along guide hump (133);

Between described draining face (135) and lower flange (115), be formed with banded auxiliary projection (137), and lower flange (115) is with the back side (117), and more more rising manner is formed obliquely upward;

The frostwork flowing into described draining face (135) can be induced, make described frostwork flow to side by means of the auxiliary projection (137) protruded, and drop onto the main body (110) being positioned at below.

3. according to claim 1 prevent adverse current watt, it is characterized in that,

Described draining road (125) is formed as wide at the top and narrow at the bottom, and make to have drainage distance to greatest extent from the upper flange (119) of main body (110) to lower flange (115), and the surface area of both sides is made to have width to greatest extent.