DE102017101109B4 - Connecting piece for a drainage channel and gutter section - Google Patents

Abstract

Connecting piece for a drainage channel with two angularly arranged channel sections (10, 11), each having side walls (12a, 12b) and a channel bottom (13) and an inflow opening (14) and a drain opening (15) form, characterized in that the inflow opening (14) and the outflow opening (15) are arranged to form a gradient at different elevations with respect to a reference plane passing through the upper edge (17) of the side walls (12a, 12b), the channel bottom (13) each having a channel section (10 , 11) is formed of a plurality of floor elements (16a, 16b, 16c), which are arranged inclined at least in the direction of fall.

Description

The invention relates to a Verbindungsseckstück for a drainage channel with the features of the preamble of claim 1. Such a connecting corner piece is, for example CH 710 293 A2 known.

For drainage on surfaces usually gutters are used, which absorb the surface water via gratings or slits and dissipate this with a sloping down to the dewatering point inclination. The adjustment of the slope is straightforward for straight channels. In corner areas of the gutter system, ie where gutters intersect at an angle, usually connecting corner pieces are installed, which have no inclination. In the corner areas, the drainage is therefore not supported by a slope, so that there may come to residual water and deposits. The corner areas of a drainage system are therefore critical from a hygienic point of view.

The object of the invention is to improve a connecting piece of the type mentioned at the beginning in such a way that the outflow of surface water in the corner regions of a gutter system is carried out safely and hygienic problems are avoided or at least reduced.

According to the invention, this object is achieved with a view to the connecting piece by the subject of claim 1.

In particular, the object is achieved by a connecting piece for a drainage channel with two angularly arranged channel sections, each having side walls and a channel bottom. The channel sections form an inflow opening and a discharge opening of the connecting piece. The inflow opening and the outflow opening are arranged to form a gradient at different altitudes relative to a reference plane. The reference plane passes through the top edge of the side walls. The channel bottom of each channel section is formed of a plurality of floor elements which are arranged inclined according to the slope.

The invention has several advantages.

On the one hand, the connecting piece as such is provided with a gradient, since the inflow opening and the outflow opening are arranged at different altitudes. The connecting corner piece can therefore be installed horizontally, for example for surface drainage of a horizontal surface, whereby the built-in gradient of the connecting corner piece reliably causes the surface water entering the connecting corner piece through the inflow opening to exit completely from the outflow opening and to be forwarded to the dewatering point.

The different elevations of the inflow opening and the outflow opening are arranged relative to a reference plane that runs through the upper edge of the side walls. This means that the connecting corner piece as such has a slope and therefore horizontally, i. can be aligned in one plane with the surface to be drained. In other words, the channel bottom is inclined when the connecting corner piece is installed so that the upper edge of the side walls and thus the reference plane extending through the upper edge is arranged horizontally. Based on the horizontal reference plane in the installation position, the inflow opening is then arranged higher than the outflow opening, resulting in the desired gradient.

The invention further provides that the channel bottom is formed in each case of a channel section of a plurality of floor elements. The floor elements are interconnected and together form the gutter floor. The bottom elements are arranged correspondingly inclined at least in the direction of the gradient between the inflow opening and the outflow opening. This has the effect that the water flowing through the connecting piece piece can flow off as completely as possible.

The inclination of the floor elements, at least in the direction of fall, means that the floor elements can additionally be inclined in other directions in order to facilitate the production.

The composition of the gutter bottom of several floor elements has advantages for the production of the connecting corner piece, since the miter, so the corner joint between the two channel sections, can be formed by geometric adjustment and corresponding inclination of the floor elements. In other words, the floor elements allow a certain decoupling of the slope of the gutter bottom from the geometric boundaries through the side walls, since the inclination of the individual floor elements to the overall inclination of the gutter floor, i. can be adapted to the running in the longitudinal direction of the respective channel section gradient. The individual floor elements can be at least partially inclined relative to each other differently.

In a preferred embodiment, the angles of inclination of the floor elements are aligned such that the drain opening forms the lowest point of the channel sections or the connecting corner piece. This tendency of the floor elements is ensures that in the line drainage in the region of the connecting piece of the piece, the surface water flowing into the connecting piece is discharged from each point of the connecting piece to the discharge opening (total drainage).

Preferably, the bottom elements of a respective channel section comprise a first and a second bottom element, which form an acute angle in the region of an outer corner edge of the channel section. This has the advantage that the two floor elements can be arranged inclined in different directions.

The bottom elements in each case of a channel section can have a third floor element in another exemplary embodiment. The first and second bottom element as well as the third bottom element in each case of a channel section can form an acute angle in the region of the inflow opening or in the area of the outflow opening. In other words, at least three bottom elements of a channel section converge sharply in the region of the inflow opening or in the region of the outflow opening. This design has the advantage that the inflow opening or the outflow opening can be well adapted to the contour of the respective connection trough. This is particularly advantageous if the bottom of the respective connection channel has a V-shape. The acute angle formed by the three bottom elements in the region of the inlet opening and the outlet opening then merges into the tip of the V-shape of the connection channel and thus into the lowest point of the channel bottom of the connection channel.

In a particularly preferred embodiment, the bottom elements are polygonal, in particular triangular. The triangular shape of the floor elements is particularly well suited to set in the region of the connecting corner piece by different inclination of the floor elements an overall gradient, without the need for the floor elements must be deformed during manufacture. This flat floor elements can be used.

The corners of the first floor element are preferably arranged in the region of the outer corner edge, in the region of an inner corner edge of the channel sections and in the region of the inflow opening or in the region of the outflow opening. The first floor element thus forms a central floor element, in particular a triangle, which surrounds the inner boundaries of the channel, i. the side walls and the edges of the inflow or outflow only at the corners and thus selectively touched. As a result, the inclination of the first floor element can be adjusted particularly well, since the sides of the first floor element are essentially decoupled from the contour of the inner boundary.

Further preferably, the edges of the inflow opening or the edges of the outflow opening are each formed by sides of the second and third floor elements. As a result, the connection contour of the connecting corner piece can be adapted particularly well to the connecting contour of the drainage channels to be connected to the connecting corner piece.

In a further preferred embodiment, the first bottom element of the one trough section and the first bottom element of the other trough section together form an isosceles triangle. The base side of the isosceles triangle adjoins the inner corner edge and the tip adjoins the outer corner edge. Thereby, a good transition of straight drainage channels is created, which are connected to the inflow or outflow opening of the connecting piece, since the isosceles triangle due to its position both in the longitudinal direction of the two channel sections and from outside to inside, i. may be inclined from the outer corner to the inner corner edge.

The bottom elements of the two channel sections can be arranged symmetrically. This training is particularly useful when the connecting corner is symmetrical, i. is formed with the same length channel sections.

Preferably, the height of the side walls is adapted to the slope. In other words, the height of the sidewalls increases with increasing distance from the inflow opening. The varying height of the sidewalls determines the gradient with which the gradient directs the surface water through the connecting corner piece.

In general, a channel section can be connected to a further channel section to form a connecting corner piece according to the invention. The gutter section forms the basic unit in the form of a straight leg of the connecting corner piece. The essential features and advantages of the channel section are therefore explained above in connection with the connecting piece according to the invention. Reference will be made to this. It should be noted that the inflow opening and the outflow opening of the individual channel section do not have to match the inflow or outflow opening of the connecting corner piece. Thus, the drainage opening of the water feeding trough portion corresponds to the miter edge, i. the oblique edge, at which the channel section for the production of the connecting corner piece is connected to the further channel section. Conversely, the inflow opening of the water-draining gutter section corresponds to the miter edge.

The invention will be explained in more detail below with further details with reference to the attached schematic figures.

• 1 eine perspektivische Ansicht eines Verbindungseckstücks nach einem erfindungsgemäßen Ausführungsbeispiel, bei dem drei Bodenelemente je Rinnenabschnitt vorgesehen sind;
• 2 eine Draufsicht auf das Verbindungseckstück nach 1 und
• 3 eine perspektivische Ansicht des Verbindungseckstücks nach 1 mit einer daran angeschlossenen geraden Entwässerungsrinne.

In this show

• 1 a perspective view of a Verbindungsseckstücks according to an embodiment of the invention, in which three bottom elements are provided per channel section;
• 2 a plan view of the connecting piece after 1 and
• 3 a perspective view of the connecting piece after 1 with a straight drainage channel connected to it.

In the 1 to 3 a connection piece is shown, which is used in drainage systems for line drainage. For this purpose, the connecting piece is connected to two drainage channels, one of which is in 3 is shown.

The embodiment according to 3 may also be understood as an L-shaped Verbindungsseckstück, wherein the longer leg comprises an additional straight gutter section with integrated slope.

The connecting piece has two angular, specifically arranged at a right angle trough sections 10 . 11 on, which is an inflow opening 14 and a drain hole 15 form. Through the inflow opening 14 flows from the connected drainage channel ( 3 ) incoming surface water in the connecting corner piece, is deflected in the connecting corner piece and leaves it in another flow direction through the drain opening 15 which may be connected to another drainage channel (not shown). Every single channel section 10 . 11 has two side walls 12a . 12b and a gutter floor 13 on that between the two side walls 12a . 12b is arranged and together with this forms a flow channel. The flow channel is in a conventional manner open at the top, so that laterally and from above through a (not shown) grate surface water can flow into the connecting corner piece.

In the 1 and 3 it is good to see that the gutter floor 13 of the connecting piece is inclined. This is the inflow opening 14 higher than the drainage hole 15 arranged. The altitude of the inflow opening 14 and the drainage hole 15 each refers to an imaginary reference plane passing through the top edge 17 the two side walls 12a . 12b runs. In other words, the distance of the gutter bottom 13 to this reference plane in the region of the inflow opening 14 smaller than the distance of the gutter floor 13 to the reference plane in the area of the discharge opening 15 , This is good in 1 to recognize.

If the connecting corner piece is installed horizontally, ie the reference plane runs horizontally, the desired gradient in the connecting corner piece inevitably sets in. The slope is also good at the changing height of the side walls 12a . 12b recognize that starting from the inflow opening 14 in the direction of the drainage opening 15 increases.

The gutter floor 13 is made of several floor elements 16a . 16b . 16c educated.

The floor elements 16a . 16b . 16c allow the formation of the desired slope, without having to be deformed for the bottom elements in the production of the Verbindungsseckstücks. So it can be used flat floor elements, with different inclinations to form the channel bottom 13 get connected. The floor elements are inclined so that the drain opening 15 forms the deepest point of the connecting piece so that an optimal drainage in the corner areas of a gutter system is achieved.

In the starting example according to 1 to 3 are the floor elements 16a . 16b . 16c designed as triangular floor elements. Other geometric shapes are possible.

The connecting piece shown in the figures has a total of six floor elements 16a . 16b . 16c on. Of these, each form three floor elements 16a . 16b . 16c the gutter floor 13 a gutter section 10 . 11 , Another number of floor elements is possible. In particular, it is possible, the individual triangular floor elements 16a . 16b . 16c continue to divide.

The bottom elements of a channel section 10 . 11 have a first triangular floor element 16a on, which is arranged so that the corners of the first floor element 16a touch the inner limits of the connecting corner piece. This means that the sidelines of the first triangular floor element 16a are spaced from the inner boundaries of the connecting corner piece, as in 2 clearly visible. Specifically, the corners of the first floor element 16a in the area of the outer corner edge 18 , the inner corner edge 19 and the edge 20 the inflow opening 14 or the edge 20 the drain opening 15 arranged.

Between the outer corner edge 18 and the inner corner edge 19 the connecting edge runs between the two channel sections 10 . 11 of connecting corner piece (miter).

The second triangular floor element 16b is between the first floor element 16a and the outer sidewall 12a of the respective channel section 10 . 11 arranged. The outer side wall 12a of the respective channel section 10 . 11 is longer side wall. The inner sidewall 12b is the shorter sidewall.

The second floor element 16b thus extends with a side line along the outer side wall 12a , Another sideline of the second floor element 16b forms the connection with the first floor element 16a , The third sideline of the second floor element 16b forms part of the edge 20 the inflow opening 14 or part of the edge 20 the drain opening 15 ,

Similarly, the third triangular floor element 16c between the first floor element 16a and the inner sidewall 12b ie the short side wall 12b of the connecting corner piece. Again, there is a side line of the third floor element 16c along the inner sidewall 12b , Another sideline is third floor element 16c forms the connection with the first floor element 16a , The third side length of the third floor element 16c forms part of the edge of the inflow opening 14 or the drain opening 15 so that the second and third floor element 16b . 16c together the bottom edge of the inflow opening 14 or the drain opening 15 form.

As in 2 easy to recognize, the corners of the first and second floor elements run 16a . 16b in the area of the outer corner edge 18 together. This applies to the first and second floor elements 16a . 16b both gutter sections 10 . 11 so that in the area of the outer corner edge in total 4 Meet floor elements.

In the area of the inner corner edge 19 meet as well 4 Floor elements and in each case the first floor elements 16a and the third floor elements 16c the gutter sections 10 . 11 ,

The first two floor sections 16a the gutter sections 10 . 11 together form an isosceles triangle whose baseline centered the inner corner edge 19 touched or shared by this center. The connecting line between the first two floor elements 16a . 16a at the same time forms the connecting line between the inner corner edge 19 and the outer corner edge 18 ,

The floor elements are inclined so that these on the one hand, the longitudinal gradient of the respective channel section 10 . 11 support. On the other hand, the floor elements are at least partially inward in the direction of the central longitudinal axis of the respective channel section 10 . 11 inclined so that the surface water from both the inflow opening 14 to the drainage opening 15 as well as from the side walls 12a . 12b can flow inward.

The arrangement of the floor elements in the region of the inflow opening 14 or the drain opening 15 is designed so that in the area of the inflow opening 14 or the drain opening 15 , specifically on the respective bottom edge 20 arranged corner of the first floor element 16a coincides with the lowest point of the connected drainage channel, as in 3 good to see. Besides, the edges are 20 the inflow opening 14 or the drain opening 20 inclined at the same angle as the channel bottom of the V-shaped drainage channel, which is connected to the connecting corner piece. The inclination of the edges 20 the inflow opening 14 or the drain opening 15 is in 1 good to see.

The arrangement of the floor elements 16a . 16b . 16c the two gutter sections 10 . 11 is essentially consistent.

The embodiment of the invention has the advantage that not only the surface water in the connecting piece is optimally removed, but also the one essentially distortion-free production of the connecting piece is possible in spite of the integrated gradient.

Claims (10)

Connecting piece for a drainage channel with two angularly arranged channel sections (10, 11), each having side walls (12a, 12b) and a channel bottom (13) and an inflow opening (14) and a drain opening (15) form, characterized in that the inflow opening (14) and the outflow opening (15) are arranged to form a gradient at different elevations with respect to a reference plane passing through the upper edge (17) of the side walls (12a, 12b), the channel bottom (13) each having a channel section (10 , 11) is formed of a plurality of floor elements (16a, 16b, 16c), which are arranged inclined at least in the direction of fall. Connecting piece after Claim 1 characterized in that the angles of inclination of the floor elements (16a, 16b, 16c) are oriented such that the drainage opening (15) forms the lowest point of the channel sections (10, 11). Connecting piece after Claim 1 or 2 characterized in that a first and second bottom element (16a, 16b) each have a channel section (10, 11) in the region of an outer corner edge (18) of the channel sections (10, 11) form an acute angle. Connecting piece after Claim 3 characterized in that the first and second bottom element (16a, 16b) and a third bottom element (16c) each form a channel section (10, 11) in the region of the inflow opening (14) or in the region of the outflow opening (15) form an acute angle. Connecting piece according to one of the preceding claims, characterized in that the bottom elements (16a, 16b, 16c) are polygonal, in particular triangular. Connecting piece after Claim 5 characterized in that the corners of the first floor element (16a) in the region of the outer corner edge (18), in the region of an inner corner edge (19) of the channel sections (10, 11) and in the region of the inflow opening (14) or in the region of the outflow opening (15 ) are arranged. Connecting piece after Claim 5 or 6 characterized in that the edges (20) of the inflow opening (14) and the edges (20) of the discharge opening (15) are each formed by sides of the second and third floor elements (16b, 16c). Connecting piece according to one of the Claims 5 to 7 characterized in that the first bottom element (16a) of the one gutter section (10) and the first bottom element (16a) of the other gutter section (11) together form an isosceles triangle whose base side is centrally adjacent to the inner corner edge (19) and whose tip is against the Outside corner edge (18) adjacent. Connecting piece according to one of the preceding claims, characterized in that the bottom elements (16a, 16b, 16c) of the two channel sections (10, 11) are arranged symmetrically. Connecting piece according to one of the preceding claims, characterized in that the height of the side walls (12a, 12b) is adapted to the slope.

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