• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a source sump having at least one inlet opening (1), an inlet chamber (2) for catching spring water flowing from the inlet opening (1), a discharge opening (3) for removing the spring water collected in the inlet chamber (2) and a discharge opening (4) ) for emptying the inlet chamber (2). In order to provide a source well that is simple and effectively cleanable and meets the highest requirements for hygienic production and treatment of drinking water, the invention proposes that the source well has a discharge device (5) for non-return discharge of the incoming source water past the feed chamber (2), the discharge device (5) a diverting duct (6) and a knock-off flap (7), wherein the flapper (7) movable from a first operating position for introducing the incoming spring water into the feed chamber (2) in a second operating position for discharging the incoming spring water into the discharge line (6) is trained.
    公开号:AT514266A2
    申请号:T210/2014
    申请日:2014-03-24
    公开日:2014-11-15
    发明作者:
    申请人:Feil Alfred;
    IPC主号:
    专利说明:

    t · t · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·
    Source collection pit
    The present invention relates to a source collecting shaft, comprising at least one inlet opening, an inlet chamber for collecting spring water flowing in from the inlet opening, a removal opening for removing the spring water collected in the inlet chamber and a discharge opening for emptying the inlet chamber.
    In rural decentralized areas, especially in the Alpine region, it is not possible with ecologically acceptable effort to connect all buildings to a central drinking water supply according to the current state of the art. For reasons of health protection, it is nevertheless essential to provide drinking water of the highest quality and in sufficient quantity. In addition, previously unused drinking water resources at the altitudes of the Alps as an emergency supply and due to the increasing soil pollution and the associated entry of pollutants into the groundwater are becoming increasingly important.
    As a rule, in these areas, the spring water (naturally occurring groundwater) is captured by means of so-called spring sumps in mostly inaccessible spring pools. From the or the versions of the spring water is forwarded to source collection shafts, where it appears for the first time, checked and quantified. From the source collection shaft it is directed to storage structures, in particular reservoirs or elevated tanks, and finally to the consumers.
    Since spring water collected in spring collection wells is drinking water and thus food, the requirements for its production are very high for the protection of the health of consumers. In order to meet these high demands over a longer period of time, it is regularly necessary to completely empty, clean and remove deposits from the inlet chamber. Only then can the danger of the formation of harmful germs be counteracted. DE 20 2004 004 466 U1, which is known from the prior art, discloses a source collection well comprising an inlet chamber, wherein a surface of spring water collected in the inlet chamber is open to an interior of the source collection well. A disadvantage of this source collection well that can not be achieved by the open 10 spring water surface hygienic conditions, especially when entering the Quellsammelschachtes. Furthermore, the cleaning of the source collecting shaft, in particular the inflow chamber, is possible only with great effort, since the inflow of spring water should not be interrupted and thus fresh spring water always flows into the inflow chamber during the cleaning process. Closing the inlet opening may cause the source to flush out new channels during the closing time of the inlet opening due to the backflow of the source water and to come to light in other locations 20 so that in the worst case even the source has to be recaptured.
    In view of these disadvantages, it is the object of the present invention to provide a source well, which is easy and effective to clean and meets the highest standards of hygienic promotion and treatment of drinking water. In order to achieve this object, the present invention proposes a source collecting shaft of the type mentioned above, wherein the source collecting shaft has a discharge device for discharging the incoming spring water past the feed chamber past, without any backflow, 3/31 -3- ♦ ··········· ···································································································································································································································································································································· , The second working position of the knock-off flap causes a passing of the incoming spring water at the inlet chamber directly into the discharge line by the flap acts between the inlet opening and the inlet chamber as a the incoming spring water repellent baffle. Without damaging the incoming spring water, it is kept away from the inlet chamber.
    By discharging the incoming spring water, it is with great advantage possible to completely empty the inlet chamber, for example for cleaning purposes, without the inlet opening must be closed. Thus, the danger of breaking out of the source is banned. The regularly required cleaning work in the inlet chamber can be carried out in a dry environment carefully and without time pressure, which contributes to improved hygiene in the inlet chamber and is essential for the production of hygienic drinking water.
    In a particularly advantageous embodiment of the invention it is provided that the knock-off flap is pivotally mounted on the inlet opening and has a pivot mechanism which is designed as a three-membered, unbranched, planar and open hinge mechanism. A folding over of such a designed flap causes a change in direction of the incoming spring water while changing an effective length of the flapper relative to the inlet opening. Folding in the context of the invention is the removal of the flap from the first working position to the second and vice versa. Thus, with a choice of an inlet position of the incoming spring water relative to the 4/31 -4-
    Inlet opening two degrees of freedom, which can be used to pass the incoming spring water at the inlet chamber. The proposed hinge mechanisms are widely used, robust, low maintenance, and ubiquitous. According to the invention, it proves to be particularly simple and yet effective that the knock-off flap is designed as an open, in particular U-shaped, channel. A flume meets the minimum geometric requirements to guide the incoming spring water in both working positions. In addition, it is easily and permanently stable 10 connected to the hinge mechanism and has by its transverse to a flow direction of the incoming spring water curvature oriented to a stiffness, so that very long life is achieved. In principle, a V-shaped or W-shaped, rectangular or trapezoidal channel is also conceivable according to the invention. It is inventively provided with great advantage that the
    Lead-out as a discharge chamber, in particular as a distance between an outer wall of the inlet chamber and an inner wall of the source collecting shaft is formed. A discharge chamber has a sufficiently large opening, which does not require a precise discharge of the 20 incoming spring water. In this respect, the allowed
    Swing mechanism of the knock-off definitely have certain tolerances. A fine adjustment of the pivot mechanism can be omitted. Particularly advantageous, in particular in terms of cost, is a discharge chamber, which does not consist of a separate component, but 25 is provided by means of a distance between the outer wall of the inlet chamber and the inner wall of the source collecting shaft. Additional material and assembly costs are eliminated. In the case of source collection wells which have a double bottom for discharging overflowing spring water, it is inventively 5/31 -5-5- • • • • • ···························· • It is extremely advantageous that the discharge chamber extends next to and below the inlet chamber. English:. German: v3.espacenet.com/textdoc In addition, such a diversion chamber is also structurally particularly simple to implement, the inflow chamber is only to be dimensioned smaller than the source collection well and to be arranged in the latter on supports.
    It proves to be particularly advantageous according to the invention that the source collecting shaft has an overflow for limiting a spring water level in the inlet chamber, wherein the overflow comprises a pipe detachably connectable to the discharge opening of the inlet chamber, in particular insertable and withdrawable, and a spray protection device arranged in the pipe , Wherein in the installation position with the discharge opening of the inlet chamber connected end of the tube is preferably formed conically tapered. With increased supply of spring water, the overflow prevents leakage of the spring water beyond the inlet chamber into a remaining interior of the source collection well. This is particularly important because in a source well, inter alia, power-driven electrical and electronic devices and devices, such as a level gauge, a turbidity sensor or a lighting device, are housed in which waterlogging would lead to a short circuit and thus total failure. For draining the inlet chamber arranged at a bottom of the inlet chamber drawable overflow is advantageous. Pumps to empty the inlet chamber are thereby superfluous. With great advantage according to the invention it is provided that the overflow has a splash guard, as it may otherwise due to the pressure difference between the hydrostatic pressure at the bottom of the inlet chamber and the ambient air pressure at the moment of pulling the overflow to a water fountain inside the overflow, the far can shoot over an upper end of the overflow. 6/31 ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• -
    A conically tapering pipe at its end facing the discharge opening of the feed chamber is simply frictionally securable in the discharge opening and can be easily detached again, especially in the case of a feed chamber filled with spring water, without a user coming into contact with the spring water and thus contaminating it.
    In a particularly advantageous embodiment of the invention it is provided that the splash guard is designed as a check valve or at least one flow breaker. Depending on the design of the non-return valve, this completely prevents rising of the spring water inside the overflow, whereas flow breakers only lead to a slowing down of the spring water rising in the interior of the overflow. Nevertheless, both embodiments effectively prevent the explosive rise of a water fountain in the overflow beyond its upper end.
    It proves to be particularly advantageous according to the invention that the discharge opening of the inflow chamber is designed to open into the diversion line. Thus, only an interface for discharged and discharged spring water with the environment is required, which simplifies maintenance of hygiene within the source well, since there are fewer ports of entry for germs, bacteria, animals or contaminants.
    With great advantage according to the invention it is provided that the source collecting shaft has means for discharging condensation water forming in an interior of the 25 source collecting shaft, wherein the means for discharging condensation water are formed as bores and / or grooves. By discharging the condensate water is prevented from accumulating in exposed areas and dripping, for example, in the inlet chamber, which would lead to contamination of the drinking water. In a preferred embodiment of the invention, the forming condensation is collected in grooves and passed along the inner wall of the source collecting shaft to holes 5, which has a passage opening from the interior of the
    Form source shaft in a partially hollow wall of the source collection shaft, which absorbs the condensation. Through further drilling, the wall is connected to the discharge line, so that the condensation can drain out of the wall. According to the invention, it proves to be particularly advantageous that the source collecting shaft has means for hygienically separating the inlet chamber from a remaining interior of the source collecting shaft, the means for hygienic separation comprising at least one vertically arranged door, preferably a sliding door, which adjoin an upper edge of the inlet chamber seated and the inlet chamber and an air space above the inlet chamber of the remaining interior of the source collecting shaft depending on the position of the door is made separating or making accessible. When the door is closed, the inlet chamber and the overlying air space form a closed 20 area in which the incoming spring water can be conveyed hygienically safe. An entry of impurities is almost impossible. With the door open, the accessibility of this area is ensured, for example, for cleaning purposes or to remedy malfunctions. As an alternative to doors, dampers, curtains or the like are also conceivable according to the invention as means for hygienic separation.
    It is provided according to the invention that the source collecting shaft essentially consists of plastic elements, in particular welded together. Various plastics are best suited 8/31 ···································································································· ft · · · · · · · ······ -8- to serve as a container for food, in this case drinking water. Furthermore, plastics are resistant to corrosion, easy to process, easy to transport, resistant to aging under the exclusion of ultraviolet radiation and cost-effective to manufacture. In addition, plastic elements can be hermetically sealed together, in particular glued or welded. As a result, the source collecting shaft according to the invention can be produced ready for operation in a production facility. Alternatively, it is provided that the source collecting shaft is produced as a kit of easily manageable elements 10, transported to the place of use and assembled there in final assembly to form a complete collection well. The plastics polypropylene (PP) and polyethylene (PE) are predestined to construct a source collection well according to the present invention.
    Furthermore, it proves to be very advantageous according to the invention that the source well has a siphon, the siphon having a siphon
    Discharge opening of the diversion line is arranged downstream and comprises a grating, which is formed completely covering the discharge opening of the diversion. Such a siphon as a gas-tight discharge chute prevents ingress of gases from the environment in the source collection chute, while the grate prevents the entry of animals.
    In addition, the siphon holds back sediments and other contaminants. So that the siphon never falls below a minimum level required for sealing the discharge chute, the invention proposes to permanently discharge a small amount of the incoming spring water into the discharge line.
    In a particularly advantageous embodiment of the invention, it is provided that the inlet chamber and the diversion chamber have bottoms inclined towards their respective outlet openings. When the discharge openings are open, the feed chamber and the discharge chamber empty 9/31......... Completely, solely on the basis of the gravitational force acting on the spring water. Additional tools for completely emptying the inlet chamber and the discharge chamber are not required.
    It proves to be particularly advantageous according to the invention that the removal opening is directed downwards. By means of a connectable to the removal opening 90 ° bend a withdrawal line can be performed in any direction. When setting the source collection well, an exact orientation of the source collection well with respect to a desired direction in which the withdrawal conduit is to be oriented is thus not required. Instead, when setting the spring water shaft, only the direction from which the inflow of the spring water takes place, which significantly simplifies the setting of the spring water well. The degree of freedom 15 obtained by this special embodiment of the removal opening allows a universal use of the invention
    Source collecting shaft for all conceivable angles between the direction of the inlet of the spring water and the desired direction of the extraction line.
    To protect arranged in a source collection shaft electrical 20 and electronic devices, the inventive
    Source collection shaft connected to a grounding strap lightning rod.
    The invention will be described by way of example in preferred embodiments with reference to the drawings, wherein further advantageous details can be taken from the figures of the drawings.
    In detail, the figures of the drawings show: 10/31 "· · · · · · · · ···············································································. · «···· * ·« · -10-
    1 shows a vertical sectional view of a source collecting shaft according to the invention according to a first embodiment and detailed representations of means according to the invention for discharging condensation water; 5 shows a horizontal sectional view of the source collecting shaft according to the invention according to the first embodiment;
    3 shows a horizontal sectional view of a source collecting shaft according to the invention in accordance with a second embodiment;
    Fig. 4 is a vertical sectional view of an overflow 10 according to the invention according to a first embodiment with a plan view of the overflow and a detailed representation of a Spritzschutzvorrichtu invention ng;
    Fig. 5 is a vertical sectional view of an overflow according to the invention according to a second embodiment with a plan view of the overflow; Fig. 6 is a vertical sectional view of a siphon according to the invention;
    Fig. 7 is a plan view of the source collecting shaft according to the invention;
    8 shows a schematic side view of a diverting device according to the invention in a first working position; and
    Fig. 9 is a schematic side view of the inventive 20 diversion in a second working position.
    In Fig. 1 is a vertical sectional view of a source collecting shaft according to the invention according to a first embodiment and detailed representations of inventive means for discharging condensation water 15 is shown. This source collection well is compliant with a source water production plant according to the worksheet W127 11/31 -11 - ··························. ♦ · ·· > ················································································································································································································································································ inflowing spring water, a discharge opening 3 for removing the spring water collected in the inlet chamber 2 and a discharge opening 4 for emptying the inlet chamber 2. The inlet chamber 2 is divided by a partition into two areas, the partition a measuring weir, here a Thomson weir to quantitative determination of the incoming spring water volume per unit time. In order to be able to clean the source collecting shaft and in particular the feed chamber simply and effectively, the source collecting shaft has a discharge device 5 for discharging the incoming spring water past the supply chamber 2 without any backflow. The diversion device 5 comprises a diversion line 6 and a knock-off flap 7, wherein the flap 7 is designed to be movable from a first working position for introducing the incoming spring water into the inlet chamber 2 into a second operating position for discharging the incoming spring water into the diversion line 6. The second working position of the flap 7 is indicated by dashed lines. In the embodiment of the invention shown in FIG. 1, the diversion line 6 is designed as a discharge chamber 9. The discharge chamber 9 is formed by a distance between an outer wall of the inlet chamber 2 and an inner wall of the source collecting shaft. The inlet chamber 2 is smaller in size than the source collection well and is supported on supports. Thus, the discharge chamber 9 extends next to and below the inlet chamber 2. At each of the inlet openings 1, a knock-off flap 7 is pivotally mounted. The pivoting arrangement is effected by means of a pivot mechanism 8. The embodiment of the invention shown in FIG. 1 is a three-part, unbranched, plane 12/31 -12 ············ * · Μ ··! ·! And open hinge mechanism. The knock-off flap 7 is designed as an open, U-shaped flume. Other profiles for the channel are also conceivable, as far as they have sufficient rigidity. In the embodiment of the invention shown in FIG. 1, the overflow 10 is designed as a tube 11 which can be inserted into the outlet opening 4 of the inlet chamber 2 and withdrawn there again, wherein the tube is provided with an overflow 10 for limiting a spring water level in the inlet chamber 2 the pipe 11 contains a spray protection device 12 arranged in the pipe 11. The frictionally mounted in installation position in the discharge port 4 of the inlet chamber 2 end of the tube 11 is conically tapered to have a rich and tight interference fit in the discharge port 4 of the inlet chamber 2. As a splash guard 12, a check valve 13 is provided.
    The discharge opening 4 of the inlet chamber 2 opens into the diversion line 6. The source collecting shaft has bores 16 and grooves 17 as means for discharging condensation water forming in an interior of the source collecting shaft. The bores guide the condensate from the interior of the source collecting shaft into the discharge chamber 9 , Furthermore, the source collecting shaft has means for hygienically separating 18 the inlet chamber 2 from a remaining interior of the source collecting shaft. The means for hygienic separation 18 comprise two vertically arranged, horizontally displaceable, transparent sliding doors which are seated on an upper edge of the inlet chamber 2 and in a closed position separate the inlet chamber 2 and an air space above the inlet chamber 2 from the remaining interior of the source collecting shaft access open position. The bottoms of the inlet chamber 2 and the discharge chamber 9 slope towards the respective discharge openings in order to allow a complete emptying of the inlet chamber 2 and the discharge chamber 9. 13/31 - 13- • · · ·······································································
    In addition, the source collection well according to the invention comprises at least one holding device for holding a turbidity sensor or other sensors for detecting spring water and source collection well parameters, a sampling device for taking out spring water samples, wherein for taking out the
    Source water sample the sliding door does not need to be opened, and equipped with a strainer removal opening 3 for removing the spring water collected in the inlet chamber 2, which is directed downward. By means of a 90 ° arc is a shut-off valve 10 having, laid in the double floor removal opening 3 is connected. The extraction line can be led away from the source collection shaft in any direction. The source collecting shaft further comprises a ladder for descending into the source collecting shaft, a lockable access hatch, a ventilation chimney and a siphon 19 connected downstream of a discharge opening of the discharge chamber 9 with a grate 20.
    The source collecting shaft itself, ie the body of the source collecting shaft, consists essentially of plastic elements welded together. The elements of the 20 source collecting shaft include the cylindrical main shaft containing the inlet chamber 2, the double bottom forming part of the discharge chamber 9, the cylindrical manhole for accessing the main shaft and the frustoconical cover connecting the manhole and the main shaft. The plastic elements have partially a hollow chamber-like or honeycomb-shaped structure, which is covered by smooth inner and outer walls.
    In Fig. 2 is a horizontal sectional view of the source collecting shaft according to the invention according to the first embodiment is shown. The source well has three inlet ports 1, with each of the 14/31 -14
    Inlet openings 1 a knock-off flap 7 is arranged. All inlet openings 1 feed an inlet chamber 2. The inlet chamber 2 is divided by a baffle wall and a partition with a measuring weir into two areas, each area has its own overflow 10 5.
    In Fig. 3 is a horizontal sectional view of a source collecting shaft according to the invention is shown according to a second embodiment. The source collecting shaft has two inlet openings 1, wherein a blow-off flap 7 is arranged at each of the inlet openings 1. 10 All inlet openings 1 feed an inlet chamber 2. The
    Inlet chamber 2 is divided by two submerged walls and two partitions, each with a measuring weir in three areas, each area has its own overflow 10.
    In Fig. 4 is a vertical sectional view of a 15 overflow 10 according to the invention according to a first embodiment with a plan view of the overflow 10 and a detailed illustration of a splash guard 12 according to the invention is shown. The overflow 10 has a pipe 11, a handle for handling the weir 10 and a splash guard 12. The handle is arranged on a mounting position 20 in the upper end of the tube 11. An installation in the lower end of the tube 11 is tapered conically to be able to enter a rich frictional connection with the discharge port 4 of the inlet chamber 2. As a splash guard 12, a check valve 13 is inserted into the tube 11. The check valve 13 25 includes a stop ring mounted in the tube 11 with an inscribed holding star for slidingly guiding a slide pin and a closure pin arranged on a slide plate, wherein the slide pin is guided by means of the holding star coaxially to a longitudinal axis of the tube 11. 15/31 -15- • ·········································· ·· FIG. 5 shows a vertical sectional view of an overflow 10 according to the invention in accordance with a second embodiment with a plan view of the overflow 10. FIG. The overflow 10 shown in FIG. 5 is identical except for the splash guard 12 to the overflow 10 according to FIG. 4. 5 The splash guard 12 of the overflow 10 according to the second embodiment has flow breakers 14 instead of a check valve 13. The flow breakers 14 comprise plates or skirts, which are fastened on the one hand in the interior of the tube 11 and on the other hand oriented in the direction of the installation position in the lower end of the tube 11 10 and thus with the lower end of the tube 11 form an acute angle.
    FIG. 6 shows a vertical sectional view of a siphon 19 according to the invention. The siphon 19 is arranged downstream of a discharge opening of the discharge chamber 9 and comprises a grate 20 which completely covers the discharge opening of the discharge chamber 9. As a gas-tight discharge chute, the siphon 19 prevents ingress of gases from the environment into the source collection chute, the grate 20 prevents entry of animals. In addition, the siphon 19 retains sediments and other contaminants which, in the event of a backwater in FIG. 20, push back the discharge chamber 9.
    In Fig. 7 is a plan view of the source collecting shaft according to the invention is shown. Equipped with a hatch and a ventilation hat cylindrical manhole serves as access to the main shaft. The frusto-conical lid connects the manhole and main shaft and has reinforcing struts on the outer surface thereof to withstand the compressive forces produced by the earth surrounding the source well. The manhole is arranged axially offset from the main shaft and has a radially directed to 16/31 -16- outside treadle to facilitate access to the manhole. Furthermore, the ventilation chimney pierces the lid.
    FIG. 8 shows a schematic side view of a diversion device 5 according to the invention in a first working position. The discharge device 5 comprises the discharge line 6, which is designed as a discharge chamber 9, and the flap 7. The flap 7 is pivotally mounted on the inlet opening 1, wherein the pivoting movement of the flap 7 is provided by means of a pivoting mechanism 8, which is a threefold, unbranched, level and open hinge mechanism is formed. In the first working position shown in FIG. 8, the flap 7 introduces the incoming spring water into the inlet chamber 2. For this purpose, the flap is suspended on the pivoting mechanism 8 at the inlet opening 1, is at a lower edge of the inlet opening 1 and is located at an upper edge of the inlet chamber 2. The flap 7 is formed as a U-shaped channel, wherein the channel near the inlet opening 1 has a greater wall height than near the inlet chamber 2. The channel is open in the first working position of the flap 7 upwards.
    FIG. 9 shows a schematic side view of the diversion device 5 according to the invention in a second working position. In the second working position, the flap 7 derives the incoming spring water into the discharge chamber 9. A change from the first working position of the flap 7 in the second carried by folding the flap 7. The flap is suspended on the pivot mechanism 8 at the inlet opening 1 and is at an upper edge of the inlet opening 1 at. A in the second working position of the flap 7 of the discharge chamber 9 facing 17/31 -17- • ······························································································ ··· ····· ···· φ
    End of the flap 7 extends below the upper edge of the inlet chamber 2. The lengths and centers of gravity of the members of the pivot mechanism 8 are chosen so that the flap 7 is in a stable equilibrium in both working positions. In 5 of the second working position of the flap 7 is the
    Center of gravity of the flap 7 closer to the inlet opening 1 as a more distant from the inlet opening 1 swivel of the pivot mechanism 8. The flap 7 is formed as a U-shaped channel, the channel near the inlet opening 1 has a 10 wall height greater than near the discharge chamber. 9 The channel is open in the second working position of the flap 7 down. 18/31 -18-18
    REFERENCE LIST 1 Inlet 2 Inlet 3 Outlet 5 4 Outlet 5 Diverter 6 Diverter 7 Exhaust flap 8 Swing mechanism 10 9 Outlet chamber 10 Overflow 11 Pipe 12 Splash guard 13 Check valve 15 14 Flow breaker 15 Condensate discharge means 16 Bore 17 Channel 18 Hygienic separator 20 19 Siphon 20 grid 19/31
    权利要求:
    Claims (10)
    [1]
    -19- VKK Patentanwälte_enser Zeichen: F 33003 PATENT CLAIMS 1. Source collecting shaft, comprising at least one inlet opening (1), an inlet chamber (2) for catching spring water flowing from the inlet opening (1), a removal opening (3) for removing the inlet chamber (2) collected spring water and a discharge opening (4) for emptying the inlet chamber (2), characterized in that the source collecting shaft has a discharge device (5) for the return-free discharge of the incoming spring water past the inlet chamber (2), wherein the discharge device (5 ) a discharge line (6) and a flap (7), wherein the flap (7) from a first working position for introducing the incoming spring water into the inlet chamber (2) in a second working position for discharging the incoming spring water into the discharge (6) is designed to be movable.
    [2]
    2. source collecting shaft according to claim 1, characterized in that the knock-off flap (7) is pivotally mounted on the inlet opening (1) and a pivot mechanism (8), which is designed as a three-membered, unbranched, planar and open hinge mechanism.
    [3]
    3. Quellsammelschacht according to claim 1 or 2, characterized in that the knock-off flap (7) is designed as an open, in particular U-shaped channels.
    [4]
    4. Source collecting shaft according to one of the preceding claims, characterized in that the diversion line (6) as a discharge chamber (9), in particular as a distance between a 20/31 -20- 20- •••• • • • • • ♦ Outside wall of the inlet chamber (2) and an inner wall of the source collecting shaft, is formed.
    [5]
    5. source collecting shaft according to one of the preceding claims, characterized in that the source collecting shaft has an overflow (10) for limiting a spring water level in the inlet chamber (2), wherein the overflow (10) with the discharge opening (4) of the inlet chamber (2) detachably connectable, in particular there insertable and herausziehbares, pipe (11) and arranged in the tube (11) splash guard device (12), wherein in an installed position with the discharge port (4) of the inlet chamber (2) connected to the end of the tube (11 ) is preferably formed conically tapered.
    [6]
    6. Quellsammelschacht according to claim 5, characterized in that the splash guard device (12) as a check valve (13) or at least one flow breaker (14) is formed.
    [7]
    7. Quellsammelschacht according to one of the preceding claims, characterized in that the discharge opening (4) of the inlet chamber (2) in the discharge line (6) is formed opening.
    [8]
    8. Quellsammelschacht according to one of the preceding claims, characterized in that the source collecting shaft means for discharging itself in an interior of the source collecting shaft forming condensate (15), wherein the means for discharging condensation (15) as bores (16) and / or Troughs (17) are formed.
    [9]
    9. source collecting shaft according to one of the preceding claims, characterized in that the source collecting shaft means for hygienic separation (18) of the inlet chamber (2) of a 21/31 -21 - remaining interior of the source collecting shaft, wherein the means for hygienic separation (18) at least one vertically arranged door, preferably a sliding door, which seated on an upper edge of the inlet chamber (2) and the 5 inlet chamber (2) and an air space above the inlet chamber (2) separated from the remaining interior of the source collection shaft depending on the position of the door or is made accessible.
    [10]
    10. Source collecting shaft according to one of the preceding claims, characterized in that the source collecting shaft essentially consists of plastic elements, in particular welded together. 22/31
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    DE2611685A1|1977-09-22|Compact separator for light fluids from water - has concentric vessels, with oil flowing from outer to inner
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    同族专利:
    公开号 | 公开日
    AT514266A3|2015-05-15|
    DE102013104104B4|2020-12-24|
    AT514266B1|2016-01-15|
    DE102013104104A1|2014-10-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CH654051A5|1981-12-11|1986-01-31|Hans Rudolf Belz|Water-level overflow in a shaft of a spring|
    US4809734A|1988-09-28|1989-03-07|Cliff John O|Condensate-collecting ceiling for elevated water tower facility|
    DE19515366C2|1994-05-06|1998-07-23|Laszlo Vari|Operating method and control device for a rainwater utilization system|
    DE59812390D1|1998-08-11|2005-01-20|Uli Lippuner|Well-room, and settling basin for a well-room|
    DE202004004466U1|2004-03-22|2005-08-04|Hwt Haus- Und Wassertechnik Ag|Wellstube from a standing in the ground to be used container with one or more by partition walls delimited chambers|
    DE102004013902B4|2004-03-22|2008-01-24|Hwt Haus- Und Wassertechnik Ag|Brunnenstube|
    CH696814A5|2004-04-07|2007-12-14|Remo Pedron|Brunnenstube.|CN111173076A|2020-01-08|2020-05-19|宋西宝|Sealed pneumatic spring-collecting water supply method|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE102013104104.3A|DE102013104104B4|2013-04-23|2013-04-23|Source collecting shaft|
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