Sewage pipe connector for objectionable odor suppression

FIELD: domestic plumbing installations for fresh water or waste water, particularly to connect sewage pipes and odor seals.

SUBSTANCE: sewage pipe connector comprises inlet tubular part connected to the pipe and arranged upstream from the pipe to create inlet sewage water channel, outlet tubular part connected to the pipe and located downstream from it to create outlet sewage water channel and suppression part defining connection sewage water channel to create sewage water flow from inlet sewage water channel to outlet sewage water passage. The connector also has dividing tubular part, which forms dividing channel extending upwards from suppression section of the suppression part and dividing sewage water channel in upward direction at suppression section. Inlet and outlet tubular parts are located one opposite another and are coaxial one to another. Sewage water channel defined by suppression section is below the lowest part of adjacent sewage water channels. The connector additionally has dividing pipe connected to front end of dividing tubular part to enlarge the dividing channel in upward direction and lid detachably attached to the front end of dividing pipe for dividing channel sealing.

EFFECT: increased efficiency of odor suppression and prevention of outside odor spreading, possibility to regulate dividing channel height to compensate different depth of pipe laying.

4 cl, 4 dwg

 

The present invention relates to a connector pipe used to connect the sewer outlet pipe, and, in particular, to a connector of sewer pipes, intended to capture an unpleasant smell, which contains a construction to prevent the spread of odors to the outside, when this is provided by the use of separately manufactured dividing pipes designed to collect deposits such as sludge, with different sizes, depending on various heights and selecting and connecting the separating pipe.

In modern society, which is rapidly developing activity associated with consumption, and various industrial activities, the formation of various wastes, which are a by-product material activities of civilization. Among the above waste the amount of waste water, which is continuously formed in liquid form, is great. In the case where the wastewater is released to the outside or left in its raw form, can occur infectious diseases or serious problems associated with the natural environment. So in all buildings provided facilities and technical equipment for water supply and wastewater production, designed for printing handling is key wastewater at the moment when they are formed.

In the device to release the water outlet pipe for effluent water forms a drain channel in such a position at which the outlet pipe is submerged in water or buried under the ground, to thereby prevent a situation in which the wastewater is exposed to the external environment, and the drain pipe provides the direction of the sewage in the sewage treatment system or treatment plant, or natural water area. The pipe, which is used as the drain line, is made with a certain length. Therefore, in the case when the distance that pass the waste water at release, large, lots of pipes connected by using the connector pipe to thereby increase the length of the pipeline.

Conventional connector pipe can connect the pipes and remove the precipitate, which is separated from the wastewater, thereby causing clogging of the pipe.

Furthermore, since the conventional connector pipe upper space above the wastewater, which pass along the inlet pipe, always connected to the separating pipe, an unpleasant odor, resulting in the wastewater and existing everywhere in the interior of the separator tube, can be spread out, because diffusion prevents only cu is the Cabinet. In addition, an unpleasant odor, which is harmful to human health, very quickly spreads outward, thereby causing contamination of the surrounding area for a short time. In addition, when the conventional connector pipes precipitate, filtered, the filter part is removed manually or by repeated use of the tool through the separation channel is a narrow separation of the pipe. Therefore, it is very difficult to remove the precipitate, and this operation is unhygienic.

Moreover, with the conventional connector pipe separation tube is made with various lengths of the upper and lower sections, in order to overcome the problem lies in the fact that the depth buried pipe may be different.

Known connector sewer pipes made with the possibility of trapping odor, contains the intake pipe portion, attached to the pipe above in the course of the stream, to form an inlet channel for the passage of sewage that receives sewage from a pipe above in the course of the stream, the exhaust pipe part that is attached to the pipe below in the course of the stream, to form the outlet for passage of waste water, which ensures the production of waste water received from the inlet channel for the passage of sewage, labelvalue part, which forms a connecting channel for the passage of sewage, directing waste water from the intake canal for passage of waste water into the exhaust passage of sewage, dividing pipe portion, which forms the separation channel, which passes upward from the detecting section detecting part and divides the passage of wastewater in a capture area in the upward direction (patent Switzerland No.288666, E 03 F 5/046 15.02.1953).

A disadvantage of the known connector sewer pipes is insufficient trapping of unpleasant odor, resulting in the wastewater, and prevent the spread of this nasty smell out.

Accordingly, the present invention is the creation of a connector of sewer pipes, which is designed to trap odor and allows to overcome the problems faced when using devices according to the prior art.

Another objective of the present invention is to provide a connector of sewer pipes, which is designed to trap odor and includes the design for capturing odor that can prevent the spread of the unpleasant odor, resulting in the waste water out and executed with the opportunity and the election of the joining section of vertical pipe, having a sufficient size relative to the depth of the burial of the pipe for effluent water, and the segments of the vertical pipes are manufactured separately with many different sizes.

To achieve the objectives established connector sewer pipes, which is designed to trap odor, contains the intake pipe portion, attached to the pipe above in the course of the stream, to form an inlet channel for the passage of sewage that receives sewage from a pipe above in the course of the stream, the exhaust pipe part that is attached to the pipe below in the course of the stream, to form the outlet for passage of waste water, which ensures the production of waste water received from the inlet channel for the passage of sewage, catching portion which forms a connecting channel for pass wastewater directing waste water from the intake canal for passage of waste water into the exhaust passage of sewage, dividing pipe portion, which forms the separation channel, which passes upward from the detecting section detecting part and divides the passage of wastewater in a capture area in the upward direction, the inlet and outlet pipe sections are located opposite each other is on the same axis, specified educated catching plot the passage of wastewater is lower than the lowest part of these adjacent channels for the passage of sewage, and the connector further comprises a spacer tube that is attached to the front end of the separation tube part and providing the elongation of the separation channel in the upward direction, and the cover is joined with the ability to detach the front end of the separating tube to hermetically close the separation channel.

The connector further comprises a tubular part for deposition, which runs down from the arresting part and forms a sediment chamber in which is accumulated sediment deposited from sewage, which pass through the catching part.

The connector also includes a container for collecting sediment-hosted with the ability to detach sediment-chamber tube part for deposition and designed to collect and remove sediment.

Additionally, the connector includes a filter mesh element placed with the possibility of disconnection at the entrance of the exhaust pipe parts in contact with the catching part, to filter solid materials from the wastewater, which pass from the arresting part in the exhaust pipe part.

The present invention can Lu is to better understand when studying it with reference to the accompanying drawings, which are given only as illustrations and therefore do not limit the present invention, in which:

1 shows a view illustrating the assembled state of the pipe, which is connected through a connector pipe that can detect an unpleasant odor, in accordance with the embodiment of the present invention;

Figure 2 shows a cross-section illustrating a buried sewer pipe connected using the connector pipes that can detect an unpleasant odor, in accordance with the embodiment of the present invention;

Figure 3 shows a cross-section illustrating a buried sewer pipe connected using the connector pipes that can detect an unpleasant odor, in accordance with another embodiment of the present invention;

Figure 4 shows a perspective view illustrating the process of removing sediment from pipes connected using the connector pipes that can detect an unpleasant odor, in accordance with another embodiment of the present invention.

1 shows a view illustrating the assembled state of the pipe, which is connected through a connector pipe that can detect an unpleasant odor, in accordance with the embodiment of this izaberete the Oia, and figure 2 shows a cross-section illustrating a buried sewer pipe connected using the connector pipes that can detect an unpleasant odor, in accordance with the embodiment of the present invention.

The connector 10 pipes that can detect an unpleasant odor, contains an inlet tube piece 11 and the outlet tube piece 12, which are used to connect two pipes, namely, above and below along the flow tubes 30 and 40, which are parallel to the detecting part 13, which connects the intake pipe part and the exhaust pipe portion 12, and a dividing pipe portion 14, passing upwards from the centre of the arresting part 13.

The inlet tube piece 11 and the outlet tube piece 12 is placed in opposite directions. The front end sections of the inlet pipe portion 11 and the exhaust pipe part 12 is connected to a pipe 30 above in the course of the stream, and the pipe 40 below in the course of the stream, to thereby form an inlet channel 110 for passage of waste water and the exhaust channel 120 for the passage of sewage, able to receive and to release waste water. The connecting rims 11a and 12A, each of which has an increased diameter, attached to end portions of the intake pipe portion 11 and the exhaust pipe portion 12 and equipped with the responsibly on the pipe 30, above in the course of the stream, and on the pipe 40 below in the course of the stream.

Catching part 13 forms a connecting channel 130 for passage of waste water, capable of directing the waste water received in the inlet pipe portion 11, in the exhaust pipe part 12 between the inlet tubular part 11 and the exhaust pipe part 12. Part of the wastewater, which allowed inside the inlet port 110 for passage of waste water and are released through the exhaust channel 120 for the passage of the wastewater is held in a capture area T so that part of the cross section of the channel for the passage of sewage in the area of the connecting channel 130 for passage of waste water is lower in relation to the height of the bottom of the adjacent above and below along the flow channels for the passage of wastewater (for example, the inlet port 110 for passage of waste water and the exhaust channel 120 for passage of waste water). Filter mesh element 17 is installed at the entrance to outlet 120 for the passage of the wastewater discharge pipe portion 12 adjacent to the detecting part 13, to filter out sediment from the wastewater passing from the arresting portion 13 into the exhaust channel 120 for the passage of sewage.

Catching part 13 provides the trapping of unpleasant smell, existing above and below along the flow tubes 30 and 40 thus, when this wastewater is received inside through the intake pipe part 11, are directed into the exhaust pipe portion 12. Part of the wastewater is held in a capture area T of the connecting channel 130 for passage of waste water, to thereby "disconnect" above and below along the stream side catching section T in order to prevent gas flow between above and below along the flow pipes 30 and 40. The connecting channel 130 for passage of waste water formed in the part which is lower than the inlet channel 110 for passage of waste water inlet pipe part 11 and the exhaust channel 120 for the passage of the wastewater discharge pipe portion 12, and waste water is subjected to filtration using a filter mesh element 17 that is installed at the inlet of the intake pipe portion 12, and sediments that are deposited because of the higher weight compared with sewage accumulate at the bottom of the connecting channel 130 for passage of waste water, to thereby allow removal of sediment through the separation channel separation pipe 15.

Dividing pipe portion 14 is formed from a hollow tube passing from the catching section T of the arresting part 13 in the vertical direction. The connecting rim 14a, which has an increased diameter, is formed on p is rednam the end of the separation tube part, so it was possible to insert the separator tube 15 or effluent water. Dividing pipe portion 14 forms a separation channel 140, which makes connecting channel for the passage of wastewater is open in the upward direction in the detecting part 13. Dividing the channel 140 is used to receive wastewater or remove deposits such as sludge precipitated in detecting part 13. Namely, if the separation pipe 15, the pipe or part of the effluent water is installed at the front end of the separating tube part 14, the wastewater is directed to detecting part 13 through the separator tube 15, and the precipitate produced in the exhaust pipe part 12 together with the waste water received through the inlet pipe portion 11. In addition, the dividing pipe portion 14 is used to remove the sediment that has accumulated in a capture area T of the arresting part 13. In that case, if the separation channel 140 is used only to remove the sediment, detachable cover 16 attached to the front end of the separation tube part 14 (or separating pipe 15) using the established connection of the rim 160 to ensure tightness.

The separator tube 15 is attached to the front end of the separation tube part 14 and provides elongation divide the part of the channel 140, formed by dividing the pipe part 14 in the upward direction and manufactured with different sizes. The length of the separation channel 140 can be adjusted by selecting the size. As shown in figure 2, in the case where the connector pipes that can detect the odor and executed in accordance with the present invention, used for connecting pipes, which are buried under the earth, dividing the pipe 15 with a certain size is selected depending on the depth to which should be buried pipe, and attached to the separating tube part 14, so that the entrance of the separation channel 140 "contact" with the ground surface. Because of the separation pipe 15 is made separately, the height of the separation channel 140 of the connector pipes that can detect the odor and executed in accordance with the present invention, regulate by replacing the separator tube 15. Consequently, it is possible to overcome the problems characteristic of the device according to the prior art, in which all elements of the connector 10 pipes made of different sizes to receive different height of the separation channel 140.

The connector 10 pipes that can detect the odor and executed in accordance with the present invention, positioned above and below along the flow of labor is s 30 and 40 are connected for directing wastewater from the pipe 30, above in the course of the flow in the pipe 40 below in the course of the stream. During such operation the waste water, which always fills catching plot T detecting part 13, fill completely the inlet and outlet channels 110 and 120 for passage of waste water and the separation channel 130, so there is a possibility of preventing the spread of odors, existing above and below along the flow tubes 30 and 40, out through the separation channel 140. In addition, sediment, etc. are filtered using the filter mesh element 17 and at the expense of the weight of sediment accumulated in the detecting part 13, which is formed in the lower part, and accumulated sediment removed through the separation channel, to thereby prevent clogging of the pipe sediment, etc.

Figure 3 shows a cross-section illustrating the sewer pipe, which is buried and assembled with connector pipes that can detect the odor and executed in accordance with another embodiment of the present invention.

As shown in figure 3, the connector pipes that can detect the odor, contains an inlet tube piece 11 and the outlet tube piece 12, which are situated opposite each other on the same axis as in the first embodiment implementing the tvline of the present invention, detecting part 13, intended to connect the inlet tube part 11 and the exhaust pipe portion 12 and located between the inlet tubular part 11 and the exhaust pipe part 12, a dividing pipe portion 14, which is held up in a capture area T of the arresting part 13, and the separator tube 15 attached to the upper part of the separation tube part 14. Additionally, the tube part 18 for deposition, which runs down to the catching part 13 from the lower side of the barrier tube 15, so as to form therein sedimentary chamber 180, and the container 19 for collection, with a net design and located in the sedimentary chamber 180 of tubular portion 18 for the deposition so that the sediment is removed through the separation channel by opening the cover 16 attached to the upper part of the separator tube 15 (or separation tube part 14).

Because the connector pipes that can detect the odor and executed in accordance with another embodiment of the present invention, the sediment deposited in detecting part 13, accumulates in the sediment chamber 180, it does not hinder the passage of wastewater, which allows to increase the efficiency of the drain. Since the volume of the precipitate, is filtered using a detecting part 13, a large, period of the removal can be increased. In addition, deposits such as sludge, etc., are accumulated in the collection container, as shown in figure 4, and therefore it is possible to remove the sediment at one time, so that the sediment removal is easy.

As described above, the connector pipes that can detect the odor, aimed at preventing the spread of odors, existing above and below along the flow pipe, out through the use of wastewater, which always fills the inner space of the arresting part during the process of wastewater production.

In addition, it is possible to filter out sediment contained in the wastewater, the arresting part, placed in the lower chain portion, and removal of this sludge to thereby prevent reduction in the efficiency of the drain due to sediment and clogging pipes.

In addition, when using the connector pipes that can detect the odor and executed in accordance with the present invention, the separator tube, which determines the height of the separation channel, manufactured separately and then assembled so that it is possible to adjust the height of the separation channel by choosing the separation pipe, connected to the separating tube part. Consequently, it is possible to overcome the problem is we, typical of the prior art, according to which the connector pipes are manufactured with different sizes to obtain different values of the height of the separation channel, due to the different values of the depth at which the buried pipe.

Since the present invention can be implemented in several variants, without departing from its essence or signs, it should be understood that the above-described variants of the implementation is not limited by any of the items above description, unless otherwise indicated; on the contrary, they should be interpreted broadly within the essence and scope of the present invention defined in the appended claims, and therefore, provided that all changes and modifications that are within the scope of the claims, or equivalents of such amount covered by the attached claims.

1. Connector sewer pipes made with the possibility of trapping odor, contains the intake pipe portion, attached to the pipe above in the course of the stream, to form an inlet channel for the passage of sewage that receives sewage from a pipe above in the course of the stream, the exhaust pipe part that is attached to the pipe below in the course of the stream, for education to produce the aqueous channel for the passage of sewage, which ensures the production of waste water received from the inlet channel for the passage of sewage, catching portion which forms a connecting channel for the passage of sewage, directing waste water from the intake canal for passage of waste water into the exhaust passage of sewage, dividing pipe portion, which forms the separation channel, which passes upward from the detecting section detecting part and divides the passage of wastewater in a capture area in the upward direction, characterized in that the said inlet and outlet pipe sections are located opposite each other on the same axis, specified educated catching plot the passage of wastewater is lower than the lowest part of these adjacent channels for the passage of sewage, and the connector further comprises a spacer tube that is attached to the front end of the separation tube part and providing the elongation of the separation channel in the upward direction, and the cover is joined with the ability to detach the front end of the separating tube to hermetically close the separation channel.

2. The connector according to claim 1, characterized in that it further comprises a tubular part for deposition, which runs down from catching the first part and forms a sediment chamber, in which accumulates sediment deposited from sewage, which pass through the catching part.

3. The connector according to claim 2, characterized in that it includes a container for collecting sediment-hosted with the ability to detach sediment-chamber tube part for deposition and designed to collect and remove sediment.

4. The connector according to claim 1, characterized in that it further comprises a filter mesh element placed with the possibility of disconnection at the entrance of the exhaust pipe parts in contact with the catching part, to filter solid materials from the wastewater, which pass from the arresting part in the exhaust pipe part.



 

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