CN216556519U - MBR membrane goes out water five-way pipe - Google Patents

Abstract

The utility model relates to a sewage treatment's field, concretely relates to MBR membrane goes out water five-way pipe, violently manage and the second including first violently, first violently is managed including first takeover and second takeover, the second is violently managed including third takeover and fourth takeover, still the intercommunication has the fifth takeover on the first violently managing, first takeover intercommunication has first row to go into the pipe, second takeover intercommunication has first discharge tube, third takeover intercommunication has the second to go into the pipe, fourth takeover intercommunication has the second discharge tube, fifth takeover intercommunication has the inlet tube, fifth takeover is located between first takeover and the second takeover, the inlet tube upwards extends towards the direction of keeping away from the frame, the one end intercommunication that the fifth takeover was kept away from to the inlet tube has the outlet pipe, the outlet pipe downwards extends towards the direction of keeping away from the frame, first discharge tube still communicates there is first flowmeter, the second discharge tube still communicates there is the second flowmeter. This application has the effect that detects the flow value of water in the drain pipe more accurately.

Description

MBR membrane goes out water five-way pipe

Technical Field

The application relates to the field of sewage treatment, in particular to an MBR membrane water outlet five-way pipe.

Background

In order to prevent the drain pipe from being clogged in the sewage treatment process, a flow meter is generally provided to detect the water level of the drain pipe and monitor inflow of water.

At present, the flow meter is generally installed outside a drain pipe, a probe of the flow meter extends into the drain pipe, and when the drain pipe is filled with water, the water in the drain pipe can submerge the probe of the flow meter, so that the flow value in the drain pipe can be detected through the probe.

In view of the above technical solutions, the inventors consider that the following drawbacks exist: because the length of the probe of the flowmeter is limited, when the drainage pipe is not filled with water, the probe of the flowmeter cannot be immersed into the probe, so that the probe of the flowmeter cannot accurately detect the flow value of the water. Thus, there is still room for improvement.

SUMMERY OF THE UTILITY MODEL

In order to detect the flow value of water in the drain pipe more accurately, this application provides an MBR membrane goes out water five-way pipe.

The application provides a MBR membrane goes out water five-way pipe adopts following technical scheme:

an MBR membrane water outlet five-way pipe comprises a first transverse pipe and a second transverse pipe communicated with the first transverse pipe, wherein the first transverse pipe comprises a first connecting pipe and a second connecting pipe, the second transverse pipe comprises a third connecting pipe and a fourth connecting pipe, the first transverse pipe is also communicated with a fifth connecting pipe, the first connecting pipe is communicated with a first discharge pipe, the second connecting pipe is communicated with a first discharge pipe, the third connecting pipe is communicated with a second discharge pipe, the fourth connecting pipe is communicated with a second discharge pipe, the fifth connecting pipe is communicated with a water inlet pipe, the fifth connecting pipe is positioned between the first connecting pipe and the second connecting pipe, the water inlet pipe extends upwards in the direction far away from a rack, one end of the water inlet pipe far away from the fifth connecting pipe is communicated with a water outlet pipe, the water outlet pipe extends downwards in the direction far away from the rack, one end of the first discharge pipe far away from the second connecting pipe is also communicated with a first flowmeter, and one end of the second discharge pipe, which is far away from the fourth connecting pipe, is also communicated with a second flowmeter.

Through adopting above-mentioned technical scheme, because inlet tube and fifth takeover intercommunication, part water in the first drainpipe can be followed the fifth takeover and flowed into in the inlet tube, then flow from the outlet pipe, and, because the inlet tube upwards extends towards the direction of keeping away from the frame, the outlet pipe downwards extends towards the direction of keeping away from the frame, make the water in the inlet tube be in the state of being full of, and then make the water in the five-way pipe be in the overflow state, make the probe of first flowmeter of hydroenergy in the first drainpipe fully submergence from this, make the flow value detection of the water in the first drainpipe more accurate with this. In a similar way, the second discharge pipe is also in a full state, so that the detection of the flow value of the water in the second discharge pipe is more accurate.

Optionally, the inlet tube includes the first return bend of taking over the intercommunication with the fifth and keeps away from the second return bend of the one end intercommunication of taking over the fifth with first return bend, first return bend and second return bend all are the acute angle, first return bend upwards extends towards the direction of keeping away from the frame, the second return bend extends towards the direction of outlet pipe.

Through adopting above-mentioned technical scheme, when the water in the first exhaust pipe flows into in the inlet tube from the fifth takeover, through the setting of first return bend and second return bend for the inlet tube is difficult to appear because the drop of rivers is too big and the phenomenon of damage or fracture, and then makes the water in the inlet tube be in the state that is full of, makes the water in the five-way pipe keep the overflow state from this, thereby makes the detection of the flow value of the water in first exhaust pipe and the second exhaust pipe be difficult to receive the influence.

Optionally, the first bend and the second bend are both 45 °.

Through adopting above-mentioned technical scheme for the water in the fifth siphon flows in from first return bend more easily, flows out from the second return bend, is difficult to receive the pressure of water for a long time and takes place to warp or cracked phenomenon in so making into the water pipe, and then makes to be in the state of overflow in the five-way pipe, makes the probe that the probe of first flowmeter can not be crossed to the water of first discharge pipe department, makes the detection of the flow value of the water in the first discharge pipe more accurate.

Optionally, the water outlet pipe comprises a short pipe communicated with the second bent pipe and a straight pipe communicated with one end of the short pipe far away from the second bent pipe, and the straight pipe is perpendicular to the ground.

Through adopting above-mentioned technical scheme, when water in the first return bend flows to the outlet pipe from the second return bend, because straight tube and ground mutually perpendicular for water in the short tube is direct to flow out along the direction on straight tube towards ground under the effect of self gravity, is difficult to directly produce great impact to the straight tube when making the water whereabouts in the short tube with this, makes the straight tube be difficult to receive the damage, makes the drainage of outlet pipe be difficult to receive the influence from this.

Optionally, the second elbow is detachably connected to the short pipe.

By adopting the technical scheme, the water inlet pipe and the water outlet pipe can be detached, and when the water outlet pipe is damaged, the water outlet pipe is favorably replaced; when the water outlet pipe is blocked, the water outlet pipe is convenient to clean, and the water outlet pipe and the water inlet pipe are more convenient to transport.

Optionally, the second elbow is connected with a short pipe flange.

Through adopting above-mentioned technical scheme for the stability of being connected between second return bend and the nozzle stub improves, and then makes the inlet tube be difficult to receive the pressure of intraductal water and lead to the fracture, makes the water in the inlet tube be full of the inlet tube better from this to this makes the water of five-way pipe department keep in the state of overflow, thereby makes the measuring of the flow value of the water in the first discharge pipe be difficult to receive the influence.

Optionally, the first discharge pipe and the first discharge pipe are detachably connected with the five-way pipe.

Through adopting above-mentioned technical scheme for first discharge tube and first discharge tube can be dismantled from the five-way pipe respectively, are favorable to the change and the washing to the five-way pipe, make the interior phenomenon that is difficult to appear blockking up of five-way pipe with this, and then make the detection of the flow value of water in the first discharge tube be difficult to receive the influence.

Optionally, the first discharge pipe and the first discharge pipe are both connected with a five-way pipe flange.

Through adopting above-mentioned technical scheme for the leakproofness between first calandria and the five-way pipe improves, and simultaneously, the leakproofness between first calandria and the five-way pipe also improves, and then makes the first calandria and the phenomenon that all is difficult for taking place to leak in the calandria and the first calandria, thereby makes the detection of the flow value of the water in the first calandria be difficult to receive the influence.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the five-way pipe, part of water in the first discharge pipe can flow into the water inlet pipe from the fifth connecting pipe and then flows out of the water outlet pipe, so that the water in the five-way pipe is in an overflowing state, the probe of the first flowmeter can be immersed in the water in the first discharge pipe, and the detection of the flow value of the water in the first discharge pipe is more accurate.

2. Through the setting that adopts first return bend and second return bend for the inlet tube is difficult to receive the too big fracture that leads to of drop of intraductal rivers, and so that keep the state that is full of in the inlet tube, thereby make and keep the state of overflow in the five-way pipe, make the probe homoenergetic of first flowmeter and second flowmeter from this totally submerge, is favorable to the detection to the flow value of the interior water of first discharge pipe and second discharge pipe.

3. Through nozzle stub and straight tube mutually perpendicular, and the setting on straight tube perpendicular to ground for water in the second return bend falls along the straight tube towards the direction on ground under the action of self gravity, thereby makes the water that flows out from the second return bend be difficult to produce great impact to the inside wall of straight tube, makes the straight tube be difficult to the phenomenon of breaking.

Drawings

Fig. 1 is a schematic overall structure diagram of an MBR membrane effluent five-way pipe in the utility model.

Description of reference numerals: 1. a first cross tube; 11. a first adapter tube; 111. a first discharge pipe; 12. a second adapter tube; 121. a first discharge pipe; 13. a fifth connection pipe; 2. a second cross tube; 21. a third connection pipe; 211. a second discharge pipe; 22. a fourth connection pipe; 221. a second discharge pipe; 3. a water inlet pipe; 31. a first bend pipe; 32. a second bend pipe; 4. a water outlet pipe; 41. a short pipe; 42. a straight pipe; 5. a first flow meter; 6. a second flow meter.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

Referring to fig. 1, an MBR membrane effluent five-way pipe comprises a first horizontal pipe 1 and a second horizontal pipe 2 communicated with the first horizontal pipe 1, wherein the first horizontal pipe 1 and the second horizontal pipe 2 are both made of MBR membrane materials. The first transverse tube 1 comprises a first connecting tube 11 and a second connecting tube 12, the first connecting tube 11 is communicated with a first discharge tube 111, and the second connecting tube 12 is communicated with a first discharge tube 121. The second horizontal tube 2 comprises a third connecting tube 21 and a fourth connecting tube 22, the third connecting tube 21 is communicated with a second discharge tube 211, the fourth connecting tube 22 is communicated with a second discharge tube 221, the first horizontal tube 1 is further communicated with a fifth connecting tube 13, and the fifth connecting tube 13 is positioned between the first connecting tube 11 and the second connecting tube 12. Among the sewage treatment process, waste water after the process of handling flows into first income pipe 111 and second and arranges into the pipe 211 in, then detect the flow value of the water of first income pipe 111 and second income pipe 211 respectively to this alright learn whether appear the phenomenon of jam in first discharge pipe 121 and the second discharge pipe 221, thereby clear up first violently pipe 1 and the horizontal pipe 2 of second better, make sewage treatment's process be difficult to receive the influence.

Referring to fig. 1, the first discharging pipe 111 is detachably connected to the first connection pipe 11, in this embodiment, the first discharging pipe 111 is connected to the first connection pipe 11 through a flange, so that the sealing performance between the first discharging pipe 111 and the first connection pipe 11 is improved, a water leakage phenomenon is not easily generated between the first discharging pipe 111 and the first connection pipe 11, and further, the discharge of waste water is not easily affected. First discharge tube 121 and second takeover 12 can be dismantled and be connected, and in this embodiment, first discharge tube 121 passes through flange connection with second takeover 12 for the leakproofness between first discharge tube 121 and the second takeover 12 improves, and then makes the interior water of first discharge tube 111 be difficult to flow out between first discharge tube 121 and the second takeover 12, makes the discharge of waste water be difficult to receive the influence from this.

Referring to fig. 1, the first flow meter 5 is further communicated with one end of the first discharge pipe 121, which is away from the second connection pipe 12, and when the wastewater in the first discharge pipe 111 flows from the second connection pipe 12 to the first discharge pipe 121, the probe of the first flow meter 5 is completely immersed, so that the purpose of more accurately detecting the flow value of the water in the first discharge pipe 121 is achieved.

Referring to fig. 1, in order to enable the detection of the flow value of the water in the first discharge pipe 121 to be more accurate, the fifth connection pipe 13 is communicated with the water inlet pipe 3, the water inlet pipe 3 includes a first bent pipe 31 and a second bent pipe 32, and the fifth connection pipe 13 is connected with the first bent pipe 31 through a flange. The end of the first bend 31 remote from the fifth connection pipe 13 is inclined upwards in a direction away from the frame, and the first bend 31 is at an acute angle, in this embodiment, the first bend 31 is at 45 °. One end that first return bend 31 was kept away from to second return bend 32 extends towards the direction of keeping away from first return bend 31, second return bend 32 also is the acute angle, in this embodiment, second return bend 32 also is 45, at this moment, waste water in the fifth takeover 13 flows in from first return bend 31 more easily, flow out from second return bend 32, it takes place to bend or warp owing to receive the pressure of water for a long time to be difficult to appear in the inlet tube 3, thereby make and be in the state of overflow in the five-way pipe, and then make the probe of first flowmeter 5 can be submergence completely to the water in the first discharge pipe 121, make the detection of the flow value of the water in the first discharge pipe 121 more accurate with this. A height difference is left between the lowest position of the first elbow 31 and the highest position of the pipe wall of the five-way pipe, so that water at the five-way pipe can flow in from the first elbow 31 and flow out from the second elbow 32.

Referring to fig. 1, one end of the second elbow 32 far from the first elbow 31 is communicated with a water outlet pipe 4, the water outlet pipe 4 comprises a short pipe 41 and a straight pipe 42, the short pipe 41 is a right-angle elbow, the short pipe 41 is detachably connected with the second elbow 32, in the embodiment, the second elbow 32 is connected with the short pipe 41 through a flange, so that the connection stability between the second elbow 32 and the short pipe 41 is improved, and further the water outlet pipe 4 is not easy to be broken due to the pressure of water in the pipe, so that the water inlet pipe 3 is kept in a full state, so that the five-way pipe is kept in an overflow state, and the detection of the flow value of the water in the first discharge pipe 121 is not easy to be influenced. The one end perpendicular to ground that the nozzle stub 41 was kept away from to straight tube 42 for the water in the second return bend 32 is difficult to produce great impact to the inside wall of straight tube 42, and then makes straight tube 42 be difficult to receive the influence, makes the discharge of the water in outlet pipe 4 be difficult to receive the influence with this.

Referring to fig. 1, the third connecting pipe 21 is connected to the second discharging pipe 211 through a flange, the fourth connecting pipe 22 is connected to the second discharging pipe 221 through a flange, and one end of the second discharging pipe 221 away from the fourth connecting pipe 22 is further communicated with a second flowmeter 6 for detecting a flow value of water in the second discharging pipe 221.

The implementation principle of MBR membrane water outlet five-way pipe in the embodiment of the application is as follows: the treated wastewater flows into the first and second discharge pipes 111 and 211, when the waste water flows through the fifth joint pipe 13 from the first drain pipe 111, a part of the waste water flows from the fifth joint pipe 13 to the first elbow pipe 31, the wastewater then flows from the first bend 31 to the second bend 32, then from the second bend 32 to the short pipe 41, and finally out of the straight pipe 42, because the water inlet pipe 3 is inclined upwards in the direction far away from the machine frame and the water outlet pipe 4 is inclined downwards in the direction towards the ground, the water inlet pipe 3 is filled with water, thereby the overflow state of the five-way pipe is kept, so that the water in the first discharge pipe 121 can completely submerge the probe of the first flowmeter 5, therefore, the flow value of the water in the first discharge pipe 121 can be detected more accurately, and the water in the second discharge pipe 221 is filled, so that the flow value of the water in the second discharge pipe 221 can be detected more accurately.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a MBR membrane goes out water five-way pipe which characterized in that: the device comprises a first transverse pipe (1) and a second transverse pipe (2) communicated with the first transverse pipe (1), wherein the first transverse pipe (1) comprises a first connecting pipe (11) and a second connecting pipe (12), the second transverse pipe (2) comprises a third connecting pipe (21) and a fourth connecting pipe (22), the first transverse pipe (1) is further communicated with a fifth connecting pipe (13), the first connecting pipe (11) is communicated with a first discharge pipe (111), the second connecting pipe (12) is communicated with a first discharge pipe (121), the third connecting pipe (21) is communicated with a second discharge pipe (211), the fourth connecting pipe (22) is communicated with a second discharge pipe (221), the fifth connecting pipe (13) is communicated with a water inlet pipe (3), the fifth connecting pipe (13) is positioned between the first connecting pipe (11) and the second connecting pipe (12), and the water inlet pipe (3) extends upwards in the direction far away from a rack, one end that fifth takeover (13) was kept away from in inlet tube (3) communicates has outlet pipe (4), outlet pipe (4) are towards the direction downwardly extending of keeping away from the frame, the one end that second takeover (12) was kept away from in first discharge tube (121) still communicates has first flowmeter (5), the one end that fourth takeover (22) was kept away from in second discharge tube (221) still communicates has second flowmeter (6).

2. The MBR membrane effluent five-way pipe of claim 1, which is characterized in that: the inlet tube (3) include with first return bend (31) of fifth takeover (13) intercommunication and keep away from second return bend (32) of the one end intercommunication of fifth takeover (13) with first return bend (31), first return bend (31) and second return bend (32) all are the acute angle, first return bend (31) upwards extend towards the direction of keeping away from the frame, second return bend (32) extend towards the direction of outlet pipe (4).

3. The MBR membrane effluent five-way pipe of claim 2, which is characterized in that: the first bend (31) and the second bend (32) are both 45 degrees.

4. The MBR membrane effluent five-way pipe according to any one of claims 2-3, wherein: the water outlet pipe (4) comprises a short pipe (41) communicated with the second bent pipe (32) and a straight pipe (42) communicated with one end, far away from the second bent pipe (32), of the short pipe (41), and the straight pipe (42) is perpendicular to the ground.

5. The MBR membrane effluent five-way pipe of claim 4, which is characterized in that: the second elbow (32) is detachably connected with the short pipe (41).

6. The MBR membrane effluent five-way pipe of claim 5, which is characterized in that: the second elbow (32) is connected with the short pipe (41) in a flange mode.

7. The MBR membrane effluent five-way pipe of claim 1, which is characterized in that: the first discharge pipe (111) and the first discharge pipe (121) are detachably connected with the five-way pipe.

8. The MBR membrane effluent five-way pipe of claim 7, which is characterized in that: and the first discharge pipe (111) and the first discharge pipe (121) are connected with the five-way pipe flange.

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