CN214793390U - Building wastewater monitoring system - Google Patents

Abstract

The utility model discloses a building wastewater monitoring system has solved the technical problem that the sedimentation tank of current building site building wastewater maintained the difficulty. The utility model discloses a sedimentation tank of connection between septic tank and purifier, the sedimentation tank includes the passageway of intaking that links to each other with the discharge gate of septic tank, the passageway of going out that links to each other with purifier's water inlet, through deposiing the storehouse intercommunication between passageway of intaking and the passageway of going out, the top of deposiing the storehouse is provided with ultrasonic sensor, and ultrasonic sensor's response end is towards the bottom of deposiing the storehouse, and ultrasonic sensor links to each other with the controller, and the controller is connected with the alarm that is relevant with ultrasonic sensor. The utility model discloses not only subside high-efficiently, abundant, be convenient for moreover clear up maintain utilize ultrasonic sensor can monitor the storage height of precipitate, the alarm is reported to the police when the precipitate highly reaches the threshold value of controller, informs the managers automatically and in time clears up.

Description

Building wastewater monitoring system

Technical Field

The utility model relates to a technical field of building waste water treatment especially indicates a building waste water monitoring system.

Background

The industrial waste water of building material is the waste water discharged from factories for producing asphalt felt, moisture-proof material, reinforced concrete member, cement, glass, building ceramic, etc. Because the building industry has large water consumption and large consumption of natural resources, and the green development requires water resource protection and water conservation, the treatment of the building material wastewater is particularly important. The utility model discloses a current grant announcement day is 2016.05.04 through the retrieval, and grant announcement number is CN 205204997U's utility model discloses a building construction site sewage treatment and system of recycling, include the septic tank, grid sedimentation tank, second grade sedimentation tank, tertiary purifier, constructed wetland, the normal water collector that connect gradually the setting through the pipeline, after building domestic sewage, rainwater and the mixture of mud were remitted septic tank and carried out anaerobic digestion and hierarchical sedimentation treatment, pass through second grade sedimentation tank, tertiary purifier, constructed wetland, normal water collector in proper order, purify the mixture and obtain the normal water so that the retrieval and utilization, like irrigation, towards lavatory etc..

Although the technical proposal of the patent can treat the building wastewater, the following defects exist: firstly, the grid sedimentation tank and the secondary sedimentation tank are both positioned underground, sediment in the sedimentation tank is quickly sedimentated, and is required to be cleaned and maintained after being sedimentated to a certain height, so that the sedimentation tank is inconvenient to be positioned underground; secondly, a monitoring system is lacked, so that the sedimentation tank cannot be maintained conveniently and timely, and the normal operation of the system is influenced; thirdly, the sedimentation tank has a single structure, cannot efficiently sediment and cannot be cleaned conveniently.

Disclosure of Invention

Not enough to among the above-mentioned background art, the utility model provides a building waste water monitoring system has solved the technical problem that the sedimentation tank of current building waste water maintained the difficulty.

The technical scheme of the utility model is realized like this: the utility model provides a building waste water monitoring system, is including connecting the sedimentation tank between septic tank and purifier, the sedimentation tank includes the passageway of intaking that links to each other with the discharge gate of septic tank, the play water passageway that links to each other with purifier's water inlet, through deposiing the storehouse intercommunication between passageway of intaking and the play water passageway, the top of deposiing the storehouse is provided with ultrasonic sensor, and ultrasonic sensor's response end orientation is deposiing the bottom in storehouse, and ultrasonic sensor links to each other with the controller, and the controller is connected with the alarm associated with ultrasonic sensor.

Furthermore, the bottom surface of the settling bin is spherical, and the sensing end of the ultrasonic sensor is vertically opposite to the lowest end of the bottom surface.

Further, deposit the storehouse and be provided with two, two deposit the storehouse and connect gradually between inlet channel and outlet channel.

Further, the cross section of inlet channel is the rectangle and flow area is the same with outlet channel, deposits the storehouse and includes upper portion space and lower part space with inlet channel, outlet channel front and back correspondence, and the cross section in upper portion space is the rectangle and flow area is greater than inlet channel's flow area.

Further, an upper end cover is arranged above the sedimentation bin, the upper end cover comprises a fixing frame and a sealing plate arranged on the fixing frame, and the ultrasonic sensor is arranged on the fixing frame.

Further, the mount is provided with two flow distribution plates including the first horizontal pole that sets up in water inlet channel port department, the second horizontal pole that sets up in water outlet channel port department between first horizontal pole and the second horizontal pole, is provided with the cross-connecting rod between two flow distribution plates, ultrasonic sensor sets up on the cross-connecting rod.

Further, the mount is including setting up the reinforcement horizontal pole in two storehouse handing-over departments that deposit, consolidates the horizontal pole and links to each other with the flow distribution plate, is provided with the filter perpendicular with the flow distribution plate on the reinforcement horizontal pole.

Furthermore, the flow distribution plate comprises an upper frame and a lower frame, wherein the upper frame is connected with the first cross rod and the second cross rod, the lower frame is clamped at an upper port on the bottom surface of the sedimentation bin, two ends of the upper frame and two ends of the lower frame are respectively connected with the front frame and the rear frame through the front frame, and filter screens are arranged among the upper frame, the lower frame, the front frame and the rear frame.

The utility model has the advantages that the settling bin is openable, which is convenient for cleaning and maintenance, and the upper end cover can be opened when the sediment needs to be cleaned; the flow distribution plate and the filter plate are connected with the upper end cover, so that water flow can be blocked and filtered, and sedimentation is sufficient; set gradually two and deposit the storehouse, all be provided with the flow distribution plate in every deposits the storehouse, the filter setting deposits between the storehouse at two, can deposit in grades. The ultrasonic sensor arranged on the fixing frame can monitor the storage height of the sediment, and the alarm gives an alarm when the height of the sediment reaches the threshold value of the controller, so that a manager is automatically informed to clean the sediment in time.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive work.

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a cross-sectional view taken along the line A-A in FIG. 1;

wherein:

1. a water inlet channel 2 and a water outlet channel;

3. a settling bin 31, a bottom surface 32, an upper space 33 and a lower space;

4. an upper end cover 41, a fixing frame 42 and a sealing plate;

411. the device comprises a first cross bar 412, a second cross bar 413, a splitter plate 414, a cross connecting rod 415, a reinforcing cross bar 416 and a filter plate;

4131. an upper frame 4132, a lower frame 4133, a front frame 4134, a rear frame;

7. an ultrasonic sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

A building wastewater monitoring system, as shown in figures 1 and 2, comprises a sedimentation tank connected between a septic tank and a purification device, wherein the sedimentation tank comprises a water inlet channel 1 connected with a discharge hole of the septic tank and a water outlet channel 2 connected with a water inlet of the purification device, the water inlet channel 1 and the water outlet channel 2 are both of circumferential closed structures, odor is prevented from overflowing, and the schematic diagram shown in the figures is convenient to understand.

The water inlet channel 1 is communicated with the water outlet channel 2 through the precipitation bins 3, the precipitation bins 3 are arranged in two, and the two precipitation bins 3 are sequentially connected between the water inlet channel 1 and the water outlet channel 2 to form a two-stage precipitation structure.

The top of depositing storehouse 3 is provided with ultrasonic sensor 7, and ultrasonic sensor 7's response end orientation deposits the bottom of storehouse 3, and ultrasonic sensor 7 links to each other with the controller, and the controller is connected with the alarm that is correlated with ultrasonic sensor 7. The ultrasonic sensor 7 can monitor the sedimentation height of sediment in the sedimentation bin 3, and the alarm gives an alarm when the height of the sediment reaches the threshold value of the controller, so that a manager is automatically informed to clean the sediment in time. Specifically, the bottom surface 31 of the settling bin 3 is spherical, and the sensing end of the ultrasonic sensor 7 is vertically opposite to the lowest end of the bottom surface 31, so that the middle position of the bottom surface 31 can be monitored.

The cross section of inhalant canal 1 and exhalant canal 2 is the rectangle and flow area is the same, deposits storehouse 3 and includes upper portion space 32 and the lower part space 33 that is located the below that corresponds around inhalant canal 1, exhalant canal 2, and the cross section of upper portion space 32 is the rectangle and flow area is greater than inhalant canal 1's flow area. When the water in the inlet passage 1 flows into the upper space 32, the flow area is suddenly increased, the flow rate is decreased, and the water can be sufficiently settled into the space where the bottom surface 31 is located.

Deposit 3 tops in the storehouse and be provided with upper end cover 4, seal the smell that deposits storehouse 3, can also prevent simultaneously that the rainwater from getting into. The upper end cover 4 includes a fixing frame 41 and a sealing plate 42 disposed on the fixing frame 41, and the ultrasonic sensor 7 is disposed on the fixing frame 41. The fixing frame 41 comprises a first cross bar 411 fixedly arranged at the port of the water inlet channel 1 and a second cross bar 412 fixedly arranged at the port of the water outlet channel 2. Two flow distribution plates 413 are arranged between the first cross bar 411 and the second cross bar 412, the two flow distribution plates 413 are arranged at intervals, and two end portions of the two flow distribution plates 413 respectively correspond to the water inlet channel 1 and the water outlet channel 2, so that a blocking flow distribution effect is formed. A cross link 414 is arranged between the two shunting plates 413, and the ultrasonic sensor 7 is arranged on the cross link 414.

In particular, the fixed frame 41 comprises a reinforcing cross-bar 415 arranged at the junction of two settling bins 3. The reinforcing cross bar 415 is connected with the flow distribution plate 413, a filter plate 416 perpendicular to the flow distribution plate 413 is arranged on the reinforcing cross bar 415, and water in the previous precipitation bin 3 enters the next precipitation bin 3 through the filter plate 416 to be filtered. The dividing plate 413 comprises an upper frame 4131 connected with the first cross bar 411 and the second cross bar 412, and a lower frame 4132 clamped at the upper port of the bottom surface 31 of the settling bin 3, wherein the two ends of the upper frame 4131 and the lower frame 4132 are respectively connected through a front frame 4133 and a rear frame 4134. The filter screen 5 is arranged among the upper frame 4131, the lower frame 4132, the front frame 4133 and the rear frame 4134, and the filter screen 5 can play a role in shunting and can collide, filter or adsorb sediments, so that the sedimentation is more sufficient and efficient.

The present invention is not exhaustive and is well known to those skilled in the art.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a building waste water monitoring system, is including connecting the sedimentation tank between septic tank and purifier, its characterized in that: the sedimentation tank includes inlet channel (1) that links to each other with the discharge gate of septic tank, outlet channel (2) that links to each other with purifier's water inlet, through precipitating storehouse (3) intercommunication between inlet channel (1) and outlet channel (2), the top of precipitating storehouse (3) is provided with ultrasonic sensor (7), and ultrasonic sensor's (7) response end orientation is precipitated the bottom of storehouse (3), and ultrasonic sensor (7) link to each other with the controller, and the controller is connected with the alarm that is correlated with ultrasonic sensor (7).

2. The building wastewater monitoring system of claim 1, wherein: the bottom surface (31) of settling bin (3) is spherical, and the induction end of ultrasonic sensor (7) is opposite to the lowest end of bottom surface (31) from top to bottom.

3. The building wastewater monitoring system of claim 1 or 2, wherein: the two sedimentation bins (3) are arranged and sequentially connected between the water inlet channel (1) and the water outlet channel (2).

4. The building wastewater monitoring system of claim 3, wherein: the cross section of inhalant canal (1) and exhalant canal (2) is the rectangle and flow area is the same, deposits storehouse (3) and includes upper portion space (32) and lower part space (33) with inhalant canal (1), exhalant canal (2) front and back correspondence, and the cross section of upper portion space (32) is the rectangle and flow area is greater than the flow area of inhalant canal (1).

5. The building wastewater monitoring system of claim 4, wherein: an upper end cover (4) is arranged above the sedimentation bin (3), the upper end cover comprises a fixing frame (41) and a sealing plate (42) arranged on the fixing frame (41), and the ultrasonic sensor (7) is arranged on the fixing frame (41).

6. The building wastewater monitoring system of claim 5, wherein: the fixing frame (41) comprises a first cross rod (411) arranged at a port of the water inlet channel (1) and a second cross rod (412) arranged at a port of the water outlet channel (2), two flow distribution plates (413) are arranged between the first cross rod (411) and the second cross rod (412), a transverse connecting rod (414) is arranged between the two flow distribution plates (413), and the ultrasonic sensor (7) is arranged on the transverse connecting rod (414).

7. The building wastewater monitoring system of claim 6, wherein: the fixing frame (41) comprises a reinforcing cross bar (415) arranged at the joint of the two settling bins (3), the reinforcing cross bar (415) is connected with the flow distribution plate (413), and a filter plate (416) perpendicular to the flow distribution plate (413) is arranged on the reinforcing cross bar (415).

8. The building wastewater monitoring system of claim 6 or 7, wherein: the flow distribution plate (413) comprises an upper frame (4131) and a lower frame (4132), wherein the upper frame (4131) is connected with the second cross bar (412) through the first cross bar (411), the lower frame (4132) is clamped at an upper port of the bottom surface (31) of the settling bin (3), two ends of the upper frame (4131) and two ends of the lower frame (4132) are respectively connected with the rear frame (4134) through a front frame (4133), and a filter screen (5) is arranged between the upper frame (4131), the lower frame (4132), the front frame (4133) and the rear frame (4134).

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