CN220231719U - Constructed wetland sewage monitoring device - Google Patents

Abstract

The utility model discloses an artificial wetland sewage monitoring device, which relates to the technical field of artificial wetlands and comprises a monitoring assembly, a floating device, a water pump device, an oxygenation device, a cable device and a fixing device, wherein the peripheral surface of the monitoring assembly is respectively connected with one ends of four floating devices, the water pump device is arranged at the lower side of the floating devices, the upper surfaces of the four floating devices are connected with the lower surface of the oxygenation device, the cable device is arranged at the lower side of the floating devices, and one end of the fixing device is connected with one end of the cable device. The utility model relates to an artificial wetland sewage monitoring device, which is characterized in that a floating device is arranged, so that the device can float on the water surface to monitor the water quality, the situation that the device can obstruct the water flow transmitted in the artificial wetland is effectively prevented, and the cable device and a fixing device are arranged, so that the device can float on the water surface in a certain range stably and can not float along with the water flow.

Description

Constructed wetland sewage monitoring device

Technical Field

The utility model relates to the technical field of artificial wetland, in particular to an artificial wetland sewage monitoring device.

Background

The artificial wetland is a system through engineering design, natural functional vegetation, soil and organisms are utilized to treat wastewater, the design of the artificial wetland must be correspondingly adjusted according to the type of wastewater, the artificial wetland is used for treating centralized wastewater and site wastewater, when the artificial wetland is butted with town domestic wastewater or other wastewater similar to the domestic wastewater in nature, the basic process flow is that the wastewater firstly enters a pretreatment device for pretreatment, then enters the artificial wetland for purification, and is discharged or recycled after the purification is finished, when the wastewater is discharged into the artificial wetland after the pretreatment by the pretreatment device, the wastewater needs to be detected in real time to confirm that the requirement of the artificial wetland purification is met, and the Chinese patent (publication No. CN 213023099U) discloses a wastewater detection device applied to the ecological restoration of the artificial wetland, which comprises a water inlet pipe, a wastewater valve, a detection box, a coarse-pore filter screen, a handle, a chute, a thermometer, a PH detector, a turbidity detector and a water outlet pipe.

However, the existing sewage detection device for the constructed wetland has some disadvantages in use, such as:

the existing sewage detection device for the constructed wetland is arranged at the outlet end of a sewage pipeline and is in butt joint with a sewage pipe, impurities wrapped in sewage are accumulated at the joint of the detection device and the sewage pipe generally after being simply filtered and discharged into the constructed wetland, the pipeline is easy to be blocked, the sewage discharge is influenced, and the existing sewage detection device for the constructed wetland is provided.

Disclosure of Invention

In view of the above, the present utility model aims to provide a constructed wetland sewage monitoring device, so as to solve the problems that the existing constructed wetland sewage detection device is installed at the outlet end of a sewage pipeline, is butted with a sewage pipe, is simply filtered and is discharged into the constructed wetland from the detection device, and impurities wrapped in sewage are generally accumulated at the joint of the detection device and the sewage pipe, which is easy to cause pipeline blockage and influence sewage discharge.

Based on the above purpose, the utility model provides an artificial wetland sewage monitoring device, which comprises a monitoring assembly, a floating device, a water pump device, an oxygenation device, a cable device and a fixing device, wherein the peripheral surface of the monitoring assembly is respectively connected with one ends of four floating devices, the water pump device is arranged at the lower side of the floating devices, the upper surfaces of the four floating devices are connected with the lower surface of the oxygenation device, the cable device is arranged at the lower side of the floating devices, and one end of the fixing device is connected with one end of the cable device;

the monitoring assembly comprises a water quality monitor, a connecting rod and a remote signal processing module, wherein the upper surface of the water quality monitor is connected with the lower end of the connecting rod, and the upper surface of the connecting rod is connected with the lower surface of the remote signal processing module;

the floating device comprises floating rods and cylindrical buoys, one ends of the four floating rods are respectively connected with the peripheral surfaces of the remote signal processing module, and the other ends of the four floating rods are respectively connected with one surfaces of the four cylindrical buoys.

Further, the floating device further comprises annular floating pontoons, the upper surfaces of the two annular floating pontoons are respectively connected with the lower surfaces of the four floating rods, and the structures of the two annular floating pontoons are semi-annular hollow.

Further, the water pump device comprises a pump, a water pumping pipe and a water outlet pipe, one ends of the two annular pontoons are respectively connected with two side surfaces of the pump, the upper end of the water pumping pipe is connected with the input end of the pump, and one end of the water outlet pipe is connected with the output end of the pump.

Further, the oxygen generating device comprises a flow distribution ring and spray heads, one end of the water outlet pipe is in through connection with one surface of the flow distribution ring, the upper surfaces of the four floating rods are all connected with the lower surface of the flow distribution ring, eight spray heads are equidistantly arranged on the upper surface of the flow distribution ring, and eight spray heads are all in through connection with the flow distribution ring.

Further, the cable device comprises a storage ring and a fixing rope, round protruding blocks are arranged at the centers of two sides of the storage ring, round grooves are formed in one end surface of each of the two annular pontoons, and the round protruding blocks on two sides of the storage ring rotate in the grooves on one end surface of each of the two annular pontoons.

Further, the fixing device comprises an anchor and fixing teeth, one end of the anchor is connected with the bottom end of the fixing rope, and the other two ends of the anchor are respectively connected with one end of the two fixing teeth.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the floating device is arranged, so that the device can float on the water surface to monitor the water quality, the situation that the device can obstruct the water flow transmitted into the constructed wetland is effectively prevented, and the cable device and the fixing device are arranged, so that the device can float on the water surface within a certain range stably and cannot float along with the water flow.

Drawings

FIG. 1 is a schematic diagram of the whole structure of an artificial wetland sewage monitoring device according to the present utility model;

FIG. 2 is an isometric schematic view of an artificial wetland sewage monitoring device according to the present utility model;

FIG. 3 is a schematic top view of an artificial wetland sewage monitoring device according to the present utility model;

fig. 4 is a schematic view of a partial enlarged structure at a in fig. 1 according to the present utility model.

In the figure: 100. a monitoring component; 101. a water quality monitor; 102. a connecting rod; 103. a signal processing module; 200. a floatation device; 201. a floating rod; 202. a cylindrical pontoon; 203. an annular pontoon; 300. a water pump device; 301. a pump machine; 302. a water pumping pipe; 303. a water outlet pipe; 400. an oxygen-generating device; 401. a shunt ring; 402. a spray header; 500. a cable device; 501. a receiving ring; 502. a fixing rope; 600. a fixing device; 601. anchoring nails; 602. and fixing the teeth.

Description of the embodiments

The present utility model will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present utility model more apparent.

It is to be noted that unless otherwise defined, technical or scientific terms used herein should be taken in a general sense as understood by one of ordinary skill in the art to which the present utility model belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

Referring to fig. 1 to fig. 4, fig. 1 is a schematic diagram of an overall structure of an artificial wetland sewage monitoring device according to the present utility model; FIG. 2 is an isometric schematic view of an artificial wetland sewage monitoring device according to the present utility model; FIG. 3 is a schematic top view of an artificial wetland sewage monitoring device according to the present utility model; fig. 4 is a schematic view of a partial enlarged structure at a in fig. 1 according to the present utility model.

The constructed wetland sewage monitoring device comprises a monitoring assembly 100, a floating device 200, a water pump device 300, an oxygenation device 400, a cable device 500 and a fixing device 600, wherein the peripheral surface of the monitoring assembly 100 is respectively connected with one ends of the four floating devices 200, the water pump device 300 is arranged at the lower side of the floating devices 200, the upper surfaces of the four floating devices 200 are connected with the lower surface of the oxygenation device 400, the cable device 500 is arranged at the lower side of the floating devices 200, and one end of the fixing device 600 is connected with one end of the cable device 500;

the monitoring assembly 100 comprises a water quality monitor 101, a connecting rod 102 and a remote signal processing module 103, wherein the upper surface of the water quality monitor 101 is connected with the lower end of the connecting rod 102, and the upper surface of the connecting rod 102 is connected with the lower surface of the remote signal processing module 103;

the main function of the water quality monitor 101 is to detect the water quality in the constructed wetland, the main function of the connecting rod 102 is to connect the water quality monitor 101 and the remote signal processing module 103, a control chip and a battery module are arranged in the remote signal processing module 103, the water quality monitor 101 can be controlled by the connecting rod 102, so that the water quality monitor 101 can detect the water quality in the constructed wetland at regular time, and the water quality monitor can be transmitted to a mobile phone of a user through a remote signal, so that the water quality change in the constructed wetland can be monitored conveniently at any time;

the floating device 200 comprises floating rods 201 and cylindrical pontoons 202, one ends of the four floating rods 201 are respectively connected with the peripheral surfaces of the remote signal processing module 103, and the other ends of the four floating rods 201 are respectively connected with one surfaces of the four cylindrical pontoons 202;

wherein. The main function of the floating rod 201 is to connect the remote signal processing module 103 and the cylindrical pontoon 202, and the main function of the cylindrical pontoon 202 is to make the device float on the surface of the water body as a whole, so as to prevent the device from obstructing the water flow transmitted in the constructed wetland.

Further, the floating device 200 further comprises annular pontoons 203, the upper surfaces of the two annular pontoons 203 are respectively connected with the lower surfaces of the four floating rods 201, and the two annular pontoons 203 are semi-annular hollow;

the main purpose of the ring buoy 203 is to further increase the buoyancy of the device and to fix the water pump device 300 and the cable device 500, respectively.

Further, the water pump device 300 includes a pump 301, a water pumping pipe 302, and a water outlet pipe 303, one ends of the two ring pontoons 203 are respectively connected with two side surfaces of the pump 301, an upper end of the water pumping pipe 302 is connected with an input end of the pump 301, and one end of the water outlet pipe 303 is connected with an output end of the pump 301;

the pump 301 mainly serves to power the oxygenation device 400, the water pumping pipe 302 mainly serves to assist the pump 301 in pumping water from the bottom wetland, and the water outlet pipe 303 mainly serves to convey water to the oxygenation device 400.

Further, the oxygen-generating device 400 includes a diverter ring 401 and a spray header 402, one end of the water outlet pipe 303 is connected with a surface of the diverter ring 401 in a penetrating manner, the upper surfaces of the four floating rods 201 are all connected with the lower surface of the diverter ring 401, eight spray headers 402 are equidistantly arranged on the upper surface of the diverter ring 401, and eight spray headers 402 are all connected with the diverter ring 401 in a penetrating manner;

the main function of the diverter ring 401 is to divert the water flow, and the main function of the spray header 402 is to further divert the water flow into fine flow for discharge, so as to increase the dissolved oxygen of the water body.

Further, the cable device 500 includes a receiving ring 501 and a fixing rope 502, the centers of two sides of the receiving ring 501 are provided with circular protruding blocks, one end surface of each of the two ring-shaped pontoons 203 is provided with a circular groove, and the circular protruding blocks on two sides of the receiving ring 501 rotate in the grooves on one end surface of each of the two ring-shaped pontoons 203;

the main function of the receiving ring 501 is to receive the fixing rope 502, and the main function of the fixing rope 502 is to connect the fixing device 600 and the receiving ring 501, so that the device can float in a fixed range of a water body and cannot float to other positions due to water flow.

Further, the fixing device 600 includes an anchor 601 and fixing teeth 602, one end of the anchor 601 is connected to the bottom end of the fixing rope 502, and the other two ends of the anchor 601 are respectively connected to one ends of the two fixing teeth 602;

the anchor 601 has a main function of facilitating the fixing device 600 to sink into the water rapidly when fixing, and the fixing teeth 602 have a main function of enabling the fixing device 600 to be stably fixed on the water, so that the device body is prevented from floating to other water bodies due to water flow.

To sum up, when in actual use, the user removes the device through the ship to the water top that needs to detect, put into the aquatic with the device, the device floats on the water surface this moment, make fixed rope 502 extension through rotating storage ring 501, fixing device 600 sinks to the water bottom, fix in the water bottom through anchor 601 and fixed tooth 602, the device starts this moment, be provided with control chip and battery module in through remote signal processing module 103, can control water quality monitor 101 through connecting rod 102, make it detect the quality of water in the constructed wetland regularly, and transmit to user's cell-phone through remote signal, the quality of water in the convenient real-time supervision wetland changes.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the utility model (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the utility model, the steps may be implemented in any order and there are many other variations of the different aspects of the utility model as described above, which are not provided in detail for the sake of brevity.

The present utility model is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present utility model should be included in the scope of the present utility model.

Claims (6)

1. The utility model provides an constructed wetland sewage monitoring device which characterized in that: the device comprises a monitoring assembly (100), floating devices (200), a water pump device (300), an oxygenation device (400), a cable device (500) and a fixing device (600), wherein the peripheral surface of the monitoring assembly (100) is respectively connected with one ends of the four floating devices (200), the water pump device (300) is arranged at the lower side of the floating devices (200), the upper surfaces of the four floating devices (200) are connected with the lower surface of the oxygenation device (400), the cable device (500) is arranged at the lower side of the floating devices (200), and one end of the fixing device (600) is connected with one end of the cable device (500);

the monitoring assembly (100) comprises a water quality monitor (101), a connecting rod (102) and a remote signal processing module (103), wherein the upper surface of the water quality monitor (101) is connected with the lower end of the connecting rod (102), and the upper surface of the connecting rod (102) is connected with the lower surface of the remote signal processing module (103);

the floating device (200) comprises floating rods (201) and cylindrical pontoons (202), one ends of the four floating rods (201) are respectively connected with the peripheral surfaces of the remote signal processing module (103), and the other ends of the four floating rods (201) are respectively connected with one surface of the four cylindrical pontoons (202).

2. The constructed wetland sewage monitoring device according to claim 1, wherein: the floating device (200) further comprises annular floating pontoons (203), the upper surfaces of the two annular floating pontoons (203) are respectively connected with the lower surfaces of the four floating rods (201), and the structures of the two annular floating pontoons (203) are semi-annular hollow.

3. The constructed wetland sewage monitoring device according to claim 2, wherein: the water pump device (300) comprises a pump (301), a water pumping pipe (302) and a water outlet pipe (303), one ends of the two annular pontoons (203) are respectively connected with the surfaces of two sides of the pump (301), the upper end of the water pumping pipe (302) is connected with the input end of the pump (301), and one end of the water outlet pipe (303) is connected with the output end of the pump (301).

4. A constructed wetland sewage monitoring device according to claim 3, wherein: the oxygen generating device (400) comprises a flow distribution ring (401) and spray headers (402), one end of a water outlet pipe (303) is connected with one surface of the flow distribution ring (401) in a penetrating mode, the upper surfaces of the four floating rods (201) are connected with the lower surface of the flow distribution ring (401), eight spray headers (402) are arranged on the upper surface of the flow distribution ring (401) at equal intervals, and eight spray headers (402) are connected with the flow distribution ring (401) in a penetrating mode.

5. The constructed wetland sewage monitoring device according to claim 4, wherein: the mooring rope device (500) comprises a containing ring (501) and a fixing rope (502), round protruding blocks are arranged at the centers of two sides of the containing ring (501), round grooves are formed in one end surface of each annular pontoon (203), and the round protruding blocks on two sides of the containing ring (501) rotate in the grooves on one end surface of each annular pontoon (203).

6. The constructed wetland sewage monitoring device according to claim 5, wherein: the fixing device (600) comprises an anchor nail (601) and fixing teeth (602), one end of the anchor nail (601) is connected with the bottom end of the fixing rope (502), and the other two ends of the anchor nail (601) are respectively connected with one ends of the two fixing teeth (602).