CN211652818U - Drinking water source environmental protection system - Google Patents

Abstract

The utility model discloses a drinking water source environmental protection system, which comprises a bod, the internal processing equipment chamber of organism, the outside in equipment chamber is formed with the buoyancy chamber, the utility model discloses a water inlet manifold, the pressure manifold, tee bend joint and drainage manifold cooperation, and the collocation solenoid valve, constitute four routes, realize the bilateral control of intake drainage, can be by the suction pump water intaking, and send into the buoyancy intracavity through water inlet manifold, the pressure manifold, tee bend joint and branch pipe, increase gravity, realize the decline of organism, the water of buoyancy intracavity is through the branch pipe, the tee bend joint, pressure manifold and drainage manifold cooperation, discharge by the drain pump and reduce gravity, realize the come-up of organism, make things convenient for the water source detection of the different degree of depth more, and it is more convenient to get the sample in the sampling box and put, improve sampling efficiency effectively, be favorable to drinking water source's environmental protection.

Description

Drinking water source environmental protection system

Technical Field

The utility model relates to an environmental protection equipment technical field specifically is a drinking water source environmental protection system.

Background

The detection of the environmental parameters of the drinking water source has been started from the eighties and the nineties in China, and the research and application work in developing the intelligent monitoring system and the intelligent control system for the environmental parameters of the drinking water source is never interrupted, but the intelligent degree and the scientific and technical level of the intelligent monitoring system for the environmental parameters of the water source in the market of China are low at present, most of the monitoring equipment can only be put in manually, wastes time and labor, can only monitor the upper-layer water quality of a putting area, cannot adjust the monitoring and sampling depth, causes inaccurate data, is limited to use, and has low efficiency in protecting and monitoring the water source environment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drinking water source environmental protection system to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a drinking water source environment protection system comprises a machine body, a sampling box and a branch pipe, wherein an equipment cavity is processed in the machine body, a buoyancy cavity is formed on the outer side of the equipment cavity, a stay bar is processed in the buoyancy cavity, a sealing cover is arranged at the top end of the machine body and is connected with the machine body through a bolt, a control box is arranged on the upper end face of the sealing cover, a monitoring module is arranged on the upper top face of the control box, a photovoltaic panel is arranged on the end face of the sealing cover on the outer side of the control box, the sampling box is arranged in the equipment cavity and is connected with the lower end face of the sealing cover through a bolt, an inlet and an outlet are processed on the lower end face of the sampling box in parallel, a solenoid valve is arranged, a water suction pump and a drainage pump are arranged on the inner bottom face of the equipment cavity, a water inlet pipe and a drainage pipe are respectively arranged at the inlet end of the water pump and the outlet of the drainage pump, a filter shell is, the branch pipe sets up the below at the sampling box, the outer end and the equipment intracavity wall threaded connection of branch pipe, and communicate with the buoyancy chamber, and set up three-way pipe joint at the inner of branch pipe, and connect through three-way pipe joint between the branch pipe, set up the pressure manifold at the entrance point of three-way pipe joint simultaneously, and the entrance point of pressure manifold both sides sets up the solenoid valve, set up intake manifold and drainage manifold respectively at the intake point of suction pump exit end and drain pump in addition, and the both sides export of intake manifold passes through the solenoid valve with the import of sampling box and one side port of flow manifold respectively and is connected, drainage manifold's both sides import passes through the solenoid valve with the export of sampling box and the other side port of flow manifold.

As a further aspect of the present invention: and the storage batteries are arranged on two sides of the inner bottom surface of the equipment cavity and are connected with the machine body through screws.

As a further aspect of the present invention: the two side end faces of the bottom of the machine body are provided with advancing seats, the outer ends of the advancing seats are provided with motors, and the shaft ends of the motors are provided with paddle wheels, so that the paddle wheels can be driven to rotate by the motors and the machine body can be driven to move and turn.

As a further aspect of the present invention: the monitoring module adopts a temperature sensor, a PH value sensor, a turbidity sensor and a TDS sensor, and the probe is externally arranged.

As a further aspect of the present invention: the plurality of supporting rods are annularly distributed in the buoyancy cavity, and gaps are reserved between the upper edges and the lower edges of the supporting rods and the sealing cover and the inner bottom surface of the buoyancy cavity respectively, so that the balance of each position can be effectively guaranteed.

As a further aspect of the present invention: the electromagnetic valves are four groups in total and are correspondingly matched with the outlet end of the water inlet manifold and the inlet end of the water discharge manifold.

As a further aspect of the present invention: the photovoltaic panels are distributed on the outer side of the control box in an annular mode and connected with the upper end face of the sealing cover through bolts.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses simple structure adopts the closing cap to encapsulate equipment chamber and buoyancy chamber to support the organism of the buoyancy chamber outside and inboard through the vaulting pole, further improve structural strength, guarantee the stability of structure, control monitoring module by the control box simultaneously and monitor each item parameter of water source environment, efficiency is higher; the filter shell is matched with the filter screen to filter pumped water and protect drained water, so that the structure is more stable; adopt the intake manifold, the pressure manifold, tee bend coupling and drainage manifold cooperation, and the collocation solenoid valve, constitute four routes, realize the bilateral control of intake drainage, can be by the suction pump water intaking, and through intake manifold, the pressure manifold, tee bend coupling and branch pipe send into the buoyancy intracavity, increase gravity, realize the decline of organism, the water in the buoyancy intracavity is through the branch pipe, tee bend coupling, pressure manifold and drainage manifold cooperation, discharge by the drain pump and reduce gravity, realize the come-up of organism, make things convenient for the water source detection of the different degree of depth more, and it is more convenient to get and put the sample in the sampling box, improve sampling efficiency effectively, the environmental protection who is favorable to drinking the water source.

Drawings

Fig. 1 is a schematic sectional structure view of a drinking water source environment protection system.

FIG. 2 is a side cross-sectional structural schematic view of a potable water source environmental protection system.

Fig. 3 is a schematic top view of the drinking water source environmental protection system.

Fig. 4 is a schematic top view of the machine body of the drinking water source environmental protection system.

Fig. 5 is a schematic diagram of a control system of the drinking water source environmental protection system.

In the figure: the device comprises a machine body 1, an equipment cavity 2, a buoyancy cavity 3, a support rod 4, a cover 5, a control box 6, a monitoring module 7, a photovoltaic panel 8, a sampling box 9, a storage battery 10, a water suction pump 11, a water inlet manifold 12, an electromagnetic valve 13, a collecting pipe 14, a three-way pipe joint 15, a branch pipe 16, a drainage manifold 17, a drainage pump 18, a water inlet pipe 19, a drainage pipe 20, a filter shell 21, a filter screen 22, a traveling seat 23, a motor 24 and a paddle wheel 25.

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 creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, in the embodiment of the present invention, a drinking water source environment protection system includes a machine body 1, a sampling box 9 and a branch pipe 16, wherein a device cavity 2 is processed in the machine body 1, a buoyancy cavity 3 is formed outside the device cavity 2, a stay bar 4 is processed in the buoyancy cavity 3, a sealing cover 5 is disposed at the top end of the machine body 1 and connected to the machine body 1 through a bolt, a control box 6 is disposed on the upper end surface of the sealing cover 5, a monitoring module 7 is disposed on the upper top surface of the control box 6, a photovoltaic panel 8 is disposed on the end surface of the sealing cover 5 outside the control box 6, so that the device cavity 2 and the buoyancy cavity 3 are encapsulated by the sealing cover 5, the machine body 1 outside and inside the buoyancy cavity 3 are supported by the stay bar 4, the structural strength is further improved, the structural stability is ensured, and the monitoring module 7 is controlled by the control box 6 to monitor various parameters of the water source environment, the efficiency is higher, the sampling box 9 is arranged in the equipment cavity 2, the lower end faces of the sampling box 9 and the sealing cover 5 are connected through bolts, an inlet and an outlet are processed in parallel on the lower end face of the sampling box 9, the electromagnetic valve 13 is arranged, the inner bottom face of the equipment cavity 2 is provided with the water suction pump 11 and the water discharge pump 18, the inlet end of the water suction pump 11 and the outlet end of the water discharge pump 18 are respectively provided with the water inlet pipe 19 and the water discharge pipe 20, the lower end face of the machine body 1 is provided with the filter shell 21, the bottom end of the filter shell 21 is provided with the filter screen 22, the top end of the filter shell 21 is in threaded connection with the lower end face of the machine body 1, samples are stored through the sampling box 9, the filter shell 21 is matched with the filter screen 22 to filter pumped water and protect water discharge, the structure is more stable, the branch pipe 16 is arranged below the sampling box 9, the outer end of the branch, a three-way pipe joint 15 is arranged at the inner end of a branch pipe 16, the branch pipes 16 are connected through the three-way pipe joint 15, a collecting pipe 14 is arranged at the inlet end of the three-way pipe joint 15, electromagnetic valves 13 are arranged at the inlet ends of two sides of the collecting pipe 14, a water inlet manifold 12 and a water outlet manifold 17 are respectively arranged at the outlet end of a water pump 11 and the inlet end of a drainage pump 18, the outlets at two sides of the water inlet manifold 12 are respectively connected with the inlet of a sampling box 9 and the port at one side of the collecting pipe 14 through the electromagnetic valves 13, the inlets at two sides of the drainage manifold 17 are respectively connected with the outlet of the sampling box 9 and the port at the other side of the collecting pipe 14 through the electromagnetic valves 13, thus the water inlet manifold 12, the collecting pipe 14, the three-way pipe joint 15 and the drainage manifold 17 are matched with the electromagnetic valves 13 to realize bidirectional control, namely water can be taken by the water, increase gravity realizes organism 1's decline, and the cooperation of branch pipe 16, three-way pipe joint 15, pressure manifold 14 and drainage manifold 17 is passed through to the water in the buoyancy chamber 3, is discharged by drain pump 18 and is reduced gravity, realizes organism 1's come-up, makes things convenient for the water source of the different degree of depth to detect more to it is more convenient that the sample in the sampling box 9 is got and is put, improves sampling efficiency effectively, is favorable to drinking water source's environmental protection.

And storage batteries 10 are arranged on two sides of the inner bottom surface of the equipment cavity 2 and are connected with the machine body 1 through screws.

The two side end surfaces of the bottom of the machine body 1 are provided with advancing seats 23, the outer ends of the advancing seats 23 are provided with motors 24, and shaft ends of the motors 24 are provided with paddle wheels 25, so that the paddle wheels 25 can be driven to rotate by the motors 24 and the machine body 1 is driven to move and turn.

The monitoring module 7 adopts a temperature sensor, a pH value sensor, a turbidity sensor and a TDS sensor, and a probe is arranged outside.

The plurality of support rods 4 are annularly distributed in the buoyancy cavity 3, and gaps are reserved between the upper edge and the lower edge of each support rod 4 and the inner bottom surfaces of the sealing cover 5 and the buoyancy cavity 3 respectively, so that the balance among the parts can be effectively guaranteed.

The electromagnetic valves 13 are four groups and are correspondingly matched with the outlet end of the water inlet manifold 12 and the inlet end of the water outlet manifold 17.

The photovoltaic panels 8 are annularly distributed on the outer side of the control box 6 and are connected with the upper end face of the sealing cover 5 through bolts.

The utility model discloses a theory of operation is: when in use, the human-computer end is used for remote control, wireless transmission is carried out by the control box, and positioning is carried out, so that the propeller impeller 25 can be driven by the motor 24 to rotate, and the machine body 1 is driven to move and turn; only the electromagnetic valve 13 between the water inlet manifold 12 and the collecting pipe 14 is opened, water can be taken by the water pump 11 and is sent into the buoyancy cavity 3 through the water inlet manifold 12, the collecting pipe 14, the three-way pipe joint 15 and the branch pipe 16, the gravity is increased, the machine body 1 is lowered to adjust the monitoring depth, and meanwhile, the control box 6 controls the monitoring module 7 to monitor various parameters of the water source environment; only the electromagnetic valve 13 between the water inlet manifold 12 and the sampling box 9 is opened, and then the water sample at the current position can be injected into the sampling box 9 by the water pump 11; only the electromagnetic valve 13 between the drainage manifold 17 and the collecting pipe 14 is opened, water in the buoyancy cavity 3 can be extracted by the drainage pump 18 and is discharged through the branch pipe 16, the three-way pipe joint 15, the collecting pipe 14, the drainage manifold 17, the drainage pump 18 and the drainage pipe 20, gravity is reduced, floating of the machine body 1 is achieved, and water source detection at different depths is facilitated; only the electromagnetic valve 13 between the drainage manifold 17 and the sampling box 9 is opened, the sample water source in the sampling box 9 can be discharged by the drainage pump 18, the sample is more conveniently taken and placed, the sampling efficiency is effectively improved, and the environmental protection of the drinking water source is facilitated.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. A drinking water source environment protection system comprises a machine body, a sampling box and a branch pipe, and is characterized in that an equipment cavity is processed in the machine body, a buoyancy cavity is formed outside the equipment cavity, a stay rod is processed in the buoyancy cavity, a sealing cover is arranged at the top end of the machine body and is connected with the machine body through a bolt, a control box is arranged on the upper end face of the sealing cover, a monitoring module is arranged on the upper top face of the control box, a photovoltaic panel is arranged on the end face of the sealing cover outside the control box, the sampling box is arranged in the equipment cavity and is connected with the lower end face of the sealing cover through a bolt, an inlet and an outlet are processed in parallel on the lower end face of the sampling box, an electromagnetic valve is arranged, a water suction pump and a water discharge pump are arranged on the bottom face in the equipment cavity, a water inlet pipe and a water discharge pipe are respectively arranged at the inlet end of the water suction pump and the outlet end of, and the top of the filter shell is in threaded connection with the lower end face of the machine body, the branch pipes are arranged below the sampling box, the outer ends of the branch pipes are in threaded connection with the inner wall of the equipment cavity and are communicated with the buoyancy cavity, the inner ends of the branch pipes are provided with three-way pipe joints, the branch pipes are connected through the three-way pipe joints, meanwhile, the inlet ends of the three-way pipe joints are provided with collecting pipes, electromagnetic valves are arranged at the inlet ends of two sides of the collecting pipes, a water inlet manifold and a water discharge manifold are respectively arranged at the outlet end of the water suction pump and the inlet end of the water discharge pump, the outlets of two sides of the water inlet manifold are respectively connected with the inlet of the sampling box and the port of one side of the collecting pipe through the electromagnetic valves.

2. The drinking water source environmental protection system of claim 1, wherein the storage batteries are disposed on two sides of the inner bottom surface of the equipment cavity and connected with the machine body through screws.

3. The drinking water source environment protection system of claim 1, wherein the two side end faces of the bottom of the machine body are provided with a traveling seat, the outer end of the traveling seat is provided with a motor, and the shaft end of the motor is provided with a paddle wheel.

4. The potable water source environmental protection system of claim 1, wherein the monitoring module employs a temperature sensor, a PH sensor, a turbidity sensor, and a TDS sensor, and the probe is external.

5. The potable water source environmental protection system of claim 1, wherein the plurality of struts are annularly distributed in the buoyancy chamber, and the upper edge and the lower edge of the struts are spaced from the sealing cover and the inner bottom surface of the buoyancy chamber, respectively.

6. The potable water source environmental protection system of claim 1, wherein the solenoid valves are four sets and are correspondingly engaged with the outlet end of the inlet manifold and the inlet end of the drain manifold.

7. The potable water source environmental protection system of claim 1, wherein the photovoltaic panels are distributed in a ring shape outside the control box and connected with the upper end surface of the cover through bolts.

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