CN214503003U - Sewer sewage is sampling device regularly - Google Patents

Abstract

The utility model discloses a sewer sewage is sampling device regularly, including the sewer sampling tube, the standpipe, the inlet tube, the outlet pipe, go out the appearance pipe, go out appearance control mechanism and deviator, the one end and the sewer sampling union coupling of inlet tube, the other end and the standpipe connection of inlet tube, the one end and the sewer sampling union coupling of outlet pipe, the other end and the standpipe connection of outlet pipe, go out appearance union coupling in the lower extreme of standpipe, it installs in out the appearance pipe to go out appearance control mechanism, deviator is connected and can control out opening or closing of appearance control mechanism with a play appearance control mechanism. A section of sewer sampling tube is installed on the sewer and used as a part of the sewer, and the sewer can be sampled at any time through the water inlet tube and stored in the water storage tube. The water sample in the water storage pipe can be discharged back to the sewer sampling pipe through the water outlet pipe. The sample outlet control mechanism is driven to be opened or closed through the direction changing device, so that a water sample in the water storage pipe flows into the sample receiving device and the sample detection device through the sample outlet pipe to be detected, and real-time detection data can be obtained.

Description

Sewer sewage is sampling device regularly

Technical Field

The utility model relates to a sampling device, in particular to sewer sewage is sampling device regularly.

Background

In recent years, problems such as environmental pollution and food safety have caused human health hazards. And for the detection of the sewage components in the related environment, related personnel are required to go to the site for sampling, and then the samples are taken to a detection mechanism for detection. The detection period is long, the efficiency is low, and the sampling is not timely. At present, no technology can provide timely and effective data support for the difficulty.

Disclosure of Invention

In view of this, in order to have the direction more, to have more corresponding ground to discover the danger source, to the sewage that the city domestic water produced to and carry out sewage composition detection to sewage pipes such as amusement place, hotel, realize the automated inspection of sewer sewage composition, the utility model provides a sewer water storage water intaking device.

According to the utility model discloses an aspect provides a sewer sewage is sampling device regularly, including sewer sampling tube, standpipe, inlet tube, outlet pipe, play appearance pipe and play appearance control mechanism, the one end and the sewer sampling tube of inlet tube are connected, the other end and the standpipe connection of inlet tube, the one end and the sewer sampling tube of outlet pipe are connected, the other end and the standpipe connection of outlet pipe, the inlet tube is located the top of outlet pipe, the one end that goes out the appearance pipe is connected in the lower extreme of standpipe, go out appearance control mechanism and play appearance union coupling and control switching on and cutting off of appearance pipe.

In some embodiments, the device for timed sampling of sewage further comprises a water inlet valve mounted to the water inlet pipe and a water outlet valve mounted to the water outlet pipe.

In some embodiments, the inlet pipe is inclined downward from the end connected to the sewer sampling pipe to the end connected to the water storage pipe, and the outlet pipe is inclined upward from the end connected to the sewer sampling pipe to the end connected to the water storage pipe.

According to the utility model discloses a sewage is sampling device regularly in another aspect, provide a sewer sewage, including sewer sampling tube, standpipe, inlet tube, outlet pipe, play appearance pipe and play appearance control mechanism, the lower extreme of standpipe is equipped with the delivery port, the one end and the sewer sampling tube of inlet tube are connected, the other end and the standpipe connection of inlet tube, the one end and the sewer sampling tube connection of outlet pipe, the other end and the delivery port of outlet pipe are connected, the inlet tube is located the top of outlet pipe, the one end that goes out the appearance pipe is connected in the lower part of standpipe, go out appearance control mechanism and go out switching on or cutting off of appearance union coupling and control play appearance pipe.

In some embodiments, the device for timed sampling of sewage further comprises a water outlet valve mounted to the water outlet and an electronic level gauge mounted to the upper portion of the water storage pipe.

In some embodiments, the sample outlet control mechanism comprises a water stop fixing clamp, a water stop clamp movable clamp and a spring, the sample outlet pipe is a hose, and the water stop fixing clamp and the water stop clamp movable clamp are connected through the spring and clamp the sample outlet pipe.

In some embodiments, the sample outlet control mechanism further comprises a direction changing device, a connecting shaft and a control band, the direction changing device is connected with the connecting shaft and can drive the connecting shaft to rotate or move back and forth, one end of the control band is connected with the water stop clamp movable clamp, and the other end of the control band is connected with the connecting shaft.

The utility model has the advantages that: the sewer sampling pipe is installed on the sewer and is used as a part of the sewer, the inclined water inlet pipe is connected with the water storage pipe, and the sewer can be sampled at any time and stored in the water storage pipe by opening or closing the water inlet valve on the water inlet pipe. The water sample in the water storage pipe can be discharged back to the sewer sampling pipe by opening or closing the water outlet valve on the water outlet pipe. The sample outlet control mechanism is driven to be opened or closed through the direction changing device, so that a water sample in the water storage pipe flows into the sample receiving device and the sample detection device through the sample outlet pipe to be detected, and real-time detection data can be obtained.

Drawings

Fig. 1 is a schematic structural view of a sewage timed sampling device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a sample outlet control mechanism of the timed sewer sewage sampling device shown in FIG. 1;

fig. 3 is a schematic structural view of a sewage timed sampling device according to an embodiment of the present invention;

fig. 4 is a partial schematic structural view of the sewage timed sampling device shown in fig. 3.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying drawings.

Example 1

Fig. 1 and 2 schematically show a sewage timed sampling device according to an embodiment of the present invention.

Referring to fig. 1 and 2, a timing sampling device for sewage comprises a sewer sampling tube 1, a water storage tube 2, a water inlet tube 3, a water outlet tube 4, a sample outlet tube 5, a sample outlet control mechanism 6, a water inlet valve 8 and a water outlet valve 7. The one end and the sewer sampling tube 1 of inlet tube 3 are connected, and the other end and the standpipe 2 of inlet tube 3 are connected, and the one end and the sewer sampling tube 1 of outlet pipe 4 are connected, and the other end and the standpipe 2 of outlet pipe 4 are connected. The water inlet pipe 3 is positioned above the water outlet pipe 4, and one end of the sample outlet pipe 5 is connected with the lower end of the water storage pipe 2. The sample outlet control mechanism 6 is mounted on the sample outlet pipe 5, the sample outlet control mechanism 6 is used for controlling the on and off states of the sample outlet pipe 5, and the sample outlet control mechanism 6 is in a normally closed state.

The water inlet valve 8 is arranged on the water inlet pipe 3, and the water outlet valve 7 is arranged on the water outlet pipe 4. The water inlet pipe 3 inclines downwards from one end connected with the sewer sampling pipe 1 to one end connected with the water storage pipe 2, and the water outlet pipe 4 inclines upwards from one end connected with the sewer sampling pipe 1 to one end connected with the water storage pipe 2 or the joint of the water outlet pipe 4 and the sewer sampling pipe 1 is lower than the joint of the water outlet pipe 4 and the water storage pipe 2. The sewer sampling tube 1 is installed in a sewer pipe to be sampled and is a part of the sewer pipe, and when the water inlet valve 8 is opened, water in the sewer sampling tube 1 automatically flows into the water storage tube 2 through the water inlet tube 3. When the water outlet valve 7 is opened, the water in the water storage pipe 2 automatically flows to the sewer sampling pipe 1 through the water outlet pipe 4.

The lower end of the water storage pipe 2 is in a conical shape with a large upper part and a small lower part, and one end of the sample outlet pipe 5 is connected with the lower end of the conical shape. The other end of the sample outlet pipe 5 can be connected with a mechanism or test paper needing a sample.

The sample outlet control mechanism 6 comprises a water stop fixing clamp 61, a water stop clamp movable clamp 62, a spring 63, a direction changing device 64, a connecting shaft 65 and a control belt 66. The sampling tube 5 is a hose, and the water stop fixing clamp 61 and the water stop clamp movable clamp 62 are connected through a spring 63 and clamp the sampling tube 5.

The direction changing device 64 is connected with the connecting shaft 65 and can drive the connecting shaft 65 to rotate forwards and backwards or move horizontally back and forth, one end of the control belt 66 is connected with the water stop clamp movable clamp 62, and the other end of the control belt 66 is connected with the connecting shaft 65. The water stop fixing clamp 61 and the direction changing device 64 are both fixedly arranged, and one end of the control belt 66 is connected with the tail end of the water stop clamp movable clamp 62. The direction changing device 64 drives the connecting shaft 65 to rotate so that the control belt 66 is wound on the connecting shaft 65, or the direction changing device 64 drives the connecting shaft 65 to horizontally move, the control belt 66 pulls the water stop clamp movable clamp 62 to open the sample outlet control mechanism 6 so as to release the sample outlet pipe 5, and a sample in the water storage pipe 2 flows out through the sample outlet pipe 5 to realize sampling.

The water inlet valve 8 and the water outlet valve 7 can adopt electromagnetic valves, and the direction changing device 64 can adopt a steering engine with the model number MG 945180. Through being connected with controlling means, can regularly carry out automatic sampling to the sewer, can also be connected with detection device in order to obtain the real-time detection data of water sample.

Example 2

Fig. 3 and 4 schematically show another sewage timed sampling device according to an embodiment of the present invention.

Referring to fig. 3 and 4, the timing sampling device for sewage comprises a sewer sampling tube 1, a water storage tube 2, a water inlet tube 3, a water outlet tube 4, a sample outlet tube 5, a sample outlet control mechanism 6, a water outlet valve 7 and an electronic liquid level meter 9. The lower end of the water storage pipe 2 is provided with a water outlet 21. The one end and the sewer sampling tube 1 of inlet tube 3 are connected, and the other end and the delivery port 21 of inlet tube 3 are connected, and the one end and the sewer sampling tube 1 of outlet pipe 4 are connected, and the other end and the standpipe 2 of outlet pipe 4 are connected. The outlet valve 7 is mounted to the outlet 21. An electronic level gauge 9 is mounted on the upper portion of the reservoir 2. The water inlet pipe 3 is positioned above the water outlet pipe 4, and one end of the sample outlet pipe 5 is connected with the lower part of the water storage pipe 2. The sample outlet control mechanism 6 is mounted on the sample outlet pipe 5, the sample outlet control mechanism 6 is used for controlling the on-off state of the sample outlet pipe 5, and the sample outlet control mechanism 6 is in a normally closed state. The other end of the sample outlet pipe 5 can be connected with a mechanism or test paper needing a sample.

The lower end of the water storage pipe 2 is in a conical shape with a big top and a small bottom, and the water outlet 21 is positioned at the lower end of the conical shape. The water inlet pipe 3 is inclined downwards from one end connected with the sewer sampling pipe 1 to one end connected with the water storage pipe 2, and the joint of the water outlet pipe 4 and the sewer sampling pipe 1 is lower than the water outlet 21.

The sample outlet control mechanism 6 is the same as that of embodiment 1, and the water outlet valve 7 may be a control valve driven by a linear stepping motor.

The sewer sampling tube 1 is arranged in a sewer pipeline needing sampling and is used as a part of the sewer pipeline, when the sampling is needed, the water outlet valve 7 is closed, and water in the sewer sampling tube 1 automatically flows into the water storage tube 2 through the water inlet tube 3. The height of the liquid level in the water storage pipe 2 is detected by an electronic liquid level meter 9. When the liquid level in the water storage pipe 2 reaches a preset height, the direction changing device 64 drives the connecting shaft 65 to rotate or horizontally move so as to pull the control belt 66 to open the water stop clamp movable clamp 62, and the water in the water storage pipe 2 is discharged through the sample outlet pipe 5 for sampling. After sampling, the water outlet valve 7 is opened, and water in the water storage pipe 2 automatically flows to the sewer sampling pipe 1 through the water outlet pipe 4.

The utility model discloses a can also include control center remote control monitoring devices, control center and remote control monitoring devices can adopt wireless connection or pass through the internet access. The remote control monitoring device can be a mobile phone, a computer, a server and the like. The control center can be respectively and electrically connected with the water inlet valve 8, the water outlet valve 7, the electronic liquid level meter and the direction changing device 64 of the sample outlet control mechanism 6 and can control the work of each mechanism. The control center can include a CPU unit, a SIM unit and a storage unit, wherein the CPU unit is electrically connected with the SIM unit and the storage unit respectively. The CPU unit is respectively electrically connected with the water inlet valve 8, the water outlet valve 7, the electronic liquid level meter and the direction changing device 64 and controls the work of all the parts. The SIM unit 82 is used to communicate data and commands with a remote control monitoring device or a monitoring server.

The utility model discloses sewer sewage is sampling device regularly can monitor the pollution condition of the water of sewer at any time, knows the regional environmental pollution that needs the monitoring, the condition such as food safety.

Finally, it should be noted that: the above-mentioned embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (7)

1. The utility model provides a sewer sewage is sampling device regularly which characterized in that: including sewer sampling tube (1), standpipe (2), inlet tube (3), outlet pipe (4), play appearance pipe (5) and play appearance control mechanism (6), the one end and the sewer sampling tube (1) of inlet tube (3) are connected, the other end and the standpipe (2) of inlet tube (3) are connected, the one end and the sewer sampling tube (1) of outlet pipe (4) are connected, the other end and the standpipe (2) of outlet pipe (4) are connected, inlet tube (3) are located the top of outlet pipe (4), the one end that goes out appearance pipe (5) is connected in the lower extreme of standpipe (2), go out appearance control mechanism (6) and go out appearance pipe (5) and be connected and control switching on or cutting off of appearance pipe (5).

2. The timed sewer sewage sampling device according to claim 1, wherein: the water inlet valve (8) is installed on the water inlet pipe (3), and the water outlet valve (7) is installed on the water outlet pipe (4).

3. The sewer sewage timed sampling device of claim 2, wherein: the water inlet pipe (3) is inclined downwards from one end connected with the sewer sampling pipe (1) to one end connected with the water storage pipe (2), and the water outlet pipe (4) is inclined upwards from one end connected with the sewer sampling pipe (1) to one end connected with the water storage pipe (2).

4. The utility model provides a sewer sewage is sampling device regularly which characterized in that: including sewer sampling tube (1), standpipe (2), inlet tube (3), outlet pipe (4), play appearance pipe (5) and play appearance control mechanism (6), the lower extreme of standpipe (2) is equipped with delivery port (21), the one end and the sewer sampling tube (1) of inlet tube (3) are connected, the other end and the standpipe (2) of inlet tube (3) are connected, the one end and the sewer sampling tube (1) of outlet pipe (4) are connected, the other end and the delivery port (21) of outlet pipe (4) are connected, inlet tube (3) are located the top of outlet pipe (4), the one end that goes out appearance pipe (5) is connected in the lower part of standpipe (2), it is connected and controls switching on and cutting off of appearance pipe (5) with play appearance pipe (5) to go out appearance control mechanism (6).

5. The sewer sewage timed sampling device of claim 4, wherein: still wrap outlet valve (7) and electron level gauge (9), outlet valve (7) are installed in delivery port (21), electron level gauge (9) are installed in the upper portion of standpipe (2).

6. The device for timed sampling of sewage water according to any one of claims 1 to 5, wherein: go out appearance control mechanism (6) including stagnant water fixation clamp (61), stagnant water clamp activity press from both sides (62) and spring (63), go out appearance pipe (5) and be the hose, stagnant water fixation clamp (61) and stagnant water clamp activity press from both sides (62) and connect and press from both sides tight appearance pipe (5) through spring (63).

7. The timed sewer sewage sampling device according to claim 6, wherein: go out appearance control mechanism (6) and still include deviator (64), connecting axle (65) and control band (66), deviator (64) are connected and can drive connecting axle (65) and rotate or round trip movement with connecting axle (65), the one end and the waterstop of control band (66) press from both sides movable clamp (62) and are connected, the other end and the connecting axle (65) of control band (66) are connected.

Images