CN219590026U - Sampling detection device for sewage treatment engineering - Google Patents

Abstract

The utility model discloses a sampling detection device for sewage treatment engineering, which comprises a mounting plate, wherein the mounting plate is hung on winding equipment, the device also comprises a mounting mechanism serving as a mounting structure at the bottom of the mounting plate, a sampling mechanism for automatically sampling sewage and a quantifying mechanism for adjusting the sampling quantity of the sampling mechanism, the mounting mechanism is positioned at the bottom of the mounting plate, the sampling mechanism is arranged at the lower part of the mounting mechanism, and the quantifying mechanism is positioned between the mounting plate and the sampling mechanism.

Description

Sampling detection device for sewage treatment engineering

Technical Field

The utility model relates to the technical field of sewage treatment engineering, in particular to a sampling and detecting device for sewage treatment engineering.

Background

In the prior art, in order to achieve the water quality requirement of sewage discharged into a certain water body or reused for purifying the sewage, the sewage treatment is widely applied to various fields of buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscapes, medical treatment, catering and the like, and topics related to water pollution are continuously lifted, in particular to the problem of underground water pollution. In the current sewage treatment engineering, in order to detect whether sewage treatment is qualified up to standard or detect the content of certain substances in the sewage, the sewage in a sewage tank needs to be extracted and sampled by means of a sampling detection device so as to be transferred to a laboratory for specific detection, and as the sewage in the sewage treatment tank in a sewage treatment plant is easy to produce precipitation, the sewage with different depths needs to be sampled for detection when the sewage in the sewage treatment tank is detected, while the traditional sampling is to throw a sampling bottle into the sewage tank through a rope bolt and then sample the sewage after being pulled up, so that the sewage on the upper layer can be left in the sampling bottle when the sewage on the deep layer is taken, the detection result obtained during detection is inaccurate and cannot be filtered, and impurities in the sewage can influence the detection result.

The application number is: 202221095313.6 discloses a sampling detection device for sewage treatment engineering, which belongs to the technical field of sewage sampling detection and comprises a fixed disk, wherein a connecting rod is fixedly connected to the lower surface of the fixed disk, a floating disk is fixedly connected to the lower end of the connecting rod, a plurality of groups of clamping plates are fixedly connected to the side surface of the floating disk, a sampling bottle is arranged in the clamping plates, a clamping ring is fixedly connected to the upper end of the sampling bottle, the clamping ring is positioned above the clamping plates, a sealing plug is arranged in the sampling bottle, a locking mechanism is arranged below the sealing plug, a bottle cap is fixedly connected to the upper surface of the sealing plug, and a pulling component is arranged on the upper surface of the bottle cap. However, this kind of sampling detection device for sewage treatment engineering can't filter the bulky impurity in the sewage, leads to the impurity probably to cause jam or damage to sampling device to the impurity can influence the testing result, and this kind of sampling detection device can't control sampling rate according to the user demand, and can't carry out quantitative sampling to sewage, has certain use restriction.

Disclosure of Invention

The utility model aims to provide a sampling and detecting device for sewage treatment engineering.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model provides a sewage treatment engineering is with sampling detection device, includes the mounting base plate, the mounting base plate hangs and establishes on rolling equipment, still including being used for as mounting base plate bottom mounting structure's installation mechanism, be used for carrying out automatic sampling's sampling mechanism and be used for carrying out the ration mechanism of adjustment to sampling mechanism sample volume to sewage, installation mechanism is located mounting base plate's bottom, sampling mechanism disposes in mounting mechanism's lower part, and ration mechanism is located between mounting base plate and the sampling mechanism.

The installation mechanism comprises an installation supporting rod, an installation support, an installation screw rod and an installation locating plate, wherein the installation supporting rod is arranged at the bottom of the installation base plate and is fixedly connected with the installation base plate, the installation support is arranged at the lower end of the installation supporting rod and is fixedly connected with the installation supporting rod, installation avoidance grooves are formed in the middle position of the lower portion of the installation support, the installation screw rods are arranged in two groups, the installation screw rods are symmetrically arranged on two sides of the upper portion of the installation support and penetrate through the installation support and are in threaded connection with the installation support, the installation locating plate is arranged in two groups, and the installation locating plate is arranged in two groups respectively at the lower end of the installation screw rods and is fixedly connected with the installation screw rods.

The sampling mechanism comprises a sampling core pipe, a sampling sleeve pipe, a sampling end head and a sampling end cover, wherein the sampling core pipe is assembled at the lower part of the mounting bracket through a mounting piece, the upper part of the sampling core pipe is positioned in a mounting avoidance groove at the lower part of the mounting bracket, the sampling sleeve pipe is arranged at the outer side of the lower part of the sampling core pipe and sleeved with the sampling core pipe, the sampling end head is arranged at the inner side of the lower end of the sampling sleeve pipe and is spliced with the sampling sleeve pipe, the sampling end cover corresponds to the sampling end head, the sampling end head is arranged at the lower end of the sampling sleeve pipe in a threaded connection manner, the sampling end cover is sleeved at the outer side of the upper part of the sampling end head, and the sampling end head is assembled at the lower end of the sampling sleeve pipe through the sampling end cover.

Still include the extraction subassembly, the extraction subassembly includes miniature sample pump and level sensor, miniature sample pump set up the inside of sampling core pipe and with sampling core pipe fixed connection, level sensor sets up the lower extreme middle part of sampling core pipe and inlay through the installation through-hole and establish the lower extreme of sampling core pipe, the inside of sampling core pipe through the installation through-hole with the inside intercommunication of sampling sleeve.

Still include sealing washer and blast pipe, sealing washer set up the bottom of sampling core pipe and with sampling core pipe fixed connection, sealing washer's lateral part with sampling sleeve's inner wall laminating sets up, the blast pipe sets up sampling core pipe's upper portion one side and with sampling core pipe fixed connection, the blast pipe is located sampling sleeve's top and with sampling core pipe's inside intercommunication.

The filter assembly comprises a primary filter screen and a secondary filter screen, the primary filter screen and the secondary filter screen are arranged on the upper portion of the inner side of the sampling end in parallel in a laminating mode and fixedly connected with the sampling end, the primary filter screen is located at the bottom of the secondary filter screen, and the primary filter screen and the secondary filter screen form a double filter structure.

The quantitative mechanism comprises quantitative air cylinders, quantitative mounting frames and quantitative mounting blocks, wherein the quantitative air cylinders are provided with two groups, the quantitative air cylinders are symmetrically arranged at the lower part of the mounting substrate and fixedly connected with the mounting substrate, the output ends of the quantitative air cylinders are downwards arranged and located at two sides of the mounting mechanism and the sampling mechanism, the quantitative mounting frames are arranged at the lower parts of the quantitative air cylinders and fixedly connected with the output ends of the quantitative air cylinders, the quantitative mounting frames are located at one side of the sampling sleeve, the quantitative mounting blocks are provided with two groups, each group of quantitative mounting blocks consists of two mounting blocks which are arranged at intervals side by side, the quantitative mounting blocks correspond to the sampling sleeve, one side of the quantitative mounting frames is parallel to the mounting frames at intervals, the upper end and the lower end of the sampling sleeve correspond to the mounting blocks, the mounting blocks are provided with mounting snap rings, the mounting snap rings are located at the inner sides of the quantitative mounting blocks, and the quantitative mounting blocks are fixedly connected with the mounting snap rings on the sampling sleeve through screws.

The mounting mechanism, the sampling mechanism and the quantifying mechanism are provided with two groups, and the two groups of mounting mechanisms, the two groups of sampling mechanisms and the two groups of quantifying mechanisms are symmetrically arranged on two sides of the bottom of the mounting substrate.

The device comprises a mounting substrate, and is characterized by further comprising a buoy mechanism, wherein the buoy mechanism comprises a buoy supporting plate, a buoy connecting rod and a disc buoy, the buoy supporting plate is located above the mounting substrate, hoisting through holes are formed in two sides of the buoy supporting plate, the buoy connecting rod is arranged in the middle of the upper end of the buoy supporting plate and fixedly connected with the buoy supporting plate, and the disc buoy is arranged at the upper end of the buoy connecting rod and fixedly connected with the buoy connecting rod.

Still including hoist and mount foundation block, hoist and mount rope and balancing weight, hoist and mount foundation block is equipped with two sets of, two sets of hoist and mount foundation block corresponds hoist and mount through-hole setting and is in the upper end both sides of mounting substrate and with mounting substrate fixed connection, hoist and mount rope corresponds two sets of hoist and mount foundation block is equipped with two sets of, two sets of hoist and mount rope runs through corresponding hoist and mount through-hole and its one end with hoist and mount foundation block binds and is connected, hoist and mount rope is kept away from the one end and the winding equipment of hoist and mount foundation block are connected, mounting substrate passes through hoist and mount rope and winding equipment are connected, the balancing weight sets up mounting substrate's lower extreme middle part and with mounting substrate fixed connection.

The beneficial effects of the utility model are as follows:

be equipped with installation mechanism, can realize sampling mechanism's quick installation location, be convenient for the dismouting, be equipped with sampling mechanism, can carry out automatic sampling to sewage and control sampling rate according to the user demand, sampling mechanism embeds has filter unit, can filter the bulky impurity in the sewage, avoid impurity to cause the jam or damage to sampling device, prevent impurity influence testing result, be equipped with quantitative mechanism, can control the sample volume of device, realize the quantitative sampling to sewage, the use is abundant, be equipped with cursory mechanism in addition, can provide buoyancy for sampling detection device and carry out spacingly to the hoist and mount rope, prevent that skew phenomenon from appearing in the sampling process rope, the holistic stability of hoisting device.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a side view of the mounting bracket, mounting screw and mounting and positioning plate of the present utility model;

FIG. 3 is a cross-sectional view of the structure of the sampling mechanism of the present utility model;

FIG. 4 is a schematic illustration of the filter assembly of the present utility model mated with a sampling tip.

In the figure: 1. a mounting substrate; 2. mounting a supporting rod; 3. a mounting bracket; 4. installing a screw; 5. installing a positioning plate; 6. sampling a core tube; 7. sampling sleeve; 8. sampling end heads; 9. a sampling end cover; 10. a miniature sampling pump; 11. a water level sensor; 12. a sealing gasket; 13. an exhaust pipe; 14. a primary filter screen; 15. a secondary filter screen; 16. a dosing cylinder; 17. a quantitative mounting rack; 18. a quantitative mounting block; 19. a float support plate; 20. a float link; 21. a disc-shaped float; 22. hoisting the base block; 23. hoisting ropes; 24. and (5) balancing weights.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings,

the utility model discloses a sampling detection device for sewage treatment engineering, which comprises a mounting substrate 1, wherein the mounting substrate 1 is hung on winding equipment, and further comprises a mounting mechanism serving as a mounting structure at the bottom of the mounting substrate 1, a sampling mechanism for automatically sampling sewage and a quantifying mechanism for adjusting the sampling amount of the sampling mechanism, wherein the mounting mechanism is positioned at the bottom of the mounting substrate 1, the sampling mechanism is arranged at the lower part of the mounting mechanism, and the quantifying mechanism is positioned between the mounting substrate 1 and the sampling mechanism.

The installation mechanism comprises an installation support rod 2, an installation support 3, installation screw rods 4 and installation positioning plates 5, wherein the installation support rod 2 is arranged at the bottom of the installation base plate 1 and is fixedly connected with the installation base plate 1, the installation support 3 is arranged at the lower end of the installation support rod 2 and is fixedly connected with the installation support rod 2, installation avoidance grooves are formed in the middle position of the lower part of the installation support 3, the installation screw rods 4 are provided with two groups, the two groups of installation screw rods 4 are symmetrically arranged on two sides of the upper part of the installation support 3 and penetrate through the installation support rods 3 to be in threaded connection with the installation support 3, the installation positioning plates 5 are provided with two groups, the two groups of installation positioning plates 5 are respectively arranged at the lower ends of the two groups of installation screw rods 4 and are fixedly connected with the corresponding installation screw rods 4, the installation mechanism is matched with the installation positioning plates 5 through the installation support rod 2, the installation support rods 3, the installation screw rods 4 and the installation positioning plates 5 as an installation structure on the installation base plate 1, so that installation support is provided for the installation support mechanism, the installation support rod 2 is used for providing installation support for the installation support of the installation support rod 3, the installation support rods 4 are connected with the installation base plate 1 under the action of the installation support rod 2, the installation support rods 4 are used for providing installation support for the installation support rods 4, the installation support 5 is driven to take a lifting and the installation support plate 5 is used for installing the installation support plate 5, and the installation support plate 5 is driven to take a lifting and is matched with the installation support plate 5, and is used for the installation positioning plate 5 and is matched with the installation positioning plate 5.

The sampling mechanism comprises a sampling core tube 6, a sampling sleeve 7, a sampling end head 8 and a sampling end cover 9, wherein the sampling core tube 6 is assembled at the lower part of the mounting bracket 3 through a mounting piece, the upper part of the sampling core tube 6 is positioned in a mounting avoidance groove at the lower part of the mounting bracket 3, the sampling sleeve 7 is arranged at the outer side of the lower part of the sampling core tube 6 and is sleeved with the sampling core tube 6, the sampling end head 8 is arranged at the inner side of the lower end of the sampling sleeve 7 and is spliced with the sampling sleeve 7, the sampling end cover 9 is correspondingly arranged at the lower end of the sampling sleeve 7 and is in threaded connection with the sampling sleeve 7, the sampling end cover 9 is sleeved on the outer side of the upper part of the sampling end head 8, the sampling end head 8 is assembled at the lower end of the sampling sleeve 7 through the sampling end cover 9, the sampling mechanism performs sampling operation on sewage through the sampling core tube 6, the sampling sleeve 7, the sampling end head 8 and the sampling end cover 9, wherein the sampling core tube 6 is used for providing mounting support for a sampling assembly and serving as a core tube part of the sampling structure, the sampling sleeve 7 is used for jointly forming a sampling structure with the sampling sleeve 6, thus the sampling operation is performed under the action of the sampling assembly, the sampling end 8 is used for providing mounting support for the sewage and serving as a filtering assembly and the end part and is used as the end part of the sampling sleeve 7 and is used for forming the sampling end cover 7.

Still including the extraction subassembly, the extraction subassembly includes miniature sampling pump 10 and water level sensor 11, miniature sampling pump 10 sets up in the inside of sampling core pipe 6 and with sampling core pipe 6 fixed connection, water level sensor 11 sets up at the lower extreme middle part of sampling core pipe 6 and inlays the lower extreme of establishing at sampling core pipe 6 through the installation through-hole, the inside of sampling core pipe 6 is through the inside intercommunication of installation through-hole with sampling sleeve 7, the extraction subassembly is through miniature sampling pump 10 and water level sensor 11 cooperation, carry out automatic extraction sampling to sewage, wherein, miniature sampling pump 10 is used for carrying out the extraction sampling to sewage through sampling end 8, water level sensor 11 is used for detecting whether the sewage of the inboard lower part of sampling sleeve 7 reaches the sample volume, and with signal feedback to miniature sampling pump 10.

Still include sealing washer 12 and blast pipe 13, sealing washer 12 sets up in the bottom of sampling core pipe 6 and with sampling core pipe 6 fixed connection, sealing washer 12's lateral part and sampling sleeve pipe 7's inner wall laminating set up, blast pipe 13 sets up in sampling core pipe 6 upper portion one side and with sampling core pipe 6 fixed connection, blast pipe 13 is located sampling sleeve pipe 7's top and communicates with sampling core pipe 6's inside, wherein, sealing washer 12 is used for promoting the connection leakproofness between sampling core pipe 6 and the sampling sleeve pipe 7, blast pipe 13 is used for as the exhaust structure on sampling core pipe 6 upper portion, satisfy the exhaust demand of extraction subassembly.

The filter assembly comprises a primary filter screen 14 and a secondary filter screen 15, wherein the primary filter screen 14 and the secondary filter screen 15 are arranged on the upper portion of the inner side of the sampling end 8 in parallel and fixedly connected with the sampling end 8, the primary filter screen 14 is positioned at the bottom of the secondary filter screen 15, the primary filter screen 14 and the secondary filter screen 15 form a double-filter structure, the filter assembly is matched with the primary filter screen 14 and the secondary filter screen 15 to filter sewage entering the sampling sleeve 7, large-particle impurities are prevented from entering the sampling sleeve 7 to block the sampling sleeve and influence the sewage detection result, the primary filter screen 14 is used for carrying out primary filtration on the large-particle impurities, the secondary filter screen 15 is used for carrying out secondary filtration on the large-particle impurities, the primary filter screen 14 and the secondary filter screen 15 jointly form the double-filter structure, and the filter assembly and the sampling end 8 are matched with each other to achieve the effect of effectively improving the sewage.

The quantitative mechanism comprises quantitative air cylinders 16, quantitative mounting frames 17 and quantitative mounting blocks 18, wherein the quantitative air cylinders 16 are provided with two groups, the two groups of quantitative air cylinders 16 are symmetrically arranged at the lower part of the mounting substrate 1 and fixedly connected with the mounting substrate 1, the output ends of the two groups of quantitative air cylinders 16 are downwards arranged and positioned at the two sides of the mounting mechanism and the sampling mechanism, the quantitative mounting frames 17 are arranged at the lower parts of the two groups of quantitative air cylinders 16 and fixedly connected with the output ends of the two groups of quantitative air cylinders 16, the quantitative mounting frames 17 are positioned at one side of the sampling sleeve 7, the quantitative mounting blocks 18 are provided with two groups, each group of quantitative mounting blocks 18 consists of two mounting blocks which are arranged at intervals side by side, the two groups of quantitative mounting blocks 18 are arranged at one side of the quantitative mounting frames 17 at intervals corresponding to the sampling sleeve 7 and fixedly connected with the quantitative mounting frames 17, the mounting blocks 18 are provided with mounting clamping rings corresponding to the upper end and the lower end of the sampling sleeve 7, the mounting snap ring is positioned at the inner side of the quantitative mounting block 18, the two groups of quantitative mounting blocks 18 are fixedly connected with the mounting snap ring on the sampling sleeve 7 through screws, the quantitative mechanism is matched with the quantitative air cylinder 16, the quantitative mounting frame 17 and the quantitative mounting block 18 to adjust the sampling amount of the sampling mechanism, wherein the quantitative air cylinder 16 is used for providing mounting support for the quantitative mounting frame 17 and driving the quantitative mounting frame 17 to perform lifting movement, the quantitative mounting frame 17 is used for providing mounting support for the quantitative mounting block 18, the quantitative mounting block 18 is used for providing mounting support for the sampling sleeve 7 under the action of the quantitative mounting frame 17 and driving the sampling sleeve 7 under the action of the quantitative air cylinder 16 to perform lifting movement, thereby adjusting the relative distance between the sampling sleeve 7 and the sampling core tube 6 to adjust the distance between the bottom of the sampling core tube 6 and the bottom of the sampling sleeve 7, and further adjusting the sampling amount of the sampling mechanism, quantitative sampling is realized.

The mounting mechanism, the sampling mechanism and the quantifying mechanism are provided with two groups, the two groups of mounting mechanisms, the two groups of sampling mechanisms and the two groups of quantifying mechanisms are symmetrically arranged on two sides of the bottom of the mounting substrate 1, wherein the two groups of sampling mechanisms can sample in equal quantity or sample with a certain component independently according to the use requirement.

Still include the cursory mechanism, cursory mechanism includes cursory backup pad 19, cursory connecting rod 20 and discoid cursory 21, cursory backup pad 19 is located the top of mounting substrate 1, the both sides of cursory backup pad 19 are equipped with hoist and mount through-hole, cursory connecting rod 20 set up in the upper end middle part of cursory backup pad 19 and with cursory backup pad 19 fixed connection, discoid cursory 21 sets up in the upper end of cursory connecting rod 20 and with cursory connecting rod 20 fixed connection, cursory mechanism passes through cursory backup pad 19, cursory connecting rod 20 and the cursory 21 cooperation of discoid, constitute the cursory structure of sample detection device, wherein, cursory backup pad 19 is used for providing the erection support for cursory connecting rod 20, cursory connecting rod 20 is used for being connected cursory backup pad 19 and discoid cursory 21, discoid cursory 21 is used for cooperating cursory backup pad 19 and cursory connecting rod 20 constitutes the cursory structure of sample detection device.

The device comprises a mounting substrate 1, a sampling device and a sampling mechanism, and is characterized by further comprising two groups of lifting base blocks 22, lifting ropes 23 and balancing weights 24, wherein the two groups of lifting base blocks 22 are arranged on two sides of the upper end of the mounting substrate 1 and fixedly connected with the mounting substrate 1, the two groups of lifting base blocks 22 are arranged on the lifting ropes 23, the two groups of lifting ropes 23 penetrate through the corresponding lifting through holes, one ends of the two groups of lifting ropes 23 are connected with the lifting base blocks 22 in a binding mode, one ends of the lifting ropes 23, which are far away from the lifting base blocks 22, are connected with a winding device, the balancing weights 24 are arranged in the middle of the lower end of the mounting substrate 1 and fixedly connected with the mounting substrate 1, the lifting base blocks 22 are used as mounting structures on the mounting substrate 1, so that mounting support is provided for the lifting ropes 23, the lifting ropes 23 are used for connecting the sampling device with the winding device, and the balancing weights 24 are used as configuration structures at the bottom of the mounting substrate, and the sampling mechanism can smoothly reach the sampling position.

Working principle:

when the sewage needs to be sampled, the sampling mechanism is assembled on the mounting mechanism and the quantifying mechanism, during the mounting, the upper part of the sampling core tube 6 is placed in the mounting avoidance groove at the lower part of the mounting bracket 3, the mounting screw 4 is rotated, the mounting positioning plate 5 and the mounting bracket 3 clamp the mounting plate at the upper end of the sampling core tube 6, then the sampling sleeve 7 is assembled on one side of the quantifying mounting bracket 17 through the quantifying mounting block 18, the mounting of the sampling mechanism can be completed, the stretching length of the sampling sleeve 7 relative to the sampling core tube 6 is controlled through the quantifying cylinder 16, thereby the sampling amount of the sampling mechanism is controlled, then the sampling detection device is placed in the sewage pool through the winding equipment, the floating mechanism floats on the upper part of the sewage pool, after the sampling mechanism sinks to the sampling position, the sewage is sampled through the miniature sampling pump 10, the filtering assembly filters large particle impurities in the sewage, after the water level sensor 11 detects that the sampling amount reaches the set standard, the miniature sampling pump 10 stops working, then the sampling mechanism is lifted through the winding equipment, and the staff can take the sampling mechanism from the mounting mechanism and the quantifying mechanism for detection.

The utility model has the beneficial effects that the device is provided with the installation mechanism, can realize the rapid installation and positioning of the sampling mechanism, is convenient to assemble and disassemble, is provided with the sampling mechanism, can automatically sample sewage and control the sampling speed according to the use requirement, is internally provided with the filtering component, can filter large-volume impurities in the sewage, avoids the impurities from blocking or damaging the sampling device, prevents the impurities from influencing the detection result, is provided with the quantitative mechanism, can control the sampling amount of the device, realizes the quantitative sampling of the sewage, has rich use modes, is additionally provided with the floating mechanism, can provide buoyancy for the sampling detection device and limit the hoisting rope, prevents the rope from shifting phenomenon in the sampling process, and improves the integral stability of the device.

The foregoing describes one embodiment of the present utility model in detail, but the disclosure is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (10)

1. The utility model provides a sewage treatment engineering is with sampling detection device, includes mounting substrate (1), mounting substrate (1) hangs and establishes on rolling equipment, its characterized in that still including being used for as mounting substrate (1) bottom mounting structure's installation mechanism, be used for carrying out automatic sampling to sewage sampling mechanism and be used for carrying out the ration mechanism of adjustment to sampling mechanism sample volume, installation mechanism is located the bottom of mounting substrate (1), sampling mechanism disposes in the lower part of installation mechanism, and ration mechanism is located between mounting substrate (1) and the sampling mechanism.

2. The sampling detection device for sewage treatment engineering according to claim 1, wherein the installation mechanism comprises an installation support rod (2), an installation support (3), an installation screw rod (4) and an installation positioning plate (5), the installation support rod (2) is arranged at the bottom of the installation base plate (1) and fixedly connected with the installation base plate (1), the installation support (3) is arranged at the lower end of the installation support rod (2) and fixedly connected with the installation support rod (2), an installation avoidance groove is formed in the middle position of the lower part of the installation support rod (3), the installation screw rods (4) are provided with two groups, the two groups of installation screw rods (4) are symmetrically arranged at two sides of the upper part of the installation support rod (3) and penetrate through the installation support rod (3) and are in threaded connection with the installation support rod (3), and the installation positioning plate (5) is provided with two groups of installation positioning plates (5) which are respectively arranged at the lower ends of the two groups of the installation screw rods (4) and are fixedly connected with the corresponding installation screw rods (4).

3. The sampling detection device for sewage treatment engineering according to claim 2, wherein the sampling mechanism comprises a sampling core tube (6), a sampling sleeve (7), a sampling end socket (8) and a sampling end cover (9), the sampling core tube (6) is assembled at the lower part of the mounting bracket (3) through a mounting sheet, the upper part of the sampling core tube (6) is positioned in a mounting avoidance groove at the lower part of the mounting bracket (3), the sampling sleeve (7) is arranged at the outer side of the lower part of the sampling core tube (6) and is sleeved with the sampling core tube (6), the sampling end socket (8) is arranged at the inner side of the lower end of the sampling sleeve (7) and is spliced with the sampling sleeve (7), the sampling end cover (9) is arranged at the lower end of the sampling sleeve (7) corresponding to the sampling end socket (8) and is in threaded connection with the sampling sleeve (7), the sampling end socket (9) is sleeved at the outer side of the upper part of the sampling end socket (8), and the sampling end socket (8) is assembled at the lower end of the sampling sleeve (7) through the sampling end cover (9).

4. A sampling and detecting device for sewage treatment engineering according to claim 3, further comprising a pumping assembly, wherein the pumping assembly comprises a micro sampling pump (10) and a water level sensor (11), the micro sampling pump (10) is arranged inside the sampling core tube (6) and fixedly connected with the sampling core tube (6), the water level sensor (11) is arranged in the middle of the lower end of the sampling core tube (6) and embedded in the lower end of the sampling core tube (6) through a mounting through hole, and the inside of the sampling core tube (6) is communicated with the inside of the sampling sleeve (7) through the mounting through hole.

5. The sampling and detecting device for sewage treatment engineering according to claim 4, further comprising a sealing gasket (12) and an exhaust pipe (13), wherein the sealing gasket (12) is arranged at the bottom of the sampling core pipe (6) and is fixedly connected with the sampling core pipe (6), the side part of the sealing gasket (12) is attached to the inner wall of the sampling sleeve pipe (7), the exhaust pipe (13) is arranged at one side of the upper part of the sampling core pipe (6) and is fixedly connected with the sampling core pipe (6), and the exhaust pipe (13) is arranged above the sampling sleeve pipe (7) and is communicated with the inside of the sampling core pipe (6).

6. The sampling and detecting device for sewage treatment engineering according to claim 5, further comprising a filtering component, wherein the filtering component comprises a primary filtering screen (14) and a secondary filtering screen (15), the primary filtering screen (14) and the secondary filtering screen (15) are arranged on the upper inner side of the sampling end head (8) in parallel in a fitting manner, and are fixedly connected with the sampling end head (8), the primary filtering screen (14) is located at the bottom of the secondary filtering screen (15), and the primary filtering screen (14) and the secondary filtering screen (15) form a double filtering structure.

7. The sampling detection device for sewage treatment engineering according to claim 6, wherein the quantitative installation rack (17) is arranged at the lower part of the quantitative installation rack (17) and fixedly connected with the quantitative installation block (18), the quantitative installation rack (17) is fixedly connected with the output ends of the quantitative installation rack (17) at the lower part of the quantitative installation rack (16), the quantitative installation rack (17) is positioned at one side of the quantitative installation rack (7), the quantitative installation block (18) is provided with two groups, each group of quantitative installation blocks (18) consists of two installation blocks which are arranged at intervals side by side, the two groups of quantitative installation blocks (18) are corresponding to the sampling installation rack (7) and are arranged at intervals side by side, the two groups of quantitative installation rack (17) are corresponding to the sampling installation blocks (17) and fixedly connected with the output ends of the quantitative installation rack (16), the quantitative installation rack (17) is provided with clamping rings (18) which are corresponding to the two ends of the quantitative installation rack (17), the two quantitative mounting blocks (18) are fixedly connected with the mounting clamping ring on the sampling sleeve (7) through screws.

8. The sampling and detecting device for sewage treatment engineering according to claim 7, wherein two groups of the mounting mechanism, the sampling mechanism and the quantifying mechanism are symmetrically arranged on two sides of the bottom of the mounting substrate (1).

9. The sampling detection device for sewage treatment engineering according to claim 8, further comprising a buoy mechanism, wherein the buoy mechanism comprises a buoy support plate (19), a buoy connecting rod (20) and a disc-shaped buoy (21), the buoy support plate (19) is located above the mounting substrate (1), hoisting through holes are formed in two sides of the buoy support plate (19), the buoy connecting rod (20) is arranged in the middle of the upper end of the buoy support plate (19) and is fixedly connected with the buoy support plate (19), and the disc-shaped buoy (21) is arranged at the upper end of the buoy connecting rod (20) and is fixedly connected with the buoy connecting rod (20).

10. The sampling detection device for sewage treatment engineering according to claim 9, further comprising lifting base blocks (22), lifting ropes (23) and balancing weights (24), wherein the lifting base blocks (22) are provided with two groups, the two groups of lifting base blocks (22) are arranged on two sides of the upper end of the installation base plate (1) corresponding to lifting through holes and are fixedly connected with the installation base plate (1), the lifting ropes (23) are provided with two groups corresponding to the two groups of lifting base blocks (22), the two groups of lifting ropes (23) penetrate through the corresponding lifting through holes and are in binding connection with the lifting base blocks (22) at one ends, one ends of the lifting ropes (23) away from the lifting base blocks (22) are connected with winding equipment, the installation base plate (1) is connected with the winding equipment through the lifting ropes (23), and the balancing weights (24) are arranged in the middle of the lower end of the installation base plate (1) and are fixedly connected with the installation base plate (1).