CN220443881U - Accommodating device for sewage water quality detection - Google Patents

Abstract

The utility model provides a containing device for sewage water quality detection, which is characterized in that a convex rib is arranged on a partition board to realize the bearing of a placing plate, two sides of a reagent plate loaded with reagent tubes are in sliding connection with a chute arranged on the partition board, the convex rib is used for realizing the bearing of the reagent plate at the bottom, the chute is matched with the reagent plate in a sliding way along the length direction, a limit lug is arranged on one side of the convex rib, the reagent plate is supported on the other side by the limit lug, and further, the supporting effect of the reagent plate is realized by the convex rib and the limit lug when the reagent plate is in sliding fit with the chute, so that the reagent tubes for water quality monitoring can be stably supported and placed, and shaking is avoided.

Description

Accommodating device for sewage water quality detection

Technical Field

The utility model relates to the technical field of water detection equipment, in particular to a containing device for sewage water quality detection.

Background

In industrial production or daily life, it is generally required to perform pollution detection on water quality, which is a process of evaluating contents and properties of various substances and parameters in sewage. These substances and parameters may include chemical substances, biological indicators, physical properties, and the like. The purpose of sewage quality detection is to determine the pollution level of sewage so as to take proper treatment and management measures.

The sewage quality detection generally comprises the following aspects:

(1) And (3) chemical substance detection: comprises the detection of organic matters, inorganic matters, heavy metals, nutrient substances and the like in sewage. Common detection methods include spectroscopic analysis, chromatographic analysis, electrochemical analysis, and the like.

(2) Biological index detection: the eutrophication degree and the microbial pollution condition of the water body can be evaluated by detecting biological indexes such as microorganisms, bacteria, algae and the like in the sewage. Common detection methods include bacterial culture, fluorescent staining, DNA analysis, and the like.

(3) And (3) physical property detection: including detection of physical properties such as temperature, pH, turbidity, suspended matter content, dissolved oxygen content and the like of sewage. These parameters may reflect the fundamental characteristics of the wastewater and the water quality conditions.

When the sewage quality is detected, proper sampling points and sampling methods can be selected, and a sewage sample is collected for laboratory analysis. Meanwhile, the method can be combined with an on-site monitoring instrument and a sensor for real-time monitoring and data acquisition.

The result of sewage water quality detection can be used for evaluating the effect of a sewage treatment process, guiding the environment protection and water resource management work, and making corresponding treatment schemes and policies.

Through adopting and placing the quality of water in the sampling pipe, realize the pollution detection to the quality of water through special instrument, after the completion is collected to the sampling water, need place it and detect in holding device, current holding device can't realize the steady rest to the sampling pipe for the sampling pipe takes place the skew at holding device and rocks, and then has influenced the stability to water quality testing.

Disclosure of Invention

In view of this, the technical problems to be solved by the present utility model are: how to provide a sewage quality testing and use accommodate device in order to realize the steady support to the sampling frame.

In order to achieve the above purpose, the utility model provides a containing device for sewage water quality detection, which comprises a frame body, a baffle plate, convex ribs, a chute and a limiting bump;

the partition boards are arranged on the frame body, the partition boards are vertically arranged with the frame body, a plurality of partition boards are arranged at intervals along the width direction of the frame body, and the adjacent partition boards divide the space for placing;

the convex ribs are arranged on the partition board, are positioned on the upper part of the partition board, extend along the length direction of the partition board, and are arranged in a protruding way along the opposite direction and form a bearing space;

the sliding chute is arranged on the partition board and is positioned above the convex ribs, the side part of the sliding chute for accommodating the reagent plate is arranged on the sliding chute, and the sliding chute extends along the length direction of the partition board and is arranged in parallel with the convex ribs;

the limit lug is arranged on the inner wall of the convex rib and extends along the horizontal direction.

Further, the chute is concavely arranged on the inner wall of the partition board.

Further, the limit bump is arranged in a protruding mode along the horizontal direction and far away from the chute.

Further, a top plate is arranged on the frame body and is positioned above the frame body.

Further, a rotating plate is arranged on the frame body, and the bottom of the rotating plate is rotationally connected with the bottom of the frame body through a rotating shaft.

Compared with the prior art, the accommodating device for sewage water quality detection has the beneficial effects that: the bearing of placing the board is realized through the protruding muscle that sets up on the baffle, the reagent board both sides that load the reagent pipe and the spout sliding connection who sets up on the baffle, realize the bearing to the reagent board in the bottom by protruding muscle, and can realize along the sliding fit on the length direction through the cooperation of spout and reagent board, set up spacing lug in one side of protruding muscle, realize the bearing to the reagent board at the opposite side by spacing lug, and then can guarantee that the reagent board is when with spout sliding fit, realize the bearing effect to the reagent board jointly by protruding muscle and spacing lug, in order to guarantee that the reagent pipe of water quality monitoring can be stabilized the bearing and place, avoid producing and rock.

Drawings

FIG. 1 is a schematic view of a sewage water quality detecting receptacle according to an embodiment of the present utility model;

fig. 2 is a schematic partial structure of a receiving device for sewage water quality detection according to an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1-2, the utility model provides a receiving device for sewage water quality detection, which comprises a frame 11, a partition 12, ribs 21, a chute 22 and a limit bump 23.

The top plate 13 is arranged on the frame 11, the top plate 13 is arranged above the frame 11, the rotating plate 14 is arranged on the frame 11, and the bottom of the rotating plate 14 is rotationally connected with the bottom of the frame 11 through a rotating shaft.

The partition plates 12 are arranged on the frame 11, the partition plates 12 are vertically arranged with the frame 11, a plurality of partition plates 12 are arranged at intervals along the width direction of the frame 11, and the adjacent partition plates 12 divide the space for placing.

The convex ribs 21 are arranged on the partition plate 12, the convex ribs 21 are positioned on the upper part of the partition plate 12, the convex ribs 21 are arranged in an extending mode along the length direction of the partition plate 12, and the convex ribs 21 on the adjacent partition plates 12 are arranged in a protruding mode along the opposite direction and form a bearing space.

The spout 22 sets up on baffle 12 and is located the top of protruding muscle 21, and the spout 22 is sunken to be set up on the inner wall of baffle 12, and the lateral part that the spout 22 is used for holding the reagent board, and the spout 22 extends along the length direction of baffle 12 and sets up and be parallel with protruding muscle 21 and lay.

The limit bump 23 is arranged on the inner wall of the convex rib 21 and extends along the horizontal direction, and the limit bump 23 protrudes along the horizontal direction and is arranged far away from the chute 22.

The support of placing the board is realized through the protruding muscle 21 that sets up on baffle 12, the reagent board of carrying the reagent pipe its both sides and the spout 22 sliding connection who sets up on baffle 12, realize the support to the reagent board in the bottom by protruding muscle 21, and can realize along the ascending sliding fit of length direction through the cooperation of spout 22 and reagent board, set up spacing lug 23 in one side of protruding muscle 21, realize the support to the reagent board at the opposite side by spacing lug 23, and then can guarantee that the reagent board is when with spout 22 sliding fit, realize the bearing effect to the reagent board jointly by protruding muscle 21 and spacing lug 23, so that the reagent pipe of guaranteeing water quality monitoring can be stably supported and be placed, avoid producing and rock.

The sliding chute 22 is mainly used for realizing sliding guide to the reagent plate, so that the reagent plate can move to the inside of the partition plate along a preset track, the convex rib 21 is arranged below the sliding chute 22, the convex rib 21 is used for supporting the lower surface of the reagent plate, preferably, the upper surface of the convex rib 21 is flush with the bottom of the sliding chute 22, and further, a limit lug 23 is arranged on one side of the convex rib 21, and the effect of supporting the reagent plate is further realized by the limit lug 23 so as to ensure the stability in the supporting or sliding process.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (5)

1. The accommodating device for sewage water quality detection is characterized by comprising a frame body, a partition plate, convex ribs, sliding grooves and limiting convex blocks;

the partition boards are arranged on the frame body, the partition boards are vertically arranged with the frame body, a plurality of partition boards are arranged at intervals along the width direction of the frame body, and the adjacent partition boards divide the space for placing;

the convex ribs are arranged on the partition board, are positioned on the upper part of the partition board, extend along the length direction of the partition board, and are arranged in a protruding way along the opposite direction and form a bearing space;

the sliding chute is arranged on the partition board and is positioned above the convex ribs, the side part of the sliding chute for accommodating the reagent plate is arranged on the sliding chute, and the sliding chute extends along the length direction of the partition board and is arranged in parallel with the convex ribs;

the limit lug is arranged on the inner wall of the convex rib and extends along the horizontal direction.

2. The wastewater quality inspection container according to claim 1, wherein the chute is recessed in an inner wall of the partition plate.

3. The containment device for wastewater quality inspection according to claim 1, wherein the limit bump is protruded in a horizontal direction and is disposed away from the chute.

4. The containment device for wastewater quality inspection according to claim 1, wherein a top plate is provided on the frame body, and the top plate is located above the frame body.

5. The containment device for sewage water quality detection as claimed in claim 1, wherein a rotating plate is provided on the frame body, and the bottom of the rotating plate is rotatably connected with the bottom of the frame body through a rotating shaft.