CN114310814A - Portable workbench for underground on-site water quality detection of mine - Google Patents

Abstract

The invention relates to the technical field of water quality detection, in particular to a portable workbench for underground on-site water quality detection of a mine, which mainly comprises: the main workstation box body, the portable handle, the pipeline wash port, cuboid form recess, cylinder form recess, triangle elliptic cylinder cup, short column form receiver, LED light source recess, the light switch, the ball valve, the recess that leaks, the water conservancy diversion pipeline, the mouth of a river under the pipeline, long post receiver, the plane lock, USB power source, box bottom braces buckle, the barn door, the LED fluorescent tube, the directional axis of rotation of barn door, the face soft cloth, trapezoidal bracing piece axis of rotation, the axis of rotation recess, trapezoidal bracing piece recess, the fixed buckle of trapezoidal bracing piece, the hinge. The working platform can still maintain higher working efficiency in such a complex working environment as underground of a mine.

Description

Portable workbench for underground on-site water quality detection of mine

Technical Field

The invention relates to the technical field of water quality detection, in particular to a portable workbench for underground on-site water quality detection of a mine.

Background

The quality of the water environment of the underground water body is more and more emphasized by governments and people, and a plurality of national standards and industrial standards are correspondingly formed. Therefore, the water quality field detection during field sampling can obtain the first hand information of the water quality of the water body, and the provided water quality field index often reflects the real water quality condition. The rapid on-site water quality detection and analysis not only has good effects on finding and treating the pollution of the underground water, but also plays an important role in engineering and technical research and academic research of some special water bodies. For example, the underground water in the deep layer of the coal mine is the root cause of water inrush disasters in the coal mine, the hydrological geochemistry characteristics and evolution of the underground water are important components of water prevention and control work of the mine and scientific research of the underground water, and on-site test indexes (TDS, conductivity and oxidation-reduction potential) are preferred underground water parameters and reflect the position, retention condition and oxidation-reduction state of water in an aquifer to a certain extent. Therefore, the detection of the field indexes is particularly important for mine water control work.

At present, compared with the traditional laboratory instrument, the portable instrument simplifies the complicated operation process of the instrument, and the requirements of the portable instrument on technical innovation and development and field test indexes are increased. When measuring multiple indexes, various testing instruments are often carried and placed with problems, which causes inconvenience in the field testing work.

On the other hand, when water samples are taken on site, the working environment is often changeable, and part of the area is in the field and the working environment is poor. If some instruments need special working environment, such as horizontal placement, light treatment and the like, the testing environment is often not achieved.

In a word, on one hand, with the on-site water quality detection indexes brought into the water quality evaluation reference standard and the mine hydrology ledger, the development of a water quality on-site detection instrument is paid sufficient attention, and on the other hand, the development of a workbench or a workstation matched with on-site test work is limited. Some field detection portable working tables cannot be applied to special working environments, such as the condition of no illumination under a coal mine, due to the defect of poor applicability. Therefore, the portable workbench for developing the underground on-site water quality detection of the mine expands the application environment of on-site detection, can finish quick capture and grasp of the water quality information of underground water in the deep layer of the mine, is beneficial to follow-up of subsequent analysis and treatment means, and enables an instrument to exert more excellent performance.

Disclosure of Invention

The invention aims to provide a portable workbench for underground on-site water quality detection of a mine, which is required to keep higher working efficiency in a complicated working environment such as underground of the mine.

In order to achieve the purpose, the invention adopts the technical scheme that: a portable workbench for underground on-site water quality detection of a mine mainly comprises: the LED light source box comprises a main workbench box body, a handle, a pipeline drain hole, a cuboid-shaped groove, a cylindrical groove, a triangular elliptic cylinder cup, a short column-shaped storage box, an LED light source groove, a light switch, a spherical valve, a water leakage groove, a flow guide pipeline, a pipeline drainage port, a long column-shaped storage box, a plane lock, a USB power supply interface, a box bottom strap buckle, a light barrier, an LED lamp tube, a light barrier directional rotating shaft, a panel soft cloth, a trapezoidal support rod rotating shaft, a rotating shaft groove, a trapezoidal support rod fixing buckle and a hinge;

the light barrier comprises an LED lamp tube, a directional rotating shaft of the light barrier and a soft cloth on the surface of the light barrier; the main workbench is provided with a groove with various shapes, various storage boxes and drainage pipelines; the grooves in various shapes comprise rectangular grooves and cylindrical grooves; the multiple storage boxes comprise short columnar storage boxes and long columnar storage boxes; the drainage pipeline comprises a diversion pipeline and a pipeline water outlet; the trapezoidal support rod comprises a trapezoidal support rod rotating shaft, a rotating shaft groove, a trapezoidal support rod groove and a trapezoidal support rod fixing buckle; in addition, in order to facilitate carrying of the braces and carrying of the braces, the main workbench is provided with a carrying handle and a box bottom brace buckle; the shading plate is connected with the main workbench through a light barrier directional rotating shaft; the trapezoidal support rod is connected with the bottom of the main workbench through the trapezoidal support rod fixing buckle.

The invention has the following technical effects:

1. the problem of water quality detection work of an underground coal mine site is effectively solved;

2. the working device has simple structure and is easy to manufacture;

3. the device is light and thin and easy to carry, and the hook type design is more in line with the characteristics of the industry;

4. the table top is provided with a light source, so that the table top is suitable for an environment with poor light;

5. the structure of the existing workbench is optimized, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments will be briefly introduced below, it is obvious that the drawings in the following description are only some examples of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

FIG. 1 is a schematic structural diagram of a portable workbench for underground on-site water quality detection of a mine;

FIG. 2 is a schematic view of a light barrier structure;

FIG. 3 is a schematic view of the back side of the main worktable;

FIG. 4 is a schematic structural view of the left side of the main worktable;

fig. 5 is a schematic structural diagram of the right side of the main workbench.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, the main parts of the device of the present invention comprise: a main table box (101); a carrying handle (102); a duct drain hole (103); a rectangular parallelepiped recess (104); a cylindrical recess (105); a triangular cylindroid cup (106); a short column-shaped storage box (107); an LED light source recess (108); a light switch (109); a ball valve (110); a water leakage groove (111); a flow conduit (112); a pipeline drain port (113); a long column storage box (114); a planar lock (115); a USB power interface (116); a cassette bottom strap buckle (117); a light barrier (20); an LED lamp tube (21); a light barrier orientation rotation axis (22); a sheet surface soft cloth (23); a trapezoidal support bar (30); a trapezoidal support bar rotating shaft (31); a rotation shaft groove (32); a trapezoidal support bar groove (33); a trapezoidal support rod fixing buckle (34); a hinge (35).

The light barrier (20) comprises an LED lamp tube (21); a light barrier orientation rotation axis (22); a sheet surface soft cloth (23); the main workbench (101) is provided with grooves in various shapes, various storage boxes and drainage pipelines. The grooves with various shapes comprise rectangular grooves (104) and cylindrical grooves (105); the multiple storage boxes comprise short columnar storage boxes (107) and long columnar storage boxes (108); the drainage pipeline comprises a flow guide pipeline (112) and a pipeline drainage port (113). The trapezoidal support rod (30) comprises a trapezoidal support rod rotating shaft (31); a rotation shaft groove (32); a trapezoidal support bar groove (33); the trapezoidal support rod is fixed with a buckle; in addition, in order to facilitate carrying of the shoulder strap and carrying of the shoulder strap, the main workbench is provided with a carrying handle (102); a buckle (117) of the back belt of the box bottom. The shading plate is connected with the main workbench through a shading plate orientation rotating shaft (22); the trapezoidal support rod fixing buckle (34) is connected with the trapezoidal support rod (30) and the bottom of the main workbench.

The working steps of the device of the invention comprise:

the first step is as follows: the user first grips the carrying handle (102) or carries the device to the place of use through the box bottom strap buckle (117) strap;

the second step is that: the front surface is opened after a flat surface lock (115) is pressed, and the main workbench is opened. The trapezoid supporting rods are taken out from the bottom surface of the workbench, the angle between the trapezoid supporting rods and the workbench surface is kept at about 130 degrees, and the trapezoid supporting rods are stably placed in a field working site.

The third step: continuing to open the main worktable, wherein part A is a test bench and part B is a portable instrument storage bench. The light barriers (20) are each partially lifted from A, B at 90 ° to the table top.

The fourth step: after determining the environment, it is decided whether to turn on the light switch (109). And under the condition of opening the light, continuously adjusting the position of the light barrier, and modulating the light to a proper position.

The testing method by utilizing the device comprises the following steps:

the first step is as follows: and opening the ball valve (110) to enable the water leakage groove (111) to be communicated with the pipeline water outlet (113), pouring purified water into 4 triangular elliptic cylindrical cups (106) to clean the inner wall of the cylindrical groove (105), and repeatedly cleaning for more than three times.

The second step is that: the ball valve (110) is closed, and the obtained water samples are poured into 4 cylindrical grooves (106) in sequence and are kept stand for one minute. After the cylindrical groove (106) is polluted by water, the spherical valve (110) is opened, and after the water is discharged, the water sample to be detected is added again in sequence, and the steps are repeated for more than three times.

The third step: and (3) taking out the test instruments from the long column storage box (114) and the short column storage box (107), inserting the test holes of the instruments into the water leakage grooves (111), standing the instruments for one minute, reading and recording, wherein the recording work can be completed on the part B of the main workbench.

The fourth step: and opening the spherical valve (110), pouring purified water to clean the inner wall of the cylindrical groove 105, and closing the spherical valve (110) after water is dried.

The fifth step: and selecting to continue the sample adding test, continuously adding the water sample to be tested into the cylindrical groove (105), and repeating the working state steps.

And a sixth step: and (3) selecting to stop the sample adding test, after all water samples are discharged, cleaning 4 triangular elliptic cylinder cups (106) by using purified water, cleaning the cylindrical grooves (105), and collecting the test instrument in a long-column storage box (114) after the water samples are drained. The support rod (30) is retracted into the groove (32) of the rotating shaft on the bottom surface of the main workbench; the trapezoidal support rod is arranged in the groove (33). And closing the light switch (109) and collecting A, B part of the light barrier (20), wherein the LED lamp tube (21) is collected in the LED light source groove (108). Hand-held or strap-mounted exit.

The spherical valve (110) controls the connection of the water leakage groove (111) and the pipeline drainage port (113), one valve controls one groove, and the opening number of the spherical valve (110) is determined by the number of indexes needing to be tested simultaneously.

The cuboid-shaped groove (104) is used for placing instruments with larger specifications, and a turbidimeter is taken as an example. Taking out the turbidity test bottle from the triangular elliptic cylindrical groove (106), pouring a water sample to be tested to a position above the scale mark in the bottle, placing the test bottle in the turbidity meter placed in the rectangular groove (104), turning off light, starting testing, and obtaining and recording a result.

In the test process, the instrument is horizontally placed and is protected from light, so that the accuracy of the test result is facilitated.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. A portable workbench for underground on-site water quality detection of a mine mainly comprises: the LED light source box comprises a main workbench box body, a handle, a pipeline drain hole, a cuboid-shaped groove, a cylindrical groove, a triangular elliptic cylinder cup, a short column-shaped storage box, an LED light source groove, a light switch, a spherical valve, a water leakage groove, a flow guide pipeline, a pipeline drainage port, a long column-shaped storage box, a plane lock, a USB power supply interface, a box bottom strap buckle, a light barrier, an LED lamp tube, a light barrier directional rotating shaft, a panel soft cloth, a trapezoidal support rod rotating shaft, a rotating shaft groove, a trapezoidal support rod fixing buckle and a hinge;

the light barrier comprises an LED lamp tube, a directional rotating shaft of the light barrier and a soft cloth on the surface of the light barrier; the main workbench is provided with a groove with various shapes, various storage boxes and drainage pipelines; the grooves in various shapes comprise rectangular grooves and cylindrical grooves; the multiple storage boxes comprise short columnar storage boxes and long columnar storage boxes; the drainage pipeline comprises a diversion pipeline and a pipeline water outlet; the trapezoidal support rod comprises a trapezoidal support rod rotating shaft, a rotating shaft groove, a trapezoidal support rod groove and a trapezoidal support rod fixing buckle; the main workbench is provided with a portable handle and a box bottom strap buckle; the shading plate is connected with the main workbench through a light barrier directional rotating shaft; the trapezoidal support rod is connected with the bottom of the main workbench through the trapezoidal support rod fixing buckle.

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