CN115009670A - Sample transfer device for water quality monitoring and use method thereof - Google Patents

Abstract

The invention discloses a sample transfer device for water quality monitoring and a using method thereof, and discloses a sample transfer device which can store water quality samples in a classified manner, is provided with an insulating layer and maintains the initial low-temperature state of a water sample through heat conduction of a heat conduction sheet. The heat-conducting water tank heat-insulating device is characterized in that the main body assembly comprises a sample test tube, heat-conducting fins, a water tank, water injection holes, test tube grooves, a partition plate, a heat-insulating layer and a water injection tube, wherein one side of the water tank is provided with a plurality of test tube grooves, one group of test tube grooves comprise a plurality of test tube grooves, two heat-conducting fins are symmetrically arranged at the notch of each test tube groove, one end of each heat-conducting fin penetrates through the water tank and extends into the water tank, the other end of each heat-conducting fin extends out of the water tank and extends upwards, the heat-conducting fins and the water tank are sealed, the sample test tube is inserted into the test tube grooves, the partition plate is arranged in the water tank and is close to the other side of the water tank, the heat-insulating layer is arranged between the partition plate and the other side of the water tank, and the water injection holes are formed in the other side of the water tank.

Description

Sample transfer device for water quality monitoring and use method thereof

Technical Field

The invention discloses a sample transfer device for water quality monitoring and a using method thereof, relates to a device for transferring a water quality sample for water quality monitoring and a using method thereof, and belongs to the technical field of environmental monitoring.

Background

The water quality monitoring is a process for monitoring and determining the types of pollutants in water bodies, the concentrations and the variation trends of various pollutants and evaluating the water quality conditions, the monitoring range is very wide, the monitoring range comprises uncontaminated and contaminated natural water, various industrial drainage and the like, most of collected water quality monitoring samples are transported to a water quality detection laboratory except for on-site determination of a part of detection items, however, in a high-temperature environment in summer, the collected low-temperature water quality samples are easy to exchange heat with the outside in the transportation process to cause temperature rise and property change, and subsequent detection results are influenced.

Notice No. CN212580478U discloses a water sample strorage device for water quality monitoring includes: a box body; the box cover is arranged at the top end of the box body; the braces are arranged at the top end of the outer side of the box body; the four corners of the front side of the box cover are all fixedly provided with buttons, and one side of each button is fixedly arranged on the side face of the box body; the storage assembly is arranged in the box body; this strorage device does not possess the heat preservation function, makes the water sample intensification to take place the nature change easily under summer high temperature environment, influences follow-up testing result, and this strorage device does not classify the sample of depositing different water simultaneously, leads to the confusion of quality of water sample easily.

The publication number CN213975065U discloses a sample storage device for water quality monitoring, which comprises a sample storage box body and a box cover, wherein a perspective window is arranged at the upper part of the box cover, a foam board is arranged inside the box cover, a protruding rib is arranged at the front part of the box cover, a thermostat is arranged on the inner wall of one side of the sample storage box body, a sealing ring is arranged around the upper part of the sample storage box body, a tool bag is arranged at one side of the sample storage box body, a lock catch is arranged at the front part of the sample storage box body, a back strap is arranged on the side surface of the sample storage box body, a shoulder pad is arranged on the back strap, a test tube storage box is arranged inside the sample storage box body, and a test tube body is arranged inside the test tube storage box; the storage device does not store samples of different water bodies in a classified manner, so that the confusion of water quality samples is easily caused.

The publication number CN213975239U discloses a sample storage device for water quality monitoring, which comprises a device support, wherein a reinforcing support is fixedly connected to the inner side of one end of the device support, a universal wheel is fixedly connected to the outer side of the bottom end of the device support, a storage base is fixedly connected to the outer side of the top end of the device support, a first compression spring is fixedly connected to the inner side of one end of the storage base, and a square motor fixing block is fixedly connected to the outer side of the top end of the first compression spring; this strorage device does not possess the heat preservation function, makes the water sample intensification to take place the nature change easily under summer high temperature environment, influences follow-up testing result, and this strorage device does not classify the sample of depositing different water simultaneously, leads to the confusion of quality of water sample easily.

Disclosure of Invention

In order to improve the situation, the invention provides a sample transfer device for water quality monitoring and a using method thereof, and the sample transfer device can store water quality samples in a classified manner, is provided with an insulating layer and maintains the initial low-temperature state of the water samples through heat conduction of heat conducting fins.

The invention relates to a sample transfer device for water quality monitoring, which is realized by the following steps: the invention relates to a sample transfer device for water quality monitoring, which consists of a main body component and a damping component,

the main body component consists of a sample test tube, a heat conducting fin, a water tank, a water injection hole, a test tube groove, a clapboard, a heat preservation layer and a water injection tube,

one surface of the water tank is provided with a plurality of groups of test tube grooves, one group of test tube grooves consists of a plurality of test tube grooves,

preferably, the water tank is of a cylindrical structure,

preferably, a plurality of groups of the test tube slots are equidistantly distributed along the diameter direction of the water tank, a plurality of the test tube slots in the same group are equidistantly distributed along the circumferential direction of the water tank,

two heat-conducting fins are symmetrically arranged at the notch of the test tube groove, one end of each heat-conducting fin penetrates through one surface of the water tank and extends into the water tank, the other end of each heat-conducting fin extends out of the water tank and extends upwards,

preferably, the heat conducting fin has a rectangular structure,

the heat conducting fin and the water tank are sealed,

the sample test tube is inserted into the test tube groove,

preferably, the side wall of the sample test tube is in contact with the heat conducting sheet,

a partition plate is arranged in the water tank,

preferably, the baffle plate is close to the other side of the water tank,

a heat-insulating layer is arranged between the clapboard and the other side of the water tank,

preferably, the heat-insulating layer is sequentially provided with a sponge layer, a perlite heat-insulating plate layer and a rubber layer from one side to the other side,

the other side of the water tank is provided with a water injection hole,

preferably, the water injection hole is positioned in the middle of the other side of the water tank,

one end of the water injection pipe is communicated with the water injection hole, the other end of the water injection pipe penetrates through the heat insulation layer and the partition plate in sequence and extends into the water tank,

preferably, one end of the water injection pipe is flush with the other surface of the water tank,

preferably, the water injection pipe and the partition plate are sealed, the water injection pipe and the water injection hole are sealed,

the shock absorption assembly consists of a shock absorption block and a magnet piece,

a plurality of groups of shock absorption blocks are arranged on the other surface of the water tank, one group of shock absorption blocks consists of a plurality of shock absorption blocks,

preferably, a plurality of groups of the damping blocks are equidistantly distributed along the diameter direction of the water tank, a plurality of the damping blocks in the same group are equidistantly distributed along the circumferential direction of the water tank,

one end of the damping block is connected with the water tank, the other end is provided with a magnet sheet,

preferably, the damper block is of a cylindrical structure, the diameter of the damper block is gradually reduced from one end to the other end,

furthermore, the heat conducting fins are of arc structures, the radians of the heat conducting fins correspond to the side walls of the test tube grooves, and the side walls of the sample test tubes are in contact with the heat conducting fins;

the invention also relates to a use method of the sample transfer device for water quality monitoring, which comprises the following steps:

1) in an initial state, a damping block on the water tank faces upwards, ice water is injected into the water injection pipe from a water injection hole, the ice water flows into the water tank through the water injection pipe, and the water injection pipe is sealed by a soft plug after the water tank is filled with the ice water;

2) turning over the water tank, placing the water tank in the carriage through the damping block, and inserting the sample test tubes containing samples with different water qualities into different groups of test tube grooves in a classified manner in sequence;

3) the heat conducting fins are contacted with the side walls of the test tube grooves, and ice water in the water tank conducts heat to the sample test tubes through the heat conducting fins, so that the low-temperature initial state of the water quality samples in the sample test tubes is maintained, and the water quality samples are prevented from changing in properties due to high temperature to influence detection results;

4) in the transportation, the snubber block can absorb the vehicle and jolt the vibration that causes, keeps the water tank steady, and then protects the sample test tube, avoids the test tube to collide with the damage, and the magnet piece on the snubber block can adsorb on the carriage bottom plate simultaneously for the water tank is placed more stably.

Has the beneficial effects.

Firstly, can classify and deposit the quality of water sample, avoid the sample to obscure.

And secondly, the initial low-temperature state of the water sample can be maintained for a long time, and the condition that the temperature rise is changed due to the heat exchange between the low-temperature water quality sample and the outside in the transportation process to influence the subsequent detection result is avoided.

Thirdly, through snubber block cooperation magnet piece, can carry out the shock attenuation to the water tank in the transportation, it is fixed to make the water tank place more stably through magnetism simultaneously.

Drawings

FIG. 1 is a perspective view of a water quality monitoring sample transfer apparatus according to the present invention;

fig. 2 is a three-dimensional structure diagram of a sample transfer device for water quality monitoring according to the present invention, which mainly shows the structure of a test tube tank;

FIG. 3 is a schematic structural view of a sample transfer device for water quality monitoring according to the present invention;

in the attached drawings

Wherein the following steps are as follows: the test tube comprises a sample test tube (1), a heat conducting sheet (2), a water tank (3), a damping block (4), a water injection hole (5), a test tube groove (6), a partition plate (7), a heat preservation layer (8) and a water injection tube (9).

The specific implementation mode is as follows:

example 1:

the invention relates to a sample transfer device for water quality monitoring, which consists of a main body component and a damping component,

the main body component consists of a sample test tube (1), a heat conducting strip (2), a water tank (3), a water injection hole (5), a test tube groove (6), a clapboard (7), a heat preservation layer (8) and a water injection tube (9),

one surface of the water tank (3) is provided with a plurality of groups of test tube grooves (6), one group of test tube grooves (6) consists of a plurality of test tube grooves (6),

preferably, the water tank (3) is of a cylindrical structure,

preferably, a plurality of groups of the test tube slots (6) are equidistantly distributed along the diameter direction of the water tank (3), a plurality of test tube slots (6) in the same group are equidistantly distributed along the circumferential direction of the water tank (3),

two heat-conducting fins (2) are symmetrically arranged at the notch of the test tube groove (6), one end of each heat-conducting fin (2) penetrates through one surface of the water tank (3) and extends into the water tank (3), the other end of each heat-conducting fin extends out of the water tank (3) and extends upwards,

preferably, the heat conducting fin (2) is of a rectangular structure,

the heat conducting fin (2) and the water tank (3) are sealed,

the sample test tube (1) is inserted into the test tube groove (6),

preferably, the side wall of the sample test tube (1) is contacted with the heat conducting sheet (2),

a baffle plate (7) is arranged in the water tank (3),

preferably, the partition plate (7) is close to the other side of the water tank (3),

a heat-insulating layer (8) is arranged between the clapboard (7) and the other side of the water tank (3),

preferably, the heat-insulating layer (8) is sequentially provided with a sponge layer, a perlite heat-insulating plate layer and a rubber layer from one side to the other side,

the other side of the water tank (3) is provided with a water injection hole (5),

preferably, the water injection hole (5) is positioned in the middle of the other surface of the water tank (3),

one end of a water injection pipe (9) is communicated with the water injection hole (5), the other end of the water injection pipe sequentially penetrates through the heat insulation layer (8) and the partition plate (7) to extend into the water tank (3),

preferably, one end of the water injection pipe (9) is flush with the other surface of the water tank (3),

preferably, the water injection pipe (9) and the partition plate (7) are sealed, the water injection pipe (9) and the water injection hole (5) are sealed,

the shock absorption component consists of a shock absorption block (4) and a magnet piece,

a plurality of groups of damping blocks (4) are arranged on the other surface of the water tank (3), one group of damping blocks (4) is composed of a plurality of damping blocks (4),

preferably, a plurality of groups of the damping blocks (4) are equidistantly distributed along the diameter direction of the water tank (3), a plurality of the damping blocks (4) in the same group are equidistantly distributed along the circumferential direction of the water tank (3),

one end of the damping block (4) is connected with the water tank (3), the other end is provided with a magnet piece,

preferably, the damping block (4) is of a cylindrical structure, and the diameter of the damping block (4) is gradually reduced from one end to the other end;

preferably, the damping block (4) is made of styrene butadiene rubber, styrene butadiene rubber is also called polystyrene butadiene copolymer, the physical mechanism performance, the processing performance and the product use performance of the damping block are close to those of natural rubber, some performances such as wear resistance, heat resistance, aging resistance and vulcanization speed are better than those of the natural rubber, and the damping block can be used together with the natural rubber and various synthetic rubbers;

the invention also relates to a use method of the sample transfer device for water quality monitoring, which comprises the following steps:

1) in an initial state, a damping block (4) on the water tank (3) faces upwards, ice water is injected into the water injection pipe (9) from the water injection hole (5), the ice water flows into the water tank (3) through the water injection pipe (9), and the water injection pipe (9) is sealed by a soft plug after the water tank (3) is filled with the ice water;

2) turning over the water tank (3) to enable the water tank (3) to be placed in a carriage through a damping block (4), and inserting the sample test tubes (1) containing samples with different water qualities into different groups of test tube grooves (6) in an orderly classified manner;

3) the heat conducting fins (2) are in contact with the side walls of the test tube grooves (6), ice water in the water tank (3) conducts heat to the sample test tube (1) through the heat conducting fins (2), the low-temperature initial state of a water sample in the sample test tube (1) is maintained, and the water sample is prevented from changing in properties due to high temperature to affect a detection result;

4) in the transportation process, the shock absorption block (4) can absorb vibration caused by vehicle bumping, the water tank (3) is kept stable, the sample test tube (1) is further protected, the test tube is prevented from being collided and damaged, and meanwhile, the magnet pieces on the shock absorption block (4) can be adsorbed on a carriage bottom plate, so that the water tank (3) is placed more stably;

example 2:

this example differs from example 1 in that: the heat conducting fins (2) are of arc structures, and the radians of the heat conducting fins (2) correspond to the side walls of the test tube grooves (6); when the heat conducting fin is used, the contact area between the heat conducting fin (2) of the arc-shaped structure and the sample test tube (1) can be increased, heat conduction on the sample test tube (1) is facilitated, the low-temperature initial state of a water sample in the sample test tube (1) is maintained, and the problem that the detection result is influenced due to the fact that the water sample is changed in nature due to high temperature is avoided;

the multiple groups of test tube grooves (6) are equidistantly distributed along the diameter direction of the water tank (3), and the multiple test tube grooves (6) in the same group are equidistantly distributed along the annular direction of the water tank (3), so that sample test tubes (1) containing samples with different water qualities can be inserted into the test tube grooves (6) in different groups in order in a classified manner, and sample confusion is avoided;

the design that the side wall of the sample test tube (1) is in contact with the heat conducting fins (2) can conduct heat to the sample test tube (1), maintain the low-temperature initial state of the water sample in the sample test tube (1), and avoid the influence on the detection result caused by the property change of the water sample due to high temperature;

the sponge layer, the perlite heat-preservation plate layer and the rubber layer are sequentially arranged on the heat-preservation layer (8) from one side to the other side, so that ice water in the water tank (3) can be well preserved, and the low-temperature initial state of a water sample in the sample test tube (1) can be maintained for a long time through heat conduction of the heat conducting fins (2);

the damping block (4) is of a cylindrical structure, and the diameter of the damping block (4) is gradually reduced from one end to the other end, so that vibration generated by bumping of a carriage can be better buffered and dispersed, the stability of the water tank (3) is ensured, the sample test tube (1) is further protected, and the test tube is prevented from being collided and damaged;

the heat-insulating layer (8) is matched with the heat-conducting fins (2), so that the initial low-temperature state of the water sample can be maintained for a long time, and the phenomenon that the subsequent detection result is influenced due to the fact that the low-temperature water quality sample is heated to change in nature when being subjected to heat exchange with the outside in the transportation process is avoided;

the damping block (4) is matched with the magnet piece, so that the water tank (3) can be damped in the transportation process, and meanwhile, the water tank (3) is more stably placed through magnetic attraction and fixation;

reach and to deposit quality of water sample by classification, be equipped with heat preservation (8), through conducting strip (2) heat-conduction maintain the purpose of the initial low temperature state of water sample.

It should be further noted that, while the above specific embodiments are described for simplicity and clarity, only the differences from other embodiments are described, but those skilled in the art should understand that the above specific embodiments are independent technical solutions themselves.

Claims (10)

1. The utility model provides a sample transfer device for water quality monitoring, characterized by: the water tank is internally provided with a partition board, the partition board is close to the other side of the water tank, the heat-insulating layer is arranged between the partition board and the other side of the water tank, the other side of the water tank is provided with a water injection hole, one end of the water injection pipe is communicated with the water injection hole, the other end of the water injection pipe sequentially passes through the heat-insulating layer and the partition board to extend into the water tank, the water injection pipe and the partition board are sealed, it is sealed between water injection pipe and the water injection hole, damper comprises snubber block and magnet piece, the multiunit snubber block has been put to the water tank another side, and is a set of the snubber block comprises a plurality of snubber blocks, multiunit the snubber block distributes along water tank diameter direction equidistance, and is a plurality of in the same group the snubber block distributes along water tank hoop equidistance, snubber block one end and water tank are connected, and the magnet piece has been put to the other end.

2. The sample transport device for water quality monitoring according to claim 1, wherein the water tank has a cylindrical structure.

3. The sample transfer device for water quality monitoring according to claim 1, wherein a plurality of sets of the test tube slots are equidistantly distributed along a diameter direction of the water tank, and a plurality of the test tube slots in the same set are equidistantly distributed along a circumferential direction of the water tank.

4. The sample transport device for water quality monitoring according to claim 1, wherein the heat conductive sheet has a rectangular structure.

5. The sample transfer device for water quality monitoring according to claim 1, wherein the heat conducting strip has an arc shape, the arc of the heat conducting strip corresponds to the side wall of the test tube groove, and the side wall of the sample test tube is in contact with the heat conducting strip.

6. The apparatus for transporting a water quality monitoring sample according to claim 1, wherein the side wall of the sample test tube is in contact with a heat conductive sheet.

7. The sample transfer device for water quality monitoring according to claim 1, wherein the heat-insulating layer comprises a sponge layer, a perlite heat-insulating plate layer and a rubber layer in sequence from one side to the other side.

8. The sample transport device for water quality monitoring according to claim 1, wherein one end of the water injection pipe is flush with the other surface of the water tank.

9. The sample transport device for water quality monitoring according to claim 1, wherein the damper block has a cylindrical structure, and the diameter of the damper block is gradually reduced from one end to the other end.

10. A use method of a sample transfer device for water quality monitoring is characterized in that: the method specifically comprises the following steps:

1) in an initial state, a damping block on the water tank faces upwards, ice water is injected into the water injection pipe from a water injection hole, the ice water flows into the water tank through the water injection pipe, and the water injection pipe is sealed by using a soft plug after the water tank is filled with the ice water;

2) turning over the water tank, placing the water tank in the carriage through the damping block, and inserting the sample test tubes containing samples with different water qualities into different groups of test tube grooves in a classified manner in sequence;

3) the heat conducting fins are contacted with the side walls of the test tube grooves, and ice water in the water tank conducts heat to the sample test tubes through the heat conducting fins, so that the low-temperature initial state of the water quality samples in the sample test tubes is maintained, and the water quality samples are prevented from changing in properties due to high temperature to influence detection results;

4) in the transportation, the snubber block can absorb the vibration that the vehicle jolted to cause, keeps the water tank steady, and then protects the sample test tube, avoids the test tube to collide with the damage, and the magnet piece on the snubber block can adsorb on the carriage bottom plate simultaneously for the water tank is placed more stably.

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