AU2021105291A4 - Integrated device for collecting samples and data of hydrothermal fluid - Google Patents

Abstract

The invention relates to the technical field of hydrothermal samplers, in particular to an integrated device for collecting samples and data of hydrothermal fluid. It comprises a device body, a fixing mechanism and a constant temperature mechanism. The device body comprises a machine body, a collecting bottle is connected inside the machine body, the top end of the collecting bottle is connected with a first fixing block, the top end of the first fixing block is connected with a second fixing block, the bottom end of the collecting bottle is connected with a hose, and a vacuum flask is fixedly connected inside the machine body; the fixing mechanism comprises a first rotating block, and the outer wall of the second fixing block is slidably connected with the first rotating block. According to the invention, rubber plugs are inserted into the first fixed block and the second fixed block, and the first rotating block is rotated, so that the second fixed block is fixed; meanwhile, it is conducive to the first layer of protection for the second fixed block, preventing the expansion and overflow of hydrothermal fluid and the adjustment of the collection bottle. 1/3 FIGURES 110 A 0 120 0::] 160 3 0 1L 340 _ __ __"----360 330 Fig.1

Description

1/3

FIGURES

110 A

0

120 0::] 160 30 1L 340 _ __

__"----360

330

Fig.1

Integrated device for collecting samples and data of hydrothermal fluid

TECHNICAL FIELD

The invention relates to the technical field of hydrothermal samplers, in

particular to an integrated device for collecting samples and data of hydrothermal

fluid.

BACKGROUND

Submarine hydrothermal activity refers to the process of hydrothermal fluid, in

which seawater penetrates into deep seabed crust through rock fissures or structural

fault zones and exchanges chemical components with crust rocks. The submarine

hydrothermal activity discovered so far is mainly distributed in the mid-ocean ridge,

back-arc spreading basin and deep fault zone. On the deep seabed of the earth, there

are vents that eject hydrothermal fluid, and the temperature of the ejected

hydrothermal fluid can be as high as 400 degrees. Hydrothermal fluids generally

contain acidic substances, and hydrothermal biological communities generally occur

near hydrothermal fluids, which is very important for the study of life origin and

mineral and biological resources.

At present, there are submersibles carrying samplers to sample hydrothermal

fluids in the world, and then taking samplers to laboratories to analyze the properties

of hydrothermal fluids. At present, the existing hydrothermal fluid sampler adopts

threaded connection when collecting hydrothermal fluid. However, long-term rotating

and dismounting installation is likely to cause poor sealing performance of the

hydrothermal fluid collection bottle, and it is also difficult to disassemble the

collection bottle.

SUMMARY

The purpose of the patent is to provide an integrated device for collecting

samples and data of hydrothermal fluid, so as to solve the problem that the

hydrothermal fluid collection bottle is difficult to disassemble and has poor sealing

performance.

To achieve the above purpose, the patent provides the following technical

scheme: The integrated device for collecting samples and data of hydrothermal fluid

comprises a device body, a fixing mechanism and a constant temperature mechanism.

The device body comprises a machine body, and a collecting bottle is connected

inside the machine body; the top end of the collecting bottle is connected with a first

fixing block, the top end of the first fixing block is connected with a second fixing

block, the bottom end of the collecting bottle is connected with a hose, a vacuum flask

is fixedly connected inside the machine body, the fixing mechanism comprises a first

rotating block, the first rotating block is slidably connected to the outer wall of the

second fixed block, the outer wall of the first rotating block is slidably connected with

a second rotating block, one side of the rubber plug is fixedly connected with a first

limiting block, one side of the first rotating block is fixedly connected with a second

limiting block, and the top end of the first fixed block is connected with a sealing ring;

the thermostatic mechanism comprises a heat preservation box, one end of the hose is

fixedly connected with the heat preservation box, a water inlet is arranged at the right

bottom end of the heat preservation box, a water pipe is inserted into the water inlet ,

the left top end of the heat preservation box is provided with a water outlet, and the top end of the heat preservation box isfixedly connected with a thermometer.

Preferably, the second fixing block is equally divided into three sections, and the

outer wall of the hose is provided with a protective sleeve.

Preferably, the input valve is fixedly connected to the top end side of the hose,

and an output valve is fixedly connected to the bottom end side of the hose.

Preferably, the bottom end of the vacuum flask is fixedly connected with a water

pipe, the first rotating block is internally provided with a chute.

Preferably, the rubber plug penetrates through the second fixed block and the

first rotating block and extends to the outside of the first fixed block; the bottom end

of the sealing ring is connected with the second fixed block.

Preferably, the hose penetrates the inside of the heat preservation box and

extends to the outside of the heat preservation box, the outer walls of the input valve

and the output valve are provided with threads.

Compared with the prior art, the patent has the beneficial effects that:

1. The integrated device for collecting samples and data of hydrothermal fluid

rotates the first rotating block by inserting rubber plugs into the first and second fixed

blocks, so that the second fixed block is fixed; meanwhile, it is conducive to the first

layer of protection for the second fixed block, preventing the expansion and overflow

of hydrothermal fluid and the adjustment of the collection bottle. The second rotating

block carries out a second layer of protection on the second fixed block, when that

first rotating block is damaged, the second rotate block can seal the gap of the first

rotating block, which is beneficial to preventing the leakage of hydrothermal fluid, increasing the utilization rate and prevent waste.

2. The integrated device for collecting samples and data of hydrothermal fluid is

conducive to constant temperature by flowing hydrothermal fluid into the water inlet

and discharging it from the water outlet, so that the hydrothermal fluid inside the hose

keeps the original temperature, which is conducive to increasing the utilization rate of

hydrothermal fluid and reducing waste. The thermometer is favorable for measuring

the hydrothermal fluid inside the heat preservation box, and is convenient for quickly

adjusting the temperature of the hydrothermal fluid. The input valve and the output

valve can quickly control the flow rate and flow rate of the hydrothermal fluid in the

heat preservation box, which is convenient for taking and heating the hydrothermal

fluid.

BRIEF DESCRIPTION OF THE FIGURES

Fig. 1 is the schematic diagram of frontal section structure of the invention.

Fig. 2 is the schematic top view of the first fixing block and the second fixing

block of the invention.

Fig. 3 is the schematic side view of the first rotating block and the second

rotating block of the invention.

Fig. 4 is the enlarged schematic diagram of structure at A of the invention.

In the picture: 1: Device body; 110: the Machine body; 120: Collection bottle;

130: First fixing block; 140: Second fixing block; 150: Hose; 160: Vacuum flask; 2:

Fixing mechanism; 210: First rotating block; 220: Rubber stopper; 230: Second

rotating block; 240: First limit block; 250:Second limit block; 260: Sealing ring; 3:

Constant temperature mechanism; 310: Insulation box; 320: Water inlet; 330: Water

transmission pipe; 340: Water outlet; 350: Thermometer; 360: Input valve; 370:

Output valve.

DESCRIPTION OF THE INVENTION

The following will clearly and completely describe the technical scheme in

embodiment of the invention with reference to the figure in embodiment of the

invention. Obviously, the described embodiments are only part of the embodiments of

the invention, not all of them. Based on the embodiments in the invention, all other

embodiments obtained by ordinary technicians in this field without creative labor

belong to the scope of protection of the invention.

Referring to figs. 1-4, the embodiment provided by the invention:

An integrated device for collecting samples and data of hydrothermal fluid

comprises a device body 1, a fixing mechanism 2 and a constant temperature

mechanism 3. The device body 1 comprises a machine body 110, and a collecting

bottle 120 is connected inside the machine body 110; the top end of the collecting

bottle 120 is connected with a first fixing block 130, the top end of the first fixing

block 130 is connected with a second fixing block 140, the bottom end of the

collecting bottle 120 is connected with a hose 150, a vacuum flask 160 isfixedly

connected inside the machine body 110, the fixing mechanism 2 comprises a first

rotating block 210, the first rotating block 210 is slidably connected to the outer wall

of the second fixed block 140, it is beneficial to fix the second fixing block 140, to

carry out the first layer of protection for the second fixing block 140 at the same time and to prevent the hydrothermal fluid from expanding and overflowing, a rubber plug

220 is inserted into the second fixing block 140; the outer wall of the first rotating

block 210 is slidably connected with a second rotating block 230, it is beneficial to

prevent the leakage of hydrothermal fluid, increase the utilization rate and prevent

waste; one side of the rubber plug 220 is fixedly connected with a first limiting block

240, one side of the first rotating block 210 is fixedly connected with a second

limiting block 250, and the top end of the first fixed block 130 is connected with a

sealing ring 260, in order to enhance the sealing performance and increase the safety

performance; the thermostatic mechanism 3 comprises a heat preservation box 310,

one end of the hose 150 is fixedly connected with the heat preservation box 310, a

water inlet 320 is arranged at the right bottom end of the heat preservation box 310, a

water pipe 330 is inserted into the water inlet 320, the left top end of the heat

preservation box 310 is provided with a water outlet 340 for constant temperature, so

that the hydrothermal fluid inside the hose 150 can keep the original temperature,

which is beneficial to increasing the utilization rate of the hydrothermal fluid and

reducing waste; the top end of the heat preservation box 310 is fixedly connected with

a thermometer 350,it is beneficial to measure the hydrothermal fluid inside the heat

preservation box 310 and quickly adjust the temperature of the hydrothermal fluid.

Further, the second fixing block 140 is equally divided into three sections, and

the outer wall of the hose 150 is provided with a protective sleeve, which is beneficial

to prevent the hose 150 from being damaged due to the overhigh temperature of the

hydrothermal fluid.

Further, the input valve 360 is fixedly connected to the top end side of the hose

150, and an output valve 370 is fixedly connected to the bottom end side of the hose

150, which is beneficial to quickly control the flow rate and flow rate of the

hydrothermal fluid in the heat preservation box 310 of the hose 150, which is

convenient for taking and heating the hydrothermal fluid.

Further, the bottom end of the vacuum flask 160 is fixedly connected with a

water pipe 330, the first rotating block 210 is internally provided with a chute, which

is beneficial to the rotation of the second rotating block 230.

Further, the rubber plug 220 penetrates through the second fixed block 140 and

the first rotating block 210 and extends to the outside of the first fixed block 130, the

bottom end of the sealing ring 260 is connected with the second fixed block 140,

which is beneficial to protect the second fixing block 140 in the first layer, and

prevent the hydrothermal fluid from expanding and overflowing.

Further, the hose 150 penetrates the inside of the heat preservation box 310 and

extends to the outside of the heat preservation box 310, the outer walls of the input

valve 360 and the output valve 370 are provided with threads, which is beneficial to

fix the positions of the input valve 360 and the output valve 370 and increase the

stability.

According to the integrated device for collecting samples and data of

hydrothermal fluid, rubber plugs 220 are inserted into the first fixing block 130 and

the second fixing block 140, the first rotating block 210 is rotated to fix the second

fixing block 140. At the same time, it is beneficial to protect the second fixing block

140 in the first layer, prevent the expansion and overflow of hydrothermal fluid, and

facilitate the adjustment of the collecting bottle 120. The second rotate block 230

protects that second fix block 140 in a second layer, when the first rotating block 210

is damaged, the second rotate block 230 can seal the gap of the first rotating block

210, which is beneficial to preventing the leakage of hydrothermal fluid, increasing

the utilization rate and preventing waste. The first limiting block 240 and the second

limiting block 250 limit the second rotating block 230, which is beneficial to fixing

the connection between the second rotating block 230 and the first rotating block 210.

The sealing ring 260 is beneficial to enhancing the sealing performance and

improving the safety performance.

According to the integrated device for collecting samples and data of

hydrothermal fluid, the heat preservation box 310 is fixedly connected with one end

of the hose 150, the hydrothermal fluid flows out of the vacuum flask 160 through the

water pipe 330 and enters the water inlet 320. When the hydrothermal fluid slowly

enters the heat preservation box 310, the spilled hydrothermal fluid is discharged

through the water outlet 340, which is beneficial to constant temperature, keeping the

hydrothermal fluid inside the hose 150 at an original temperature, increasing the

utilization rate of the hydrothermal fluid and reducing waste. The thermometer 350 is

beneficial for measuring the hydrothermal fluid inside the heat preservation box 310,

and is convenient for quickly adjusting the temperature of the hydrothermal fluid. The

input valve 360 and the output valve 370 can quickly control the flow rate and flow

rate of the hydrothermal fluid in the heat preservation box 310 of the hose 150, which is convenient for taking and heating the hydrothermal fluid.

It is obvious to the technician in the art that the invention is not limited to the

details of the above exemplary embodiments, and can be realized in other specific

forms without departing from the spirit or basic characteristics of the invention.

Therefore, from any point of view, the embodiments should be regarded as exemplary

and non-limiting; the scope of the invention is defined by the appended claims rather

than the above description, so it is intended to include all changes that fall within the

meaning and scope of the equivalents of the claims. Any reference signs in the claims

should not be regarded as limiting the claims involved.

Claims (6)

THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS

1. An integrated device for collecting samples and data of hydrothermal fluid

comprises a device body (1), a fixing mechanism (2) and a constant temperature

mechanism (3), characterized in that the device body (1) comprises a machine body

(110), and a collecting bottle (120) is connected inside the machine body (110); the

top end of the collecting bottle (120) is connected with a first fixing block (130), the

top end of the first fixing block (130) is connected with a second fixing block (140),

the bottom end of the collecting bottle (120) is connected with a hose (150), a vacuum

flask (160) is fixedly connected inside the machine body (110), the fixing mechanism

(2) comprises a first rotating block (210), the first rotating block (210) is slidably

connected to the outer wall of the second fixed block (140), the outer wall of the first

rotating block (210) is slidably connected with a second rotating block (230), one side

of the rubber plug (220) is fixedly connected with a first limiting block (240), one side

of the first rotating block (210) is fixedly connected with a second limiting block

(250), and the top end of the first fixed block (130) is connected with a sealing ring

(260); the thermostatic mechanism (3) comprises a heat preservation box (310), one

end of the hose (150) is fixedly connected with the heat preservation box (310), a

water inlet (320) is arranged at the right bottom end of the heat preservation box (310),

a water pipe (330) is inserted into the water inlet (320), the left top end of the heat

preservation box (310) is provided with a water outlet (340), and the top end of the

heat preservation box (310) is fixedly connected with a thermometer (350).

2. The integrated device for collecting samples and data of hydrothermal fluid according to claim 1, characterized in that the second fixing block (140) is equally divided into three sections, and the outer wall of the hose (150) is provided with a protective sleeve.

3. The integrated device for collecting samples and data of hydrothermal fluid

according to claim 1, characterized in that an input valve (360) is fixedly connected to

the top end side of the hose (150), and an output valve (370) is fixedly connected to

the bottom end side of the hose (150).

4. The integrated device for collecting samples and data of hydrothermal fluid

according to claim 1, characterized in that the bottom end of the vacuum flask (160) is

fixedly connected with a water pipe (330), the first rotating block (210) is internally

provided with a chute.

5. The integrated device for collecting samples and data of hydrothermal fluid

according to claim 1, characterized in that the rubber plug (220) penetrates through

the second fixed block (140) and the first rotating block (210) and extends to the

outside of the first fixed block (130), the bottom end of the sealing ring (260) is

connected with the second fixed block (140).

6. The integrated device for collecting samples and data of hydrothermal fluid

according to claim 3, characterized in that the hose (150) penetrates the inside of the

heat preservation box (310) and extends to the outside of the heat preservation box

(310), the outer walls of the input valve (360) and the output valve (370) are provided

with threads.

FIGURES 1/3

Fig.1