CN218725665U - Mountain spring water sample transfer device - Google Patents

Abstract

The application discloses a mountain spring water sample transfer device in the technical field of transfer equipment, which comprises a transfer box, wherein a water pump is fixedly arranged on the transfer box, the input end and the output end of the water pump are respectively connected with a water pumping pipe and a water drainage pipe, and the water pumping pipe extends out of the transfer box; the transfer box can also be detachably connected with a support and a sampling cylinder, the support is fixedly provided with an air cylinder and a sleeve buckled at the top of the sampling cylinder, the sleeve is fixedly provided with an inverted U-shaped connecting pipe, one end of the connecting pipe is connected with a water drainage pipe, the other end of the connecting pipe extends downwards to the bottom of the sleeve, the partition board is provided with a plurality of water drainage holes along the circumferential direction, and each water drainage hole is fixedly provided with a water drainage head extending to the wall of the sampling cylinder; the connecting plate is fixedly provided with an air cylinder, the movable end of the air cylinder is fixedly provided with a linkage plate, and the linkage plate is fixedly provided with sealing rods which are respectively inserted into the plurality of drainage holes. The scheme can avoid the air and the spring water from stirring and mixing, and avoid the generation of aeration phenomenon.

Description

Mountain spring water sample transfer device

Technical Field

The utility model relates to a transfer device technical field, concretely relates to mountain spring water sample transfer device.

Background

The spring water is natural water produced by spring eyes on a mountain, the water source of the spring water is from a specific protected mountain area, no pollution is generated in the area, no other pollution is generated around the spring water to enter a water source area, and the spring water needs to be subjected to mountain self-purification action and contains a certain amount of mineral substances. Mineral water development is carried out by detecting the mineral water which meets the national requirement of mineral water development and meets the drinking water detection standard. Mineral water requires that the content of some mineral substances in water can meet the requirements, the total number of bacteria in water is not allowed to exceed the standard, and mineral water detection is used for detecting 35 indexes including various mineral substances, heavy metals, sense organs, microorganism numbers and the like in water.

Generally, the detection equipment is complex and inconvenient to carry outdoors, so that the spring water is sampled and then transferred back to the detection chamber for detection in the prior art. However, the transfer device in the prior art is simpler, and its structure includes transfer box and joint in the sampling bottle of transfer box, requires slowly to make the water flow into in the sampling bottle during nevertheless the water sampling, and the purpose of doing so prevents that the water from carrying the air fast and flowing into in the sampling bottle to prevent to carry out the aeration to the water, in order to prevent that oxygen promotes microorganism fast growth among the transportation process, influence the sample testing result. However, due to the limitation of outdoor geographical environment and water flow speed, when technicians hold the sampling bottle for sampling, the water flow is difficult to slowly flow into the sampling bottle, so that a large amount of aeration is generated in the water body.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mountain spring water sample transfer device to cause a large amount of aerations when solving prior art water sampling, influence the problem of sample testing result.

In order to solve the above problem, the utility model provides a following technical scheme: a mountain spring water sample transfer device comprises a transfer box, wherein a water pump is fixedly arranged on the transfer box, the input end and the output end of the water pump are respectively connected with a water pumping pipe and a water drainage pipe, and the water pumping pipe extends out of the transfer box; the transfer box can also be detachably connected with a support and a sampling cylinder, the support is fixedly provided with an air cylinder and a sleeve buckled at the top of the sampling cylinder, the sleeve is fixedly provided with an inverted U-shaped connecting pipe, one end of the connecting pipe is connected with a water drainage pipe, the other end of the connecting pipe extends downwards to the bottom of the sleeve, the partition board is provided with a plurality of water drainage holes along the circumferential direction, and each water drainage hole is fixedly provided with a water drainage head extending to the wall of the sampling cylinder; the connecting plate is fixedly provided with an air cylinder, the movable end of the air cylinder is fixedly provided with a linkage plate, and the linkage plate is fixedly provided with sealing rods which are respectively inserted into the plurality of drainage holes.

The utility model discloses a theory of operation and beneficial effect: this scheme is with the equal fixed connection of support and sampling cylinder in the inside of transfer box, and support fixed connection's sleeve lock is directly over the sampling cylinder this moment, and the connecting plate is located the sampling cylinder directly over, and a plurality of sealing rod insert respectively in a plurality of drainage holes, and sealing rod is sealed with the wash port.

The water pumping pipe that connects the water pump input end stretches into the bottom in mountain spring water pond, and water pump work makes mountain spring water flow in the connecting tube behind water pumping pipe and the drain pipe, because the one end downwardly extending of connecting pipe to the baffle, then mountain spring water flows in the sleeve through the connecting pipe to from telescopic bottom to pouring mountain spring water gradually towards the direction from the bottom up at sleeve top, and the air in the sleeve receives the displacement of mountain spring water, and is extruded from the below to the top gradually. When enough spring water is filled in the part of the sleeve above the partition plate, the cylinder is started to work, the cylinder drives the linkage plate to move upwards slowly, the linkage plate drives the sealing rods to move upwards, the sealing rods do not seal the drain holes, the collected spring water is discharged through the drain holes and the drain head, the drainage head extends to the wall of the sampling cylinder, the spring water discharged from the drainage head flows downwards along the wall of the sampling cylinder, the spring water flows to the bottom of the sampling cylinder again, and the air in the sampling cylinder is discharged upwards gradually along with the gradual rise of the liquid level of the spring water.

This scheme is at first through the mountain spring water of drinking-water pipe extraction pond bottom, the mountain spring water velocity of flow of bottom is slower, can avoid the air to be drawn into in the suction pipe, then fill through the connecting pipe that extends to the baffle, mountain spring water is from pushing out the inside air of sleeve downwards to last gradually, then make mountain spring water move down along the section of thick bamboo wall of sampling cylinder, the flow velocity of mountain spring water can be slowed down to the mode like this, and can avoid air and mountain spring water to take place to stir and mix, avoid the production of aeration phenomenon, and mountain spring water is also from the bottom of sampling cylinder from upwards being filled gradually down, also can discharge the air in the sampling cylinder, thereby further avoid aeration phenomenon to produce.

Further, the sampling cylinder is clamped with a cylinder cover. After the sampling cylinder is filled with certain spring water, the bracket is taken down, and then the cylinder cover is clamped with the top of the sampling cylinder, so that the spring water can be prevented from shaking out in the transfer process.

Furthermore, the sampling cylinder comprises a first connecting cylinder and a second connecting cylinder which are coaxially clamped from top to bottom in sequence, the top of the cylinder cover is clamped with the top of the second connecting cylinder, the plurality of water drainage heads extend to the cylinder wall of the first connecting cylinder, and the inner diameter of the first connecting cylinder is equal to that of the second connecting cylinder.

When the sampling section of thick bamboo was sampled, be in the same place first connecting cylinder and second connecting cylinder joint this moment, a plurality of drainage heads were towards the section of thick bamboo wall of first connecting cylinder this moment, then in pouring into second connecting cylinder and first connecting cylinder behind the spring water through a plurality of drainage heads, when the liquid level of spring water rises to first connecting cylinder, stop to pour the spring water this moment, upwards mention the support, and slowly to upwards mentioning first connecting cylinder, water in the first connecting cylinder then flows downwards automatically, then can make the liquid level of spring water in the second connecting cylinder just flush with the top of second connecting cylinder, then be in the same place cover and second connecting cylinder joint, the purpose of doing so is: air in the second connecting cylinder can be exhausted, and the fact that residual air in the second connecting cylinder promotes microbial growth in the transfer process can be avoided, so that accuracy of a detection result of the spring water is guaranteed.

Furthermore, a sealing ring is arranged at the joint of the first connecting cylinder and the second connecting cylinder. The sealing ring can improve the sealing effect and prevent water from flowing outwards in the process of filling spring water.

Further, the water pump and the cylinder are powered by a storage battery. The storage battery can realize outdoor rapid power supply.

Further, the transfer box is provided with universal wheels and a drain valve. Set up like this and conveniently remove the transfer box, the drain valve can arrange the remaining water of transfer box inside to the greatest extent.

Drawings

Fig. 1 is a front view of a mountain spring water sample transfer device of the present invention;

FIG. 2 is a schematic structural view of the sealing rod of FIG. 1 after it is separated from the drainage hole;

FIG. 3 is a schematic view of the cartridge of FIG. 2 with the holder removed;

FIG. 4 is an enlarged partial schematic view of FIG. 1;

fig. 5 is a front view of a mountain spring water sample transfer device according to example 2.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a water pumping pipe 1, a storage battery 2, a water pump 3, a transfer box 4, a box cover 5, a connecting pipe 6, a drain pipe 7, a support 8, a cylinder 9, a linkage plate 10, a sealing rod 11, a sleeve 12, a drain head 13, a drain hole 14, a first connecting cylinder 15, a second connecting cylinder 16 and a sampling cylinder 17.

In the following statements, all the directional terms such as "left", "right", "upper", "lower", etc. are based on the directions shown in the drawings, and in practice, the corresponding structures do not affect the implementation of the schemes under the condition that the relative positions are kept unchanged by the same directional changes based on the directions.

Example 1: the utility model provides a mountain spring water sample transfer device, as shown in figure 1, figure 3, figure 4, including transport box 4, the top lock of transport box 4 has case lid 5, and the bottom of transport box 4 is equipped with the intermediate layer, and intermediate layer fixedly connected with battery 2, battery 2 adopt the CTD-24V battery of Shanghai Xin power supply equipment limited company production.

A water pump 3 is fixedly arranged on the left side of the transfer box 4, the input end and the output end of the water pump 3 are respectively and fixedly connected with a water pumping pipe 1 and a water drainage pipe 7, and the water pumping pipe 1 extends out of the transfer box 4; transport case 4 still joint or bolted connection have support 8 and sampling cylinder 17, and support 8 is fixed to be equipped with the sleeve 12 of lock on sampling cylinder 17, and the fixed connecting pipe 6 that is equipped with the shape of falling the U in the middle part of sleeve 12, the left end and the drain pipe 7 fixed connection of connecting pipe 6, the right-hand member downwardly extending of connecting pipe 6 to the bottom of sleeve 12.

A plurality of drainage holes 14 are formed in the bottom of the sleeve 12 along the circumferential direction, and a drainage head 13 extending to the wall of the sampling cylinder 17 is fixedly arranged on each drainage hole 14; the support 89 is fixedly provided with a cylinder 9, the movable end of the cylinder 9 is fixedly provided with a linkage plate 10, the linkage plate 10 is fixedly provided with sealing bars 11 which are respectively inserted into a plurality of drain holes 14, the storage battery 2 respectively supplies power to the water pump 3 and the cylinder 9, and the storage battery 2, the water pump 3 and the cylinder 9 form a parallel circuit.

This scheme all is fixed in the inside of transport box 4 with support 8 and cartridge 17, and 8 fixed connection's of support 12 lock is directly over cartridge 17 this moment, and a plurality of sealing rod 11 insert a plurality of wash ports 14 respectively in, and sealing rod 11 is sealed wash port 14.

The water pumping pipe 1 connected with the input end of the water pump 3 extends into the bottom of the mountain spring water pool, the mountain spring water flows into the connecting pipe 6 after passing through the water pumping pipe 1 and the water discharging pipe 7 when the water pump 3 works, the mountain spring water flows into the bottom of the sleeve 12 through the connecting pipe 6 due to the fact that the right end of the connecting pipe 6 extends downwards to the bottom of the sleeve 12, the mountain spring water is gradually filled from the bottom of the sleeve 12 to the top of the sleeve 12 from bottom to top, and air in the sleeve 12 is squeezed by the mountain spring water and is gradually squeezed from bottom to top. As shown in figure 2, after the sleeve 12 is filled with enough spring water, the cylinder 9 is started to work, the cylinder 9 drives the linkage plate 10 to move upwards slowly, the linkage plate 10 drives the sealing rods 11 to move upwards, the sealing rods 11 do not seal the drain holes 14 any more, the collected spring water is discharged through the drain holes 14 and the drain head 13, the spring water discharged from the drain head 13 flows downwards along the wall of the sampling cylinder 17 due to the drain head 13 and the wall extending to the wall of the sampling cylinder 17, the spring water flows to the bottom of the sampling cylinder 17 again, and the air in the sampling cylinder 17 is discharged upwards gradually along with the gradual rise of the liquid level of the spring water.

The scheme is at first through the mountain spring water of drinking-water pipe 1 extraction pond bottom, the mountain spring water velocity of flow of bottom is slower, can avoid the air to be drawn into in the suction pipe, then fill through connecting pipe 6, mountain spring water is from pushing out the inside air of sleeve 12 from downwards to the top gradually, then make mountain spring water flow down along the section of thick bamboo wall of sampling cylinder 17, the velocity of flow of mountain spring water can be slowed down to this kind of mode, and can avoid air and mountain spring water to take place to stir and mix, avoid the production of aeration phenomenon, and mountain spring water is also from being filled from the bottom of sampling cylinder 17 from upwards gradually down, also can discharge the air in the sampling cylinder 17, thereby further avoid the aeration phenomenon to produce.

Example 2: the difference from the embodiment 1 is that the sampling cylinder 17 comprises a first connecting cylinder 15 and a second connecting cylinder 16 which are coaxially clamped from top to bottom, a cylinder cover is clamped at the top of the second connecting cylinder 16, a plurality of water discharging heads 13 extend to the cylinder wall of the first connecting cylinder 15, and the inner diameter of the first connecting cylinder 15 is equal to that of the second connecting cylinder 16.

Sampling cylinder 17 when sampling, be in the same place first connecting cylinder 15 and 16 joints of second connecting cylinder this moment, then with 8 joints of support in transfer box 4, a plurality of drainage heads 13 are towards the section of thick bamboo wall of first connecting cylinder 15 this moment, then mountain spring water pours into in second connecting cylinder 16 and first connecting cylinder 15 after through a plurality of shower nozzles, when the liquid level of mountain spring water rises to first connecting cylinder 15, as shown in fig. 5, stop to pour mountain spring water this moment, upwards mention support 8, and slowly upwards mention first connecting cylinder 15, water in first connecting cylinder 15 is then automatic downward outflow, then can make the liquid level of mountain spring in the second connecting cylinder 16 just flush with the top of second connecting cylinder 16, then with cover and 16 joints of second connecting cylinder together, the purpose of doing so is: air in the second connecting cylinder 16 can be exhausted, so that the phenomenon that residual air in the second connecting cylinder 16 promotes the growth of microorganisms in the transfer process can be avoided, and the accuracy of a detection result of the spring water is guaranteed.

For those skilled in the art, without departing from the structure of the present invention, many modifications and improvements can be made, which should also be considered as the protection scope of the present invention, and these will not affect the effect of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (6)

1. The utility model provides a mountain spring water sample transfer device, includes transfer box, its characterized in that: the transfer box is fixedly provided with a water pump, the input end and the output end of the water pump are respectively connected with a water pumping pipe and a water drainage pipe, and the water pumping pipe extends out of the transfer box; the transfer box can also be detachably connected with a support and a sampling cylinder, the support is fixedly provided with an air cylinder and a sleeve buckled at the top of the sampling cylinder, the sleeve is fixedly provided with an inverted U-shaped connecting pipe, one end of the connecting pipe is connected with a water drainage pipe, the other end of the connecting pipe extends downwards to the bottom of the sleeve, the partition board is provided with a plurality of water drainage holes along the circumferential direction, and each water drainage hole is fixedly provided with a water drainage head extending to the wall of the sampling cylinder; the connecting plate is fixedly provided with an air cylinder, the movable end of the air cylinder is fixedly provided with a linkage plate, and the linkage plate is fixedly provided with sealing rods which are respectively inserted into the plurality of drainage holes.

2. Spring water sample transfer device according to claim 1, characterized in that: the sampling cylinder is clamped with a cylinder cover.

3. The mountain spring water sample transfer device of claim 2, wherein: the sampling cylinder comprises a first connecting cylinder and a second connecting cylinder which are coaxially clamped from top to bottom in sequence, the top of the cylinder cover is clamped with the top of the second connecting cylinder, the plurality of water drainage heads extend to the cylinder wall of the first connecting cylinder, and the inner diameter of the first connecting cylinder is equal to that of the second connecting cylinder.

4. The mountain spring water sample transfer device of claim 3, wherein: and a sealing ring is arranged at the joint of the first connecting cylinder and the second connecting cylinder.

5. The mountain spring water sample transfer device of claim 4, wherein: the water pump and the cylinder are powered by the storage battery.

6. The mountain spring water sample transfer device of claim 5, wherein: the transfer box is provided with universal wheels and a drain valve.

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