CN216594415U - Device for enriching organic halogen in water - Google Patents

Abstract

The utility model relates to the field of water quality halogen enrichment, and discloses a device for enriching organic halogen in water, which comprises a bearing container, a filtering component, a collecting container and an air pump, wherein the bearing container is fixed through an iron stand, the bottom of the bearing container is provided with the filtering component, one end of the filtering component, which is far away from the bearing container, is provided with the collecting container, one side of the collecting container is provided with the air pump, the air pump is connected with the collecting container through a hose, the filtering component is respectively in threaded connection with the bearing container and the collecting container, the disassembly is convenient after the halogen is collected, the disassembly time is saved, the activated carbon can be directly poured out without remaining in the hose, the subsequent measurement result is not influenced, the air in the collecting container is intermittently extracted through connecting the collecting container with the air pump, so that the air pressure in the collecting container is always smaller than the air pressure in the bearing container above, and the water in the bearing container is continuously pressed into the filtering component for filtering, the filtering speed is greatly improved.

Description

Device for enriching organic halogen in water

[ technical field ] A

The utility model relates to the field of halogen enrichment of water, in particular to an organic halogen enrichment device in water.

[ background ] A method for producing a semiconductor device

The laboratory common structure of the existing water quality halogen enrichment device is as follows, the top of the device is provided with a bearing container, the top of the bearing container is provided with a bottle plug, the side wall of the bearing container is provided with a branch pipe, the branch pipe is communicated with a nitrogen bottle, the bottom of the bearing container is provided with a filter assembly, the filter assembly and the bearing container are sleeved through a rubber hose, the bottom of the same filter assembly is sleeved with a guide pipe through a hose, a collection container is arranged below the guide pipe, the enrichment of water quality halogen is mainly realized by introducing nitrogen into the bearing container to extrude water in the bearing container, so that the water is forced to flow to the filter assembly, thereby increasing the filtering speed, two obvious problems exist in the mode, firstly, the pressure of the nitrogen is not easy to control, the pressure of the nitrogen is too large, the excessive nitrogen can reopen the bottle plug and is sprayed out from the top of the bearing container, meanwhile, a large amount of water is brought out, so that the test fails, and if the nitrogen amount is too small, the excessive speed is obviously insufficient, so that a large amount of time is consumed. Second, the filter assembly cup joints the realization through the hose at filter assembly both ends with the hose that bears container and guide tube, and the bore of hose is almost as good as the bore of container, leads to cup jointing and inconvenient when demolising, and the active carbon of filter assembly the inside is owing to set up in the hose, also well takes out, remains very easily, receives the influence when leading to follow-up measurement halogen content.

[ summary of the utility model ]

The utility model aims to solve the problems and provides a device for enriching organic halogen in water, which solves the problems that the existing halogen enriching device has influence on the filtering speed due to unstable air pressure control, the filtering component is not easy to disassemble, and the activated carbon is easy to remain, so that the result is influenced when the halogen content is measured subsequently.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the device for enriching the organic halogen in the water comprises a bearing container, a filtering component, a collecting container and an air pump, wherein the bearing container is fixed through an iron support, the filtering component is arranged at the bottom of the bearing container, the collecting container is arranged at one end, away from the bearing container, of the filtering component, the air pump is arranged on one side of the collecting container, and the air pump is connected with the collecting container through a hose;

the bottom of the bearing container is provided with a first threaded connector, the top of the filtering component is provided with a second threaded connector, the first threaded connector is matched with the second threaded connector, so that the bearing container is detachably and threadedly connected with the filtering component, the bottom of the filtering component is provided with a third threaded connector, the top of the collecting container is provided with a fourth threaded connector, the third threaded connector is matched with the fourth threaded connector, the bottom of the filtering component is detachably and threadedly connected with the collecting container, one side of the collecting container is provided with a branch pipe, the branch pipe is connected with the air pump through a hose, and the air pump pumps gas in the collecting container, so that the air pressure in the collecting container is smaller than the air pressure in the bearing container.

Preferably, the filter component further comprises a pipe body, an asbestos cloth and an activated carbon layer, the second threaded connector is arranged at the top of the pipe body, the third threaded connector is arranged at the bottom of the pipe body, the activated carbon is arranged in the middle of the pipe body, and the asbestos cloth is arranged at two ends of the activated carbon layer.

Preferably, the pipe body is made of polytetrafluoroethylene.

Preferably, the volume of the activated carbon layer is not less than one third of the volume of the tube body.

Preferably, the water container further comprises a water inlet pipe, and the water inlet pipe is arranged at the top of the carrying container.

Preferably, the water-saving device also comprises a water-stopping valve, wherein the water-stopping valve is arranged on the water inlet pipe and is used for controlling the adding amount of the water body.

The contribution of the utility model lies in: according to the utility model, the filter assembly is respectively in threaded connection with the bearing container and the collecting container, so that the filter assembly is convenient to disassemble after halogen is collected, the disassembling time is saved, the activated carbon can be directly poured out, the activated carbon cannot remain in the tube body, the subsequent measurement result cannot be influenced, the collecting container is connected with the air pump, and the gas in the collecting container is intermittently extracted, so that the air pressure in the collecting container is always smaller than that of the bearing container above, the water body in the bearing container is continuously pressed into the filter assembly for filtering, the filtering speed is greatly improved, the situation that the bottle stopper is sprayed out and the water body rushes out of the bearing container is avoided unlike the traditional mode, and the fault tolerance rate of the test is greatly improved.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic view of the construction of the filter assembly of the present invention;

FIG. 3 is a schematic structural view of the carrying container of the present invention;

FIG. 4 is a schematic view of the collection container and suction pump configuration of the present invention;

FIG. 5 is a schematic view of the construction of one embodiment of the utility model for receiving a storage cassette;

wherein: the device comprises a bearing container 10, a first threaded connecting port 11, a filtering component 20, a second threaded connecting port 21, a third threaded connecting port 22, a pipe body 23, an asbestos net 24, an activated carbon layer 25, a collecting container 30, a fourth threaded connecting port 31, an air suction pump 40, a hose 50, a water inlet pipe 60, a water stop valve 70 and a storage box 80.

[ detailed description ] embodiments

The following examples are further illustrative and supplementary to the present invention and do not limit the present invention in any way.

As shown in fig. 1 to 4, the apparatus for enriching organic halogen in water comprises a carrying container 10, a filter assembly 20, a collecting container 30 and an air pump 40, wherein the carrying container 10 is fixed by an iron stand, the filter assembly 20 is arranged at the bottom of the carrying container 10, the collecting container 30 is arranged at one end of the filter assembly 20 away from the carrying container 10, the air pump 40 is arranged at one side of the collecting container 30, and the air pump 40 is connected with the collecting container 30 by a hose 50;

the bottom of the bearing container 10 is provided with a first threaded connecting port 11, the top of the filtering component 20 is provided with a second threaded connecting port 21, the first threaded connection port 11 is matched with the second threaded connection port 21, so that the carrying container 10 is detachably threaded with the filter assembly 20, the bottom of the filtering component 20 is provided with a third threaded connecting port 22, the top of the collecting container 30 is provided with a fourth threaded connecting port 31, the third threaded connection port 22 is mated with the fourth threaded connection port 31, such that the bottom of the filter assembly 20 is removably threaded with the collection container 30, a branch pipe is provided at one side of the collecting container 30, the branch pipe is connected with the suction pump 40 through a hose 50, the suction pump 40 sucks the gas in the collection container 30 so that the gas pressure in the collection container 30 is lower than the gas pressure in the carrying container 10.

The device for enriching organic halogen in water mainly comprises a bearing container 10, a filtering component 20, a collecting container 30 and an air pump 40, wherein the bearing container 10 is fixed through an iron support, the filtering component 20 is arranged at the bottom of the bearing container 10, the collecting container 30 is arranged at one end, far away from the bearing container 10, of the filtering component 20, the air pump 40 is arranged at one side of the collecting container 30, the air pump 40 is connected with the collecting container 30 through a hose 50, the water to be enriched is introduced into the bearing container 10 through a water inlet pipe 60 (the surface of the bearing container 10 is provided with scale values so as to record the amount of the water to be filled in), the water gradually enters the filtering component 20 and flows into the collecting container 30 below after passing through a asbestos mesh 24 and an active carbon 25 filtering layer (a flowmeter can also be arranged between the filtering component 20 and the collecting container 30, the flowmeter can measure the flow of water body filtration, and is convenient for recording and observing), concretely, after the water body is filled into the bearing container 10, the air pump 40 needs to be opened, the air pump 40 performs air pumping operation in the collecting container 30, so that the air pressure in the collecting container 30 is reduced, further, the air pump 40 does not perform air pumping all the time, and performs intermittent air pumping, when the air pressure in the collecting container 30 is reduced to a certain value, the air pumping operation is not performed, at this time, because the air pressure in the collecting container 30 is smaller than the pressure in the bearing container 10 above (the water body in the bearing container 10 can not be filled, the top of the bearing container 10 has partial air, and has higher pressure), the air in the bearing container 10 can extrude the water body, and force the water body to move towards the filtering component 20, thereby greatly increasing the filtering speed, after a certain volume of liquid is collected in the collecting container 30, the gas in the collecting container 30 is compressed, the gas pressure is increased, when the gas pressure is increased to a certain value, the air pump 40 is opened again and pumps the gas in the collecting container 30, so that the pressure in the collecting container 30 is reduced again, at the moment, the pressure in the bearing container 10 is larger than the gas pressure in the collecting container 30 below, the water body is continuously extruded, the water body is forced to flow into the collecting container 30 through the filtering assembly 20, and the process is circulated repeatedly until the water body in the bearing container 10 is completely filtered. In this way, the pressure in the carrier container 10 and the collecting container 30 can be kept from suddenly changing during the filtration, so that the filtration can be stably carried out without directly spraying from the top bottle mouth of the carrier container 10 when the air pressure is too high like the nitrogen gas is flushed.

After the water body is filtered, the filtering component 20 is screwed, the first threaded connector 11 and the second threaded connector 21 are loosened, the top parts of the bearing container 10 and the filtering component 20 are loosened, the third threaded connector 22 and the second threaded connector 21 are loosened, the filtering component 20 and the collecting container 30 are loosened, the filtering component 20 is taken down, the asbestos net 24 and the activated carbon 25 layer inside are taken out and dried, then weighing is carried out, the dried asbestos net and the activated carbon 25 layer are placed into an incinerator, high-temperature calcination weighing is carried out, and the halogen content is obtained through calculation. In this way, the filter assembly 20 can be easily detached, the filter assembly 20 does not adopt the form of the hose 50, and the activated carbon 25 does not remain in the hose 50, so that the subsequent experimental result is not influenced.

On the other hand, in order to facilitate the overall carrying, the device of the present invention may be designed with a storage box 80, the storage box 80 can be opened from the side, and the storage box 80 is made of transparent material, the whole organic halogen enriching device can be placed in the storage box 80 for fixing (a grip and a clip are arranged in the storage box 80 for holding the halogen collecting device), so as to facilitate the storage and the overall carrying, a through hole is provided on the sidewall of the storage box 80, the hose 50 passes through the through hole to connect with the air pump 40, of course, the carrying container 10 can also be fixed by using an iron stand, if the device is fixed by using an iron stand, the storage box 80 is not needed, the common laboratory way is to use an iron stand for fixing, and the user can determine what way according to the specific use situation.

According to the utility model, the filter assembly 20 is respectively in threaded connection with the bearing container 10 and the collecting container 30, so that the filter assembly is convenient to disassemble after halogen is collected, the disassembling time is saved, the activated carbon 25 can be directly poured out, the activated carbon 25 cannot remain in the tube body 23, the subsequent measurement result cannot be influenced, the gas in the collecting container 30 is intermittently extracted by connecting the collecting container 30 with the air extracting pump 40, the air pressure in the collecting container 30 is always smaller than that of the bearing container 10 above, the water body in the bearing container 10 is continuously pressed into the filter assembly 20 for filtering, the filtering speed is greatly improved, the condition that the amount of introduced nitrogen is not controlled unlike the traditional mode, the phenomenon that a bottle plug is sprayed out, the water body rushes out of the bearing container 10 is avoided, and the fault tolerance rate of the test is greatly improved.

In a further description, the filtering assembly 20 further includes a pipe body 23, an asbestos cloth 24 and an activated carbon 25 layer, the second threaded connection port 21 is disposed at the top of the pipe body 23, the third threaded connection port 22 is disposed at the bottom of the pipe body 23, the activated carbon 25 is disposed in the middle of the pipe body 23, and the asbestos cloth 24 is disposed at two ends of the activated carbon 25 layer.

More specifically, the tube 23 is made of teflon.

The polytetrafluoroethylene is adopted by the pipe body 23 so that the pipe body 23 can resist high temperature and acid and alkali corrosion, the pipe body 23 is prevented from being corroded by halogen in water, and the service life of the pipe body 23 is prolonged.

To be further described, the volume of the activated carbon 25 layer is not less than one third of the volume of the tube 23.

The volume of the activated carbon 25 layer is not less than one third of the volume of the pipe body 23, so that the activated carbon 25 can fully absorb halogen in water, the halogen in the water is fully absorbed as far as possible, and the accuracy of the experiment is improved.

In a further illustration, a water inlet pipe 60 is further included, and the water inlet pipe 60 is disposed at the top of the carrying container 10.

In a further illustration, the water-saving device further comprises a water-stopping valve 70, wherein the water-stopping valve 70 is arranged on the water inlet pipe 60 and is used for controlling the adding amount of the water body.

On water stop valve 70 located inlet tube 60, the entering of water can be controlled to water stop valve 70, simultaneously, has added the back when the water, and water stop valve 70 has played sealed effect, ensures that can not have during the outside air gets into and bears container 10, leads to the condition of pressure release, leads to the effect of aspiration pump 40 to reduce, influences below filter assembly 20's filter velocity.

Although the present invention has been described with reference to the above embodiments, the scope of the present invention is not limited thereto, and modifications, substitutions and the like of the above members are intended to fall within the scope of the claims of the present invention without departing from the spirit of the present invention.

Claims (6)

1. Organic halogen enrichment facility in quality of water, its characterized in that: the device comprises a bearing container, a filtering component, a collecting container and an air pump, wherein the bearing container is fixed through an iron support, the filtering component is arranged at the bottom of the bearing container, the collecting container is arranged at one end, away from the bearing container, of the filtering component, the air pump is arranged on one side of the collecting container, and the air pump is connected with the collecting container through a hose;

the bottom of the bearing container is provided with a first threaded connector, the top of the filtering component is provided with a second threaded connector, the first threaded connector is matched with the second threaded connector, so that the bearing container is detachably and threadedly connected with the filtering component, the bottom of the filtering component is provided with a third threaded connector, the top of the collecting container is provided with a fourth threaded connector, the third threaded connector is matched with the fourth threaded connector, the bottom of the filtering component is detachably and threadedly connected with the collecting container, one side of the collecting container is provided with a branch pipe, the branch pipe is connected with the air pump through a hose, and the air pump pumps gas in the collecting container, so that the air pressure in the collecting container is smaller than the air pressure in the bearing container.

2. An apparatus for enriching organic halogen in water according to claim 1, characterized in that: the filter component further comprises a pipe body, an asbestos cloth and an activated carbon layer, the second threaded connector is arranged at the top of the pipe body, the third threaded connector is arranged at the bottom of the pipe body, the activated carbon is arranged in the middle of the pipe body, and the asbestos cloth is arranged at two ends of the activated carbon layer.

3. An apparatus for enriching organic halogen in water according to claim 2, characterized in that: the pipe body is made of polytetrafluoroethylene materials.

4. An apparatus for enriching organic halogen in water according to claim 2, characterized in that: the volume of the activated carbon layer is not less than one third of the volume of the pipe body.

5. An apparatus for enriching organic halogen in water according to claim 1, characterized in that: the water inlet pipe is arranged at the top of the bearing container.

6. An apparatus for enriching organic halogen in water according to claim 5, wherein: the water-stop valve is arranged on the water inlet pipe and used for controlling the adding amount of the water body.

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