CN212102972U - Alkaline metal evaporation and filtration device - Google Patents

Abstract

The utility model discloses an alkaline metal evaporation filter equipment, alkaline metal evaporation filter equipment includes the inside shell that forms the operation chamber, is located melting crucible, connect in of operation intracavity melting temperature control trickle pipe in the export of crucible bottom and being located the operation intracavity just is in the design crucible under the temperature control trickle pipe, wherein be equipped with on the shell and take out the interface of aerifing in order to communicate vacuum holding system or buffer gas distribution system, it is fixed with the heating member to melt the crucible external fixation, it is fixed with the gas injection hole in order to connect the buffer gas atmospheric pressure control system who is located the shell outside to melt on the crucible, the temperature control trickle pipe internal fixation has a filtration piece. The device can quantitatively treat the alkali metal in batches and has high safety coefficient.

Description

Alkaline metal evaporation and filtration device

Technical Field

The utility model relates to an alkali metal handles technical field, especially relates to an alkali metal evaporation filter equipment.

Background

Alkali metals are generally active, oxidation phenomena easily occur in the process of packaging and storing directly purchased alkali metals, oxidized alkali metals can form a dense film-shaped oxide on the upper layer of a metal liquid surface in a heating and melting state, the evaporation rate in an experiment can be influenced in the evaporation using process, and in order to meet the requirement of the experiment on the evaporation rate of the alkali metals, the oxide needs to be removed firstly and then the evaporation experiment needs to be carried out.

When the oxide is removed from the alkali metal in the prior art, the alkali metal sample is very easy to oxidize if not used at the first time after being treated, and the treatment needs to be repeated, thereby wasting time and energy and wasting energy and samples.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem of easy waste caused by repeated treatment of alkali metal in the prior art and providing an alkali metal evaporation and filtration device.

For realizing the utility model discloses a technical scheme that the purpose adopted is:

alkaline metal evaporation and filtration device, including inside formation operation chamber the shell, be located melting crucible and design crucible in the operation chamber, wherein:

a heating body is fixed outside the smelting crucible, a temperature control dripping pipe is connected to an outlet at the bottom of the smelting crucible, a filtering piece is fixed in the temperature control dripping pipe, the top of the shaping crucible is provided with an opening, and the shaping crucible is positioned under the temperature control dripping pipe;

the shell is provided with a pumping and inflating interface to communicate with the vacuum maintaining system or the buffer gas distribution system, the smelting crucible is provided with a gas injection hole to be connected with the buffer gas pressure control system positioned outside the shell, and the smelting crucible is provided with a pumping system with a pumping hole positioned outside the shell.

In the above technical scheme, the filter member is a stainless steel filter screen.

In the technical scheme, the stainless steel filter screen is of a cylindrical net structure and is attached and fixed on the inner wall of the temperature control trickling pipe.

In the technical scheme, a vacuum gauge is arranged on the buffer gas pressure control system to adjust the buffer gas pressure in the smelting crucible.

In the above technical scheme, the gas injection hole and the vacuum hole are respectively and fixedly connected with a VCR interface.

In the technical scheme, an experiment bench is fixed in the operation cavity to place the smelting crucible.

In the above technical scheme, the temperature control trickling pipe comprises a straight pipe and a temperature control assembly fixed on the outer wall of the straight pipe, and the filtering piece is fixed on the inner wall of the straight pipe.

In the above technical scheme, the melting crucible comprises a crucible body and a cover body detachably assembled on the top opening of the crucible body, and the gas injection hole and the vacuumizing hole are formed in the cover body.

In the above technical scheme, the bottom of the crucible body is funnel shaped structure, just the control by temperature change trickle flow connect in the opening part of funnel shaped structure bottom.

In the above technical solution, the housing includes a housing body and a cover body detachably sealed at an opening at the top of the housing cover body, the cover body is provided with a hole for two connecting pipes to penetrate through, one of the connecting pipes is used for connecting the gas injection hole and the buffer gas pressure control system, the other connecting pipe is used for connecting the vacuum hole and the vacuum system, and the housing body or the cover body is provided with the pumping and inflating interface.

The other aspect of the utility model also comprises the evaporation and filtration method of the alkali metal evaporation and filtration device, which comprises the following steps:

step 1, opening a shell, taking out the smelting crucible, and placing alkali metal in the smelting crucible;

step 2, placing the smelting crucible in an operation cavity, communicating a gas injection hole with the air pressure control system, communicating the vacuumizing hole with the vacuumizing system, enabling the shaping crucible to be located right below the temperature control trickle tube, and sealing the shell;

step 3, connecting the pumping and inflating interface with a vacuum maintaining system to pump the operating cavity to be vacuum, simultaneously pumping the melting crucible to be vacuum, closing the vacuum maintaining system when the vacuum degree in the operating cavity reaches a preset value, and slowly injecting the required buffer gas into the buffer gas distribution system through the pumping and inflating interface;

step 4, starting the heating body and the temperature control trickle tube, adjusting the air pressure of buffer gas in the smelting crucible through a buffer gas air pressure control system, heating the alkali metal in a molten state in the smelting crucible, flowing through a filtering piece in the temperature control trickle tube, and dripping the alkali metal in the shaping crucible;

step 5, stopping heating the heating body and the temperature control trickling pipe when the liquid level in the shaping crucible reaches the required height or after the alkali metal in the melting crucible is completely treated, recovering the alkali metal in the temperature control trickling pipe to be in a solid state when the alkali metal is remained in the melting crucible, plugging the temperature control trickling pipe, and keeping the alkali metal remained in the melting crucible for later use;

step 6, closing the buffer gas pressure control system, opening the shell after the device is cooled, and taking out the shaping crucible to obtain purified alkali metal;

when alkali metal still remains in the melting crucible and needs to be taken again, the step 7 is carried out:

and 7, putting the shaped crucible back, closing the shell, communicating the pumping and inflating interface with a vacuum maintaining system to pump the operation cavity to be vacuum, communicating the pumping and vacuumizing hole with a pumping and vacuumizing system to pump the smelting crucible to be vacuum, slowly injecting the required buffer gas into the buffer gas distribution system through the pumping and inflating interface, adjusting the gas pressure of the buffer gas in the smelting crucible through the buffer gas pressure control system, and continuing to perform the steps 4 and 5.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a heat smelting crucible through the heating member, make alkali belong to the heating to liquid in the crucible, in the heating process, the oxide floats in liquid alkali metal's top, and liquid from the drippage, a small amount of oxide is filtered, filters the difficult jam of piece.

2. Through the temperature of adjustment control by temperature change trickle pipe to reach whether control liquid metal from smelting crucible below drippage purpose, set the crucible liquid level as the below and reach required height, close control by temperature change trickle part heating, make the inside alkali metal of heating crucible stop the drippage, accomplish the filtration, realize quantitative batch evaporation purification from this.

3. The utility model discloses an alkaline metal evaporation filter equipment goes on under the buffer gas protection, and factor of safety is high, and the operation of being convenient for need not special training and can use. The utility model discloses an alkaline metal evaporation filter equipment simple structure, low in manufacturing cost is convenient for commercialization popularization and application.

Drawings

Fig. 1 is a schematic structural view of an alkali metal evaporation and filtration device.

FIG. 2 is a schematic view showing the positional relationship between the shaping crucible and the melting crucible.

In the figure: 1-shell, 2-pumping and inflating interface, 3-connecting pipeline, 4-heating body, 5-temperature control trickling pipe, 6-shaping crucible, 7-gas injection hole, 8-smelting crucible, 9-filtering piece and 10-vacuumizing hole.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

Alkaline metal evaporation filter equipment, including inside shell 1 that forms the operation chamber, be located smelt the crucible 8, connect in the operation chamber smelt crucible 8 bottom export on the control by temperature change trickle pipe 5 and be located the operation intracavity just is in design crucible 6 under the control by temperature change trickle pipe 5, smelt crucible 8 external fixation and have heating member 4, control by temperature change trickle pipe 5 internal fixation has a filtration piece 9.

The shell 1 is provided with a vacuumizing and inflating interface 2 for communicating with a vacuum maintaining system or a buffer gas distribution system, the smelting crucible is provided with a gas injection hole 7 for connecting with a buffer gas pressure control system positioned outside the shell, and the smelting crucible is provided with a vacuumizing hole 10 for connecting with a vacuumizing system positioned outside the shell.

The heating body 4 is fixed on the outer wall of the melting crucible 8 and is of an integral structure, and the integral structure is fixed in the shell 1 through a support, wherein the support is not shown in the figure. The shaping crucible 6 is placed on the inner bottom surface of the shell 1, under the protection of the buffer gas, the heating body 4 (which can adopt armored temperature control) heats the alkali metal in the smelting crucible 8, the alkali metal is molten, the metal oxide keeps a solid state, the alkali metal is changed into a liquid state, the oxide on the surface of the alkali metal floats on the upper surface of a molten pool, the molten alkali metal enters the temperature control dripping pipe 5, the temperature control dripping pipe 5 continues to heat the alkali metal in the pipe, the alkali metal keeps a liquid state, the solid alkali metal oxide is filtered by the filtering piece, and the purified alkali metal liquid enters the shaping crucible 6.

In order to display the vacuum degree in the processing chamber and the pressure of the buffer gas, a pressure gauge is provided on the housing 1. The vacuum maintaining system comprises a vacuumizing pipeline communicated with the operation cavity at one end and a vacuum generator connected to the other end of the vacuumizing pipeline, and buffer gas supplied by the buffer gas pressure control system and the buffer gas distribution system can adopt inert gases such as argon or neon and the like.

The purpose of controlling whether the liquid metal drips from the temperature control dripping pipe 5 or not is achieved by controlling the temperature of the temperature control dripping pipe 5, when the liquid level in the lower fixed-type crucible 6 reaches the required height, the heating of the temperature control dripping pipe 5 is closed, so that the alkali metal in the smelting crucible 8 stops dripping, and the filtering is completed.

The evaporation and filtration method of the alkali metal evaporation and filtration device comprises the following steps:

step 1, placing alkali metal in the smelting crucible 8, and communicating a gas injection hole 7 with the gas pressure control system;

step 2, placing the smelting crucible 8 in an operation cavity, enabling the shaping crucible 6 to be located under the temperature control trickle tube 5, and sealing the shell 1;

step 3, connecting the pumping and inflating interface 2 with a vacuum maintaining system to pump the operation cavity to be vacuum, and simultaneously pumping the melting crucible 8 to be vacuum, wherein the vacuum degree in the operation cavity reaches 10^-3When the buffer gas is used for the gas distribution, the required buffer gas is slowly injected into the vacuum holding system through the cavity pumping and inflating interface 2 according to the preset flow rate;

and 4, starting the heating body 4 and the temperature control trickle tube 5, adjusting the gas pressure in the smelting crucible 8 to several hundred Pa to several thousand Pa through a buffer gas pressure control system, and dripping the alkali metal which is heated to be in a molten state into the shaping crucible 6 through a filtering piece in the temperature control trickle tube.

Step 5, stopping heating the heating body and the temperature control trickling pipe when the liquid level in the shaping crucible reaches the required height or after the alkali metal in the melting crucible is completely treated, recovering the alkali metal in the temperature control trickling pipe to be in a solid state when the alkali metal is remained in the melting crucible, plugging the temperature control trickling pipe, and keeping the alkali metal remained in the melting crucible for later use;

step 6, closing the buffer gas pressure control system, opening the shell after the device is cooled, and taking out the shaping crucible to obtain purified alkali metal;

when alkali metal still remains in the melting crucible and needs to be taken again, the step 7 is carried out:

and 7, putting the shaped crucible back, closing the shell, communicating the pumping and inflating interface with a vacuum maintaining system to pump the operation cavity to be vacuum, communicating the pumping and vacuumizing hole with a pumping and vacuumizing system to pump the smelting crucible to be vacuum, slowly injecting the required buffer gas into the buffer gas distribution system through the pumping and inflating interface, adjusting the gas pressure of the buffer gas in the smelting crucible through the buffer gas pressure control system, and continuing to perform the steps 4 and 5.

The vacuum pumping process is to prevent liquid alkali metal bubbles formed after heating, and a glass window can be arranged on the shell 1 or on a flange of the shell 1 to directly observe the liquid level in the shaping crucible 6. When the vacuum melting furnace is used for the first time, the temperature control trickle tube 5 is not blocked, the operation cavity and the melting crucible 8 are vacuumized simultaneously by connecting the vacuumizing interface 2 with the vacuum maintaining system through the vacuumizing interface 2, when the vacuum melting furnace is used after cooling, the temperature control trickle tube 5 is not blocked, so that the vacuumizing interface 2 is connected with the vacuum maintaining system to vacuumize the operation cavity, the vacuumizing hole is communicated with the vacuumizing system to vacuumize the melting crucible, the flow rate valve is assembled on a pipeline connected with the vacuumizing hole, the vacuumizing speed is relatively slow, and the vacuumizing system connected with the vacuumizing hole can be closed during the first vacuumizing, and the vacuum degree in the melting crucible is realized through the vacuum maintaining system connected with the vacuumizing interface 2 and the open temperature control trickle tube.

Example 2

In order to intercept the alkali metal oxide well and not be damaged by the alkali metal, the filter is a stainless steel filter screen 9. The stainless steel filter screen 9 is vertically fixed on the inner wall of the temperature control trickling pipe 5, can realize effective interception and is not easy to block. Furthermore, the filtering piece is a stainless steel filter screen which is of a cylindrical net structure and is attached and fixed on the inner wall of the temperature control dripping pipe.

In order to facilitate the matching control of the pressure of the buffer gas in the smelting crucible 8, a vacuum gauge is arranged on the buffer gas pressure control system.

In order to facilitate the disassembly, VCR interfaces are fixedly connected to the gas injection hole 7 and the vacuum hole 10.

In order to facilitate the placement of the melting crucible 8 in the housing 1, a laboratory bench is fixed in the operating chamber for placing the melting crucible 8. When in use, the crucible is placed on a laboratory bench (not shown).

In order to enable the alkali metal in a molten state to smoothly flow out, the temperature control dripping pipe 5 comprises a straight pipe and a temperature control assembly fixed on the outer wall of the straight pipe, and the filtering piece is fixed in the straight pipe. The temperature control component can adjust the heating temperature of the temperature control dripping pipe 5. The temperature control component adopts armor temperature control.

Example 3

In order to put the alkali metal block into the melting crucible 8 conveniently, the melting crucible 8 includes a crucible body and a lid body detachably assembled to an opening at the top of the crucible body, and the gas injection hole 7 is formed in the lid body. When the filtering crucible is used, alkali metal needing filtering is put into the crucible body, and the crucible cover and the crucible body are sealed.

In order to make the internal discharge of fused alkali metal follow crucible completely, the bottom of the crucible body is funnel shaped structure, just control by temperature change trickle tube 5 connect in the opening part of funnel shaped structure bottommost.

In order to facilitate taking and placing of the smelting crucible 8 and the shaping crucible 6, the shell 1 comprises a shell body and a cover body which is detachably sealed at the top opening of the shell cover body, two holes are formed in the cover body and are respectively penetrated by two connecting pipelines 3, one connecting pipeline 3 is used for connecting the gas injection hole 7 and the buffer gas pressure control system, the other connecting pipeline 3 is used for connecting the vacuumizing hole 10 and the vacuumizing system, and a vacuumizing interface is fixed on the shell body or the cover body.

Spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used in the embodiments for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "lower" can encompass both an upper and a lower orientation. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Moreover, relational terms such as "first" and "second," and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. An alkali metal evaporation and filtration device, comprising a shell, a smelting crucible and a shaping crucible, wherein the shell is internally provided with an operation cavity, and the smelting crucible and the shaping crucible are positioned in the operation cavity, wherein:

a heating body is fixed outside the smelting crucible, a temperature control dripping pipe is connected to an outlet at the bottom of the smelting crucible, a filtering piece is fixed in the temperature control dripping pipe, the top of the shaping crucible is provided with an opening, and the shaping crucible is positioned under the temperature control dripping pipe;

the shell is provided with a pumping and inflating interface to communicate with the vacuum maintaining system or the buffer gas distribution system, the smelting crucible is provided with a gas injection hole to be connected with the buffer gas pressure control system positioned outside the shell, and the smelting crucible is provided with a pumping system with a pumping hole positioned outside the shell.

2. The alkaline metal evaporation filter of claim 1, wherein said filter element is a stainless steel filter mesh.

3. The alkaline metal evaporating and filtering device as claimed in claim 2, wherein the stainless steel filtering net is a cylindrical net structure and is attached and fixed on the inner wall of the temperature-controlled dropping flow pipe.

4. The alkaline metal evaporation and filtration apparatus as claimed in claim 1, wherein a vacuum gauge is provided on said buffer gas pressure control system to adjust the buffer gas pressure inside the melting crucible.

5. The alkaline metal evaporation filter of claim 1, wherein a VCR port is fixedly attached to each of said gas injection port and said evacuation port.

6. The alkaline metal evaporation and filtration device as claimed in claim 1, wherein a laboratory bench is fixed in the operation chamber for placing a melting crucible.

7. The alkaline metal evaporation and filtration device of claim 1, wherein said temperature-controlled trickle flow tube comprises a straight tube and a temperature-control assembly secured to an outer wall of said straight tube, said filter element being secured to an inner wall of said straight tube.

8. The alkaline metal evaporation and filtration apparatus as claimed in claim 1, wherein said melting crucible includes a crucible body and a lid body detachably fitted to a top opening of said crucible body, said gas injection hole and said evacuation hole being formed in said lid body.

9. The alkaline metal evaporation and filtration device as claimed in claim 8, wherein the bottom of the crucible body is in a funnel shape, and the temperature controlled dropping flow tube is connected to the opening at the lowermost end of the funnel shape.

10. The alkaline metal evaporation and filtration device as claimed in claim 1, wherein the housing comprises a housing body and a cover body detachably sealed to an opening at the top of the housing cover body, the cover body is provided with a hole for two connecting pipes to pass through, one of the connecting pipes is used for connecting the gas injection hole and the buffer gas pressure control system, the other connecting pipe is used for connecting the vacuum hole and the vacuum system, and the housing body or the cover body is provided with the gas pumping and filling port.

Images