CN115283040A - Separation and extraction system for bromine element - Google Patents

Abstract

The invention relates to the technical field of element separation, and particularly discloses a separation and extraction system for bromine, which comprises an equipment combination rack, wherein a first flask, a blow-off flask and a second flask are detachably connected in the equipment combination rack from left to right in sequence, and the top of the equipment combination rack is fixedly connected with an experimental material injector. According to the invention, an operator can inject raw materials of concentrated seawater and experimental materials into the first flask by operating the experimental material injector, the air blowing pipe is communicated with the second flask by operating the adjusting block to rotate, the air blowing device is operated to blow air, the blowing of bromine is realized by matching with the heating bottom block attached to the bottom of the blowing flask and the heating side plate surrounding the outer wall of the blowing flask, and the blown bromine enters the second flask for refining through the leading-out pipe, so that the convenience of the operator in the operation of bromine element separation and extraction experiments is improved.

Description

Separation and extraction system for bromine element

Technical Field

The invention relates to the technical field of element separation, in particular to a separation and extraction system for bromine.

Background

In the separation and extraction experiment of the bromine element, an operator mainly operates on an operation table in a laboratory, and the separation and extraction experiment of the bromine element mainly adopts an air blowing method to extract bromine from raw material concentrated seawater by an air blowing acid method. The experimental apparatus that bromine element separation drawed the experiment has flask, erlenmeyer flask, drainage tube, apparatus frame, heater etc. and operating personnel need carry out the equipment of experimental apparatus before the experiment, inserts two guiding tubes in the bottle plug on flask top generally, and every guiding tube all can connect the drainage tube and come to carry out the work of introducing of experimental material in the flask, and operating personnel can pour into required experimental material into the flask in proper order. When letting in different experimental materials to the flask, operating personnel need carry out the pull out of partial drainage tube earlier, then carry out the work of injecting of different experimental materials with drainage tube intercommunication gas injector or liquid injector, and the flexibility and the convenience of operation are not enough. The drainage tube of connecting the erlenmeyer flask is inserted to the pulling out among the experimentation, to the in-process of the absorption liquid injected air in the erlenmeyer flask, can appear the bromine that blows off and a small amount of steam and directly outwards discharge along the drainage tube the condition, and the bromine that blows off and a small amount of steam direct contact to operating personnel's skin can cause the injury to operating personnel, influences the security when operating personnel carries out bromine element separation and draws the experiment.

Disclosure of Invention

The invention aims to provide a separation and extraction system for bromine, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a separation and extraction system for bromine comprises an equipment combination rack, wherein a first flask, a blow-out flask and a second flask are detachably connected in the equipment combination rack from left to right in sequence, a guide pipe is arranged between the first flask and the blow-out flask, two ends of the guide pipe are respectively inserted into the first flask and the blow-out flask, the top of the equipment combination rack is fixedly connected with an experimental material injector, the output end of the experimental material injector is fixedly connected with a four-way connecting pipe, and the input end of the four-way connecting pipe is inserted into the first flask; the device comprises a device combination rack, a supporting heating module, a bromine blowing module, a connecting and positioning module, a bromine leading-out module and a controller, wherein the supporting heating module is fixedly connected to the inside of the device combination rack and positioned below the blowing-out flask, the positioning and heating module is used for positioning and heating the blowing-out flask in the device combination rack, the bromine blowing-out module is fixedly connected to the inside of the device combination rack and positioned above the supporting heating module and comprises an adjusting block, two blowing pipes, a blocking pipe and an air insufflator, the bromine blowing-out module is used for introducing air into the second flask so as to blow out bromine, the connecting and positioning module is used for positioning and reinforcing the bromine blowing-out module in the device combination rack, the outer wall of the adjusting block is fixedly connected with two bromine leading-out modules respectively corresponding to the two blowing pipes, and the bromine leading-out module is connected with the second flask so as to lead out the blown-out bromine; and the inside of the equipment combination frame is fixedly connected with a plugging module positioned below the bromine blowing-out module, and the plugging module realizes the guiding and recovery of the sucked residual bromine.

Furthermore, the bearing heating module comprises a bottom support, a heating side plate and a heating bottom block, the bottom support is fixedly connected inside the equipment combination rack, the heating bottom block is fixedly connected at the middle position of the top of the bottom support, the bottom of the blowing flask is tightly attached to the top of the heating bottom block, the heating side plate is rotatably connected to the top of the bottom support, the blowing flask is located inside the heating side plate, and the inner wall of the heating side plate is tightly attached to the outer wall of the blowing flask.

Furthermore, the connecting and positioning module comprises a combination block, a connecting transverse plate and a connecting frame, the combination block is fixedly connected to the middle position of the inner side wall of the equipment combination frame, the connecting transverse plate is fixedly connected to the front side wall of the combination block, and the connecting frame located below the connecting transverse plate is fixedly connected to the front side wall of the combination block.

Furthermore, the adjusting block is rotatably connected below the head end of the connecting transverse plate, the two air blowing pipes are symmetrically fixed inside the adjusting block, the inside of the adjusting block is fixedly connected with the plugging pipes between the two air blowing pipes, the air blowing pipes and the tops of the plugging pipes extend upwards to the top of the equipment combination rack, the air insufflator is fixedly connected to the top of the equipment combination rack, and the output ends of the air insufflator are connected with the two air blowing pipes in an inserting mode.

Further, the bromine leading-out module comprises a fixing block and a leading-out pipe, the fixing block is fixedly connected to the outer wall of the adjusting block, the leading-out pipe is fixedly connected to the inside of the fixing block, the input end of the leading-out pipe is flush with the top end of the blowing-out flask, and the output end of the leading-out pipe is connected with the second flask.

Furthermore, the plugging module comprises a hollow plugging support block, a fixed plate and a shielding casing, the hollow plugging support block is located below the fixed block, the top of the hollow plugging support block is tightly attached to the bottom of the fixed block, the fixed plate is fixedly connected to the side edge, close to the inner side wall of the equipment combination frame, of the hollow plugging support block, the other end of the fixed plate is fixedly connected to the inner side wall of the equipment combination frame, and the top end of the blowing flask is connected to the inner side of the hollow plugging support block in a clamping mode.

Furthermore, the shielding sleeve is fixedly connected to the top of the hollow blocking supporting block, the top of the shielding sleeve is tightly attached to the bottom of the adjusting block, and the bottom ends of the two air blowing pipes and the bottom ends of the blocking pipes are located inside the shielding sleeve.

Further, the regulating block is located the link is inboard, the fixture block that the three annular equidistance of regulating block outer wall fixedly connected with distributes, the fixture block with the link block is connected, regulating block outer wall fixedly connected with handling frame.

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

1. according to the invention, the first flask, the blow-out flask and the second flask are connected by arranging the equipment combination rack and the bearing heating module, an operator can inject raw material concentrated seawater and experimental materials into the first flask by operating the experimental material injector to complete acidification of the raw material concentrated seawater and generation of free bromine, the operator can communicate the air blow pipe with the second flask by operating the adjusting block to rotate, the eduction pipe is also communicated with the second flask, the air blower can blow absorption liquid formed by introducing free bromine into the blow-out flask by operating the air blower, and the operation of introducing different experimental materials into different flasks in the experimental process is realized by matching with the heating bottom block attached to the bottom of the blow-out flask and the heating side plate surrounding the outer wall of the blow-out flask.

2. The invention supports the fixed block and the outlet pipe by arranging the plugging module, the fixed block and the outlet pipe always move along with the top of the hollow plugging support block, the stability of the adjusting block, the air blowing pipe and the outlet pipe during position change work can be improved, the shielding casing realizes the shielding work of the bottom end of the air blowing pipe, the bottom end of the plugging pipe and the top end of the corresponding matching pipe in the bottle plug at the top end of the blowing flask, the bottom end of the air blowing pipe, the bottom end of the plugging pipe and the top end of the corresponding matching pipe in the bottle plug at the top end of the blowing flask can be protected, the exposure of gas in the blowing flask can be reduced, the input end of the outlet pipe moves along with the top of the hollow plugging support block, the plugging work in the moving process of the outlet pipe can be realized, after the outlet pipe is reset, residual bromine and a small amount of steam in the outlet pipe can flow back to the inside of the hollow plugging support block through the corresponding through hole at the top of the hollow plugging support block, the guiding recovery of the sucked bromine and a small amount of steam can be realized, the occurrence of the direct outward discharge of the residual bromine and the safety of bromine and the extraction experiment of the operation personnel using equipment to separate and extract bromine elements can be improved.

Drawings

FIG. 1 is a schematic structural diagram of a separation and extraction system for elemental bromine according to the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention shown in FIG. 1;

FIG. 3 is a schematic cross-sectional view of FIG. 1 according to the present invention;

fig. 4 is a schematic structural diagram of a blow-out flask, a bromine blow-out module, a bromine extraction module and a blocking module in the separation and extraction system for bromine in the invention;

FIG. 5 is a schematic structural diagram of a blow-out flask, a bromine blow-out module and a plugging module in the separation and extraction system for bromine in the invention;

in the figure: 1. an equipment combination rack; 11. a first flask; 12. blowing out the flask; 13. a second flask; 14. a guide tube; 2. an experimental material injector; 21. a four-way connecting pipe; 3. supporting a heating module; 31. a bottom support; 32. heating the side plate; 33. heating the bottom block; 4. a bromine blow-off module; 41. a regulating block; 411. a clamping block; 412. an operation frame; 42. an air blowing pipe; 43. plugging the pipe; 44. an air insufflator; 5. connecting a positioning module; 51. combining the blocks; 52. connecting the transverse plate; 53. a connecting frame; 6. a bromine extraction module; 61. a fixed block; 62. a lead-out pipe; 7. a plugging module; 71. a hollow plugging support block; 72. a fixing plate; 73. the shielding case.

Detailed Description

The technical scheme of the invention is clearly and completely described below with reference to the accompanying drawings. The detailed structure of the present invention will be clearly shown in the detailed description of the structure in fig. 1 to 5, and the structural contents mentioned in the following embodiments are all referred to the drawings of the specification.

Referring to fig. 1 to 5, in the embodiment of the present invention, a separation and extraction system for bromine elements includes an apparatus assembly rack 1, a first flask 11, a blowout flask 12, and a second flask 13 are detachably connected to the inside of the apparatus assembly rack 1 from left to right, a guide tube 14 is disposed between the first flask 11 and the blowout flask 12, two ends of the guide tube 14 are respectively inserted into the first flask 11 and the blowout flask 12, an experimental material injector 2 is fixedly connected to the top of the apparatus assembly rack 1, an output end of the experimental material injector 2 is fixedly connected to a four-way connection tube 21, an input end of the four-way connection tube 21 is inserted into the first flask 11, a support block 3 located below the blowout flask 12 is fixedly connected to the inside of the apparatus assembly rack 1, the support block 3 realizes positioning and heating of the blowout flask 12 inside the apparatus assembly rack 1, a bromine module 4 located above the support block 3 is fixedly connected to the inside of the apparatus assembly rack 1, the bromine blowout module 4 includes an adjustment block 41, two gas blowing tubes 42, a plugging tube 43 and an air blowing device 7, and a bromine extraction module 6 are connected to the bromine extraction module, and a bromine extraction module 6 is connected to the bromine extraction module.

Examples

The equipment combination rack 1 is used for assembling other parts, the equipment combination rack 1 can be flatly placed on an operation table of a laboratory, so that an operator can smoothly perform a separation and extraction experiment of bromine on the operation table of the laboratory, a first flask 11, a blow-off flask 12 and a second flask 13 are sequentially arranged in the equipment combination rack 1 from left to right, the first flask 11, the blow-off flask 12 and the second flask 13 are all detachably connected in the equipment combination rack 1, two flask seats respectively corresponding to the first flask 11 and the second flask 13 are fixedly connected on the inner top surface of the equipment combination rack 1, the bottoms of the first flask 11 and the second flask 13 can be respectively clamped in profiling grooves at the tops of the two flask seats, so that the first flask 11 and the second flask 13 can be installed and positioned in the equipment combination rack 1, the installation positioning and the dismounting and taking-out work of the first flask 11 and the second flask 13 are convenient for an operator to carry out, the internal fixed connection of the equipment combination rack 1 is positioned on the bearing heating module 3 positioned below the blowing flask 12, the bearing heating module 3 is used for connecting the blowing flask 12, the bearing heating module 3 consists of a bottom support 31, a heating side plate 32 and a heating bottom block 33, the bottom support 31 is fixedly connected on the internal top surface of the equipment combination rack 1, the heating bottom block 33 is fixedly connected at the middle position of the top of the bottom support 31, the bottom of the blowing flask 12 is tightly attached to the top of the heating bottom block 33, the heating side plate 32 is rotatably connected at the top of the bottom support 31, the bottom of the heating side plate 32 is connected with a moving block, the moving block is slidably connected inside a moving groove at the top of the bottom support 31, the rotary connection of the heating side plate 32 and the bottom support 31 is realized, the blowing flask 12 is positioned inside the heating side plate 32, the inner wall of the heating side plate 32 is tightly attached to the outer wall of the blowing flask 12, realized blowing off flask 12 in the inside installation location of equipment combination rack 1, heating side plate 32 rotates at the top of collet 31, can let heating side plate 32 expand, the heating side plate 32 of expansion encircles the outside blowing off flask 12, in order to realize the installation positioning work who blows off flask 12, heating side plate 32 can also pile up and move to the rear that blows off flask 12, and is simple in operation, the operating personnel of being convenient for carry out the expansion and the removal work that resets of heating side plate 32, thereby can let the nimble installation positioning and the pulling down of blowing off flask 12 of operating personnel take out work.

A guide pipe 14 is arranged between the first flask 11 and the blow-off flask 12, two ends of the guide pipe 14 are respectively inserted into the first flask 11 and a matching pipe in a top plug of the blow-off flask 12, connection between the first flask 11 and the blow-off flask 12 is realized, the top of the equipment combination rack 1 is fixedly connected with an experimental material injector 2, an output end of the experimental material injector 2 is fixedly connected with a four-way connecting pipe 21, an input end of the four-way connecting pipe 21 is connected with the first flask 11 below, an output end of the four-way connecting pipe 21 is inserted into another matching pipe in the top plug of the first flask 11, connection between the experimental material injector 2 and the first flask 11 is realized, three cavities are arranged in the experimental material injector 2, the three cavities respectively contain experimental material concentrated seawater, the sulfuric acid or hydrochloric acid injected into the raw material concentrated seawater and the chlorine injected into the acidified experimental raw material, the concentrated bromine is injected into the seawater through the four-way connecting pipe 21, the experimental material injector 2 and the seawater concentrated bromine injection module, and the seawater are respectively injected into the seawater concentrated bromine injection module, and the seawater.

The bromine blowing module 4 is connected in the equipment combination rack 1 and is positioned above the bearing heating module 3, the connection positioning module 5 is fixedly connected in the equipment combination rack 1, the connection positioning module 5 is used for connecting the bromine blowing module 4, the connection positioning module 5 consists of a combination block 51, a connection transverse plate 52 and a connecting frame 53, the combination block 51 is fixedly connected at the middle position of the inner side wall of the equipment combination rack 1, the connection transverse plate 52 is fixedly connected on the front side wall of the combination block 51, the front side wall of the combination block 51 is fixedly connected with the connecting frame 53 positioned below the connection transverse plate 52, the stability of the connection combination of the connection positioning module 5 and the equipment combination rack 1 is high, the bromine blowing module 4 consists of an adjusting block 41, two blowing pipes 42, a blocking pipe 43 and an air blower 44, the adjusting block 41 is rotatably connected below the head end of the connection transverse plate 52, the two blowing pipes 42 are symmetrically fixed in the adjusting block 41, the inside of the adjusting block 41 is fixedly connected with a plugging pipe 43 positioned between the two air blowing pipes 42, the top ends of the air blowing pipes 42 and the plugging pipe 43 both extend upwards to the upper part of the top of the equipment combined rack 1, the air insufflator 44 is fixedly connected to the top of the equipment combined rack 1, the output end of the air insufflator 44 is inserted into the top ends of the two air blowing pipes 42, so that the stable connection and combination among the bromine blowing module 4, the connection and positioning module 5 and the equipment combined rack 1 are realized, the adjusting block 41, the two air blowing pipes 42 and the plugging pipe 43 can be stably positioned in the equipment combined rack 1 for an operator to operate, the use effect of the bromine blowing module 4 can be enhanced, the adjusting block 41 is rotatably connected below the head end of the connecting transverse plate 52, and the operator can realize the rotation operation of the two air blowing pipes 42 and the plugging pipe 43 in the equipment combined rack 1 by operating the adjusting block 41, the positions of the air blowing pipe 42 and the blocking pipe 43 above the blowing flask 12 are changed, the operation is simple, the position changing work of the air blowing pipe 42 and the blocking pipe 43 is conveniently carried out by an operator, the positions of the blocking pipe 43 and the air blowing pipe 42 are changed, the blocking pipe 43 can be staggered with a corresponding matching pipe in a bottle stopper at the top end of the blowing flask 12, then the corresponding air blowing pipe 42 is communicated with the matching pipe, then the air blowing device 44 is operated to blow the absorption liquid in the blowing flask 12 through the air blowing pipe 42, the operation is simple and convenient, the air blowing operation is carried out, the position changing work can be carried out on two air blowing pipes 42 to be communicated with the corresponding matching pipe in the bottle stopper at the top end of the blowing flask 12, the operation flexibility is improved, the heating bottom block 33 with the top close to the bottom of the blowing flask 12 can heat the absorption liquid in the blowing flask 12 and is blown out of the outside of the flask 12 in a surrounding mode, the inner side wall is tightly attached to the heating side plate 32 which is blown out of the outer wall of the flask 12, the absorption liquid blown out of the flask 12 can be heated, the heating effect and efficiency of the absorption liquid blown out of the flask 12 can be improved, the air insufflator 44 blows the absorption liquid which is blown out of the flask 12 and is heated through the air blowing pipe 42 to blow out bromine in the absorption liquid, the bromine blowing operation in the absorption liquid is realized, the adjusting block 41 is positioned on the inner side of the connecting frame 53, the outer wall of the adjusting block 41 is fixedly connected with three clamping blocks 411 which are distributed in an annular and equidistant mode, the connecting frame 53 is provided with three clamping grooves corresponding to the clamping blocks 411, the clamping blocks 411 can be clamped into the corresponding clamping grooves, the clamping connection of the adjusting block 41 and the connecting frame 53 is realized, the adjusting block 41 can be positioned on the inner side of the connecting frame 53, the position fixing operation after the adjusting block 41 rotates is realized, and the positions of the air blowing pipe 42 and the blocking pipe 43 which are changed and displaced are fixed, the positioning work after the rotation adjustment of the adjusting block 41, the air blowing pipe 42 and the blocking pipe 43 is facilitated, the operation frame 412 is fixedly connected to the outer wall of the adjusting block 41, and the operation frame 412 is arranged to facilitate the rotation adjustment work of the adjusting block 41 by an operator.

The outer wall of the adjusting block 41 is fixedly connected with two bromine leading-out modules 6 respectively corresponding to the two air blowing pipes 42, each bromine leading-out module 6 consists of a fixed block 61 and a leading-out pipe 62, the fixed block 61 is fixedly connected on the outer wall of the adjusting block 41, the leading-out pipes 62 are fixedly connected inside the fixed block 61, stable connection combination of the bromine leading-out modules 6 and the adjusting block 41 is realized, the bromine leading-out modules 6 can rotate along with the adjusting block 41, position change work of the two bromine leading-out modules 6 inside the equipment combination rack 1 is realized, the input ends of the leading-out pipes 62 are flush with the top end of the blowout flask 12, the output ends of the leading-out pipes 62 can be communicated with the top end of a corresponding matching pipe in the bottle stopper of the blowout flask 12 by changing the position of the bromine leading-out modules 6 inside the equipment combination rack 1, the output ends of the leading-out pipes 62 are connected with the input ends of corresponding matching pipes in the bottle stopper top end of the second flask 13, the bromine extraction module 6 is connected with the second flask 13, the output end of the extraction tube 62 is communicated with the top end of a corresponding matching tube in a bottle stopper at the top end of the communicated blowout flask 12, so that the blowout flask 12 is communicated with the second flask 13, bromine blown out of the absorption liquid is introduced into the second flask 13 through the corresponding extraction tube 62 and the corresponding matching tube in the bottle stopper at the top end of the second flask 13, the bromine entering the second flask 13 is absorbed by sulfite solution in the second flask 13, bromine simple substance is reduced into bromine ion by sulfite, extraction and absorption reduction operation of bromine are realized, so as to ensure normal operation of subsequent operation, chlorine is introduced into the solution in the second flask 13 through another matching tube in the bottle stopper at the top end of the second flask 13, the bromine ion is oxidized into bromine flask, high-quality bromine is obtained by refining, and an operator can flexibly perform operation of equipment, the experiment that operating personnel can accomplish the bromine element separation through operating equipment and draw does not need the scene to carry out the equipment work of a plurality of experimental apparatus, does not need frequent pulling out of operating personnel to insert the drainage tube and carries out the introduction work of different experimental materials in the experimentation to different experiment flasks, and free bromine, the bromide that produce in the experimentation also can effectually guide the work, have improved the convenience that operating personnel carried out the operation that the bromine element separation drawed the experiment.

The device combination frame 1 is internally provided with a plugging module 7 positioned below the bromine blowing-out module 4, the plugging module 7 consists of a hollow plugging support block 71, a fixed plate 72 and a shielding sleeve case 73, the hollow plugging support block 71 is positioned below the fixed block 61, the fixed plate 72 is fixedly connected on the side edge of the hollow plugging support block 71 close to the inner side wall of the device combination frame 1, the other end of the fixed plate 72 is fixedly connected with the inner side wall of the device combination frame 1, the shielding sleeve case 73 is fixedly connected at the top of the hollow plugging support block 71, so that the stable connection combination between the plugging module 7 and the device combination frame 1 is realized, the plugging module 7 can be stably positioned in the area below the bromine blowing-out module 4, the top end of the blowing-out flask 12 is clamped and connected at the inner side of the hollow plugging support block 71, the stability of the blowing-out flask 12 in use can be improved, and the top of the shielding sleeve case 73 is tightly attached to the bottom of the adjusting block 41, the bottom ends of the two air blowing pipes 42 and the blocking pipe 43 are positioned in the blocking sleeve 73, the blocking sleeve 73 realizes the blocking work of the bottom end of the air blowing pipe 42, the bottom end of the blocking pipe 43 and the top end of the corresponding matching pipe in the bottle stopper at the top end of the blowing flask 12, can play a role in protecting the bottom end of the air blowing pipe 42, the bottom end of the blocking pipe 43 and the top end of the corresponding matching pipe in the bottle stopper at the top end of the blowing flask 12 and can also play a role in reducing the exposure of the air in the blowing flask 12, the top of the hollow blocking support block 71 is tightly attached to the bottom of the fixed block 61, the stability of the bromine leading-out module 6 in position change work along with the adjusting block 41 can be improved, two through holes respectively corresponding to the two leading-out pipes 62 are formed in the top of the hollow blocking support block 71, when the bromine leading-out module 6 is reset after an experiment, the bromine leading-out module 6 performs position change work along with the adjusting block 41, the input end of the leading-out pipe 62 moves along with the top of the hollow blocking support block 71, can realize that the sealing work of stand-off pipe 62 removal in-process, after stand-off pipe 62 resets, the through-hole that the input intercommunication of stand-off pipe 62 hollow shutoff tray 71 top corresponds, remaining bromine and a small amount of steam in the stand-off pipe 62 can flow back inside hollow shutoff tray 71 through the through-hole, the guide of the remaining bromine of suction and a small amount of steam is retrieved, can retrieve the transfer with the remaining bromine of suction and a small amount of steam, the condition that reduces the direct outside discharge of remaining bromine and a small amount of steam appears, can improve the security that operating personnel used equipment to carry out the bromine element separation and draw the experiment.

The working principle of the invention is as follows: the equipment combination rack 1 is flatly placed on an operation table of a laboratory for an operator to perform a bromine element separation and extraction experiment, an experimental material injector 2 injects raw material concentrated seawater into a first flask 11 through a four-way connecting pipe 21, sulfuric acid or hydrochloric acid is injected into the raw material concentrated seawater through the experimental material injector 2 and the four-way connecting pipe 21, then chlorine gas is introduced into acidified concentrated seawater through the experimental material injector 2 and the four-way connecting pipe 21, bromide ions in the concentrated seawater are oxidized to generate free bromine, the free bromine enters the blow flask 12 through a guide pipe 14 to form absorption liquid, a heating bottom block 33 and a heating side plate 32 heat the absorption liquid in the blow flask 12, an adjusting block 41 is operated to enable a blocking pipe 43 to be staggered with a corresponding matching pipe in a top end plug of the blow flask 12, a corresponding air blowing pipe 42 is communicated with the matching pipe, an output end of the blow pipe 62 is communicated with a top end of the corresponding matching pipe in the top end plug of the blow flask 12, an air insufflator 44 is operated to blow the absorption liquid in the blow flask 12 through the corresponding matching pipe, the bromine ion eduction is introduced into a second flask 13, and a bromine ion solution with a second flask 13, and the bromine ion is reduced into a second sulfite solution with a second bromine ion bottle plug 13.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A separation and extraction system for bromine elements comprises an equipment combination rack (1), wherein a first flask (11), a blow-out flask (12) and a second flask (13) are detachably connected inside the equipment combination rack (1) from left to right in sequence, a guide pipe (14) is arranged between the first flask (11) and the blow-out flask (12), two ends of the guide pipe (14) are respectively inserted into the first flask (11) and the blow-out flask (12), the separation and extraction system is characterized in that an experimental material injector (2) is fixedly connected to the top of the equipment combination rack (1), a four-way connecting pipe (21) is fixedly connected to the output end of the experimental material injector (2), and the input end of the four-way connecting pipe (21) is inserted into the first flask (11);

the device combination rack (1) is internally and fixedly connected with a bearing heating module (3) positioned below the blowing flask (12), the bearing heating module (3) is used for positioning and heating the blowing flask (12) in the device combination rack (1), the device combination rack (1) is internally and fixedly connected with a bromine blowing module (4) positioned above the bearing heating module (3), the bromine blowing module (4) comprises an adjusting block (41), two air blowing pipes (42), a blocking pipe (43) and an air insufflator (44), the bromine blowing module (4) is used for introducing air into the second flask (13) to blow out bromine, the device combination rack (1) is internally and fixedly connected with a connecting and positioning module (5), the connecting and positioning module (5) is used for positioning and reinforcing the bromine blowing module (4) in the device combination rack (1), the outer wall of the adjusting block (41) is fixedly connected with two bromine leading-out modules (6) respectively corresponding to the two air blowing pipes (42), and the bromine leading-out module (6) is connected with a second flask leading-out module (13);

the device combination frame (1) is fixedly connected with a blocking module (7) which is positioned below the bromine blowing module (4), and the blocking module (7) realizes guiding and recycling of sucked residual bromine.

2. The separation and extraction system for bromine element according to claim 1, characterized in that the supporting heating module (3) comprises a bottom support (31), a heating side plate (32) and a heating bottom block (33), the bottom support (31) is fixedly connected inside the equipment combination rack (1), the heating bottom block (33) is fixedly connected at the middle position of the top of the bottom support (31), the bottom of the blowing flask (12) is tightly attached to the top of the heating bottom block (33), the heating side plate (32) is rotatably connected to the top of the bottom support (31), the blowing flask (12) is located inside the heating side plate (32), and the inner wall of the heating side plate (32) is tightly attached to the outer wall of the blowing flask (12).

3. The separation and extraction system for bromine according to claim 1, wherein the connection and positioning module (5) comprises a combination block (51), a connection transverse plate (52) and a connection frame (53), the combination block (51) is fixedly connected to the middle position of the inner side wall of the equipment combination frame (1), the connection transverse plate (52) is fixedly connected to the front side wall of the combination block (51), and the connection frame (53) positioned below the connection transverse plate (52) is fixedly connected to the front side wall of the combination block (51).

4. The separation and extraction system for bromine according to claim 3, characterized in that the adjusting block (41) is rotatably connected below the head end of the connecting transverse plate (52), the two blowing pipes (42) are symmetrically fixed inside the adjusting block (41), the inside of the adjusting block (41) is fixedly connected with the blocking pipe (43) positioned between the two blowing pipes (42), the top ends of the blowing pipes (42) and the blocking pipe (43) both extend upwards to the top of the equipment rack assembly (1), the air insufflator (44) is fixedly connected to the top of the equipment rack assembly (1), and the output end of the air insufflator (44) is inserted into the two blowing pipes (42).

5. A separation and extraction system for bromine element according to claim 3, characterized in that the bromine extraction module (6) comprises a fixed block (61) and an extraction pipe (62), the fixed block (61) is fixedly connected to the outer wall of the adjusting block (41), the extraction pipe (62) is fixedly connected to the inside of the fixed block (61), the input end of the extraction pipe (62) is flush with the top end of the blow-out flask (12), and the output end of the extraction pipe (62) is connected with the second flask (13).

6. The separation and extraction system for bromine element according to claim 5, characterized in that the blocking module (7) comprises a hollow blocking support block (71), a fixing plate (72) and a shielding sleeve (73), the hollow blocking support block (71) is located below the fixing block (61), the top of the hollow blocking support block (71) is tightly attached to the bottom of the fixing block (61), the fixing plate (72) is fixedly connected to the side of the hollow blocking support block (71) close to the inner side wall of the equipment combination rack (1), the other end of the fixing plate (72) is fixedly connected to the inner side wall of the equipment combination rack (1), and the top end of the blow-off flask (12) is connected to the inner side of the hollow blocking support block (71) in a clamping manner.

7. The separation and extraction system for bromine according to claim 6, wherein the shielding sleeve (73) is fixedly connected to the top of the hollow blocking support block (71), the top of the shielding sleeve (73) is tightly attached to the bottom of the adjusting block (41), and the bottom ends of the two blowing pipes (42) and the blocking pipe (43) are located inside the shielding sleeve (73).

8. The separation and extraction system for bromine element according to claim 3, characterized in that the adjusting block (41) is located inside the connecting frame (53), three annular and equidistantly distributed clamping blocks (411) are fixedly connected to the outer wall of the adjusting block (41), the clamping blocks (411) are in clamping connection with the connecting frame (53), and an operating frame (412) is fixedly connected to the outer wall of the adjusting block (41).

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