CN218221799U - Gas purification device for producing micro-low carbon manganese-silicon alloy - Google Patents

Abstract

The utility model discloses a little, coal gas purification device is used in low carbon manganese silicon alloy production relates to coal gas purification technical field, including saturated deacidification device body, one side of saturated deacidification device body is connected with the export pipe, and the opposite side of export pipe installs the drying cabinet, the inside of drying cabinet is provided with the drying chamber, and the inside of drying chamber has seted up the spout, the fixed block is installed at the inboard top of spout, and the internal connection of spout has the damping slider, first installing frame is installed to the opposite face of damping slider. The utility model discloses in, be provided with first installing frame, second installing frame, dry otter board, expansion plate and drying cabinet, just conveniently drive dry otter board through the first installing frame of operation in turn and second installing frame and rise the operation, just so realized not shutting down and just can change or clear up the inside drier of dry otter board, improved coal gas purification efficiency, have higher practicality.

Description

Gas purification device for producing micro-low carbon manganese-silicon alloy

The technical field is as follows:

the utility model relates to a coal gas purification technology field especially relates to a little, coal gas purifier is used in low carbon manganese silicon alloy production.

Background art:

the micro-low carbon silicon-manganese alloy is an alloy formed by smelting manganese, silicon, iron, coke and other elements in an electric furnace, is an iron alloy with wide application and high yield, and can be used for generating power after being filtered and collected because crude gas containing acid gas and smoke dust is generated in the smelting process, so that the energy is recycled.

In chinese utility model patent application publication CN201921109766.8 discloses energy recovery gas purification device for low carbon manganese silicon alloy production, this gas purification device has solved the current problem that sets up dehydration benefit fog unit and absorb moisture in the coal gas, and the dehydration effect is ideal inadequately, but, this gas purification device, when carrying out the drier change work, need suspend the gas purification device earlier and just can carry out the change of drier, and the limitation is great.

The utility model has the following contents:

an object of the utility model is to provide a little, low carbon manganese silicon is coal gas purifier for alloy production to solve prior art's not enough.

The utility model discloses by following technical scheme implement:

a coal gas purifier is used in production of little, low carbon manganese silicon alloy includes:

the utility model discloses a saturation deacidification device, including saturated deacidification device body, the inside of drying cabinet, the fixed block is installed at the inboard top of spout, and the internally connected with damping slider of spout, first installing frame is installed to damping slider's opposite face, and the bottom of first installing frame installs the limiting plate, the internally mounted of first installing frame has dry otter board, one side of first installing frame is provided with the second installing frame, and the top of second installing frame and the top of first installing frame install the expansion plate, the jack has been seted up to the inside of expansion plate, and the externally connected with sealing strip of expansion plate, the outside of expansion plate is provided with first fixed frame, and one side of first fixed frame is provided with the fixed frame of second, the inside of the fixed frame of second and the internally connected with spring of first fixed frame, and the bottom of spring installs the ejector pad, the bottom of ejector pad and the internally connected with the inserted bar of jack, the opposite side of drying cabinet is connected with the connecting pipe.

Preferably, the push block is internally provided with a limiting hole, and the limiting hole is internally connected with a limiting rod.

Preferably, a fixing structure is formed between the push block and the first fixing frame through a limiting hole and a limiting rod, and the inside of the first fixing frame is of a hollow structure.

Preferably, an elastic structure is formed between the push block and the first fixing frame through a spring, and the shape and specification of the first fixing frame are consistent with those of the second fixing frame.

Preferably, a lifting structure is formed between the first mounting frame and the drying chamber through a telescopic plate and a damping slide block, and the thickness of the damping slide block is smaller than the length of the limiting plate.

Preferably, a moving structure is formed between the drying screen plate and the drying chamber through a second mounting frame and a telescopic plate, and the shape and specification of the second mounting frame are consistent with those of the first mounting frame.

Preferably, constitute detachable construction through ejector pad, inserted bar between expansion plate and the drying cabinet, and the width of expansion plate is less than the width of first fixed frame.

Preferably, the spacing between the fixing blocks is smaller than the length of the defining plate, and the fixing blocks are symmetrical about a transverse axis of the drying chamber.

The utility model has the advantages that:

1. the utility model discloses in, be provided with first installing frame, second installing frame, dry otter board, expansion plate and drying cabinet, just conveniently drive dry otter board through the first installing frame of alternate operation and second installing frame and rise the operation, just so realized not shutting down and just can change or clear up the inside drier of dry otter board, improved coal gas purification efficiency, have higher practicality.

2. The utility model discloses in, be provided with the fixed frame of expansion plate, first fixed frame, second, ejector pad, spring and inserted bar, just conveniently drive the inserted bar through the operation ejector pad and carry out the decline operation, just so conveniently carry out fixing work to the expansion plate, shortened the dead time of expansion plate, improved the fixed efficiency of first installing frame, second installing frame.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the internal structure of the drying box according to the embodiment of the present invention;

fig. 3 is a schematic top view of the drying box according to the embodiment of the present invention;

fig. 4 is a schematic view of an internal structure of a first mounting frame according to an embodiment of the present invention.

Illustration of the drawings:

1. a saturated deacidification device body; 2. an outlet conduit; 3. a drying oven; 4. a first fixed frame; 5. a second fixed frame; 6. a connecting pipe; 7. a drying chamber; 8. a spring; 9. a restraining bar; 10. defining an aperture; 11. a push block; 12. a fixed block; 13. a limiting plate; 14. a damping slider; 15. a chute; 16. a first mounting frame; 17. a second mounting frame; 18. a rod is inserted; 19. a retractable plate; 20. a sealing strip; 21. a jack; 22. the web is dried.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, a gas purification device for producing a micro-low carbon manganese-silicon alloy comprises a saturated deacidification device body 1, wherein one side of the saturated deacidification device body 1 is connected with an outlet conduit 2, the other side of the outlet conduit 2 is provided with a drying box 3, a drying chamber 7 is arranged inside the drying box 3, a sliding groove 15 is formed inside the drying chamber 7, a fixed block 12 is arranged at the top of the inner side of the sliding groove 15, a damping slide block 14 is connected inside the sliding groove 15, the distance between the fixed blocks 12 is smaller than the length of a limiting plate 13, the fixed blocks 12 are symmetrical about the transverse axis of the drying chamber 7, a telescopic plate 19 is manually operated and the telescopic plate 19 enables the limiting plate 13 to be lifted, the limiting plate 13 can be prevented from being lifted out of the drying chamber 7 through the fixed block 12, a first mounting frame 16 is arranged on the opposite surface of the damping slide block 14, and the limiting plate 13 is arranged at the bottom of the first mounting frame 16, a lifting structure is formed between the first mounting frame 16 and the drying chamber 7 through the expansion plate 19 and the damping slide block 14, the thickness of the damping slide block 14 is smaller than the length of the limiting plate 13, the expansion plate 19 is manually operated, the expansion plate 19 drives the first mounting frame 16 to lift through the damping slide block 14, most of the first mounting frame 16 lifts to the outside of the drying chamber 7, so that the drying screen 22 in the first mounting frame 16 is convenient to disassemble and replace, the drying screen 22 is mounted in the first mounting frame 16, a moving structure is formed between the drying screen 22 and the drying chamber 7 through the second mounting frame 17 and the expansion plate 19, the shape and the specification of the second mounting frame 17 are consistent with those of the first mounting frame 16, the expansion plate 19 on the second mounting frame 17 is manually operated, the expansion plate 19 drives the drying screen 22 to move through the second mounting frame 17, the drying screen plate 22 moves to the outside of the drying chamber 7, so that the drying agent in the drying screen plate 22 can be conveniently cleaned and replaced, one side of the first mounting frame 16 is provided with a second mounting frame 17, the top of the second mounting frame 17 and the top of the first mounting frame 16 are provided with an expansion plate 19, the expansion plate 19 and the drying box 3 form a detachable structure through a push block 11 and an insertion rod 18, the width of the expansion plate 19 is smaller than that of the first fixing frame 4, the push block 11 is manually operated, the push block 11 drives the insertion rod 18 to ascend, the insertion rod 18 ascends to the outside of the insertion hole 21, so that the disassembly work of the expansion plate 19 is conveniently completed, the insertion hole 21 is formed in the expansion plate 19, the sealing strip 20 is connected to the outside of the expansion plate 19, the first fixing frame 4 is arranged outside the expansion plate 19, and the second fixing frame 5 is arranged on one side of the first fixing frame 4, a spring 8 is connected between the inside of the second fixed frame 5 and the inside of the first fixed frame 4, a push block 11 is installed at the bottom of the spring 8, an elastic structure is formed between the push block 11 and the first fixed frame 4 through the spring 8, the shape and specification of the first fixed frame 4 are consistent with those of the second fixed frame 5, the push block 11 is moved to enable the spring 8 to perform compression operation by moving the push block 11, an expansion plate 19 is lowered to be in contact with the drying box 3, the push block 11 is loosened, the push block 11 performs reset operation through the spring 8, the push block 11 drives an insertion rod 18 to perform lowering operation, the insertion rod 18 is inserted into an insertion hole 21 in the expansion plate 19, so that the expansion plate 19 is conveniently fixed, the insertion rod 18 is connected between the bottom of the push block 11 and the inside of the insertion hole 21, and the other side of the drying box 3 is connected with a connecting pipe 6;

limiting hole 10 has been seted up to the inside of ejector pad 11, and the internal connection of limiting hole 10 has limited pole 9, through limiting hole 10 between ejector pad 11 and the first fixed frame 4, limiting pole 9 constitutes fixed knot to be constructed, and the inside of first fixed frame 4 is hollow column structure, manual operation limiting pole 9, limiting pole 9 will run through first fixed frame 4 and remove to limiting hole 10 in, just so conveniently fix ejector pad 11, be convenient for carry out the installation work of installing frame.

The working principle is as follows: when in use, firstly, the push block 11 in the first fixed frame 4 or the second fixed frame 5 is pushed by a person in turn, the push block 11 enables the spring 8 to perform compression operation, the push block 11 drives the insertion rod 18 to perform ascending operation, the insertion rod 18 ascends to the outside of the insertion hole 21, the limiting rod 9 is operated by the person, the limiting rod 9 penetrates through the first fixed frame 4 and moves into the limiting hole 10, therefore, the push block 11 is conveniently fixed, the expansion plates 19 on the first mounting frame 16 or the second mounting frame 17 are operated in turn (the expansion plates 19 are limiting blocks with two ends capable of being contracted and pulled out), the expansion plates 19 drive the first mounting frame 16 (or drive the second mounting frame 17) to ascend through the damping slide blocks 14 (when the expansion plates 19 ascend, the limiting blocks at the two ends are contracted into the expansion plates 19), the first mounting frame 16 (or drive the second mounting frame 17) drives the drying screen plate 22 and the limiting plates 13 to ascend, thus, the drying agent inside the drying screen plate 22 can be replaced or cleaned without stopping, the limiting plate 13 can be prevented from rising out of the drying chamber 7 through the fixing block 12, when the replacement work of the drying agent is finished, the first mounting frame 16 (or the second mounting frame 17) is moved to the drying chamber 7, the limiting blocks at the two ends of the retractable plate 19 are pulled out of the retractable plate 19, the push block 11 is loosened, so that the inserted link 18 is reset through the spring 8 and the push block 11, the inserted link 18 is inserted into the insertion hole 21 in the retractable plate 19 (the limiting blocks at the two ends), thus, the installation work of the first installation frame 16 (or the second installation frame 17) can be conveniently finished (the gas purification structure and the principle are consistent with those of the comparison document).

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A gas purification device for producing micro and low-carbon manganese-silicon alloy is characterized by comprising:

the device comprises a saturated deacidification device body (1), wherein one side of the saturated deacidification device body (1) is connected with an outlet guide pipe (2), the other side of the outlet guide pipe (2) is provided with a drying chamber (7), the inside of the drying chamber (7) is provided with a sliding chute (15), the top of the inner side of the sliding chute (15) is provided with a fixed block (12), the inside of the sliding chute (15) is connected with a damping sliding block (14), the opposite surface of the damping sliding block (14) is provided with a first mounting frame (16), the bottom of the first mounting frame (16) is provided with a limiting plate (13), the inside of the first mounting frame (16) is provided with a drying screen plate (22), one side of the first mounting frame (16) is provided with a second mounting frame (17), the top of the second mounting frame (17) and the top of the first mounting frame (16) are provided with a telescopic plate (19), the inside of the telescopic plate (19) is provided with a jack (21), the outside of the telescopic plate (19) is connected with a first sealing strip (19), one side of the first sealing strip (19) is provided with a first fixing frame (4), and the inside of the second fixing spring (5) is connected with a second fixing frame (5), and the bottom of the spring (8) is provided with a push block (11), the bottom of the push block (11) and the inside of the jack (21) are connected with an inserted rod (18), and the other side of the drying box (3) is connected with a connecting pipe (6).

2. The gas purification device for producing micro-low carbon manganese-silicon alloy according to claim 1, wherein the push block (11) is provided with a limiting hole (10) inside, and the limiting hole (10) is connected with a limiting rod (9) inside.

3. The gas purification device for micro-low carbon manganese-silicon alloy production as claimed in claim 2, wherein a fixed structure is formed between the push block (11) and the first fixed frame (4) through the limiting hole (10) and the limiting rod (9), and the interior of the first fixed frame (4) is a hollow structure.

4. The gas purification device for producing micro-low carbon manganese-silicon alloy according to claim 1, wherein the push block (11) and the first fixed frame (4) form an elastic structure through a spring (8), and the shape specification of the first fixed frame (4) is consistent with the shape specification of the second fixed frame (5).

5. The gas purification device for producing the micro-low carbon manganese-silicon alloy according to claim 1, wherein a lifting structure is formed between the first mounting frame (16) and the drying chamber (7) through a telescopic plate (19) and a damping slide block (14), and the thickness of the damping slide block (14) is smaller than the length of the limiting plate (13).

6. The gas purification device for producing micro-low carbon manganese-silicon alloy according to claim 1, wherein a moving structure is formed between the drying screen plate (22) and the drying chamber (7) through a second mounting frame (17) and a telescopic plate (19), and the shape and specification of the second mounting frame (17) are consistent with the shape and specification of the first mounting frame (16).

7. The gas purification device for producing micro-low carbon manganese-silicon alloy according to claim 1, wherein a detachable structure is formed between the expansion plate (19) and the drying box (3) through the push block (11) and the inserted rod (18), and the width of the expansion plate (19) is smaller than that of the first fixing frame (4).

8. A gas cleaning device for production of micro-and low-carbon manganese-silicon alloy according to claim 1, characterized in that the distance between the fixed blocks (12) is less than the length of the limiting plate (13), and the fixed blocks (12) are symmetrical about the transverse axis of the drying chamber (7).

Images