CN219494854U - Air supply structure of sulfur incinerator - Google Patents

Abstract

The utility model discloses an air supply structure of a sulfur incinerator, which comprises a frame and an air pipe, wherein the air pipe is arranged outside the frame, a movable sleeve is arranged on the outer wall of the frame on one side of the air pipe, a movable shaft is arranged inside the movable sleeve, two ends of the movable shaft are movably connected with the frame, a fixed clamping seat is arranged on the outer wall of the movable sleeve, a connecting seat is arranged at the top end of the air pipe on one side of the fixed clamping seat, a clamping shaft is arranged at the top end of the connecting seat, the connecting seat is movably connected with the fixed clamping seat through the clamping shaft, and a lower ball head is arranged at the bottom end of the air pipe. The utility model not only realizes the left-right rotation type air supply of the air supply structure to the sulfur mixed gas, facilitates the convenient control of the air supply structure to supply air in a plurality of directions, improves the convenience of air supply position adjustment, but also reduces dead angles of air supply air flow in the sulfur burning furnace and improves the utilization rate of the gas in the sulfur burning furnace.

Description

Air supply structure of sulfur incinerator

Technical Field

The utility model relates to the technical field of air supply structures, in particular to an air supply structure of a sulfur burning furnace.

Background

The sulfur incinerator is a key device in a sulfur acid making device, more spray sulfur incinerators are used at present, the structure is simple, the volume strength is high, sulfur is sprayed into the sulfur incinerator through a spray gun, air enters from an air inlet at the end part and is fully contacted and combusted with atomized sulfur through a cyclone device, a plurality of baffles are arranged in the sulfur incinerator to strengthen uniform mixing of the sulfur and the air, secondary air is usually arranged for supplementing oxygen and adjusting hearth temperature to prevent incomplete combustion, the reaction is promoted to be complete, sublimated sulfur is not generated, a baffle wall in the sulfur incinerator is arranged, the turbulence degree of the furnace gas can be enhanced, the flow speed of the furnace gas is increased, and a cyclone device of an air supply structure is arranged at the air inlet position at the end part of a furnace wall to play a role in diversion.

An air supply mechanism of a sulfur burner as disclosed in the grant publication number CN115784170a, comprising: the sulfur burner comprises a sulfur burner assembly, an air supply part, a flow guide part and a dustproof part, wherein the sulfur burner assembly comprises a furnace body, an air supply pipe and a spiral air duct, the air supply pipe is arranged at the left end of the furnace body, the inner wall of the air supply pipe is provided with the spiral air duct which is led into the inner cavity of the furnace body, the air supply part is arranged at the outer end of the air supply pipe, the air supply part comprises an air duct, a fan, a bracket and an external thread connecting end, the air duct is connected at the outer end of the air supply pipe, the fan is arranged inside the air duct, the bracket is arranged at the position, close to the air supply pipe, inside the air duct, and the external thread connecting end is arranged at the position, far away from the air supply pipe, of the air duct;

it realizes that the air flow is blown into the blast pipe through the flow guiding component, the flow guiding component drives the air flow to be spirally blown into the blast pipe, and the air flow is uniformly blown into the furnace body by matching with the spiral air duct, so that the air flow is fully contacted with the sprayed sulfur, the sulfur is prevented from sinking, the sulfur is fully combusted, but not solve the inconvenient control of current air supply structure and supply air to a plurality of directions, improve the convenience of air supply position adjustment, cause easily and burn the inside air current of sulfur burner and produce the dead angle, very big influence burns the inside gaseous utilization ratio of sulfur burner.

Disclosure of Invention

The utility model aims to provide an air supply structure of a sulfur incinerator, which aims to solve the problems that in the prior art, the air supply structure is inconvenient to control air supply to a plurality of directions, the convenience of air supply position adjustment is improved, dead angles of air supply air flow in the sulfur incinerator are reduced, and the utilization rate of air in the sulfur incinerator is affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an air supply structure of sulfur incinerator, includes frame and tuber pipe, the outside of frame is equipped with the tuber pipe, install movable sleeve on the frame outer wall of tuber pipe one side, movable sleeve's internally mounted has the loose axle, and the both ends of loose axle all with frame swing joint, install on the outer wall of movable sleeve and decide the cassette, the connecting seat is installed on the tuber pipe top of deciding cassette one side, the card axle is installed on the top of connecting seat, and the connecting seat passes through card axle and decides cassette swing joint, the bulb is installed down to the bottom of tuber pipe, install on the frame outer wall of bulb one side down and decide the support, be equipped with movable support on the outer wall of deciding the support, movable support is close to the one end of deciding the support and installs movable support axle, and movable support is through movable support and decides support swing joint, movable support keeps away from the one end of deciding the support and install first flexible driving piece, first flexible driving piece is close to the one end of bulb and installs down the ball cover, and down the ball cover extends to the surface under.

Preferably, the air pipe top of connecting seat one side is installed and is adjusted the seat, install the ball cover on adjusting the outer wall of seat, go up ball cover and be close to the one end of adjusting the seat and install the connecting axle, and adjust seat and go up ball cover swing joint through the connecting axle.

Preferably, an adjusting ball head is mounted on the outer wall of the frame above the movable sleeve, an adjusting ball sleeve is sleeved on the surface of the adjusting ball head, a second telescopic driving piece is mounted at the bottom end of the adjusting ball sleeve, an upper ball head is mounted at the bottom end of the second telescopic driving piece, and the bottom end of the upper ball head extends to the inside of the upper ball sleeve.

Preferably, the one end that the frame was kept away from to the tuber pipe is installed the mixing box, the helical blade cover is installed to one side that the tuber pipe was kept away from to the mixing box, the internally mounted of mixing box has the fan.

Preferably, a feeding pipe is arranged at the top end of the mixing box, and a feeding hose is arranged at the top end of the feeding pipe.

Preferably, a control panel is installed on the outer wall of the frame, and the output end of the control panel is electrically connected with the first telescopic driving piece, the second telescopic driving piece and the input end of the fan.

Compared with the prior art, the utility model has the beneficial effects that: the air supply structure not only realizes the left-right rotary air supply of the air supply structure to the sulfur mixed gas, facilitates the convenient control of the air supply structure to supply air in a plurality of directions, improves the convenience of air supply position adjustment, reduces dead angles of air supply air flow in the sulfur burning furnace, and improves the utilization rate of the air in the sulfur burning furnace;

(1) The lower ball sleeve is driven to move by the first telescopic driving piece, the lower ball head drives the air pipe to swing left and right, the movable sleeve rotates by taking the movable shaft as an axis, the air pipe, the connecting seat, the fixed clamping seat and the movable sleeve synchronously rotate to drive the air pipe and the mixing box to carry out left and right rotary air supply, so that the air outlet position is controlled and regulated, the left and right rotary air supply of the air supply structure to the sulfur mixed gas is realized, and the left and right rotary control and regulation of the air outlet are facilitated;

(2) Through the bulb removal on by the flexible driving piece drive of second, drive the regulation seat by last ball cover through the connecting axle and rotate from top to bottom, drive tuber pipe and mixing box by the regulation seat and rotate from top to bottom, the tuber pipe, the connecting seat rotate as the axle with the card axle, carry out upper and lower rotation formula air supply, realized the air supply structure and to the upper and lower rotation formula air supply of sulphur gas mixture, made things convenient for the convenient for control of air supply structure to supply air to a plurality of directions, improved the convenience of air supply position adjustment, reduced the dead angle of the inside air supply air current of sulfur burner, improved the inside gaseous utilization ratio of sulfur burner.

Drawings

FIG. 1 is a schematic three-dimensional perspective view of the present utility model;

FIG. 2 is a schematic three-dimensional perspective view of a second telescopic driving member according to the present utility model;

FIG. 3 is a schematic cross-sectional elevation view of a helical blade cover of the present utility model;

fig. 4 is a schematic three-dimensional structure of the air duct according to the present utility model.

In the figure: 1. a frame; 2. a movable sleeve; 3. a movable shaft; 4. a fixed clamping seat; 5. a clamping shaft; 6. a connecting seat; 7. an air duct; 8. a lower ball head; 9. a ball sleeve is arranged; 10. a first telescopic driving member; 11. a movable support; 12. a movable support shaft; 13. a fixed support; 14. an adjusting seat; 15. a ball sleeve is arranged; 16. an upper ball head; 17. a connecting shaft; 18. a second telescopic driving member; 19. a mixing box; 20. adjusting the ball sleeve; 21. a feed pipe; 22. a supply hose; 23. adjusting the ball head; 24. a blower; 25. a helical blade cover; 26. and a control panel.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an embodiment of the present utility model is provided: the utility model provides an air supply structure of sulfur incinerator, including frame 1 and blast pipe 7, the outside of frame 1 is equipped with tuber pipe 7, install movable sleeve 2 on the frame 1 outer wall of tuber pipe 7 one side, movable sleeve 2 internally mounted has loose axle 3, and the both ends of loose axle 3 all with frame 1 swing joint, movable sleeve 2 and loose axle 3 swing joint, install on the outer wall of movable sleeve 2 and decide cassette 4, the connecting seat 6 is installed on the tuber pipe 7 top of deciding cassette 4 one side, the clamping axle 5 is installed on the top of connecting seat 6, and connecting seat 6 is through clamping axle 5 and deciding cassette 4 swing joint, clamping axle 5 plays the effect of movable support;

the bottom end of the air pipe 7 is provided with a lower ball head 8, the outer wall of the frame 1 at one side of the lower ball head 8 is provided with a fixed support 13, the outer wall of the fixed support 13 is provided with a movable support 11, one end of the movable support 11, which is close to the fixed support 13, is provided with a movable support shaft 12, the movable support 11 is movably connected with the fixed support 13 through the movable support shaft 12, the movable support shaft 12 plays a role in movable support, one end of the movable support 11, which is far away from the fixed support 13, is provided with a first telescopic driving piece 10, the first telescopic driving piece 10 plays a role in power driving, one end, which is close to the lower ball head 8, of the first telescopic driving piece 10 is provided with a lower ball sleeve 9, the lower ball sleeve 9 extends to the surface of the lower ball head 8, and the lower ball sleeve 9 is movably connected with the lower ball head 8;

when the sulfur burner is used, the first telescopic driving piece 10 is opened through the operation control panel 26, under the movable support of the movable support 11, the lower ball sleeve 9 is driven to move by the first telescopic driving piece 10, the air pipe 7 is driven to swing left and right by the lower ball sleeve 9 and the lower ball head 8 in cooperation, the movable sleeve 2 rotates by taking the movable shaft 3 as an axis, the air pipe 7, the connecting seat 6, the fixed clamping seat 4 and the movable sleeve 2 synchronously rotate to drive the air pipe 7 and the mixing box 19 to carry out left and right rotary air supply, sulfur mixed gas is fed into the sulfur burner by the spiral blade cover 25 to control and regulate the position of air outlet, the left and right rotary air supply of the sulfur mixed gas by the air supply structure is realized, and the left and right rotary control and regulation of the air outlet are facilitated;

the top end of the air pipe 7 at one side of the connecting seat 6 is provided with an adjusting seat 14, the outer wall of the adjusting seat 14 is provided with an upper ball sleeve 15, one end of the upper ball sleeve 15, which is close to the adjusting seat 14, is provided with a connecting shaft 17, the adjusting seat 14 is movably connected with the upper ball sleeve 15 through the connecting shaft 17, the connecting shaft 17 plays a role of movable support, the outer wall of the frame 1 above the movable sleeve 2 is provided with an adjusting ball head 23, the surface of the adjusting ball head 23 is sleeved with an adjusting ball sleeve 20, the adjusting ball sleeve 20 is movably connected with the adjusting ball head 23, the bottom end of the adjusting ball sleeve 20 is provided with a second telescopic driving piece 18, the second telescopic driving piece 18 plays a role of power driving, the bottom end of the second telescopic driving piece 18 is provided with an upper ball head 16, the bottom end of the upper ball head 16 extends into the upper ball sleeve 15, the upper ball head 16 is movably connected with the upper ball sleeve 15, one end of the air pipe 7, which is far away from the frame 1, one side of the mixing box 19, which is far away from the air pipe 7 is provided with a helical blade cover 25, and the inside of the box 19 is provided with a fan 24;

when the device is used, the second telescopic driving piece 18 is opened through the operation control panel 26, the upper ball head 16 is driven to move by the second telescopic driving piece 18 under the movable fit of the adjusting ball head 23 and the adjusting ball sleeve 20, the adjusting seat 14 is driven to rotate up and down by the upper ball sleeve 15 through the connecting shaft 17 under the movable fit of the upper ball head 16 and the upper ball sleeve 15, the air pipe 7 and the mixing box 19 are driven to rotate up and down by the adjusting seat 14, the air pipe 7 and the connecting seat 6 rotate by taking the clamping shaft 5 as the shaft, the clamping shaft 5 is supported by the fixing clamping seat 4 to carry out up-down rotation type air supply, the position of the air supply is increased, the up-down rotation type air supply of the sulfur mixed gas by the air supply structure is realized, the air supply structure is conveniently controlled to carry out air supply in a plurality of directions, the convenience of adjusting the air supply position is improved, the dead angle of the air supply flow in the sulfur burner is reduced, and the utilization rate of the air in the sulfur burner is improved;

a feed pipe 21 is arranged at the top end of the mixing box 19, a feed hose 22 is arranged at the top end of the feed pipe 21, a control panel 26 is arranged on the outer wall of the frame 1, and the output end of the control panel 26 is electrically connected with the first telescopic driving piece 10, the second telescopic driving piece 18 and the input end of the fan 24;

when the combustion device is used, the fan 24 is turned on through the operation control panel 26, external gas enters the inside of the mixing box 19 under the driving of the fan 24, the feeding hose 22 conveys sulfur gas into the feeding pipe 21, the sulfur gas is conveyed into the mixing box 19 through the feeding pipe 21, and the sulfur gas is output through the spiral blade cover 25, so that the sulfur gas is fully contacted and mixed, and the combustion rate is improved.

Working principle: when in use, the external power supply is firstly used for opening the first telescopic driving piece 10 through the operation control panel 26, under the movable support of the movable support 11, the first telescopic driving piece 10 is used for driving the lower ball sleeve 9 to move, under the cooperation of the lower ball sleeve 9 and the lower ball sleeve 8, the lower ball sleeve 8 is used for driving the air pipe 7 to swing left and right, the movable sleeve 2 is used for rotating by taking the movable shaft 3 as an axis, the air pipe 7, the connecting seat 6, the fixed clamping seat 4 and the movable sleeve 2 are synchronously rotated, the air pipe 7 and the mixing box 19 are driven to carry out left and right rotary air supply, the sulfur mixture is sent into the sulfur burning furnace by the spiral blade cover 25 to control and regulate the position of the air outlet, then the second telescopic driving piece 18 is used for opening through the operation control panel 26, under the movable cooperation of the regulating ball sleeve 23 and the regulating ball sleeve 20, the second telescopic driving piece 18 is used for driving the upper ball sleeve 16 to move, under the clearance fit of the upper ball head 16 and the upper ball sleeve 15, the upper ball sleeve 15 drives the adjusting seat 14 to rotate up and down through the connecting shaft 17, the adjusting seat 14 drives the air pipe 7 and the mixing box 19 to rotate up and down, the air pipe 7 and the connecting seat 6 rotate by taking the clamping shaft 5 as the shaft, the clamping shaft 5 is supported by the fixed clamping seat 4 to carry out vertical rotation type air supply to increase the air supply position, the fan 24 is opened through the operation control panel 26, external air enters the inside of the mixing box 19 under the driving of the fan 24, the feeding hose 22 conveys sulfur air into the feeding pipe 21, the feeding pipe 21 conveys the sulfur into the inside of the mixing box 19, and the spiral blade cover 25 outputs the sulfur to fully contact and mix the sulfur, so that the combustion rate is improved, and the use of the air supply structure is completed.

Claims (6)

1. The utility model provides an air supply structure of sulfur burner, includes frame (1) and blast pipe (7), its characterized in that: the outside of frame (1) is equipped with tuber pipe (7), install movable sleeve (2) on frame (1) outer wall on tuber pipe (7) one side, movable sleeve (2) internally mounted has loose axle (3), and both ends of loose axle (3) all with frame (1) swing joint, install on the outer wall of movable sleeve (2) and decide cassette (4), connecting seat (6) are installed on tuber pipe (7) top of deciding cassette (4) one side, clamping axle (5) are installed on the top of connecting seat (6), and connecting seat (6) are through clamping axle (5) and deciding cassette (4) swing joint, lower bulb (8) are installed to the bottom of tuber pipe (7), install on frame (1) outer wall on lower bulb (8) one side and decide support (13), be equipped with on the outer wall of deciding support (13) and move support (11), one end that moves support (11) and be close to deciding support (13) installs movable support (12), and move support (12) and keep away from movable support (10) one end through fixing support (13), and one end of the first telescopic driving piece (10) close to the lower ball head (8) is provided with a lower ball sleeve (9), and the lower ball sleeve (9) extends to the surface of the lower ball head (8).

2. The air supply structure of a sulfur burner as claimed in claim 1, wherein: an adjusting seat (14) is arranged at the top end of an air pipe (7) at one side of the connecting seat (6), an upper ball sleeve (15) is arranged on the outer wall of the adjusting seat (14), a connecting shaft (17) is arranged at one end, close to the adjusting seat (14), of the upper ball sleeve (15), and the adjusting seat (14) is movably connected with the upper ball sleeve (15) through the connecting shaft (17).

3. The air supply structure of a sulfur burner as claimed in claim 1, wherein: an adjusting ball head (23) is arranged on the outer wall of the frame (1) above the movable sleeve (2), an adjusting ball sleeve (20) is sleeved on the surface of the adjusting ball head (23), a second telescopic driving piece (18) is arranged at the bottom end of the adjusting ball sleeve (20), an upper ball head (16) is arranged at the bottom end of the second telescopic driving piece (18), and the bottom end of the upper ball head (16) extends to the inside of the upper ball sleeve (15).

4. The air supply structure of a sulfur burner as claimed in claim 1, wherein: the one end that frame (1) was kept away from to tuber pipe (7) is installed mixing box (19), spiral blade cover (25) are installed to one side that tuber pipe (7) was kept away from to mixing box (19), the internally mounted of mixing box (19) has fan (24).

5. The air supply structure of a sulfur burner as claimed in claim 4, wherein: a feed pipe (21) is arranged at the top end of the mixing box (19), and a feed hose (22) is arranged at the top end of the feed pipe (21).

6. The air supply structure of a sulfur burner as claimed in claim 1, wherein: the outer wall of the frame (1) is provided with a control panel (26), and the output end of the control panel (26) is electrically connected with the input ends of the first telescopic driving piece (10), the second telescopic driving piece (18) and the fan (24).