CN219689339U - Recovery device in continuous sulfur melting kettle - Google Patents

Abstract

The utility model provides a recovery device in a continuous sulfur melting kettle, which relates to the field of sulfur recovery and aims to solve the problems that when the existing recovery device in the continuous sulfur melting kettle is used, layering is not clear enough and mixing is easy to occur when sulfur foam is collected by layering floatation, and the recovery device comprises a main body; the main body is a recovery device body, the sealing elements are of L-shaped structures, the sealing elements are made of metal materials, a stress groove is formed in the inner side of each sealing element, and the stress groove is of a wedge-shaped structure. When the layered flotation discharges sulfur, the ejector rod and the auxiliary piece are directly pulled to displace together, so that the pulling plate moves in the bottom groove, the sealing plate is inserted into the sulfur, the sulfur is conveniently layered, and after the sealing plate is completely pulled, the pushing plate is driven to displace together, so that the top end of the pushing plate is contacted with the inside of the stress groove, and the sealing piece is conveniently stressed and ascended due to the inclined contact surface, so that the sulfur after layering is automatically discharged, the convenience of layered flotation is improved, and the mixing is avoided.

Description

Recovery device in continuous sulfur melting kettle

Technical Field

The utility model belongs to the technical field of sulfur recovery, and particularly relates to a recovery device in a continuous sulfur melting kettle.

Background

When the continuous sulfur melting kettle is used, a recovery device is usually required to be installed in the continuous sulfur melting kettle, so that sulfur is recovered, and blockage is avoided.

When the recycling device in the existing continuous sulfur melting kettle is used, when sulfur foam is collected through layered flotation, layering is not clear enough, mixing is easy to occur, sediment is easy to precipitate and adhere, and the device is not convenient to take out.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a recovery device in a continuous sulfur melting kettle, which aims to solve the problems that when the recovery device in the existing continuous sulfur melting kettle is used, layering is not clear enough and mixing is easy to occur when sulfur foam is collected by layering flotation.

The utility model relates to a recovery device in a continuous sulfur melting kettle, which comprises: a main body; the main body is a recovery device body, the main body is arranged in the continuous sulfur melting kettle, a sedimentation tank is arranged in the main body, six control pieces are arranged on the right side of the sedimentation tank, a sealing piece is arranged in each two control pieces, the sealing piece is of an L-shaped structure, the sealing piece is made of metal materials, a stress tank is arranged on the inner side of each sealing piece, and the stress tank is of a wedge-shaped structure; the sealing plate, the sealing plate is rectangular structure, and the sealing plate is plastics material, and the sealing plate embedding is in the inside of main part, and the sealing plate is equipped with three altogether about, and the sealing plate right side of below is wedge structure.

Optionally, a top piece is installed at the top end of the main body, the inside of the top piece is of a conical structure, the top piece is of a round structure, the outside of the top piece is fixedly connected with the inner wall of the continuous sulfur melting kettle, and the sedimentation tank is of a rectangular structure; the left end of the main body is provided with three side grooves, each side groove is of a rectangular structure, a sealing plate is inserted into each side groove, the right side of each side groove is communicated with the interior of the sedimentation groove, the control piece is of an L-shaped structure, and every two control pieces are symmetrically arranged; the right-hand member of main part is equipped with three connecting pipe, the inside of connecting pipe and the inside intercommunication of precipitation tank, and the outside of every connecting pipe is equipped with an annular groove, and the inside bottom of every connecting pipe is equipped with a kerve, and the inside intercommunication of kerve inner and precipitation tank, the outside of kerve and the inside intercommunication of annular groove.

Optionally, a pull plate is arranged at the right end of each sealing plate, the pull plates are of rectangular structures, the pull plates are simultaneously inserted into the bottom groove and the sedimentation groove, a pushing plate is arranged above the left end of each pull plate, the pushing plate is of a rectangular structure, the top end of the pushing plate is of a wedge-shaped structure, and the pushing plate is positioned in the sedimentation groove; the right end of each pull plate is provided with an auxiliary piece, the auxiliary piece is of a circular ring structure, the auxiliary pieces are embedded into the circular grooves, the upper end and the lower end of each auxiliary piece are respectively provided with a push rod, the push rods are of rectangular structures, the top ends of the push rods above the push rods are provided with a slot, and the slot is of a rectangular structure; the ejector rod bottom of below is equipped with a removal groove, and the removal groove is T shape structure, and the inside in every removal groove has an inserted block, and the inserted block is T shape structure.

Compared with the prior art, the utility model has the following beneficial effects:

1. through setting up sealing member and atress groove, make this device when the sulfur is discharged in layering flotation, can directly stimulate ejector pin and auxiliary member and displace together, make the arm-tie can remove in the inside of base tank, and then drive the closing plate and remove together, make the closing plate can insert inside the sulfur, and then convenient layering with sulfur, and after the closing plate is whole to be pulled, can drive the impeller plate and displace together, make the top of impeller plate can with the inside contact of atress groove, because the contact surface is the heliciform structure, make sealing member can convenient atress rise, and then make the sulfur after the layering can be discharged automatically, and then improve the convenience of layering flotation, avoid appearing mixing;

2. through setting up the closing plate, make this device when the control closing plate removes the layering, the right-hand member of closing plate of bottommost is wedge structure, makes it after removing, can scrape the bottom of getting the precipitation tank, and then scrapes the precipitate of getting the inside bottom of precipitation tank and clear away, makes it unable attached to the bottom of precipitation tank, makes the precipitate can float, and then follows the sulphur and discharge together and retrieve.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of a partial cross-sectional perspective structure of the present utility model.

Fig. 3 is a schematic view of a partially sectioned exploded perspective view of the present utility model.

Fig. 4 is a schematic view of a partial cross-sectional perspective view of the body of the present utility model.

Fig. 5 is an exploded perspective view of the sealing plate of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a main body; 101. a top piece; 102. a precipitation tank; 103. a side groove; 104. a control member; 105. a seal; 106. a stress groove; 107. a connecting pipe; 108. a bottom groove;

2. a sealing plate; 201. pulling a plate; 202. a pushing plate; 203. an auxiliary member; 204. a push rod; 205. a slot; 206. a moving groove; 207. and (5) inserting blocks.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 5:

the utility model provides a recovery device in a continuous sulfur melting kettle, which comprises: a main body 1; the main body 1 is a recovery device body, the main body 1 is arranged in a continuous sulfur melting kettle, a sedimentation tank 102 is arranged in the main body 1, six control pieces 104 are arranged on the right side of the sedimentation tank 102, one sealing piece 105 is arranged in each two control pieces 104, the sealing piece 105 is of an L-shaped structure, the sealing piece 105 is made of metal, can move up and down by utilizing self gravity and is convenient to seal, a stress groove 106 is arranged on the inner side of each sealing piece 105, the stress groove 106 is of a wedge-shaped structure and is used for being in sliding contact with the top end of a pushing plate 202, and after the sealing plate 2 is displaced, the sealing piece 105 can be automatically pushed up, and sulfur discharge can be conveniently controlled; the sealing plate 2, sealing plate 2 are rectangular structure, and sealing plate 2 is plastics material, and sealing plate 2 imbeds in the inside of main part 1, and sealing plate 2 is equipped with three altogether, and the sealing plate 2 right side of below is wedge structure, can scrape the precipitate of getting the precipitation tank 102 bottom when removing, makes the precipitate discharge together along with sulfur.

Referring to fig. 4, a top piece 101 is installed at the top end of a main body 1, the inside of the top piece 101 is in a conical structure, so that sulfur can be guided to circulate and collect, the top piece 101 is in a circular structure, the outside of the top piece 101 is fixedly connected with the inner wall of a continuous sulfur melting kettle, and a sedimentation tank 102 is in a rectangular structure, so that sulfur can be sedimentated in the top piece; the left end of the main body 1 is provided with three side grooves 103, the side grooves 103 are of rectangular structures, a sealing plate 2 is inserted into each side groove 103, so that the sealing plate 2 can be embedded into the side grooves for use, the right side of each side groove 103 is communicated with the interior of the sedimentation groove 102, and the control piece 104 is of an L-shaped structure and is used for controlling the guiding displacement of the sealing piece 105, and every two control pieces 104 are symmetrically arranged; the right-hand member of main part 1 is equipped with three connecting pipe 107 for with outside pipe connection, the inside of connecting pipe 107 communicates with the inside of precipitation tank 102, and the outside of every connecting pipe 107 is equipped with an annular groove for making auxiliary 203 in its inside direction displacement, and the inside bottom of every connecting pipe 107 is equipped with a kerve 108, and the inside intercommunication of kerve 108 inner and precipitation tank 102, the inside intercommunication of kerve 108 outer end and annular groove makes the arm-tie 201 can in the inside direction displacement of kerve 108.

Referring to fig. 5, a pull plate 201 is disposed at the right end of each sealing plate 2, the pull plate 201 has a rectangular structure and is used for driving the sealing plates 2 to displace together, the pull plate 201 is simultaneously inserted into the bottom groove 108 and the interior of the sedimentation tank 102, a push plate 202 is disposed above the left end of each pull plate 201, the push plate 202 has a rectangular structure, the top end of the push plate 202 has a wedge-shaped structure and is used for sliding contact with the interior of the stress tank 106, so that the sealing member 105 is conveniently pushed to rise, and the push plate 202 is positioned in the interior of the sedimentation tank 102; an auxiliary piece 203 is arranged at the right end of each pull plate 201, the auxiliary piece 203 is of a circular ring structure, the auxiliary piece 203 is embedded into the circular groove and can move in a guiding way, the upper end and the lower end of each auxiliary piece 203 are respectively provided with a push rod 204, the push rods 204 are of rectangular structures and are used for conveniently controlling the auxiliary piece 203 to move, the top end of each push rod 204 above is provided with a slot 205, and the slot 205 is of rectangular structures; the bottom end of the ejector rod 204 below is provided with a movable groove 206, the movable groove 206 is of a T-shaped structure, so that the plug 207 can be moved and displaced conveniently, the plug 207 is embedded into each movable groove 206, the plug 207 is of a T-shaped structure and is used for being inserted into the slot 205 below, so that a plurality of auxiliary pieces 203 can be connected together to displace together, and the sulfur recovery efficiency is improved.

When in use, the utility model is characterized in that: when this device is used to needs, main part 1 can fix the inside bottom of continuous sulfur melting cauldron and use, then connecting pipe 107 is in the outside of continuous sulfur melting cauldron, and then with the pipe connection, when the sulfur falls, can fall in the inside of top piece 101, make top piece 101 can control sulfur direction circulation, make the sulfur can enter into the inside sediment collection of precipitation tank 102, when needs layering flotation, can directly pull ejector pin 204 and remove, make ejector pin 204 can drive auxiliary member 203 and arm-tie 201 and displace together, make closing plate 2 by pulling displacement, make closing plate 2 separate the sulphur layering, and then make the sulphur avoid mixing in the time of discharging, simultaneously after closing plate 2 removes, can drive arm-tie 202 and displace together, make the top of arm-tie 202 can with the inside sliding contact of atress groove 106, because the contact surface is the slope form structure, make sealing member 105 can rise automatically, make the bottom of connecting pipe 107 can be opened by layering, make the sulfur can separate layer and collect, improve layering flotation efficiency, when closing plate 2 of bottom removes simultaneously, because the end of closing plate 2 of bottom is the bottom can be used for the precipitation tank 102, can be convenient and fast recovery of sulphur together.

Claims (7)

1. A recycling device in a continuous sulfur melting kettle, which is characterized by comprising: a main body (1); the main body (1) is a recovery device body, the main body (1) is arranged in the continuous sulfur melting kettle, a sedimentation tank (102) is arranged in the main body (1), six control pieces (104) are arranged on the right side of the sedimentation tank (102), one sealing piece (105) is arranged in each two control pieces (104), the sealing piece (105) is of an L-shaped structure, the sealing piece (105) is made of metal, a stress groove (106) is formed in the inner side of each sealing piece (105), and the stress groove (106) is of a wedge-shaped structure; the sealing plate (2), sealing plate (2) are rectangular structure, and sealing plate (2) are plastics material, and sealing plate (2) imbeds in the inside of main part (1), and sealing plate (2) are equipped with three altogether, and sealing plate (2) right side of below is wedge structure.

2. The recycling device in the continuous sulfur melting kettle as claimed in claim 1, wherein the top end of the main body (1) is provided with a top piece (101), the inside of the top piece (101) is of a conical structure, the top piece (101) is of a circular structure, the outside of the top piece (101) is fixedly connected with the inner wall of the continuous sulfur melting kettle, and the sedimentation tank (102) is of a rectangular structure.

3. The recycling device in the continuous sulfur melting kettle according to claim 1, wherein three side grooves (103) are formed in the left end of the main body (1), each side groove (103) is of a rectangular structure, a sealing plate (2) is inserted into each side groove (103), the right side of each side groove (103) is communicated with the inside of the sedimentation groove (102), the control piece (104) is of an L-shaped structure, and every two control pieces (104) are symmetrically arranged.

4. The recycling device in the continuous sulfur melting kettle according to claim 1, wherein the right end of the main body (1) is provided with three connecting pipes (107), the inside of each connecting pipe (107) is communicated with the inside of the sedimentation tank (102), an annular groove is formed in the outside of each connecting pipe (107), a bottom groove (108) is formed in the bottom end of the inside of each connecting pipe (107), the inner end of the bottom groove (108) is communicated with the inside of the sedimentation tank (102), and the outer end of the bottom groove (108) is communicated with the inside of the annular groove.

5. The recycling device in the continuous sulfur melting kettle according to claim 4, wherein a pull plate (201) is arranged at the right end of each sealing plate (2), the pull plates (201) are of rectangular structures, the pull plates (201) are simultaneously inserted into the bottom groove (108) and the sedimentation groove (102), a pushing plate (202) is arranged above the left end of each pull plate (201), the pushing plate (202) is of rectangular structures, the top ends of the pushing plates (202) are of wedge structures, and the pushing plates (202) are positioned in the sedimentation groove (102).

6. The recycling device in the continuous sulfur melting kettle according to claim 5, wherein an auxiliary piece (203) is arranged at the right end of each pull plate (201), the auxiliary piece (203) is of a circular ring-shaped structure, the auxiliary piece (203) is embedded into the circular groove, ejector rods (204) are respectively arranged at the upper end and the lower end of each auxiliary piece (203), the ejector rods (204) are of rectangular structures, a slot (205) is arranged at the top end of each ejector rod (204) above, and each slot (205) is of a rectangular structure.

7. The recycling device in the continuous sulfur melting kettle as claimed in claim 6, wherein a moving groove (206) is arranged at the bottom end of the ejector rod (204) below, the moving groove (206) is of a T-shaped structure, an inserting block (207) is embedded in each moving groove (206), and the inserting block (207) is of a T-shaped structure.