CN218358912U - Liquid desulfurizing agent preparation facilities - Google Patents

Abstract

A liquid desulfurizer preparation device comprises a crane, a frame, a stirring tank, a lifter and a desulfurizer storage tank; each stirring tank is arranged on the frame; the frame is also provided with an operation platform which is arranged at the top of the stirring tank; the top of the stirring tank is provided with a feed inlet, the upper part of the stirring tank is connected with a water inlet, and the water inlet is connected with a water source through a water pipe; the stirring motor is arranged at the top of the stirring tank, and an output shaft of the stirring motor is connected with a rotating shaft of the stirring paddle; the discharge hole of the stirring tank is arranged at the bottom of the stirring tank; the lifter is arranged on the side surface of the frame; the desulfurizer storage tank is arranged on the ground beside the frame, and the height of the desulfurizer storage tank is lower than that of the discharge hole of the stirring tank; the feed inlet of the desulfurizer storage tank is connected with the outlet of a main pipeline; the discharge port of each stirring tank is respectively connected with the inlet of one branch pipeline, the outlet of each branch pipeline is respectively connected with the main pipeline, and each branch pipeline is connected with a valve. The production device is convenient for mass production of the liquid desulfurizer.

Description

Liquid desulfurizing agent preparation facilities

Technical Field

The utility model belongs to auxiliary agent production facility for cement manufacture specifically is a liquid desulfurizer preparation facilities, and SO2 emission problem can effectively be solved to liquid desulfurizer (this desulfurizer is applicable to novel dry process cement kiln).

Background

The liquid desulfurizing agent is an assistant for dry cement kiln and is applied in the chute of raw material entering the kiln of the dry cement kiln. It is made up by mixing catalyst, dispersing agent and water, and its raw material contains liquid, powder and granular material. Because the technical access threshold is not high, the existing production is mostly small-scale production, and a simple stirring kettle is adopted to stir raw materials. In the large-scale production process, the requirements on the stability, continuity and convenience of production are higher than those of small-scale production, and the existing workshop type production mode is not suitable any more.

Disclosure of Invention

In order to satisfy the production requirement of large output, continuity and stability, the utility model provides a preparation facilities suitable for liquid desulfurizer, concrete technical scheme is as follows:

a liquid desulfurizer preparation device comprises a crane, a frame, a stirring tank, a lifter and a desulfurizer storage tank; the stirring tank is made of metal; a plurality of stirring tanks are arranged; the stirring tank is in the range covered by the travelling crane operation area (the heavy materials are lifted by the travelling crane);

each stirring tank is arranged on the frame; the frame is also provided with an operation platform which is arranged at the top of the stirring tank; the top of the stirring tank is provided with a feed inlet, the upper part of the stirring tank is connected with a water inlet, the water inlet is connected to a water source through a water pipe, and the water pipe is connected with a valve; the stirring motor is arranged at the top of the stirring tank, an output shaft of the stirring motor is connected to a rotating shaft of the stirring paddle, and a rotating axis of the stirring paddle is superposed with a perpendicular bisector of the stirring tank; the discharge hole of the stirring tank is arranged at the bottom of the stirring tank;

the lifter is arranged on the side surface of the frame, and when the lifter rises to the highest position, the platform of the lifter is flush with the operation platform; when the elevator is lowered to a low point, the platform of the elevator is flush with the ground; (convenient for the operator and part of the material to reach the work platform)

The desulfurizer storage tank is arranged on the ground beside the frame, and the height of the desulfurizer storage tank is lower than that of the discharge port of the stirring tank; the feed inlet of the desulfurizer storage tank is connected with the outlet of a main pipeline; the discharge port of each stirring tank is respectively connected with the inlet of one branch pipeline, the outlet of each branch pipeline is respectively connected with the main pipeline, and each branch pipeline is connected with a valve.

Further: a feed inlet of the stirring tank is connected with a feed hopper; the small opening of the feed hopper is downwards connected with the feed inlet of the stirring tank, and the large opening of the feed hopper is upwards connected with a door capable of being opened and closed; the height of the large opening of the feed hopper is not higher than that of the operation platform; one of the four side walls of the feed hopper is a vertical section, and the other pair of side walls respectively form an inclination angle of 60 degrees and an inclination angle of 120 degrees with the horizontal plane.

And further: the tank body of the stirring tank is in the shape of a cylinder and a circular truncated cone which are connected up and down, the big bottom of the circular truncated cone is superposed with the bottom surface of the cylinder, and the small bottom of the circular truncated cone is connected with a discharge hole of the stirring tank.

Further: the device also comprises a raw material storage tank; the raw material storage tank is arranged on the rack and above the operation platform; the raw material storage tank is connected to the feed inlet of the stirring tank through a pipeline; the pipeline is connected with a valve.

Further: the valve is an electrically controlled valve.

Further: the stirring tanks are arranged in pairs; each pair of stirring tanks are arranged in sequence; the main pipeline is positioned between the two stirring tanks in the same pair, and the height of the main pipeline is lower than the discharge hole of the stirring tank; the outlets of the branch pipelines connected with the two stirring tanks in the same pair are oppositely connected with the main pipeline.

Further: the main pipeline is connected with a pump.

Further: two adjacent stirring tanks are provided with a lifter;

for two adjacent stirring tanks, the surface of the platform of the lifter is provided with a conveyer belt, and the operation platform is also provided with a conveyer belt; when the elevator ascends to the highest position, the two conveying belts correspond to each other in position;

the two ends of the conveying belt of the operation platform respectively correspond to the feed inlets of the two adjacent stirring tanks, and the tail end of the conveying belt of the elevator is arranged beside the middle position of the conveying belt of the operation platform; (materials are conveyed to the conveyer belt of the operation platform from the conveyer belt of the lifter, and the conveyer belt of the operation platform carries out forward/reverse feeding and respectively conveys the materials to the feed inlets of two adjacent stirring tanks)

A manipulator is connected beside the feed inlet of the stirring tank and assists in grabbing a charging basket of raw materials.

Is characterized in that the door is connected with the hopper through a hinge structure; the door is also connected with a switch driving structure, the switch driving structure is a hydraulic cylinder, the cylinder body of the hydraulic cylinder is rotationally connected to the operation platform, and the top end of the piston rod of the hydraulic cylinder is rotationally connected to the door; the side of the door connected to the hinge structure and the side connected to the piston rod are located opposite to each other.

In the implementation, because the characteristics of the processed product, the stirring tank is made of common metal materials, and common welding is adopted without considering pressure resistance, strong acid resistance, alkali resistance and the like. The stirring tank can be provided with a plurality of stirring tanks, and the stirring tanks can be respectively in a stirring state or a discharging state. The material storage tanks are multiple and can store and discharge materials respectively.

In order to facilitate production, a conveying belt is arranged on a platform of the lifter and is used for conveying a material barrel and the like of raw materials.

Compared with the prior art, the production device is convenient for realizing mass production of the liquid desulfurizer.

Drawings

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

FIG. 2 is a schematic view showing the construction of a stirring tank and a desulfurizing agent storage tank (left view in FIG. 1)

FIG. 3 is a schematic diagram of a connecting pipeline between a discharge port of a stirring tank and a feed port of a desulfurizing agent storage tank (taking two groups of 4 stirring tanks and 2 desulfurizing agent storage tanks as an example);

FIG. 4a is a partial schematic structural view (cross-sectional angle) of the feed inlet of the agitator tank and the hopper;

FIG. 4b is a schematic view of a partial structure of the feed inlet of the agitation tank and the hopper (a top view of FIG. 4 a);

FIG. 5 is a schematic illustration of the elevator and conveyor belt position of the work platform;

in the figure: the device comprises a traveling crane 1, a rack 2, a stirring tank 3, a lifter 4, a desulfurizer storage tank 5, an operation platform 6, a feed inlet 7 of the stirring tank, a valve 9, a stirring motor 10, a discharge port 11 of the stirring tank, a main pipeline 12, a branch pipeline 13, a feed hopper 14, a door 15, a side wall 16 of the feed hopper, a raw material storage tank 17, a pump 18, a conveying belt 19, a manipulator 20, a hydraulic cylinder 21, a cover plate 22, a support platform 23, a flange plate 24, a 'door' -shaped support 25 and an opening 26 on the cover plate.

Detailed Description

The technical scheme is further explained by combining the drawings and the detailed implementation mode as follows:

referring to fig. 1 and 2, a liquid desulfurizer preparation apparatus includes a traveling crane 1, a frame 2, a stirring tank 3, a lifter 4, and a desulfurizer storage tank 5; the stirring tank is made of metal; a plurality of stirring tanks are arranged; the stirring tank is in the range covered by the travelling crane operation area;

each stirring tank 3 is arranged on the frame 2; an operation platform 6 is also arranged on the frame and is arranged at the top of the stirring tank 3; the top of the stirring tank is provided with a feed inlet (namely a feed inlet 7 of the stirring tank in the attached drawing), the upper part of the stirring tank is connected with a water inlet, the water inlet is connected with a water source through a water pipe, and the water pipe is connected with a valve; the stirring motor 10 is arranged at the top of the stirring tank 3, an output shaft of the stirring motor is connected with a rotating shaft of the stirring paddle, and a rotating axis of the stirring paddle is superposed with a perpendicular bisector of the stirring tank; a discharge port 11 of the stirring tank is arranged at the bottom of the stirring tank;

the lifter 4 is arranged on the side surface of the frame 2, and when the lifter rises to the highest position, the platform of the lifter 4 is flush with the operation platform 6; when the lifter is lowered to a low point, the platform of the lifter 4 is flush with the ground; (convenient for the operator and part of the material to reach the work platform)

The desulfurizer storage tank 5 is arranged on the ground beside the frame 2, and the height of the desulfurizer storage tank is lower than that of the discharge port 11 of the stirring tank. With further reference to FIG. 3, the feed inlet of the desulfurizer storage tank is connected to the outlet of one main pipe 12; the discharge port 11 of each stirring tank is respectively connected with the inlet of a branch pipeline 13, the outlet of each branch pipeline 13 is respectively connected with the main pipeline 12, and each branch pipeline is connected with a valve 9.

In this example:

referring to fig. 4a and 4b, a feed hopper 14 is connected to the feed inlet 7 of the agitator tank; the small opening of the feed hopper is downwards connected with the feed inlet of the stirring tank, and the large opening of the feed hopper is upwards connected with an openable door 15; the height of the large opening of the feed hopper is not higher than the height of the working platform 6 (in this case, the same as the height of the working platform); one of the four side walls of the feed hopper is a vertical section, and the other pair of side walls respectively form an inclination angle of 60 degrees and an inclination angle of 120 degrees with the horizontal plane.

The shape of the tank body of the stirring tank is a cylinder and a circular truncated cone which are connected up and down, the big bottom of the circular truncated cone is superposed with the bottom surface of the cylinder, and the small bottom of the circular truncated cone is connected with a discharge hole of the stirring tank.

Referring again to fig. 1, the present example further includes a raw material storage tank 17; the raw material storage tank is arranged on the frame 2 and above the operation platform 6; the raw material storage tank is connected to the feed inlet of the stirring tank through a pipeline; the pipeline is connected with a valve.

In practice, the valve is an electrically controlled valve. A pump 18 is connected to the main conduit.

In this example, the respective agitation tanks 3 are arranged in pairs; each pair of stirring tanks are arranged in sequence; the main pipeline 12 is positioned between the two stirring tanks in the same pair, and the height of the main pipeline is lower than the discharge port of the stirring tank; the outlets of the branch pipelines connected with the two stirring tanks in the same pair are oppositely connected with the main pipeline. FIG. 1 of this example is a schematic representation of a pair of stirred tanks.

In the embodiment, two adjacent stirring tanks are provided with a lifter;

for two adjacent stirring tanks, the platform surface of the lifter is provided with a conveyer belt 19, and the operation platform is also provided with the conveyer belt 19; when the elevator ascends to the highest position, the two conveyer belts correspond to each other (refer to fig. 5), in fig. 5, the shorter conveyer belt is on the elevator, and the longer conveyer belt is on the operation platform;

the two ends of the conveying belt of the operation platform respectively correspond to the feed inlets of the two adjacent stirring tanks, and the tail end of the conveying belt of the elevator is arranged beside the middle position of the conveying belt of the operation platform; (the materials are conveyed to the conveyer belt of the operation platform from the conveyer belt of the lifter, and the conveyer belt of the operation platform carries out forward/backward feeding and respectively conveys the materials to the feed inlets of two adjacent stirring tanks). A manipulator 20 (the manipulator is arranged on the operation platform) is connected beside the feed inlet of the stirring tank, and the manipulator assists to grip a charging basket of raw materials.

Referring again to fig. 4a and 4b, the door 15 is connected to the hopper by a hinge structure (the wide end of the hopper is flush with the work platform, in this case a cover plate 22 attached to the hopper); the door is also connected with a switch driving structure, the switch driving structure is a hydraulic cylinder 21, the cylinder body of the hydraulic cylinder is rotationally connected with the operation platform 6, and the top end of the piston rod of the hydraulic cylinder is rotationally connected with the door 15; the side of the door connected to the hinge structure and the side connected to the piston rod are located opposite to each other.

In the implementation:

in this example, the frame, the work table, etc. are made of channel steel, i-steel, etc.; the number of the stirring tanks is two, and the total limited capacity is 30 tons.

Referring to fig. 1 and 2, an annular support table 23 is arranged on the ground below the stirring tank, and one side of the support table is provided with a notch; the outer wall of the lower part of the stirring tank is connected with a ring of flange plates 24 which are connected with an annular supporting platform, and the lower part of the stirring tank is arranged in a cavity enclosed by the annular supporting platform. And a branch pipeline connected with a discharge port of the stirring tank extends out of the notch.

A door-shaped bracket 25 is arranged at the top of the stirring tank 3, and a stirring motor 10 is arranged on a beam of the door-shaped bracket. The 'door' -shaped bracket is used as a reinforcing structure, a cross beam of the 'door' -shaped bracket props against the lower part of the operation platform from bottom to top, and a connecting bolt between a machine base of the stirring motor and the cross beam of the 'door' -shaped bracket penetrates through the surface of the operation platform. The agitator motor may also be mounted on the work platform if the structural strength of the work platform is sufficient.

A rotating shaft of the stirring paddle extends out of the feeding hole of the stirring tank and is connected with an output shaft of the stirring motor; a cover plate 22 is connected to the middle position of the large opening of the feed hopper 14, and an opening through which an output shaft of the stirring motor passes is formed in the cover plate;

the door on the feed hopper is divided into two parts which are respectively connected with the left side and the right side of the cover plate in a rotating way and can be sealed on the large opening of the feed hopper in an opening and closing way.

The desulfurizer storage tank can be a plurality of storage tanks, and the storage tanks are made of plastic. A plurality of pairs of support tables are connected on the ground, each desulfurizer storage tank 5 is placed on the pair of support tables 23, and a feed port of the desulfurizer storage tank is connected to the main pipeline through a pipeline; a valve (which can be an electric control valve) is arranged on the feed inlet of the desulfurizer storage tank.

Claims (9)

1. A liquid desulfurizer preparation device is characterized by comprising a crane, a frame, a stirring tank, a lifter and a desulfurizer storage tank; the stirring tank is made of metal; a plurality of stirring tanks are provided; the stirring tank is in the range covered by the travelling crane operation area;

each stirring tank is arranged on the frame; the frame is also provided with an operation platform which is arranged at the top of the stirring tank; the top of the stirring tank is provided with a feed inlet, the upper part of the stirring tank is connected with a water inlet, the water inlet is connected to a water source through a water pipe, and the water pipe is connected with a valve; the stirring motor is arranged at the top of the stirring tank, an output shaft of the stirring motor is connected to a rotating shaft of the stirring paddle, and a rotating axis of the stirring paddle is superposed with a perpendicular bisector of the stirring tank; the discharge port of the stirring tank is arranged at the bottom of the stirring tank;

the lifter is arranged on the side surface of the frame, and when the lifter rises to the highest position, the platform of the lifter is flush with the operation platform; when the lifter is lowered to a low point, the platform of the lifter is flush with the ground;

the desulfurizer storage tank is arranged on the ground beside the frame, and the height of the desulfurizer storage tank is lower than that of the discharge hole of the stirring tank; the feed inlet of the desulfurizer storage tank is connected with the outlet of a main pipeline; the discharge gate of each agitator tank is connected respectively in the import of a spinal canal way, and the export of each spinal canal way is connected respectively in main pipeline, and each spinal canal way all is connected with the valve.

2. The apparatus for preparing a liquid desulfurizing agent according to claim 1, wherein a feed hopper is connected to a feed inlet of the agitation tank; the small opening of the feed hopper is downwards connected with the feed inlet of the stirring tank, and the large opening of the feed hopper is upwards connected with a door capable of being opened and closed; the height of the large opening of the feed hopper is not higher than that of the operation platform; one of the four side walls of the feed hopper is a vertical section, and the other pair of side walls respectively form an inclination angle of 60 degrees and an inclination angle of 120 degrees with the horizontal plane.

3. The apparatus according to claim 1, wherein the stirring tank has a body in the form of a vertically connected cylinder and a circular truncated cone, the circular truncated cone having a large bottom coinciding with the bottom surface of the cylinder and a small bottom connected to the discharge port of the stirring tank.

4. The apparatus for preparing a liquid desulfurizing agent according to claim 1, further comprising a raw material storage tank; the raw material storage tank is arranged on the rack and is arranged above the operation platform; the raw materials storage tank passes through pipe connection in the feed inlet of agitator tank, is connected with the valve on the pipeline.

5. The apparatus for preparing liquid desulfurizing agent according to claim 4, wherein the valve is an electrically controlled valve.

6. The apparatus for preparing a liquid desulfurizing agent according to claim 1, wherein the stirring tanks are arranged in pairs; each pair of stirring tanks are arranged in sequence; the main pipeline is positioned between the two stirring tanks in the same pair, and the height of the main pipeline is lower than the discharge hole of the stirring tank;

the outlets of the branch pipelines connected with the two stirring tanks in the same pair are oppositely connected with the main pipeline.

7. The apparatus for preparing a liquid desulfurizing agent according to claim 1, wherein a pump is connected to the main pipe.

8. The apparatus for preparing a liquid desulfurizing agent according to claim 1, wherein two adjacent agitation tanks are provided with an elevator;

for two adjacent stirring tanks, the surface of the platform of the lifter is provided with a conveyer belt, and the operation platform is also provided with a conveyer belt; when the elevator rises to the highest position, the two conveying belts correspond to each other in position;

two ends of a conveying belt of the operation platform respectively correspond to the feed inlets of two adjacent stirring tanks, and the tail end of the conveying belt of the elevator is beside the middle position of the conveying belt of the operation platform;

a manipulator for assisting in grabbing the raw material barrel is connected beside the feed inlet of the stirring tank.

9. The apparatus for preparing a liquid desulfurizing agent according to claim 1, wherein the door is connected to the hopper through a hinge structure; the door is also connected with a switch driving structure, the switch driving structure is a hydraulic cylinder, the cylinder body of the hydraulic cylinder is rotationally connected to the operation platform, and the top end of the piston rod of the hydraulic cylinder is rotationally connected to the door; the side of the door connected to the hinge structure and the side connected to the piston rod are located opposite to each other.

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