CN216548145U

CN216548145U - Screw conveyer with drying function

Info

Publication number: CN216548145U
Application number: CN202122458958.3U
Authority: CN
Inventors: 王艺森; 刘家用; 刘金刚; 李元元; 张琦; 张安舒; 杨新洲
Original assignee: Osgad Xuzhou Machinery Manufacturing Co ltd
Current assignee: Osgad Xuzhou Machinery Manufacturing Co ltd
Priority date: 2021-10-13
Filing date: 2021-10-13
Publication date: 2022-05-17
Anticipated expiration: 2031-10-13

Abstract

The utility model discloses a spiral conveyor with a drying function, which comprises a conveying pipeline and a butt-joint box, wherein the conveying pipeline is arranged on a hoisting structure, the conveying pipeline is provided with a power system, the hoisting structure and a drying structure, and the butt-joint box is provided with an automatic butt-joint structure; the drying structure comprises: the drying device comprises a drying cover, a lifting structure, a heating structure and an air inlet system; the conveying pipeline is a semicircular cover body, butt joint channels are arranged at the left end and the right end of the conveying pipeline, the drying cover is matched with the semicircular cover body of the conveying pipeline, a strip-shaped insertion strip is arranged at the edge part of the drying cover, a strip-shaped insertion groove is arranged at the edge part of the conveying pipeline, and the strip-shaped insertion strip can be inserted into the strip-shaped insertion groove. According to the technical scheme, the materials can be transported between different processes through one transport line, and various materials can be transported to different processing equipment respectively, so that the cost for constructing the material transport line is reduced.

Description

Screw conveyer with drying function

Technical Field

The utility model relates to the technical field of screw conveyors, in particular to a screw conveyor with a drying function.

Background

The screw conveyer is a machine which utilizes a motor to drive a screw to rotate and push materials so as to realize the conveying purpose. The conveying device can convey horizontally, obliquely or vertically, and has the advantages of simple structure, small cross section area, good sealing property, convenience in operation, easiness in maintenance, convenience in closed transportation and the like. The spiral conveyor is divided into a shaft spiral conveyor and a shaftless spiral conveyor in the conveying form, and is divided into a U-shaped spiral conveyor and a tubular spiral conveyor in the appearance. The shaftless screw conveyor is suitable for dry powder materials and small particle materials without viscosity (such as cement, fly ash, lime, grains and the like), while the shaftless screw conveyor is suitable for materials with viscosity and easy winding. The working principle of the screw conveyer (such as sludge, biomass, garbage and the like) is that a rotating screw blade pushes materials to convey the materials by the screw conveyer, and the force which prevents the materials from rotating together with the screw conveyer blade is the self weight of the materials and the frictional resistance of a shell of the screw conveyer to the materials. The surface type of the spiral blade welded on the rotating shaft of the spiral conveyor is solid surface type, belt surface type, blade surface type and other types according to different conveyed materials.

Spiral conveyor is one kind of conveyer, but traditional spiral conveyor can only realize that one-way material removes, can not be with the motion transform direction of material, present spiral conveyor's function is comparatively single simultaneously to because the material transports the demand of length, the length that leads to spiral conveyor is great, need install the gallows structure for this reason, and because present gallows structure, the mounting means needs manual work, in the renewal part in later stage and when maintaining, all seem more troublesome.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purposes, the utility model provides a spiral conveyor with a drying function, which comprises a conveying pipeline and a butt-joint box, wherein the conveying pipeline is arranged on a hoisting structure, the conveying pipeline is provided with a power system, the hoisting structure and a drying structure, and the butt-joint box is provided with an automatic butt-joint structure;

the drying structure comprises: the drying device comprises a drying cover, a lifting structure, a heating structure and an air inlet system;

the conveying pipeline is a semicircular cover body, butt joint channels are arranged at the left end and the right end of the conveying pipeline, the drying cover is matched with the semicircular cover body of the conveying pipeline, a strip-shaped insertion strip is arranged at the edge part of the drying cover, a strip-shaped insertion groove is arranged at the edge part of the conveying pipeline, and the strip-shaped insertion strip can be inserted into the strip-shaped insertion groove;

elevation structure sets up in the bottom of stoving cover, elevation structure contains: the device comprises a plurality of propulsion motors, a plurality of scissor type telescopic frames, a plurality of slide rails, a plurality of synchronous rods and a plurality of bases;

the base is arranged under the drying cover, the sliding rail is laid on the base, one end of the bottom of the scissor type telescopic frame is connected with the base, the other end of the bottom of the scissor type telescopic frame is movably connected to the sliding rail and can move on the sliding rail, the synchronizing rod is positioned at one end of the bottom of the scissor type telescopic frame, which is connected with the sliding rail, the propelling motor is positioned on the base, the telescopic end of the propelling motor is connected with the synchronizing rod, and the driving end of the propelling motor can push the synchronizing rod to move;

the heating structure includes: a plurality of heating sheets, heating boxes and heating wires;

the drying cover is provided with a plurality of mounting notches, the heating sheet is embedded in the mounting notches, the heating box is positioned on the heating sheet, and the heating wires are positioned inside the heating box;

the air inlet system includes: a plurality of air inlets, a fan and branch pipelines;

the air inlets are embedded in the upper end of the conveying pipeline, the fan is connected with the air inlets through branch pipelines, and the air inlets are laid on the conveying pipeline at equal angles.

The conveying pipe is internally provided with the helical blade, so that the feeding port of the conveying pipe is positioned on the upper wall surface of the conveying pipe, the discharging port is positioned below one end of the conveying pipe, and the discharging port is in an L shape.

Preferably, the butt joint structure is arranged on a butt joint box, and a position exchange structure is arranged on the butt joint box;

the position exchange structure includes: the device comprises a diversion pipeline, a moving frame, a moving motor, a pair of linear guide rails, a pair of sliding bodies, a conversion frame, a conversion motor, a rotating shaft and a limiting assembly;

the conversion frame is arranged on the supporting surface, the conversion motor is positioned on the rotating frame and is connected with the butt joint box through the conversion shaft, the butt joint ports are formed in 3 adjacent surfaces of the butt joint box, and the limiting assembly is arranged on the conversion frame;

the movable frame is located on the supporting surface, the pair of linear guide rails are arranged on the movable frame, the pair of sliding bodies are assembled in the pair of linear guide rails, the movable motor is located on the movable frame, the driving end of the movable motor is connected with the pair of sliding bodies, the conversion frame is located on the pair of sliding bodies, the butt joint port is matched with the threaded plug cover, and the butt joint port can be connected with the conveying pipeline and the turning pipeline.

Preferably, the docking structure comprises: the pair of electric push rods, the pair of butt-joint frames, the pair of clamping motors and the pair of arc-shaped fixing pieces;

the pair of electric push rods are arranged on the outer wall of the butt joint box, the pair of butt joint frames are connected with the telescopic ends of the pair of electric push rods, the pair of clamping motors are located on the pair of butt joint frames, and the pair of arc-shaped fixing pieces are arranged at the driving ends of the pair of clamping motors.

Preferably, the power system comprises: the power transmission box, the power motor, the driving bevel gear, the driven bevel gear and the telescopic motor are arranged on the base;

the power transmission case sets up the one end position that is used for pipeline, and the cartridge is in helical blade in the pipeline, and this helical blade's one end runs through behind the power transmission case and is connected with driven gear, flexible motor is located the power transmission case outside, and flexible end stretches into inside the power transmission case, and power motor's drive end is connected with drive bevel gear, drive bevel gear can mesh with driven bevel gear.

Preferably, the limiting component comprises: the device comprises a limiting feeding cylinder, a limiting wheel with a plurality of limiting teeth and a limiting clamping edge;

the limiting wheel is sleeved on the rotating shaft, the limiting feeding cylinder is located on the outer wall of the conversion frame and located on the conversion frame, the piston end of the limiting feeding cylinder is connected with the limiting clamping edge, and the limiting clamping edge can be meshed with the limiting wheel.

Preferably, the hoisting structure comprises: the device comprises a door-shaped frame, a pair of pulling motors, a pair of pulling frames and a plurality of telescopic rods;

the pair of pulling motors are arranged on the supporting surface, the pair of pulling frames are connected with the conveying pipeline, the telescopic ends of the pair of pulling motors are connected with the upper end part of each pulling frame through a connecting rod in a pin shaft mode, and the telescopic rods are located on the supporting surface and the pulling frames.

Preferably, a fastening frame is arranged between the pair of pulling motors and the supporting surface.

Preferably, a motor frame is arranged between the conversion frame and the steering motor.

Preferably, the left end and the right end of the plurality of slide rails are provided with fastening frames.

Preferably, the threaded plug covers are provided with rotating handles.

Advantageous effects

The utility model provides a spiral conveyor with a drying function. Possess following beneficial effect, this technical scheme can accomplish the transportation to the material between the different processes through a transfer chain mainly, can transport different processing equipment respectively to multiple material in, reduce the cost that the material transfer chain was built, the effectual inside relevant freight charge's of enterprise spending that has reduced, the present case has set up multiple structure of being convenient for open and dismantle for the maintenance and the warranty in the convenience of later stage simultaneously, can effectual help operating personnel accomplish above-mentioned work.

Drawings

Fig. 1 is a schematic structural diagram of a screw conveyor with a drying function according to the present invention.

FIG. 2 is a schematic diagram of the power system of the present invention.

Fig. 3 is a schematic structural diagram of the drying structure according to the present invention.

Fig. 4 is a schematic structural diagram of the side view of the automatic docking structure according to the present invention.

Fig. 5 is a schematic top view of the automatic docking structure according to the present invention.

Fig. 6 is a schematic structural view of the limiting assembly according to the present invention.

Fig. 7 is a schematic structural diagram of the lifting structure of the present invention.

Fig. 8 is a schematic structural view of a heating structure according to the present invention.

Fig. 9 is a schematic view of a partial top view of the lifting structure of the present invention.

In the figure: 1. a delivery conduit; 2. a diversion pipeline; 3. a butt-joint box; 4. a drying cover; 5. feeding a motor; 6. a scissor type telescopic frame; 7. a plurality of slide rails; 8. a synchronization lever; 9. a base; 10. a heating plate; 11. a heating box; 12. heating wires; 13. an air inlet; 14. a fan; 15. a branch line; 16. a movable frame; 17. a moving motor; 18. a linear guide rail; 19. a slider; 20. a conversion frame; 21. converting the motor; 22. a rotating shaft; 23. a butt joint port; 24. a threaded plug cover; 25. an electric push rod; 26. a docking rack; 27. clamping the motor; 28. an arc-shaped fixing piece; 29. a power transmission case; 30. a power motor; 31. a drive bevel gear; 32. a driven bevel gear; 33. a telescopic motor; 34. a helical blade; 35. a limiting feeding cylinder; 36. a limiting wheel; 37. limiting clamping edges; 38. a pulling motor; 39. a pulling frame; 40. a telescopic rod.

Detailed Description

All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a screw conveyor with a drying function.

Example (b): a spiral conveyor with a drying function comprises a hoisting structure, a conveying pipeline 1, a butt joint pipeline and a butt joint box 3, wherein the conveying pipeline 1 is arranged on the hoisting structure, a power system and a drying structure are arranged on the conveying pipeline 1, and an automatic butt joint structure is arranged on the butt joint box 3;

it should be noted that, in the above, when the material needs to be dried and heated through the conveying pipeline 1, the material inside the conveying pipeline 1 may be heated through the drying structure, and when the material residue inside the conveying pipeline 1 is maintained and cleaned in the later period, the conveying pipeline 1 may be opened by lifting the drying structure, when the material conveying direction needs to be changed, the position may be changed through the hoisting structure, and the pipeline is docked by using the automatic docking structure, meanwhile, due to the length of the conveying pipeline 1, the hoisting structure is provided for this purpose; the material is conveyed mainly by a power system, and the power system can realize quick separation and is beneficial to later maintenance;

specifically, the stoving structure contains: the drying hood 4, a lifting structure, a heating structure and an air inlet system;

the conveying pipeline 1 is a semicircular cover body, butt joint channels are arranged at the left end and the right end of the conveying pipeline, the drying cover 4 is matched with the semicircular cover body of the conveying pipeline 1, a strip-shaped insertion strip is arranged at the edge part of the drying cover 4, a strip-shaped insertion groove is arranged at the edge part of the conveying pipeline 1, and the strip-shaped insertion strip can be inserted into the strip-shaped insertion groove;

it should be noted that, in the above, the drying hood 4 can be lifted by the lifting structure, the drying hood 4 can be matched with the conveying pipeline 1 to realize sealing, and the heating structure and the air inlet system are both used for heating the material inside the conveying pipeline 1;

specifically, elevation structure sets up in the bottom of stoving cover 4, and elevation structure contains: a plurality of propulsion motors 5, a plurality of scissor type telescopic frames 6, a plurality of slide rails 7, a plurality of synchronous rods 8 and a plurality of bases 9;

the base 9 is arranged right below the drying cover 4, the slide rail is laid on the base 9, one end of the bottom of the scissor type telescopic frame 6 is connected with the base 9, the other end of the bottom of the scissor type telescopic frame is movably connected to the slide rail and can move on the slide rail, the synchronizing rod 8 is positioned at one end of the bottom of the scissor type telescopic frame 6, which is connected with the slide rail, the propelling motor 5 is positioned on the base 9, the telescopic end of the propelling motor 5 is connected with the synchronizing rod 8, and the driving end of the propelling motor 5 can push the synchronizing rod 8 to move;

it should be noted that, in the above, the provision of power is realized by the plurality of propulsion motors 5, and the lifting of the drying hood 4 is assisted by the scissor type telescopic frame 6, the synchronizing rod 8 is used for enabling the bottom of the scissor type telescopic frame 6 to realize synchronous action, the pushing to the bottom of the scissor type telescopic frame 6 is completed by the telescopic end of the propulsion motor 5 through the synchronizing rod 8, and then the driving to the drying hood 4 can be realized after the scissor type telescopic frame 6 is telescopic;

specifically, the heating structure includes: a plurality of heating sheets 10, a heating box 11 and heating wires 12;

the drying cover 4 is provided with a plurality of mounting notches, the heating sheet 10 is embedded in the mounting notches, the heating box 11 is positioned on the heating sheet 10, and the heating wires 12 are positioned inside the heating box 11;

it should be noted that a plurality of mounting notches for mounting the heating sheet 10 are formed in the outer wall of the drying cover 4, the heating wire 12 is used for heating the heating sheet 10, and the heating sheet 10 is used for heating the material;

specifically, the air inlet system contains: a plurality of air inlets 13, a fan 14 and branch pipelines 15;

the plurality of air inlets 13 are embedded in the upper end part of the conveying pipeline 1, the fan 14 is connected with the plurality of air inlets 13 through the branch pipeline 15, and the plurality of air inlets 13 are laid on the conveying pipeline 1 at equal angles.

It should be noted that, in order to heat the material, the fan 14 is used to generate wind, and the wind is transmitted to the plurality of air inlets 13 through the branch pipeline 15;

specifically, the butt joint structure is arranged on the butt joint box 3, and the butt joint box 3 is provided with a position exchange structure;

the position exchange structure includes: the device comprises a diversion pipeline 2, a moving frame 16, a moving motor 17, a pair of linear guide rails 18, a pair of sliding bodies 19, a conversion frame 20, a conversion motor 21, a rotating shaft 22 and a limiting component;

the conversion frame 20 is arranged on the supporting surface, the conversion motor 21 is positioned on the rotating frame, the conversion motor 21 is connected with the butt joint box 3 through a conversion shaft, the butt joint ports 23 are arranged on the adjacent 3 surfaces of the butt joint box 3, and the limiting assembly is arranged on the conversion frame 20;

the moving frame 16 is positioned on the supporting surface, the pair of linear guide rails 18 are arranged on the moving frame 16, the pair of sliding bodies 19 are assembled in the pair of linear guide rails 18, the moving motor 17 is positioned on the moving frame 16, the driving end of the moving motor 17 is connected with the pair of sliding bodies 19, the conversion frame 20 is positioned on the pair of sliding bodies 19, the butt joint port 23 is matched with the threaded plug cover 24, and the butt joint port 23 can be connected with the conveying pipeline 1 and the diversion pipeline 2.

It should be noted that, when the direction of the diversion pipeline 2 needs to be adjusted, the moving motor 17 is controlled to drive the sliding body 19, the sliding body 19 drives the moving frame 16 to move on the linear guide rail 18, the moving frame 16 is provided with the docking box 3, the docking port 23 on the docking box 3 can be separated from the docking port 23 on the conveying pipeline 1, then the conversion motor 21 is controlled to drive the rotating shaft, the conversion shaft drives the docking box 3 to rotate, the docking port 23 on the docking box 3 is converted, after the appropriate docking port 23 is selected, the moving motor 17 is controlled to dock the docking port 23 with the conveying pipeline 1, the docking structure is controlled to select one of the diversion pipeline 2 and the other 3 docking ports 23 on the docking box 3, and then the unused docking port 23 is sealed by the screw plug cover 24;

it should be noted that, the above design is to realize the material transportation between different materials and different processes through one transportation pipeline 1 and one diversion pipeline 2, and the implementation of the above technical scheme can reduce the overhead and investment of designing the conveyer between different processes;

specifically, the docking structure includes: a pair of electric push rods 25, a pair of butt-joint frames 26, a pair of clamping motors 27 and a pair of arc-shaped fixing pieces 28;

a pair of electric push rods 25 are mounted on the outer wall of the butt-joint box 3, a pair of butt-joint brackets 26 are connected with the telescopic ends of the pair of electric push rods 25, a pair of clamping motors 27 are positioned on the pair of butt-joint brackets 26, and a pair of arc-shaped fixing pieces 28 are arranged on the driving ends of the pair of clamping motors 27.

It should be noted that, the number of the butting structures includes 2 groups, which are respectively located on 2 of the butting openings 23, the pair of electric push rods 25 is used for pushing the pair of butting frames 26 to advance, and when the pair of butting frames 26 allow the pair of arc-shaped fixing pieces 28 to reach the vicinity of the diversion pipeline 2, the pair of clamping motors 27 is controlled to drive the pair of arc-shaped fixing pieces 28 to clamp the diversion pipeline 2, and the pair of electric push rods 25 pulls the pair of butting frames 26 to retract, so as to butt one end of the diversion pipeline 2 with the butting opening 23;

specifically, the power system includes: a power transmission box 29, a power motor 30, a driving bevel gear 31, a driven bevel gear 32 and a telescopic motor 33;

the power transmission box 29 is arranged at one end part of the transmission pipeline 1, the transmission pipeline 1 is internally inserted in the spiral blade 34, one end of the spiral blade 34 penetrates through the power transmission box 29 and then is connected with the driven gear, the telescopic motor 33 is positioned outside the power transmission box 29, the telescopic end extends into the power transmission box 29 and is connected with the driving end of the power motor 30, the driving end of the power motor 30 is connected with the driving bevel gear 31, and the driving bevel gear 31 can be meshed with the driven bevel gear 32;

it should be noted that when materials need to be conveyed, the power motor 30 can be driven to descend by the telescopic motor 33, the driving bevel gear 31 on the driving end of the power motor 30 is meshed with the driven bevel gear 32 on the spiral blade 34, and then the spiral blade 34 can rotate, so that the materials are conveyed, and specifically, a power system is also arranged on the direction-changing pipeline 2.

Specifically, the spacing subassembly contains: the device comprises a limiting feeding cylinder 35, a limiting wheel 36 with a plurality of limiting teeth and a limiting clamping ridge 37;

the limiting wheel 36 is sleeved on the rotating shaft 22, the limiting feeding cylinder 35 is located on the outer wall of the conversion frame 20, the limiting cylinder is located on the conversion frame 20, the piston end of the limiting feeding cylinder 35 is connected with the limiting clamping ridge 37, and the limiting clamping ridge 37 can be meshed with the limiting wheel 36.

It should be noted that, in the above, the limiting feed cylinder 35 in the limiting assembly drives the limiting clamping edge 37 to advance, so that the limiting clamping edge 37 is engaged with the limiting wheel 36 on the rotating shaft 22, thereby fixing the rotating shaft 22.

Specifically, hoisting structure contains: a pair of pulling motors 38, a pair of pulling frames 39 and a plurality of telescopic rods 40;

the pair of pulling motors 38 are arranged on the supporting surface, the pair of pulling frames 39 are connected with the conveying pipeline 1, the telescopic ends of the pair of pulling motors 38 are in pin connection with the upper end part of the pulling frame 39 through a connecting rod, and the plurality of telescopic rods 40 are positioned on the supporting surface and the pulling frames 39.

The gantry is arranged above the conveying pipeline 1 and spans the conveying pipeline 1, the pair of pulling motors 38 can pull the pair of pulling frames 39 through extension and contraction, so that the height and the position of the conveying pipeline 1 are adjusted, and the plurality of telescopic rods 40 realize auxiliary support; because long-time use pipeline 1, can lead to pipeline 1's position to take place the transform, just can not cooperate with position exchange structure for this reason, so set up this hoist and mount structure, can realize the fine setting to pipeline 1 to can also be in the maintenance and the maintenance in later stage, the manual work of being convenient for is adjusted pipeline 1's position.

Specifically, a fastening bracket is provided between the pair of pulling motors 38 and the support surface.

Specifically, a motor frame is disposed between the conversion frame 20 and the steering motor.

Specifically, both ends all are provided with the fastening frame about a plurality of slide rails 7.

Specifically, the screw plug caps 24 are provided with rotating handles.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A spiral conveyor with a drying function comprises a conveying pipeline and a butt-joint box, and is characterized in that the conveying pipeline is arranged on a hoisting structure, a power system, the hoisting structure and a drying structure are arranged on the conveying pipeline, and an automatic butt-joint structure is arranged on the butt-joint box;

the heating structure includes: a plurality of heating sheets, a heating box and heating wires;

the air inlets are embedded in the upper end part of the conveying pipeline, the fan is connected with the air inlets through branch pipelines, and the air inlets are laid on the conveying pipeline at equal angles;

the conveying pipeline is internally provided with the helical blades, so that the feeding hole of the conveying pipeline is positioned on the upper wall surface of the conveying pipeline, the discharging hole is positioned below one end of the conveying pipeline, and the discharging hole is L-shaped.

2. The screw conveyor with the drying function according to claim 1, wherein the butt joint structure is provided on a butt joint box, and a position exchange structure is provided on the butt joint box;

3. A screw conveyor having a drying function according to claim 2, wherein the abutting structure comprises: the pair of electric push rods, the pair of butt-joint frames, the pair of clamping motors and the pair of arc-shaped fixing pieces are arranged on the two sides of the frame;

the pair of electric push rods are arranged on the outer wall of the butt joint box, the pair of butt joint frames are connected with the telescopic ends of the pair of electric push rods, the pair of clamping motors are located on the pair of butt joint frames, and the pair of arc-shaped fixing pieces are arranged on the driving ends of the pair of clamping motors.

4. A screw conveyor with drying function according to claim 1, wherein said power system comprises: the power transmission box, the power motor, the driving bevel gear, the driven bevel gear and the telescopic motor are arranged on the base;

5. The screw conveyor with drying function according to claim 2, wherein said stopper assembly comprises: the device comprises a limiting feeding cylinder, a limiting wheel with a plurality of limiting teeth and a limiting clamping edge;

6. The screw conveyor with drying function according to claim 1, wherein said hoisting structure comprises: the device comprises a door-shaped frame, a pair of pulling motors, a pair of pulling frames and a plurality of telescopic rods;

7. The screw conveyor with drying function according to claim 6, wherein a fastening frame is provided between the pair of pulling motors and the support surface.

8. The screw conveyor with drying function according to claim 2, wherein a motor frame is provided between the switching frame and the steering motor.

9. The screw conveyor with drying function according to claim 1, wherein the left and right ends of the plurality of slide rails are provided with fastening frames.

10. A screw conveyor having a drying function according to claim 2, wherein the screw stopper caps are each provided with a turning handle.