CN218909122U - Non-planar conveying mechanism for high-temperature high-viscosity materials - Google Patents

Abstract

The utility model relates to the technical field of conveying equipment, in particular to a non-planar conveying mechanism for high-temperature and high-viscosity materials, which comprises a supporting rod, wherein the top of the supporting rod is fixedly connected with a conical bin, the bottom of the conical bin is provided with a discharge hole, the top of the conical bin is fixedly connected with a top cover, two sides of the top cover are symmetrically and fixedly connected with handles, the top of the top cover is fixedly connected with a motor, the output end of the motor is fixedly connected with a rotating shaft, two sides of the surface of the rotating shaft are symmetrically and fixedly connected with screw blades, the top of the top cover is fixedly connected with a feed hopper, two sides of the bottom of the conical bin are fixedly connected with springs, two sides of the discharge hole are symmetrically and fixedly connected with mounting plates, and the improved non-planar conveying mechanism for the high-temperature and high-viscosity materials effectively avoids the condition that the feed hopper is blocked due to the fact that the high-viscosity materials are stuck on the inner wall of a shell at the mouth of the feed hopper.

Description

Non-planar conveying mechanism for high-temperature high-viscosity materials

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to a non-planar conveying mechanism for high-temperature high-viscosity materials.

Background

In industrial processes, some highly viscous materials such as viscous filter cakes (e.g., kaolin), biologically fermented materials (e.g., soybean meal), high-fat shredded coconut, etc., are encountered.

In the process of conveying high-viscosity materials, in order to avoid the defect that the high-viscosity materials are often adhered to the inner wall of a conveying roller, the energy consumption of a conveying device is high, the processing time is long and the like, so that a non-planar conveying mechanism for the high-temperature high-viscosity materials is needed.

The prior patent (publication number: CN 204528374U) discloses a conveyor capable of conveying viscous materials, the axes of a main shaft and a tail shaft are mutually parallel, two shaft ends of the main shaft are respectively provided with a main shaft chain wheel, two shaft ends of the tail shaft are respectively provided with a tail shaft chain wheel, the main shaft chain wheels and the tail shaft chain wheels on the same side are respectively connected through chain transmission, the chains on two sides are mutually connected through a plurality of belt supporting plates extending along the width direction of the conveyor, the axes of the belt supporting plates are mutually parallel, and are parallel to the axes of the main shaft or the tail shaft, and a belt for supporting the materials is fixedly connected on each belt supporting plate. A slide carriage is arranged above the upper layer belt, and the lower ends of the slide carriage incline to the middle part of the width direction of the belt respectively. The material is placed on the belt, and the material is not contacted with the chain because the material is not rolled and basically cannot be adhered to the belt, and the chain is positioned on the back of the belt, so that the reliability of a transmission system cannot be affected, the production continuity can be maintained, and the phenomenon that the transmission part is invalid and the stop is caused by the adhesion of the viscous material on the transmission mechanism is avoided. The inventors found that the following problems exist in the prior art in the process of implementing the present utility model: 1. most of the existing conveying mechanisms adopt blades of a rotary screw, a certain gap is needed between the blades and the inner wall of a conveying roller, and high-viscosity materials on the inner wall of the conveying roller cannot be scraped completely, so that conditions are provided for stacking the materials; 2. the existing conveying mechanism mostly adopts shaftless screw bodies, the material is dried and agglomerated at high temperature due to the increase of screw pitch, and the operation cost of the subsequent working section of the product is increased.

Disclosure of Invention

The utility model aims to provide a non-planar conveying mechanism for high-temperature high-viscosity materials, which aims to solve the problems that in the prior art, a certain gap is formed between a blade of a rotary screw rod and the inner wall of a conveying roller, so that the high-viscosity materials on the inner wall of the conveying roller cannot be scraped to provide conditions for material accumulation, and the problem that in the prior art, the operation cost of a subsequent working section of a product is dried and agglomerated at high temperature by adopting the increase of the screw pitch of a shaftless screw body. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a non-planar conveying mechanism to high temperature high viscosity material, includes the bracing piece, the top fixedly connected with toper storehouse of bracing piece, the discharge gate has been seted up to the bottom in toper storehouse, the top fixedly connected with top cap in toper storehouse, the both sides symmetry fixedly connected with handle of top cap, the top fixedly connected with motor of top cap, the output fixedly connected with pivot of motor, the surface both sides symmetry fixedly connected with screw blade of pivot, the top fixedly connected with feeder hopper of top cap, the bottom both sides fixedly connected with spring in toper storehouse, the both sides symmetry fixedly connected with mounting panel of discharge gate, the mounting groove has been seted up to the bottom of mounting panel, the inside threaded connection of mounting groove has the outer tube, the inboard fixedly connected with mount of outer tube, the top fixedly connected with pole setting of mount, the surface both sides symmetry fixedly connected with claw spare of pole setting, the top fixedly connected with vibration motor of mediation of mounting panel.

Further preferably, the inlet of the feed hopper is in an opening shape.

Further preferably, the cooperation of the dredging claw piece, the vertical rod and the vibration motor forms a vibration structure.

Further preferably, the propeller blade forms a rotating structure through the cooperation of the rotating shaft and the motor.

Further preferably, the outer tube is connected to the mounting groove by means of a threaded connection.

Further preferably, the bottom of the supporting rod is provided with anti-skid patterns.

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

according to the utility model, the opening of the feed hopper is open, so that the high-viscosity material can hardly contact the side wall of the feed hopper, the condition that the feed hopper is blocked due to the fact that the high-viscosity material is stuck on the inner wall of the feed hopper is avoided at the inlet of the feed hopper, the dredging claw piece, the vertical rod and the vibrating motor are matched to form a vibrating structure, the dredging claw piece can continuously vibrate at the discharge hole, the situation that residual materials are accumulated in the conveying device after long-term use can be avoided, and the conveying device is convenient to maintain.

According to the utility model, the rotating structure is formed by matching the rotating shaft with the motor and the propeller blade, the motor can drive the propeller blade to rotate, the fluidity of high-viscosity materials is improved, the conveying speed is accelerated, the conveying of the high-viscosity materials is more convenient and efficient, the outer tube is connected with the mounting groove, the detachable connection mode is convenient for thoroughly cleaning the inner wall of the output device after the output device is used and detached by downwards rotating the outer tube, and the bottom of the supporting rod is provided with anti-skid patterns to prevent the device from moving in position in the working process.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of the utility model at A in FIG. 1;

fig. 3 is a schematic top view of the fixing frame of the present utility model.

In the figure: 1. a support rod; 2. a discharge port; 3. a mounting plate; 4. a conical bin; 5. propeller blades; 6. a motor; 7. a feed hopper; 8. a top cover; 9. a handle; 10. a rotating shaft; 11. a vertical rod; 12. a vibration motor; 13. an outer tube; 14. dredging claw pieces; 15. a fixing frame; 16. a mounting groove; 17. and (3) a spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Referring to fig. 1 to 3, the present utility model provides a technical solution: the utility model provides a non-planar conveying mechanism to high temperature high viscosity material, including bracing piece 1, the top fixedly connected with toper storehouse 4 of bracing piece 1, discharge gate 2 has been seted up to the bottom in toper storehouse 4, the top fixedly connected with top cap 8 in toper storehouse 4, the both sides symmetry fixedly connected with handle 9 of top cap 8, the top fixedly connected with motor 6 of top cap 8, the output fixedly connected with pivot 10 of motor 6, the surface both sides symmetry fixedly connected with screw blade 5 of pivot 10, the top fixedly connected with feeder hopper 7 of top cap 8, the bottom both sides fixedly connected with spring 17 in toper storehouse 4, the both sides symmetry fixedly connected with mounting panel 3 of discharge gate 2, mounting groove 16 has been seted up to the bottom of mounting panel 3, the inside threaded connection of mounting groove 16 has outer tube 13, the inboard fixedly connected with mount 15 of outer tube 13, the top fixedly connected with pole setting 11 of mount 15, the surperficial both sides symmetry fixedly connected with claw piece 14 of pole setting 11, the top fixedly connected with vibrations motor 12 of mounting panel 3.

In this embodiment, as shown in fig. 1, the mouth of the feeding hopper 7 is open, and the high-viscosity material can hardly contact the side wall of the feeding hopper 7, so that the situation that the feeding hopper 7 is blocked due to the fact that the high-viscosity material is stuck on the inner wall of the feeding hopper 7 is avoided at the inlet of the feeding hopper 7.

In this embodiment, as shown in fig. 1, the cooperation of the dredging claw member 14, the upright rod 11 and the vibration motor 12 forms a vibration structure, the dredging claw member 14 can continuously vibrate at the discharge port 2, the situation that the interior of the conveying device is piled up with residual materials after long-term use can be avoided, and the conveying device is convenient to maintain.

In this embodiment, as shown in fig. 1, the propeller blade 5 forms a rotating structure by cooperation of the rotating shaft 10 and the motor 6.

In this embodiment, as shown in fig. 1, the outer tube 13 is connected with the mounting groove 16 by a threaded connection manner, and the detachable connection manner is convenient for thoroughly cleaning the inner wall of the output device after the output device is used and detached by screwing down the outer tube 13.

In this embodiment, as shown in fig. 1, the bottom of the supporting rod 1 is provided with anti-skidding patterns to prevent the device from moving in position during the working process.

The application method and the advantages of the utility model are as follows: when the non-planar conveying mechanism for the high-temperature high-viscosity materials is used, the working process is as follows:

as shown in fig. 1, fig. 2 and fig. 3, when the device works, firstly, high-viscosity materials are input from the feed inlet of the feed hopper 7, the high-viscosity materials enter the conical bin 4, then the motor 6 is started to be in a working state, the motor 6 can drive the propeller blade 5 to rotate, the fluidity of the high-viscosity materials is improved, the conveying speed is accelerated, further, the conveying of the high-viscosity materials is more convenient and efficient, the dredging claw piece 14 can continuously vibrate at the discharge port 2, the situation that the residual materials are accumulated in the conveying device after long-term use can be avoided, the conveying device is convenient to maintain, after the use of the conveying device is finished, the dredging claw piece 14 can be conveniently detached after the use of the conveying device is finished through the downwards-rotated outer pipe 13 in a detachable connection mode, the inner wall of the conveying device is thoroughly cleaned, the problem that the conveying pipeline is narrowed due to the adhesion of the materials on the inner wall of the conveying device can be avoided, the blocking probability is further reduced, and the maintenance difficulty of the conveying device is reduced.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a non-planar conveying mechanism to high temperature high viscosity material, includes bracing piece (1), its characterized in that: the utility model provides a top fixedly connected with toper storehouse (4) of bracing piece (1), discharge gate (2) have been seted up to the bottom of toper storehouse (4), the top fixedly connected with top cap (8) of toper storehouse (4), the both sides symmetry fixedly connected with handle (9) of top cap (8), the top fixedly connected with motor (6) of top cap (8), the output fixedly connected with pivot (10) of motor (6), the surface both sides symmetry fixedly connected with screw blade (5) of pivot (10), the top fixedly connected with feeder hopper (7) of top cap (8), the bottom both sides fixedly connected with spring (17) of toper storehouse (4), the both sides symmetry fixedly connected with mounting panel (3) of discharge gate (2), mounting groove (16) have been seted up to the bottom of mounting panel (3), the inside threaded connection of mounting groove (16) has outer tube (13), the inboard fixedly connected with mount (15) of outer tube (13), the top fixedly connected with pole setting (11) of mount (15), the surface fixedly connected with motor (12) of the top fixedly connected with vibration claw (12) of both sides (11).

2. A non-planar delivery mechanism for high temperature, high viscosity materials as claimed in claim 1 wherein: the inlet of the feed hopper (7) is in an opening shape.

3. A non-planar delivery mechanism for high temperature, high viscosity materials as claimed in claim 1 wherein: the dredging claw piece (14), the vertical rod (11) and the vibrating motor (12) are matched to form a vibrating structure.

4. A non-planar delivery mechanism for high temperature, high viscosity materials as claimed in claim 1 wherein: the propeller blade (5) is matched with the motor (6) through the rotating shaft (10) to form a rotating structure.

5. A non-planar delivery mechanism for high temperature, high viscosity materials as claimed in claim 1 wherein: the outer tube (13) is connected with the mounting groove (16) in a threaded connection mode.

6. A non-planar delivery mechanism for high temperature, high viscosity materials as claimed in claim 1 wherein: the bottom of the supporting rod (1) is provided with anti-skid patterns.

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