CN220398059U - Automatic rotation material level system for preventing accumulated materials of drying tower - Google Patents

Abstract

The utility model discloses a drying tower material accumulation preventing automatic rotation material level system, which comprises: the utility model provides a protection shell, the lower surface of protection shell is provided with the second motor, the output of second motor rotates and is connected with the second transmission shaft, the side fixedly connected with stirring leaf of second transmission shaft, the inside of protection shell is provided with dry storehouse, the side surface of dry storehouse is provided with hot coil pipe, the upper surface of protection shell is provided with first motor, through above-mentioned structure, adopts the transmission track to promote the catalyst to dry tower top and carries out continuous feeding, runs into the inductor after the bed of material reaches a take place after certain height, inductor transmission signal gives the controller, controller control brake for the transmission track stops feeding, takes place the condition of overflow after avoiding appearing feeding full tower, makes can normally unloading, and adopts stirring leaf and first motor, stirs the catalyst in the dry storehouse, makes the catalyst can be heated evenly, improves drying efficiency.

Description

Automatic rotation material level system for preventing accumulated materials of drying tower

Technical Field

The utility model relates to the technical field of automatic material level rotation preventing systems of drying towers, in particular to an automatic material level rotation preventing system of a drying tower.

Background

A drying tower is a common drying device, and generally, a heater is used for heating and drying materials such as a catalyst, so that moisture of the materials is evaporated.

When the drying tower works, a user always directly adds materials into the drying tower to carry out drying processing, but the feeding mode is continuous feeding, but the discharging is intermittent, so that overflow is easy to occur after the tower is full of the feeding, and even the materials are excessively fed to cause the situation that the materials cannot be normally discharged and the drying is uneven. Therefore, a drying tower material accumulation preventing automatic rotation material level system is designed to solve the problems.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the prior art, and provides an automatic rotation material level system for preventing material accumulation of a drying tower, which adopts a transmission crawler to lift a catalyst to the top of the drying tower for continuous feeding, when the material layer reaches a certain height, the sensor is encountered, a signal is transmitted to a controller, the controller controls a brake to stop feeding, the situation that overflow occurs after the material layer is filled in the tower is avoided, normal blanking is enabled, and a stirring blade and a first motor are adopted to stir the catalyst in a drying bin, so that the catalyst can be heated uniformly, and the drying efficiency is improved.

The utility model also provides a material level system capable of preventing accumulation of materials and automatically rotating for the drying tower, which comprises the following components: the device comprises a protective shell, wherein the lower surface of the protective shell is provided with a second motor, the output end of the second motor is rotationally connected with a second transmission shaft, the side surface of the second transmission shaft is fixedly connected with stirring blades, the interior of the protective shell is provided with a drying bin, and the side surface of the drying bin is provided with a thermal coil;

the upper surface of shell is provided with first motor, the output of first motor rotates and is connected with first transmission shaft, the side surface fixedly connected with rotary vane of first transmission shaft, rotary vane's lower surface fixedly connected with inductor, shell's upper surface is provided with the feeder hopper, the upper surface of feeder hopper is provided with the transmission track, the both sides fixedly connected with stopper of transmission track, shell's upper surface fixedly connected with controller.

According to the automatic material level rotation preventing system for the drying tower, the controller is electrically connected with the inductor, and the controller is electrically connected with the brake.

According to the automatic material level rotating system for preventing accumulated materials of the drying tower, a blanking pipe is arranged on the lower surface of the protective shell, and a supporting frame is arranged on the transmission track and used for maintaining the operation of the transmission track.

According to the automatic rotation material level system for preventing accumulation of materials of the drying tower, the number of the blanking pipes is two, and a gear valve is fixedly connected between two adjacent blanking pipes and used for controlling intermittent discharging of catalysts.

According to the automatic material level rotation system for preventing material accumulation of the drying tower, the lower surface of the protective shell is fixedly connected with a supporting shaft, and the supporting shaft is distributed in a rectangular array.

According to the automatic material level rotation system for preventing material accumulation of the drying tower, the upper end of the hot coil is provided with a hot air inlet pipe, and the lower end of the hot coil is provided with a hot air outlet pipe.

According to the automatic material level rotating system for preventing accumulated materials of the drying tower, the inside of the supporting frame is provided with a communication hole, and the inner surface of the communication hole is movably connected with the side surface of the brake.

According to the automatic material level rotating system for preventing accumulated materials of the drying tower, the number of the inductors is multiple, the inductors are distributed annularly, the number of the stirring blades is multiple, the stirring blades are distributed vertically and used for fully stirring the catalyst, and the catalyst can be fully dried.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further described below with reference to the drawings and examples;

FIG. 1 is a schematic diagram of the whole front structure of a material level system for preventing accumulation of materials in a drying tower;

FIG. 2 is a schematic diagram showing a sectional structure of a protective casing of a material level system for preventing accumulation of materials in a drying tower according to the present utility model;

FIG. 3 is a schematic diagram of a part of a material level system for preventing accumulation of materials in a drying tower from automatic rotation;

FIG. 4 is a schematic diagram of the structure of an inductor of a drying tower anti-accumulation automatic rotation material level system according to the present utility model;

FIG. 5 is a schematic diagram of a thermal coil configuration of a system for preventing accumulation in a drying tower from automatically rotating the material level according to the present utility model.

Legend description:

1. a protective housing; 2. a transmission track; 3. a brake; 4. a support frame; 5. a feed hopper; 6. a controller; 7. a first motor; 8. a hot air inlet pipe; 9. a support shaft; 10. a gear valve; 11. a blanking pipe; 12. a thermal coil; 13. a drying bin; 14. a second drive shaft; 15. stirring the leaves; 16. rotating the blades; 17. a hot air outlet pipe; 18. a first drive shaft; 19. an inductor; 20. and a second motor.

Description of the embodiments

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

Referring to fig. 1 to 5, an embodiment of the present utility model provides a drying tower material accumulation preventing automatic rotation material level system, which includes: the device comprises a protective shell 1, wherein a blanking pipe 11 is arranged on the lower surface of the protective shell 1, the number of the blanking pipes 11 is two, a gear valve 10 is fixedly connected between two adjacent blanking pipes 11 and used for controlling intermittent discharging of catalysts, a supporting shaft 9 is fixedly connected to the lower surface of the protective shell 1, the supporting shafts 9 are distributed in a rectangular array and used for maintaining stability of the whole device and preventing the device from toppling over, a supporting frame 4 is arranged on a transmission track 2 and used for maintaining operation of the transmission track 2, a communication hole is arranged in the supporting frame 4, the inner surface of the communication hole is movably connected with the side surface of a brake 3, a second motor 20 is arranged on the lower surface of the protective shell 1, a second transmission shaft 14 is rotatably connected to the output end of the second motor 20, a stirring blade 15 is fixedly connected to the side surface of the second transmission shaft 14 and used for fully stirring the catalysts, incomplete drying of the catalysts is prevented, a drying bin 13 is arranged in the drying bin 13

The silica gel drier is a high-activity adsorption material, has the advantages of high adsorption performance, good thermal stability, stable chemical property, higher mechanical strength and the like, dries a catalyst, a thermal coil 12 is arranged on the side surface of a drying bin 13 and used for generating heat, the heat is transmitted to the drying bin 13 for drying, a thermal air inlet pipe 8 is arranged at the upper end of the thermal coil 12, and a thermal air outlet pipe 17 is arranged at the lower end of the thermal coil 12.

The upper surface of shell 1 is provided with first motor 7, the output of first motor 7 rotates and is connected with first transmission shaft 18, the side surface fixedly connected with rotary vane 16 of first transmission shaft 18 can carry out preliminary drying to the catalyst, rotary vane 16's lower surface fixedly connected with inductor 19, be used for the high of response catalyst, avoid taking place the overflow after the full tower of feeding, can lead to the fluffy material because of feeding too much even, can't normally the condition of unloading, the quantity of inductor 19 is a plurality of and annular distribution, stirring leaf 15's quantity is a plurality of and upper and lower distribution, be used for fully stirring the catalyst, make the catalyst can fully dry, and make the catalyst can not pile up in a certain position, make the upper surface of catalyst be on a parallel with inductor 19 all the time, and the lower surface of inductor 19 keeps parallel with the upper end of second transmission shaft 14, shell 1's upper surface is provided with feeder hopper 5, feeder hopper 5's upper surface is provided with transmission track 2, the both sides fixedly connected with stopper 3 for stopping transmission 2, shell 1's upper surface fixedly connected with controller 6, controller 6 and 3, controller 6 and controller 6 electric connection 6, controller 6 and electric controller 6, the controller 6 have stopped the transmission of transmission, the signal, the controller is high, the controller is connected to the controller 6, and the controller is used for stopping the transmission of signal, and is controlled to stop the transmission.

Working principle: this automatic rotatory material level system of long-pending material is prevented to drying tower, when using, transmission track 2 starts, with catalyst along feeder hopper 5 feeding dry storehouse 13, hot coil 12 begins work, the catalyst utilizes the heat of hot coil 12 transmission to dry storehouse 13 to dry, simultaneously first motor 7 starts, rotating vane 16 begins to rotate, and second motor 20 starts, stirring leaf 15 rotates, stir the catalyst, make the catalyst dry completely, meet inductor 19 after the catalyst reaches a take level, inductor 19 gives controller 6 with information transmission, controller 6 controls brake 3 work, transmission track 2 stops the work thereupon, stop carrying the catalyst.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims (8)

1. An anti-accumulation automatic rotation material level system of a drying tower, which is characterized by comprising: the device comprises a protective shell (1), wherein a second motor (20) is arranged on the lower surface of the protective shell (1), a second transmission shaft (14) is rotatably connected to the output end of the second motor (20), stirring blades (15) are fixedly connected to the side surface of the second transmission shaft (14), a drying bin (13) is arranged in the protective shell (1), and a thermal coil (12) is arranged on the side surface of the drying bin (13); the upper surface of shell (1) is provided with first motor (7), the output of first motor (7) rotates and is connected with first transmission shaft (18), the side surface fixedly connected with rotating vane (16) of first transmission shaft (18), the lower surface fixedly connected with inductor (19) of rotating vane (16), the upper surface of shell (1) is provided with feeder hopper (5), the upper surface of feeder hopper (5) is provided with transmission track (2), the both sides fixedly connected with stopper (3) of transmission track (2), the upper surface fixedly connected with controller (6) of shell (1).

2. The automatic material level rotation preventing system for the drying tower according to claim 1, wherein the controller (6) is electrically connected with the inductor (19), and the controller (6) is electrically connected with the brake (3).

3. The automatic rotation material level system for preventing accumulation of materials of a drying tower according to claim 1, wherein a blanking pipe (11) is arranged on the lower surface of the protective shell (1), and a supporting frame (4) is arranged on the transmission crawler belt (2).

4. A drying tower anti-accumulation automatic rotation material level system according to claim 3, wherein the number of the blanking pipes (11) is two, and a gear valve (10) is fixedly connected between two adjacent blanking pipes (11).

5. The automatic material level rotating system for preventing accumulation of materials of the drying tower according to claim 1, wherein a supporting shaft (9) is fixedly connected to the lower surface of the protective shell (1), and the supporting shafts (9) are distributed in a rectangular array.

6. The automatic material level rotation preventing system for the drying tower according to claim 1, wherein a hot air inlet pipe (8) is arranged at the upper end of the hot coil pipe (12), and a hot air outlet pipe (17) is arranged at the lower end of the hot coil pipe (12).

7. A drying tower automatic rotation material level system capable of preventing accumulation according to claim 3, wherein a communication hole is formed in the support frame (4), and the inner surface of the communication hole is movably connected with the side surface of the brake (3).

8. The automatic rotation material level system for preventing accumulation of materials in a drying tower according to claim 1, wherein the number of the inductors (19) is a plurality of the stirring blades (15) which are distributed annularly, and the number of the stirring blades is a plurality of the stirring blades which are distributed up and down.