CN221172786U - Vibration dryer capable of improving blanking efficiency and having self-cleaning function - Google Patents

Abstract

The utility model discloses a vibrating dryer with a self-cleaning function and capable of improving blanking efficiency, which is characterized by further comprising a self-cleaning mechanism which is arranged in a drying layer and used for improving blanking efficiency of materials in the drying layer and self-cleaning a sieve tray; the self-cleaning mechanism comprises a pipeline which is arranged on the vibration bin and is positioned in the drying layer, and a plurality of spray heads which are arranged on the pipeline. According to the utility model, a self-cleaning mechanism is arranged in the drying layer, when materials are subjected to vibration drying, a pipeline is communicated with an air supply pipe through a valve, the air supply pipe is connected with an air supply device, the air supply device supplies air and then sprays the air to the materials on a sieve plate through a spray head, and the materials on the sieve plate are blown to be matched with vibration so as to accelerate the blanking efficiency of the materials; when the material is dried and needs to be cleaned, the material is connected with a water supply pipe through a valve switching pipeline, the water supply pipe is connected with a water source, and the sieve trays are sprayed with water through a spray head to flush the sieve trays so as to automatically clean.

Description

Vibration dryer capable of improving blanking efficiency and having self-cleaning function

Technical Field

The utility model relates to a vibration dryer, in particular to a vibration dryer which improves blanking efficiency and has a self-cleaning function.

Background

The vibration dryer is a dryer which fully dries materials through vibration and hot air, some existing vibration dryers are multistage vibration dryers, sieve plates are arranged in drying bins to form multistage drying bins, when the materials are dried, the materials pass through the plurality of drying bins from top to bottom to carry out multistage drying, the existing multistage vibration dryers drive the materials to jump on the sieve plates through vibration in a mode of downwards transmitting the materials until the materials fall into a next layer of drying bin after moving to a through hole along with the vibration, but the efficiency of driving the materials to move and blanking is low by simply relying on the vibration, and the materials are easy to have residual phenomenon;

The existing multistage vibration dryer is low in efficiency by manually cleaning the vibration drying bin when the use is completed and cleaning is needed, and the cleaning efficiency is lower due to the fact that the cleaning opening is limited in size, the trouble is further increased in cleaning. Therefore, a vibration dryer with a self-cleaning function is provided, which improves the discharging efficiency.

Disclosure of utility model

The utility model aims to solve the problems and provides a vibration dryer with self-cleaning function, which improves the blanking efficiency.

In order to achieve the above purpose, the utility model provides a vibrating dryer with the following technical scheme, which improves blanking efficiency and has a self-cleaning function, and comprises a base, a vibrating platform arranged on the base, a buffer spring arranged between the vibrating platform and the base, a vibrating bin arranged on the vibrating platform, a vibrating machine arranged at the bottom of the vibrating platform, and a plurality of sieve plates arranged in the vibrating bin and used for dividing the vibrating bin into a plurality of drying layers, wherein a temperature sensor for detecting the temperature in the drying layers is also arranged on the vibrating bin; the automatic cleaning device is characterized by also comprising a self-cleaning mechanism which is arranged in the drying layer and used for improving the material discharging efficiency of the drying layer and self-cleaning the sieve trays; the self-cleaning mechanism comprises a pipeline which is arranged on the vibration bin and is positioned in the drying layer, and a plurality of spray heads which are arranged on the pipeline.

Further preferably, the pipeline is connected with a water supply pipe and an air supply pipe, and a valve for switching the water supply pipe and the air supply pipe is arranged on the pipeline.

Further preferably, the sieve plate on still be equipped with the through-hole that is used for the material blanking, the through-hole department installs one end and sieve plate swing joint upset board, sieve plate bottom or vibration storehouse outside are installed and are connected the driver that is used for driving the upset board to overturn with the upset board, the sieve plate bottom of bottommost is installed and is used for material exhaust's discharge channel with the through-hole intercommunication.

Further preferably, the device further comprises a material blocking table arranged in the middle of the sieve tray, and the top of the material blocking table is arranged in a conical shape.

Further preferably, the device also comprises a feed inlet and an exhaust port which are arranged at the top of the vibration bin, and a hot air inlet which is arranged on the vibration platform and communicated with the vibration bin; the vibration platform is provided with a discharge channel.

Further preferably, the drying machine further comprises a plurality of visual windows arranged on the vibration bin and cleaning windows which are convenient for cleaning corresponding drying layers in the vibration bin, and a cleaning door is further arranged on the vibration bin.

The utility model has the beneficial effects that: by arranging the self-cleaning mechanism in the drying layer, when the materials are vibrated and dried, the valve is communicated with the pipeline and the air supply pipe, the air supply pipe is connected with the air supply equipment, the materials on the sieve plate are sprayed through the spray head after being supplied by the air supply equipment, and the materials on the sieve plate are blown to match with vibration to accelerate the discharging efficiency of the materials;

When the material is dried and needs to be cleaned, the material is connected with a water supply pipe through a valve switching pipeline, the water supply pipe is connected with a water source, and the sieve trays are sprayed with water through a spray head to flush the sieve trays so as to automatically clean.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the base and the vibration table of the present utility model;

FIG. 3 is a schematic view of a partial structure of the present utility model;

FIG. 4 is a schematic partial cross-sectional view of the present utility model;

FIG. 5 is a schematic view of a partial cross-sectional structure of the present utility model

FIG. 6 is a schematic flow chart of the self-cleaning mechanism of the present utility model.

Legend description: 1. a base; 2. a vibration platform; 21. a buffer spring; 22. a discharge passage; 3. a vibration bin; 31. a sieve plate; 32. a through hole; 33. a turnover plate; 34. a driver; 35. a discharge channel; 36. a material blocking table; 37. a feed inlet; 38. an exhaust port; 39. a hot air inlet; 4. a vibrator; 5. a temperature sensor; 6. a self-cleaning mechanism; 61. a pipeline; 62. a spray head; 63. a water supply pipe; 64. an air supply pipe; 65. a valve; 7. a visual window; 8. cleaning the window; 9. and cleaning the door.

Description of the embodiments

The following describes a vibration dryer with self-cleaning function for improving the discharging efficiency according to the present utility model with reference to the accompanying drawings.

Referring to fig. 1 to 6, a vibration dryer with a self-cleaning function for improving a discharging efficiency includes a base 1, a vibration table 2 installed on the base 1, a buffer spring 21 installed between the vibration table 2 and the base 1, a vibration bin 3 installed on the vibration table 2, a vibrator 4 installed at the bottom of the vibration table 2, and a plurality of sieve trays 31 provided in the vibration bin 3 for dividing the vibration bin 3 into a plurality of drying layers, and a temperature sensor 5 for detecting a temperature in the drying layers is also installed on the vibration bin 3; the automatic cleaning device is characterized by also comprising a self-cleaning mechanism 6 which is arranged in the drying layer and used for improving the material discharging efficiency of the drying layer and self-cleaning the sieve pore plate 31; the self-cleaning mechanism 6 comprises a pipeline 61 arranged on the vibration bin 3 and positioned in the drying layer and a plurality of spray heads 62 arranged on the pipeline 61;

The pipeline 61 is connected with a water supply pipe 63 and an air supply pipe 64, and a valve 65 for switching the water supply pipe 63 and the air supply pipe 64 is arranged on the pipeline 61;

By arranging the self-cleaning mechanism 6 in the drying layer, when the materials are vibrated and dried, the pipeline 61 is communicated with the air supply pipe 64 through the valve 65, the air supply pipe 64 is connected with air supply equipment, the materials on the sieve plate 31 are sprayed through the spray head 62 after being supplied by the air supply equipment, and the materials on the sieve plate 31 are blown to match with vibration to accelerate the blanking efficiency of the materials;

When the material is dried and needs to be cleaned, the pipeline 61 is switched by the valve 65 to be connected with a water supply pipe, the water supply pipe is connected with a water source, and the nozzle 62 sprays water to the sieve tray 31 to flush the sieve tray 31 for automatic cleaning.

In this embodiment, the sieve tray 31 is further provided with a through hole 32 for blanking materials, a turnover plate 33 with one end movably connected with the sieve tray 31 is installed at the through hole 32, a driver 34 connected with the turnover plate 33 and used for driving the turnover plate 33 to turn is installed at the bottom of the sieve tray 31 or the outer side of the vibration bin 3, and a discharging channel 35 communicated with the through hole 32 and used for discharging materials is installed at the bottom of the sieve tray 31 at the bottommost part;

The driver 34 may be one of a motor, an air cylinder or an electric push rod, in this embodiment, the driver 34 adopts a motor, and the motor drives the turnover plate 33 to rotate to open the through hole 32, so that the material can move downwards in the multi-stage drying layer through the through hole 32 until falling into the discharging channel 35 and then being discharged.

In another embodiment, the material blocking table 36 is further arranged at the middle position of the sieve tray 31, the top of the material blocking table 36 is arranged in a conical shape, the material blocking table 36 and the top of the material blocking table 36 are arranged in a conical shape to prevent materials from accumulating in the middle of the sieve tray 31, and the top of the material blocking table 36 is arranged in a conical shape to prevent the materials from falling on the material blocking table 36 and remaining on the material blocking table 36.

In another embodiment, the device also comprises a feed inlet 37 and an exhaust outlet 38 which are arranged at the top of the vibration bin 3, and a hot air inlet 39 which is arranged on the vibration platform 2 and communicated with the vibration bin 3; the vibration platform 2 is provided with a discharge channel 22; the materials enter the drying layer at the top of the vibration bin 3 through the material inlet 37, hot air enters the vibration bin 3 through the bottom and moves upwards to dry the materials in the drying layer until reaching the top, and then is discharged through the air outlet 38; while the finely divided material during the vibration drying process and the water and impurities washed during the washing fall onto the vibration table 2 and are discharged through the discharge channel 22.

In another embodiment, the vibration bin further comprises a plurality of visible windows 7 arranged on the vibration bin 3 and a cleaning window 8 which is convenient for cleaning the corresponding drying layer in the vibration bin 3, and a cleaning door 9 is also arranged on the vibration bin 3; in the working process, operators can check the materials in the vibration bin 3 through the visual window 7; through the setting of clean window 8, when vibration storehouse 3 is clean, after opening clean door 9, the accessible cleans window 8 and carries out cleaning work to the stoving layer.

The application process of the utility model comprises the following steps: when the device is used, the hot air inlet 39 is connected with hot air equipment, hot air is introduced into the vibration bin 3 through the hot air equipment, materials are put into the vibration bin 3 through the feed inlet 37, then the vibrator 4 is started to drive the vibration bin 3 to perform vibration drying, after a set time is passed through drying, the turnover plate 33 on the uppermost layer of sieve plate 31 is opened, the turnover plate 33 is driven by the driver 34 to turn over to open the through hole 32, the valve 65 is opened, the communication pipeline 61 and the air supply pipe 64 are communicated, the pipeline 61 is supplied with air through the air supply equipment, the air is sprayed out through the spray head 62 to blow the materials, the materials are matched with vibration to accelerate the materials to move to the through hole 32 and fall into the second layer of drying layer through the through hole 32, then the materials fall down in sequence according to the set time until finally falling into the discharge channel 35 and then being discharged along the discharge channel 35;

when the vibration bin 3 needs to be cleaned, the pipeline 61 and the water supply pipe are communicated through the valve 65, water is sprayed out through the spray head 62 to flush the sieve tray 31, and the flushed water and the flushed impurities fall onto the vibration platform 2 and are discharged through the discharge channel 22.

The scope of protection of the present utility model is not limited to the above embodiments and variations thereof. Conventional modifications and substitutions by those skilled in the art based on the content of the present embodiment fall within the protection scope of the present utility model.

Claims (6)

1. The utility model provides an improve unloading efficiency and have vibration drying-machine of self-cleaning function, including base (1), install vibrating platform (2) on base (1), install buffer spring (21) between vibrating platform (2) and base (1), install vibrating bin (3) on vibrating platform (2), install vibrating machine (4) and setting up in vibrating bin (3) and be used for dividing into a plurality of stoving layer a plurality of sieve mesh board (31) in vibrating bin (3), still install temperature sensor (5) to the temperature in the stoving layer on vibrating bin (3); the automatic cleaning device is characterized by also comprising a self-cleaning mechanism (6) which is arranged in the drying layer and used for improving the material discharging efficiency of the drying layer and self-cleaning the sieve pore plate (31); the self-cleaning mechanism (6) comprises a pipeline (61) which is arranged on the vibration bin (3) and is positioned in the drying layer, and a plurality of spray heads (62) which are arranged on the pipeline (61).

2. The vibration dryer with a self-cleaning function for improving a discharging efficiency according to claim 1, wherein: the pipeline (61) is connected with a water supply pipe (63) and an air supply pipe (64), and the pipeline (61) is provided with a valve (65) for switching the water supply pipe (63) and the air supply pipe (64).

3. The vibration dryer with a self-cleaning function for improving a discharging efficiency according to claim 1, wherein: the sieve tray (31) on still be equipped with through-hole (32) that are used for the material blanking, through-hole (32) department installs one end and sieve tray (31) swing joint's upset board (33), sieve tray (31) bottom or vibration storehouse (3) outside are installed and are connected driver (34) that are used for driving upset board (33) to overturn with upset board (33), sieve tray (31) bottom of bottommost is installed and is used for material exhaust's discharge channel (35) with through-hole (32) intercommunication.

4. A vibratory dryer with improved blanking efficiency and self-cleaning function as set forth in claim 3, wherein: the device also comprises a material blocking table (36) arranged in the middle of the sieve tray (31), and the top of the material blocking table (36) is conical.

5. The vibration dryer with a self-cleaning function for improving a discharging efficiency according to claim 1, wherein: the device also comprises a feeding hole (37) and an exhaust hole (38) which are arranged at the top of the vibration bin (3), and a hot air inlet (39) which is arranged on the vibration platform (2) and communicated with the vibration bin (3); the vibration platform (2) is provided with a discharge channel (22).

6. The vibration dryer with a self-cleaning function for improving a discharging efficiency according to claim 1, wherein: the cleaning device further comprises a plurality of visual windows (7) arranged on the vibration bin (3) and cleaning windows (8) which are convenient for cleaning corresponding drying layers in the vibration bin (3), and a cleaning door (9) is further arranged on the vibration bin (3).