CN218936967U - Drying device with sorting structure - Google Patents

Abstract

The utility model discloses a drying device with a sorting structure, which relates to the technical field of lotus seed processing and comprises a drying bin, a drying unit and a vibrating screen group, wherein a base is arranged at the bottom of the drying bin, auxiliary piles are arranged on one side, far away from the base, of a moving mechanism, the drying unit is arranged on the left side and the right side of the drying bin, a feeding baffle is arranged in the center of the top of the drying bin, and the vibrating screen group is arranged in the drying bin in a lamination mode. This drying device with select separately structure, through the shale shaker group and the support arm group cooperation of four layers independent structure that set up, can carry out multistage screening with the processing material of drying to in order to post-treatment, through the structural setting of moving mechanism with supplementary stake, on the one hand both can make the device have good mobility, can keep good stability in the operation in-process again simultaneously, can fully dehydrate the processing material of drying the storehouse inside through drying unit and air supply pipeline.

Description

Drying device with sorting structure

Technical Field

The utility model relates to the technical field of lotus seed processing, in particular to a drying device with a sorting structure.

Background

Lotus seeds, perennial herbaceous plants, are grown in autogenous or pond and paddy fields, can be used as medicines after being dried, and are produced in the north-south provinces of China. In autumn, the lotus is picked up and cut when the fruit is ripe, the fruit is taken out, peeled and dried, and the special lotus seed drying equipment is suitable for drying, cooling and other operations of powdery and granular materials in the industries of chemical industry, pharmacy, food, dehydrated vegetables, grains, mineral products and the like. Such as capsicum, konjak, rapeseed, etc. Is ideal equipment for dehydrating sheet, strip, block and granular materials such as traditional Chinese medicine decoction pieces, food, agricultural and sideline products, aquatic products, feeds and the like.

The utility model of application number CN201921625543.7 discloses a drying device for lotus seed processing, which is convenient to use, can efficiently dry lotus seeds, is convenient for carrying out subsequent processing work on the lotus seeds, can synchronously process a large amount of moisture of the lotus seeds by arranging a first drying part, simultaneously can synchronously carry out centrifugal dehydration processing on the lotus seeds by the action of a second drying part, ensures the integral drying effect by utilizing a hot pressurizing mode, improves the integral working efficiency, but is similar to the drying device in the above document in the use process, the volume of the lotus seeds per se can be reduced to different degrees due to drying dehydration, and can be pre-sorted for facilitating the subsequent processing treatment while discharging, so that the corresponding structure needs further improvement.

Accordingly, in view of the above, research and improvement have been made on the conventional structure and the conventional defects, and a drying apparatus with a sorting structure has been proposed.

Disclosure of Invention

The utility model aims to provide a drying device with a sorting structure, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a drying device with select separately structure, includes stoving storehouse, drying unit and shale shaker group, the base is installed to the bottom in stoving storehouse, and the both sides of base are installed moving mechanism, moving mechanism keeps away from one side of base and installs auxiliary pile, the drying unit is installed in the left and right sides in stoving storehouse, and the top of drying unit is connected with the air supply pipeline, the pan feeding baffle is installed at the top central authorities in stoving storehouse, the range upon range of setting in stoving storehouse of shale shaker group, and the left and right sides of shale shaker group is connected with the support arm group, the left and right sides both ends surface of shale shaker group is provided with the limiting plate, the shale shaker group is including screening net box, trip, spout and auxiliary link, the left and right sides of screening net box is fixed with the trip, and the trip is kept away from one side sliding connection of screening net box has the spout, one side that the trip was kept away from to the spout is connected with auxiliary link.

Further, the moving mechanism comprises a movable rotating shaft, a power motor, a wheel set and a moving guide rail, the power motor is installed at the bottom of the movable rotating shaft, the wheel set is installed at the left side and the right side of the power motor, the moving guide rail is arranged at the bottom of the wheel set, and the moving mechanism is installed in a bilateral symmetry mode by taking the vertical central axis of the base as a symmetry axis.

Further, the auxiliary pile comprises a supporting frame, a hydraulic column and a stabilizing pile, wherein the hydraulic column is fixedly arranged on one side of the supporting frame, the stabilizing pile is fixed at the bottom of the hydraulic column, and the auxiliary pile is symmetrically arranged left and right by taking the vertical central axis of the base as a symmetry axis.

Further, the dryer group includes fan, air-supply line, insulating tube, inner tube, heating coil, play tuber pipe, the air-supply line is installed to the both sides of fan, and the top of fan is provided with the insulating tube, the inside of insulating tube is provided with the inner tube, and the surface of inner tube encircles there is the heating coil, the top of insulating tube is connected with out the tuber pipe.

Further, the air supply pipeline comprises a connecting pipe, a U-shaped pipe and an air supply port, the top of the connecting pipe is connected with the U-shaped pipe, and the air supply port is arranged at one end, far away from the connecting pipe, of the U-shaped pipe.

Further, the pan feeding baffle includes spud pile, gear shaft and closure plate, the gear shaft is installed to one side of spud pile, and the gear shaft is kept away from one side of spud pile and is connected with the closure plate.

Further, the support arm group includes auxiliary fixing frame, power pole and vibration unit, auxiliary fixing frame's internally mounted has the power pole, and vibration unit is installed to the one end of power pole.

Further, the drying unit is installed with the vertical central axis of the drying bin as a symmetry axis in a bilateral symmetry manner, the air supply pipeline is installed with the vertical central axis of the drying bin as a symmetry axis in a bilateral symmetry manner, the feeding baffle is installed with the vertical central axis of the drying bin as a symmetry axis in a bilateral symmetry manner, and the support arm group is installed with the vertical central axis of the vibrating screen group as a symmetry axis in a bilateral symmetry manner.

The utility model provides a drying device with a sorting structure, which has the following beneficial effects: in order to carry out better prescreening with the processing material, the shale shaker group through four layers independent structure that set up cooperates with the support arm group, can carry out multistage screening with the processing material of drying to in order to post-treatment, through the structural setting of moving mechanism with supplementary stake, on the one hand both can make the device have good mobility, can keep good stability in the operation in-process again simultaneously, can fully carry out dehydration stoving with the processing material of drying storehouse inside through drying unit and air supply pipeline.

1. According to the utility model, the moving mechanism and the auxiliary piles are utilized, stability and convenience in moving the whole device are considered, a good moving path and moving stability can be effectively provided for the device by paving the moving guide rail on the ground, the operation of the moving mechanism is prevented from being influenced due to unstable road surface in the moving process, after equipment is stopped, safety accidents caused by the fact that subsequent equipment can slide on the moving guide rail in operation are avoided, and the whole device is stabilized on the ground through the auxiliary piles on two sides, so that the problem is avoided.

2. In order to perform good drying operation on the processed materials and perform proper pre-screening on the processed materials, the four layers of vibrating screen groups are arranged in the drying bin, so that the dried processed materials can be sequentially screened into four types with different sizes, and the four layers of vibrating screen groups are convenient for later processing.

3. According to the utility model, the processing materials in the drying bin can be effectively dehydrated and dried through the combined use of the drying unit and the air supply pipeline, wherein in order to prevent heat loss generated during heating, the internal heating coil operation is effectively protected through the heat insulation pipe, and on the other hand, the structure setting of the feeding baffle is utilized, so that the feeding amount can be controlled, and the interior of the drying bin can be sealed so as to facilitate the drying and dehydration of the processing materials in the drying bin.

Drawings

FIG. 1 is a schematic side view of a drying apparatus with a sorting structure according to the present utility model;

FIG. 2 is a schematic view of a feeding baffle of a drying device with a sorting structure according to the present utility model;

FIG. 3 is a schematic diagram of a dryer group of a dryer with a sorting structure according to the present utility model;

fig. 4 is a schematic perspective view of an auxiliary pile with a sorting structure of a drying device according to the present utility model.

In the figure: 1. a drying bin; 2. a base; 3. a moving mechanism; 301. a movable rotating shaft; 302. a power motor; 303. a wheel set; 304. a moving guide rail; 4. auxiliary piles; 401. a support frame; 402. a hydraulic column; 403. stabilizing piles; 5. a dryer group; 501. a blower; 502. an air inlet pipe; 503. a thermal insulating tube; 504. an inner tube; 505. heating the coil; 506. an air outlet pipe; 6. an air supply pipeline; 601. a connecting pipe; 602. a U-shaped tube; 603. an air supply port; 7. a feeding baffle; 701. fixing piles; 702. a gear shaft; 703. a closing plate; 8. a vibrating screen group; 801. a screening net box; 802. a clamping tenon; 803. a chute; 804. an auxiliary connecting rod; 9. a support arm set; 901. an auxiliary fixing frame; 902. a power lever; 903. a vibration unit; 10. and a limiting plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 2, a drying device with a sorting structure comprises a drying bin 1, a drying unit 5 and a vibrating screen group 8, wherein a base 2 is arranged at the bottom of the drying bin 1, moving mechanisms 3 are arranged at two sides of the base 2, auxiliary piles 4 are arranged at one side of the moving mechanisms 3 far away from the base 2, the drying unit 5 is arranged at the left side and the right side of the drying bin 1, an air supply pipeline 6 is connected at the top of the drying unit 5, a feeding baffle 7 is arranged at the center of the top of the drying bin 1, the vibrating screen group 8 is arranged in the drying bin 1 in a stacking manner, support arm groups 9 are connected at the left side and the right side of the vibrating screen group 8, limiting plates 10 are arranged at the left end and the right end surfaces of the vibrating screen group 8, the drying unit 5 is symmetrically arranged left and right with the vertical central axis of the drying bin 1 as a symmetrical axis, the air supply pipeline 6 is symmetrically arranged left and right with the vertical central axis of the drying bin 1 as a symmetrical axis, the feeding baffle 7 is installed in a bilateral symmetry way by taking the vertical central axis of the drying bin 1 as a symmetry axis, the supporting arm group 9 is installed in a bilateral symmetry way by taking the vertical central axis of the vibrating screen group 8 as a symmetry axis, the moving mechanism 3 comprises a movable rotating shaft 301, a power motor 302, a wheel group 303 and a moving guide rail 304, the bottom of the movable rotating shaft 301 is provided with the power motor 302, the wheel groups 303 are arranged at the left side and the right side of the power motor 302, the bottom of the wheel group 303 is provided with the moving guide rail 304, the moving mechanism 3 is installed in a bilateral symmetry way by taking the vertical central axis of the base 2 as a symmetry axis, the auxiliary pile 4 comprises a supporting frame 401, a hydraulic column 402 and a stabilizing pile 403, one side of the supporting frame 401 is fixedly provided with the hydraulic column 402, the bottom of the hydraulic column 402 is fixedly provided with the stabilizing pile 403, the auxiliary pile 4 is installed in a bilateral symmetry way by taking the vertical central axis of the base 2 as a symmetry axis, the movable rotating shaft 301 provides a certain degree of turning property for the whole device in the horizontal direction on two sides of the base 2, so that the device can move, the power generated by the power motor 302 drives the wheel set 303 to rotate and move along the moving guide rail 304 paved in advance, after the whole device stops moving, the hydraulic column 402 on one side of the supporting frame 401 is used for carrying out telescopic adjustment in the vertical direction, the stabilizing pile 403 at the bottom is propped against the ground, the whole device is stabilized on two sides, and the situation that the device slides along the moving guide rail 304 is avoided.

The dryer group 5 includes fan 501, air-supply line 502, heat insulating pipe 503, inner tube 504, heating coil 505, air-out pipe 506, air-supply line 502 is installed to the both sides of fan 501, and the top of fan 501 is provided with heat insulating pipe 503, the inside of heat insulating pipe 503 is provided with inner tube 504, and the surface of inner tube 504 encircles there is heating coil 505, the top of heat insulating pipe 503 is connected with air-out pipe 506, supply air duct 6 includes connecting pipe 601, U-shaped pipe 602 and supply-air inlet 603, the top of connecting pipe 601 is connected with U-shaped pipe 602, and the one end that the U-shaped pipe 602 kept away from connecting pipe 601 is provided with supply-air inlet 603, at first, can drive the air and flow from outside to inside after fan 501 starts, will outside air carry in inner tube 504 through air-supply line 502, make the temperature of inner tube 504 rise through the effect of heating coil 505 at this moment, thereby will flow through this air and heat fast, in connecting pipe 601, and then through U-shaped pipe 602 from the vertical blowing to vibration screen group 8 under supply-air inlet 603, in order to avoid appearing heat loss, including heat insulating pipe 503, whole supply air duct 6 all reduces the material and can utilize the cooling effect in the manufacturing process to reduce the heat transfer to the air, and can be cooled down the problem.

The feeding baffle 7 comprises a fixing pile 701, a gear shaft 702 and a closing plate 703, wherein the gear shaft 702 is arranged on one side of the fixing pile 701, the closing plate 703 is connected to one side of the gear shaft 702 far away from the fixing pile 701, the vibrating screen group 8 comprises a screen material box 801, a clamping tenon 802, a sliding chute 803 and an auxiliary connecting rod 804, the clamping tenon 802 is fixed on the left side and the right side of the screen material box 801, the sliding chute 803 is connected to one side of the clamping tenon 802 far away from the screen material box 801 in a sliding manner, the auxiliary connecting rod 804 is connected to one side of the sliding chute 803 far away from the clamping tenon 802, the supporting arm group 9 comprises an auxiliary fixing frame 901, a power rod 902 and a vibrating unit 903, the power rod 902 is arranged in the auxiliary fixing frame 901, one end of the power rod 902 is provided with the vibrating unit 903, the power rod 902 in the auxiliary fixing frame can horizontally reciprocate the vibrating unit 903 along with the whole vibrating screen group 8, the high-frequency vibration generated by the vibration unit 903 is used for shaking the processing materials smaller than the screen mesh size in the screen mesh box 801 into the next layer, meanwhile, the detachability of the screen mesh box 801 is provided according to different requirements of specific operation, the clamping tenons 802 and the sliding grooves 803 on two sides of the screen mesh box 801 can be replaced in a simple operation mode so as to be used for different screening results, in addition, the structure of the feeding baffle 7 is utilized, the closing plate 703 can be adjusted in the vertical direction by an adjusting range of 90 degrees through the gear shaft 702 on one side of the fixing pile 701, so that the feeding amount can be controlled, and the inside of the drying bin 1 can be sealed so that the processing materials inside the drying bin are dried and dehydrated.

In summary, as shown in fig. 1 to 3, when the drying device with a sorting structure is used, firstly, a required moving guide rail 304 is laid in advance according to a working field arranged according to equipment requirements, then, the moving mechanisms 3 on two sides of a base 2 are utilized to move along a route laid by the moving guide rail 304, wherein a movable rotating shaft 301 provides a certain degree of direction for the whole device in the horizontal direction on two sides of the base 2 so as to facilitate the movement of the device, the power generated by a power motor 302 drives the wheel group 303 to rotate and move along the moving guide rail 304 laid in advance, after the whole device stops moving, a hydraulic column 402 on one side of a support frame 401 is utilized to stretch and adjust in the vertical direction, a stabilizing pile 403 at the bottom is propped against the ground so as to stabilize the whole device on two sides, and avoid the situation that the device slides along the moving guide rail 304;

then according to the specific feeding condition, the feeding baffle 7 at the top of the drying bin 1 is adjusted, the closing plate 703 can be adjusted in the vertical direction by an adjusting range of 90 degrees up and down through the gear shaft 702 at one side of the fixing pile 701, after the adjustment, the processed material is gradually thrown into the drying bin 1, and meanwhile, the drying units 5 at two sides are started, firstly, the fan 501 drives the air to flow from outside to inside after being started, the outside air is conveyed into the inner pipe 504 through the air inlet pipe 502, at the moment, the temperature of the inner pipe 504 in the heat insulation pipe 503 is raised under the action of the heating coil 505, so that the air flowing through the air inlet pipe is quickly heated, is conveyed into the connecting pipe 601 through the air outlet pipe 506, and is vertically blown to the vibrating screen group 8 under the air outlet 603 through the U-shaped pipe 602, meanwhile, the vibrating screen group 8 and the supporting arm group 9 start to operate, wherein the power rod 902 in the auxiliary fixing frame 901 can horizontally reciprocate the vibrating unit 903 and the whole vibrating screen group 8, and then the high-frequency vibration generated by the vibrating unit 903 is utilized to shake the processed material smaller than the screen mesh size in the screen material net box 801 to the next layer, meanwhile, the detachability of the screen material net box 801 is provided according to different requirements of specific operation, and the tenons 802 and the sliding grooves 803 on two sides of the screen material net box 801 can be replaced in a simple operation mode so as to be used for different screening results.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. Drying device with select separately structure, including stoving storehouse (1), drying unit (5) and shale shaker group (8), its characterized in that: the utility model discloses a vibrating screen assembly, including stoving storehouse (1), base (2) are installed to the bottom of stoving storehouse (1), and moving mechanism (3) are installed to the both sides of base (2), auxiliary pile (4) are installed to one side that moving mechanism (3) kept away from base (2), stoving unit (5) are installed in the left and right sides of stoving storehouse (1), and the top of stoving unit (5) is connected with air supply pipeline (6), pan feeding baffle (7) are installed at the top central authorities of stoving storehouse (1), vibration screen assembly (8) range upon range of setting in the inside of stoving storehouse (1), and vibration screen assembly (8) are connected with support arm group (9) in the left and right sides, vibration screen assembly (8) are provided with limiting plate (10) in both ends surface about, vibration screen assembly (8) are fixed with trip (802), spout (801) and auxiliary link (804) including screen assembly (801), and trip (802) are kept away from one side sliding connection of screen assembly (801), trip (803) are kept away from to auxiliary link (803).

2. The drying device with the sorting structure according to claim 1, wherein the moving mechanism (3) comprises a movable rotating shaft (301), a power motor (302), a wheel set (303) and a moving guide rail (304), the power motor (302) is installed at the bottom of the movable rotating shaft (301), the wheel sets (303) are installed at the left side and the right side of the power motor (302), the moving guide rail (304) is arranged at the bottom of the wheel sets (303), and the moving mechanism (3) is installed in a bilateral symmetry mode by taking a vertical central axis of the base (2) as a symmetry axis.

3. The drying device with the sorting structure according to claim 1, wherein the auxiliary pile (4) comprises a supporting frame (401), a hydraulic column (402) and a stabilizing pile (403), the hydraulic column (402) is fixedly installed on one side of the supporting frame (401), the stabilizing pile (403) is fixedly installed on the bottom of the hydraulic column (402), and the auxiliary pile (4) is installed in bilateral symmetry with the vertical central axis of the base (2) as a symmetry axis.

4. The drying device with the sorting structure according to claim 1, wherein the drying unit (5) comprises a fan (501), an air inlet pipe (502), a heat insulation pipe (503), an inner pipe (504), a heating coil (505) and an air outlet pipe (506), the air inlet pipe (502) is installed on two sides of the fan (501), the heat insulation pipe (503) is arranged at the top of the fan (501), the inner pipe (504) is arranged inside the heat insulation pipe (503), the heating coil (505) is surrounded on the surface of the inner pipe (504), and the air outlet pipe (506) is connected to the top of the heat insulation pipe (503).

5. The drying device with the sorting structure according to claim 1, characterized in that the air supply pipeline (6) comprises a connecting pipe (601), a U-shaped pipe (602) and an air supply port (603), the top of the connecting pipe (601) is connected with the U-shaped pipe (602), and one end of the U-shaped pipe (602) far away from the connecting pipe (601) is provided with the air supply port (603).

6. The drying device with the sorting structure according to claim 1, characterized in that the feeding baffle (7) comprises a fixing pile (701), a gear shaft (702) and a closing plate (703), the gear shaft (702) is mounted on one side of the fixing pile (701), and the closing plate (703) is connected to one side of the gear shaft (702) away from the fixing pile (701).

7. A drying apparatus with sorting structure according to claim 1, characterized in that the supporting arm group (9) comprises an auxiliary fixing frame (901), a power rod (902) and a vibration unit (903), the power rod (902) is installed in the auxiliary fixing frame (901), and the vibration unit (903) is installed at one end of the power rod (902).

8. The drying device with the sorting structure according to claim 1, wherein the drying unit (5) is installed in a bilateral symmetry manner by taking a vertical central axis of the drying bin (1) as a symmetry axis, the air supply pipeline (6) is installed in a bilateral symmetry manner by taking the vertical central axis of the drying bin (1) as a symmetry axis, the feeding baffle (7) is installed in a bilateral symmetry manner by taking the vertical central axis of the drying bin (1) as a symmetry axis, and the supporting arm group (9) is installed in a bilateral symmetry manner by taking the vertical central axis of the vibrating screen group (8) as a symmetry axis.

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