CN204787710U - Three -dimensional spiral maize drying device - Google Patents

Abstract

The utility model discloses a three -dimensional spiral maize drying device, which comprises a housin, including a motor, an end cap, a controller, and a cover plate, the steam induction pipe, outer feeding storehouse, the cylindric feeder of spiral pipe and vertical installation, the motor sets up the top at the casing, the middle part fixed connection of connecting axle and feeder upper surface is passed through in the pivot of motor, the feeder is provided with the feeding through -hole, the last port of feeding through -hole is provided with interior feeding storehouse, the unloading in the outer feeding storehouse pipe mouth of pipe is located the feeding storehouse directly over, the lower port of feeding through -hole runs through the lower surface middle part of feeder, the vertical setting of spiral pipe is in the inside of casing, the middle part fixed connection of spiral pipe and feeder, and the last mouth of pipe of spiral pipe and the butt joint of the lower port of feeding through -hole, the lower mouth of pipe of spiral pipe is worn out from the bottom of casing, the lower extreme oral area of spiral pipe passes through ball bearing structure and fixes the bottom at the casing. The utility model discloses can there be the accumulational problem of maize, have improved the drying efficiency of maize greatly.

Description

A kind of three-dimensional spiral corn-drying device

Technical field

The utility model relates to agricultural equipment technical field, particularly relates to a kind of three-dimensional spiral corn-drying device.

Background technology

Corn planting industry is the key areas in agricultural planting, along with the development of society and the progress of science and technology, the output of corn has had and has significantly improved, in order to corn can be preserved for a long time, need the moisture content reducing corn seed, general is all be exposed to the sun in the sun by manually being put by crops, adopt the amount of labour that can increase peasant in this way greatly, and the drying efficiency of corn is very low.At present drying is carried out to corn utilizing corn drying machinery in some region, although the drying efficiency of the mode corn that is relatively exposed to the sun increases, in the process of corn-drying, it is thicker that corn is piled up, and still has the space of improving and improving.

Utility model content

The purpose of this utility model is just to provide a kind of three-dimensional spiral corn-drying device to solve the problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of three-dimensional spiral corn-drying device, comprise housing, motor, hot gas ingress pipe, outer feeding warehouse, helix tube and the cylindric feeder vertically installed, described motor is arranged on the top of described housing, the rotating shaft of described motor is fixedly connected with by the middle part of connecting axle with described feeder upper surface, described feeder is provided with feed-throughs, the upper port of described feed-throughs is provided with interior feeding warehouse, the tremie pipe mouth of pipe of described outer feeding warehouse is positioned at directly over described feeding warehouse, the lower port of described feed-throughs extends through in the middle part of the lower surface of described feeder, described helix tube is vertically arranged on the inside of described housing, described helix tube is fixedly connected with the middle part of described feeder, and the upper orifice of described helix tube docks with the lower port of described feed-throughs, the lower nozzle of described helix tube passes from the bottom of described housing, the lower end oral area of described helix tube is fixed on the bottom of described housing by ball supporting construction.

Further, described outer feeding warehouse is arranged on the lateral wall of described housing by fixed head, and the mouth of pipe of described tremie pipe is through directly over described housing to described interior feeding warehouse.

Further, push-pull valve is provided with in the pipeline of described tremie pipe.

Further, described housing is the rectangular structure of vertically installing.

Further, described feed-throughs tilts through the upper and lower surface of described feeder.

Further, be all fixedly connected with by flange between described connecting axle and the rotating shaft of described motor, between described connecting axle with described feeder, between described helix tube with described feeder.

Further, the bottom of described housing is provided with discharge opening, and the lower nozzle of described helix tube passes from described discharge opening, and on hoop, all there is gap between the lower nozzle portion of described helix tube and described discharge opening.

Further, described ball supporting construction comprises upper backup pad and lower supporting plate, described upper backup pad is fixedly installed on the lower end oral area of described helix tube, described lower supporting plate is fixedly installed on the bottom of described housing, the lower surface of described upper backup pad and the upper surface of described lower supporting plate are provided with annular ball grooves, are provided with many for supporting the ball of described helix tube between the annular ball grooves of described upper backup pad and the annular ball grooves of described lower supporting plate.

Further, there is the gap of 1 ~ 4mm between described upper backup pad and described lower supporting plate.

Further, described hot gas ingress pipe is arranged on the bottom of described housing.

The beneficial effects of the utility model are:

The problem that corn is piled up can not be there is in the utility model, the tensile elongation of helix tube enough meets the drying time of corn, by corn flash baking in the process that can slide at corn, and directly the corn after oven dry is discharged from bottom, substantially increase the drying efficiency of corn.

Accompanying drawing explanation

Fig. 1 is the structural representation of the spiral corn-drying device of solid described in the utility model;

Fig. 2 is the partial enlarged drawing at A place in Fig. 1;

Fig. 3 is the structural representation of lower supporting plate described in the utility model;

Fig. 4 is the sectional structure schematic diagram of feeder described in the utility model;

In figure: feeding warehouse, 14-housing, 15-ball, 16-annular ball grooves, 17-feed-throughs in the outer feeding warehouse of 1-motor, 2-flange, 3-connecting axle, 4-feeder, 5-helix tube, 6-hot gas ingress pipe, 7-upper backup pad, 8-lower supporting plate, 9-, 10-push-pull valve, 11-tremie pipe, 12-fixed head, 13-.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As Fig. 1, Fig. 2, shown in Fig. 3 and Fig. 4, the utility model comprises housing 14, motor 1, hot gas ingress pipe 6, outer feeding warehouse 9, helix tube 5 and the cylindric feeder 4 vertically installed, motor 1 is arranged on the top of housing 14, the rotating shaft of motor 1 is fixedly connected with by the middle part of connecting axle 3 with feeder 4 upper surface, feeder 4 is provided with feed-throughs 17, the upper port of feed-throughs 17 is provided with interior feeding warehouse 13, tremie pipe 11 mouth of pipe of outer feeding warehouse 9 is positioned at directly over feeding warehouse 13, the lower port of feed-throughs 17 extends through in the middle part of the lower surface of feeder 4, helix tube 5 is vertically arranged on the inside of housing 14, helix tube 5 is fixedly connected with the middle part of feeder 4, and the upper orifice of helix tube 5 docks with the lower port of feed-throughs 17, the lower nozzle of helix tube 5 passes from the bottom of housing 14, the lower end oral area of helix tube 5 is fixed on the bottom of housing 14 by ball 15 supporting construction.

The spiral corn-drying device of solid described in the utility model, outer feeding warehouse 9 is arranged on the lateral wall of housing 14 by fixed head 12, the mouth of pipe of tremie pipe 11 is through directly over housing 14 to interior feeding warehouse 13, thus corn can fall into interior feeding warehouse 13 from tremie pipe 11.Be provided with push-pull valve 10 in the pipeline of tremie pipe 11, can control by push-pull valve 10 speed that the corn in outer feeding warehouse 9 leaks down.

Housing 14 is the rectangular structure of vertically installing, can with the mating shapes of the helix tube 5 vertically arranged.

Feed-throughs 17 tilts through the upper and lower surface of feeder 4, thus interior feeding warehouse 13 can be arranged on the edge part of feeder 4 upper surface, the upper port of helix tube 5 is connected to the middle part of feeder 4 lower surface.

All be fixedly connected with by flange 2 between connecting axle 3 and the rotating shaft of motor 1, between connecting axle 3 with feeder 4, between helix tube 5 with feeder 4, be convenient to dismounting.

The bottom of housing 14 is provided with discharge opening, and the lower nozzle of helix tube 5 passes from discharge opening, and on hoop, all there is gap between the lower nozzle portion of helix tube 5 and discharge opening, and such helix tube 5, when rotating, can not be subject to the obstruction of housing 14.

Ball 15 supporting construction comprises upper backup pad 7 and lower supporting plate 8, upper backup pad 7 is fixedly installed on the lower end oral area of helix tube 5, lower supporting plate 8 is fixedly installed on the bottom of housing 14, the lower surface of upper backup pad 7 and the upper surface of lower supporting plate 8 are provided with annular ball grooves 16, many the balls 15 for support helix pipe 5 are provided with between the annular ball grooves 16 of upper backup pad 7 and the annular ball grooves 16 of lower supporting plate 8, this supporting construction can either ensure that helix tube 5 is supported by stable, also the rotation of helix tube 5 is conducive to, the gap of 1 ~ 4mm is there is between upper backup pad 7 and lower supporting plate 8, if too little, then be easy to be blocked by dust, if excessive, then structural stability can be poor.

Hot gas ingress pipe 6 is arranged on the bottom of housing 14, and hot gas pours in from the bottom to top, and can be conducive to helix tube 5 and all be shrouded, the hot gas poured in is introduced into the top in housing 14, then can produce the thermal current of circulation, and unnecessary hot gas can be discharged from bottom.

The spiral corn-drying device of solid described in the utility model, utilize vertical helix tube 5 as the drying channel of corn, motor 1 is utilized to drive helix tube 5 to rotate, ensure that hot gas can be looped around the surrounding of helix tube 5 uniformly, the direction contrary with the hand of spiral of helix tube 5 can be selected when rotating, thus can make corn in helix tube 5, have a trend of climbing, raising drying efficiency that can be extra, utilize feeder 4 corn material of outer feeding warehouse 9 to be introduced in helix tube 5, utilize hot gas ingress pipe 6 to import in housing 14 and dry hot gas.

These are only preferred embodiment of the present utility model, not in order to limit the utility model, all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included in protection domain of the present utility model.

Claims (10)

1. the spiral corn-drying device of solid, comprise housing, motor, hot gas ingress pipe and outer feeding warehouse, it is characterized in that: the cylindric feeder also comprising helix tube and vertically install, described motor is arranged on the top of described housing, the rotating shaft of described motor is fixedly connected with by the middle part of connecting axle with described feeder upper surface, described feeder is provided with feed-throughs, the upper port of described feed-throughs is provided with interior feeding warehouse, the tremie pipe mouth of pipe of described outer feeding warehouse is positioned at directly over described feeding warehouse, the lower port of described feed-throughs extends through in the middle part of the lower surface of described feeder, described helix tube is vertically arranged on the inside of described housing, described helix tube is fixedly connected with the middle part of described feeder, and the upper orifice of described helix tube docks with the lower port of described feed-throughs, the lower nozzle of described helix tube passes from the bottom of described housing, the lower end oral area of described helix tube is fixed on the bottom of described housing by ball supporting construction.

2. the spiral corn-drying device of solid according to claim 1, is characterized in that: described outer feeding warehouse is arranged on the lateral wall of described housing by fixed head, and the mouth of pipe of described tremie pipe is through directly over described housing to described interior feeding warehouse.

3. the spiral corn-drying device of solid according to claim 1 and 2, is characterized in that: be provided with push-pull valve in the pipeline of described tremie pipe.

4. the spiral corn-drying device of solid according to claim 1, is characterized in that: described housing is the rectangular structure of vertically installing.

5. the spiral corn-drying device of solid according to claim 1, is characterized in that: described feed-throughs tilts through the upper and lower surface of described feeder.

6. the spiral corn-drying device of solid according to claim 1, be is characterized in that: be all fixedly connected with by flange between described connecting axle and the rotating shaft of described motor, between described connecting axle with described feeder, between described helix tube with described feeder.

7. the spiral corn-drying device of solid according to claim 1, it is characterized in that: the bottom of described housing is provided with discharge opening, the lower nozzle of described helix tube passes from described discharge opening, and on hoop, all there is gap between the lower nozzle portion of described helix tube and described discharge opening.

8. the spiral corn-drying device of solid according to claim 1, it is characterized in that: described ball supporting construction comprises upper backup pad and lower supporting plate, described upper backup pad is fixedly installed on the lower end oral area of described helix tube, described lower supporting plate is fixedly installed on the bottom of described housing, the lower surface of described upper backup pad and the upper surface of described lower supporting plate are provided with annular ball grooves, are provided with many for supporting the ball of described helix tube between the annular ball grooves of described upper backup pad and the annular ball grooves of described lower supporting plate.

9. the spiral corn-drying device of solid according to claim 8, is characterized in that: the gap that there is 1 ~ 4mm between described upper backup pad and described lower supporting plate.

10. the spiral corn-drying device of solid according to claim 1, is characterized in that: described hot gas ingress pipe is arranged on the bottom of described housing.