CN205305490U - Maize silo - Google Patents

Abstract

The utility model provides a maize silo belongs to maize storage device field, including the silo body, the upper end of the silo body is provided with the feed inlet, and the silo body is provided with the door in feed inlet department, and the lower extreme of the silo body is provided with the discharge gate, and the silo body is provided with discharging device in discharge gate department, the internal dehumidification system that is provided with of silo, the silo is internal to be provided with a plurality of hollow stands, and dehumidification system includes first ventilation pipe, second ventilation pipe, air exit and humidity transducer, and first ventilation pipe sets up on the inner wall of the silo body, and the second ventilation pipe sets up in the stand, and first ventilation pipe and second ventilation pipe all are connected with the fan, and humidity transducer is connected with the controller, and the controller is connected with the fan. This maize silo can carry out real -time supervision to the internal air humidity of silo, through controller control dehumidification system, reduces the internal humidity of silo to for the maize provides humidity suitable storage environment, the quality of the maize of the final ejection of compact has been guaranteed.

Description

Corn silo

Technical field

The utility model relates to storing corn device field, specifically, it relates to a kind of corn silo.

Background technology

Corn is a kind of common food, is commonly used for feedstuff raw material in industry or animal husbandry. Corn silo is the conventional storage facilities for storing corn, the quality quality of itself directly affect stored by the quality of corn, carry out that industrial benefit is had great effect.

When storing corn is in corn silo, the general storage time is longer, it is necessary to just can discharging use when using corn. But existing corn silo is all the structure of sealing usually, and internal medium is more complicated, and long-time storage may cause interior humidity to increase, and affects the quality of corn. The measure that humidity increases problem correspondingly do not tackled by existing corn silo, it is easy to causes discharging corn quality undesirable, reduces and produce or raise benefit.

Practical novel content

The utility model provides a kind of corn silo, it is intended to improve the problems referred to above.

The utility model is achieved in that

A kind of corn silo, comprises silo body;

The upper end of described silo body is provided with opening for feed, and described silo body is provided with door at described opening for feed place, and the lower end of described silo body is provided with discharge port, and described silo body is provided with drawing mechanism in described discharge outlet;

It is provided with dehumidification system in described silo body, the column of some hollow it is provided with in described silo body, described dehumidification system comprises the first vent-pipe, the 2nd vent-pipe, air draft mouth and humidity sensor, described first vent-pipe is arranged on the inwall of described silo body, described 2nd vent-pipe is arranged in described column, described first vent-pipe and described 2nd vent-pipe are all connected with blower fan, described air draft mouth is arranged at the top of described silo body, described humidity sensor is connected with controller, and described controller is connected with described blower fan.

Further, described first vent-pipe is multiple, and vertically is arranged on the inwall of described silo body, and the air opening end of described first vent-pipe is obliquely installed downwards.

First vent-pipe is obliquely installed downwards, when ventilating, form multiply helical flow obliquely, combine with the wind of the 2nd vent-pipe pass-out, form irregular turbulent flow, further increase air-flow and flee probability between corn, substantially increase the scope of dehumidifying, thus improve the effect of dehumidifying so that the corn quality of final discharging is higher.

Further, the air port place that goes out going out air port place and described 2nd vent-pipe of described first vent-pipe is provided with one-way vent valve respectively.

By arranging one-way vent valve, the material on corn is avoided to enter in the first vent-pipe or the 2nd vent-pipe by the air port that goes out of the first vent-pipe and the 2nd vent-pipe, cause the first vent-pipe or the blocking of the 2nd vent-pipe, or even affect the normal operation of blower fan.

Further, described drawing mechanism comprises funnel and rotates concrete vibrating mechanism, described discharge port be arranged at described in go out the lower end of funnel, described rotation concrete vibrating mechanism be arranged near the position of described discharge port and with described go out funnel be connected.

By setting out funnel, corn during discharging can be played convergence effect, to carry out discharging, and rotating concrete vibrating mechanism and can be played by corn and vibrate, corn moves to discharge port gradually in the process of vibrating, and finally discharge from discharge port, thus improve the efficiency of discharging, and in the process of vibrating, it is possible to shake by the water remained on corn, improve quality during corn discharging further, it is not necessary to after discharging, corn is dried process again.

Further, described rotation concrete vibrating mechanism comprises motor, wave-shaped plate and power wheel, and described motor is connected with described power wheel, and described power wheel coordinates with described wave-shaped plate, and described discharge port is arranged at the middle part of described wave-shaped plate.

When vibrating, machine operation drives power wheel to rotate, and power wheel coordinates with wave-shaped plate, power wheel rotates and drives wave-shaped plate to rotate, under the drive of the waviness of the surface of wave-shaped plate, corn is made to produce the trend of motion in the middle part of wave-shaped plate, and final discharge port in the middle part of wave-shaped plate is discharged. Adopt wave-shaped plate, it is to increase to the effect of vibrating of corn, and movement tendency rule is easily controlled, it is to increase discharging efficiency.

Further, the bottom surface of described wave-shaped plate is provided with ring groove, is provided with multiple ball in described ring groove, and the side face of described power wheel embeds in described ring groove and coordinates with described ball.

Coordinating between wave-shaped plate with power wheel adopts rolling resistance to coordinate, and not only transmission is accurate, and reduces power waste so that power wheel can drive wave-shaped plate better when rotating.

Further, described in go out funnel lower end be provided with liquid discharge pipe, described liquid discharge pipe is provided with unidirectional tapping valve, described unidirectional tapping valve is connected with described controller.

By arranging liquid discharge pipe, it is possible to make the liquid in silo body discharge from liquid discharge pipe, and unidirectional tapping valve can prevent outside foreign material from entering from liquid discharge pipe, prevents blocking, can not affect the normal operation of other structures inner.

Further, the air opening end of described 2nd vent-pipe is perpendicular to described column.

When ventilating, the wind of the 2nd vent-pipe pass-out is vertical with column, and column vertically is arranged in silo body so that the wind of the 2nd vent-pipe pass-out and the wind of the first vent-pipe pass-out form irregular turbulent flow, improve the effect of dehumidifying, it is to increase the quality of the corn of discharging.

Further, described humidity sensor is arranged on the inner side-wall at the top of described silo body.

Humidity sensor can monitor the overall humidity in silo body, and humidity sensor is arranged at top, and no that humidity sensor itself causes damages or affect its normal operation for corn and other structures.

Further, described air draft mouth place is provided with air draft valve, and described air draft valve is connected with described controller.

By arranging air draft valve, carry out dehumidifying control device at needs just to control air draft valve and open, both ensure that air draft, surge drum warehouse inner and outer air pressure, simultaneously not needing the state that ensure that silo body inner relative closure when dehumidifying, avoid external environment on the impact of inside.

The useful effect of the corn silo that the utility model provides is: this corn silo is when dehumidifying, first by humidity sensor, the humidity in silo body is detected, when detected humidity value is higher than preset value, by signal transmission to controller, controller control blower fan work, respectively to leading to into air in the first vent-pipe and the 2nd vent-pipe, first vent-pipe ventilates from the inwall of silo body to middle part, and the 2nd vent-pipe ventilates from the middle part of silo body to edge, final wind is discharged from air draft mouth, ensures that silo body internal pressure is suitable for. Pass through dehumidification system, air is made to form irregular turbulent flow in silo body, the rotating speed of blower fan can certainly be regulated by controller and turn to and realize turbulent flow, by the air turbulence of silo body, corn in silo body can be dehumidified, turbulent flow can add easily by corn gap each other very much, it is to increase the effect of dehumidifying.

Therefore, atmospheric moisture in silo body can be carried out Real-Time Monitoring by this corn silo, when monitoring humidity value higher than preset value, dehumidification system is controlled by controller, reducing the humidity in silo body, until reaching preset value, thus providing the storage condition that humidity is suitable for for corn, ensure that the quality of the corn of final discharging, it is to increase production and raise benefit.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, it is briefly described to the accompanying drawing used required in embodiment below, it is to be understood that, the following drawings illustrate only some embodiment of the present utility model, therefore should not be counted as is the restriction to scope, for those of ordinary skill in the art, under the prerequisite not paying creative work, it is also possible to obtain other relevant accompanying drawings according to these accompanying drawings.

The structural representation of the corn silo that Fig. 1 provides for the utility model embodiment;

The structural representation of the rotation concrete vibrating mechanism of the corn silo that Fig. 2 provides for the utility model embodiment.

Figure acceptance of the bid note is respectively:

Silo body 101; Door 102; Discharge port 103; Column 104; First vent-pipe 105; 2nd vent-pipe 106; Air draft mouth 107; Humidity sensor 108; Go out funnel 109; Motor 110; Wave-shaped plate 111; Power wheel 112; Ring groove 113; Ball 114.

Embodiment

Corn is a kind of common food, is commonly used for feedstuff raw material in industry or animal husbandry. Corn silo is the conventional storage facilities for storing corn, the quality quality of itself directly affect stored by the quality of corn, carry out that industrial benefit is had great effect.

When storing corn is in corn silo, the general storage time is longer, it is necessary to just can discharging use when using corn. But existing corn silo is all the structure of sealing usually, and internal medium is more complicated, and long-time storage may cause interior humidity to increase, and affects the quality of corn. The measure that humidity increases problem correspondingly do not tackled by existing corn silo, it is easy to causes discharging corn quality undesirable, reduces and produce or raise benefit.

Given this, planner of the present utility model is by long-term exploration and trial, and experiment repeatedly and effort, constantly reform and innovation, devise a kind of corn silo, atmospheric moisture in silo body 101 can be carried out Real-Time Monitoring, when monitoring humidity value higher than preset value, dehumidification system is controlled by controller, reducing the humidity in silo body 101, until reaching preset value, thus providing the storage condition that humidity is suitable for for corn, ensure that the quality of the corn of final discharging, it is to increase production and raise benefit.

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments. The assembly of the utility model embodiment usually describing in accompanying drawing herein and illustrating can be arranged with various different configuration and design. Therefore, below to the detailed description of the embodiment of the present utility model provided in the accompanying drawings and the claimed scope of the present utility model of not intended to be limiting, but only represent selected embodiment of the present utility model. Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment

Referring to Fig. 1, present embodiments provide a kind of corn silo, this corn silo comprises silo body 101. The upper end of silo body 101 is provided with opening for feed, and silo body 101 is provided with door 102 at opening for feed place, and the lower end of silo body 101 is provided with discharge port 103, and silo body 101 is provided with drawing mechanism at discharge port 103 place.

It is provided with dehumidification system in silo body 101, the column 104 of some hollow it is provided with in silo body 101, dehumidification system comprises the first vent-pipe 105, the 2nd vent-pipe 106, air draft mouth 107 and humidity sensor 108, first vent-pipe 105 is arranged on the inwall of silo body 101,2nd vent-pipe 106 is arranged in column 104, first vent-pipe 105 and the 2nd vent-pipe 106 are all connected with blower fan, air draft mouth 107 is arranged at the top of silo body 101, humidity sensor 108 is connected with controller, and controller is connected with blower fan.

This corn silo is when dehumidifying, first by humidity sensor 108, the humidity in silo body 101 is detected, when detected humidity value is higher than preset value, by signal transmission to controller, controller control blower fan work, respectively to leading to into air in the first vent-pipe 105 and the 2nd vent-pipe 106, first vent-pipe 105 ventilates from the inwall of silo body 101 to middle part, and the 2nd vent-pipe 106 ventilates from the middle part of silo body 101 to edge, final wind is discharged from air draft mouth 107, ensures that silo body 101 internal pressure is suitable for. Pass through dehumidification system, air is made to form irregular turbulent flow in silo body 101, the rotating speed of blower fan can certainly be regulated by controller and turn to and realize turbulent flow, by the air turbulence of silo body 101, corn in silo body 101 can be dehumidified, turbulent flow can add easily by corn gap each other very much, it is to increase the effect of dehumidifying.

Therefore, atmospheric moisture in silo body 101 can be carried out Real-Time Monitoring by this corn silo, when monitoring humidity value higher than preset value, dehumidification system is controlled by controller, reducing the humidity in silo body 101, until reaching preset value, thus providing the storage condition that humidity is suitable for for corn, ensure that the quality of the corn of final discharging, it is to increase production and raise benefit.

Further, referring to Fig. 1, the first vent-pipe 105 is multiple, and vertically is arranged on the inwall of silo body 101, and the air opening end of the first vent-pipe 105 is obliquely installed downwards.

First vent-pipe 105 is obliquely installed downwards, when ventilating, form multiply helical flow obliquely, combine with the wind of the 2nd vent-pipe 106 pass-out, form irregular turbulent flow, further increase air-flow and flee probability between corn, substantially increase the scope of dehumidifying, thus improve the effect of dehumidifying so that the corn quality of final discharging is higher.

The air opening end of the 2nd vent-pipe 106 is perpendicular to column 104. When ventilating, the wind of the 2nd vent-pipe 106 pass-out is vertical with column 104, and column 104 vertically is arranged in silo body 101, the wind of the 2nd vent-pipe 106 pass-out and the wind of the first vent-pipe 105 pass-out is made to form irregular turbulent flow, improve the effect of dehumidifying, it is to increase the quality of the corn of discharging.

The air port place that goes out going out air port place and the 2nd vent-pipe 106 of the first vent-pipe 105 is provided with one-way vent valve respectively.

By arranging one-way vent valve, the material on corn is avoided to enter in the first vent-pipe 105 or the 2nd vent-pipe 106 by the air port that goes out of the first vent-pipe 105 and the 2nd vent-pipe 106, cause the first vent-pipe 105 or the 2nd vent-pipe 106 to block, or even affect the normal operation of blower fan.

Referring to Fig. 1 and Fig. 2, drawing mechanism comprises funnel 109 and rotates concrete vibrating mechanism, and discharge port 103 is arranged at out the lower end of funnel 109, rotate concrete vibrating mechanism be arranged near the position of discharge port 103 and with go out funnel 109 and be connected.

By setting out funnel 109, corn during discharging can be played convergence effect, to carry out discharging, and rotating concrete vibrating mechanism and can be played by corn and vibrate, corn moves to discharge port 103 gradually in the process of vibrating, and finally discharge from discharge port 103, thus improve the efficiency of discharging, and in the process of vibrating, it is possible to shake by the water remained on corn, improve quality during corn discharging further, it is not necessary to after discharging, corn is dried process again.

Rotating concrete vibrating mechanism and comprise motor 110, wave-shaped plate 111 and power wheel 112, motor 110 is connected with power wheel 112, and power wheel 112 coordinates with wave-shaped plate 111, and discharge port 103 is arranged at the middle part of wave-shaped plate 111.

When vibrating, motor 110 works and drives power wheel 112 to rotate, power wheel 112 coordinates with wave-shaped plate 111, power wheel 112 rotates and drives wave-shaped plate 111 to rotate, under the drive of the waviness of the surface of wave-shaped plate 111, corn is made to produce the trend of motion in the middle part of wave-shaped plate 111, and final discharge port 103 in the middle part of wave-shaped plate 111 is discharged. Adopt wave-shaped plate 111, it is to increase to the effect of vibrating of corn, and movement tendency rule is easily controlled, it is to increase discharging efficiency.

The bottom surface of wave-shaped plate 111 is provided with ring groove 113, is provided with multiple ball 114 in ring groove 113, and the side face of power wheel 112 embeds in ring groove 113 and coordinates with ball 114.

Coordinating between wave-shaped plate 111 with power wheel 112 adopts rolling resistance to coordinate, and not only transmission is accurate, and reduces power waste so that power wheel 112 can drive wave-shaped plate 111 better when rotating.

The lower end going out funnel 109 is provided with liquid discharge pipe, and liquid discharge pipe is provided with unidirectional tapping valve, and unidirectional tapping valve is connected with controller.

By arranging liquid discharge pipe, it is possible to make the liquid in silo body 101 discharge from liquid discharge pipe, and unidirectional tapping valve can prevent outside foreign material from entering from liquid discharge pipe, prevents blocking, can not affect the normal operation of other structures inner.

Humidity sensor 108 is arranged on the inner side-wall at the top of silo body 101. Humidity sensor 108 can monitor the overall humidity in silo body 101, and humidity sensor 108 is arranged at top, and no that humidity sensor 108 itself causes damages or affect its normal operation for corn and other structures.

Air draft mouth 107 place is provided with air draft valve, and air draft valve is connected with controller.By arranging air draft valve, carry out dehumidifying control device at needs just to control air draft valve and open, both ensure that air draft, surge drum warehouse 101 inner and outer air pressure, simultaneously not needing the state that ensure that silo body 101 inner relative closure when dehumidifying, avoid external environment on the impact of inside.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", it is based on orientation shown in the drawings or position relation that the orientation of the instruction such as " counterclockwise " or position are closed, it is only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the equipment referred to or element must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " the 2nd " are only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technology feature. Thus, be limited with " first ", the feature of " the 2nd " can express or implicit comprise one or more these features. In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, such as, it is possible to be fixedly connected with, it is also possible to be removably connect, or integral; Can be mechanically connected, it is also possible to be electrical connection; Can be directly be connected, it is also possible to be indirectly connected by intermediary, it is possible to be the connection of two element internals or the interaction relationship of two elements. For the ordinary skill in the art, it is possible to understand the concrete implication of above-mentioned term in the utility model according to particular case.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, it is also possible to comprise the first and second features be not directly contact but by the other characterisation contact between them. And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature. Fisrt feature second feature " under ", " lower section " and " below " comprise fisrt feature immediately below second feature and tiltedly lower section, or only represent that fisrt feature level height is less than second feature.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations. All within spirit of the present utility model and principle, any amendment of doing, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a corn silo, it is characterised in that, comprise silo body;

The upper end of described silo body is provided with opening for feed, and described silo body is provided with door at described opening for feed place, and the lower end of described silo body is provided with discharge port, and described silo body is provided with drawing mechanism in described discharge outlet;

It is provided with dehumidification system in described silo body, the column of some hollow it is provided with in described silo body, described dehumidification system comprises the first vent-pipe, the 2nd vent-pipe, air draft mouth and humidity sensor, described first vent-pipe is arranged on the inwall of described silo body, described 2nd vent-pipe is arranged in described column, described first vent-pipe and described 2nd vent-pipe are all connected with blower fan, described air draft mouth is arranged at the top of described silo body, described humidity sensor is connected with controller, and described controller is connected with described blower fan.

2. corn silo according to claim 1, it is characterised in that, described first vent-pipe is multiple, and vertically is arranged on the inwall of described silo body, and the air opening end of described first vent-pipe is obliquely installed downwards.

3. corn silo according to claim 1, it is characterised in that, the air port place that goes out going out air port place and described 2nd vent-pipe of described first vent-pipe is provided with one-way vent valve respectively.

4. corn silo according to claim 1, it is characterized in that, described drawing mechanism comprises funnel and rotates concrete vibrating mechanism, described discharge port be arranged at described in go out the lower end of funnel, described rotation concrete vibrating mechanism be arranged near the position of described discharge port and with described go out funnel be connected.

5. corn silo according to claim 4, it is characterized in that, described rotation concrete vibrating mechanism comprises motor, wave-shaped plate and power wheel, and described motor is connected with described power wheel, described power wheel coordinates with described wave-shaped plate, and described discharge port is arranged at the middle part of described wave-shaped plate.

6. corn silo according to claim 5, it is characterised in that, the bottom surface of described wave-shaped plate is provided with ring groove, is provided with multiple ball in described ring groove, and the side face of described power wheel embeds in described ring groove and coordinates with described ball.

7. corn silo according to claim 4, it is characterised in that, described in go out funnel lower end be provided with liquid discharge pipe, described liquid discharge pipe is provided with unidirectional tapping valve, described unidirectional tapping valve is connected with described controller.

8. corn silo according to claim 1, it is characterised in that, the air opening end of described 2nd vent-pipe is perpendicular to described column.

9. corn silo according to claim 1, it is characterised in that, described humidity sensor is arranged on the inner side-wall at the top of described silo body.

10. corn silo according to claim 1, it is characterised in that, described air draft mouth place is provided with air draft valve, and described air draft valve is connected with described controller.