CN112456161A

CN112456161A - Horizontal warehouse bulk grain warehousing system

Info

Publication number: CN112456161A
Application number: CN202011603934.6A
Authority: CN
Inventors: 王录民; 许启铿; 袁庆利; 毛广卿; 王有安; 揣君; 滑意飞; 刘少华; 赵小勇
Original assignee: Zhengzhou Gongda Grain Security Technology Co ltd
Current assignee: Zhengzhou Gongda Grain Security Technology Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-03-09

Abstract

The invention relates to a flat-house bulk grain warehousing system which comprises at least two grain conveyors for conveying corresponding grains from back to front, wherein the front end of a conveyor rack of a first grain conveyor is connected with the rear end of a conveyor rack of a second grain conveyor through a rotary connecting structure, in the relative rotating process of the first grain conveyor and the second grain conveyor, the discharge end of a conveying mechanism of the first grain conveyor and the feed end of a conveying mechanism of the second grain conveyor are kept corresponding to realize that the grains are conveyed to the second grain conveyor from the first grain conveyor, and a travelling mechanism of the grain conveyor at the forefront position comprises a travelling wheel, a travelling driving mechanism for driving the travelling wheel to rotate and a steering driving mechanism for driving the travelling wheel to steer. The invention solves the technical problem that the grain distribution process is time-consuming and labor-consuming because the positions of all conveyors at the upstream of a front-end grain conveyor in a bin need to be manually adjusted when the positions of the grain distribution points need to be changed in the prior art.

Description

Horizontal warehouse bulk grain warehousing system

Technical Field

The invention relates to a flat-room bulk grain warehousing system in the field of grain distribution of granaries.

Background

In the prior art, the grain storage process generally includes that grain is transported to the outer side of a warehouse through a grain transporting vehicle, then the grain is transported into a granary through a multi-stage conveyor, and finally the grain is arranged at each position of the granary through a front-end grain conveyor in the granary. The front-end grain conveyor comprises a front-end grain conveyor frame, a grain conveying mechanism is arranged on the front-end grain conveyor frame, and a walking mechanism is arranged at the bottom of the front-end grain conveyor frame.

In whole cloth grain in-process, need frequent change front end grain conveyer's angle and position to change cloth grain position, finally make inside the cloth grain point covers whole granary, among the prior art, when the position of front end grain conveyer changes, the position of each conveyer on its upper reaches all need change the adjustment through the manpower, the process of each conveyer of manpower adjustment is wasted time and energy, not only intensity of labour is great, but also seriously influences cloth grain efficiency.

Disclosure of Invention

The invention aims to provide a flat-room bulk grain warehousing system, which solves the technical problem that the grain distribution process is time-consuming and labor-consuming because the positions of conveyors at the upstream of a front-end grain conveyor in a warehouse need to be manually adjusted when the positions of grain distribution points need to be changed in the prior art.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a flat-room bulk grain warehousing system comprises at least two grain conveyors for conveying corresponding grains from back to front, wherein each grain conveyor comprises a conveyor frame, a conveying mechanism and a traveling mechanism, the conveying mechanism is arranged on the conveyor frame and is provided with a feeding end and a discharging end, two adjacent grain conveyors are defined as a first grain conveyor and a second grain conveyor respectively, the front end of the conveyor frame of the first grain conveyor is connected with the rear end of the conveyor frame of the second grain conveyor through a rotating connecting structure, the axis of the rotating connecting structure extends along the vertical direction, the discharging end of the conveying mechanism of the first grain conveyor and the feeding end of the conveying mechanism of the second grain conveyor are kept corresponding to realize that the grains are conveyed to the second grain conveyor from the first grain conveyor, the walking mechanism of the grain conveyor at the most front position comprises a walking wheel, a walking driving mechanism for driving the walking wheel to walk in a rotating way and a steering driving mechanism for driving the walking wheel to turn.

The grain conveyor has at least three, and the feed end of the conveying mechanism of the grain conveyor at the rearmost position is in the position of the bin opening and rotates around the fixed rotation axis.

The feed end of the conveying mechanism of the second grain conveyor is positioned at the right upper side or the right lower side of the corresponding rotating connecting structure, and the grain outlet end of the conveying mechanism of the first grain conveyor is positioned at the right upper side or the right lower side of the corresponding rotating connecting structure.

The grain conveyor has three, and the conveyer frame of the grain conveyor in the middle position can stretch out and draw back in the front-rear direction.

Except the grain conveyor at the most front position, the travelling mechanisms of other grain conveyors are all follow-up travelling mechanisms.

The grain conveyer definition that the position leaned on the front is front end grain conveyer, and front end grain conveyer's conveyer frame includes left side frame part, right side frame part and connects in the connection support body of left side frame part and right side frame part, and left side frame part, the partial interval arrangement of right side frame have from the rear below to the installation space that the front top extends up between left side frame part, the right side frame part, the rear end slope of the conveying mechanism of front end grain conveyer arrange in the installation space.

The rear end of the conveying mechanism of the front-end grain conveyor is supported on the corresponding conveyor frame through a rotating support shaft, and the middle part of the conveying mechanism of the front-end grain conveyor is connected to the conveyor frame through a support rod.

The invention has the beneficial effects that: the invention discloses a flat-room bulk grain warehousing system for distributing grains in a warehouse, wherein the discharging end of a conveying mechanism of a grain conveyor at the forefront side determines the grain distribution point position, a travelling mechanism of the grain conveyor at the forefront side is an active driving mechanism capable of steering and travelling, the grain conveyor at the forefront side can change the grain distribution point position by travelling and/or swinging around the axis of a corresponding rotating connecting structure, so that the grain distribution in the warehouse is realized, when the grain conveyor at the forefront side actively acts to change the grain distribution point position, each grain conveyor at the back position can be adjusted along with the position due to the existence of the corresponding rotating connecting structure, no matter how two adjacent grain conveyors swing relatively, the discharging end of the conveying mechanism of a first grain conveyor and the feeding end of the conveying mechanism of a second grain conveyor keep corresponding to realize that the grains are conveyed to the second grain conveyor by the first grain conveyor, therefore, the continuity of grain conveying is ensured, the frequent movement of the grain conveyor in an operator area is not needed, the labor intensity of operators is greatly reduced, and the grain distribution efficiency is effectively improved.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a front-end grain conveyor in embodiment 1 of the invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a side view of FIG. 1;

FIG. 4 is a perspective view of FIG. 1;

FIG. 5 is a schematic structural view of the front end grain conveyor frame of FIG. 1;

FIG. 6 is a top view of FIG. 5;

FIG. 7 is a perspective view of FIG. 5;

FIG. 8 is a schematic view of the grain distribution process of example 1;

FIG. 9 is a schematic view of the grain distribution process of example 2;

FIG. 10 is a schematic view of the grain distribution process of example 3;

fig. 11 is a schematic view of the grain distribution process of example 4.

Detailed Description

An embodiment 1 of a horizontal warehouse bulk grain warehousing system is shown in fig. 1-8: the granary in this embodiment is square granary, and the length direction length of square granary is greater than width direction length.

The flat-room bulk grain warehousing system comprises grain distribution equipment outside a grain bin and grain distribution equipment inside the grain bin, wherein the grain distribution equipment inside the grain bin comprises three grain conveyors for conveying corresponding grains from back to front, each grain conveyor comprises a conveyor rack, a conveying mechanism and a traveling mechanism, the conveying mechanism is arranged on the conveyor rack and provided with a feeding end and a discharging end, in order to explain the problems more clearly in the embodiment, the grain conveyor which is positioned most forward is called a front-end grain conveyor 35, the grain conveyor connected with the front-end grain conveyor is called a first grain conveyor 34, and the grain conveyor connected with the first grain conveyor is called a second grain conveyor 32.

The two adjacent grain conveyors of definition are first grain conveyor and second grain conveyor respectively, the front end of the conveyer frame of first grain conveyor is connected with the conveyer frame rear end of second grain conveyor through rotating connection structure, the axis that rotates connection structure extends the setting along upper and lower direction, first grain conveyor, second grain conveyor relative rotation in-process, the discharge end of the conveying mechanism of first grain conveyor and the feed end of the conveying mechanism of second grain conveyor keep corresponding in order to realize that grain is carried to the second grain conveyor by first grain conveyor on.

The traveling mechanism of the front-end grain conveyor 35 includes a traveling wheel, a traveling drive mechanism for driving the traveling wheel to travel and a steering drive mechanism for driving the traveling wheel to steer. The traveling mechanisms of the first grain conveyor 34 and the second grain conveyor 32 are all follow-up traveling mechanisms. The grain distribution equipment outside the grain bin comprises at least one grain conveyor which is used for conveying grains on the vehicle to the feeding end of the second grain conveyor.

Each grain conveyer in this embodiment is band conveyer, and first grain conveyer is for sending the changeable telescopic grain conveyer of grain length, and it includes two sections band conveyer of arranging from top to bottom, and the band conveyer of downside wherein can remove the band conveyer of upside relatively to change the grain length of sending of first grain conveyer, second grain conveyer all belong to prior art, do not detailed herein again.

Front end grain conveyer 35 includes front end grain conveyer frame 4 and is used for carrying corresponding grain conveying mechanism 5 along the fore-and-aft direction, grain conveying mechanism is the conveying mechanism who carries out the length adjustment for the utensil can stretch out and draw back by upper and lower two-layer band conveyer in this embodiment, upper belt conveyer, when lower floor's band conveyer expandes, upper belt conveyer becomes grain conveyer's rear end, upper belt conveyer's rear end tip constitutes grain conveying mechanism's feed end, upper belt conveyer becomes fixed conveying mechanism, lower floor's band conveyer becomes movable conveying mechanism.

Front end grain conveyer frame includes the frame body, and the frame body is including controlling left side frame part 15 and right side frame part 16 of interval arrangement, is connected through connecting the support body between left side frame part 15 and the right side frame part 16, and left side frame part includes the left side frame roof beam that extends along the fore-and-aft direction, and right side frame part includes the right side frame roof beam that extends along the fore-and-aft direction, and battery 7 has been placed to the upside of left side frame roof beam, right side frame roof beam. The connection support body includes by back to preceding rear side connection roof beam frame 21, middle connection roof beam frame 3 and the preceding side connection roof beam frame 2 that sets up in proper order, and wherein rear side connection roof beam frame, middle connection roof beam frame are the U-shaped structure, and the height of rear side connection roof beam frame is minimum, and the height of front side connection roof beam frame is the highest, and the height of middle connection roof beam frame is in between rear side connection roof beam frame and the preceding side connection roof beam frame.

An installation space 17 extending upward from the rear lower side to the front upper side is formed between the left side frame section 15, the right side frame section 16, the rear side connecting beam frame 21, the intermediate connecting beam frame 3 and the front side connecting beam frame 2, the rear end of the conveying mechanism 5 is arranged obliquely in the installation space, the bottom of the rear end tip of conveying mechanism 5 is rotated through back shaft 11 and is supported on rear side link frame 21, front side link frame 2 links to each other through bracing piece 1 with grain conveying mechanism upper end, the bracing piece is the hydraulic support pole in this embodiment, bracing piece 1 has two, two bracing pieces are arranged in conveying mechanism 5's the left and right sides, conveying mechanism 5 is last to be provided with bracing piece link 6, the bracing piece link is the structure of falling V-arrangement, two cradling piece links are located grain conveying mechanism's the left and right sides, the top of cradling piece link is connected through connecting horizontal pole 18, two bracing pieces are connected with the both ends of connecting horizontal pole 18 respectively. Through the action of hydraulic support pole, can adjust conveying mechanism 5's angle of pitch to change the cloth grain height, when distributing grain to a certain region, increase conveying mechanism's discharge end height gradually, grain is supreme from bottom to be the stratiform and arranges in the granary, realizes that the grain heap is automatic hierarchical, avoids gathering materials and producing the raise dust.

The rear end part of the upper layer belt conveyor is a feeding end 12, and a feeding hopper 10 is arranged on the upper side of the feeding end.

The left side frame part, be connected with the support crossbeam between the rear side upper end of right side frame part, be provided with on the support crossbeam and be used for rotating the rotation connection structure of being connected with adjacent conveyer, in this embodiment, rotate connection structure and be the connecting axle 8 that the axis of rotation extends along the upper and lower direction, the connecting axle is located the positive upside of feed end 12, link to each other the connecting axle with the conveyer that corresponds during the use, just so can fix a position the position of feed end, the feed end is because being in the rotation central point and putting, and do not take place the position change, no matter how the front end grain conveyer rotates, can both guarantee that first conveyer can be firm the feed end pay-off to the front end conveyer. The second conveyor is matched with the first conveyor, the two adjacent conveyor frames are connected through the rotating connecting structure, the corresponding feeding end and the corresponding discharging end are located on the right upper side or the right lower side of the corresponding rotating connecting structure, and therefore when the two adjacent conveyor frames rotate relatively, the discharging end of the upstream conveyor can supply materials to the feeding end of the downstream conveyor firmly.

The bottom of left side frame part, right side frame part is provided with running gear, and running gear includes along rotating two sets of walking wheels of connection structure radial interval arrangement, and each group walking wheel all includes along rotating two walking wheels 13 of connection structure circumference interval arrangement, and a walking wheel in each group walking wheel is installed on the left side frame part, and another walking wheel in each group walking wheel is installed on the right side frame part. The walking mechanism comprises a walking driving mechanism for driving each walking wheel to rotate and walk and a steering driving mechanism for driving each walking wheel to steer, namely, each walking wheel is a driving wheel capable of steering and actively rotating and walking, the specific walking wheel is rotatably arranged on a steering support, a walking motor 19 for driving the walking wheel to rotate around an axis is arranged on the steering support, the steering support is rotatably assembled on the corresponding frame part, a steering motor 20 for driving the corresponding steering support to steer is arranged on the corresponding frame part, and the walking motor and the steering motor in the embodiment are hydraulic motors. An oil tank 8 and a pump are arranged on the support beam, and oil is supplied to the steering motor and the walking motor through the pump.

When the grain distribution machine is not used at any time, the traveling mechanism can drive the front-end grain conveyor to travel to a grain distribution position, for example, the front-end grain conveyor moves from the outside of a grain bin to the inside of the grain bin, or moves from one grain bin to another grain bin, and the like, when grain distribution is needed, the connecting shaft is connected with the corresponding conveyor, the traveling mechanism drives the whole front-end grain conveyor frame to swing back and forth around the axis of the connecting shaft, and then the stretching and retracting of the grain conveyor mechanism are matched, so that the sector grain distribution can be realized, the swing center position of the front-end grain conveyor frame is unchanged when the front-end grain conveyor frame swings back and forth, the feed end of the grain conveyor mechanism is positioned right under the connecting shaft, the feed end of the grain conveyor mechanism is positioned at the swing center position, and the feed end of the grain conveyor mechanism can not change no matter how the front-end grain conveyor frame swings, so that the conveyor matched with the grain conveyor can reliably convey grain to the feed, in addition, the position of the feeding end is lower, so that the grain distribution is easier to match with a conveyer.

The grain distribution process is as shown in fig. 8, the length of the granary 30 is long, three bin openings are formed in each bin wall in the length direction of the granary, one bin opening can be used as a grain distributor outlet 31, the area corresponding to the position of the grain distributor outlet in the width direction of the granary is a rear grain distribution area, the area except the rear grain distribution area in the granary is a first grain distribution area, firstly, the front-end grain conveyor swings in a reciprocating mode in the width direction of the granary to complete grain distribution in the first grain distribution area through moving in the length direction of the granary, and secondly, the front-end grain conveyor swings in a reciprocating mode in the length direction of the granary to complete grain distribution in the rear grain distribution area through moving towards the grain distributor outlet in the width direction of the granary. In the grain distribution process of the grain distribution region, the feed end of the fixed conveying mechanism moves linearly along the length direction of the grain bin, the tail end of the first grain conveyor is connected with a second grain conveyor, the feed end of the second grain conveyor is positioned at the grain outlet of the grain distribution machine and keeps the position of the feed end stationary, and the discharge end of the second grain conveyor sends grains to the feed end of the first grain conveyor. Because the length of the granary is long, the grain distribution area is divided into a first grain distribution area 38 located at one end of the granary and a second grain distribution area 36 located at the other end of the granary, and during grain distribution, the front-end grain conveyor 35 can move along the length direction of the granary to complete grain distribution of the first grain distribution area 38, and then move along the length direction of the granary in the opposite direction to complete grain distribution of the second grain distribution area 36. The curved line 37 in fig. 8 represents grain; the arrow indicates the grain distribution process.

The invention has the characteristics that 1, the front-end grain conveyor has fewer moving times and only simple linear movement adjustment is carried out; 2. in the grain distribution process of the grain distribution area, the feeding end of the second grain conveyor does not move, so that the position of grain distribution equipment outside the granary does not need to be changed, and the grain distribution equipment outside the granary does not need to move; 3. in the grain distribution process of the grain distribution area, the front-end grain conveyor is actively moved, the first grain conveyor and the second grain conveyor are moved in a follow-up mode, and the first grain conveyor and the second grain conveyor do not need to be moved manually. At the regional cloth grain in-process of cloth grain earlier, front end grain conveyer removes along granary length direction at granary width direction's intermediate position, every removes a position, carry out fan-shaped regional cloth grain through front end grain conveyer's reciprocal swing, movable conveying mechanism keeps away from fixed conveying mechanism's one end and is provided with displacement sensor, removal through movable conveying mechanism comes to avoiding, grain conveying mechanism interferes the collision with corresponding wall, accomplish behind the cloth grain of a fan-shaped region, front end grain conveyer removes a position, through first grain conveyer, the cooperation adjustment of second grain conveyer adapts to this position, guarantee the reliable transport of grain. In the whole grain distribution process, only simple linear movement adjustment of the front-end grain conveyor and adaptive adjustment of the two grain conveying mechanisms of the first grain conveying mechanism and the second grain conveying mechanism are needed, so that the position adjustment times and the adjustment quantity of the equipment are reduced, the labor intensity is reduced, and the grain distribution efficiency is improved.

An embodiment 2 of a horizontal warehouse bulk warehousing system is shown in fig. 9: the difference between the embodiment 2 and the embodiment 1 is that the length-width ratio of the granary is smaller than that in the embodiment 1, only two bin openings are arranged on the wall of the granary in the length direction, the two bin openings are respectively arranged at two ends of the granary in the length direction, and one bin opening is used as a grain distributor outlet 31. Because the grain distributor outlet is closer to the end of the granary, the front end grain conveyor 35 can move in one direction to distribute grains in the grain distribution area firstly, for example, the front end grain conveyor can move in one direction along the length direction of the granary to distribute grains in the grain distribution area firstly, and then the front end grain conveyor moves towards the grain distributor outlet in the direction perpendicular to the left-right direction to distribute grains in the grain distribution area later.

Example 3 of a horizontal warehouse bulk warehousing system is shown in fig. 10: embodiment 3 is different from embodiment 1 in that the swing radius of the grain conveying mechanism of the front-end grain conveyor 35 is not smaller than the length of the grain bin 30 in the length direction, so that the front-end grain conveyor can finish grain distribution in the grain bin only by walking along the width direction of the grain bin.

Example 4 of a horizontal warehouse bulk warehousing system is shown in fig. 11: in the figure, item 30 represents a granary, item 40 represents a distributed grain pile, and the front-end grain conveyor realizes linear grain distribution in a strip manner by moving along the length direction of the granary in the embodiment, so that grain distribution in the whole granary is completed. In other embodiments of the present invention, the front-end grain conveyor can also perform grain distribution operation with other movement tracks.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a system of putting in storage of flat-room bulk grain, includes at least two grain conveyors that are used for from the back to preceding corresponding grain of transport, and each grain conveyor all includes the conveyer frame and sets up conveying mechanism and running gear in the conveyer frame, and conveying mechanism has feed end and discharge end, its characterized in that: the grain conveying machine comprises a first grain conveyor and a second grain conveyor, wherein the two adjacent grain conveyors are defined as the first grain conveyor and the second grain conveyor respectively, the front end of a conveyor frame of the first grain conveyor is connected with the rear end of a conveyor frame of the second grain conveyor through a rotating connection structure, the axis of the rotating connection structure extends along the vertical direction, the first grain conveyor and the second grain conveyor rotate relatively, the discharge end of a conveying mechanism of the first grain conveyor and the feed end of a conveying mechanism of the second grain conveyor keep corresponding to realize that grains are conveyed to the second grain conveyor from the first grain conveyor, and a travelling mechanism of the grain conveyor at the forefront position comprises a travelling wheel, a travelling driving mechanism for driving the travelling wheel to rotate and a steering driving mechanism for driving the travelling wheel to steer.

2. The horizontal warehouse bulk warehousing system of claim 1, wherein: the grain conveyor has at least three, and the feed end of the conveying mechanism of the grain conveyor at the rearmost position is in the position of the bin opening and rotates around the fixed rotation axis.

3. The horizontal warehouse bulk warehousing system of claim 1, wherein: the feed end of the conveying mechanism of the second grain conveyor is positioned at the right upper side or the right lower side of the corresponding rotating connecting structure, and the grain outlet end of the conveying mechanism of the first grain conveyor is positioned at the right upper side or the right lower side of the corresponding rotating connecting structure.

4. The horizontal warehouse bulk warehousing system of claim 2, wherein: the grain conveyor has three, and the conveyer frame of the grain conveyor in the middle position can stretch out and draw back in the front-rear direction.

5. The horizontal warehouse bulk warehousing system of claim 1, wherein: except the grain conveyor at the most front position, the travelling mechanisms of other grain conveyors are all follow-up travelling mechanisms.

6. The horizontal warehouse bulk warehousing system of claim 1, wherein: the grain conveyer definition that the position leaned on the front is front end grain conveyer, and front end grain conveyer's conveyer frame includes left side frame part, right side frame part and connects in the connection support body of left side frame part and right side frame part, and left side frame part, the partial interval arrangement of right side frame have from the rear below to the installation space that the front top extends up between left side frame part, the right side frame part, the rear end slope of the conveying mechanism of front end grain conveyer arrange in the installation space.

7. The horizontal warehouse bulk warehousing system of claim 6, wherein: the rear end of the conveying mechanism of the front-end grain conveyor is supported on the corresponding conveyor frame through a rotating support shaft, and the middle part of the conveying mechanism of the front-end grain conveyor is connected to the conveyor frame through a support rod.