CN218526975U - Movable forage grass planting container - Google Patents

Abstract

The utility model belongs to the technical field of the container, a portable forage grass plants container is disclosed. The main technical characteristics are as follows: including the box with be located the inside planting frame of this box, be provided with seeding door and results door respectively at the box both ends, plant the frame and include two at least vertical braces shelves, form between adjacent vertical braces shelves and plant the district, be provided with at least one deck planting groove die-pin in every placement area, be provided with the middle part track between two rows of planting groove die-pins, be provided with drive mechanism in the middle part track planting groove die-pin top is provided with the light filling lamp and sprays the mechanism, will have the planting groove of forage grass seed or seedling from placing in planting groove die-pin top of seeding door one side, forage grass can grow rapidly in the box, forage grass nutrient composition is high, the space occupies for a short time.

Description

Movable forage grass planting container

Technical Field

The utility model belongs to the technical field of the container, especially, relate to a container is planted to portable forage grass.

Background

The livestock breeding generally adopts grazing or forage grass feeding, and the existing livestock breeding has the following defects: firstly, the forage grass quantity is small, the forage grass quantity cannot meet the requirements of livestock breeding, and the forage grass quantity generated by the existing natural grassland cannot meet the requirements of livestock breeding along with the increase of the breeding quantity and is limited by geographical environment, soil conditions and the like, and the forage grass quantity generated by the existing natural grassland can not meet the requirements of livestock breeding, so that the deterioration or desertification of the grassland can be caused by excessive grazing, vicious circle can be caused, and the yield and the quality of the produced grass of the grassland are further reduced; secondly, the quality of the existing forage grass is increasingly poor, and forage grass pesticide residue or heavy metal residue exceeds the standard due to soil and water pollution and pesticide spraying of the forage grass caused by diseases and insect pests, so that the quality of the forage grass is poor; thirdly, as the grassland is degraded, the area of the grassland is gradually reduced, and the degraded grassland can not produce enough forage grass, thereby causing waste of land resources.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a portable forage grass planting container that forage grass high quality, can all produce forage grass, but continuous production, output are high in any place.

In order to solve the problem, the utility model discloses the technical scheme that portable forage grass planted the container and adopted does:

the planting device comprises a box body and planting frames positioned in the box body, wherein a sowing door is arranged at one end of the box body, a harvesting door is arranged at the other end of the box body, each planting frame comprises at least two vertical supporting spacers, a growth area is formed between every two adjacent vertical supporting spacers, at least one layer of bracket is arranged in each growth area, each bracket comprises planting groove support rods which are arranged at intervals, an edge rail is arranged above each planting groove support rod and close to one side of the vertical supporting spacer, a middle guide rail is arranged in the middle of each planting groove support rod, the middle guide rail is tubular with a cavity, a through groove along the axial direction of the middle guide rail is arranged above the middle guide rail, a harvesting traction mechanism is arranged in the cavity of the middle guide rail, and a traction hook is arranged on one side of the harvesting traction mechanism, close to the sowing door; the light supplementing lamp and the spraying mechanism are arranged above the bracket, the light supplementing lamp and the spraying mechanism are in control connection with the control mechanism, and a light sensor and a humidity sensor which are connected with the control mechanism are arranged in the box body.

The additional technical characteristics are as follows:

a ventilation mechanism and a heating mechanism which are connected with the control mechanism are arranged in the box body, and a temperature sensor which is connected with the control mechanism is arranged in the box body;

a sterilizing lamp is arranged in the box body;

the harvesting traction mechanism is a lead screw with a lead screw nut and positioned in the middle track, two ends of the lead screw are fixed on planting groove support rods adjacent to a harvesting door and a seeding door, the traction hook is positioned on the lead screw nut, and a manual rotating wheel or a motor is arranged at the end part of the lead screw close to the harvesting door;

the harvesting traction mechanism is a traction rod, and the traction hook is positioned at the front end of the traction rod;

the harvesting traction mechanism is a traction rope, and the traction hook is positioned at the front end of the traction rope;

and a display screen is arranged on the sowing door.

The utility model provides a portable forage grass planting container compares with prior art, has following advantage: the planting device comprises a box body and a planting frame positioned in the box body, wherein a sowing door is arranged at one end of the box body, a harvesting door is arranged at the other end of the box body, the planting frame comprises at least two vertical supporting spacers, a growth area is formed between the adjacent vertical supporting spacers, at least one layer of bracket is arranged in each growth area, the bracket comprises planting groove support rods arranged at intervals, side rails are arranged above the planting groove support rods and close to one sides of the vertical supporting spacers, a middle guide rail is arranged in the middle of the planting groove support rods, the middle guide rail is tubular and provided with a cavity, a through groove along the axial direction of the middle guide rail is arranged above the middle guide rail, a harvesting traction mechanism is arranged in the cavity of the middle guide rail, and a traction hook is arranged on one side of the harvesting traction mechanism, close to the sowing door; a light supplement lamp and a spraying mechanism are arranged above the bracket, the light supplement lamp and the spraying mechanism are in control connection with a control mechanism, a light sensor and a humidity sensor which are connected with the control mechanism are arranged in the box body, planting troughs with forage grass seeds or seedlings are placed above the side rails and the middle guide rail from one side of the sowing door, and the planting troughs in all growth areas close to one side of the sowing door are installed; closing the sowing gate, spraying and turning on a light supplement lamp as required, growing for a period of time, opening the sowing gate, placing a second batch of planting troughs with forage grass seeds or seedlings above the planting trough support rod from one side of the sowing gate, pushing forwards to enable the planting troughs of the previous batch to move forwards for a stroke, continuing to close the sowing gate, spraying and turning on the light supplement lamp as required, growing for a period of time, continuing to place the next batch of planting troughs with forage grass seeds or seedlings above the planting trough support rod from one side of the sowing gate, pushing forwards to enable the planting troughs of the previous batch to move forwards for a stroke, taking out the planting troughs full of forage grass from the harvesting gate after the forage grass in the foremost planting trough grows, harvesting, simultaneously supplementing new planting troughs at the sowing gate, also fully filling all the planting troughs at one time, then spraying and supplementing light, pulling out through a harvesting traction mechanism after the growing is finished, then replacing new planting troughs, growing more quickly, occupying high nutritional ingredients of the forage grass, and placing the growing small mobile forage grass in a degraded place;

secondly, because the box body is internally provided with the ventilation mechanism and the heating mechanism which are connected with the control mechanism, and the box body is internally provided with the temperature sensor which is connected with the control mechanism, the temperature in the box body can be adjusted through the ventilation mechanism and the heating mechanism according to the growth requirement of the forage grass, so that the environment is more suitable for the growth of the forage grass;

thirdly, as the sterilizing lamp is arranged in the box body, the box body is sterilized and disinfected by the sterilizing lamp after the planting grooves in the box body are completely removed;

fourthly, the harvesting traction mechanism is a lead screw which is positioned in the middle track and is provided with a lead screw nut, two ends of the lead screw are fixed on planting groove support rods adjacent to the harvesting door and the seeding door, the traction hook is positioned on the lead screw nut, a manual rotating wheel or a motor is arranged at the end part of the lead screw close to the harvesting door, the lead screw is driven to rotate by the manual rotating wheel or the motor, the lead screw nut drives the planting grooves to move from the seeding door to one side of the harvesting door along the side rail and the middle track, drives all the planting grooves to move to the harvesting door, and sequentially unloads the planting grooves from the harvesting door;

fifthly, as the harvesting traction mechanism is a traction rod, the traction hook is positioned at the front end of the traction rod; or the harvesting traction mechanism is a traction rope, and the traction hook is positioned at the front end of the traction rope; the traction hook is hung on the planting groove on one side of the planting door, the planting groove is driven to move from the seeding door to one side of the harvesting door along the side rail and the middle rail by pulling the traction rod or the traction rope, all the planting grooves are driven to move to the harvesting door, and the planting grooves are sequentially unloaded from the harvesting door

Sixth, owing to be provided with the display screen on the broadcast door, can see the environment in the box through the display screen, can also see the environment in the box through cell-phone app, it is more convenient to use.

Drawings

FIG. 1 is a schematic structural view of the movable container for planting forage grass according to the present invention;

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

FIG. 3 isbase:Sub>A sectional view A-A of FIG. 2;

FIG. 4 is a sectional view taken along line B-B of FIG. 3;

FIG. 5 is a schematic view of a manually operated traction mechanism;

FIG. 6 is a schematic diagram of the construction of an electrically operated traction mechanism;

FIG. 7 is a schematic view of the traction mechanism being a drawbar;

fig. 8 is a schematic view of the traction mechanism being a traction rope.

Detailed Description

The structure and the application principle of the movable forage grass planting container of the invention are further described in detail with reference to the attached drawings and the specific implementation mode.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the utility model discloses a structural schematic diagram of a movable forage grass planting container, the utility model discloses movable forage grass planting container includes box 1 and planting frame 2 that is located this box inside, be provided with sowing door 3 at box 1 one end, be provided with results door 4 at the other end of box 1, planting frame 2 includes two at least vertical support shelves 5, form growing zone 6 between adjacent vertical support shelves 5, be provided with at least one deck bracket 7 in each growing zone 6, bracket 7 includes planting groove die-pin 8 of interval arrangement, be provided with side rail 9 near vertical support shelf one side above planting groove die-pin 8, be provided with middle part guide rail 10 in planting groove die-pin 8 middle part, middle part guide rail 10 is the tubulose that has cavity 11, be provided with along middle part guide rail 10 axial through-slot 12 above middle part guide rail 10, be provided with results drive mechanism 13 in middle part guide rail 10's cavity 11, be provided with towing mechanism 14 in results that the seeding door one side of results in results that drive mechanism 13 is close to sowing; a light supplement lamp 15 and a spraying mechanism 16 are arranged above the bracket 8, the light supplement lamp 15 and the spraying mechanism 16 are in control connection with a control mechanism 17, and a light sensor 19 and a humidity sensor 20 which are connected with the control mechanism 17 are arranged in the box body 1.

Placing the planting groove with forage grass seeds or seedlings above the side rail 9 and the middle guide rail 10 from one side of the sowing door 3, and installing all the planting grooves in the growth area 6 close to one side of the sowing door 3; closing the sowing door 3, spraying and turning on a light supplement lamp as required, growing for a period of time, opening the sowing door 3, placing the second batch of planting troughs with forage grass seeds or seedlings above the planting trough support rod from one side of the sowing door, and pushing forwards to make the planting troughs of the previous batch advance for a stroke, continuing to close the sowing door, spraying and turning on the light supplement lamp as required, growing for a period of time, continuing to place the planting troughs with forage grass seeds or seedlings above the planting trough support rod from one side of the sowing door, and pushing forwards to make the planting troughs of the previous batch advance for a stroke, after the forage grass in the foremost planting trough grows, taking out the planting trough full of forage grass from the harvesting door 4, harvesting, simultaneously supplementing new planting troughs at the door 3, also fully filling all planting troughs at a time, then spraying and supplementing light, pulling out through a harvesting traction mechanism after the growing, then replacing with new planting troughs, the forage grass grows faster, and the forage grass occupies high nutritional ingredients, and occupies a small space, and can place the movable forage grass in a container which is not degraded.

The box body is internally provided with a ventilation mechanism 21 and a heating mechanism 22 which are connected with the control mechanism 17, and the box body 1 is internally provided with a temperature sensor 23 which is connected with the control mechanism 17, so that the temperature in the box body can be adjusted through the ventilation mechanism and the heating mechanism according to the growth requirement of forage grass, and the environment is more suitable for the growth of the forage grass.

A sterilizing lamp 24 is arranged in the box body 1, and after all the planting grooves in the box body are cleared, the box body is sterilized and disinfected through the sterilizing lamp 24.

As shown in fig. 5, the harvesting traction mechanism 13 is a screw rod 26 with a screw nut 25 in the middle rail, two ends of the screw rod 26 are fixed on the planting groove support rods 8 adjacent to the harvesting door 4 and the seeding door 3, the traction hook 14 is located on the screw nut 25, a manual rotating wheel 27 is arranged at the end part of the screw rod close to the harvesting door, and the screw rod is driven to rotate by the manual rotating wheel 27, or as shown in fig. 6, a motor 28 is arranged at the end part of the screw rod close to the harvesting door, and the screw rod is driven to rotate by the motor 28, and the screw nut drives the planting groove to move from the seeding door to one side of the harvesting door along the side rail and the middle rail, drives all the planting grooves to move to the harvesting door, and sequentially unloads the planting grooves from the harvesting door.

As shown in fig. 7, the harvesting tow mechanism 13 is a tow bar 29 with a tow hook 14 at the forward end of the tow bar. As shown in fig. 8, the harvesting traction mechanism 13 is a traction rope 30, and the traction hook 14 is positioned at the front end of the traction rope; the traction hook is hung on the planting groove on one side of the planting door, and the planting groove is driven to move from the seeding door to one side of the harvesting door along the side rail and the middle rail by pulling the traction rod or the traction rope, so that all the planting grooves are driven to move towards the harvesting door, and the planting grooves are sequentially unloaded from the harvesting door.

The display screen 31 is arranged on the seeding door 3, so that the environment in the box body can be observed through the display screen, the environment in the box body can also be observed through mobile phone app, and the seeding door is more convenient to use.

The utility model discloses a protection scope not only limits in above-mentioned embodiment, as long as the structure with the utility model discloses portable forage grass is planted container structure and is the same or similar, just falls the utility model discloses the scope of protection.

Claims (7)

1. Portable forage grass planting container includes the box and is located the planting frame of this box inside, its characterized in that: a sowing door is arranged at one end of the box body, a harvesting door is arranged at the other end of the box body, the planting frame comprises at least two vertical supporting spacers, a growth area is formed between the adjacent vertical supporting spacers, at least one layer of bracket is arranged in each growth area, the bracket comprises planting groove support rods which are arranged at intervals, an edge rail is arranged above each planting groove support rod and close to one side of the vertical supporting spacer, a middle guide rail is arranged in the middle of each planting groove support rod, the middle guide rail is tubular and provided with a cavity, a through groove along the axial direction of the middle guide rail is arranged above the middle guide rail, a harvesting traction mechanism is arranged in the cavity of the middle guide rail, and a traction hook is arranged on one side of the harvesting traction mechanism, close to the sowing door;

the light compensation lamp and the spraying mechanism are connected with the control mechanism in a control mode, and a light sensor and a humidity sensor which are connected with the control mechanism are arranged in the box body.

2. The transportable forage grass growing container of claim 1, wherein: the box body is internally provided with a ventilation mechanism and a heating mechanism which are connected with the control mechanism, and the box body is internally provided with a temperature sensor which is connected with the control mechanism.

3. The transportable forage grass growing container of claim 1, wherein: and a sterilizing lamp is arranged in the box body.

4. The transportable forage grass growing container of claim 1, wherein: the harvesting traction mechanism is a lead screw which is positioned in the middle guide rail and is provided with a lead screw nut, two ends of the lead screw are fixed on planting groove support rods adjacent to the harvesting door and the seeding door, the traction hook is positioned on the lead screw nut, and a manual rotating wheel or a motor is arranged at the end part of the lead screw close to the harvesting door.

5. The transportable forage grass growing container of claim 1, wherein: the harvesting traction mechanism is a traction rod, and the traction hook is positioned at the front end of the traction rod.

6. The transportable forage grass growing container of claim 1, wherein: the harvesting traction mechanism is a traction rope, and the traction hook is positioned at the front end of the traction rope.

7. The transportable forage grass growing container of claim 1, wherein: and a display screen is arranged on the sowing door.

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