CN108738879B

CN108738879B - Hot pepper is cultivated and is used device

Info

Publication number: CN108738879B
Application number: CN201810516754.0A
Authority: CN
Inventors: 张福轩
Original assignee: Xuzhou Qianrun Efficient Agricultural Development Co ltd
Current assignee: Xuzhou qianrun efficient agricultural development Co.,Ltd.
Priority date: 2018-05-25
Filing date: 2018-05-25
Publication date: 2020-07-31
Anticipated expiration: 2038-05-25
Also published as: CN108738879A

Abstract

The invention relates to the technical field of vegetable cultivation, in particular to a device for cultivating hot peppers, which comprises a seedling box, wherein the bottom of the seedling box is provided with a first water leakage hole and a second water leakage hole; a fixing platform is arranged below the seedling raising box, and a supporting spring is arranged between the fixing platform and the seedling raising box; a piston is arranged in the second water leakage hole, and a water leakage groove is formed in the inner wall of the second water leakage hole; a reset piece is arranged on the piston; the fixed table is provided with a mandril; a sprinkling pipe and a water accumulation part are arranged above the seedling raising box, and a sprinkling hole is arranged on the sprinkling pipe; a fixed block is arranged on the sprinkling pipe, the water accumulation part is connected with the fixed block in a sliding way, a first rack is arranged on the outer wall of the water accumulation part, and a water inlet is arranged on the water accumulation part; a gear meshed with the first rack is rotatably connected to the fixed block; a second rack meshed with the gear is arranged on the seedling raising box; the water accumulation part is internally provided with a water accumulation cavity, the lower cavity wall of the water accumulation cavity is provided with an outlet, and the outlet is provided with a sliding door. The scheme solves the problems that watering is time-consuming and labor-consuming during seedling culture in the prior art; and the problem of rainwater retention caused by limited water leakage holes.

Description

Hot pepper is cultivated and is used device

Technical Field

The invention relates to the technical field of vegetable cultivation, in particular to a device for pepper cultivation.

Background

In the field of seedling cultivation, a seedling box is generally used to cultivate seeds into seedlings. When selecting seedlings, those grown in large containers with healthy green leaves and strong architecture should be selected, and checked for strong, well-developed roots, while avoiding the selection of those that are overlooked, slender and weak, or too large.

The existing pepper seedling raising is generally carried out by adopting a seedling raising box; the utility model discloses a utility model patent of publication No. CN2278341Y discloses a seedling raising box, comprises the little case of growing seedlings, and every little case is the circular cone barrel, and the bobbin base is the class hemisphere, and circular cone barrel internal surface is smooth.

The above patent has the following technical problems: 1. during seedling culture, the humidity and the illuminance of seeds need to be ensured; generally, the seedling raising box is placed outdoors for cultivation; after planting, observing the peppers at intervals of three and five, continuously watering after water is dried, but paying attention to prevent the peppers from soaking in the water every day, so that the peppers grow badly; therefore, it is time-consuming and labor-consuming to water the seeds after they are planted. 2. The number of the holes at the bottom of the small box is limited; the rainwater retention condition is easily caused under the condition of heavy rain; therefore, in heavy rain, the seedling box needs to be moved back indoors, which is very troublesome.

Disclosure of Invention

The invention aims to provide a device for cultivating hot peppers, which solves the problems that watering is time-consuming and labor-consuming during seedling cultivation in the prior art; and the problem that rainwater is easy to be retained due to limited water leakage holes.

In order to achieve the above purpose, the basic scheme of the invention is as follows:

the pepper cultivation device comprises a seedling box, wherein a first water leakage hole and a second water leakage hole are formed in the bottom of the seedling box; a fixing platform is arranged below the seedling raising box, and a supporting spring for supporting the seedling raising box is arranged between the fixing platform and the seedling raising box; a piston is arranged in the second water leakage hole, a water leakage groove is formed in the inner wall of the second water leakage hole, and the piston can enter the water leakage groove; the piston is provided with a reset piece for resetting the piston; the fixed platform is provided with a mandril corresponding to the second water leakage hole;

a sprinkling pipe and a water accumulation part are arranged above the seedling raising box, and a supporting rod fixed with the sprinkling pipe is arranged on the fixing table; the inner wall of the sprinkling pipe is an inclined plane which is inclined downwards towards the direction far away from the water accumulation part, and sprinkling holes are arranged on the sprinkling pipe; a fixed block is arranged on the sprinkling pipe, the water accumulating part is connected with the fixed block in a sliding way, a first rack is arranged on the outer wall of the water accumulating part, and a water inlet is arranged on the water accumulating part; the fixed block is rotatably connected with a gear which is used for being meshed with the first rack; a second rack meshed with the gear is arranged on the seedling raising box;

a water accumulation cavity is arranged in the water accumulation part, an outlet is arranged on the lower cavity wall of the water accumulation cavity, and a sliding door is arranged at the outlet; a sliding port is arranged above the outlet and is positioned in the cavity wall of the water collecting cavity; the upper part of the sliding door is positioned in the sliding port; the sliding door is provided with a convex edge; the end part of the sprinkler pipe is provided with an opening, the water accumulation part is positioned at the opening, and the sprinkler pipe is fixed with a barrier strip used for abutting against the lower surface of the convex edge.

The beneficial effect that this scheme produced is:

1. according to the scheme, the upper floating and the lower floating of the whole seedling raising box are realized by utilizing different degrees of wetness and weights of soil; the seedling raising box floats up and down to drive the water storage part to slide up and down. Through the mutual matching of the barrier strip and the convex edge on the sliding door, when the water accumulation part moves downwards, water in the water accumulation cavity enters the water spraying pipe from the outlet and then is sprayed to soil in the seedling raising box from the water spraying hole; and then automatic watering of the soil in the seedling box is realized. Solves the problems that in the prior art, after seeds are planted, observation needs to be carried out at intervals of three and five, and watering is continued after water is dried; the watering caused by the series of actions is time-consuming and labor-consuming.

2. In order to prevent the seeds from being soaked in water, a first water leakage hole and a second water leakage hole are formed in the bottom of the seedling box; in general, the second water leakage hole is blocked by a piston; only the first water leakage hole is opened all the time, so that redundant water in the seedling box can be leaked from the first water leakage hole.

When raining, if more water is accumulated in the seedling raising box, the total weight of the seedling raising box is increased, and the supporting spring is compressed; the seedling raising box moves downwards, the ejector rod extends into the second water leakage hole, and the piston is pushed upwards to enable the piston to enter the water leakage groove, and the second water leakage hole is opened; the leakage of accumulated water in the seedling raising box is accelerated. The problem that in the prior art, the number of holes at the bottom of a small box is limited is solved; under the condition of heavy rain, the condition that rainwater in the seedling raising box is easy to be retained appears; and the seedling box does not need to be moved back indoors, and is not troublesome.

The first preferred scheme is as follows: as a further optimization of the basic scheme, a water level hole is arranged on the wall of the water collecting cavity.

Further ensure that the water in the water accumulation cavity can overflow from the water level hole when reaching a certain amount.

The preferred scheme II is as follows: as a further optimization of the first preferred embodiment, a pressure spring is arranged between the upper end of the sliding door and the inner wall of the sliding opening.

When the water accumulation part moves upwards, the pressure spring can be gradually unfolded, so that the sliding door can rapidly slide downwards to cover the outlet. And the pressure spring can give the certain decurrent extrusion force of sliding door, and then makes the sliding door can support the bottom surface of export, better carries out the shutoff with the export.

The preferable scheme is three: as a further optimization of the second preferred embodiment, the bottom surface of the outlet is an inclined surface.

Further facilitating the liquid in the water collecting cavity to flow out from the outlet.

The preferable scheme is four: as a further optimization of the basic scheme or the preferred scheme III, the water accumulation part is cylindrical, and the fixed block is an arc-shaped block matched with the outer wall of the water accumulation part; be equipped with the spout on the fixed block, be fixed with the slip arch that stretches into in the spout on the outer wall of ponding portion, be equipped with the elastic component between the inner wall of slip arch and spout. The sliding connection between the water accumulation part and the arc-shaped block is very simply realized; the setting of elastic component mainly is in order to carry out certain support to ponding portion for ponding portion is when not receiving the rotatory power that brings of gear, and the slip arch of ponding portion is located the upper portion of spout always.

The preferable scheme is five: as the further optimization to the basic scheme, be equipped with the stabilizer bar on the bracing piece, and the upper end and the sprinkler pipe of stabilizer bar are fixed. Further facilitating the fixation of the sprinkler tube.

Drawings

FIG. 1 is a schematic view showing the construction of a device for cultivating hot pepper according to the present invention;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is an enlarged view of B in FIG. 1;

FIG. 4 is a schematic structural view of the water accumulation part in FIG. 1;

fig. 5 is a schematic structural view of a sliding groove at the sliding connection position of the water accumulating part and the fixing block in fig. 4.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: the seedling raising box 1, a first water leakage hole 11, a second water leakage hole 12, a piston 121, a piston cavity 122, a water leakage groove 123, a reset piece 124, a second rack 13, a fixed platform 2, a supporting spring 21, a top rod 22, a sprinkler pipe 3, a sprinkler hole 31, a barrier strip 32, a water accumulating part 4, a first rack 41, a water accumulating cavity 42, a water level hole 421, a water inlet 43, an outlet 44, a sliding door 441, a convex edge 4411, a sliding opening 442, a pressure spring 443, a sliding protrusion 45, an elastic piece 46, a support rod 5, a stabilizing rod 51, a fixed block 6, a gear 61, a sliding groove 62, a strip-shaped positioning groove 63 and a funnel 7.

The embodiments are substantially as shown in figures 1, 2, 3, 4 and 5 of the accompanying drawings:

the device for cultivating the hot pepper is specifically shown in figure 1 and comprises a seedling box 1, wherein a plurality of first water leakage holes 11 and a plurality of second water leakage holes 12 are formed in the bottom of the seedling box 1; in this embodiment, there are one first

water leakage hole

11 and 4 second water leakage holes 12 (only 2 are shown in fig. 1). The lower part of seedling raising box 1 is equipped with fixed station 2, and is equipped with the supporting spring 21 that is used for supporting seedling raising box 1 between fixed station 2 and the seedling raising box 1. The fixed table 2 in this embodiment may be any plane that can be fixed, such as a horizontal ground.

Specifically, referring to fig. 3, a piston 121 is arranged in the second water leakage hole 12, a water leakage groove 123 is arranged on the inner wall of the second water leakage hole 12, the water leakage groove 123 is an annular groove, and the diameter of the annular groove is larger than the aperture of the water leakage hole; and the piston 121 can enter the water leakage groove 123. A piston cavity 122 is further disposed below the water leakage groove 123, the diameter of the piston cavity 122 is larger than the diameter of the second water leakage hole 12, and the diameter of the piston cavity 122 is smaller than the diameter of the water leakage groove 123. A restoring member 124 for restoring the piston 121 is fixed between the piston 121 and the bottom surface of the piston chamber 122. The return member 124 is also a spring. The fixed platform 2 is provided with a mandril 22 corresponding to the second water leakage hole 12.

A sprinkling pipe 3 and a water accumulation part 4 are arranged above the seedling raising box 1, and a supporting rod 5 fixed with the sprinkling pipe 3 is arranged on the fixed platform 2; in order to further stably support the sprinkler pipe 3, three stabilizer bars 51 are fixed on the support rod 5, and the upper ends of the stabilizer bars 51 are fixed with the sprinkler pipe 3.

As shown in fig. 1, the inner wall of the sprinkler pipe 3 is an inclined surface inclined downwards in a direction away from the water storage part 4, and the sprinkler pipe 3 is provided with a sprinkler hole 31; the sprinkler pipe 3 is provided with a fixing block 6, the water accumulating part 4 is connected with the fixing block 6 in a sliding way, the outer wall of the water accumulating part 4 is provided with a first rack 41, and the water accumulating part 4 is provided with a water inlet 43; a gear 61 meshed with the first rack 41 is rotatably connected to the fixed block 6; a second rack 13 for engaging with the gear 61 is fixed to the seedling raising box 1.

A water accumulation cavity 42 is arranged in the water accumulation part 4, specifically shown in fig. 2, an outlet 44 is arranged on the lower cavity wall of the water accumulation cavity 42, and the bottom surface of the outlet 44 is an inclined surface; a sliding door 441 is arranged at the outlet 44; a sliding opening 442 is arranged above the outlet 44, and the sliding opening 442 is positioned in the cavity wall of the water collecting cavity 42; the upper portion of the sliding door 441 is located in the sliding port 442; the sliding door 441 is provided with a convex rib 4411; an opening is arranged at the end part of the sprinkler pipe 3, the water accumulating part 4 is positioned at the opening, and a barrier strip 32 for propping against the lower surface of the convex rib 4411 is fixed on the sprinkler pipe 3. The upper cavity wall of the water collecting cavity 42 is provided with a water level hole 421.

To further facilitate the sliding door 441 abutting against the bottom surface of the outlet 44, a compression spring 443 is provided between the upper end of the sliding door 441 and the inner wall of the sliding port 442. A rubber strip is fixed to the bottom surface of the sliding door 441, and a strip-shaped groove for inserting the lower portion of the sliding door 441 is formed in the bottom surface of the outlet 44.

As shown in fig. 4 and 5, the water accumulating part 4 is cylindrical, and the fixing block 6 is an arc-shaped block matched with the outer wall of the water accumulating part 4; the fixed block 6 is provided with a sliding groove 62, and two sides of the sliding groove 62 are provided with strip-shaped positioning grooves 63. A T-shaped sliding bulge 45 extending into the sliding groove 62 is fixed on the outer wall of the water accumulation part 4, and two sides of the sliding bulge 45 respectively extend into the corresponding strip-shaped positioning grooves 63; the structure can ensure that the sliding protrusion 45 always slides in the sliding groove 62, and especially the bar-shaped positioning groove 63 has a limiting effect on the sliding protrusion 45, so that the sliding protrusion 45 cannot fall out of the sliding groove 62.

An elastic member 46 is disposed between the sliding protrusion 45 and the inner wall of the sliding groove 62, and the elastic member 46 is also a spring. The sliding connection between the water accumulation part 4 and the arc-shaped block is very simply realized; as shown in fig. 2, the elastic member 46 is provided to support the water accumulating portion 4 to a certain extent, so that the sliding protrusion 45 of the water accumulating portion 4 is always located at the upper portion of the sliding groove 62 when the water accumulating portion 4 does not receive power from the rotation of the gear 61.

When the seedling raising box is used, soil is flatly paved into the seedling raising box 1 layer by layer, and then seeds are scattered into the soil to start seedling raising. When the moisture content in the soil is enough, the gravity of the whole seedling box 1 is larger; at this time, the sliding door 441 is closed, and the water storage part 4 does not spill water into the seedling raising box 1. When the moisture in the soil is gradually lost and the whole seedling box 1 gradually becomes light, the supporting spring 21 enables the seedling box 1 to move upwards; the second rack 13 enables the gear 61 to rotate, and the gear 61 drives the water storage part 4 to move downwards; the rib 4411 on the sliding door 441 also tends to move downwards, but the rib 4411 is resisted by the barrier strip 32, so that the sliding door 441 slides upwards in the process of moving downwards of the water accumulation part 4; water in the water accumulating cavity 42 enters the sprinkling pipe 3 from the outlet 44 and then is sprinkled to soil in the seedling box 1 from the sprinkling holes 31; when the moisture in the soil is sufficient, the seedling raising box 1 gradually moves downwards to further drive the second rack 13 to move downwards, the rack rotates reversely to drive the water accumulation part 4 to move upwards, the convex edge 4411 gradually leaves the barrier strip 32, and the sliding door 441 blocks the outlet 44 again under the action of the gravity of the sliding door 441.

In conclusion, the scheme utilizes the difference of the soil moisture degree to cause the difference of the soil weight, and combines the supporting spring 21 to realize the upper or lower floating of the whole seedling box 1; the water storage part 4 is driven to slide up or down by the up-and-down floating of the seedling raising box 1. Through the mutual matching of the barrier strip 32 and the convex ribs 4411 on the sliding door 441, when the water accumulation part 4 moves downwards, water in the water accumulation cavity 42 enters the sprinkling pipe 3 from the outlet 44 and then is sprinkled to soil in the seedling box 1 from the sprinkling hole 31; and then automatic watering of the soil in the seedling box 1 is realized. Solves the problems that in the prior art, after seeds are planted, observation needs to be carried out at intervals of three and five, watering is continued after water is dried, and the like; the watering caused by the series of actions is time-consuming and labor-consuming.

So that when the water storage part 4 moves upward, the pressure spring 443 can be gradually unfolded, and the sliding door 441 rapidly slides downward to cover the outlet 44. And the pressure spring 443 can provide a certain downward extrusion force to the sliding door 441, so that the sliding door 441 can abut against the bottom surface of the outlet 44, and the outlet 44 can be better blocked.

In addition, in order to prevent the seeds from being soaked in water, a first water leakage hole 11 and a second water leakage hole 12 are arranged at the bottom of the seedling raising box 1; in general, the second water leakage hole 12 is blocked by the piston 121; only the first water leakage hole 11 is always opened so that the excessive moisture in the seedling raising box 1 is leaked from the first water leakage hole 11.

When raining, if more water is accumulated in the seedling raising box 1, the total weight of the seedling raising box 1 is increased, and the supporting spring 21 is compressed; the seedling raising box 1 moves downwards, the ejector rod 22 extends into the second water leakage hole 12 and pushes the piston 121 upwards, so that the piston 121 enters the water leakage groove 123 and the second water leakage hole 12 is opened; the leakage of the accumulated water in the seedling raising box 1 is accelerated. The problem that in the prior art, the number of holes at the bottom of a small box is limited is solved; under the condition of heavy rain, the situation that rainwater is easy to stay in the seedling raising box 1 occurs; moreover, the seedling box 1 does not need to be moved back indoors, and trouble is avoided. The funnel 7 is fixed at the upper part of the water accumulation part 4, so that workers can add water into the water accumulation part 4 conveniently; and also facilitates the collection of rain water into the funnel 7 and then into the water collection chamber 42 from the water inlet 43 when it rains.

The above are merely examples of the present invention, and common general knowledge of known specific structures and characteristics in the schemes is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. Device is used in hot pepper cultivation, including the seedling raising box, its characterized in that: a first water leakage hole and a second water leakage hole are formed in the bottom of the seedling raising box; a fixing platform is arranged below the seedling raising box, and a supporting spring for supporting the seedling raising box is arranged between the fixing platform and the seedling raising box; a piston is arranged in the second water leakage hole, a water leakage groove is formed in the inner wall of the second water leakage hole, and the piston can enter the water leakage groove; the piston is provided with a reset piece for resetting the piston; the fixed platform is provided with a mandril corresponding to the second water leakage hole;

a sprinkling pipe and a water accumulation part are arranged above the seedling raising box, and a supporting rod fixed with the sprinkling pipe is arranged on the fixing table; the inner wall of the sprinkling pipe is an inclined plane which is inclined downwards towards the direction far away from the water accumulation part, and sprinkling holes are arranged on the sprinkling pipe; the water accumulation part is connected with the fixed block in a sliding manner, a first rack is arranged on the outer wall of the water accumulation part, and a water inlet is formed in the water accumulation part; a gear meshed with the first rack is rotatably connected to the fixed block; a second rack meshed with the gear is arranged on the seedling raising box;

a water accumulation cavity is arranged in the water accumulation part, an outlet is arranged on the lower cavity wall of the water accumulation cavity, and a sliding door is arranged at the outlet; a sliding port is arranged above the outlet and is positioned in the cavity wall of the water collecting cavity; the upper part of the sliding door is positioned in the sliding port; the sliding door is provided with a convex edge; an opening is arranged at the end part of the sprinkler pipe, the water accumulation part is positioned at the opening, and a barrier strip for abutting against the lower surface of the convex edge is fixed on the sprinkler pipe; the water accumulation part is cylindrical, and the fixing block is an arc-shaped block matched with the outer wall of the water accumulation part; be equipped with the spout on the fixed block, be fixed with the slip arch that stretches into in the spout on the outer wall of ponding portion, be equipped with the elastic component between the inner wall of slip arch and spout.

2. A device for pepper cultivation as claimed in claim 1, characterized in that: and a water level hole is formed in the wall of the water collecting cavity.

3. A device for pepper cultivation as claimed in claim 2, characterized in that: and a pressure spring is arranged between the upper end of the sliding door and the inner wall of the sliding opening.

4. A device for pepper cultivation as claimed in claim 3, characterized in that: the bottom surface of the outlet is an inclined plane.

5. A device for pepper cultivation as claimed in claim 1, characterized in that: be equipped with the stabilizer bar on the bracing piece, and the upper end and the sprinkler pipe of stabilizer bar are fixed.