CN210352337U - A cultivate transfer basin for greenhouse cotton seedling transplantation - Google Patents

Abstract

The utility model provides a cultivation transfer pot for greenhouse cotton seedling transplantation, which relates to the technical field of cotton planting, and comprises a pot body and a supporting base, wherein the pot body comprises an upper pot body and a lower pot body, the upper pot body is provided with an annular groove, the groove wall of the annular groove is provided with a clamping bulge, the lower pot body is provided with an annular insertion sheet matched with the annular groove, the side wall of the annular insertion sheet is provided with an L-shaped clamping groove, and under the condition that the annular groove is spliced with the annular insertion sheet, the clamping bulge slides along the L-shaped clamping groove and is clamped in the L-shaped clamping groove; the support base includes backup pad, bottom suspension fagging and screw thread post, the both ends of screw thread post respectively with last, bottom suspension fagging fixed connection, on, the bottom suspension fagging is located the upper and lower both sides of the bottom of the basin body down respectively, the bottom center of the basin body is provided with the screw thread through-hole down, the screw thread post runs through screw thread through-hole and screw thread through-hole spiro union, easily leads to the survival rate of cotton and the problem of output reduction with the seedling damage when taking out the seedling in the revolving basin in the cultivation among the solution prior art.

Description

A cultivate transfer basin for greenhouse cotton seedling transplantation

Technical Field

The utility model relates to a cotton planting technical field specifically provides a cultivate transfer basin for greenhouse cotton transplanting seedlings.

Background

Cotton, a seed fiber of cotton plants of the Malvaceae family, is native to subtropics. The plant is shrubbery and can grow to 6 meters in height, generally 1 to 2 meters, when cultivated in tropical regions. Flowers are milky white and turn deep red shortly after flowering and then wither, leaving a small green capsule called boll. The cotton bolls are filled with cotton seeds, fuzz on the cotton seeds grows out of the cotton seed skins and fills the cotton bolls, and the cotton bolls crack when mature to expose soft fibers. The fiber is white or white with yellow, the length of the fiber is about 2 to 4 cm, the fiber contains about 87 to 90 percent of cellulose, 5 to 8 percent of water and 4 to 6 percent of other substances.

In some areas of China, cotton seedlings need to be placed in cultivation pots, pre-germination cultivation is carried out in a greenhouse, then the seedlings are taken out of the cultivation pots and placed into soil, but when the cotton seedlings are taken out of the cultivation pots used at present, the cultivation pots need to be turned over, and the cotton seedlings are taken out in a mode of shaking the cultivation pots or pulling the diameter parts of the cotton seedlings. This easily causes damage to cotton seedlings, and reduces the survival rate and yield of cotton seedlings.

Accordingly, there is a need in the art for a cultivation medium pot for greenhouse cotton seedling transplantation to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a transfer basin in cultivation for greenhouse cotton transplanting of seedlings, the problem of the survival rate that easily leads to the cotton with the seedling damage when solving the transfer basin in cultivation among the prior art and taking out the seedling and reduce output.

The technical scheme of the utility model is realized like this: the cultivation transfer pot for greenhouse cotton seedling transplantation comprises a pot body and a supporting base, wherein the pot body comprises an upper pot body and a lower pot body which are vertically spliced, an annular groove is formed in one side, spliced, of the upper pot body and the lower pot body, a clamping protrusion is arranged on the groove wall of the annular groove, an annular inserting piece matched with the annular groove is arranged on one side, spliced, of the lower pot body and the upper pot body, an L-shaped clamping groove allowing the clamping protrusion to slide is formed in the side wall of the annular inserting piece, and under the condition that the annular groove and the annular inserting piece are spliced, the clamping protrusion slides along the vertical part of the L-shaped clamping groove and is clamped with the transverse part of the L-shaped clamping groove; the support base includes backup pad, bottom suspension fagging and screw thread post, the both ends of screw thread post respectively with go up backup pad, bottom suspension fagging fixed connection, it is located respectively to go up backup pad, bottom suspension fagging the upper and lower both sides of the bottom of the basin body down, the bottom center of the basin body is provided with the screw thread through-hole down, the screw thread post run through the screw thread through-hole and with the screw thread through-hole spiro union.

The technical effect of the scheme is as follows: the cultivating transfer pot comprises an upper pot body and a lower pot body, wherein an annular groove is formed in one side, which is spliced with the lower pot body, of the upper pot body, an annular inserting piece is formed in one side, which is spliced with the upper pot body, of the lower pot body, a clamping protrusion is arranged on the annular groove, and an L-shaped clamping groove which can be clamped with the clamping protrusion is arranged on the annular inserting piece; both sides set up upper and lower backup pad about the bottom of the basin body down to through the screw thread through-hole and the upper and lower backup pad spiro union of screw thread post and bottom, through rotatory lower backup pad that exposes external environment, make the partial screw thread post that exposes external environment upwards precession screw thread through-hole, thereby order about the rotatory limit of the last backup pad limit that is located basin internal portion down and upwards release the cotton seedling, accomplish the process of taking out of cotton seedling. The revolving basin in the cultivation of this scheme is simple in structure, the operation is convenient, and need rotate the upper basin body when taking out the upper basin body upwards, on one hand in order to make the joint arch in the annular groove turn to the vertical part from the horizontal part of the L-shaped slot on the annular insertion piece, take out of the upper basin body is convenient, on the other hand because cotton seedling cultivates in the basin body for a period of time and may produce the sticking with the inner wall of the basin body, make the upper basin body rotate, produce the relative slip between inner wall of the upper basin body and the cotton seedling, has guaranteed not to cause the damage to the cotton seedling in the process of taking out upwards of the upper basin body; through rotatory bottom suspension fagging, make the rotatory limit in backup pad limit upwards push away the cotton seedling on going up, make the cotton seedling produce the relative slip with the inner wall of the lower basin body, when having guaranteed that the backup pad upwards pushes away the cotton seedling, the lower basin body does not cause the damage to the cotton seedling, go up simultaneously and also can produce the relative slip between backup pad and the cotton seedling, the operating personnel of being convenient for gets the cotton seedling and leaves the backup pad, further guaranteed that the cotton seedling takes out in-process cotton seedling not damaged, the survival rate and the output of cotton have been improved.

In the above-mentioned preferred technical scheme who is arranged in cultivation revolving basin of greenhouse cotton transplanting of seedlings, the lateral wall of the basin body of going up is provided with the joint, the lateral wall of the basin body down be provided with the buckle of joint looks adaptation forms annular groove with under the condition that annular inserted sheet pegged graft, the buckle can with the structure of joint looks lock joint.

The technical effect of the scheme is as follows: the lateral wall of the upper pot body and the lower pot body is respectively provided with a clamping joint and a buckle, after the upper pot body and the lower pot body are connected in an inserting way, the connection of the upper pot body and the lower pot body is further reinforced, and the reliability and the stability of the transfer pot during cultivation are ensured.

In the above preferred technical scheme of the revolving basin in cultivating for greenhouse cotton seedling transplantation, the bottom of the basin body down with be provided with supporting spring between the lower support plate, supporting spring establishes in the outside of screw thread post, and supporting spring's center pin with the center pin coincidence of screw thread post, the bottom of the basin body is close to one side of lower support plate is provided with annular slide rail, supporting spring's upper end support lean on in annular slide rail.

The technical effect of the scheme is as follows: a support spring is arranged between the bottom of the lower pot body and the lower support plate, and the support spring is overlapped with the central shaft of the threaded column, so that the pot body is stably supported by the support spring and the threaded column together, and the stability of the cultivation transfer pot is improved; the bottom of the basin body sets up annular slide rail down to make supporting spring's upper end support by in annular slide rail, annular slide rail plays limiting displacement to supporting spring on the one hand, prevents that supporting spring's center pin and threaded column's center pin from deviating, and on the other hand when rotatory bottom suspension fagging, supporting spring can follow annular slide rail at annular slide rail internal rotation, does benefit to the rotation of bottom suspension fagging.

In the preferable technical scheme of the cultivation transfer pot for greenhouse cotton seedling transplantation, a plurality of air holes are formed in the bottom of the lower pot body, and a blocking net is fixedly connected inside each air hole.

The technical effect of the scheme is as follows: the bottom of the lower pot body is provided with the air holes, so that redundant water can flow out of the air holes, the cotton seedlings can not survive due to excessive watering, air can be provided for the growth of the cotton seedlings, the bottom of the cotton seedlings is prevented from being insufficient and rotten, the blocking nets are arranged inside the air holes, and the culture soil is prevented from losing from the air holes.

In the preferable technical scheme of the transfer pot for greenhouse cotton seedling transplanting cultivation, the outer side walls of the upper pot body and the lower pot body are provided with friction structures.

The technical effect of the scheme is as follows: the lateral wall of the upper basin body and the lower basin body is provided with a friction structure, so that an operator can rotationally pull out or plug the upper basin body from the lower basin body, the lateral wall of the upper basin body and the lateral wall of the lower basin body are prevented from being smooth, and the operator cannot exert force.

In the preferable technical scheme of the cultivation transfer pot for greenhouse cotton seedling transplantation, the side wall of the lower supporting plate is provided with an anti-skidding structure.

The technical effect of the scheme is as follows: the side wall of the lower supporting plate is provided with the anti-skidding structure, so that the lower supporting plate is favorably rotated by an operator through exerting force on the side wall of the lower supporting plate, the side wall of the lower supporting plate is prevented from being smooth, and the operator does not exert force.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural view of a cultivation transfer pot of the present invention;

FIG. 2 is a schematic structural view of the upper pot body of the cultivation transfer pot of the present invention;

FIG. 3 is a schematic structural view of the lower pot body of the cultivation transfer pot of the present invention;

fig. 4 is a schematic structural view of the bottom of the lower pot body of the transfer pot for cultivation of the present invention.

List of reference numerals: 1. a pot body; 11. an upper pot body; 111. an annular groove; 1111. clamping the bulges; 112. a clamping head; 113. a friction structure; 12. a lower pot body; 121. an annular insert; 1211. an L-shaped clamping groove; 122. a threaded through hole; 123. buckling; 124. an annular slide rail; 125. air holes are formed; 1251. blocking; 2. a support base; 21. an upper support plate; 22. a lower support plate; 221. an anti-slip structure; 23. a threaded post; 3. supporting the spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicating the directions or positional relationships are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The utility model discloses a concrete embodiment of commentaries on classics basin in cultivation for greenhouse cotton transplanting seedling: as shown in fig. 1 to 4, the cultivation medium revolving basin comprises a basin body 1 and a supporting base 2, the basin body 1 comprises an upper basin body 11 and a lower basin body 12 which are inserted from top to bottom, an annular groove 111 is arranged on one side of the upper basin body 11 inserted into the lower basin body 12, a clamping protrusion 1111 is arranged on the wall of the annular groove 111, an annular insertion piece 121 matched with the annular groove 111 is arranged on one side of the lower basin body 12 inserted into the upper basin body 11, an L-shaped slot 1211 allowing the clamping protrusion 1111 to slide is arranged on the side wall of the annular insertion piece 121, and when the annular groove 111 is inserted into the annular insertion piece 121, the clamping protrusion 1111 slides along the vertical part of the L-shaped slot 1211 and is clamped to the horizontal part of the L-shaped slot 1211; support base 2 includes backup pad 21, bottom suspension fagging 22 and screw thread post 23, the both ends of screw thread post 23 respectively with last backup pad 21, bottom suspension fagging 22 fixed connection, go up backup pad 21, bottom suspension fagging 22 and lie in the upper and lower both sides of the bottom of the basin body 12 down respectively, the bottom center of the basin body 12 down is provided with screw thread through-hole 122, screw thread post 23 run through screw thread through-hole 122 and with screw thread through-hole 122 spiro union.

When cotton seedlings in the cultivation revolving basin need to be taken out, the upper basin body 11 is rotated to enable the clamping protrusions 1111 on the side walls of the annular grooves 111 to be rotated to the vertical part from the horizontal part of the L-shaped clamping grooves 1211 by rotating the upper basin body 11, then the upper basin body 11 is taken out upwards, the clamping protrusions 1111 slide out from the vertical part of the L-shaped clamping grooves 1211, and partial roots and stems of the cotton seedlings in the basin body 1211 and soil are exposed to the external environment; the upper and lower supporting plates 22 are arranged on the upper and lower sides of the bottom of the lower pot body 12, and are in threaded connection with the upper and lower supporting plates 22 through the threaded columns 23 and the threaded through holes 122 at the bottom, and the threaded through holes 122 exposed outside are rotated to the lower supporting plate 22 exposed outside, so that the threaded columns 23 exposed outside are screwed into the threaded through holes 122 upwards, and cotton seedlings are pushed out upwards while the upper supporting plate 21 inside the lower pot body 12 is driven to rotate, and the cotton seedling taking-out process is completed.

The revolving basin in the cultivation of this scheme is simple in structure, the operation is convenient, and need rotate the basin body 11 when taking out the upper basin body 11 upwards, on one hand in order to make the joint protrusion 1111 in the annular groove 111 turn to the vertical part from the horizontal part of the L-shaped slot 1211 on the annular insertion piece 121, the taking out of the upper basin body 11 is convenient, on the other hand because cotton seedling is cultivated in the basin body 1 for a period of time and may be adhered to the inner wall of the basin body 1, make the upper basin body 11 rotate, the inner wall of the upper basin body 11 and the cotton seedling slide relatively, have guaranteed not to cause the damage to the cotton seedling in the process of taking out the upper basin body 11 upwards; through rotatory bottom suspension fagging 22, make the rotatory limit in backup pad 21 limit upwards push out cotton seedling, make cotton seedling and the inner wall of the lower pot body 12 produce the relative slip, when having guaranteed that backup pad 21 upwards pushes out cotton seedling, lower pot body 12 does not cause the damage to cotton seedling, also can produce the relative slip between backup pad 21 and the cotton seedling simultaneously, the operating personnel of being convenient for gets away backup pad 21 with cotton seedling, further guaranteed that cotton seedling takes out in-process cotton seedling not damaged, the survival rate and the output of cotton have been improved.

In a preferred embodiment, the outer side wall of the upper pot 11 is provided with a snap joint 112, the outer side wall of the lower pot 12 is provided with a buckle 123 adapted to the snap joint 112, and the buckle 123 can be buckled with the snap joint 112 when the annular groove 111 is plugged with the annular insert 121.

The lateral wall of the upper basin body and the lateral wall of the lower basin body are respectively provided with the clamping joints 112 and the clamping buckles 123, and after the upper basin body and the lower basin body are connected in an inserting mode, the connection of the upper basin body and the lower basin body is further reinforced, so that the reliability and the stability of the cultivation transfer basin are guaranteed.

In a preferred embodiment, a supporting spring 3 is arranged between the bottom of the lower pot body 12 and the lower supporting plate 22, the supporting spring 3 is sleeved outside the threaded column 23, the central axis of the supporting spring 3 coincides with the central axis of the threaded column 23, annular slide rails 124 are arranged on one side of the bottom of the lower pot body 12 close to the lower supporting plate 22 and one side of the lower supporting plate 22 close to the lower pot body 12, and the upper and lower ends of the supporting spring 3 are abutted against the annular slide rails 124.

The support spring 3 is arranged between the bottom of the lower pot body 12 and the lower support plate 22, and the support spring 3 is overlapped with the central axis of the threaded column 23, so that the support spring 3 and the threaded column 23 jointly support the pot body 1 stably, and the stability of the revolving pot in cultivation is improved; the annular slide rail 124 is arranged at the bottom of the lower pot body 12 and on the upper side of the lower support plate 22, the upper end and the lower end of the support spring 3 are abutted to the annular slide rail 124, on one hand, the annular slide rail 124 has a limiting effect on the support spring 3, the central shaft of the support spring 3 is prevented from deviating from the central shaft of the threaded column 23, on the other hand, when the lower support plate 22 is rotated, the support spring 3 can rotate in the annular slide rail 124 along the annular slide rail 124, and the rotation of the lower support plate 22 is facilitated.

It can be understood that, in the above embodiments, the annular slide rails 124 are provided on both the bottom of the lower pot 12 and the upper side of the lower support plate 22, and it is also possible to provide the annular slide rails 124 only on the bottom of the lower pot 12 or on the upper side of the lower support plate 22, and accordingly, the lower ends of the support springs 3 are fixedly connected to the lower support plate 22 or the upper ends of the support springs 3 are fixedly connected to the bottom of the lower pot 12. The annular slide rail 124 can be set at a suitable position by those skilled in the art according to actual conditions and needs as long as the influence of the support spring 3 on the rotation of the lower support plate 22 is small.

In a preferred embodiment, a plurality of ventilation holes 125 are formed in the bottom of the lower pot 12, and a barrier net 1251 is fixedly connected to the inside of each ventilation hole 125. The bottom of the lower pot body 12 is provided with the air holes 125, so that redundant water can flow out of the air holes 125, the cotton seedlings can be prevented from surviving due to excessive watering, air can be provided for the growth of the cotton seedlings, the bottom of the cotton seedlings is prevented from being insufficient and rotten, the air holes 125 are internally provided with the blocking nets 1251, and the culture soil is prevented from losing from the air holes 125.

In a preferred embodiment, the outer side walls of the upper pot body 11 and the lower pot body 12 are provided with friction structures 113. The outer side walls of the upper pot body 12 and the lower pot body 12 are provided with friction structures 113, so that the upper pot body 11 can be conveniently pulled out or plugged from the lower pot body 12 by an operator in a rotating manner, the outer side walls of the upper pot body and the lower pot body are prevented from being smooth, and the operator can not exert force. As an example, the friction structure 113 is an anti-slip pattern provided on the outer sidewalls of the upper and lower tubs 11 and 12, and the outer edge of the anti-slip pattern is formed in a circular shape.

In a preferred embodiment, the side walls of the lower support plate 22 are provided with anti-slip structures 221. The anti-skidding structure 221 is arranged on the side wall of the lower support plate 22, so that the lower support plate 22 can be rotated by exerting force on the side wall of the lower support plate 22 by an operator, and the phenomenon that the side wall of the lower support plate 22 is smooth and the operator does not exert force is avoided. As an example, the anti-slip structure 221 is an anti-slip line provided on the side wall of the lower support plate 22, or a profile structure provided on the side wall of the lower support plate 22.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The cultivation transfer pot for greenhouse cotton seedling transplantation is characterized by comprising a pot body and a supporting base, wherein the pot body comprises an upper pot body and a lower pot body which are vertically spliced, an annular groove is formed in the spliced side of the upper pot body and the lower pot body, a clamping protrusion is arranged on the wall of the annular groove, an annular insertion piece matched with the annular groove is arranged on the spliced side of the lower pot body and the upper pot body, an L-shaped clamping groove allowing the clamping protrusion to slide is formed in the side wall of the annular insertion piece, and the clamping protrusion slides along the vertical part of the L-shaped clamping groove and is clamped with the transverse part of the L-shaped clamping groove under the condition that the annular groove is spliced with the annular insertion piece;

the support base includes backup pad, bottom suspension fagging and screw thread post, the both ends of screw thread post respectively with go up backup pad, bottom suspension fagging fixed connection, it is located respectively to go up backup pad, bottom suspension fagging the upper and lower both sides of the bottom of the basin body down, the bottom center of the basin body is provided with the screw thread through-hole down, the screw thread post run through the screw thread through-hole and with the screw thread through-hole spiro union.

2. A cultivation transfer pot for greenhouse cotton seedling transplantation as claimed in claim 1, wherein a snap joint is arranged on the outer side wall of the upper pot body, a buckle matched with the snap joint is arranged on the outer side wall of the lower pot body, and a structure that the buckle can be buckled with the snap joint is formed under the condition that the annular groove is plugged with the annular insertion piece.

3. A cultivation revolving basin for greenhouse cotton seedling transplantation as claimed in claim 1, wherein a support spring is arranged between the bottom of the lower basin body and the lower support plate, the support spring is sleeved outside the threaded column, the central axis of the support spring is coincident with the central axis of the threaded column, an annular slide rail is arranged on one side of the bottom of the lower basin body close to the lower support plate, and the upper end of the support spring abuts against the annular slide rail.

4. A cultivation transfer pot for greenhouse cotton seedling transplantation as claimed in claim 1, wherein a plurality of air holes are formed in the bottom of the lower pot body, and a blocking net is fixedly connected to the inside of each air hole.

5. A cultivation transfer pot for greenhouse cotton seedling transplantation as claimed in claim 1, wherein the outer side walls of the upper pot body and the lower pot body are both provided with friction structures.

6. A cultivation transfer pot for greenhouse cotton seedling transplantation as claimed in claim 1, wherein the side wall of the lower support plate is provided with an anti-slip structure.

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