CN212876940U - Grafting seedbed for raspberry cuttage and rapid propagation - Google Patents

Abstract

The utility model relates to a grafting seedbed for raspberry cuttage rapid propagation. It has solved the not good and problem that the seedling is emptyd easily of seedbed irrigation effect among the prior art. It installation pedestal, installation pedestal bottom is equipped with the seedbed framework, seedbed framework bottom slides and is equipped with the soil filling layer, and seedbed framework upper end is connected with grafting positioning frame body through coupling mechanism, the rectangle inserting groove has in the seedbed framework, and separate for a plurality of orderly arranged's grafting square through a plurality of horizontal water delivery device and longitudinal baffle in the rectangle inserting groove, communicate each other between grafting square bottom and the soil filling layer, and have in the grafting positioning frame body with the location guide structure of grafting square one-to-one setting, the location guide structure both sides are removable to be equipped with the rotation supporting component through vertically setting at the fixed spout on grafting positioning frame body surface, and rotate supporting component and location guide structure and be the one-to-one setting. The utility model has the advantages that: irrigation effect is good and the seedling is difficult for empting.

Description

Grafting seedbed for raspberry cuttage and rapid propagation

Technical Field

The utility model relates to a seedbed planting equipment technical field, concretely relates to grafting seedbed for raspberry cuttage rapid propagation.

Background

The raspberry is a woody plant of rubus of Rosaceae, is a fruit, tastes sour and sweet, has barbed thorn on branches and stems of the plant, is a polymerized fruit, has red color, golden color and black color, is distributed in China in a large amount but is rarely known, is cultivated in northeast, and is relatively rare in the market. The Rubi fructus has high medicinal value. With increasing market demands, the survival rate of raspberry planting is low, and a supply-demand contradiction is formed. In order to improve the planting yield of the raspberries, people invent a cuttage rapid propagation technology, however, the raspberries need to be cultivated by using a seedbed for cuttage rapid propagation, the existing seedbed is inconvenient to disassemble and assemble, the position cannot be moved timely according to the requirement, the flexibility is poor, the seedling irrigation is not thorough, individual seedlings cannot contact moisture easily, the irrigation effect is poor, meanwhile, the seedlings are separated from soil easily due to the fact that the soil is soft and easy to topple over after irrigation, and the survival rate is low.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, chinese patent literature discloses a tide type irrigation seedbed [ CN201210586239.2], which comprises a frame foundation, a seedbed frame, a guide rail fixing member, a seedbed guide rail, a roller set, a seedbed frame and a tide type irrigation tray, wherein the seedbed frame is mounted on the frame foundation, the guide rail fixing member is mounted on the top end of the seedbed frame, the seedbed guide rail is mounted on the guide rail fixing member, the roller set is mounted in a matching manner with the seedbed guide rail, the roller set is mounted on the bottom of the seedbed frame, and the tide type irrigation tray is placed in the seedbed frame.

The above scheme solves the problems of inconvenient moving and troublesome dismounting of the seedbed in the prior art to a certain extent, but the scheme still has a plurality of defects, such as: irrigation is not thorough enough, and irrigation effect is not good, emptys easily after the seedling is irrigated moreover, causes the root to break away from earth, and the survival rate is low.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a grafting seedbed that is used for raspberry cuttage rapid propagation that reasonable in design irrigates effectual and the seedling is difficult for empting.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the utility model provides a grafting seedbed for raspberry cuttage rapid propagation, including the installation pedestal, installation pedestal bottom is equipped with the seedbed framework, seedbed framework bottom slides and is equipped with the soil filling layer, and seedbed framework upper end is connected with grafting positioning frame body through coupling mechanism, the rectangle inserting groove has in the seedbed framework, and separate for a plurality of orderly arranged's grafting square through a plurality of horizontal water delivery device and longitudinal baffle in the rectangle inserting groove, communicate each other between grafting square bottom and the soil filling layer, and the internal location guide structure who sets up with grafting square one-to-one that has of grafting positioning frame, the removable rotation supporting component that is equipped with of fixed spout on grafting positioning frame body surface through vertical setting in location guide structure both sides, and it is the one-to-one setting with location guide structure to rotate the supporting component. Utilize horizontal water delivery device and longitudinal baffle to separate the rectangle inserting groove that is located the seedbed frame for a plurality of orderly arranged's grafting square to evenly irrigate every raspberry seedling that is located the grafting square through horizontal water delivery device, make every raspberry seedling can both obtain sufficient moisture, irrigate effectually, utilize to rotate the supporting component and fix a position guide structure and to effectively support the raspberry seedling that is located the grafting square in addition, prevented that the seedling from taking place the condition of empting.

In foretell a grafting seedbed for raspberry cuttage rapid propagation, horizontal water delivery device includes horizontal water delivery groove, and horizontal water delivery groove both sides have the water delivery hole respectively towards the grafting square that corresponds, and horizontal water delivery groove both ends are located the rectangle inserting groove in the seedbed frame, and seedbed frame body outer wall is equipped with the water injection hole with the corresponding one side of horizontal water delivery groove arbitrary one end, link up each other between water injection hole and the horizontal water delivery groove. The seedlings in each splicing square can be irrigated through the water conveying holes, so that the raspberry seedlings can obtain sufficient moisture, and the condition that individual raspberry seedlings can not obtain moisture in conventional irrigation is avoided.

In the grafting seedbed for raspberry cuttage and rapid propagation, the sealing partition plates for sealing the end parts of the transverse water conveying tanks are movably arranged at the two ends of the transverse water conveying tanks in the rectangular grafting tanks, and the two ends of each sealing partition plate are mutually abutted to the inner walls of the rectangular grafting tanks. The arrangement of the closed partition plate can prevent the water in the transverse water conveying tank from flowing back.

In foretell a grafting seedbed for raspberry cuttage rapid propagation, rotate the supporting component and include that the subtend sets up the rotation support piece in location guide structure both sides, rotate the support piece bottom and have arc rotating-structure, and arc rotating-structure sets up on the rotation body of rod that is located fixed spout, and is the rotation support piece tip that the subtend set up and inhale through the horizontal part magnetism and link to each other. The longitudinal position of the rotating support piece can be adjusted freely by utilizing the arc-shaped rotating structure according to needs, and the flexibility is good.

In foretell grafting seedbed for raspberry cuttage rapid propagation, the horizontal part is one side middle part that the subtend set up and has first arc portion and second arc portion respectively, and when the mutual magnetism of horizontal part was inhaled, first arc portion and second arc portion formed the annular supporting part jointly. The setting of annular supporting part can effectively support the seedling of cuttage.

In foretell a grafting seedbed for raspberry cuttage rapid propagation, location guide structure includes the location cylinder base, and the location cylinder base is led to each other with rectangular inserting groove, and location cylinder base upper end is equipped with the guide cylinder, link up each other between guide cylinder and the location cylinder base.

In the grafting seedbed for raspberry cuttage and rapid propagation, the upper end of the guide cylinder is provided with an opening, and the diameter of the guide cylinder is smaller than that of the positioning cylinder seat. The arrangement of the guide cylinder and the positioning cylinder seat can enable raspberry seedlings to be cultivated to the middle of the splicing grids, and meanwhile, raspberry seedlings are protected in the circumferential direction.

In the grafting seedbed for raspberry cuttage rapid propagation, the connecting mechanism comprises positioning holes arranged at four circumferential corners of the upper end surface of the seedbed frame body, and positioning columns which are arranged in one-to-one correspondence with the positioning holes are arranged at four circumferential corners of the bottom of the grafting positioning frame body. The arrangement of the connecting mechanism can ensure that the seedbed frame body and the inserting positioning frame body are tightly connected and are convenient to disassemble and assemble

In the above-mentioned grafting seedbed for raspberry cuttage rapid propagation, fixed linking between seedbed framework bottom both ends and the installation pedestal, and form the installation spout that can supply the soil filling layer to slide dismouting between seedbed framework bottom and the installation pedestal upper end. The installation spout be provided with do benefit to and change soil.

In the above-mentioned grafting seedbed for raspberry cuttage rapid propagation, the installation pedestal bottom is equipped with the arc fixed slot, and the installation pedestal upper end is equipped with the drainage groove corresponding with the installation spout, and drainage groove length is less than the length of installation spout, and the installation pedestal lies in drainage groove both sides and is equipped with the wash port, link up each other between the drainage groove. The arrangement of the drainage groove and the drainage hole is convenient for discharging the sewage after irrigation, and the arc-shaped fixing groove is beneficial to supporting the installation base body by an external cross rod.

Compared with the prior art, the utility model has the advantages of: the horizontal water delivery device is utilized to uniformly irrigate the seedlings in the splicing checks, so that each raspberry seedling can obtain sufficient water, and the irrigation effect is good; and utilize rotation support assembly and location guide structure to carry out effective support to the raspberry seedling that is located the grafting square, prevented that the raspberry seedling from taking place to empty the condition after irrigating.

Drawings

FIG. 1 is a side view of the present invention in partial structure;

FIG. 2 is a schematic structural view of the seedbed frame of the present invention;

FIG. 3 is a sectional view of the seedbed frame of the present invention;

fig. 4 is a top view of the inserting positioning frame body of the present invention;

fig. 5 is a bottom view of the insertion positioning frame body of the present invention;

fig. 6 is a schematic structural view of the rotary support assembly of the present invention;

fig. 7 is a schematic structural view of the rotary support member of the present invention;

fig. 8 is a schematic structural view of the mounting base of the present invention.

In the figure, the installation base body 1, the arc-shaped fixing groove 11, the drainage groove 12, the drainage hole 13, the seedbed frame body 2, the soil filling layer 21, the rectangular insertion groove 22, the longitudinal partition plate 23, the insertion grid 24, the closed partition plate 25, the installation sliding groove 26, the connecting mechanism 3, the positioning hole 31, the positioning column 32, the insertion positioning frame body 4, the fixing sliding groove 41, the transverse water conveying device 5, the transverse water conveying tank 51, the water conveying hole 52, the water injection hole 53, the positioning guide structure 6, the positioning cylinder base 61, the guide cylinder 62, the rotation support component 7, the rotation support member 71, the arc-shaped rotation structure 72, the rotation rod body 73, the horizontal part 74, the first arc-shaped part 75, the second arc-shaped part 76 and the annular.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in figures 1-8, the grafting seedbed for raspberry cuttage and rapid propagation comprises a mounting seat body 1, a seedbed frame body 2 is arranged at the bottom of the mounting seat body 1, a soil filling layer 21 is arranged at the bottom of the seedbed frame body 2 in a sliding manner, the upper end of the seedbed frame body 2 is connected with an inserting positioning frame body 4 through a connecting mechanism 3, a rectangular inserting groove 22 is arranged in the seedbed frame body 2, the rectangular inserting groove 22 is divided into a plurality of inserting grids 24 which are orderly arranged by a plurality of transverse water delivery devices 5 and a longitudinal clapboard 23, the bottoms of the inserting grids 24 are communicated with the soil filling layer 21, and the inserting and positioning frame body 4 is internally provided with positioning and guiding structures 6 which are arranged in one-to-one correspondence with the inserting and positioning grids 24, two sides of each positioning and guiding structure 6 are detachably provided with rotating and supporting components 7 through fixed sliding grooves 41 which are longitudinally arranged on the surface of the inserting and positioning frame body 4, and the rotating and supporting components 7 are arranged in one-to-one correspondence with the positioning and guiding structures 6. Can evenly irrigate the raspberry seedling that lies in every grafting square 24 through horizontal water delivery device 5, irrigate effectually, can effectively support the raspberry seedling through location guide structure 6 and rotation supporting component 7 moreover, avoid the raspberry seedling because of the not hard up condition that produces and empty of earth after irrigating.

Wherein, horizontal water delivery device 5 includes horizontal water delivery groove 51, and horizontal water delivery groove 51 both sides have water delivery hole 52 respectively towards the grafting square 24 that corresponds, and horizontal water delivery groove 51 both ends are located the rectangle inserting groove 22 in the seedbed framework 2, and one side that seedbed framework 2 outer wall and horizontal water delivery groove 51 arbitrary one end correspond is equipped with water injection hole 53, link up each other between water injection hole 53 and the horizontal water delivery groove 51. The water injection hole 53 is located at an upper end position of the lateral water transfer tank 51.

As can be seen, the rectangular insertion groove 22 is movably provided with a sealing partition 25 at two ends of the transverse water conveying tank 51 for sealing the end of the transverse water conveying tank 51, and two ends of the sealing partition 25 are abutted against the inner wall of the rectangular insertion groove 22. After the water injection is finished, the end of the transverse water conveying tank 51 can be sealed by the sealing partition plate 25, so that the water in the transverse water conveying tank 51 is prevented from flowing back.

Further, the rotation supporting component 7 includes rotation supporting members 71 oppositely disposed at two sides of the positioning guiding structure 6, an arc-shaped rotation structure 72 is disposed at the bottom of the rotation supporting member 71, the arc-shaped rotation structure 72 is disposed on a rotation rod 73 located in the fixed sliding groove 41, and the ends of the rotation supporting members 71 oppositely disposed are magnetically attracted and connected through a horizontal portion 74. The arc-shaped rotating structure 72 can freely move on the rotating support 71, and the bottom of the rotating rod 73 is provided with a fixed part arranged in the fixed chute 41, and the upper end of the fixed part is provided with an annular body used for installing the rotating support 71.

Obviously, the horizontal portion 74 has a first arc-shaped portion 75 and a second arc-shaped portion 76 at the middle of the opposite sides, and when the horizontal portion 74 is magnetically attracted to each other, the first arc-shaped portion 75 and the second arc-shaped portion 76 together form an annular supporting portion 77. The annular support portion 77 here is larger in diameter than the raspberry seedling.

Specifically, the positioning guide structure 6 includes a positioning cylinder seat 61, the positioning cylinder seat 61 and the rectangular insertion groove 22 are communicated with each other, a guide cylinder 62 is arranged at the upper end of the positioning cylinder seat 61, and the guide cylinder 62 and the positioning cylinder seat 61 are communicated with each other.

Further, the upper end of the guide cylinder 62 has an opening, and the diameter of the guide cylinder 62 is smaller than that of the positioning cylinder seat 61.

Preferably, the connecting mechanism 3 includes positioning holes 31 disposed at four circumferential corners of the upper end surface of the seedbed frame 2, and positioning columns 32 disposed in one-to-one correspondence with the positioning holes 31 are disposed at four circumferential corners of the bottom of the inserting positioning frame 4.

More specifically, the two ends of the bottom of the seedbed frame 2 are fixedly connected with the installation base 1, and an installation chute 26 for the soil filling layer 21 to slide and be detached is formed between the bottom of the seedbed frame 2 and the upper end of the installation base 1. The bottom of the soil filling layer 21 is provided with water leakage holes.

In detail, the bottom of the installation base 1 is provided with an arc-shaped fixing groove 11, the upper end of the installation base 1 is provided with a drainage groove 12 corresponding to the installation chute 26, the length of the drainage groove 12 is smaller than that of the installation chute 26, drainage holes 13 are arranged on two sides of the drainage groove 12 of the installation base 1, and the drainage grooves 12 are communicated with each other. The width of the drainage groove 12 is smaller than the width of the mounting chute 26, which is provided to support the soil filling layer 21.

The principle of the embodiment is as follows: before cuttage raspberry seedling, take out soil filling layer 21 and carry out soil replacement, then utilize location guide structure 6 to make the cuttage of raspberry seedling in grafting square 24 middle part position, simultaneously, support the raspberry seedling through rotating supporting component 7, finally, utilize horizontal water delivery device 5 to evenly irrigate the raspberry seedling that is located in every grafting square 24, water after the irrigation flows to in drainage groove 12 from soil filling layer 21 bottom to discharge through wash port 13. Not only has good irrigation effect, but also ensures that the raspberry seedlings are not easy to topple over after irrigation, thereby improving the survival rate.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although terms such as the installation base 1, the arc-shaped fixing groove 11, the drainage groove 12, the drainage hole 13, the seedbed frame 2, the soil filling layer 21, the rectangular insertion groove 22, the longitudinal partition 23, the insertion grid 24, the closed partition 25, the installation sliding groove 26, the connection mechanism 3, the positioning hole 31, the positioning column 32, the insertion positioning frame 4, the fixing sliding groove 41, the transverse water conveying device 5, the transverse water conveying tank 51, the water conveying hole 52, the water injecting hole 53, the positioning guide structure 6, the positioning cylinder base 61, the guide cylinder 62, the rotation support assembly 7, the rotation support 71, the arc-shaped rotation structure 72, the rotation rod body 73, the horizontal portion 74, the first arc-shaped portion 75, the second arc-shaped portion 76, and the annular support portion 77 are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a grafting seedbed for raspberry cuttage rapid propagation, includes installation pedestal (1), installation pedestal (1) bottom be equipped with seedbed framework (2), its characterized in that, seedbed framework (2) bottom slide and be equipped with soil filling layer (21), and seedbed framework (2) upper end is connected with grafting positioning frame body (4) through coupling mechanism (3), seedbed framework (2) in have rectangle inserting groove (22), and separate for a plurality of orderly arranged's grafting square (24) through a plurality of horizontal water delivery device (5) and longitudinal baffle (23) in rectangle inserting groove (22), grafting square (24) bottom and soil filling layer (21) between communicate each other, just grafting positioning frame body (4) in have with the location guide structure (6) that grafting square (24) one-to-one set up, location guide structure (6) both sides through vertically setting up fixed square (4) surface of pegging graft positioning frame body (4), fix a position the square (6) surface in a position The sliding groove (41) is detachably provided with a rotating support component (7), and the rotating support component (7) and the positioning guide structure (6) are arranged in a one-to-one correspondence manner.

2. The grafting seedbed for raspberry cutting rapid propagation according to claim 1, characterized in that the transverse water conveying device (5) comprises a transverse water conveying tank (51), wherein water conveying holes (52) are respectively formed in two sides of the transverse water conveying tank (51) facing the corresponding grafting squares (24), two ends of the transverse water conveying tank (51) are positioned in the rectangular grafting grooves (22) in the seedbed frame body (2), a water injection hole (53) is formed in one side of the outer wall of the seedbed frame body (2) corresponding to any end of the transverse water conveying tank (51), and the water injection hole (53) is communicated with the transverse water conveying tank (51).

3. The grafting seedbed for raspberry cutting rapid propagation according to claim 2, characterized in that the rectangular grafting groove (22) is movably provided with a sealing partition (25) at two ends of the transverse water conveying groove (51) for sealing the end of the transverse water conveying groove (51), and two ends of the sealing partition (25) are abutted against the inner wall of the rectangular grafting groove (22).

4. The grafting seedbed for raspberry cutting rapid propagation according to claim 1, characterized in that the rotating support component (7) comprises rotating support members (71) oppositely arranged at both sides of the positioning guide structure (6), the bottom of the rotating support member (71) is provided with an arc-shaped rotating structure (72), the arc-shaped rotating structure (72) is arranged on a rotating rod body (73) positioned in the fixed sliding groove (41), and the ends of the rotating support members (71) oppositely arranged are magnetically attracted and connected through a horizontal part (74).

5. The grafting seedbed for raspberry cutting rapid propagation according to claim 4, characterized in that the horizontal portion (74) has a first arc-shaped portion (75) and a second arc-shaped portion (76) at the middle of the opposite side, and when the horizontal portions (74) are magnetically attracted to each other, the first arc-shaped portion (75) and the second arc-shaped portion (76) form a ring-shaped supporting portion (77).

6. The grafting seedbed for raspberry cutting rapid propagation according to claim 1, characterized in that the positioning guide structure (6) comprises a positioning cylinder seat (61), the positioning cylinder seat (61) is communicated with the rectangular grafting groove (22), a guide cylinder (62) is arranged at the upper end of the positioning cylinder seat (61), and the guide cylinder (62) is communicated with the positioning cylinder seat (61).

7. The grafting seedbed for raspberry cutting rapid propagation according to claim 6, characterized in that, the upper end of the guide cylinder (62) has an opening, and the diameter of the guide cylinder (62) is smaller than that of the positioning cylinder seat (61).

8. The grafting seedbed for raspberry cutting rapid propagation according to claim 1, characterized in that the connecting mechanism (3) comprises positioning holes (31) arranged at four circumferential corners of the upper end surface of the seedbed frame body (2), and positioning columns (32) arranged corresponding to the positioning holes (31) one by one are arranged at four circumferential corners of the bottom of the grafting positioning frame body (4).

9. The grafting seedbed for raspberry cutting rapid propagation according to claim 8, characterized in that, the two ends of the bottom of the seedbed frame body (2) are fixedly connected with the mounting base body (1), and a mounting chute (26) for the soil filling layer (21) to slide and disassemble is formed between the bottom of the seedbed frame body (2) and the upper end of the mounting base body (1).

10. The grafting seedbed for raspberry cutting rapid propagation according to claim 1, characterized in that the bottom of the mounting base body (1) is provided with an arc-shaped fixing groove (11), the upper end of the mounting base body (1) is provided with a drainage groove (12) corresponding to the mounting chute (26), the length of the drainage groove (12) is less than that of the mounting chute (26), the mounting base body (1) is provided with drainage holes (13) at two sides of the drainage groove (12), and the drainage grooves (12) are communicated with each other.

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