CN220965707U

CN220965707U - Snakegourd fruit cultivation frame

Info

Publication number: CN220965707U
Application number: CN202323064137.7U
Authority: CN
Inventors: 魏和平; 彭五四
Original assignee: Anqing Huiyuan Agricultural Technology Co ltd
Current assignee: Anqing Huiyuan Agricultural Technology Co ltd
Priority date: 2023-11-10
Filing date: 2023-11-10
Publication date: 2024-05-17
Anticipated expiration: 2033-11-10

Abstract

The utility model relates to the technical field of snakegourd cultivation devices, in particular to a snakegourd cultivation frame, which comprises a support frame, wherein a lifting structure is arranged on the support frame, the lifting structure comprises a screw rod, two screw rods are rotatably connected to the support frame, a synchronous wheel is fixedly connected to the screw rod, the same synchronous belt is wound on the two synchronous wheels, a plurality of thread sleeves are connected to the screw rod in a threaded manner, the thread sleeves are rotatably connected to a sliding plate, a first clamping block is slidably connected to the sliding plate, a first clamping groove is formed in the thread sleeve, two first springs are in contact with the first clamping block, two opposite sliding plates are slidably connected to the same connecting frame, a plurality of guide shafts are rotatably connected to the connecting frame, and a plurality of second springs are in contact with the sliding plate; the problem that the planting plate is placed at a high place by lifting the body by means of a tool is avoided, so that convenience and safety of operation are effectively improved.

Description

Snakegourd fruit cultivation frame

Technical Field

The utility model relates to a cultivation frame, in particular to a snakegourd cultivation frame, and belongs to the technical field of snakegourd cultivation devices.

Background

Fructus Trichosanthis belongs to the genus Trichosanthes of Cucurbitaceae, and is perennial climbing grass vine, and rhizome is hypertrophic, cylindric, and overground stem is multi-branched, and no hair is grown in the armpit, and what branch was taken to the armpit, and the trichosanthes can be cultivated through planting the dish before planting, and the planting dish generally can be placed on the rack and put.

However, in order to improve the efficiency of space utilization, the conventional rack is generally provided with multiple layers vertically, so that when a planting tray needs to be placed at a higher position on the rack, the body is often required to be lifted by means of a tool to place the planting tray, thereby resulting in poor convenience and safety of operation.

Disclosure of utility model

The utility model aims to solve the problems and provide the snakegourd fruit cultivation frame, which avoids the need of lifting a body by means of a tool to place a planting tray at a high position, thereby effectively improving the convenience and safety of operation.

The utility model realizes the purpose through the following technical scheme that the snakegourd fruit cultivation frame comprises a support frame, wherein a lifting structure is arranged on the support frame and comprises a screw rod, two screw rods are rotatably connected to the support frame, a synchronous wheel is fixedly connected to the screw rod, the same synchronous belt is wound on the two synchronous wheels, a plurality of thread sleeves are connected to the screw rod in a threaded manner, the thread sleeves are rotatably connected to a sliding plate, a first clamping block is slidably connected to the sliding plate, a first clamping groove is formed in the thread sleeve, two first springs are in interference between the first clamping block and the sliding plate, a same connecting frame is slidably connected between the two opposite sliding plates, a plurality of guide shafts are rotatably connected to the connecting frame, and a plurality of second springs are in interference between the connecting frame and the sliding plate.

Preferably, the bottom fixedly connected with bull stick of lead screw, the one end of bull stick cross-section is L shape structure.

Preferably, the end part of the first clamping block section is in a trapezoid structure, and the middle part of the first clamping block section is in a cross-shaped structure.

Preferably, the guide shafts are distributed on the connecting frame in a linear equidistant mode, and the width of two ends of the section of each guide shaft is smaller than the width of the middle section.

Preferably, the bottom of support frame is equipped with bearing structure, bearing structure includes the backup pad, the bottom rotation of support frame is connected with four backup pads.

Preferably, the connecting rod is rotationally connected to the supporting plate, the connecting rod is rotationally connected to the sliding block, and the sliding block is slidingly connected to the supporting frame.

Preferably, the sliding block is connected with a second clamping block in a sliding manner, the supporting frame is provided with a plurality of second clamping grooves, and the end parts of the second clamping blocks are clamped with the second clamping grooves.

Preferably, a third spring is sleeved outside the second clamping block, one end of the third spring is fixedly connected to the second clamping block, and the other end of the third spring is fixedly connected to the sliding block.

Preferably, one end of the second clamping block section is in a trapezoid structure, and the other end of the second clamping block section is in a T-shaped structure.

The beneficial effects of the utility model are as follows: when the planting disc is required to be placed on the support frame to carry out seedling raising of the snakegourd fruit, the planting disc filled with the snakegourd fruit can be placed on the guide shafts, the front and back movement of the planting disc can be facilitated when the planting disc is placed through the guide shafts, so that the physical force consumed by pulling the planting disc is effectively reduced, when the planting disc is placed, the connecting frame can slide on the sliding plate under the action of the whole weight of the planting disc, the second spring contracts, the connecting frame can prop against the first clamping block to move towards the first clamping groove in the sliding process, the first spring contracts, the end part of the first clamping block can be clamped with the first clamping groove along with the movement of the connecting frame, one screw rod can be rotated at the moment, and as one synchronous wheel is fixedly connected to the screw rod and the same synchronous belt is wound on the two synchronous wheels, the other screw rod can synchronously rotate when one screw rod is rotated, the screw rod is synchronously rotated to drive the screw sleeve to move, the screw sleeve cannot rotate with the sliding plates under the action of the first clamping block, so that the two sliding plates can drive the connecting frame between the two sliding plates to move along with the rotation of the screw rod, and the first clamping blocks at the two ends of the connecting frame without the planting plate are not clamped with the first clamping grooves, so that the screw rod can be driven to rotate on the sliding plates without moving the sliding plates when rotating, the moving connecting frame drives the planting plate to move, when one connecting frame moves for a certain distance, the screw rod is stopped to rotate, the planting plate is placed on a plurality of guide shafts inside the other connecting frame at the bottom end of the connecting frame, the operation is repeated until all the planting plates are placed, thereby avoiding that the planting plate is lifted by a tool to be placed at a high position, the convenience and the safety of the use are effectively improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

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

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

FIG. 4 is an enlarged schematic view of portion C shown in FIG. 1;

FIG. 5 is a schematic diagram of a connection structure of a screw and a threaded sleeve according to the present utility model;

Fig. 6 is a schematic diagram of a connection structure of a connecting rod and a slider according to the present utility model.

In the figure: 1. a support frame; 2. a lifting structure; 201. a rotating rod; 202. a screw rod; 203. a synchronizing wheel; 204. a synchronous belt; 205. a thread sleeve; 206. a first clamping groove; 207. a first clamping block; 208. a first spring; 209. a slide plate; 3. a connection frame; 4. a guide shaft; 5. a second spring; 6. a support structure; 601. a support plate; 602. a connecting rod; 603. a slide block; 604. a second clamping block; 605. a third spring; 606. and a second clamping groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, a snakegourd cultivation frame includes a supporting frame 1, a lifting structure 2 is provided on the supporting frame 1, the lifting structure 2 includes a screw rod 202, two screw rods 202 are rotatably connected on the supporting frame 1, a synchronizing wheel 203 is fixedly connected on the screw rod 202, two synchronizing wheels 203 are wound with a same synchronizing belt 204, a plurality of thread sleeves 205 are screwed on the screw rod 202, the thread sleeves 205 are rotatably connected with a sliding plate 209, a first clamping block 207 is slidably connected on the sliding plate 209, a first clamping groove 206 is provided on the thread sleeves 205, two first springs 208 are abutted between the first clamping block 207 and the sliding plate 209, a same connecting frame 3 is slidably connected between the two opposite sliding plates 209, a plurality of guide shafts 4 are rotatably connected on the connecting frame 3, and a plurality of second springs 5 are abutted between the connecting frame 3 and the sliding plate 209.

As a technical optimization scheme of the utility model, the bottom end of the screw rod 202 is fixedly connected with the rotating rod 201, and one end of the section of the rotating rod 201 is of an L-shaped structure, so that the screw rod 202 can be conveniently rotated.

As a technical optimization scheme of the utility model, the end part of the cross section of the first clamping block 207 is in a trapezoid structure, and the middle part of the cross section of the first clamping block 207 is in a cross-shaped structure, so that the connecting frame 3 can collide with the first clamping block 207 in the moving process.

As a technical optimization scheme of the utility model, a plurality of guide shafts 4 are distributed on the connecting frame 3 at equal intervals in a linear manner, and the widths of the two ends of the section of the guide shaft 4 are smaller than the width of the middle, so that the physical effort consumed when the planting plate is pulled out can be reduced.

As a technical optimization scheme of the utility model, the bottom end of the support frame 1 is provided with the support structure 6, the support structure 6 comprises the support plate 601, the bottom end of the support frame 1 is rotationally connected with four support plates 601, the support plate 601 is rotationally connected with the connecting rod 602, the connecting rod 602 is rotationally connected with the sliding block 603, the sliding block 603 is slidingly connected with the support frame 1, the sliding block 603 is slidingly connected with the second clamping block 604, the support frame 1 is provided with a plurality of second clamping grooves 606, the end part of the second clamping block 604 is clamped with the second clamping grooves 606, a third spring 605 is sleeved outside the second clamping block 604, one end of the third spring 605 is fixedly connected with the second clamping block 604, and the other end of the third spring 605 is fixedly connected with the sliding block 603, so that the stability of the device in placement can be improved through contact between the support plate 601 and the ground.

As a technical optimization scheme of the present utility model, one end of the cross section of the second clamping block 604 has a trapezoid structure, and the other end of the cross section of the second clamping block 604 has a T-shaped structure, so that the guiding function can be achieved when the second clamping block 604 is clamped with the second clamping groove 606.

When the utility model is used, when the planting plate is required to be placed on the support frame 1 for seedling raising of the snakegourd fruit, the planting plate filled with the snakegourd fruit can be placed on the guide shafts 4, the guide shafts 4 are arranged to facilitate the front and back movement of the planting plate when the planting plate is placed, so that the physical force consumed when the planting plate is pulled is effectively reduced, when the planting plate is placed, the connecting frame 3 slides on the sliding plate 209 under the action of the whole gravity of the planting plate, the second spring 5 contracts, the connecting frame 3 props against the first clamping block 207 to move towards the first clamping groove 206 in the sliding process, the first spring 208 contracts, the end part of the first clamping block 207 is clamped with the first clamping groove 206 along with the movement of the connecting frame 3, at the moment, one screw rod 202 can be rotated through the rotating rod 201, and as the synchronizing wheels 203 are fixedly connected on the screw rod 202 and the two synchronizing wheels 203 are wound with the same synchronizing belt 204, therefore, when one of the screw rods 202 rotates, the other screw rod 202 synchronously rotates, the screw thread sleeves 205 are driven to move by the screw threads, because the screw thread sleeves 205 cannot rotate with the sliding plates 209 under the action of the first clamping blocks 207 at the moment, the two sliding plates 209 can drive the connecting frame 3 positioned between the two sliding plates 209 to move along with the rotation of the screw rod 202, and because the first clamping blocks 207 at the two ends of the connecting frame 3 without placing the planting plate are not clamped with the first clamping grooves 206, the screw rod 202 rotates to drive the screw thread sleeves 205 to rotate on the sliding plates 209 without moving the sliding plates 209, the moving connecting frame 3 drives the planting plate to move, when one connecting frame 3 moves for a certain distance, the screw rod 202 stops rotating and the planting plate is placed on a plurality of guide shafts 4 positioned inside the other connecting frame 3 at the bottom end of the connecting frame, and the above operation is repeated until all planting trays are placed, thereby avoiding that the planting trays are placed to a high position by means of the body lifting tool, effectively improving the convenience and safety of use, when the support frame 1 moves to a designated position, the second clamping block 604 can be pulled, the third spring 605 is stretched, when the second clamping block 604 is not clamped with one of the second clamping grooves 606, the sliding block 603 can be pushed, the sliding block 603 moves to drive the support plate 601 to rotate through the connecting rod 602, after one side of the support plate 601 is contacted with the ground, the second clamping block 604 can be clamped with the other second clamping groove 606 under the action of the third spring 605, at the moment, the support plate 601 can not continuously rotate, and the operation is repeated to ensure that all the support plates 601 are contacted with the ground, at the moment, the contact area between the support plate 601 and the ground can be increased, thereby improving the stability of the support, and when the support plate 601 is not required to be folded and the space utilization efficiency can be improved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The utility model provides a snakegourd cultivation frame, includes support frame (1), its characterized in that: be equipped with elevation structure (2) on support frame (1), elevation structure (2) include lead screw (202), rotate on support frame (1) and be connected with two lead screws (202), fixedly connected with synchronizing wheel (203) on lead screw (202), two twine on synchronizing wheel (203) have same hold-in range (204), threaded connection has a plurality of thread bush (205) on lead screw (202), thread bush (205) rotate and connect in slide (209), sliding connection has first fixture block (207) on slide (209), be equipped with first draw-in groove (206) on thread bush (205), it has two first springs (208) to contradict between first fixture block (207) and slide (209), sliding connection has same connecting frame (3) between two relative slide (209), it is connected with a plurality of guiding axles (4) to rotate on connecting frame (3), contradict between connecting frame (3) and slide (209) has a plurality of second springs (5).

2. The snakegourd fruit cultivation frame according to claim 1, wherein: the bottom end of the screw rod (202) is fixedly connected with a rotating rod (201), and one end of the cross section of the rotating rod (201) is of an L-shaped structure.

3. The snakegourd fruit cultivation frame according to claim 1, wherein: the end part of the section of the first clamping block (207) is of a trapezoid structure, and the middle part of the section of the first clamping block (207) is of a cross-shaped structure.

4. The snakegourd fruit cultivation frame according to claim 1, wherein: the guide shafts (4) are distributed on the connecting frame (3) at equal intervals in a linear mode, and the width of two ends of the section of each guide shaft (4) is smaller than the width of the middle.

5. The snakegourd fruit cultivation frame according to claim 1, wherein: the bottom of support frame (1) is equipped with bearing structure (6), bearing structure (6) are including backup pad (601), the bottom rotation of support frame (1) is connected with four backup pads (601).

6. The snakegourd fruit cultivation frame as recited in claim 5, wherein: the support plate (601) is rotationally connected with a connecting rod (602), the connecting rod (602) is rotationally connected with a sliding block (603), and the sliding block (603) is slidingly connected with the support frame (1).

7. The snakegourd fruit cultivation frame as recited in claim 6, wherein: the sliding block (603) is connected with a second clamping block (604) in a sliding mode, a plurality of second clamping grooves (606) are formed in the supporting frame (1), and the end portions of the second clamping blocks (604) are clamped with the second clamping grooves (606).

8. The snakegourd fruit cultivation frame as recited in claim 7, wherein: the outside cover of second fixture block (604) is equipped with third spring (605), the one end fixed connection of third spring (605) is in second fixture block (604), the other end fixed connection of third spring (605) is in slider (603).

9. The snakegourd fruit cultivation frame as recited in claim 7, wherein: one end of the section of the second clamping block (604) is in a trapezoid structure, and the other end of the section of the second clamping block (604) is in a T-shaped structure.