Flower seedling fixing device
By combining the design of support structure, anti-tipping structure and uprighting structure, the problem of branch twisting and root damage caused by existing flower seedling fixing devices is solved, and the stable upright growth of flower seedlings and healthy root development are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YICHANG LICHUANG BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-06-06
- Publication Date
- 2026-06-26
AI Technical Summary
Existing flower seedling fixing devices are prone to causing branch twisting and damage during use. The base occupies a large area, affecting root growth, and it is not easy for the support structure to correspond with the flower roots, resulting in poor performance.
A seedling fixing device for flowers was designed, comprising a support structure, an anti-tipping structure, and a straightening structure. The support structure provides stable support through retaining rings and connecting rods. The anti-tipping structure fixes the flower stems through movable seats and bolts. The straightening structure adjusts the position of the flower stems through inserts and guiding components. The adjustment structure adjusts the height to ensure upright growth.
It effectively prevents flower seedlings from tipping over, avoids root damage, improves the stability of the support structure and the upright growth of flower stems, and enhances the practicality and effectiveness of the device.
Smart Images

Figure CN224402354U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of flower seedling cultivation technology, and more specifically, to a flower seedling fixing device. Background Technology
[0002] Flower seedlings refer to the tender small plants that begin to grow from flower seeds planted in flowerpots or flower beds. These seedlings are the initial small plants that grow after the seeds germinate. Seedlings are an important stage in the plant's life cycle. During the seedling stage, the root system of flowers is not well developed and they are very prone to falling over. In order to ensure that the seedlings grow upright and make full use of photosynthesis and nutrient absorption, seedling fixing devices are needed to prevent flower seedlings from falling over.
[0003] Chinese utility model patent CN220422569U discloses a flower seedling fixing device, including a base, with a fixing spike fixedly connected to the bottom of the base, a fixing mechanism and a vertical pole respectively set on the top of the base, a limiting ring installed on the outer side of the vertical pole, a lifting mechanism set in the inner cavity of the vertical pole, and a folding mechanism set on the top of the lifting mechanism; the above technical solution fixes the branches of the flower by limiting the ring to prevent the branches of the flower from being damaged by the wind, and also clamps the edge of the flower pot by the cooperation of the second fixing plate and the first fixing plate, thereby improving the stability of the device during use. However, while the above-mentioned technical solution can ensure the stability of the device during the fixing of flower branches, its base occupies a large area, making it difficult to align the limiting ring with the root position of the flower. During use, the limiting ring needs to pull and press the flower branches against the fixing frame, which can easily cause twisting and damage to the flower branches. In addition, the base is located close to the root of the plant, and the fixing spikes on the base can easily damage the rootstock when inserted into the soil. Furthermore, pressing the flower branches against the fixing frame can also prevent the branches and leaves from growing towards the fixing frame, affecting the dispersion of branches and leaves, resulting in poor performance. Utility Model Content
[0004] In view of this, the purpose of this utility model is to provide a flower seedling fixing device to support the stable installation of the structure and maintain a good anti-tipping effect for the covering and maintenance of the flowers. At the same time, it maintains the upright growth of the flower seedling stems by fixing them at both the top and bottom, and improves the anti-lodging effect of the flower seedling stems, so as to effectively improve the practicality of the device and enhance its use effect.
[0005] To achieve the above objectives, this utility model provides a flower seedling fixing device, comprising:
[0006] The support structure includes two horizontally symmetrically arranged retaining rings, a connecting rod fixedly installed between the two retaining rings, and a plurality of support components fixed to the outer periphery of the retaining rings, wherein the support components are evenly arranged on the outer periphery of the retaining rings.
[0007] The anti-tipping structure includes a swing rod fitted on the connecting rod, a first movable seat fixed on the side of the swing rod away from the connecting rod, a first soft pad installed on the opposite side of the two first movable seats, a bolt slidably passing through the first movable seat, and a nut threaded on the bolt. The two first movable seats are symmetrically arranged, and the first movable seats have horizontal mounting holes adapted to the size of the bolt.
[0008] The straightening structure includes several vertically sliding rods that slide through the first movable seat and guide components that are fixedly installed on the top of the rods and respectively correspond to the positions of the two first movable seats. The two guide components are symmetrically arranged.
[0009] An adjustment structure is used to adjust the height of the straightening structure.
[0010] Furthermore, the adjustment structure includes a fixed seat mounted on the top surface of the retaining ring and located directly above the connecting rod, a rotating shaft fixedly mounted inside the fixed seat, a ratchet rotatably mounted on the rotating shaft, a stop component mounted inside the fixed seat, and a first guide frame and a second guide frame respectively mounted on the two rotating shafts. The first guide frame and the second guide frame are respectively arranged on both sides in the width direction of the two ratchets.
[0011] Furthermore, both the first guide frame and the second guide frame are provided with narrow slits in the width direction, and a first fixing rod and a second fixing rod are fixed on both sides of the length direction of the two guide components, and the outer wall dimensions of the first fixing rod and the second fixing rod are slidably adapted to the width of the narrow slits, and the length of the first fixing rod is greater than the length of the second fixing rod.
[0012] Furthermore, both the first guide frame and the second guide frame are U-shaped, and the inner wall dimension of the second guide frame is larger than the outer wall dimension of the first guide frame.
[0013] Furthermore, the stop component includes a pull rod that slides through the fixed base, a stop block fixed to one end of the pull rod facing the inner side of the fixed base, and an elastic element sleeved on the pull rod and fixedly connected to the fixed base and the stop block.
[0014] Furthermore, the support component includes a support rod installed on the outer periphery of the retaining ring and a stop plate fixed to the other end of the support rod.
[0015] Furthermore, the support rod is inclined, and the abutment plate has vertical perforations inside.
[0016] Furthermore, the guide component includes a second movable seat mounted on the top of the insert rod and located above the first movable seat, and a second soft pad fixed on opposite sides of the two second movable seats.
[0017] Furthermore, the inner sides of both the first movable seat and the second movable seat are semi-circular, and after their positions are fixed, both the first movable seat and the second movable seat are coaxial with the retaining ring.
[0018] Furthermore, the first movable seat has several vertically formed insertion holes, and the insertion rod is slidably adapted to the insertion holes.
[0019] Compared with the prior art, this utility model has the following advantages and effects:
[0020] 1. The seedling fixing device of this utility model not only provides multi-directional support to ensure the stability of the main body of the device through its supporting structure, but also avoids affecting the nutrient absorption and growth of the seedling roots by designing the supporting parts away from the roots. In addition, when the two first movable seats in the anti-tipping structure are fitted around the bottom of the seedling stem, the anti-tipping structure can work with the stability of the supporting structure to protect the seedling from tipping over. The uprighting structure can move the guiding component to the middle or upper part of the seedling stem with fewer stems and leaves during the adjustment process. This allows the guiding component to restrict the lateral movement of the seedling stem without affecting its dispersed growth, thus ensuring the upright growth of the seedling stem and improving its resistance to lodging, effectively enhancing the device's performance.
[0021] 2. When the flower seedling fixing device of this utility model is applied to containers such as flower pots, the outer periphery of the abutment on the support structure can abut against the inner wall of the container, thereby improving the stability of the support structure. When the flower seedling fixing device is applied to a large-scale cultivation container or field, the gripping force of the support structure can be enhanced by inserting a pin structure into the perforation of the abutment, thereby enhancing the stability of the support structure in another way. Attached Figure Description
[0022] Figure 1 This is a schematic diagram of the main structure of the flower seedling fixing device in an embodiment of this utility model;
[0023] Figure 2 This is a top view of the retaining ring of the flower seedling fixing device in an embodiment of the present utility model;
[0024] Figure 3 This is a schematic diagram of the front cross-sectional structure of the fixing seat of the flower seedling fixing device in the embodiment of this utility model;
[0025] Figure 4 The flower seedling fixing device in the embodiment of this utility model Figure 3 Schematic diagram of the structure at point A;
[0026] Figure 5 This is a three-dimensional structural diagram of the support structure of the flower seedling fixing device in an embodiment of this utility model;
[0027] Figure 6 This is a top cross-sectional view of the first guide frame and the second guide frame of the flower seedling fixing device in this embodiment of the present invention.
[0028] Explanation of reference numerals in the attached figures:
[0029] 1-Supporting structure;
[0030] 11-Retaining ring; 12-Supporting component; 121-Supporting rod; 122-Bottoming plate; 1221-Through hole; 13-Connecting rod;
[0031] 2- Anti-tipping structure;
[0032] 21-Swing rod; 22-First movable seat; 221-Socket; 23-First soft pad; 24-Bolt; 25-Nut;
[0033] 3-Straightening structure;
[0034] 31-Guide component; 311-Second movable seat; 312-Second soft pad; 32-Insertion rod; 33-First fixing rod; 34-Second fixing rod;
[0035] 4-Adjustment structure;
[0036] 41-Fixed seat; 42-Rotating shaft; 43-Ratchet; 44-First guide frame; 45-Stopping component; 451-Pull rod; 452-Stopping block; 453-Elastic element; 46-Second guide frame. Detailed Implementation
[0037] The technical solution of this utility model will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0038] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can also refer to the internal connection of two components; and they can refer to a wireless connection or a wired connection. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0039] Please see Figure 1-6 As shown, this utility model embodiment provides a flower seedling fixing device, including a support structure 1, an anti-tipping structure 2, a straightening structure 3, and an adjustment structure 4, wherein:
[0040] The support structure 1 includes retaining rings 11, connecting rods 13, and support components 12. Two retaining rings 11 are arranged horizontally and symmetrically. The connecting rods 13 are fixedly installed between the two retaining rings 11. Several support components 12 are fixed on the outer periphery of the retaining rings 11 and are evenly distributed on the outer periphery of the retaining rings 11. The two ends of the connecting rods 13 are respectively connected to the two retaining rings 11, so that the two retaining rings 11 cooperate to form a ring enclosure on the outside of the flower seedlings. In addition, the evenly distributed support components 12 can support the ground from multiple directions to improve the stability of the support structure 1.
[0041] The anti-tipping structure 2 includes a swing rod 21, a first movable seat 22, a first soft pad 23, a bolt 24, and a nut 25, wherein:
[0042] The swing rod 21 is fitted onto the connecting rod 13. The first movable seat 22 is fixed on the side of the swing rod 21 away from the connecting rod 13. The first soft pad 23 is installed on the opposite side of the two first movable seats 22. The bolt 24 slides through the first movable seat 22. The nut 25 is threaded onto the bolt 24. The two first movable seats 22 are symmetrically arranged. The first movable seat 22 has horizontally opened mounting holes that are adapted to the size of the bolt 24. This allows the bolt 24 to pass through the mounting holes into the two first movable seats 22 respectively. By installing the nut 25 on the bolt 24, the two first movable seats 22 are spliced together. This allows the two first movable seats 22 to limit and fix the bottom stem of the flower seedling after splicing, thereby preventing the flower seedling from tipping over. The first soft pad 23 can also prevent the first movable seat 22 from damaging the bottom stem of the flower seedling.
[0043] The uprighting structure 3 includes insert rods 32 and guide components 31. Several insert rods 32 are vertically slidably inserted into the first movable seat 22. The guide components 31 are fixedly installed on the top of the insert rods 32 and correspond to the positions of the two first movable seats 22 respectively. The two guide components 31 are symmetrically arranged. It is convenient to use the cooperation of the two guide components 31 to restrict the movement of the middle stem of the flower seedling, so that the flower seedling grows vertically and can better carry out photosynthesis and nutrient absorption.
[0044] The adjusting structure 4 is used to adjust the height of the straightening structure 3; this allows the straightening structure 3 to be adjusted to offset the stem branches on the flower seedlings, so that the flower seedlings can grow upright without affecting the branches and leaves on the stems to grow in all directions.
[0045] Please see Figure 1-6 As shown, the adjustment structure 4 includes a fixed base 41, a rotating shaft 42, a ratchet 43, a stop component 45, a first guide frame 44, and a second guide frame 46, wherein:
[0046] The fixed seat 41 is installed on the top surface of the retaining ring 11 and is located directly above the connecting rod 13. The rotating shaft 42 is fixedly installed inside the fixed seat 41. The ratchet 43 is rotatably installed on the rotating shaft 42. The stop member 45 is installed inside the fixed seat 41 to limit the rotation of the ratchet 43. The first guide frame 44 and the second guide frame 46 are respectively mounted on the two rotating shafts 42, and the first guide frame 44 and the second guide frame 46 are respectively installed on both sides of the width direction of the two ratchet 43. This allows the first guide frame 44 and the second guide frame 46 to rotate with the ratchet 43, thereby allowing the stop member 45 to limit the movement of the first guide frame 44 and the second guide frame 46 by engaging the ratchet 43.
[0047] Please see Figure 1-6 As shown, narrow slits are provided in the width direction of the first guide frame 44 and the second guide frame 46. A first fixing rod 33 and a second fixing rod 34 are fixed on both sides of the length direction of the two guide components 31, and the outer wall dimensions of the first fixing rod 33 and the second fixing rod 34 are slidably adapted to the width of the narrow slits. The length of the first fixing rod 33 is greater than the length of the second fixing rod 34. The first fixing rod 33 and the second fixing rod 34 are respectively set in the narrow slits of the first guide frame 44 and the second guide frame 46, so that when the first guide frame 44 rotates, the second fixing rod 34 drives the guide component 31 corresponding to the second fixing rod 34 to move up and down. When the second guide frame 46 rotates, the first fixing rod 33 drives the guide component 31 corresponding to the first fixing rod 33 to move up and down.
[0048] Please see Figure 6As shown, both the first guide frame 44 and the second guide frame 46 are U-shaped, and the inner wall dimension of the second guide frame 46 is larger than the outer wall dimension of the first guide frame 44. This design allows the movement trajectories of the first guide frame 44 and the second guide frame 46 to be staggered, thereby avoiding collisions between them.
[0049] Please see Figure 3-5 As shown, the stop component 45 includes a pull rod 451, a stop block 452, and an elastic element 453, wherein:
[0050] The pull rod 451 slides through the fixed seat 41, and the stop block 452 is fixedly installed on the end of the pull rod 451 facing the inside of the fixed seat 41. The elastic element 453 is sleeved on the pull rod 451 and fixedly connected to the fixed seat 41 and the stop block 452. When there is no external force, the stop block 452 will move towards the ratchet 43 under the push of the elastic element 453, so as to achieve the function of locking the ratchet 43 and restricting the rotation of the ratchet 43. When it is necessary to adjust the tilt angle of the first guide frame 44 and the second guide frame 46, the pull rod 451 can be pulled to drive the stop block 452 to move away from the ratchet 43, thereby releasing the restriction on the rotation of the ratchet 43.
[0051] Please see Figure 1-5 As shown, the support component 12 includes a support rod 121 and a stop plate 122, wherein:
[0052] The support rod 121 is installed on the outer periphery of the retaining ring 11, and the abutment plate 122 is fixed to the other end of the support rod 121. The abutment plate 122 is plate-shaped to increase the contact area with the ground soil, so as to prevent the support structure 1 from tilting relative to the ground when used in uneven ground conditions, thereby maintaining the support structure 1 at the same level as the ground.
[0053] Please see Figure 1-5 As shown, the support rod 121 is inclined, and the abutment plate 122 has a vertical perforation 1221 inside; the inclined arrangement of the support rod 121 can keep the abutment plate 122 at the bottom of the support rod 121 away from the roots of the flower seedling, thereby preventing the abutment plate 122 from affecting the flower seedling's absorption of sunlight and nutrients.
[0054] As a further description of the above solution, when the flower seedlings are located in containers such as flowerpots, the stability of the support structure 1 can be improved by having the outer periphery of the abutment plate 122 abut against the inner wall of the container. If the flower seedlings are growing in a large-scale cultivation container or field, the gripping force of the support structure 1 can be enhanced by inserting a pin structure (not shown in the figure) into the perforation 1221 of the abutment plate 122, thereby enhancing the stability of the support structure 1 in another way. Since the abutment plate 122 is moved away from the roots of the flower seedlings by the support rod 121, the process of inserting the pin structure will not damage the roots and stems of the flower seedlings.
[0055] Please see Figure 6 As shown, the guide component 31 includes a second movable seat 311 and a second soft pad 312, wherein:
[0056] The second movable seat 311 is installed on the top of the insertion rod 32 and located above the first movable seat 22. The second soft pad 312 is fixed on the opposite side of the two second movable seats 311. This allows the combination of the two second movable seats 311 to protect the stem of the flower seedling, thereby facilitating the upright growth of the stem of the flower seedling. In addition, the second soft pad 312 can prevent the first movable seat 22 from damaging the stem of the flower seedling.
[0057] Please see Figure 2 and Figure 6 As shown, the inner sides of the first movable seat 22 and the second movable seat 311 are both semi-circular. After the positions of the first movable seat 22 and the second movable seat 311 are fixed, they are coaxial with the retaining ring 11. This is so that when the device is installed stably, the two first movable seats 22 can be used to surround and limit the bottom of the flower seedling to prevent the flower seedling from tipping over. In conjunction with the two second movable seats 311, the two movable seats 311 can surround and limit the stem of the flower seedling to keep the flower seedling upright, thereby allowing the flower seedling to grow vertically.
[0058] Please see Figure 1-3 As shown, the first movable seat 22 has several vertically opened insertion holes 221, and the insertion rod 32 is slidably adapted to the insertion holes 221; this allows the insertion rod 32 to pass through the insertion holes 221 into the first movable seat 22, thereby using the sliding of the insertion rod 32 in the insertion holes 221 to restrict the lateral movement of the second movable seat 311, so that it can only move vertically, thereby better maintaining the uprightness of the flower seedling.
[0059] The working process of the above-mentioned flower seedling fixing device is as follows:
[0060] When using this seedling fixing device, the position of the support structure 1 needs to be adjusted so that the two retaining rings 11 surround the outside of the seedling. If the seedling is in a container such as a flowerpot, the stability of the support structure 1 can be improved by having the outer periphery of the abutment plate 122 contact the inner wall of the container. If the seedling is growing in a large cultivation container or field, the gripping force of the support structure 1 can be enhanced by inserting a pin structure into the perforation 1221 of the abutment plate 122, thus enhancing the stability of the support structure 1 in another way.
[0061] Then, the swing rod 21 needs to be rotated to drive the two first movable seats 22 to move closer to the bottom of the stem of the flower seedling, and the two first movable seats 22 are joined together by the bolts 24 and nuts 25, so as to realize the enclosure and limit of the bottom of the stem of the flower seedling and prevent the flower seedling from tipping over.
[0062] Then, the insertion rod 32 on the guide component 31 can be inserted into the first movable seat 22 through the insertion hole 221 to restrict the lateral movement of the second movable seat 311. Then, the positions of the first guide frame 44 and the second guide frame 46 need to be adjusted to drive the two second movable seats 311 to move up and down. Before the first guide frame 44 and the second guide frame 46 rotate, the pull rod 451 needs to be pulled to drive the stop block 452 to move away from the ratchet 43 to release the rotation restriction on the ratchet 43. Then, the first guide frame 44 and the second guide frame 46 can be rotated to adjust the position of the second movable seat 311.
[0063] When the second movable seat 311 is located on the stem of the flower seedling with no stem branches or few stem branches, the pull rod 451 can be released, so that the stop block 452 is pushed by the elastic element 453 to move towards the ratchet 43, so as to achieve the function of locking the ratchet 43 and restricting the rotation of the ratchet 43, so that the two second movable seats 311 surround the outside of the stem of the flower seedling to maintain the verticality of the stem of the flower seedling, thereby allowing the stem of the flower seedling to grow upright.
[0064] Although the present invention has been disclosed above, its protection scope is not limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of this disclosure, and all such changes and modifications will fall within the protection scope of this invention.
Claims
1. A device for fixing flower seedlings, characterized in that, include: The support structure (1) includes two horizontally symmetrically arranged retaining rings (11), a connecting rod (13) fixedly installed between the two retaining rings (11), and a plurality of support components (12) fixed on the outer periphery of the retaining rings (11), wherein the support components (12) are evenly arranged on the outer periphery of the retaining rings (11); The anti-tipping structure (2) includes a swing rod (21) fitted on the connecting rod (13), a first movable seat (22) fixed on the side of the swing rod (21) away from the connecting rod (13), a first soft pad (23) installed on the opposite side of the two first movable seats (22), a bolt (24) slidably inserted in the first movable seat (22), and a nut (25) threaded on the bolt (24). The two first movable seats (22) are symmetrically arranged, and the first movable seat (22) has a horizontally opened mounting hole that matches the size of the bolt (24). The straightening structure (3) includes several vertically sliding insert rods (32) that slide through the first movable seat (22) and guide components (31) fixedly installed on the top of the insert rods (32) and respectively corresponding to the positions of the two first movable seats (22). The two guide components (31) are symmetrically arranged. Adjustment structure (4) is used to adjust the height of the straightening structure (3).
2. The flower seedling fixing device according to claim 1, characterized in that, The adjustment structure (4) includes a fixed seat (41) mounted on the top surface of the retaining ring (11) and located directly above the connecting rod (13), a rotating shaft (42) fixedly mounted inside the fixed seat (41), a ratchet (43) rotatably mounted on the rotating shaft (42), a stop component (45) mounted inside the fixed seat (41), and a first guide frame (44) and a second guide frame (46) respectively mounted on the two rotating shafts (42). The first guide frame (44) and the second guide frame (46) are respectively arranged on both sides of the width direction of the two ratchet (43).
3. The flower seedling fixing device according to claim 2, characterized in that, The first guide frame (44) and the second guide frame (46) are provided with narrow slits in the width direction. The two guide components (31) are respectively fixed with a first fixing rod (33) and a second fixing rod (34) on both sides in the length direction. The outer wall dimensions of the first fixing rod (33) and the second fixing rod (34) are slidably adapted to the width of the narrow slits. The length of the first fixing rod (33) is greater than the length of the second fixing rod (34).
4. The flower seedling fixing device according to claim 3, characterized in that, Both the first guide frame (44) and the second guide frame (46) are U-shaped, and the inner wall dimension of the second guide frame (46) is larger than the outer wall dimension of the first guide frame (44).
5. The flower seedling fixing device according to claim 2, characterized in that, The stop component (45) includes a pull rod (451) that slides through the fixed seat (41), a stop block (452) fixed to one end of the pull rod (451) facing the inside of the fixed seat (41), and an elastic element (453) sleeved on the pull rod (451) and fixedly connected to the fixed seat (41) and the stop block (452).
6. The flower seedling fixing device according to claim 1, characterized in that, The support component (12) includes a support rod (121) installed on the outer periphery of the retaining ring (11) and a stop plate (122) fixed to the other end of the support rod (121).
7. The flower seedling fixing device according to claim 6, characterized in that, The support rod (121) is inclined, and the abutment plate (122) has a vertical perforation (1221) inside.
8. The flower seedling fixing device according to claim 1, characterized in that, The guide component (31) includes a second movable seat (311) mounted on top of the insert (32) and located above the first movable seat (22) and a second soft pad (312) fixed on opposite sides of the two second movable seats (311).
9. The flower seedling fixing device according to claim 8, characterized in that, The inner sides of the first movable seat (22) and the second movable seat (311) are both semi-circular, and after the positions of the first movable seat (22) and the second movable seat (311) are fixed, they are coaxial with the retaining ring (11).
10. The flower seedling fixing device according to claim 1, characterized in that, The first movable seat (22) has a plurality of vertically arranged insertion holes (221), and the insertion rod (32) is slidably adapted to the insertion holes (221).