Combined double-layer water storage ceramic flowerpot

Abstract

The utility model discloses a combined double -deck water storage ceramic flowerpot, including bottom basin and upper basin, the bottom basin is connected with the upper basin through the limiting mechanism, the bottom basin bottom is equipped with a plurality of even distribution's support block, the bottom basin outer wall is equipped with the water adding pipe, be equipped with the filter screen in the bottom basin, the upper basin bottom end is equipped with a plurality of even distribution's water hole. Advantageous effects: through setting limiting mechanism can quickly to bottom basin and upper basin are disassembled and are installed the position, and limiting mechanism is through connecting rod and reset spring and is inserted into the bolt position to the upper basin, and the position is reliable, prevents bottom basin and upper basin in the moving process and appears automatic separation, improves its security.

Description

Technical Field

[0001] This utility model relates to the field of flower pot technology, specifically to a combined double-layer water-storing ceramic flower pot. Background Technology

[0002] A flowerpot is a container used for planting flowers, typically shaped like an inverted frustum or truncated pyramid with a wide mouth and a narrow base. Flowerpots come in various forms and sizes. Flower growers and enthusiasts can choose flowerpots based on the characteristics and needs of their plants, as well as the features of the pot itself. Depending on the materials used in their construction, flowerpots can be categorized into many types.

[0003] According to Chinese Patent CN202222206419.5, a combined double-layer water-storage ceramic flowerpot is designed with an inner pot inside an outer pot. A supporting and limiting mechanism ensures the stability of the inner pot. By pulling the limiting frame, the inner pot can be removed from the outer pot, facilitating separation of the two pots. In case of damage, either the inner or outer pot can be replaced, simplifying flowerpot maintenance, reducing usage costs, and providing significant convenience to users. Existing combined double-layer water-storage ceramic flowerpots suffer from unreliable positioning between the pots, making them prone to separation and falling during movement, resulting in low safety.

[0004] No effective solutions have yet been proposed to address the problems in the relevant technologies. Utility Model Content

[0005] In view of the problems in the related technologies, this utility model proposes a combined double-layer water-storing ceramic flower pot to overcome the above-mentioned technical problems existing in the existing related technologies.

[0006] Therefore, the specific technical solution adopted by this utility model is as follows:

[0007] A combined double-layer water-storing ceramic flower pot includes a bottom pot and an upper pot. The bottom pot is connected to the upper pot through a limiting mechanism. The bottom of the bottom pot is provided with several evenly distributed support blocks. The outer wall of the bottom pot is provided with a water inlet pipe. The bottom pot is provided with a filter screen. The bottom of the upper pot is provided with several evenly distributed water passage holes.

[0008] Preferably, a stirring shaft is provided in the bottom basin and at the bottom end of the filter screen. The outer wall of the stirring shaft is fitted with a plurality of evenly distributed stirring blades, and the bottom end of the stirring shaft extends to the outside of the bottom basin and is connected to the motor drive end.

[0009] Preferably, a sealing sleeve is provided at the connection between the stirring shaft and the bottom basin.

[0010] Preferably, the top of the water inlet pipe is provided with a matching pipe cap.

[0011] Preferably, the bottom of the upper basin is provided with a sealing gasket, the bottom basin is provided with a sealing groove that matches the sealing gasket, and the top of the upper basin is provided with symmetrically arranged lifting rings.

[0012] Preferably, the limiting mechanism includes symmetrically arranged mounting sleeves on the outer wall of the base basin, a connecting rod in the mounting sleeve, a pressure block matching the mounting sleeve fixedly sleeved on the outer wall of the connecting rod, a return spring sleeved on one side of the pressure block and on the outer wall of the connecting rod, one side of the connecting rod extending into the base basin, a limiting groove matching the connecting rod being opened on the outer wall of the upper basin, and the side of the connecting rod away from the limiting groove extending out of the mounting sleeve.

[0013] Preferably, the base basin and the mounting sleeve are provided with sliding holes that match the connecting rod, the outer wall of the upper basin is provided with symmetrically arranged positioning posts, and the base basin is provided with positioning grooves that match the positioning posts.

[0014] The beneficial effects of this utility model are as follows: by setting a limiting mechanism, the bottom basin and the top basin can be quickly disassembled and limited. The limiting mechanism uses a connecting rod and a return spring to limit the top basin with a pin, which is reliable and prevents the bottom basin and the top basin from automatically separating during movement, thus improving their safety. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of the overall structure of a combined double-layer water-storing ceramic flowerpot according to an embodiment of the present utility model;

[0017] Figure 2 This is a front view of a combined double-layer water-storing ceramic flowerpot according to an embodiment of the present utility model;

[0018] Figure 3 This is a right view of a combined double-layer water-storing ceramic flowerpot according to an embodiment of the present utility model;

[0019] Figure 4 This is a cross-sectional view of a combined double-layer water-storing ceramic flowerpot according to an embodiment of the present utility model.

[0020] In the picture:

[0021] 1. Base basin; 2. Upper basin; 3. Support block; 4. Water inlet pipe; 5. Water inlet hole; 6. Stirring shaft; 7. Stirring blade; 8. Motor; 9. Pipe cover; 10. Sealing gasket; 11. Sealing groove; 12. Lifting ring; 13. Mounting sleeve; 14. Connecting rod; 15. Pressure block; 16. Return spring; 17. Limiting groove; 18. Positioning column; 19. Filter screen. Detailed Implementation

[0022] To further illustrate the various embodiments, the present invention provides accompanying drawings, which are part of the disclosure of the present invention. These drawings are mainly used to illustrate the embodiments and can be used in conjunction with the relevant descriptions in the specification to explain the operating principles of the embodiments. With reference to these contents, those skilled in the art should be able to understand other possible implementation methods and the advantages of the present invention. The components in the figures are not drawn to scale, and similar component symbols are usually used to represent similar components.

[0023] According to an embodiment of the present invention, a combined double-layer water-storing ceramic flowerpot is provided.

[0024] Example 1;

[0025] like Figure 1-4 As shown, the combined double-layer water-storing ceramic flower pot according to an embodiment of the present utility model includes a bottom pot 1 and an upper pot 2. The bottom pot 1 is connected to the upper pot 2 through a limiting mechanism. The bottom end of the bottom pot 1 is provided with a plurality of evenly distributed support blocks 3. The outer wall of the bottom pot 1 is provided with a water inlet pipe 4. The bottom pot 1 is provided with a filter screen 19. The bottom end of the upper pot 2 is provided with a plurality of evenly distributed water passage holes 5.

[0026] Example 2;

[0027] like Figure 1-4 As shown, the device includes a base basin 1 and an upper basin 2. The base basin 1 is connected to the upper basin 2 via a limiting mechanism. The bottom of the base basin 1 has several evenly distributed support blocks 3. A water inlet pipe 4 is provided on the outer wall of the base basin 1. A filter screen 19 is provided inside the base basin 1. Several evenly distributed water passage holes 5 are opened at the bottom of the upper basin 2. A stirring shaft 6 is located in the base basin 1, at the bottom end of the filter screen 19. Several evenly distributed stirring blades 7 are fitted onto the outer wall of the stirring shaft 6. The bottom end of the stirring shaft 6 extends outside the base basin 1 and connects to the drive end of a motor 8. A sealing sleeve is provided at the connection between the stirring shaft 6 and the base basin 1. A matching pipe cap 9 is provided at the top of the water inlet pipe 4. When water needs to be added to the bottom basin 1, open the pipe cover 9 and pour the water into the bottom basin 1 through the water inlet pipe 4. When nutrients need to be added to the water, pour the nutrients into the water and move the water inlet pipe 4 to pour them into the bottom basin 1. Start the motor 8 to drive the stirring shaft 6 to rotate. The stirring shaft 6 drives the stirring blade 7 to rotate to stir and mix the nutrients and water, preventing the nutrients from settling and affecting the absorption of the plant roots and stems.

[0028] Example 3;

[0029] like Figure 1-4 As shown, the device includes a base basin 1 and an upper basin 2. The base basin 1 is connected to the upper basin 2 via a limiting mechanism. The bottom of the base basin 1 has several evenly distributed support blocks 3. The outer wall of the base basin 1 has a water inlet pipe 4. The base basin 1 contains a filter screen 19. The bottom of the upper basin 2 has several evenly distributed water passage holes 5. The bottom of the upper basin 2 has a sealing gasket 10. The base basin 1 has a sealing groove 11 that matches the sealing gasket 10. The top of the upper basin 2 has symmetrically arranged lifting rings 12. The limiting mechanism includes symmetrically arranged mounting sleeves 13 on the outer wall of the base basin 1. A connecting rod 14 is provided within the mounting sleeve 13. A pressure block 15 matching the mounting sleeve 13 is fixedly fitted onto the outer wall of the connecting rod 14. A return spring 16 is fitted onto one side of the pressure block 15 and located on the outer wall of the connecting rod 14. One side of the connecting rod 14 extends into the base basin 1. A limiting groove 17 matching the connecting rod 14 is formed on the outer wall of the upper basin 2. The side of the connecting rod 14 away from the limiting groove 17 extends out of the mounting sleeve 13. Sliding holes matching the connecting rod 14 are formed on the base basin 1 and the mounting sleeve 13. Positioning posts 18 are symmetrically arranged on the outer wall of the upper basin 2. Positioning grooves matching the positioning posts 18 are formed on the base basin 1. When connecting the base basin 1 and the upper basin 2, first pull the connecting rod 14 outwards from the base basin 1, causing the connecting rod 14 to move from inside the base basin 1. At this time, the return spring 16 is in a compressed state. Then, guide the upper basin 2 into the base basin 1 through the positioning pin 18. Then release the connecting rod 14. At this time, the return spring 16 returns to its original position, causing the connecting rod 14 to enter the base basin 1 and insert into the upper limit groove 17 of the upper basin 2 to complete the limit. By setting the limit mechanism, the base basin and the upper basin can be quickly disassembled and limited. The limit mechanism limits the upper basin with a pin through the connecting rod and the return spring. The limit is reliable and prevents the base basin and the upper basin from automatically separating during movement, thus improving its safety.

[0030] In practical applications, when water needs to be added to the bottom basin 1, open the cap 9 and pour the water into the bottom basin 1 through the water inlet pipe 4. When nutrients need to be added to the water, pour the nutrients into the water and move the water inlet pipe 4 to pour them into the bottom basin 1. Start the motor 8 to drive the stirring shaft 6 to rotate. The stirring shaft 6 drives the stirring blades 7 to rotate and mix the nutrients and water, preventing the nutrients from settling and affecting the absorption of the plant roots and stems. When connecting the bottom basin 1 and the upper basin 2, first pull the connecting rod 14 outward from the bottom basin 1 so that the connecting rod 14 is inside the bottom basin 1. During the movement, the return spring 16 is compressed, and the upper basin 2 is guided and fitted into the lower basin 1 by the positioning pin 18. Then, the connecting rod 14 is released, and the return spring 16 returns to its original position, causing the connecting rod 14 to enter the lower basin 1 and insert into the upper basin 2's upper limit groove 17 to complete the limit. By setting the limit mechanism, the lower basin and upper basin can be quickly disassembled and limited. The limit mechanism uses the connecting rod and the return spring to limit the upper basin with a pin, ensuring a reliable limit and preventing the lower basin and upper basin from automatically separating during movement, thus improving safety.

[0031] In summary, by means of the above-mentioned technical solution of this utility model, the bottom basin and the top basin can be quickly disassembled and positioned by setting a limiting mechanism. The limiting mechanism uses a connecting rod and a return spring to pin-limit the top basin, which is reliable and prevents the bottom basin and the top basin from automatically separating during movement, thereby improving its safety.

[0032] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A combined double-layer water-storing ceramic flowerpot, characterized in that, It includes a bottom basin (1) and an upper basin (2). The bottom basin (1) is connected to the upper basin (2) through a limiting mechanism. The bottom of the bottom basin (1) is provided with several evenly distributed support blocks (3). The outer wall of the bottom basin (1) is provided with a water inlet pipe (4). The bottom basin (1) is provided with a filter screen (19). The bottom of the upper basin (2) is provided with several evenly distributed water passage holes (5).

2. The combined double-layer water-storage ceramic flowerpot according to claim 1, characterized in that, A stirring shaft (6) is provided in the bottom basin (1) and at the bottom end of the filter screen (19). A number of evenly distributed stirring blades (7) are sleeved on the outer wall of the stirring shaft (6). The bottom end of the stirring shaft (6) extends to the outside of the bottom basin (1) and is connected to the drive end of the motor (8).

3. A combined double-layer water-storage ceramic flowerpot according to claim 2, characterized in that, A sealing sleeve is provided at the connection between the stirring shaft (6) and the bottom basin (1).

4. A combined double-layer water-storage ceramic flowerpot according to claim 1, characterized in that, The top of the water supply pipe (4) is provided with a matching pipe cap (9).

5. A combined double-layer water-storage ceramic flowerpot according to claim 1, characterized in that, The upper basin (2) is provided with a sealing gasket (10) at the bottom, and the bottom basin (1) is provided with a sealing groove (11) that matches the sealing gasket (10). The upper basin (2) is provided with symmetrically arranged lifting rings (12) at the top.

6. A combined double-layer water-storage ceramic flowerpot according to claim 1, characterized in that, The limiting mechanism includes symmetrically arranged mounting sleeves (13) on the outer wall of the base (1), a connecting rod (14) in the mounting sleeve (13), a pressure block (15) matching the mounting sleeve (13) fixedly sleeved on the outer wall of the connecting rod (14), a return spring (16) sleeved on one side of the pressure block (15) and on the outer wall of the connecting rod (14), one side of the connecting rod (14) extends into the base (1), a limiting groove (17) matching the connecting rod (14) is opened on the outer wall of the upper basin (2), and the side of the connecting rod (14) away from the limiting groove (17) extends out of the mounting sleeve (13).

7. A combined double-layer water-storage ceramic flowerpot according to claim 6, characterized in that, The bottom basin (1) and the mounting sleeve (13) are provided with sliding holes that match the connecting rod (14). The outer wall of the upper basin (2) is provided with symmetrically arranged positioning posts (18). The bottom basin (1) is provided with positioning grooves that match the positioning posts (18).

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