CN112715211B - Planting pot capable of automatically adding nutrient solution at regular intervals - Google Patents

Abstract

The invention relates to a planting pot, in particular to a planting pot capable of automatically adding nutrient solution at regular intervals. The invention aims to solve the technical problem of providing a planting pot which can rotate plants, blow the plants, accelerate the growth speed of the plants, and automatically add nutrient solution at regular intervals without manual watering. In order to solve the technical problems, the invention provides a planting pot capable of automatically adding nutrient solution at regular intervals, which comprises a bottom plate, a bottom plate and a plurality of guide brackets, wherein the top of the bottom plate is provided with an annular guide sliding frame; the support frame is rotationally connected to the annular guide sliding frame; a flowerpot placed on the support frame; a rotation mechanism mounted at the bottom of the base plate; and the material-presenting mechanism is connected to one side of the bottom plate. According to the invention, the rotating mechanism and the material-presenting mechanism can be used for adding nutrient solution to plants in the flowerpot, and the flowerpot rotates to enable the plants to uniformly receive sunlight for bathing, so that the plants grow better.

Description

Planting pot capable of automatically adding nutrient solution at regular intervals

Technical Field

The invention relates to a planting pot, in particular to a planting pot capable of automatically adding nutrient solution at regular intervals.

Background

The patent publication number is searched: CN111528075a discloses a water planting flowerpot from adding nutrient solution, which comprises a basin body, the internal water planting chamber of having seted up of basin, a plurality of thread grooves have been seted up to annular equidistance on the lateral wall of the basin body, every the nutrition bottle is all installed to the thread inslot, every the return bend is all inserted to the tank bottom of thread groove, and a plurality of the liquid feeding pipe is installed jointly to the one end that the thread groove was kept away from to the return bend, slidable mounting has the plug in the liquid feeding pipe, the control tube is installed to the lower extreme of plug, sealed mounting has an adjustment cylinder on the interior diapire in water planting chamber, it is equipped with annular semipermeable membrane to inlay on the lateral wall of adjustment cylinder, it has standard liquid to inject into in the adjustment cylinder, the lower extreme of control tube extends to in the adjustment cylinder and the fixed cover is equipped with the mount, the kickplate is installed to the lower extreme of mount, and sealed sliding connection between control tube and the adjustment cylinder.

The technical scheme can add nutrient solution to plants, but can not rotate the plants, can not ensure even illumination of the plants, can not blow the plants, and easily causes slow growth speed of the plants. And the plants need to be watered manually, so that the labor intensity is high.

Therefore, the design of the planting pot which can rotate plants and blow the plants to accelerate the growth speed of the plants, does not need to be watered manually and can automatically add nutrient solution at regular intervals has important significance.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the existing planting pot cannot rotate plants, cannot guarantee even illumination of the plants, cannot blow the plants and is easy to cause low growth speed of the plants.

(2) Technical proposal

In order to solve the technical problems, the invention provides a planting pot capable of automatically adding nutrient solution at regular intervals, which comprises: a bottom plate, the top of which is provided with an annular guide rack; the support frame is rotationally connected to the annular guide sliding frame; a flowerpot placed on the support frame; a rotation mechanism mounted at the bottom of the base plate; and the material-presenting mechanism is connected to one side of the bottom plate.

Further, the rotary mechanism comprises: the first fixing frame is arranged at the top of the bottom plate; a low-speed motor mounted on the first mount; and the rotating shaft is connected to the output shaft of the low-speed motor, and the top end of the rotating shaft is connected with the bottom of the supporting frame.

Further, the feed mechanism includes: the first guide sliding frame is connected to the top of the bottom plate; the second fixing frame is connected to the second fixing frame in a sliding mode; the hopper is connected to the top of the second fixing frame; a strip-shaped pipe connected to one side of the bottom of the hopper; a stopper slidably connected to the strip-shaped pipe; the top block is connected to the top of the supporting frame; the third fixing frame is connected to the bottom of the strip-shaped pipe; the first connecting shaft is rotationally connected to the third fixing frame; the second guide sliding frame is connected to the first connecting shaft and is in sliding fit with the stop block; and the first spring is connected between the second guide sliding frame and the third fixing frame.

Further, still include rabbling mechanism, rabbling mechanism is including: the fourth fixing frame is connected to the bottom plate; the cylinder is arranged on the fourth fixing frame; the first rack is connected to the telescopic rod of the air cylinder; a first fixing plate connected to the base plate; a first spur gear rotatably connected to the first spur gear; the third guide sliding frame is fixedly connected to the upper part of the first fixed plate; the second rack is connected to the third guide sliding rack in a sliding manner, and the second rack and the first rack are meshed with the first straight gear; and a stirrer connected to the top of the second rack.

Further, still include spraying mechanism, spraying mechanism includes: a sector gear connected to the top of the support frame; a fifth fixing frame installed on the top of the bottom plate; the second connecting shaft is rotationally connected to the fifth fixing frame; the second straight gear is connected to one end of the second connecting shaft and meshed with the sector gear; the sixth fixing frame is fixedly connected to the fifth fixing frame; the piston cylinder pumping assembly is arranged on the sixth fixing frame; the bevel gear set is connected between the crankshaft of the piston cylinder pumping assembly and the bottom end of the second connecting shaft; and the spray pipe is connected with the water outlet end of the piston cylinder water pumping assembly.

Further, still include screens mechanism, screens mechanism is including: the limiting frame is connected to the fifth fixing frame; the guide post is connected to the limiting frame in a sliding mode, the eccentric position at the top of the second spur gear is provided with the guide post, and the second spring is connected between the guide post and the limiting frame.

Further, still include moving mechanism, moving mechanism includes: the third spring is connected between the first guide sliding frame and the second fixing frame; a third rack connected to a lower portion of the second rack; the second fixing plate is connected to one side of the top of the bottom plate; the third connecting shaft is rotationally connected to the top of the second fixing plate; a cylindrical gear connected to the third connecting shaft; a fourth guide carriage connected to the top of the second fixing plate; and the fourth rack frame is connected with the fourth guide sliding frame in a sliding manner, the fourth rack frame is connected with the second fixing frame, and the fourth rack frame and the third rack frame are meshed with the cylindrical gear.

Further, the device also comprises a drainage mechanism, wherein the drainage mechanism comprises; a seventh fixing frame connected to the support frame; the water receiving funnel is connected to the seventh fixing frame; and a valve installed at the lower part of the water receiving funnel.

(3) Advantageous effects

1. According to the invention, the rotating mechanism and the material-presenting mechanism can be used for adding nutrient solution to plants in the flowerpot, and the flowerpot rotates to enable the plants to uniformly receive sunlight for bathing, so that the plants grow better.

2. Can mix the nutrient solution through rabbling mechanism and moving mechanism, avoid the material to deposit, guarantee the nutrition effect of nutrient solution to can drive the second mount automatically and remove left and right sides, do not need the manual work to promote the second mount, reduce artificial intensity of labour.

3. Can spray water to the plant through spraying mechanism and screens mechanism, do not need artifical manual water spray, further reduced artificial intensity of labour, can blow the plant moreover, can accelerate the growth of little sapling, carry out photosynthesis more fast.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of the rotary mechanism and the drainage mechanism of the present invention.

Fig. 4 is a schematic perspective view of a first part of the feeding mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a second part of the feeding mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 7 is a schematic perspective view of a detent mechanism of the present invention.

Fig. 8 is a schematic view of a part of a moving mechanism of the present invention.

The marks in the drawings are: 1-bottom plate, 2-annular guide carriage, 3-supporting frame, 4-flowerpot, 5-rotating mechanism, 51-first fixing frame, 52-low speed motor, 53-rotating shaft, 6-feeding mechanism, 61-first guide carriage, 62-second fixing frame, 63-hopper, 64-strip pipe, 65-stopper, 66-top block, 67-third fixing frame, 68-first connecting shaft, 69-second guide carriage, 610-first spring, 7-stirring mechanism, 71-fourth fixing frame, 72-cylinder, 73-first rack, 74-first fixing plate, 75-first straight gear, 76-third guide carriage, 77-second rack, 78-stirrer, 8-spraying mechanism, 81-sector gear, 82-fifth mount, 83-second connecting shaft, 84-second spur gear, 85-bevel gear set, 86-sixth mount, 87-piston cylinder pumping assembly, 88-spraying tube, 9-clamping mechanism, 91-limit frame, 92-guide post, 93-second spring, 10-moving mechanism, 1001-third spring, 1002-third rack, 1003-second fixed plate, 1004-third connecting shaft, 1005-cylindrical gear, 1006-fourth guide carriage, 1007-fourth rack, 11-drainage mechanism, 1101-seventh mount, 1102-water receiving funnel, 1103-valve.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a can regularly add planting basin of nutrient solution automatically, as shown in fig. 1 through 5, including bottom plate 1, annular guide frame 2, support frame 3, flowerpot 4, rotary mechanism 5 and feed mechanism 6, annular guide frame 2 is installed at the top of bottom plate 1, is connected with support frame 3 on the annular guide frame 2 rotationally, and flowerpot 4 has been placed at the top of support frame 3, installs rotary mechanism 5 between bottom plate 1 and the support frame 3, and feed mechanism 6 is installed in the top left side of bottom plate 1.

The rotating mechanism 5 comprises a first fixing frame 51, a low-speed motor 52 and a rotating shaft 53, the first fixing frame 51 is arranged at the top of the bottom plate 1, the low-speed motor 52 is arranged on the first fixing frame 51, the rotating shaft 53 is connected to an output shaft of the low-speed motor 52, and the top end of the rotating shaft 53 is connected with the bottom of the supporting frame 3.

The material feeding mechanism 6 comprises a first guide frame 61, a second fixing frame 62, a material hopper 63, a strip-shaped pipe 64, a stop block 65, a top block 66, a third fixing frame 67, a first connecting shaft 68, a second guide frame 69 and a first spring 610, wherein the first guide frame 61 is arranged on the left side of the top of the bottom plate 1, the second fixing frame 62 is connected with the first guide frame 61 in a sliding manner, the material hopper 63 is connected with the right side of the top of the second fixing frame 62, the strip-shaped pipe 64 is connected with the stop block 65 in a sliding manner, the top of the support frame 3 is uniformly and alternately connected with four top blocks 66, the bottom of the strip-shaped pipe 64 is connected with the third fixing frame 67, the tail end of the third fixing frame 67 is rotationally connected with the first connecting shaft 68, the second guide frame 69 is in sliding fit with the stop block 65, and the first spring 610 is connected between the second guide frame 69 and the third fixing frame 67.

Plants are planted in the flowerpot 4, nutrient solution is poured into the hopper 63, the stop block 65 can block the strip-shaped pipe 64, nutrient solution is prevented from flowing out of the strip-shaped pipe 64, when the nutrient solution is required to be added to the flowerpot 4, the low-speed motor 52 can be started to drive the support frame 3 to rotate on the annular guide frame 2, the flowerpot 4 rotates along with the support frame, the second guide frame 69 is driven to swing by taking the first connecting shaft 68 as the axis when the top block 66 rotates, the second guide frame 69 swings to drive the stop block 65 to move outwards, so that the nutrient solution in the hopper 63 flows out through a gap between the strip-shaped pipe 64 and the stop block 65, and the flowing nutrient solution drops in the flowerpot 4, so that the nutrient solution can be added to plants in the flowerpot 4, when the top block 66 is not contacted with the second guide frame 69, the second guide frame 69 is driven to reset under the action of the first spring 610, the stop block 65 is reset to block the strip-shaped pipe 64 accordingly, the nutrient solution in the hopper 63 is prevented from flowing out, even nutrient solution addition to plants in the flowerpot 4 can be realized, and manual addition is not required. When the nutrient solution is not needed to be added to the flowerpot 4, the second fixing frame 62 is pulled to move leftwards, so that the supporting frame 3 can not contact with the second guide sliding frame 69 when driving the top block 66 to rotate, the nutrient solution in the hopper 63 can not flow out, the flowerpot 4 can continuously rotate to enable plants to uniformly receive the sunlight for bathing, and the plants can grow better.

Example 2

On the basis of embodiment 1, as shown in fig. 3, 6 and 7, the stirring mechanism 7 further comprises a stirring mechanism 7, wherein the stirring mechanism 7 comprises a fourth fixing frame 71, an air cylinder 72, a first rack 73, a first fixing plate 74, a first straight gear 75, a third guide rack 76, a second rack 77 and a stirrer 78, the fourth fixing frame 71 and the first fixing plate 74 are arranged on the left front side of the top of the bottom plate 1, the first fixing plate 74 is positioned on the rear side of the fourth fixing frame 71, the air cylinder 72 is arranged on the fourth fixing frame 71, the first rack 73 is connected to a telescopic rod of the air cylinder 72, the top of the first fixing plate 74 is rotatably connected to a first straight gear 75, the first fixing plate 74 is connected to a third guide rack 76, the third guide rack 76 is connected to a second rack 77 in a sliding mode, both the second rack 77 and the first rack 73 are meshed with the first straight gear 75, and the stirrer 78 is connected to the top of the second rack 77.

Initially, the agitator 78 is located in the hopper 63, when the nutrient solution needs to be stirred, the agitator 78 is started to work to stir the nutrient solution in the hopper 63, when the second fixing frame 62 needs to be moved left, the air cylinder 72 can be started to shorten and drive the first rack 73 to move downwards, the first rack 73 moves downwards and drives the second rack 77 to move upwards through the first straight gear 75, so that the agitator 78 can be moved out of the hopper 63, then the second fixing frame 62 can be pulled to move left manually, when the hopper 63 is located right below the agitator 78 again, the air cylinder 72 can be started to extend and drive the agitator 78 to move downwards, so that the nutrient solution in the hopper 63 can be mixed, substance precipitation is avoided, and the nutrient effect of the nutrient solution is ensured.

The spraying mechanism 8 comprises a sector gear 81, a fifth fixing frame 82, a second connecting shaft 83, a second spur gear 84, a bevel gear group 85, a sixth fixing frame 86, a piston cylinder pumping assembly 87 and a spraying pipe 88, the sector gear 81 is horizontally arranged at the top of the supporting frame 3, the fifth fixing frame 82 is arranged on the right side of the top of the bottom plate 1, the second connecting shaft 83 is rotationally connected to the fifth fixing frame 82, the second spur gear 84 is meshed with the sector gear 81, the sixth fixing frame 86 is connected to the middle of the fifth fixing frame 82, the bevel gear group 85 is arranged between the crankshaft of the piston cylinder pumping assembly 87 and the bottom end of the second connecting shaft 83, and the water outlet end of the piston cylinder pumping assembly 87 is connected with the spraying pipe 88.

The water tank with water is placed on the bottom plate 1, the water inlet end of the piston cylinder water pumping assembly 87 is connected with a hose and is placed in the water tank, when the supporting frame 3 rotates, the sector gear 81 is driven to rotate, when the sector gear 81 is meshed with the second straight gear 84, the sector gear 81 rotates to drive the second straight gear 84 to rotate, the second straight gear 84 rotates to drive the second connecting shaft 83 to rotate, the piston cylinder water pumping assembly 87 is driven to work under the action of the bevel gear group 85, the piston cylinder water pumping assembly 87 pumps water in the water tank and is sprayed out through the spraying pipe 88, water sprayed out by the spraying pipe 88 drops on plants in the flowerpot 4 to irrigate, therefore, manual watering is not needed, labor intensity of people is reduced, when water is not needed to be sprayed on the plants, the hose connected with the water inlet end is taken out of the water tank, when the second straight gear 84 rotates, external air can be sucked into the piston cylinder water pumping assembly 87 through the hose connected with the water inlet end, then the piston cylinder water pumping assembly 87 sprays air to plants below the spraying pipe 88, the plants can be blown by the piston cylinder water pumping assembly 88, the plants can be accelerated, the growth of seedlings can be accelerated, and photosynthesis can be performed faster.

Example 3

On the basis of embodiment 2, as shown in fig. 3, 7 and 8, the device further comprises a clamping mechanism 9, wherein the clamping mechanism 9 comprises a limiting frame 91, a guide pillar 92 and a second spring 93, the top of the fifth fixing frame 82 is connected with the limiting frame 91, the limiting frame 91 is slidably connected with the guide pillar 92, the second spring 93 is connected between the guide pillar 92 and the limiting frame 91, and circular arc clamping grooves are symmetrically formed in the eccentric position of the top of the second spur gear 84.

Initially, the guide pillar 92 is inserted into the circular arc clamping groove, when the sector gear 81 is meshed with the second spur gear 84, the second spur gear 84 is forced to rotate by the sector gear 81, the guide pillar 92 is extruded out of the circular arc clamping groove, the second spring 93 stretches, the bottom end of the guide pillar 92 is contacted with the top of the second spur gear 84, and when the sector gear 81 is separated from the second spur gear 84, the guide pillar 92 is inserted into the circular arc clamping groove, so that the piston cylinder pumping assembly 87 is prevented from working excessively due to inertia generated between the second spur gear 84 and the sector gear 81, and the water spraying amount of the spray pipe 88 can be effectively controlled.

The movable mechanism 10 comprises a third spring 1001, a third rack 1002, a second fixing plate 1003, a third connecting shaft 1004, a cylindrical gear 1005, a fourth guide carriage 1006 and a fourth rack 1007, wherein the third spring 1001 is connected between the first guide carriage 61 and the second fixing frame 62, the third rack 1002 is connected to the lower part of the second rack 77, the second fixing plate 1003 is connected to the left side of the top of the bottom plate 1, the third connecting shaft 1004 is rotatably connected to the top of the second fixing plate 1003, the cylindrical gears 1005 are connected to the front end and the rear end of the third connecting shaft 1004, the fourth guide carriage 1006 is connected to the top of the second fixing plate 1003 in a sliding manner, the left end of the fourth rack 1007 is connected to the second fixing frame 62, and the cylindrical gears 1005 on the front side and the rear side are respectively meshed with the fourth rack 1007 and the third rack 1002.

When the second rack 77 moves upwards, the stirrer 78 is driven to move upwards and move out of the hopper 63, when the third rack 1002 is meshed with the front cylindrical gear 1005, the third rack 1002 drives the front cylindrical gear 1005 to rotate, the third connecting shaft 1004 and the rear cylindrical gear 1005 rotate along with the rotation, the rear cylindrical gear 1005 rotates to drive the fourth rack 1007 to move leftwards, the second fixing frame 62 moves leftwards along with the rotation, the third spring 1001 compresses, when the second rack 77 moves downwards, the third rack 1002 drives the cylindrical gear 1005 to rotate reversely, the cylindrical gear 1005 rotates reversely to drive the fourth rack 1007 to move rightwards and reset, and the third spring 1001 stretches and resets, so that the second fixing frame 62 can be driven to move leftwards and rightwards automatically without manually pushing the second fixing frame 62, and the labor intensity of workers is further reduced.

The flowerpot is characterized by further comprising a drainage mechanism 11, wherein the drainage mechanism 11 comprises a seventh fixing frame 1101, a water receiving funnel 1102 and a valve 1103, the seventh fixing frame 1101 is connected to the middle of the supporting frame 3, the water receiving funnel 1102 is connected to the seventh fixing frame 1101, the water receiving funnel 1102 is located under the flowerpot 4, and the valve 1103 is connected to the lower portion of the water receiving funnel 1102.

Initially, the valve 1103 is in a closed state, when the plants planted in the flowerpot 4 are watered, excessive water can seep out through the holes at the bottom of the flowerpot 4, the seeped water flows into the water receiving funnel 1102, and when the water in the water receiving funnel 1102 needs to be discharged, the valve 1103 is opened.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (3)

1. A planting pot capable of automatically adding nutrient solution at regular intervals, which is characterized by comprising: a bottom plate (1), the top of which is provided with an annular guide sliding frame (2);

a support (3) which is rotatably connected to the annular guide carriage (2);

a flowerpot (4) placed on the support frame (3);

a rotation mechanism (5) mounted on the bottom of the base plate (1);

the material-feeding mechanism (6) is connected to one side of the bottom plate (1);

the rotating mechanism (5) comprises:

a first fixing frame (51) which is installed on the top of the bottom plate (1);

a low-speed motor (52) mounted on the first mount (51);

the rotating shaft (53) is connected to the output shaft of the low-speed motor (52), and the top end of the rotating shaft (53) is connected with the bottom of the supporting frame (3);

the material presenting mechanism (6) comprises:

the first guide sliding frame (61), the first guide sliding frame (61) is connected to the top of the bottom plate (1);

a second mount (62) slidably connected to the second mount (62);

a hopper (63) connected to the top of the second fixing frame (62);

a strip pipe (64) connected to the bottom side of the hopper (63);

a stopper (65) slidably connected to the strip pipe (64);

the top block (66) is connected to the top of the supporting frame (3);

a third fixing frame (67) connected to the bottom of the strip-shaped pipe (64);

a first connecting shaft (68) rotatably connected to the third mount (67);

a second guide carriage (69) connected to the first connecting shaft (68), the second guide carriage (69) being in sliding engagement with the stopper (65);

a first spring (610) connected between the second guide carriage (69) and the third mount (67);

still including rabbling mechanism (7), rabbling mechanism (7) are including:

a fourth fixing frame (71) connected to the bottom plate (1);

a cylinder (72) mounted on the fourth mount (71);

a first rack (73) connected to the telescopic rod of the cylinder (72);

a first fixing plate (74) connected to the base plate (1);

a first spur gear (75) rotatably connected to the first spur gear (75);

a third carriage (76) fixedly connected to the upper portion of the first fixing plate (74);

a second rack (77) slidably connected to the third carriage (76), both the second rack (77) and the first rack (73) being meshed with the first straight gear (75);

a stirrer (78) connected to the top of the second rack (77);

the utility model also comprises a spraying mechanism (8), and the spraying mechanism (8) comprises:

a sector gear (81) connected to the top of the support frame (3);

a fifth fixing frame (82) installed on the top of the base plate (1);

a second connecting shaft (83) rotatably connected to the fifth mount (82);

a second spur gear (84) connected to one end of the second connecting shaft (83), the second spur gear (84) being meshed with the sector gear (81);

a sixth mount (86) fixedly connected to the fifth mount (82);

a piston cylinder pumping assembly (87) mounted on a sixth mount (86);

a bevel gear set (85) connected between the crankshaft of the piston cylinder pumping assembly (87) and the bottom end of the second connecting shaft (83);

a spray pipe (88) connected to the water outlet end of the piston cylinder pumping assembly (87);

still including screens mechanism (9), screens mechanism (9) are including:

a limit frame (91) connected to the fifth fixing frame (82);

the guide post (92) is connected to the limiting frame (91) in a sliding manner, and an arc clamping groove matched with the guide post (92) is formed in the eccentric position of the top of the second spur gear (84);

and the second spring (93), and the second spring (93) is connected between the guide post (92) and the limiting frame (91).

2. The planting pot capable of automatically adding nutrient solution at regular intervals according to claim 1, further comprising a moving mechanism (10), wherein the moving mechanism (10) comprises:

a third spring (1001), wherein the third spring (1001) is connected between the first guide carriage (61) and the second fixing frame (62);

a third rack (1002) connected to the lower part of the second rack (77);

a second fixing plate (1003) connected to the top side of the base plate (1);

a third connecting shaft (1004) rotatably connected to the top of the second fixing plate (1003);

a spur gear (1005) connected to the third connection shaft (1004);

a fourth carriage (1006) attached to the top of the second fixed plate (1003);

and a fourth rack (1007) slidably connected to the fourth carriage (1006), the fourth rack (1007) being connected to the second mount (62), the fourth rack (1007) and the third rack (1002) being engaged with the cylindrical gear (1005).

3. The planting pot capable of automatically adding nutrient solution at regular intervals according to claim 2, further comprising a drainage mechanism (11), wherein the drainage mechanism (11) comprises;

a seventh fixing frame (1101) connected to the support frame (3);

a water receiving funnel (1102) connected to the seventh mount (1101);

a valve (1103) mounted at the lower part of the water receiving funnel (1102).