CN113950999B - Spectrum adjustable and partition controlled multifunctional cultivating machine - Google Patents

Abstract

The utility model relates to a spectrum is adjustable, multi-functional cultivation machine of subregion control belongs to plant cultivation equipment technical field, and it includes: a bearing seat; the planting plate is arranged on the bearing seat and used for planting plants; the mounting rod is mounted on the bearing seat; the mounting wing is arranged on the rod body of the mounting rod and is positioned above the planting plate; cultivate the lamp, it installs to cultivate the lamp install on the installation wing, it is used for right it shines to cultivate the plant of planting on the board. In order to promote the growth of the desktop plants, the application provides the multifunctional cultivation machine with adjustable spectrum and partition control, which can give enough light to the plants, assist the plants in photosynthesis and reduce the death of the desktop plants.

Description

Spectrum adjustable, multi-functional cultivation machine of subregion control

Technical Field

The application relates to the field of plant cultivation equipment, in particular to a multifunctional cultivation machine with adjustable spectrum and partition control.

Background

The significance and effect of indoor greening decoration are that according to the characteristics of indoor environment, the ornamental materials mainly comprising indoor foliage plants are utilized to beautify and decorate used utensils and places in combination with the living needs of people.

The beautifying decoration is designed, decorated and arranged according to the requirements of physical life and mental life of people and by matching with the whole indoor environment, so that the indoor and outdoor are integrated, the dynamic and static combination is embodied, the harmony and unity of the human and indoor environment and the nature are achieved, and the beautifying decoration is an important breakthrough of the traditional architectural decoration.

With the improvement of the life quality requirements of people, even a plurality of exquisite plants are put on a table at present to become table plants in a plurality of people, and the table plants become good friends accompanying daily work and life of people, but the plants are raised indoors, so that the plants cannot be well photosynthesized to promote self growth due to insufficient illumination time and insufficient illumination intensity, and a plurality of table plants are withered and worn when being raised.

Disclosure of Invention

In order to promote the growth of the desktop plants, the application provides the multifunctional cultivation machine with adjustable spectrum and partition control, which can give enough light to the plants, assist the plants in photosynthesis and reduce the death of the desktop plants.

The application provides a multi-functional cultivation machine that spectrum is adjustable, subregion control adopts following technical scheme:

a spectrum adjustable, multi-functional planter of subregion control, includes:

a bearing seat;

the planting plate is arranged on the bearing seat and used for planting plants;

the mounting rod is mounted on the bearing seat;

the mounting wing is arranged on the rod body of the mounting rod and is positioned above the planting plate;

cultivate the lamp, it installs to cultivate the lamp install on the installation wing, it is used for right it shines to cultivate the plant of planting on the board.

By adopting the technical scheme, the bearing seat is matched with the planting plate, so that plants can be planted on the planting plate, and the phenomenon that plant nutrients are scattered on a table top to cause dirt can be reduced; secondly, the cooperation of installation pole, installation wing and cultivation lamp can be installed in the top of planting the board with cultivating the lamp for the illumination of cultivating the lamp can shine on the plant, thereby the good illumination environment of feed plant promotes the plant and carries out photosynthesis, thereby has improved the survival rate of plant.

Preferably, an inner cavity is formed in the bearing seat.

Through adopting above-mentioned technical scheme, can bear the weight of the nourishment that vegetation in the inner chamber, both reduced the spill of nourishment and caused the desktop dirty, also can give the sufficient growth space of rhizome of plant.

Preferably, the top of the planting plate is provided with a through hole, a planting basket is placed in the through hole, and plants are planted in the planting basket.

Through adopting above-mentioned technical scheme, plant the basket and place the formula setting on planting the board, can change multiple plant according to user's demand and plant, improve the variety of plant to, also can in time and conveniently maintain the plant, perhaps handle some withered plants.

Preferably, the top surface of the planting plate is provided with a sunken surface.

Through adopting above-mentioned technical scheme, plant the board and seted up the face of sinking, when the user carries out watering can sprinkling irrigation plant to the plant, can reduce rivers and flow out and plant the board, cause dirty on flowing to the desktop to can make the basket of planting place comparatively pleasing to the eye.

Preferably, an output piece is installed in the inner cavity, a water body is poured into the inner cavity, and the output piece is used for recycling the water body.

Through adopting above-mentioned technical scheme for the cultivation machine can carry out soil culture, water planting and light and bank up with earth, can also circulate the water when carrying out the water planting through the setting of output spare.

Preferably, the input end of the output member is proximate to the bottom wall of the inner cavity, and the output end of the output member is disposed at a top position of the output member.

Through adopting above-mentioned technical scheme, when carrying out the water planting, the diapire of inner chamber is pressed close to the input of output piece, and the output setting of output piece can still carry out the hydrologic cycle when the liquid level is lower in the top position department of output piece.

Preferably, the output end of the output member is connected with a water outlet pipe, a grid plate is fixed at one end of the bearing seat, which is located in the inner cavity and extends along the length direction of the inner cavity, a sponge bayonet is arranged on the grid plate, a filter sponge is arranged in the sponge bayonet, and the output end of the water outlet pipe is connected with the filter sponge.

Through adopting above-mentioned technical scheme, the outlet pipe has the guide effect to the water of taking out from output spare department, leads water to grid tray and filter sponge department, can filter the water, can improve the oxygen enrichment rate of water simultaneously, gives the better growth condition of plant.

Preferably, a viewing port is formed in a side wall of the bearing seat far away from the grid plate, and a transparent plate is fixed at the viewing port.

Through adopting above-mentioned technical scheme, the cooperation setting of viewing aperture and transparent plate can the person of facilitating the use observe the water condition of inner chamber department, can add the water reduction better.

Preferably, the bearing seat is provided with a side wall of the transparent plate, and scale marks are arranged along the length direction of the observation port.

Through adopting above-mentioned technical scheme, based on the cooperation setting of viewing aperture and transparent plate, the setting of scale mark can further the person of facilitating the use observe the water condition of inner chamber department, can add the water reduction better.

Preferably, the top of the bearing seat at one side of the grid plate is covered with a top cover, and the top of the top cover is provided with a tilting part.

Through adopting above-mentioned technical scheme, the setting of top cap can the person of facilitating the use change and filter the sponge, can the person of facilitating the use uncover the top cap through perk portion.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cultivation machine can carry out soil culture, water culture and light culture, can adapt to the desktop plant of multiple production environment, provides more desktop plant cultivation choices for the user.

2. Plant the basket and for placing the formula setting, also can adapt the desktop plant of multiple production environment simultaneously, provide more desktop plants for the user and cultivate the selection then.

3. The setting of output spare can circulate the water when carrying out the water planting, and cooperation grid tray, filtration sponge can also effectively filter when circulating the water, improve the cleanliness factor of water.

Drawings

Fig. 1 is a schematic view of the entire structure in embodiment 1.

Fig. 2 is an exploded view schematically illustrating the overall structure in example 1.

Fig. 3 is a schematic view of a split structure of the planting plate in two viewing angles in embodiment 1.

Fig. 4 is an exploded view of the entire structure in the top view in example 1.

Fig. 5 is an enlarged view of a in fig. 4.

Fig. 6 is a schematic view of a disassembled structure between the first socket body and the mounting bar in embodiment 1.

Fig. 7 is a schematic view showing a disassembled structure between the mounting wing and the mounting bar in embodiment 1.

Fig. 8 is a disassembled structure view between the installation wing and the installation pole in the embodiment 1.

Fig. 9 is a schematic structural view in embodiment 2.

Fig. 10 is a schematic structural view in example 3.

Fig. 11 is a schematic structural view in embodiment 5.

Fig. 12 is a schematic structural view in example 6.

Fig. 13 is a schematic structural view in example 8.

FIG. 14 is a schematic view of the structure in example 12.

FIG. 15 is a schematic view of the structure in example 13.

FIG. 16 is a schematic front view of the structure in example 14.

Fig. 17 is a schematic top view of the structure of example 14.

Description of reference numerals:

100. a bearing seat;

101. an inner cavity; 103. a first clamping groove; 104. positioning a groove; 105. a card holder; 106. auxiliary convex strips; 107. an auxiliary groove; 108. an accommodating cavity; 109. a wiring cavity; 110. a clamping and connecting plate; 111. a card interface; 112. a control circuit board; 113. an indicator light; 114. a lamp hole; 115. a wire slot; 116. a power line; 117. a cartridge cover; 118. a limiting groove; 119. a limiting strip; 121. a rubber ring; 122. a first socket body; 123. a first connection contact pin; 124. an observation port; 125. a transparent plate; 126. scale lines; 127. a liquid level sensor; 128. mounting grooves; 129. an output member; 130. a water outlet pipe; 131. a grid plate; 132. a sponge bayonet; 133. filtering the sponge; 134. a transfer tube; 135. a top cover; 136. a raised portion; 137. an anti-slip frame;

200. planting a plate;

201. a fixed block; 202. a clamping block; 203. a through hole; 204. a bracket; 205. a planting basket; 206. an annular edge; 207. a water inlet; 208. a sinking surface; 209. a bayonet;

300. mounting a rod;

301. a first docking port; 302. a second connection socket; 303. a ferrule body; 304. inserting sheets; 305. a void; 306. sanding surface; 307. positioning the convex strip; 308. an annular groove; 309. a rubber ring; 310. matching the clamping strip; 311. a fixing strip; 312. a hook; 313. matching with the clamping groove;

400. installing wings;

401. a second socket body; 402. a second connection pin; 403. a middle seat; 404. a wing body; 405. a mating seat; 406. inserting the card; 407. a gap; 408. a limit convex ring; 409. an outer convex strip; 410. an inner groove; 411. a limiting horizontal bar; 412. a limiting block; 413. a guide slope; 414. a mating bevel; 415. a stirrer fan; 416. a ventilation opening; 417. an air inlet;

500. cultivating a lamp;

601. a protruding plate; 602. a placement groove; 603. placing the strips; 604. a first magnet bar; 606. a hasp; 607. a roller; 608. a buckle seat; 609. a sleeve; 610. a core bar; 611. a cylinder opening; 612. a position hole; 613. a mating hole; 614. a hinged clamping rod; 615. a first magnetic sheet; 616. a second magnetic sheet; 617. sleeving a ring; 618. a threaded hole; 619. a set square; 620. a triangular groove; 621. an orifice; 622. a clamping groove; 623. clamping a hook; 624. a base; 625. rotating the wing; 626. a rectangular plate; 627. a fixed shaft; 628. a through groove; 629. a sliding strip; 630. a threaded strip; 631. and (4) a nut.

Detailed Description

The present application is described in further detail below with reference to figures 1-17.

Example 1:

the embodiment of the application discloses a multifunctional cultivation machine with adjustable spectrum and partition control.

Referring to fig. 1, the machine of cultivating is including bearing seat 100, plant board 200 and cultivate lamp 500, bear seat 100 and seted up inner chamber 101 (refer to fig. 2), simultaneously, the seat mouth has been seted up at the top face that bears seat 100, be linked together between seat mouth and the inner chamber 101, wherein, it has two to plant board 200, thereby two are planted board 200 and all install in seat mouth position department through the mode of joint and set up on the top surface position that bears seat 100, plant can plant the plant on the board 200, the plant classification can design according to user's individual needs, and cultivate lamp 500 and install on the top surface that bears seat 100 equally, and cultivate the output of lamp 500 down, make and cultivate the lamp 500 and can shine the plant to planting on the board 200, effectively carry out the light to the plant and cultivate the lamp 500.

Specifically, referring to fig. 1 and fig. 2, in this embodiment, a plurality of first fastening grooves 103 are disposed at an inner wall position of the inner cavity 101 along a length direction of the bearing seat 100, and the first fastening grooves 103 are fixed on an opposite inner wall of the inner cavity 101, wherein in this embodiment, the number of the first fastening grooves 103 disposed at the inner wall position of one side of the inner cavity 101 is four, eight first fastening grooves 103 are disposed in the inner cavity 101, correspondingly, fastening structures matched with the first fastening grooves 103 are installed at the side wall position of the planting plate 200, and the planting plate 200 can be assembled on the bearing seat 100 by matching the fastening structures with the first fastening grooves 103.

Referring to fig. 3, in this embodiment, the clamping structure includes a fixing block 201 and a clamping block 202, wherein the fixing block 201 is installed at the bottom side wall position of the planting plate 200, there are four fixing blocks 201 on the same planting plate 200, the four fixing blocks 201 are symmetrically fixed at the side walls on both sides of the planting plate 200, the position of the fixing block 201 corresponds to the position of the first clamping groove 103, the clamping block 202 is fixed at the position of the relative inner wall between the fixing blocks 201, the size of the clamping block 202 is adapted to the size of the first clamping groove 103, and the planting plate 200 can be installed on the bearing seat 100 by the matching of the clamping block 202 and the first clamping groove 103.

Referring to fig. 3, on one hand, through holes 203 are formed through the top surface of the planting plate 200, 2 to 6 through holes 203 may be formed according to actual conditions, in this embodiment, six through holes 203 are formed on the same planting plate 200, and a bracket 204 is further fixed at the position of the through holes 203 and at the bottom of the planting plate 200, a planting basket 205 is placed in the through holes 203, plants are planted in the planting basket 205, more specifically, an annular edge 206 is fixed around the top edge of the planting basket 205, the annular edge 206 is matched with the bracket 204, so that the planting basket 205 may be stably placed on the planting plate 200, and a water body is poured into the inner cavity 101, the bottom of the planting basket 205 may be placed into the inner cavity 101 so that the basket body of the planting basket 205 may contact the water body, and a water inlet 207 is formed through the side wall of the planting basket 205, so that the water body may enter the planting basket 205 through the water inlet 207, is beneficial to the growth of plants.

Referring to fig. 3, on the other hand, plant the plate body top surface of board 200 and set up for sunken face 208, when sprinkling irrigation to the plant, the water can not flow from planting board 200, and in addition, bayonet 209 has still been seted up at the top surface of planting board 200, can peg graft in bayonet 209 position and plant the pole, to some plants that need go on stereotyping, plant the pole and can assist vegetation.

Referring to fig. 4 and 5, a positioning groove 104 (see fig. 2) is disposed at the middle position of the carrier base 100, a clamping base 105 is clamped in the positioning groove 104, an auxiliary protruding strip 106 is fixed at the inner wall of the positioning groove 104, correspondingly, an auxiliary groove 107 is disposed at the outer wall positions of two sides of the clamping base 105, the auxiliary groove 107 is matched with the auxiliary protruding strip 106 in size, the clamping base 105 is clamped into the positioning groove 104, and the auxiliary protruding strip 106 and the auxiliary groove 107 can be clamped correspondingly, so that the mounting stability of the clamping base 105 is effectively improved.

Referring to fig. 5, the interior of the card seat 105 is planned to be two parts, the first part is a containing cavity 108, the second part is a wiring cavity 109, a clamping plate 110 is installed at an inner bottom wall of the containing cavity 108, a clamping interface 111 is formed at the top of the clamping plate 110, a control circuit board 112 is clamped on the clamping interface 111, an indicator light 113 is installed on a board body of the control circuit board 112, a light hole 114 is formed in a side wall of the containing cavity 108, the indicator light 113 can extend out of the light hole 114, a wiring groove 115 is installed at the wiring cavity 109, a power line 116 is installed outside the wiring cavity 109, a line body of the power line 116 enters the wiring cavity 109 and is electrically connected with the control circuit board 112, and a line body in the wiring cavity 109 is installed at positions on two sides of the wiring groove 115.

Referring to fig. 5, a cassette cover 117 is assembled on the top of the cassette 105, the cassette cover 117 and the cassette 105 are installed in a clamping manner, specifically, a position of the inner wall of the cassette 105 is opposite to the position of the inner wall, a position limiting groove 118 is correspondingly fixed on the outer wall of the cassette cover 117 opposite to the two sides, a position limiting strip 119 is fixed on the outer wall of the cassette cover 117, the position limiting groove 118 is adapted to the size of the position limiting strip 119, meanwhile, a guiding inclined plane is formed at the bottom of the position limiting strip 119, the guiding inclined plane has a certain guiding function, the position limiting strip 119 can be clamped into the position limiting groove 118 to complete the assembly between the cassette cover 117 and the cassette 105, a rubber ring 121 is sleeved on the bottom of the cassette cover 117, the rubber ring 121 can improve the installation tightness between the cassette cover 105 and the cassette cover 117, the cassette 105 and the cassette cover 117 can be stabilized, the water of the sprinkler plant can be prevented from flowing into the cassette 105, and a rib is convexly arranged at the position of the inner bottom wall of the cassette cover 117, after the card seat cover 117 is clamped into the card seat 105, the rib can abut against the top of the control circuit board 112 to further position the control circuit board 112, so that the installation stability of the control circuit board 112 in the accommodating cavity 108 is improved.

With reference to fig. 5, a first socket body 122 is installed on the top of the card socket cover 117, referring to fig. 6, a first plugging pin 123 is installed at a position of an inner bottom wall of the first socket body 122, the control circuit board 112 is provided with a trace and electrically connected to the first plugging pin 123, an installation rod 300 is detachably installed on the first socket body 122, a first plugging socket 301 is installed at the bottom of the installation rod 300, the first plugging pin 123 is matched with the first plugging socket 301 in size, and meanwhile, a fool-proof structure is designed between the first plugging pin 123 and the first plugging socket 301, so that only a unique angle exists between the first plugging pin 123 and the first plugging socket 301 for plugging.

Referring to fig. 7, a second socket body 401 is detachably mounted on one end of the mounting rod 300 far away from the first socket body 122, specifically, a second connection socket 302 is mounted on the top of the mounting rod 300, a second connection pin 402 is mounted at a top wall position in the second socket body 401, the second connection pin 402 is adapted to the size of the second connection socket 302, similarly, a foolproof structure is designed between the second connection pin 402 and the second connection socket 302, so that only a unique angle is also provided between the second connection pin 402 and the second connection socket 302 for plug-in, a side surface of the second socket body 401 away from the mounting rod 300 is mounted with a mounting wing 400, and the lamp 500 is mounted at two side bottom positions of the mounting wing 400, wherein routing lines are provided between the first connection socket 301 and the second connection socket 302 and in the mounting rod 300 to electrically connect the first connection socket 301 and the second connection socket 302, the mounting rod 300 is specifically a telescopic rod, the wires in the mounting rod 300 are arranged in a winding type telephone wire style, and the cultivation lamp 500 is provided with wires in the mounting wing 400 and electrically connected to the second plug pins 402.

Specifically, in addition to the mounting rod 300 being connected to the card socket 105 and the mounting wing 400 by the fitting of the first plugging pin 123 and the first plugging hole 301 and the fitting of the second plugging pin 402 and the second plugging hole 302, the mounting rod 300 and the first socket body 122 are assembled by a first mounting fitting, and the mounting rod 300 and the second socket body 401 are assembled by a second mounting fitting.

Referring to fig. 6, in this embodiment, a first installation accessory includes a collar body 303, collar body 303 is sleeved on the body of rod of installation rod 300, bottom at collar body 303 is equipped with inserted sheet 304, inserted sheet 304 has two, the bottom at collar body 303 is fixed to two inserted sheet 304 symmetries, leave space 305 between two inserted sheets 304, a side that inserted sheet 304 deviates from installation rod 300 is equipped with frosted surface 306, inner wall position department is fixed with location sand grip 307 in the both sides of first socket body 122, space 305 size looks adaptation between the size of location sand grip 307 and the inserted sheet 304, collar body 303 has seted up the alignment bead in its position department that corresponds space 305, the alignment female mouth has been seted up in the corresponding position department of first socket body 122, when installing installation rod 300, the alignment bead corresponds with the alignment female mouth one-to-one, convenience of customers installs installation rod 300.

Moreover, an annular groove 308 is formed in the outer wall of the first connection socket 301, a rubber ring 309 is sleeved in the annular groove 308, when the mounting rod 300 is inserted into the first socket body 122, the first connection socket 301 is inserted into the first connection pin 123, the rubber ring 309 improves the mounting stability and the sealing performance of the insertion of the mounting rod 300 and the clamping seat 105, then the ferrule body 303 is inserted into the first socket body 122, a gap 305 between the insertion pieces 304 is aligned to the positioning convex strip 307, and the frosted surface 306 is arranged in a matched manner, so that the ferrule body 303 and the mounting rod 300 can be matched and stably inserted into the first socket body 122, and the mounting rod 300 is assembled on the top surface of the bearing seat 100.

Referring to fig. 7 and 8, in this embodiment, the second mounting assembly includes a mating clip strip 310, the mating clip strip 310 is mounted in the second socket body 401, the mating clip strip 310 is composed of two parts, one is a fixing strip 311 fixed in the second socket body 401, the other is a hook 312 fixed at the bottom end of the fixing strip 311, correspondingly, a mating clip groove 313 is formed in the second socket interface 302, when the mounting rod 300 is inserted into the second socket body 401, the second socket interface 302 is plugged into the second socket interface 402, and at the same time, the hook 312 can be clipped into the mating clip groove 313 and form a barb structure, so that the second socket body 401 is mounted at the top end portion of the mounting rod 300, thereby mounting the mounting wing 400 at the top end position of the mounting rod 300.

Referring to fig. 8, more specifically, in the present embodiment, the mounting wing 400 includes a middle base 403, a wing body 404 and a mating base 405, the bottom of the middle base 403 is fixed to the top of the mating base 405, the bottom of the mating base 405 is rotatably connected to the top of the second socket body 401, specifically, the top of the second socket body 401 is mounted with two insertion cards 406, in the present embodiment, the insertion cards 406 are two pieces, the two insertion cards 406 are annularly arranged in a top view structure, a gap 407 is left between the two insertion cards 406, a limit convex ring 408 is disposed inside the mating base 405, the side wall of the end of the insertion card 406 is an arc surface, the mating base 405 and the second socket body 401 are inserted and connected by the mating of the insertion cards 406 and the limit convex ring 408, because the insertion cards 406 are annularly arranged, the mating base 405 and the second socket body 401 can rotate after being inserted and connected, in order to limit the rotation of the mating seat 405 and the second socket body 401, an outer protrusion 409 is fixed on the outer wall of one side of the insertion card 406, an inner groove 410 for matching with the outer protrusion 409 is correspondingly formed on the inner wall of the limiting protrusion ring 408, and the starting point of the inner groove 410 is just located on one diameter of the limiting protrusion ring 408, so that the mating seat 405 and the second socket body 401 can rotate relatively at most 180 degrees.

Referring to fig. 8, in this embodiment, there are two wing bodies 404, the two wing bodies 404 are respectively connected and disposed at two symmetrical side positions of the middle base 403 through a shaft body in a rotating manner, wherein, a daisy protruding structure is disposed on an inner wall of the middle base 403 (specifically, at a rotating connection position with the two wing bodies 404), so that when the wing bodies 404 rotate, there is a friction section, which can enhance the gear feedback experience of a user, wherein, the two wing bodies 404 are straight strip-shaped under the non-rotating condition, a limiting cross bar 411 is fixed at one side of the middle base 403 where the wing bodies 404 are not disposed, due to the blocking of the limiting cross bar 411, the rotation path of the wing bodies 404 can be limited, a limiting block 412 is fixed at one side of the middle base 403 far from the limiting cross bar 411, the length of the limiting cross bar 411 is consistent with the length of the middle base 403, and the limiting block 412 is located at a middle position where the long side of the middle base 403 far from the limiting bar 119, meanwhile, the maximum rotation angle of the wing bodies 404 is 90 °, when the wing bodies 404 reach the maximum rotation angle, the wing bodies are just abutted against the limiting blocks 412, the overall structure of the two wing bodies 404 is in an "I" shape under the condition that the two wing bodies 404 do not rotate, the overall structure of the two wing bodies 404 is in a "u" shape under the condition that the two wing bodies 404 both reach the maximum rotation angle, in addition, the limiting blocks 412 are provided with guide slopes 413, and the wing bodies 404 are provided with matching slopes 414, so that the two wing bodies 404 can be attached to each other after reaching the maximum rotation angle.

Referring to fig. 8, in addition, the stirrer fans 415 are arranged inside the two wing bodies 404, the bottom of the wing bodies 404 is provided with the air outlet 416, the top of the wing bodies 404 is provided with the air inlet 417, and the arrangement of the stirrer fans 415 enables the planter to transport air to the plants, thereby assisting the plants to spread the powder and stirring the air to provide a good environment for the growth of the plants.

Referring to fig. 1, in order to monitor how much water remains in the carrying seat 100 after being absorbed by the plant, the section of the carrying seat 100 along the length direction is a parallelogram, the section along the width direction is a rectangle, and the section along the height direction is a rectangle, the observation port 124 is opened on the side wall of one side of the carrying seat 100 along the width direction, the transparent plate 125 is fixed at the inner wall position of the observation port 124, wherein the transparent plate 125 can be fixed by using a hot melting or gluing process, in this embodiment, the transparent plate 125 is installed on the observation port 124 by specifically using a gluing and adhering manner, and the transparent plate 125 in this embodiment is made of tempered glass, so that people can well observe the condition of the water in the carrying seat 100 and can seal the observation port 124 to prevent the water from flowing out.

Secondly, referring to fig. 1, scale marks 126 are engraved at the outer wall position of the observation port 124, the maximum water height and the minimum water height in the bearing seat 100 can be defined by the scale marks 126, and the user can observe the water height in the bearing seat 100 and add or reduce water in time conveniently, and in order to know the water height more conveniently, a liquid level sensor 127 is disposed at the bottom of the clamp seat 105, more specifically, the liquid level sensor 127 adopts a floating ball type liquid level sensor 127, the top of the liquid level sensor 127 is inserted into the wiring cavity 109, and the liquid level sensor 127 is fixed by adopting a screw and nut connection mode, the wiring of the liquid level sensor 127 is also planned in the wiring cavity 109 and connected with the control circuit board 112, the corresponding signals obtained by the liquid level sensor 127 due to the change of the water level can be displayed by the indicator light 113, thereby reminding the user to add or subtract water according to the current situation.

Meanwhile, referring to fig. 2 and 4, in order to utilize the water in the carrier 100 in a reciprocating manner, a mounting groove 128 is provided inside the carrier 100, an output member 129 is installed inside the mounting groove 128, in this embodiment, the output member 129 is a water pump, an input end of the output member 129 is located at a bottom position thereof, so that the output member 129 can be pumped into the water with a lower liquid level in the carrier 100, an output end of the output member 129 is located at a top position thereof, an outlet pipe 130 is connected to an output end of the output member 129, in order to filter the water, sediment possibly falling into the water in the planting basket 205 is reduced, and the oxygen enrichment amount in the water is increased, a grid plate 131 is installed at an end position far away from the observation port 124 in the carrier 100, a sponge bayonet 132 is provided on a side of the grid plate 131 far away from the observation port 124, a filtering sponge 133 is placed in the sponge bayonet 132, an output end of the outlet pipe 130 is connected to a conveying pipe 134, the output end of conveying pipe 134 is connected with filtering sponge 133, and the water body that is taken out through output 129 can filter through filtering sponge 133 and grid plate 131 for the water body in bearing seat 100 can be more clear and the oxygen enrichment.

Referring to fig. 2 and 4, in order to conveniently replace the filter sponge 133, a top cover 135 is detachably mounted on the top surface of the carrier 100, a tilting portion 136 is disposed on the top of the top cover 135, and a user can open the top cover 135 through the tilting portion 136 and then replace the filter sponge 133 placed in the carrier 100, so that the operation of replacing the filter sponge 133 can be conveniently performed.

Simultaneously, for the stability in use of bearing seat 100, be fixed with anti-skidding frame 137 in the bottom of bearing seat 100, can make bearing seat 100 stably place through the anti-skidding frame 137 that sets up, reduce the circumstances that bearing seat 100 skidded and appear.

Example 2:

the difference between this embodiment and other embodiments is that the overall shape of the carrier 100 is not uniform.

Referring to fig. 9, in the present embodiment, the cross section of the carriage 100 along the length direction thereof is an isosceles trapezoid with a short upper side and a long lower side, the cross section along the width direction thereof is a rectangle, and the cross section along the height direction thereof is a rectangle, so that the carriage 100 having the structure has a good stability when being installed in a water body, and the condition of the water body in the carriage 100 can be observed through the observation port 124.

Example 3:

the present embodiment is different from the other embodiments in that the tilted portion 136 at the top cover 135 is not uniform in structure.

Referring to fig. 10, in the present embodiment, a protruding plate 601 is fixed at a position of a top of the tilting portion 136 and a side away from the top cover 135, and the protruding plate 601 is provided to facilitate a user to open the top cover 135 and reduce external dust from entering the interior of the carrier 100.

Example 4:

the difference between this embodiment and other embodiments is that the planting plate 200 and the carrying seat 100 are installed in different ways.

In this embodiment, the planting plate 200 is fixed to the carrying seat 100.

Example 5:

the present embodiment is different from other embodiments in that the planting plate 200 and the carrying seat 100 are installed in different manners.

Referring to fig. 11, in this embodiment, a placement groove 602 is disposed at a top edge of an inner wall of the carrier 100, a placement strip 603 is disposed at a periphery of the planting plate 200 in a protruding manner, the planting plate 200 can be placed in the carrier 100 by cooperation of the placement groove 602 and the placement strip 603, meanwhile, a first magnet strip 604 is attached to a top surface of the placement groove 602, a second magnet strip having a magnetic property opposite to that of the first magnet strip 604 is attached to a bottom position of the placement strip 603, and after the planting plate 200 is placed on the carrier 100, the first magnet strip 604 and the second magnet strip can be matched to assemble the planting plate 200 and the carrier 100 more firmly and stably.

Example 6:

the present embodiment is different from other embodiments in that the planting plate 200 and the carrying seat 100 are installed in different manners.

Referring to fig. 12, in the present embodiment, the outer periphery of the planting plate 200 is protruded, a buckle 606 is rotatably connected to a side wall of the bearing seat 100, a roller 607 is sleeved on a side of the buckle 606 away from the rotatable connection, a buckle seat 608 matching with the buckle 606 is disposed at an inner edge of a top of the planting plate 200, and after the planting plate 200 is placed on the top surface of the bearing seat 100, the buckle 606 is rotated to allow a portion of the roller 607 of the buckle 606 to be buckled on the buckle seat 608, so that the planting plate 200 is stably mounted on the bearing seat 100.

Example 7:

this embodiment differs from the other embodiments in that the overall structure of the mounting rod 300 is not uniform.

In this embodiment, the mounting rod 300 is a shaped straight bobbin.

Example 8:

this embodiment is different from the other embodiments in that the overall structure of the mounting bar 300 is not uniform.

Referring to fig. 13, in this embodiment, the installation rod 300 includes a sleeve 609 and a core rod 610, the sleeve 609 is installed on the socket cover 117, one end of the sleeve 609 far away from the socket cover 117 is provided with a socket 611 with a size corresponding to that of the core rod 610, the core rod 610 is inserted into the socket 611 to be inserted into and connected with the sleeve 609, the non-inserted end of the core rod 610 is assembled with the bottom of the installation wing 400, a position hole 612 is provided on the sidewall of the sleeve 609, the position hole 612 is located at a position 1cm near the top end of the sleeve 609, a mating hole 613 is provided on the rod body of the core rod 610, the mating hole 613 corresponds to the size of the position hole 612, and 10 to 30 mating holes 613 are provided.

In this embodiment, 20 fitting holes 613 are adopted, the 20 fitting holes 613 are uniformly distributed on the core rod 610 along the vertical direction, the interval between adjacent fitting holes 613 is 1cm, an articulated clamping rod 614 with an L-shaped cross section is articulated on the loop bar, the size of the end surface of the articulated clamping rod 614 far away from the articulated part is one third of the size of the fitting holes 613 and the size of the position holes 612, the end surface of the articulated clamping rod 614 is arranged in an inclined plane, the end part of the articulated clamping rod 614 can be inserted into the position holes 612 after rotation, a first magnetic sheet 615 is attached in the fitting holes 613, and a second magnetic sheet 616 with opposite magnetism to that of the inserted surface of the articulated clamping rod 614 is attached.

Example 9:

the present embodiment is different from the other embodiments in that the mounting structure of the mounting rod 300 and the mounting wing 400 is not identical.

In the present embodiment, the mounting rod 300 and the mounting wing 400 are integrally formed, and the traces in the mounting rod 300 are directly electrically connected to the cultivation lamp 500 installed at the mounting wing 400 from the first docking socket 301.

Example 10:

this embodiment is different from the other embodiments in that the fitting structure of the mounting lever 300 and the cartridge cover 117 is not uniform.

In the embodiment, the mounting rod 300 and the socket cover 117 are integrally formed, and the traces of the control circuit board 112 directly penetrate through the mounting rod 300 and are electrically connected to the second socket 302.

Example 11:

the present embodiment is different from the other embodiments in that the assembling structure of the mounting rod 300, the cartridge cover 117 and the mounting wing 400 is not consistent.

In the present embodiment, the mounting rod 300 and the mounting wings 400 are integrally formed, the mounting rod 300 and the socket cover 117 are integrally formed, and the traces of the control circuit board 112 directly penetrate into the mounting rod 300 and penetrate out of the mounting wings 400 to be electrically connected to the cultivation lamp 500.

Example 12:

the present embodiment is different from the other embodiments in that the assembling structure of the mounting rod 300, the cartridge cover 117 and the mounting wing 400 is not consistent.

Referring to fig. 14, in the present embodiment, two nesting rings 617 are sleeved on the mounting rod 300, two nesting rings 617 are provided, the two nesting rings 617 are respectively displaced at two ends of the rod body of the mounting rod 300, specifically, a mutual limiting structure is provided between the nesting rings 617 and the mounting rod 300, so that the nesting rings 617 cannot be separated from the mounting rod 300, after the mounting rod 300 and the cassette cover 117 are butted with the first socket 301 by the first socket body 122, and after the mounting rod 300 and the mounting wing 400 are butted with the second socket 302 by the second socket body 401, threaded holes 618 are provided on the nesting rings 617, and the two nesting rings 617 can be respectively fixed with the cassette cover 117 and the mounting wing 400 by screw thread installation, so that the cultivation lamp 500 can be stably disposed on the carrier 100.

Example 13:

the present embodiment is different from the other embodiments in that the assembling structure of the mounting rod 300, the cartridge cover 117, and the mounting wing 400 is not consistent.

Referring to fig. 15, in the present embodiment, a triangular plate 619 is fixed at a position of the side wall of the mounting rod 300 near the end and the bottom of the mounting rod 300, triangular grooves 620 are formed at the top of the cassette cover 117 and the bottom of the mounting wing 400, the triangular grooves 620 are matched with the triangular plate 619 in size, an aperture 621 is formed in the triangular groove 620, the aperture 621 is matched with the mounting rod 300 in size, the mounting rod 300 is inserted into the aperture 621, the triangular plate 619 is correspondingly engaged with the triangular groove 620, an engaging groove 622 is further formed in the triangular groove 620, an engaging hook 623 is further fixedly mounted at the bottom of the triangular plate 619, and after the triangular plate 619 is correspondingly engaged with the triangular groove 620, the engaging hook 623 is engaged with the engaging groove 622, so that the mounting rod 300 can be further engaged with the cassette cover 117 and the mounting wing 400 in a stable structure.

Example 14:

the present embodiment is different from the other embodiments in that the structure of the mounting wing 400 is not uniform.

Referring to fig. 16 and 17, in the present embodiment, the mounting wing 400 includes a base 624 and a rotating wing 625, the bottom of the base 624 is rotatably connected with the top of the second socket body 401, the base 624 is composed of two rectangular plates 626 with the same size and a fixing shaft 627, the two rectangular plates 626 are arranged one above the other, the fixing shaft 627 is located between the two rectangular plates 626, and two ends of the fixing shaft 627 are respectively fixed with the rectangular plates 626.

Through grooves 628 are formed in the plate body of the rectangular plate 626 in a penetrating manner, two through grooves 628 are formed in a single rectangular plate 626, the two through grooves 628 are arranged in parallel with the two through grooves 628 in the rectangular plate 626, the extending directions of the two through grooves 628 are consistent with the length direction of the rectangular plate 626, and the through grooves 628 between the two rectangular plates 626 are opposite to each other.

Referring to fig. 16 and 17, a sliding bar 629 is slidably connected between two rectangular plates 626, two ends of the sliding bar 629 respectively extend out of two sets of opposite through grooves 628, the top and the bottom of the sliding bar 629 are both in a screw strip 630 structure, the position of the sliding bar 629 between the rectangular plates 626 can be fixed by screwing a nut 631 at the extending end of the sliding bar 629, a rotating wing 625 is installed at the position of the side wall of the sliding bar 629 between the two rectangular plates 626, the arrangement of the fixed shaft 627 does not affect the displacement of the sliding bar 629 along the extending direction of the through grooves 628, and the cultivating lamp 500 is fixed at the position of the bottom of the rotating wing 625.

The above are all preferred embodiments of the present application, and the present embodiment is only explained for the present application, and the protection scope of the present application is not limited by this, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a multi-functional cultivation machine that spectrum is adjustable, subregion control which characterized in that includes:

a bearing seat (100);

a planting plate (200), wherein the planting plate (200) is arranged on the bearing seat (100), and the planting plate (200) is used for planting plants;

the mounting rod (300) is mounted on the bearing seat (100), the mounting rod (300) is a telescopic rod, and the mounting rod (300) has lifting adjustment capacity so that the whole mounting rod (300) can extend or contract;

the mounting wing (400) is rotatably assembled on the rod body of the mounting rod (300), the mounting wing (400) comprises at least two wing bodies which are also rotatably arranged, and the mounting wing (400) is positioned above the planting plate (200);

cultivate lamp (500), it installs to cultivate lamp (500) on installation wing (400), it is used for to cultivate lamp (500) plant the plant of planting on planting board (200) shines and cultivates.

2. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 1, wherein,

an inner cavity (101) is formed in the bearing seat (100).

3. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 2, wherein,

through holes (203) are formed in the top of the planting plate (200), planting baskets (205) are placed in the through holes (203), and plants are planted in the planting baskets (205).

4. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 2, wherein,

the top surface of the planting plate (200) is provided with a sinking surface (208).

5. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 2, wherein,

an output piece (129) is installed in the inner cavity (101), a water body is poured into the inner cavity (101), and the output piece (129) is used for recycling the water body.

6. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 5, wherein,

the input end of the output member (129) is close to the bottom wall of the inner cavity (101), and the output end of the output member (129) is arranged at the top position of the output member (129).

7. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 6, wherein,

the output of output spare (129) is plugged into and is installed outlet pipe (130), bear seat (100) and be located inner chamber (101) in the middle of, be fixed with grid tray (131) along the one end position department that the length direction of inner chamber (101) extends, be equipped with sponge bayonet socket (132) on grid tray (131), install in the position of sponge bayonet socket (132) and filter sponge (133), the output of outlet pipe (130) with filter sponge (133) meet.

8. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 7,

an observation port (124) is formed in one side wall of the bearing seat (100) far away from the grid plate (131), and a transparent plate (125) is fixed at the observation port (124).

9. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 8, wherein,

the bearing seat (100) is provided with a side wall of the transparent plate (125), and scale marks (126) are arranged along the length direction of the observation port (124).

10. The multifunctional cultivation machine with adjustable spectrum and zone control as claimed in claim 7,

bear seat (100) and be equipped with top cap (135) is covered at the top position department of grid tray (131) one side, top cap (135) top is equipped with perk portion (136).

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