CN217038147U - Low-carbon energy-saving seedling culture device for forestry - Google Patents

Abstract

The utility model discloses a low carbon energy-saving seedling culture device for forestry relates to the seedling culture device technical field of forestry, the power distribution box comprises a box body, the top of box is provided with rotatable apron, the right flank of box is provided with the micropump, the right flank of box is provided with the valve, the valve is located the top of micropump, the right flank of box is provided with water spray mechanism, water spray mechanism is located the below of micropump, the inside of box is provided with ejection mechanism, the inside of box is provided with places the board, the last fixed surface who places the board is connected with educates seedling cup, the upper surface of apron is provided with solar panel. The seedling raising device can realize positioning of seedlings to be raised by arranging the seedling raising cup and using the arranged seedling raising cup, and can eject the seedlings out of the seedling raising cup by using the arranged ejection mechanism to take out the seedlings, so that the problem that the seedlings are easily damaged because the seedling raising device is tightly attached to soil due to the moisture of the soil is solved.

Description

Low-carbon energy-saving seedling culture device for forestry

Technical Field

The utility model relates to a seedling growth device technical field specifically is a low carbon energy-conserving device of growing seedlings for forestry.

Background

Forestry refers to the production sector that protects the ecological environment to maintain ecological balance, cultivates and protects forests to obtain timber and other forest products, and utilizes the natural characteristics of the forests to play a protective role. In order to ensure the diversity of tree species and the survival rate in the later period, the seedlings are cultivated before the nursery stock is planted, so the cultivation of the seedlings is particularly important in forestry.

At present, in the use process of a seedling raising device in the market, seedlings need to be watered in the seedling raising process, so that soil is moist, the seedling raising device is tightly attached to the soil, and the seedlings are easily damaged in the seedling taking process; therefore, the low-carbon energy-saving seedling raising device for forestry is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a low carbon energy-saving seedling growing device for forestry in order to compensate the not enough of prior art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a low carbon energy-conserving device of growing seedlings for forestry, includes the box, the top of box is provided with rotatable apron, the right flank of box is provided with the micropump, the right flank of box is provided with the valve, the valve is located the top of micropump, the right flank of box is provided with water spray mechanism, water spray mechanism is located the below of micropump, the inside of box is provided with ejection mechanism, the inside of box is provided with places the board, the last fixed surface who places the board is connected with educates the seedling cup, the upper surface of apron is provided with solar panel, the bottom surface of apron is provided with the heat lamp.

Further, ejection mechanism includes handle, lifter and first carriage release lever, the bottom fixedly connected with circular gear of handle, a side fixedly connected with arc gear that first carriage release lever was kept away from to the lifter, circular gear meshes with arc gear mutually.

Furthermore, a side face, close to the first movable rod, of the lifting rod is connected with a first linkage rod in a rotating mode, a side face, far away from the first movable rod, of the lifting rod is connected with a second linkage rod in a rotating mode, and a side face, close to the first movable rod, of the lifting rod is connected with a first sliding block in a rotating mode.

Furthermore, a side that the lifter was kept away from to first gangbar rotates and is connected with the second slider, a side that the lifter was kept away from to the second gangbar rotates and is connected with the third slider, first carriage release lever is close to a side of lifter and has seted up first spout, a side that the lifter was kept away from to first slider and second slider all with first spout sliding connection, the box is close to a inside wall of lifter and has seted up the second spout, a side and second spout sliding connection that the lifter was kept away from to the third slider.

Furthermore, a connecting rod is fixedly connected to one side face, away from the lifting rod, of the first moving rod, a supporting block is fixedly connected to the upper surface of the first moving rod, a pushing block is fixedly connected to the upper surface of the supporting block, and a second moving rod is fixedly connected to one end, away from the first moving rod, of the connecting rod.

Further, the water spraying mechanism comprises a water tank, a water inlet is formed in the outer surface of the water tank, and a water outlet pipe is arranged inside the water tank.

Furthermore, the outlet pipe runs through the interior roof of water tank and extends to the top of water tank, the one end fixedly connected with shower nozzle of water tank is kept away from to the outlet pipe.

Compared with the prior art, this low carbon energy-conserving device of growing seedlings for forestry possesses following beneficial effect:

1. the utility model discloses a setting up seedling cup, utilizing the seedling cup that educates that sets up, can realizing treating the location of growing seedlings, utilize the ejection mechanism who sets up, ejecting in seedling cup with the seedling, take out the seedling, solved because soil is moist, make seedling device inseparable with the soil laminating to cause the problem of damage to the seedling easily when getting the seedling.

2. The utility model discloses a set up solar panel, solar panel can be solar energy transformation for the electric energy, has realized can low carbon energy-conserving purpose, and through setting up shower nozzle and heat lamp, the shower nozzle can be irrigated the seedling, and the heat lamp can regulate and control the temperature in the box to improve the seedling survival rate.

Drawings

Fig. 1 is a schematic view of a three-dimensional front view structure of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic view of the ejection mechanism of the present invention;

fig. 4 is a schematic view of the water spraying mechanism of the present invention.

In the figure: 1. a box body; 2. a cover plate; 3. a solar panel; 4. a micro-pump; 5. a valve; 6. a water spraying mechanism; 601. a water tank; 602. a water inlet; 603. a water outlet pipe; 604. a spray head; 7. an ejection mechanism; 701. a handle; 702. a circular gear; 703. an arc gear; 704. a lifting rod; 705. a first slider; 706. a second slider; 707. a first linkage rod; 708. a first chute; 709. a third slider; 710. a second linkage rod; 711. a connecting rod; 712. a support block; 713. a push block; 714. a first moving bar; 715. a second chute; 716. a second moving bar; 8. placing a plate; 9. seedling raising cups; 10. a heating lamp.

Detailed Description

The principles and features of the present invention will be described with reference to the drawings, which are provided for illustration only and are not intended to limit the scope of the invention.

This embodiment provides a low carbon energy-conserving device of growing seedlings for forestry, through setting up ejection mechanism 7 and educate seedling cup 9, utilizes the ejection mechanism 7 that sets up, ejecting the seedling from educating seedling cup 9, then takes out the seedling, has realized the purpose that can conveniently take out the seedling.

Referring to fig. 1-4, a low-carbon energy-saving seedling raising device for forestry comprises a box body 1, and a rotatable cover plate 2 is arranged above the box body 1.

Here, the cover plate 2 is hinged to the box body 1, and the seedling box can be opened by rotating the cover plate 2, so that seedlings can be taken.

The right side of the box body 1 is provided with a micro pump 4.

The micropump 4 is used for pumping out water from the water tank 601 and irrigating seedlings, and the micropump 4 can be driven by electric energy converted by the solar panel 3, so that the purposes of low carbon and energy saving are achieved.

The right side of the box body 1 is provided with a valve 5.

The valve 5 is used for controlling the water spraying mechanism 6.

The valve 5 is positioned above the micro pump 4, and the right side surface of the box body 1 is provided with a water spraying mechanism 6.

The water spraying mechanism 6 comprises a water tank 601, a water inlet 602 is formed in the outer surface of the water tank 601, a water outlet pipe 603 is arranged inside the water tank 601, the water outlet pipe 603 penetrates through the inner top wall of the water tank 601 and extends to the upper side of the water tank 601, and a spray head 604 is fixedly connected to one end, far away from the water tank 601, of the water outlet pipe 603.

Starting the micro pump 4, opening the valve 5, pumping water out of the water tank 601, enabling water to enter the water outlet pipe 603 through the micro pump 4, finally spraying the water out through the spray head 604, irrigating the seedlings and achieving the purpose of improving the survival rate of the seedlings.

The water spraying mechanism 6 is positioned below the micro pump 4, and the inside of the box body 1 is provided with an ejection mechanism 7.

The ejection mechanism 7 comprises a handle 701, a lifting rod 704 and a first moving rod 714, a circular gear 702 is fixedly connected to the bottom end of the handle 701, an arc gear 703 is fixedly connected to one side surface of the lifting rod 704 away from the first moving rod 714, and the circular gear 702 is meshed with the arc gear 703.

A first linkage rod 707 is rotatably connected to one side of the lifting rod 704 close to the first moving rod 714, a second linkage rod 710 is rotatably connected to one side of the lifting rod 704 far from the first moving rod 714, and a first sliding block 705 is rotatably connected to one side of the lifting rod 704 close to the first moving rod 714.

One side surface of the first linkage rod 707 far away from the lifting rod 704 is rotatably connected with a second slider 706, one side surface of the second linkage rod 710 far away from the lifting rod 704 is rotatably connected with a third slider 709, one side surface of the first movable rod 714 near the lifting rod 704 is provided with a first sliding groove 708, one side surfaces of the first slider 705 and the second slider 706 far away from the lifting rod 704 are both in sliding connection with the first sliding groove 708, one inner side wall of the box body 1 near the lifting rod 704 is provided with a second sliding groove 715, and one side surface of the third slider 709 far away from the lifting rod 704 is in sliding connection with the second sliding groove 715.

A connecting rod 711 is fixedly connected to one side surface of the first moving rod 714, which is far away from the lifting rod 704, a supporting block 712 is fixedly connected to the upper surface of the first moving rod 714, a pushing block 713 is fixedly connected to the upper surface of the supporting block 712, and a second moving rod 716 is fixedly connected to one end of the connecting rod 711, which is far away from the first moving rod 714.

The circular gear 702 is driven to rotate by rotating the handle 701, so that the arc gear 703 meshed with the circular gear 702 rotates downwards, the lifting rod 704 is driven to enable the first sliding block 705 to slide inside the first sliding groove 708, the first linkage rod 707 and the second linkage rod 710 are linked by rotation of the lifting rod 704, the second sliding block 706 and the third sliding block 709 slide inside the first sliding groove 708 and the second sliding groove 715 respectively, the first moving rod 714 is pushed to move upwards, seedlings are ejected out of the seedling cup 9 by the pushing block 713, and then the seedlings are taken out, so that the purpose of taking out the seedlings quickly is achieved.

A placing plate 8 is provided inside the case 1.

The position of the placing plate 8 for placing the seedling raising cup 9 is provided with a round hole with a cup opening.

The upper surface of the placing plate 8 is fixedly connected with a seedling cup 9.

The seedling raising cup 9 is used for raising seedlings, and is in a cylindrical shape without a top and a bottom.

The upper surface of the cover plate 2 is provided with a solar panel 3, and the bottom surface of the cover plate 2 is provided with a heating lamp 10.

The solar panel 3 is used for converting solar energy into electric energy, and can be used for driving the heating lamp 10 and the micropump 4

The heating lamp 10 controls the temperature in the lifting box body 1, the survival rate of seedlings is further improved, and the heating lamp 10 can be started by electric energy converted by the solar panel 3, so that the purposes of low carbon and energy saving are achieved.

The working principle is as follows: when the seedling raising device needs to take out seedlings, the handle 701 is rotated to drive the circular gear 702 to rotate, so that the arc gear 703 meshed with the circular gear 702 rotates downwards, the lifting rod 704 is driven to drive the first sliding block 705 to slide in the first sliding groove 708, the first linkage rod 707 and the second linkage rod 710 are linked through the rotation of the lifting rod 704, the second sliding block 706 and the third sliding block 709 slide in the first sliding groove 708 and the second sliding groove 715 respectively, the first moving rod 714 is pushed to move upwards, the seedlings are ejected out of the seedling raising cup 9 through the push block 713, then the seedlings are taken out, the purpose of quickly taking out the seedlings is achieved, when the seedling raising device needs to irrigate, the micro pump 4 is started, the valve 5 is opened, water is pumped out of the water tank 601, water enters the water outlet pipe 603 through the micro pump 4 and is finally ejected through the nozzle 604 to irrigate the seedlings, the purpose of improving the survival rate of the seedlings is realized.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides a forestry is with energy-conserving device of growing seedlings of low carbon, includes box (1), its characterized in that: the utility model discloses a seedling raising device, including box (1), right flank, water spray mechanism (6), the top of box (1) is provided with rotatable apron (2), the right flank of box (1) is provided with micropump (4), the right flank of box (1) is provided with valve (5), valve (5) are located the top of micropump (4), the right flank of box (1) is provided with water spray mechanism (6), water spray mechanism (6) are located the below of micropump (4), the inside of box (1) is provided with ejection mechanism (7), the inside of box (1) is provided with places board (8), the last fixed surface who places board (8) is connected with seedling raising cup (9), the upper surface of apron (2) is provided with solar panel (3), the bottom surface of apron (2) is provided with heat lamp (10).

2. The low-carbon energy-saving seedling raising device for forestry as claimed in claim 1, characterized in that: the ejection mechanism (7) comprises a handle (701), a lifting rod (704) and a first moving rod (714), a round gear (702) is fixedly connected to the bottom end of the handle (701), an arc gear (703) is fixedly connected to one side face, away from the first moving rod (714), of the lifting rod (704), and the round gear (702) is meshed with the arc gear (703).

3. The low-carbon energy-saving seedling raising device for forestry as claimed in claim 2, characterized in that: one side of the lifting rod (704) close to the first moving rod (714) is rotatably connected with a first linkage rod (707), one side of the lifting rod (704) far away from the first moving rod (714) is rotatably connected with a second linkage rod (710), and one side of the lifting rod (704) close to the first moving rod (714) is rotatably connected with a first sliding block (705).

4. The low-carbon energy-saving seedling raising device for forestry as claimed in claim 3, characterized in that: one side that lifter (704) were kept away from in first gangbar (707) rotates and is connected with second slider (706), one side that lifter (704) were kept away from in second gangbar (710) rotates and is connected with third slider (709), first movable rod (714) are close to one side of lifter (704) and have seted up first spout (708), one side that lifter (704) were kept away from in first slider (705) and second slider (706) all with first spout (708) sliding connection, second spout (715) have been seted up to a inside wall that box (1) are close to lifter (704), one side and second spout (715) sliding connection that lifter (704) were kept away from in third slider (709).

5. The low-carbon energy-saving seedling raising device for forestry according to claim 4, wherein: one side fixedly connected with connecting rod (711) that lifter (704) was kept away from in first movable rod (714), fixed surface is connected with supporting shoe (712) on first movable rod (714), the last fixed surface of supporting shoe (712) is connected with ejector pad (713), the one end fixedly connected with second movable rod (716) that first movable rod (714) was kept away from in connecting rod (711).

6. The low-carbon energy-saving seedling raising device for forestry according to claim 1, characterized in that: the water spraying mechanism (6) comprises a water tank (601), a water inlet (602) is formed in the outer surface of the water tank (601), and a water outlet pipe (603) is arranged inside the water tank (601).

7. The low-carbon energy-saving seedling raising device for forestry according to claim 6, characterized in that: the water outlet pipe (603) penetrates through the inner top wall of the water tank (601) and extends to the upper side of the water tank (601), and one end, far away from the water tank (601), of the water outlet pipe (603) is fixedly connected with a spray head (604).

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