CN218388916U - Forestry seedling breeding device - Google Patents

Abstract

Forestry seedling culture apparatus, including supporting base, the automatic irrigation pipe of a type, the automatic irrigation pipe of two types, culture tank, the support is cultivated to the high position, support, fixed magnetite, it has the supporting leg to support the base bottom, support the base top and have low level support mounting groove, high level support mounting groove, low level support mounting groove, high level support mounting groove are crisscross arranges, low level support mounting groove, the inside magnetite insertion groove that all has of high level support mounting groove, the magnetite insertion groove suits with fixed magnetite, fixed magnetite is connected to the magnetite insertion groove, fixed magnetite is fixed to be inserted inside the magnetite insertion groove, low level cultivation support bottom suits with low level support mounting groove, low level cultivation leg joint low level support mounting groove, low level cultivation support bottom inserts inside low level support mounting groove.

Description

Forestry seedling breeding device

Technical Field

The utility model relates to a forestry seedling culture field especially relates to a forestry seedling culture device.

Background

The prior patent (publication number: CN 109618742) proposes a forestry seedling cultivation device, which comprises a water seepage hole and a handle; the culture plate frames are of cuboid hollow structures, the peripheries of the culture plate frames are respectively attached to other culture plate frames, and the culture plate frames are buried in soil; soil is filled in the culture plate frame, and the air holes and the water permeable holes are regularly distributed on the upper layer end face and the lower layer end face of the culture plate frame; one end of the drip irrigation pipe is communicated with an external water supply device, and the other end of the drip irrigation pipe is connected with drip irrigation pipes inside other culture plate frames; be favorable to taking out the seedling root system that has earth is complete from planting the bucket inside, however all seedlings are in the coplanar in this device, and seedling cultivation is too intensive probably to lead to circulation of air not smooth between the seedling, influences the cultivation assembly of seedling.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to the aforesaid that prior art exists, provide a high-order cultivation support, low-order cultivation support adopt the configuration of difference of height, make longitudinal separation increase between each seedling in the forestry seedling cultivation process to increase the distance between the seedling under the condition that does not increase transverse separation, thereby increase the air permeability between each seedling under the condition that guarantees not increase in occupation of land space, make the more vigorous forestry seedling cultivation device of seedling growth.

The utility model aims at realizing through the following technical scheme:

the utility model provides a forestry seedling culture apparatus, including supporting base, the automatic irrigation pipe of a type, the automatic irrigation pipe of two types, cultivate the groove, the support is cultivated to the high-order, the support is cultivated to the low level, fixed magnetite, it has the supporting leg to support the base bottom, support the base top and have low level support mounting groove, high level support mounting groove, low level support mounting groove, high level support mounting groove is crisscross arranges, low level support mounting groove, the inside magnetite insertion groove that all has of high level support mounting groove, the magnetite insertion groove suits with fixed magnetite, the fixed magnetite of magnetite insertion groove connection, fixed magnetite inserts inside the magnetite insertion groove, low level is cultivated support bottom and is adapted to low level support mounting groove, low level is cultivated support bottom and is inserted inside low level support mounting groove, high level is cultivated support bottom and is adapted to high level support mounting groove, high level is cultivated support bottom and is inserted inside high level support mounting groove.

The high-order support of cultivating, the low-order support top of cultivating has the culture tank spread groove, it has the handle of snatching to cultivate the tank top, it suits with the culture tank to cultivate the tank spread groove, cultivate the tank joint culture tank spread groove, it inserts inside cultivateing the tank spread groove to cultivate the tank, it has a type to irrigate the spread groove to support the base top, the spread groove is irrigated to the type, the spread groove distributes in low-order support mounting groove array group both sides, the spread groove distributes in high-order support mounting groove array group both sides is irrigated to the type, a type automatic irrigation pipe, type automatic irrigation pipe upper portion has the irrigation mouth, a type automatic irrigation pipe, type automatic irrigation pipe side has the water pipe connector.

The bottom of the first-type automatic irrigation pipe is provided with a first-type irrigation connecting block, the first-type irrigation connecting block is matched with a first-type irrigation connecting groove, the first-type irrigation connecting block is connected with a first-type irrigation connecting groove, and the first-type irrigation connecting block is inserted into the first-type irrigation connecting groove.

The bottom of the two-type automatic irrigation pipe is provided with a two-type irrigation connecting block, and the two-type irrigation connecting block is matched with the two-type irrigation connecting groove.

The spread groove is irrigated to type II irrigation connecting block connection type II, and the connecting block is irrigated to type II inserts inside the spread groove is irrigated to type II.

Has the beneficial effects that:

1. the utility model discloses the high-order is cultivated support, low level and is cultivated the configuration that the support adopted the height difference, makes longitudinal separation increase between each seedling in the forestry seedling cultivation process to increase the distance between the seedling under the condition that does not increase horizontal interval, thereby increase the air permeability between each seedling under the condition that guarantees not increase in occupation of land space, make the seedling growth more healthy and strong.

2. The utility model discloses automatic irrigation pipe of a type, the automatic irrigation pipe side of two types have water piping connection mouth, make this device through with water piping connection at forestry seedling culture in-process, realize the automatic watering to all seedlings, make the culture process more automatic.

3. The utility model discloses a type automatic irrigation pipe, the automatic irrigation pipe of two types adopt split type design with the support base, make when carrying out forestry seedling cultivation, can pull down the automatic irrigation pipe of type, the automatic irrigation pipe of two types, make the automatic irrigation pipe of type, the automatic irrigation pipe of two types can not obstruct putting into of culture tank, promote the convenience of cultivating the seedling.

4. The utility model discloses low level support mounting groove, high-order support mounting groove internally mounted have fixed magnetite, and fixed magnetite can cultivate the support actuation with installing high-order cultivation support, low-order on supporting the base, guarantees that high-order cultivation support, low-order cultivation support mounting's stability, avoids high-order cultivation support, low-order cultivation support to empty because of the external force such as blowing, guarantees the security of this device forestry seedling cultivation in-process.

Drawings

Figure 1 is forestry seedling culture device schematic structure.

Figure 2 is forestry seedling culture device side view sectional view.

Fig. 3 is a schematic view of the structure of the support base of the present invention.

Fig. 4 is a schematic view of the high-level cultivation bracket of the present invention.

Fig. 5 is a schematic view of the low-position cultivation bracket of the present invention.

FIG. 6 is a schematic view of the structure of the culture tank of the present invention.

Detailed Description

The invention is explained in more detail below with reference to the drawings and examples:

example 1:

a seedling cultivating device for forestry comprises a supporting base 1, an automatic irrigation pipe 7 of a type I, an automatic irrigation pipe 8 of a type II, a cultivating tank 9, a high-level cultivating bracket 11, a low-level cultivating bracket 12 and a fixed magnet 17, wherein a supporting leg 2 is arranged at the bottom of the supporting base 1, a low-level bracket mounting groove 13 and a high-level bracket mounting groove 14 are arranged at the top of the supporting base 1, the low-level bracket mounting groove 13 and the high-level bracket mounting groove 14 are arranged in a staggered manner, magnet insertion grooves 16 are respectively arranged in the low-level bracket mounting groove 13 and the high-level bracket mounting groove 14, the magnet insertion grooves 16 are matched with the fixed magnet 17, the magnet insertion grooves 16 are connected with the fixed magnet 17, the fixed magnet 17 is fixedly inserted into the magnet insertion grooves 16, the fixed magnet 17 is arranged in the low-level bracket mounting groove 13 and the high-level bracket mounting groove 14, the fixed magnet 17 can be attracted with the high-level cultivating bracket 11 and the low-level cultivating bracket 12 which are arranged on the supporting base 1, the installation stability of the high-level cultivation support 11 and the low-level cultivation support 12 is ensured, the high-level cultivation support 11 and the low-level cultivation support 12 are prevented from toppling over due to wind-blowing and other external forces, the safety of the device in the cultivation process of forestry seedlings is ensured, the bottom of the low-level cultivation support 12 is adapted to the low-level support installation groove 13, the low-level cultivation support 12 is connected with the low-level support installation groove 13, the bottom of the low-level cultivation support 12 is inserted into the low-level support installation groove 13, the bottom of the high-level cultivation support 11 is adapted to the high-level support installation groove 14, the high-level cultivation support 11 is connected with the high-level support installation groove 14, the bottom of the high-level cultivation support 11 is inserted into the high-level support installation groove 14, the high-level cultivation support 11 and the low-level cultivation support 12 adopt different configurations, so that the longitudinal distance between seedlings is increased in the cultivation process of the forestry seedlings, therefore, the distance between seedlings is increased under the condition that the transverse spacing is not increased, the ventilation between the seedlings is increased under the condition that the occupied space is not increased, and the seedlings grow more sturdily.

Example 2:

support 11 is cultivated to the high position, support 12 top is cultivated to the low position has culture tank spread groove 18, culture tank 9 top has snatchs handle 10, culture tank spread groove 18 suits with culture tank 9, culture tank 9 connects culture tank spread groove 18, culture tank 9 inserts inside culture tank spread groove 18, it has one type to irrigate spread groove 3 to support 1 top of base, two type irrigate spread groove 4, one type irrigates spread groove 3 and distributes in low level support mounting groove 13 array group both sides, two type irrigate spread groove 4 and distribute in high level support mounting groove 14 array group both sides, one type automatic irrigation pipe 7, 8 upper portions of two type automatic irrigation pipe have irrigation mouth 15, one type automatic irrigation pipe 7, 8 sides of two type automatic irrigation pipe have water pipe 19, make this device through with water piping connection in the seedling cultivation process, realize the automatic irrigation to all seedlings, make the cultivation process more automatic, one type automatic irrigation pipe 7, 8 sides of two type automatic irrigation pipe have water pipe connector 19.

Example 3:

7 bottoms of a type automatic irrigation pipe have a type and irrigate connecting block 5, and a type is irrigated connecting block 5 and is irrigated spread groove 3 and suit with a type, and a type is irrigated connecting block 5 and is connected a type and irrigate spread groove 3, and a type is irrigated connecting block 5 and insert inside a type is irrigated spread groove 3.

Example 4:

two type irrigate that 8 bottoms of pipe have two type to irrigate connecting block 6, two type irrigate connecting block 6 and two type irrigate spread groove 4 and suit.

Example 5:

connecting block 6 connection two types of irrigation spread groove 4 is irrigated to the two type, and connecting block 6 is irrigated to the two type and inserts inside spread groove 4 is irrigated to the two type, and automatic irrigation pipe 7 of one type, the automatic irrigation pipe 8 of two type adopt split type design with supporting base 1, make when carrying out forestry seedling cultivation, can pull down automatic irrigation pipe 7 of one type, the automatic irrigation pipe 8 of two type, make automatic irrigation pipe 7 of one type, the automatic irrigation pipe 8 of two type can not hinder putting into of cultivateing groove 9, promote the convenience of cultivating the seedling.

Example 6:

the utility model discloses the installation step: firstly, a fixed magnet 17 is inserted into a magnet insertion groove 16 of a support base 1, a low-level cultivation support 12 is inserted into a low-level support installation groove 13 of the support base 1, a high-level cultivation support 11 is inserted into a high-level support installation groove 14 of the support base 1, a cultivation groove 9 is inserted into the high-level cultivation support 11 and a cultivation groove connection groove 18 of the low-level cultivation support 12, a type-irrigation connection block 5 of a type-automatic irrigation pipe 7 is inserted into a type-irrigation connection groove 3 of the support base 1, a type-two irrigation connection block 6 of a type-two automatic irrigation pipe 8 is inserted into a type-two irrigation connection groove 4 of the support base 1, and the device is installed.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (5)

1. A seedling cultivation device for forestry is characterized by comprising a supporting base (1), a first-type automatic irrigation pipe (7), a second-type automatic irrigation pipe (8), a cultivation tank (9), a high-level cultivation support (11), a low-level cultivation support (12) and fixed magnets (17), wherein supporting legs (2) are arranged at the bottom of the supporting base (1), a low-level support mounting groove (13) and a high-level support mounting groove (14) are formed in the top of the supporting base (1), the low-level support mounting groove (13) and the high-level support mounting groove (14) are arranged in a staggered mode, magnet insertion grooves (16) are formed in the low-level support mounting groove (13) and the high-level support mounting groove (14), the magnet insertion grooves (16) are matched with the fixed magnets (17), the magnet insertion grooves (16) are connected with the fixed magnets (17), the fixed magnets (17) are fixedly inserted in the magnet insertion grooves (16), the bottom of the low-level cultivation support (12) is matched with the low-level support mounting groove (13), the low-level cultivation support (12) is connected with the low-level support mounting groove (13), the bottom of the high-level cultivation support mounting groove (11) is matched with the high-level support mounting groove (14), the bottom of the high-level cultivation support (11) is inserted into the high-level support mounting groove (14).

2. The forestry seedling cultivation device of claim 1, wherein the high-order cultivation support (11), the low-order cultivation support (12) top has a cultivation tank connection groove (18), the cultivation tank (9) top has a grabbing handle (10), the cultivation tank connection groove (18) is adapted to the cultivation tank (9), the cultivation tank (9) is connected with the cultivation tank connection groove (18), the cultivation tank (9) is inserted inside the cultivation tank connection groove (18), the support base (1) top has a type-I irrigation connection groove (3), a type-II irrigation connection groove (4), the type-I irrigation connection groove (3) is distributed on both sides of the array group of the low-order support mounting groove (13), the type-II irrigation connection groove (4) is distributed on both sides of the array group of the high-order support mounting groove (14), the type-I automatic irrigation pipe (7), the upper portion of the type-II automatic irrigation pipe (8) has an irrigation opening (15), the type-I automatic irrigation pipe (7), the side of the type-II automatic irrigation pipe (8) has a water pipe connector (19).

3. A seedling cultivation device for forestry as claimed in claim 2, wherein the automatic irrigation pipe (7) of the type I has a type I irrigation connection block (5) at the bottom, the type I irrigation connection block (5) is adapted to the type I irrigation connection groove (3), the type I irrigation connection block (5) is connected to the type I irrigation connection groove (3), and the type I irrigation connection block (5) is inserted into the type I irrigation connection groove (3).

4. A seedling cultivation device as claimed in claim 3, wherein the second type automatic irrigation pipe (8) has a second type irrigation connection block (6) at the bottom, and the second type irrigation connection block (6) is adapted to the second type irrigation connection groove (4).

5. A seedling cultivation apparatus as claimed in claim 4, characterized in that the type two irrigation connection block (6) is connected to the type two irrigation connection trough (4), the type two irrigation connection block (6) being inserted inside the type two irrigation connection trough (4).

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