CN215269924U - Floating seedling raising pond - Google Patents

Abstract

The utility model belongs to the facility field of growing seedlings, concretely relates to float pond of growing seedlings, including the cell body, be located the fertilizer groove of cell body one side, be located the advancing guide rail between cell body and the fertilizer groove and set up the running gear on advancing the guide rail, one side of cell body is provided with a plurality of mounting holes with the interval, and this side is relative with one side that is provided with the fertilizer groove, still includes the support, the support includes pillar and branch, the one end setting of pillar is in the mounting hole, and the one end of branch is being connected to the other end of pillar, and the branch other end strides across the cell body, and is located the top of intermediate pipe, branch is the arch, and branch coats and is stamped the canopy membrane. According to the design, when fertilization is carried out, the shed film at one end provided with the travelling mechanism can be lifted upwards and temporarily placed on the supporting rod. By the design, the greenhouse film does not need to be covered with a fertilizer groove and a travelling mechanism, the size of the greenhouse is reduced, and the cost is saved. The fertilizer groove and the travelling mechanism are arranged outside the greenhouse film, and are convenient to observe and maintain.

Description

Floating seedling raising pond

Technical Field

The utility model belongs to the facility field of growing seedlings, concretely relates to showy pond of growing seedlings.

Background

The existing floating seedling raising pool is characterized in that a fertilizer groove and a traveling mechanism provided with a fertilizer applying device are arranged on one side of a pool body of the floating seedling raising pool, and the traveling mechanism moves on one side of the pool body to enable the fertilizer applying device to extract water and fertilizer in the fertilizer groove and spray the water and fertilizer into all parts in the pool body. The fertilizing system can automatically spray liquid manure to all places of the pool body, but has the following problems: when building small-size big-arch shelter on the cell body, if running gear, fertilizer groove, fertilizer injection unit are outside the big-arch shelter, the support of big-arch shelter, canopy membrane etc. will hinder fertilizer injection unit's marcing, just so need cover all facilities such as fertilizer groove, running gear, fertilizer injection unit when building small-size big-arch shelter, nevertheless, can increase the area of big-arch shelter undoubtedly.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the technical problem, the utility model provides a floating seedling raising pond.

The technical scheme is as follows:

the utility model provides a float pond of growing seedlings, includes the cell body, be located the fertilizer groove of cell body one side, be located the cell body and the fertilizer groove between advance the guide rail and set up the running gear on advancing the guide rail, the last fertilizer injection unit that is provided with of running gear, fertilizer injection unit include water pump, drinking-water pipe, intervalve and be provided with the fertilization pipe in hole of fertilizeing, and the one end of water pump is connected with the pipe that fertilizies, and the other end has the pipe that fertilizies through intervalve connection, the lower extreme of drinking-water pipe is located fertilizer groove, the pipe that fertilizies is located the cell body. One side of cell body is provided with a plurality of mounting holes with the interval, and this side is relative with one side that is provided with fertilizer groove, still includes the support, the support includes pillar and branch, the one end setting of pillar is in the mounting hole, and the one end of branch is being connected to the other end of pillar, and the branch other end stridees across the cell body, and is located the top of intervalve, branch is the arch, and branch coats and is stamped the canopy membrane.

This design can be with the canopy membrane lid on the branch of cell body upper end, when fertilizing, can upwards lift the canopy membrane that is provided with running gear's one end, temporarily put on branch, then start running gear and water pump, make running gear reciprocating motion on the guide rail, spout into the cell body with fertilizer in the fertilizer groove. One end of the supporting rod is positioned above the middle pipe, so that the supporting rod does not block the movement of the fertilizing pipe, the middle pipe or the travelling mechanism when the travelling mechanism moves. Due to the design, the greenhouse film does not need to completely cover the fertilizer groove, the walking mechanism and the fertilizer applying device, the size of the greenhouse is reduced, and the cost is saved. The fertilizer groove and the travelling mechanism are arranged outside the greenhouse film, and are convenient to observe and maintain.

Preferably, the shape and size of the foundation column are consistent with those of the mounting hole, and the foundation column is inserted into the mounting hole and is spliced with the mounting hole.

The design makes the mounting and dismounting of the bracket very convenient.

Preferably, the mounting hole is disposed perpendicular to a horizontal plane.

Preferably, the mounting hole is polygonal in shape. Therefore, the foundation column can be prevented from rotating in the mounting hole, and the mounting of the support can be more stable.

Preferably, one side of cell body bottom is provided with the gear area, the gear area sets up the one side of being close to running gear, the outside of fertilization pipe is provided with the stirring leaf, the fertilization pipe through the bearing with the intermediate pipe rotates to be connected, the one end that the fertilization pipe is close to the bearing is provided with drive gear, drive gear with the gear area meshing.

According to the design, when the walking mechanism moves forward, the fertilizing pipe rotates to rapidly and uniformly mix water and fertilizer in the pool body. And the fertilizing tube rotates by the force generated by the movement of the traveling mechanism without independently arranging a driving device.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the utility model with the shed film removed;

FIG. 3 is a schematic view of the structure of FIG. 2 with the bracket removed;

FIG. 4 is a sectional view taken along line A-A of FIG. 2;

FIG. 5 is a schematic structural view of the fertilizing tube;

FIG. 6 is a cross-sectional view of FIG. 5;

wherein: 1. the device comprises a pool body, 2, a fertilizer tank, 3, a traveling guide rail, 4, a traveling mechanism, 5, a fertilizer applying device, 51, a water pump, 52, a water pumping pipe, 53, a middle pipe, 54, a fertilizer applying pipe, 541, a stirring blade, 542, a transmission gear, 6, an installation hole, 7, a support, 71, a base column, 72, a support rod, 8, a shed film, 9 and a gear belt.

Detailed Description

As shown in fig. 1 to 4, a floating nursery pond comprises a pond body 1, a fertilizer tank 2 located on one side of the pond body 1, a traveling guide rail 3 located between the pond body 1 and the fertilizer tank 2, and a traveling mechanism 4 arranged on the traveling guide rail, wherein the traveling guide rail is arranged along the length direction of the pond body, the traveling mechanism is any one of the prior art, the traveling mechanism can reciprocate along the traveling guide rail, a fertilizing device 5 is arranged on the traveling mechanism 3, the fertilizing device 5 comprises a water pump 51, a water pumping pipe 52, a middle pipe 53 and a fertilizing pipe 54 provided with fertilizing holes, one end of the water pump 51 is connected with the fertilizing pipe 54, the other end of the water pump is connected with the fertilizing pipe 54 through the middle pipe 53, the lower end of the water pumping pipe 52 is located in the fertilizer tank 2, and the fertilizing pipe 54 is located in the pond body. The above is a prior art section and will not be described in detail here.

One side of cell body 1 is provided with a plurality of mounting holes 6 with the interval, and this side is relative with one side that is provided with fertilizer groove 2, still includes support 7, support 7 includes pillar 71 and branch 72, the one end setting of pillar 71 is in mounting hole 6, and the one end of branch 72 is being connected to pillar 71's the other end, and the branch 72 other end strides across cell body 1, and is located intermediate tube 53's top, branch 72 is the arch, and branch coats and is stamped canopy membrane 8.

When the design is used, the shed film 8 can be covered on the supporting rod 72 at the upper end of the pool body, so that the periphery of the shed film 8 is dropped around the pool body 1, and then the periphery of the shed film is pressed by a heavy object. When fertilizing, the shed film 8 at one end provided with the travelling mechanism 3 can be lifted upwards and temporarily placed on the supporting rod 72, and then the travelling mechanism 72 and the water pump 51 are started to enable the travelling mechanism to reciprocate on the guide rail, so that the fertilizer in the fertilizer tank 2 is sprayed into the pool body.

In a preferred embodiment, the wall of the tank body 1 can be poured by cement, and the mounting holes 6 are arranged on the wall of the tank body.

The base column 71 can be detachably fixed in the mounting hole by a bolt, can be directly welded in the mounting hole, and can also be directly inserted, the latter embodiment is the latter, namely the base column is consistent with the mounting hole in shape and size, and the base column is inserted into the mounting hole and inserted into the mounting hole.

The mounting holes 6 are arranged perpendicular to the horizontal plane.

The mounting hole 6 has a polygonal shape in order to prevent the base cylinder 71 from rotating.

In order to improve the water and fertilizer mixing effect and efficiency, one side of the bottom of the tank body is provided with a gear belt 9, the gear belt 9 is arranged on one side close to the traveling mechanism 4, as shown in fig. 5 and 6, the outer side of the fertilizing pipe 54 is provided with a stirring blade 541, the fertilizing pipe 54 is rotatably connected with the middle pipe 53 through a bearing, the bearing is a sealed rolling bearing, one end of the fertilizing pipe 54 close to the bearing is provided with a transmission gear 542, and the transmission gear is meshed with the gear belt.

Claims (5)

1. The utility model provides a float pond of growing seedlings, includes the cell body, be located the fertilizer groove of cell body one side, be located the advancing guide rail between cell body and the fertilizer groove and set up the running gear on advancing the guide rail, the last fertilizer injection unit that is provided with of running gear, fertilizer injection unit include water pump, drinking-water pipe, intervalve and be provided with the fertilization pipe in hole of fertilizeing, and the one end of water pump is connected with the pipe that fertilizies, and the other end has the pipe that fertilizies through intervalve connection, the lower extreme of drinking-water pipe is located fertilizer groove, the pipe that fertilizies is located the cell body, its characterized in that: one side of cell body is provided with a plurality of mounting holes at interval, and this side is relative with the one side that is provided with fertilizer groove, still includes the support, the support includes pillar and branch, the one end setting of pillar is in the mounting hole, and the one end of branch is being connected to the other end of pillar, and the branch other end strides the cell body, and is located the top of intermediate tube, branch is the arch, and branch coats and is stamped the canopy membrane.

2. The floating nursery pond according to claim 1, wherein: the shape and size of the foundation column are consistent with those of the mounting hole, and the foundation column is inserted into the mounting hole and is spliced with the mounting hole.

3. The floating nursery pond according to claim 2, wherein: the mounting hole is perpendicular to the horizontal plane.

4. The floating nursery pond according to claim 2, wherein: the mounting hole is polygonal in shape.

5. The floating nursery pond according to claim 1, wherein: one side of cell body bottom is provided with the gear area, the gear area sets up the one side of being close to running gear, the outside of fertilization pipe is provided with the stirring leaf, the fertilization pipe pass through the bearing with the intervalve rotates to be connected, the one end that the fertilization pipe is close to the bearing is provided with drive gear, drive gear with the gear area meshing.

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