CN218921075U - Strawberry planting device - Google Patents

Abstract

The utility model provides a strawberry planting device, a water seepage net is paved on a cultivation groove, a heat exchange pipeline is paved above the water seepage net, a vertical baffle is arranged at one end of the cultivation groove to form a space between a planting area of the cultivation groove and the end part of the cultivation groove, the bottom of the vertical baffle is not sealed with the bottom of the cultivation groove, and therefore the lower part of the water seepage net of the cultivation area is communicated with the space below the vertical baffle; an upright overflow pipe is arranged in the space, the bottom end of the overflow pipe penetrates through the bottom of the space and is connected to a water return pipe, and an opening is formed in the space by the overflow pipe; the opening is provided with a lifting plugging piece for adjusting the exposure position of the opening; and the other end of the cultivation groove is provided with a water pipe. This application is with strawberry planting device, can erect on ground, does not cause pollution to soil, has reduced the degree of difficulty, the reduction fatigue of workman's work moreover. Through temperature regulation, the simulation of ground planting can be achieved.

Description

Strawberry planting device

Technical Field

The utility model relates to a strawberry planting device, in particular to a strawberry planting device convenient to manage.

Background

Strawberry is also called red strawberry, raspberry, strawberry, pineapple strawberry and the like, and is a red fruit. The strawberry has the appearance of berry-shaped round body or heart, is delicious, red and tender, has juicy pulp, is sweet and sour, delicious and aromatic in flavor, has the effects of moistening lung, promoting fluid production, strengthening spleen, relieving summer heat, relieving fever, promoting urination and quenching thirst, is deeply favored by consumers at home and abroad, and has the reputation of fruit queen.

The traditional strawberry cultivation method mainly comprises two modes, namely greenhouse cultivation and open field cultivation, and the strawberry is directly cultivated on the land in any cultivation mode. The strawberry is directly planted on the land, the operations of field planting, old leaf beating and harvesting in the cultivation process are performed by bending down manually, labor is wasted, the strawberry is directly planted on the land, irrigation is strictly controlled, water in the soil is difficult to discharge, once the strawberry is watered too much, the soil absorbs water too much, the soil is excessively wet for a long time, virus fungi are easy to breed, and the root lacks air required by breathing, so that root diseases of the strawberry are easy to occur.

And the soil is obviously damaged by direct planting on the soil, such as soil pollution caused by fertilization and drug spraying, and even salinization.

For this reason, there is a need for a strawberry cultivation apparatus that can be managed easily.

Disclosure of Invention

In order to overcome the problems associated with strawberry direct planting on land, the present application provides a strawberry planting device.

The utility model provides a strawberry planting device, which comprises a cultivation groove, wherein a water seepage net is paved in the cultivation groove to divide the cultivation groove into an upper part and a lower part; a heat exchange pipeline is paved above the water seepage net, and a heat exchange medium inlet of the heat exchange pipeline extends out of the cultivation groove from the tail end of the cultivation groove and is connected with a heat exchange medium liquid supply pipe; the heat exchange medium outlet of the heat exchange pipeline extends out of the cultivation groove from the tail end of the cultivation groove and is connected with a heat exchange medium recovery pipe;

a vertical baffle plate is arranged at one end of the cultivation groove to form a space between the cultivation area and the end part of the cultivation groove, and the bottom of the vertical baffle plate is not sealed with the bottom of the cultivation groove, so that the lower part of the water seepage net of the cultivation area is communicated with the space below the vertical baffle plate; an upright overflow pipe is arranged in the space, the bottom end of the overflow pipe penetrates through the bottom of the space and is connected to a water return pipe, and an opening is formed in the space by the overflow pipe; the opening is provided with a lifting plugging piece for adjusting the exposure position of the opening; and the other end of the cultivation groove is provided with a water pipe.

In a preferred embodiment, the overflow tube opening is not necessarily higher than the top of the vertical baffle.

In a preferred embodiment, the number of the heat exchange medium pipelines is two, the heat exchange medium inlets of the two heat exchange medium pipelines are respectively arranged at different ends of the cultivation groove, and the heat exchange medium outlets are respectively arranged at different ends of the cultivation groove; and the two heat exchange medium pipelines are arranged in parallel. I.e. the two heat exchange medium pipes are in opposite flow directions.

In a preferred embodiment, the heat exchange tube is a tube which enters from one end of the cultivation tank and returns after reaching the other end, and the returning tube is arranged in parallel with the original tube, so that the heat exchange medium inlet and the heat exchange medium outlet are located at the same end of the cultivation tank.

In a preferred embodiment, the liftable plugging piece is an elastic sleeve, and is sleeved on the overflow pipe.

In a preferred embodiment, the liftable plugging piece is of a cylindrical structure, and the inner wall is provided with threads and is meshed with threads arranged on the outer wall of the overflow pipe.

In a preferred embodiment, the bottom of the space is further provided with a second liquid return port, the second liquid return port is lower than the water seepage net, and the second liquid return port and the overflow pipe can be connected to the same recovery pipe or can be respectively and independently connected with the recovery pipes.

Preferably, the strawberry planting device further comprises a residual nutrient solution recovery system, and the residual nutrient solution recovery system sequentially comprises:

a recovery liquid pool for collecting recovery liquid discharged during irrigation; preferably, both the overflow pipe and the second liquid return port can be connected to the recovery liquid tank through a recovery pipe to which the overflow pipe and the second liquid return port are connected;

the recovery liquid filter is communicated with the recovery liquid pool; for filtering the recovery liquid;

the ozone disinfection device is communicated with the recycling liquid filter; the ozone disinfection is carried out on the recovery liquid;

the ultraviolet disinfection device is communicated with the ozone disinfection device; is used for ultraviolet disinfection of the recovery liquid.

Further, the recovery liquid filter is a sand filter with an automatic backwashing function.

In a preferred embodiment, a support is provided at the bottom of the cultivation tank to support the cultivation tank off the ground.

Preferably, the supporting frame is a liftable supporting frame and comprises a tray for bearing the cultivation groove and a base for supporting the cultivation groove on the ground, at least two lifting devices are arranged between the tray and the base, each lifting device comprises a sleeve and a lifting rod inserted into the sleeve, the top of the lifting rod is connected with the tray, and the bottom of the sleeve is connected with the base; each sleeve is provided with an exposure window, and racks on the outer wall of each lifting rod are meshed with driving gears outside the sleeve through the exposure windows, and the driving gears are connected to the same driving rod.

For example, the driving rod is a rotary driving rod, is arranged along the length direction of the cultivation groove, and passes through each driving gear.

In a preferred embodiment, a screw hole is provided on the side of the sleeve facing away from the window, and after reaching the preset lifting position, a fastening screw is inserted from the screw hole to fasten the lifting rod

In a preferred embodiment, a moving rail is provided along the extending direction of the cultivating groove, and a working trolley capable of moving along the moving rail is provided on the moving rail.

This application is with strawberry planting device, can erect on ground, does not cause pollution to soil, has reduced the degree of difficulty, the reduction fatigue of workman's work moreover. Through temperature regulation, the simulation of ground planting can be achieved.

The cultivation groove is divided into an upper part and a lower part through the water seepage net, so that the requirements of root systems of cultivated crops on rhizosphere nutrition, moisture and oxygen can be fully met; and the irrigation water quantity can be regulated, and the irrigation water or nutrient solution can overflow or be discharged when accumulating to a certain quantity.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a strawberry cultivation tank of the present utility model;

fig. 2 is a schematic diagram of the structure of the return pipe and the second return port in the strawberry cultivation device of the utility model.

Fig. 3 is a schematic view of the structure of the lifter driving of the present utility model.

Detailed Description

Example 1

According to fig. 1 and 2, the strawberry planting device comprises a cultivation groove 1, wherein a water seepage net 2 is paved in the cultivation groove to divide the cultivation groove 1 into an upper part and a lower part; a heat exchange pipeline 5 is paved above the water seepage net 2 and buried in the planting substrate soil, and a heat exchange medium inlet 51 of the heat exchange pipeline 5 extends out of the cultivation groove 1 from the tail end of the cultivation groove and is connected with a heat exchange medium liquid supply pipe; the heat exchange medium outlet 52 of the heat exchange pipeline 5 extends out of the cultivation tank 1 from the cultivation tank end and is connected with a heat exchange medium recovery pipe. Referring to fig. 1, the heat exchange pipe 5 is a pipe, the pipe enters from one end of the cultivation tank, returns after reaching the other end, and the returning pipe is arranged in parallel with the initial pipe, so that the heat exchange medium inlet 51 and the heat exchange medium outlet 52 are positioned at the same end of the cultivation tank, for example, the temperature of the substrate soil is higher when the heat exchange medium enters, the temperature of the heat exchange medium gradually decreases after heat exchange, a significant temperature difference exists between the heat exchange medium outlet 52 and the heat exchange medium inlet 51, if the heat exchange medium flows unidirectionally, the upstream and downstream temperatures are uniform, in this embodiment, the returned heat exchange medium with the reduced temperature acts simultaneously with the heat exchange medium with the higher temperature when the heat exchange medium enters, and the difference of the average temperature is not obvious, so that the substrate soil can be heated uniformly.

Referring to fig. 2, a vertical baffle plate 4 is arranged at one end of the cultivation tank 1 to form a space 3 between a cultivation area and the end of the cultivation tank, the bottom of the vertical baffle plate 4 is not sealed with the bottom of the cultivation tank 1, and therefore the lower part of a water seepage net of the cultivation area is communicated with the space 3 below the vertical baffle plate 4; an upright overflow pipe 6 is arranged in the space 3, the bottom end of the overflow pipe 6 passes through the bottom of the space 3 and is connected to a water return pipe, and an opening 61 is arranged in the space of the overflow pipe 6; a liftable plugging piece 62 is arranged at the opening 61 and is used for adjusting the exposure position of the opening 61; a water pipe (not shown) is provided at the other end of the cultivation tank 1. The lifting plugging piece can be an elastic sleeve which is sleeved on the overflow pipe, if irrigation is performed, water enters the bottom of the cultivation groove 1 through the water seepage net 2 so as to be accumulated at the bottom and enter the space 3, part of water can be accumulated below the water seepage net 1 and used for moistening the substrate soil, the irrigation times are reduced, but if irrigation is performed for a time, the water surface reaches an opening 61 in the space 3, and the excessive water is discharged through the opening 61; by adjusting the position of the sleeve, the exposed position of the opening 61 can be adjusted, thereby adjusting the water surface height, i.e., the water accumulation amount in the cultivation groove 1.

The bottom of the space is also provided with a second liquid return port 7, and the second liquid return port 7 is lower than the water seepage net; the second liquid return port 7 and the overflow pipe 6 are connected to the same recovery pipe or are respectively and independently connected with the recovery pipes. The second liquid return port 7 may not be used at ordinary times, but when it is necessary to drain all the water in the cultivation tank, the second liquid return port 7 is used.

The strawberry planting device further comprises a residual nutrient solution recovery system, and the residual nutrient solution recovery system sequentially comprises:

a recovery liquid pool for collecting recovery liquid discharged during irrigation; preferably, both the overflow pipe and the second liquid return port can be connected to the recovery liquid tank through a recovery pipe to which the overflow pipe and the second liquid return port are connected;

a recovery liquid filter, such as a sand filter with an automatic backwashing function, is communicated with the recovery liquid pond; for filtering the recovery liquid;

the ozone disinfection device is communicated with the recycling liquid filter; the ozone disinfection is carried out on the recovery liquid;

the ultraviolet disinfection device is communicated with the ozone disinfection device; is used for ultraviolet disinfection of the recovery liquid.

The bottom of the cultivation groove 1 is provided with a supporting frame which supports the cultivation groove off the ground. The support frame is a liftable support frame and comprises a tray for bearing a cultivation groove and a base for supporting the cultivation groove on the ground, at least two lifting devices are arranged between the tray and the base, each lifting device comprises a sleeve and a lifting rod inserted into the sleeve, the top of the lifting rod is connected with the tray, and the bottom of the sleeve is connected with the base; each sleeve is provided with an exposure window, the rack on the outer wall of each lifting rod is meshed with the external driving gear of the sleeve through the exposure window, and referring to FIG. 3, the driving gears 81 rotating in the vertical planes are connected to the same horizontal driving rod 8; the driving rod 8 is a rotary driving rod, is arranged along the length direction of the cultivation groove and passes through each driving gear 81; the driving rod 8 drives the driving gear 81 to rotate, so that the rack 91 is driven to lift, and the lifting rod 9 is driven to lift, so that the synchronous lifting of each supporting frame is realized. And one side of the sleeve, which is opposite to the window, is provided with a screw hole, and after the preset lifting position is reached, the lifting rod is screwed and fixed after the fastening screw is inserted from the screw hole.

Along the extending direction of the cultivation groove, a moving track is arranged, and a working trolley capable of moving along the moving track is arranged on the moving track

Example 2

According to fig. 1 and 2, the strawberry planting device comprises a cultivation groove 1, wherein a water seepage net 2 is paved in the cultivation groove to divide the cultivation groove 1 into an upper part and a lower part; a heat exchange pipeline 5 is paved above the water seepage net 2 and buried in the planting substrate soil, and a heat exchange medium inlet 51 of the heat exchange pipeline 5 extends out of the cultivation groove 1 from the tail end of the cultivation groove and is connected with a heat exchange medium liquid supply pipe; the heat exchange medium outlet 52 of the heat exchange pipeline 5 extends out of the cultivation tank 1 from the cultivation tank end and is connected with a heat exchange medium recovery pipe.

Unlike embodiment 1, the heat exchange pipes 5 are two parallel pipes, the two heat exchange pipes have opposite flow directions, taking the temperature rising of the substrate soil as an example, the temperature of the heat exchange medium is higher when the heat exchange medium enters, the temperature of the heat exchange medium gradually decreases after heat exchange, the same heat exchange pipe has obvious temperature difference with the inlet of the heat exchange medium at the outlet of the heat exchange medium, if the heat exchange medium flows unidirectionally, the upstream and downstream temperatures are uniform, in this embodiment, the heat exchange medium with the temperature reduced in the first heat exchange pipe and the heat exchange medium with the higher temperature entering of the second heat exchange pipe act simultaneously, the temperature average value difference is not obvious, and the substrate soil can be heated uniformly.

Referring to fig. 2, a vertical baffle plate 4 is arranged at one end of the cultivation tank 1 to form a space 3 between a cultivation area and the end of the cultivation tank, the bottom of the vertical baffle plate 4 is not sealed with the bottom of the cultivation tank 1, and therefore the lower part of a water seepage net of the cultivation area is communicated with the space 3 below the vertical baffle plate 4; an upright overflow pipe 6 is arranged in the space 3, the bottom end of the overflow pipe 6 passes through the bottom of the space 3 and is connected to a water return pipe, and an opening 61 is arranged in the space of the overflow pipe 6; a liftable plugging piece 62 is arranged at the opening 61 and is used for adjusting the exposure position of the opening 61; a water pipe (not shown) is provided at the other end of the cultivation tank 1. The liftable plugging piece 62 is of a cylindrical structure, and the inner wall of the liftable plugging piece is provided with threads and meshed with threads arranged on the outer wall of the overflow pipe. If irrigation is performed, water enters the bottom of the cultivation groove 1 through the water seepage net 2 so as to accumulate at the bottom and enter the space 3, part of water can be accumulated below the water seepage net 1 and used for moistening matrix soil for the purpose, irrigation times are reduced, but if irrigation is performed for a time, water surface reaches an opening 61 in the space 3, and excessive water is discharged through the opening 61; by adjusting the position of the sleeve 62 by screw threads, the exposed position of the opening 61 can be adjusted, thereby adjusting the water level, i.e. the water accumulation in the cultivation tank 1.

The bottom of the space is also provided with a second liquid return port 7, and the second liquid return port 7 is lower than the water seepage net; the second liquid return port 7 and the overflow pipe 6 are connected to the same recovery pipe or are respectively and independently connected with the recovery pipes. The second liquid return port 7 may not be used at ordinary times, but when it is necessary to drain all the water in the cultivation tank, the second liquid return port 7 is used.

The strawberry planting device further comprises a residual nutrient solution recovery system, and the residual nutrient solution recovery system sequentially comprises:

a recovery liquid pool for collecting recovery liquid discharged during irrigation; preferably, both the overflow pipe and the second liquid return port can be connected to the recovery liquid tank through a recovery pipe to which the overflow pipe and the second liquid return port are connected;

a recovery liquid filter, such as a sand filter with an automatic backwashing function, is communicated with the recovery liquid pond; for filtering the recovery liquid;

the ozone disinfection device is communicated with the recycling liquid filter; the ozone disinfection is carried out on the recovery liquid;

the ultraviolet disinfection device is communicated with the ozone disinfection device; is used for ultraviolet disinfection of the recovery liquid.

The bottom of the cultivation groove 1 is provided with a supporting frame which supports the cultivation groove off the ground. The support frame is a liftable support frame and comprises a tray for bearing a cultivation groove and a base for supporting the cultivation groove on the ground, at least two lifting devices are arranged between the tray and the base, each lifting device comprises a sleeve and a lifting rod inserted into the sleeve, the top of the lifting rod is connected with the tray, and the bottom of the sleeve is connected with the base; each sleeve is provided with an exposure window, the rack on the outer wall of each lifting rod is meshed with the external driving gear of the sleeve through the exposure window, and referring to FIG. 3, the driving gears 81 rotating in the vertical planes are connected to the same horizontal driving rod 8; the driving rod 8 is a rotary driving rod, is arranged along the length direction of the cultivation groove and passes through each driving gear 81; the driving rod 8 drives the driving gear 81 to rotate, so that the rack 91 is driven to lift, and the lifting rod 9 is driven to lift, so that the synchronous lifting of each supporting frame is realized. And one side of the sleeve, which is opposite to the window, is provided with a screw hole, and after the preset lifting position is reached, the lifting rod is screwed and fixed after the fastening screw is inserted from the screw hole.

Along the extending direction of the cultivation groove, a moving track is arranged, and a working trolley capable of moving along the moving track is arranged on the moving track

The above description of the specific embodiments of the present utility model has been given by way of example only, and the present utility model is not limited to the above described specific embodiments. Any equivalent modifications and substitutions for the present utility model will occur to those skilled in the art, and are also within the scope of the present utility model. Accordingly, equivalent changes and modifications are intended to be included within the scope of the present utility model without departing from the spirit and scope thereof.

Claims (10)

1. The strawberry planting device is characterized by comprising a cultivation groove, wherein a water seepage net is paved in the cultivation groove to divide the cultivation groove into an upper part and a lower part; a heat exchange pipeline is paved above the water seepage net, and a heat exchange medium inlet of the heat exchange pipeline extends out of the cultivation groove from the tail end of the cultivation groove and is connected with a heat exchange medium liquid supply pipe; the heat exchange medium outlet of the heat exchange pipeline extends out of the cultivation groove from the tail end of the cultivation groove and is connected with a heat exchange medium recovery pipe;

a vertical baffle plate is arranged at one end of the cultivation groove to form a space between the cultivation area and the end part of the cultivation groove, and the bottom of the vertical baffle plate is not sealed with the bottom of the cultivation groove, so that the lower part of the water seepage net of the cultivation area is communicated with the space below the vertical baffle plate; an upright overflow pipe is arranged in the space, the bottom end of the overflow pipe penetrates through the bottom of the space and is connected to a water return pipe, and an opening is formed in the space by the overflow pipe; the opening is provided with a lifting plugging piece for adjusting the exposure position of the opening; and the other end of the cultivation groove is provided with a water pipe.

2. The apparatus of claim 1, wherein the number of heat exchange pipes is two, the heat exchange medium inlets of the two heat exchange medium pipes are respectively arranged at different ends of the cultivation tank, and the heat exchange medium outlets are respectively arranged at different ends of the cultivation tank; and the two heat exchange medium pipelines are arranged in parallel.

3. The apparatus of claim 1, wherein the heat exchange tube is a tube which enters from one end of the cultivation tank and returns after reaching the other end, and the returned tube is arranged in parallel with the original tube so that the heat exchange medium inlet and the heat exchange medium outlet are located at the same end of the cultivation tank.

4. The device of claim 1, wherein the liftable plug is an elastic sleeve sleeved on the overflow pipe; or the liftable plugging piece is of a cylindrical structure, the inner wall of the liftable plugging piece is provided with threads, and the liftable plugging piece is meshed with the threads arranged on the outer wall of the overflow pipe.

5. The device according to claim 1, wherein the bottom of the space is further provided with a second liquid return port; the second liquid return port and the overflow pipe are connected to the same recovery pipe or are respectively and independently connected with the recovery pipes.

6. The apparatus of claim 5, wherein the strawberry planting apparatus further comprises a residual nutrient solution recovery system, the residual nutrient solution recovery system comprising, in order:

a recovery liquid pool for collecting recovery liquid discharged during irrigation; both the overflow pipe and the second liquid return port can be connected to the recovery liquid pool through the recovery pipe connected with the overflow pipe and the second liquid return port;

the recovery liquid filter is communicated with the recovery liquid pool; for filtering the recovery liquid;

the ozone disinfection device is communicated with the recycling liquid filter; the ozone disinfection is carried out on the recovery liquid; the ultraviolet disinfection device is communicated with the ozone disinfection device; is used for ultraviolet disinfection of the recovery liquid.

7. The apparatus of claim 6, wherein the recovery liquid filter is a sand filter having an automatic backwash function.

8. The apparatus of claim 1, wherein a support is provided at the bottom of the trough to hold the trough off the ground.

9. The device of claim 8, wherein the support frame is a liftable support frame and comprises a tray for bearing the cultivation groove and a base for supporting on the ground, at least two lifting devices are arranged between the tray and the base, each lifting device comprises a sleeve and a lifting rod inserted into the sleeve, the top of the lifting rod is connected with the tray, and the bottom of the sleeve is connected with the base; each sleeve is provided with an exposure window, the rack on the outer wall of each lifting rod is meshed with a driving gear outside the sleeve through the exposure window, and the driving gears are connected to the same driving rod; the driving rod is a rotary driving rod, is arranged along the length direction of the cultivation groove and passes through each driving gear;

and one side of the sleeve, which is opposite to the window, is provided with a screw hole, and the lifting rod is screwed and fixed after the fastening screw is inserted from the screw hole.

10. The apparatus according to claim 1, wherein a moving rail is provided along the extending direction of the cultivating groove, and a working carriage is provided on the moving rail to be movable along the moving rail.

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