KR100371798B1 - Bottom Irrigating Bed for Agriculture And Manufacturing Method - Google Patents

Abstract

The present invention relates to an agricultural bottom irrigation bed made of a thermoplastic resin and a method of manufacturing the same.

The bottom irrigation bed is formed to have a valley of the grid by a vacuum forming method and comprises a bed body for accommodating the nutrient solution and an inlet outlet for introducing and discharging the nutrient solution, the bed body is a plurality of It is provided with a connection portion that can be thermally used.

In addition, the bottom irrigation bed is a step of forming a sheet by drying the thermoplastic resin at a constant temperature to the hopper by extrusion into a T-die extrusion mold through an extruder heated to a suitable temperature; Cutting the plate into a predetermined size and cooling and aging at room temperature in the air for a predetermined time; Heating the plate cut and cooled to a predetermined size to an appropriate temperature in a vacuum molding machine and vacuum forming the shape of an agricultural bottom irrigation bed under vacuum pressure; The molded article may be produced by trimming and post-processing.

Such a bottom irrigation bed is especially used for flower farming can increase the production with a small manpower, it is easy to supply farms by mass production can contribute to the actual farm imports.

Description

Bottom irrigating bed for agriculture and manufacturing method

The present invention relates to an agricultural bottom irrigation bed and a method for manufacturing the same, and more particularly, to a floral agriculture bottom irrigation bed made of a thermoplastic resin and a method for manufacturing the same.

In the case of flower farming, where flowers or flower crops are grown, a flat plate made of foamed styrene resin (styrofoam) or wood plywood of appropriate height is placed on a cement block or angle base in a vinyl house or glass greenhouse, and then pots are placed on it. It is grown by putting it on top of the pot, and a person supplies water and nutrients several times a day by using a crusher.

However, as described above, the technique of growing on a flat plate has the following problems.

First of all, there is a waste of excessive manpower because humans have to supply water and nutrients several times a day, and also because the amount of plant growth is not averaged because water is not evenly sprayed on plants when water and nutrients are supplied. In addition to the degradation, there is a problem in that the success rate of harvest is low due to a long growing period.

In addition, foamed styrene resin (styrofoam) or wood plywood has low strength and durability, so the use period is short, and there is a need to dismantle and reinstall it after a certain period. In this case, the dismantled waste wood or styrofoam cannot be recycled. There are also disadvantages to the environment.

Although there are agricultural beds for cultivation of nutrients, they are not suitable for flower farming, and there are difficulties in mass production.

Therefore, the present invention is to solve the problems as described above, by uniformly supplying water and nutrients to increase the yield and yield success rate by cultivating the averaged plants, and to improve the quality of the cultivated plants by shortening the cultivation period It is an object of the present invention to provide a flower bed bottom irrigation bed made of a thermoplastic resin that can be planned.

Still another object of the present invention is to provide an agricultural bottom irrigation bed that can reduce the consumption of manpower as much as possible by supplying, draining and supplying nutrients to the automatic pump once a day.

Still another object of the present invention is to provide an agricultural bottom irrigation bed for minimizing water supply and drainage by assembling a plurality of single bottom irrigation beds.

Still another object of the present invention is to provide a method for manufacturing a low-surface irrigation bed for agriculture, which is improved in durability by being manufactured by vacuum molding a thermoplastic resin and can be recycled.

1 is a plan view of an agricultural bottom irrigation bed made of a thermoplastic plastic resin according to an embodiment of the present invention,

Figure 2a is a cross-sectional view A-A of the bottom irrigation bed of Figure 1,

2B is a cross-sectional view B-B of the bottom irrigation bed of FIG. 1,

3a to 3f is a molding process diagram of an agricultural bottom irrigation bed made of a thermoplastic resin according to the present invention.

<Explanation of Signs of Major Parts of Drawings>

100: bottom irrigation bed 110: bed body

112, 114: Bottom groove 116: Edge

118: reinforcement 120 inlet outlet

130: connection

The bottom irrigation bed of the present invention for achieving the above object is formed of a thermoplastic resin and includes a bed body for receiving crops and cultivating crops, and an inlet outlet for supplying and discharging nutrients to the bed body. It is configured, the bed body is provided with a connection to allow a plurality of bed body and the bone of the grid-shaped bone having a suitable depth for smooth supply of nutrient solution to be used in conjunction with each other.

The bottom irrigation bed is formed by extruding a thermoplastic resin to form a plate; Cutting the plate into a predetermined size and cooling and aging at room temperature in the air for a predetermined time; Heating the plate cut and cooled to a predetermined size to an appropriate temperature in a vacuum molding machine and vacuum forming the shape of an agricultural bottom irrigation bed under vacuum pressure; The molded article may be produced by trimming and post-processing.

Such a bottom irrigation bed is especially used for flower farming can increase the production with a small manpower, it is easy to supply farms by mass production can contribute to the actual farm imports.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 shows an agricultural bottom irrigation bed 100 according to an embodiment of the present invention, the bottom irrigation bed 100 of the present invention is titrated over the entire bottom surface where nutrient solution is supplied and potted plants are accommodated as shown. The bed body 110 is formed with grooves 112 and 114 of depth, and the inlet outlet 120 for supplying and discharging water and nutrients to the bed body 100.

2A and 2B are cross-sectional views of the bottom irrigation bed 100 of FIG. 1, FIG. 2A is a cross section taken along line AA, and FIG. 2B is a cross section taken along line BB, and is perpendicular to the bottom surface. The shape of the groove | channel 112 and 114 formed is shown. The grooves 112 and 114 of the bottom surface are formed in a lattice shape at regular intervals when the bed is formed, and are divided into relatively deep grooves 112 and shallow grooves 114 as shown.

Here, the deep groove 112 is mainly a nutrient solution supply passage for smooth supply of nutrient solution, and the shallow groove 114 is generally formed to improve the smoothness and strength of the bed bottom.

In addition, the edge 116 of the bed is also formed at the same time during molding, the reinforcement bar 118 is added to the edge 116 as shown to increase the strength of the bed (100).

The water supplied through the pump (not shown) in the bottom irrigation bed 100 is introduced into the bed body 110 through the nutrient solution inlet and outlet 120 together with the nutrients, and the bed body corresponding to the nutrient solution supply path ( It is supplied to the whole bed along the groove 112 formed in the bottom surface of 110. When the supplied nutrient solution is changed, the nutrient solution is discharged through the inlet outlet 120 and then the nutrient solution is supplied in the same manner.

Figures 3a to 3f shows the process of forming the flower bed bottom irrigation water for agriculture as described above.

As shown in FIG. 3A, the raw material of the thermoplastic resin dried at a constant temperature is first introduced into the hopper 1 for forming the bed. The thermoplastic resin injected into the hopper 1 is extruded and transferred to the T-die extrusion mold 3 along the extruder 2. The extruder (2) is extruded into a plate by pushing the molten thermoplastic resin with a screw (2a) with a T-die extrusion mold (3) while maintaining the proper temperature in accordance with the resin melting temperature.

The thermoplastic resin thus extruded through the T-die extrusion mold 3 has a plurality of polishing rollers 4 and embossing rollers 5 positioned adjacent to the T-die extrusion mold 3 as shown in FIG. 3B. It is rolled into the plate 6 while passing therebetween, wherein the rotational speed of the polishing roller 4 and the embossing roller 5 maintains an appropriate rotational speed without the thickness deviation or push of the plate 6.

The plate 6 extruded while passing through the polishing roller 4 and the embossing roller 5 is passed through the conveyor 20 connected with the polishing roller 4 and the embossing roller 5 to the cutter 7 shown in FIG. 3C. The plate is cut to a predetermined size in the cutter 7 and then cooled and matured at room temperature in the air for a predetermined time. On the other hand, when the plate 6 is cut by the cutter 7, the cut size of the plate 6 is cut in consideration of the shrinkage of the plate 6 during the cooling maturation.

The plate 6 cut to a predetermined size is moved to the vacuum molding machine 8 as shown in FIG. 3D. The vacuum molding machine 8 has a clamp 9 for fixing the seat 6 seated thereon, a heater 10 for moving forward and backward to heat the plate 6, and a plate 6. And a molding table 13 for supporting the mold 11 and lifting and lowering the mold 11 with a vacuum passage 12.

In the vacuum molding machine 8 the plate 6 is placed on the middle plate 14 between the clamp 9 and the forming table 13 and the mold 11 for bed formation is placed in a lowered state. At this time, when the plate 6 is seated and clamped, the plate 6 and the forming table 13 have a sealing structure.

When the plate 6 is placed on the middle plate 14 and the clamp 9 is lowered, the heater 10 advances toward the plate 6 to heat the plate 6 to an appropriate temperature to facilitate molding, and the forming table While the mold 11 for forming the bed supported by the 13 is raised as shown in FIG. 3E, the vacuum pressure passes through the vacuum passage 12 embedded in the molding table 13 to form the inner space of the mold 11. The plate 6 which is transferred and heated is pressed into close contact with the shape of the mold 11.

After the plate 6 is molded into the shape of the mold 11 by the vacuum pressure, the mold 11 is cooled by the cooling water provided through the mold cooler, and in order to quickly cool the mold 11, a vacuum molding machine ( 8) Cooling fan 15 is provided at the upper end to operate for a proper time. Since the mold 11 is cooled by the cooling water and the cooling fan 15, the plate member 6 molded into the shape of the mold 11 may also be cooled quickly.

The plate 6 molded in the shape of the mold 11 is extracted in the vacuum molding machine 8, then cooled and aged at room temperature for a predetermined time, and then transferred to the trimming device 16 shown in FIG. 3F. In the trimming device 16, the plate 6 is mounted to the trim jig mold 17, trimmed to a size that meets the specifications of the bottom irrigation bed, and finished by finishing, such as finishing, a complete product.

The bottom irrigation bed manufactured as described above can be assembled by simply connecting the required number of beds with the connecting portion 130 to a suitable place with riveting, screws, nails or high adhesive foam tape and hot melt.

Through the bottom irrigation bed made of the thermoplastic resin according to the present invention as described above, water and nutrients are uniformly supplied to the flower crops through the bed, thereby bringing the effect of increasing the cultivation and yield of the averaged plant, and early It is possible to cultivate and to expect an improvement in quality.

In addition, the bottom irrigation bed of the present invention solves the labor shortage in rural areas by the automatic supply and cultivation of water and nutrients, made of thermoplastic resin, durable and recyclable as well as easy to install and dismantle, connect as necessary length It can be used by assembling, which has the advantage of minimizing facility investment cost.

In addition, various designs of loading surface can be expected to improve the external image of house and greenhouse cultivation and the development of agricultural technology of hydroponic cultivation.

Claims (4)

Extruding the thermoplastic resin to form a sheet; Cutting the plate into a predetermined size and cooling and aging at room temperature in the air for a predetermined time; Heating the plate material cut and cooled to a predetermined size to a suitable temperature in a vacuum molding machine to vacuum forming the shape of an agricultural bottom irrigation bed; Method for producing a bottom surface irrigation bed for agriculture comprising the step of trimming and post-processing the molded article. Formed of thermoplastic resin, Bed body for receiving nutrient solution and growing crops, An agricultural bottom irrigation bed, comprising an inlet and outlet for supplying and discharging nutrient solution to the bed body. According to claim 2, The bed body has an irrigated bottom irrigation bed, characterized in that it has a grid-like valley having a suitable depth for smooth supply of nutrient solution. According to claim 2, The bed body is irrigated floor irrigation bed, characterized in that the plurality is provided with a connecting portion to be used in conjunction with each other.