CN108633695B - Preparation process of plastic fiber culture soil - Google Patents

Abstract

The invention relates to the technical field of cultivation, and discloses a preparation process of plastic fiber culture soil, which comprises the following steps: placing the supporting plate on the accommodating box, conveying culture soil to the position right above the supporting plate by using a conveying device, and controlling feeding to enable the culture soil to fall onto the supporting plate; uniformly pushing the culture soil on the supporting plate by using a pushing device; starting a compression molding device to perform compression molding on the culture soil, pressing the supporting plate into the containing box, simultaneously conveying high-temperature gas through a high-temperature gas conveying pipeline, and stopping conveying the high-temperature gas after compression molding for 5 min; withdrawing the profiling device, starting the ejection device, and ejecting the supporting plate out of the accommodating box; pushing the supporting plate to the sample plate by using a pushing device; taking out the supporting plate from the sample plate, and putting the supporting plate into a warehouse for cooling; and taking out the formed culture soil from the supporting plate after cooling, and filling the formed culture soil into a culture soil frame. The invention has the advantages of convenient preparation of culture soil, one-step forming, high automation degree, high production efficiency and labor saving.

Description

Preparation process of plastic fiber culture soil

Technical Field

the invention relates to the technical field of cultivation, in particular to a preparation process of plastic fiber culture soil.

background

in order to meet the growth and development requirements of flowers, particularly potted flowers, according to different requirements of various varieties on soil, the soil which is specially prepared manually and contains abundant nutrients, has good drainage and air permeability, can preserve moisture and fertility, does not crack when being dry, does not stick when being wet and does not crust after being watered is called culture soil.

In the past, culture soil is manually placed into a proper container, seedling raising holes are drilled in the culture soil, and the cultured young seedlings are placed in the culture soil. Such operation is labor-consuming and inefficient. At present, culture soil with holes is directly formed in the market, but the automation degree is not high, so that the production cost is high.

Disclosure of Invention

the invention aims to overcome the defects of the prior art and provide a preparation process of plastic fiber culture soil, so that the culture soil is convenient to prepare, can be formed at one time, and has the advantages of high automation degree, high production efficiency and labor saving.

In order to achieve the above object, the present invention provides a process for preparing plastic fiber culture soil, comprising the steps of:

(1) placing the supporting plate on the accommodating box;

(2) Conveying culture soil to the position right above the supporting plate by using a conveying device, and controlling blanking to enable the culture soil to fall onto the supporting plate;

(3) Uniformly pushing the culture soil on the supporting plate by using a pushing device;

(4) starting a compression molding device to perform compression molding on the culture soil, pressing the supporting plate into the containing box, conveying high-temperature gas through a high-temperature gas conveying pipeline, and stopping conveying the high-temperature gas after compression molding for 5 min;

(5) Withdrawing the profiling device, starting an ejection device, and ejecting the supporting plate out of the accommodating box;

(6) Pushing the supporting plate to a sample plate by using a pushing device;

(7) Taking out the supporting plate from the sample plate, and putting the supporting plate into a warehouse for cooling;

(8) Cooling, taking out the formed culture soil from the supporting plate, and filling the formed culture soil into a culture soil frame;

the ejection device comprises an ejection cylinder, a fixed plate is arranged at the upper end of the ejection cylinder, a piston rod of the ejection cylinder penetrates through the fixed plate to be connected with the accommodating box, and four lifting rods II are arranged between the fixed plate and the accommodating box; the accommodating box is a square cavity with an opening at the upper part, the bottom of the accommodating box is correspondingly provided with an ejection hole matched with the piston rod of the ejection cylinder and the lifting rod, and the bottom in the accommodating box is uniformly provided with a plurality of cylindrical bulges;

a supporting plate is arranged in the accommodating box, a baffle plate which forms an angle of 90 degrees with the supporting plate is arranged on one side of the supporting plate, and a through hole matched with the cylindrical bulge is formed in the supporting plate; the pushing device comprises a pushing rod and a pushing head which are connected in a T shape, the pushing head comprises a main baffle and a side baffle connected with one side of the main baffle, an included angle between the main baffle and the side baffle is 100 degrees and 120 degrees, two ends of the main baffle and two ends of the side baffle are fixedly connected through triangular plates respectively, and one end of the pushing rod is vertically fixed on the side baffle.

Preferably, the profiling device, the accommodating box and the ejection device are sequentially fixed on the fixing support from top to bottom, the pushing device is arranged on one side of the fixing support, the sample plate is arranged on the other side of the fixing support, and the conveying device is arranged between the profiling device and the accommodating box.

preferably, conveyer includes two parallel arrangement's conveying guide rail, two be equipped with a plurality of former feed bin between the conveying guide rail, it is adjacent there is the clearance that is used for between the former feed bin profiling device passes, former feed bin bottom is equipped with the bottom plate, the bottom plate passes through hinge connection with former feed bin, the bottom plate is placed on the movable plate, the movable plate slides and establishes two between the conveying guide rail, the one end of movable plate with fix two the piston rod of the cylinder between the conveying guide rail is connected.

Preferably, the profiling device comprises a profiling cylinder and a forming upper plate, the profiling cylinder is fixed on a profiling cylinder seat, the profiling cylinder seat is fixed on the fixing support, a piston rod of the profiling cylinder penetrates through the profiling cylinder seat to be fixedly connected with the forming upper plate, and four lifting rods I are arranged between the profiling cylinder seat and four corners of the forming upper plate.

preferably, a plurality of vent holes I with the diameter of 0.1-0.2mm are uniformly arranged on the forming upper plate, and the forming upper plate is connected with the high-temperature gas conveying pipeline.

Preferably, a plurality of vent holes II with the diameter of 0.1-0.2mm are uniformly formed in the peripheral side wall of the containing box and the bottom of the containing box, and the containing box is connected with the high-temperature gas conveying pipeline.

Preferably, there is a gap of 2.5-3cm between the sample plate and the containment box.

the preparation process of the plastic fiber culture soil has the advantages of convenient culture soil preparation, one-step forming, high automation degree, high production efficiency and labor saving.

drawings

FIG. 1 is a schematic structural view showing a preferred embodiment of the process for preparing plastic fiber culture soil according to the present invention;

FIG. 2 is a schematic view of the structure of the transfer device;

FIG. 3 is a schematic view of the structure of the forming upper plate;

FIG. 4 is a schematic structural view of a pallet;

FIG. 5 is a schematic view of the structure of the accommodation box;

fig. 6 is a schematic structural diagram of the pushing device.

Description of the reference numerals

1. profiling cylinder 2 and profiling cylinder seat

3. Piston rod 4 and lifting rod I of profiling cylinder

5. Forming upper plate 6 and conveying device

7. Sample plate 8 and lifting rod II

9. Piston rod 10 and fixing plate of ejection cylinder

11. Ejection cylinder 12, containing box

13. Supporting plate 14 and pushing device

15. fixed bracket 16 and conveying guide rail

17. Cylinder 18, moving plate

19. Raw material box 20 and hinge

21. bottom plate 22, vent one

23. High-temperature gas conveying pipeline 24 and through hole

25. Baffle 26 and vent hole two

27. cylindrical protrusion 28, ejection hole

29. main baffle 30, side baffle

31. Push rod 32, triangular plate

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

The invention provides a preparation process of plastic fiber culture soil, which comprises the following steps:

(1) Placing the pallet 13 on the housing box 12;

(2) Transferring culture soil to a position right above the pallet 13 by using a transfer device 6 and controlling the feeding so that the culture soil falls onto the pallet 13;

(3) the culture soil on the supporting plate 13 is evenly pushed to be flat by a pushing device 14;

(4) Starting a profiling device to perform die-pressing molding on the culture soil, pressing the supporting plate 13 into the accommodating box 12, simultaneously conveying high-temperature gas through a high-temperature gas conveying pipeline 23, and stopping conveying the high-temperature gas after profiling for 5 min;

(5) Withdrawing the profiling device, starting an ejection device, and ejecting the supporting plate 13 out of the accommodating box 12;

(6) Pushing the carrier 13 to the sample plate 7 with a pushing device 14;

(7) Removing the pallets 13 from the sample plate 7 and placing them in a warehouse for cooling;

(8) after cooling, the formed culture soil is taken out from the pallet 13 and the formed culture soil is filled in a culture soil frame.

specifically, as shown in fig. 1, the profiling device, the accommodating box 12 and the ejection device are fixed on a fixed bracket 15 from top to bottom in sequence, the pushing device 14 is arranged on one side of the fixed bracket 15, the sample plate 7 is arranged on the other side of the fixed bracket 15, and the conveying device 6 is arranged between the profiling device and the accommodating box 12.

Specifically, the profiling device comprises a profiling cylinder 1 and a forming upper plate 5, the profiling cylinder 1 is fixed on a profiling cylinder seat 2, the profiling cylinder seat 2 is fixed on a fixing support 15, a piston rod 3 of the profiling cylinder penetrates through the profiling cylinder seat 2 to be fixedly connected with the forming upper plate 5, and four lifting rods 4 are arranged between the profiling cylinder seat 2 and four corners of the forming upper plate 5. The piston rod 3 and the lifting rod 4 of the profiling cylinder drive the upper molding plate 5 to move downwards, so that the die-molding of the culture soil is realized.

the transmission mechanism of the profiling device is not limited to the profiling cylinder 1, and all mechanisms capable of realizing linear reciprocating motion can realize compression molding, such as a crank-slider mechanism, a cam mechanism, a lead screw-nut mechanism, a hydraulic transmission mechanism and the like; in the invention, the profiling cylinder 1 is preferably adopted as a transmission mechanism of the profiling device, and because the cylinder is very convenient to use, operate and install and has larger output force, the one-time compression molding can be better realized.

More specifically, the molded upper plate 5 has a length of 50cm and a width of 50 cm.

specifically, the ejection device comprises an ejection cylinder 11, a fixing plate 10 is arranged at the upper end of the ejection cylinder 11, a piston rod 9 of the ejection cylinder penetrates through the fixing plate 10 to be connected with the accommodating box 12, and four second lifting rods 8 are arranged between the fixing plate 10 and the accommodating box 12. The culture soil is ejected out of the containing box 12 through a piston rod 9 and a second lifting rod 8 of the ejection cylinder.

Similarly, the transmission mechanism of the ejection device is not limited to the ejection cylinder 11, and all mechanisms capable of realizing linear reciprocating motion can realize ejection of culture soil, such as a crank-slider mechanism, a cam mechanism, a lead screw-nut mechanism, a hydraulic transmission mechanism and the like; the ejection cylinder 11 is preferably used as a transmission mechanism of the ejection device in the present invention.

Specifically, as shown in fig. 5, the accommodating box 12 is a square cavity with an open top, the bottom of the accommodating box 12 is correspondingly provided with an ejection hole 28 matched with the piston rod 9 of the ejection cylinder and the second lifting rod 8, and the bottom in the accommodating box 12 is uniformly provided with a plurality of cylindrical protrusions 27.

More specifically, the length of the inner cavity of the accommodating box 12 is 50cm, and the width of the inner cavity is 50 cm; the height of the cylindrical projection 27 is 8cm and the diameter is 2.9 cm.

Specifically, as shown in fig. 4, a holding plate 13 is provided in the accommodating case 12, a blocking plate 25 forming an angle of 90 ° with the holding plate 13 is provided at one side of the holding plate 13 to protect culture soil from deformation when the holding plate 13 is pushed, and a through hole 24 is provided in the holding plate 13 to be fitted with the cylindrical protrusion 27.

More specifically, the length of the supporting plate 13 is 50cm, and the width of the supporting plate is 50 cm; the diameter of the through hole 24 is 3 cm; the baffle 25 is 4.8cm in height and 50cm in length.

Specifically, as shown in fig. 6, the pushing device 14 includes a pushing rod 31 and a pushing head connected in a "T" shape, the pushing head includes a main baffle 29 and a side baffle 30 connected to one side of the main baffle 29, an included angle between the main baffle 29 and the side baffle 30 is 100 and 120 °, two ends of the main baffle 29 and the side baffle 30 are respectively and fixedly connected through a triangular plate 32, and one end of the pushing rod 31 is vertically fixed on the side baffle 30.

The pushing device 14 is used for pushing the formed culture soil to the sample plate 7 on one hand, and is used for pushing the culture soil evenly on the other hand, so that the culture soil is formed better.

The pushing device 14 pushes the baffle 25 through the side baffle 30 to push the culture soil on the supporting plate 13 to the sample plate 7, the side baffle 30 is in full contact with the baffle 25 when pushing the baffle 25, and the main baffle 29 does not block the baffle 25 to prevent the baffle 25 from freely entering and leaving because the angle between the main baffle 29 and the side baffle 30 is small during pushing. The culture soil pushing device 14 pushes the culture soil to be flat, the main baffle 29 is used for preventing the culture soil from overflowing from the upper end of the side baffle 30 in the pushing process, the main baffle 29 and the side baffle 30 are connected at a certain angle, the culture soil can be better wrapped and pushed out, the culture soil can be better and evenly pushed to be flat, and the subsequent compression is convenient.

the pushing device 14 can be pushed manually, or other mechanisms capable of realizing reciprocating linear motion, such as an air cylinder, a hydraulic cylinder and the like, can be adopted to drive the pushing device 14 to realize automatic pushing.

More specifically, the width of the main baffle 29 is 10cm, and the length thereof is 55 cm; the side baffle 30 is 55cm long and 5-5.5cm high.

According to the invention, a conveying device 6 is further arranged between the profiling device and the containing box 12, as shown in fig. 2, the conveying device 6 comprises two conveying guide rails 16 which are arranged in parallel, a plurality of raw material boxes 19 are arranged between the two conveying guide rails 16, a gap for the profiling device to pass through is arranged between every two adjacent raw material boxes 19, a bottom plate 21 is arranged at the bottom of each raw material box 19, the bottom plate 21 is connected with the raw material boxes 19 through hinges 20, the bottom plate 21 is placed on a moving plate 18, the moving plate 18 is arranged between the two conveying guide rails 16 in a sliding mode, and one end of the moving plate 18 is connected with a piston rod of a cylinder 17 fixed between the two conveying guide rails 16. When conveyer 6 conveys former feed box 19 and holds directly over box 12, control the piston rod of cylinder 17 drives movable plate 18 and removes, and when movable plate 18 moved out bottom plate 21, bottom plate 21 was opened automatically under the effect of raw materials and self gravity, and the raw materials fell into from former feed box 19 and hold box 12 in to realized automatic conveying and automatic unloading, effectively saved the manpower, it is very convenient to operate. And gaps for the profiling device to penetrate are formed between the adjacent raw material boxes 19, and the raw materials are conveyed continuously after falling into the accommodating boxes 12, so that the gaps between the adjacent raw material boxes 19 are opposite to the accommodating boxes 12, and the profiling device can conveniently profile the culture soil.

The specific preparation process of the plastic fiber culture soil comprises the steps of firstly placing a supporting plate 13 on a containing box 12, conveying the culture soil to the position right above the supporting plate 13 through a conveying device 6, then controlling the material discharge, enabling the culture soil to fall onto the supporting plate 13, uniformly pushing the culture soil by a pushing device 14, then driving a forming upper plate 5 to move downwards through a piston rod 3 and a lifting rod 4 of a profiling cylinder, pressing the supporting plate 13 into the containing box 12, enabling a cylindrical bulge 27 to penetrate through a through hole 24 on the supporting plate 13 to press holes on the culture soil, thus carrying out die-molding on the culture soil, pressing the culture soil into a culture soil block body, pressing a plurality of seedling raising holes for cultivation on the culture soil block body at one time, heating the containing box 12 through a heating device during profiling, enabling the culture soil to be cured and formed, withdrawing the profiling device after the culture soil is formed, starting an ejecting device, the piston rod 9 and the second lifting rod 8 of the ejection cylinder drive the fixing plate 10 to move upwards, the piston rod 9 and the second lifting rod 8 of the ejection cylinder penetrate through an ejection hole 28 at the bottom of the containing box 12 to eject the supporting plate 13 upwards, so that the supporting plate 13 is ejected out of the containing box 12, and the pushing device 14 pushes the baffle plate 25 on the supporting plate 13 to push the supporting plate 13 to the sample plate 7. The compression molding device of the invention is convenient for manufacturing culture soil, can be molded at one time, has high automation degree and high production efficiency, and saves manpower.

Preferably, as shown in fig. 3, a plurality of vent holes 22 with a diameter of 0.1-0.2mm are uniformly formed on the upper molding plate 5, and the upper molding plate 5 is connected with the high-temperature gas conveying pipeline 23. The high-temperature gas delivered by the high-temperature gas delivery pipeline 23 is uniformly delivered into the culture soil through the first vent hole 22, so that the culture soil is better cured and molded.

preferably, a plurality of vent holes two 26 with the diameter of 0.1-0.2mm are uniformly formed in the peripheral side wall of the accommodating box 12 and the bottom of the accommodating box 12, the accommodating box 12 is connected with the high-temperature gas conveying pipeline 23, and the high-temperature gas conveyed by the high-temperature gas conveying pipeline 23 is uniformly conveyed to the periphery of the culture soil through the vent holes two 26, so that the culture soil is better cured and formed.

Preferably, there is a gap of 2.5-3cm between the sample plate 7 and the containment box 12. The sample plate 7 has a length of 60cm and a width of 60 cm. A gap is provided between the sample plate 7 and the housing case 12 so that the pushed-out surplus culture soil falls from the gap when the culture soil is pushed flat by the pushing means 14 to recover the culture soil; the gap size is preferably 2.5-3cm, too small a gap is not conducive to the excess culture soil falling, too large a gap is not conducive to the pallet 13 being pushed onto the sample plate 7.

the preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. Within the scope of the technical idea of the invention, numerous simple modifications can be made to the technical solution of the invention, including combinations of the specific features in any suitable way, and the invention will not be further described in relation to the various possible combinations in order to avoid unnecessary repetition. Such simple modifications and combinations should be considered within the scope of the present disclosure as well.

Claims (7)

1. A preparation process of plastic fiber culture soil is characterized by comprising the following steps:

(1) Placing the supporting plate on the accommodating box;

(2) Conveying culture soil to the position right above the supporting plate by using a conveying device, and controlling blanking to enable the culture soil to fall onto the supporting plate;

(3) uniformly pushing the culture soil on the supporting plate by using a pushing device;

(4) Starting a compression molding device to perform compression molding on the culture soil, pressing the supporting plate into the containing box, conveying high-temperature gas through a high-temperature gas conveying pipeline, and stopping conveying the high-temperature gas after compression molding for 5 min;

(5) withdrawing the profiling device, starting an ejection device, and ejecting the supporting plate out of the accommodating box;

(6) Pushing the supporting plate to a sample plate by using a pushing device;

(7) Taking out the supporting plate from the sample plate, and putting the supporting plate into a warehouse for cooling;

(8) Cooling, taking out the formed culture soil from the supporting plate, and filling the formed culture soil into a culture soil frame;

The ejection device comprises an ejection cylinder, a fixed plate is arranged at the upper end of the ejection cylinder, a piston rod of the ejection cylinder penetrates through the fixed plate to be connected with the accommodating box, and four lifting rods II are arranged between the fixed plate and the accommodating box; the accommodating box is a square cavity with an opening at the upper part, the bottom of the accommodating box is correspondingly provided with an ejection hole matched with the piston rod of the ejection cylinder and the lifting rod, and the bottom in the accommodating box is uniformly provided with a plurality of cylindrical bulges;

a supporting plate is arranged in the accommodating box, a baffle plate which forms an angle of 90 degrees with the supporting plate is arranged on one side of the supporting plate, and a through hole matched with the cylindrical bulge is formed in the supporting plate; the pushing device comprises a pushing rod and a pushing head which are connected in a T shape, the pushing head comprises a main baffle and a side baffle connected with one side of the main baffle, an included angle between the main baffle and the side baffle is 100 degrees and 120 degrees, two ends of the main baffle and two ends of the side baffle are fixedly connected through triangular plates respectively, and one end of the pushing rod is vertically fixed on the side baffle.

2. The process for preparing plastic fiber culture soil according to claim 1, wherein the molding means, the housing case and the ejecting means are fixed to the fixing frame in this order from top to bottom, the pushing means is provided at one side of the fixing frame, the sample plate is provided at the other side of the fixing frame, and the transfer means is provided between the molding means and the housing case.

3. The process for preparing plastic fiber culture soil according to claim 2, wherein the conveying device comprises two conveying guide rails arranged in parallel, a plurality of raw material boxes are arranged between the two conveying guide rails, a gap for the profiling device to pass through is arranged between every two adjacent raw material boxes, a bottom plate is arranged at the bottom of each raw material box, the bottom plates are connected with the raw material boxes through hinges, the bottom plates are placed on a moving plate, the moving plate is arranged between the two conveying guide rails in a sliding manner, and one end of the moving plate is connected with a piston rod of a cylinder fixed between the two conveying guide rails.

4. The process for preparing plastic fiber culture soil according to claim 2, wherein the profiling device comprises a profiling cylinder and a forming upper plate, the profiling cylinder is fixed on a profiling cylinder seat, the profiling cylinder seat is fixed on the fixed support, a piston rod of the profiling cylinder penetrates through the profiling cylinder seat to be fixedly connected with the forming upper plate, and four first lifting rods are arranged between the profiling cylinder seat and four corners of the forming upper plate.

5. The process for preparing plastic fiber culture soil according to claim 4, wherein the molding upper plate is uniformly provided with a plurality of vent holes I with a diameter of 0.1-0.2mm, and the molding upper plate is connected with the high temperature gas delivery pipe.

6. The process for preparing plastic fiber culture soil according to claim 2, wherein a plurality of vent holes II with a diameter of 0.1-0.2mm are uniformly formed on the peripheral side wall of the accommodating box, and the accommodating box is connected with the high-temperature gas delivery pipeline.

7. the process for preparing plastic fiber culture soil according to claim 2, wherein a gap of 2.5-3cm is formed between the sample plate and the accommodating case.