CN112913516B - Industrial automatic seedling raising machine for Korla bergamot pears - Google Patents

Abstract

The invention provides an industrial automatic seedling raising machine for Korla bergamot pears, which relates to the field of Korla bergamot pears production and comprises a supporting table and a seedling raising mechanism, wherein an integral device is placed in a sealed state and keeps a glassware inner cavity with sufficient sunlight, bergamot pears to be raised are placed into the inner cavity of a placing cavity, a ventilation mechanism is placed in the inner cavity of a connecting strip, the ventilation mechanism is started to ventilate the inner cavity of an inner groove through a through side groove, so that the bergamot pears keep air flowing in the glassware in the sealed state, and a prefabricated value of gas can be added into the glassware inner cavity, so that the bergamot pears can accelerate or slow down the growth speed due to the content of vitamin.

Description

Industrial automatic seedling raising machine for Korla bergamot pears

Technical Field

The invention relates to the field of Korla bergamot pear production, in particular to an industrial automatic seedling raising machine for Korla bergamot pears.

Background

With the rapid development of society, the traditional seedling raising mode is coarser, and many of the traditional seedling raising modes adopt a broadcasting mode to directly spread seeds in soil, after the seeds sprout, seedlings are dug out and transplanted into a plastic seedling raising tray or a plastic seedling raising pot for subsequent seedling raising work; a seedling raising operator who is slightly delicate may use a seedling raising tray with culture soil and scatter seeds in the tray in a broadcast manner to perform seedling raising work.

The Korla pear has the advantages of cold resistance, drought resistance and disease and insect resistance, most of the Korla pear is used as a stock in the process of planting Korla pear, the Korla pear seedlings are bred by adopting a method of grafting the stock on the ground, and patent No. CN201911250083.9 discloses a seedling raising mechanical device for gardens, which is convenient to take materials, solves the problems that the root of the seedlings are communicated with soil to push out of a planting box together, the taking of the existing seedling raising device is inconvenient, and the seedlings are easy to damage.

Most of seedling raising machines on the market at present have the problem that the growth speed of seedlings cannot be accelerated or slowed down by utilizing the content of vitamin controlling gas of bergamot pear seedlings.

Disclosure of Invention

The invention aims to provide an industrial automatic seedling raising machine for Korla bergamot pears, so as to solve the technical problems.

The invention aims to provide an industrial automatic seedling raising machine for Korla bergamot pears, which comprises a supporting table and a seedling raising mechanism, wherein the seedling raising mechanism is arranged at the upper end of the supporting table and comprises an adjusting installation frame, an inner clamping mechanism, seedling raising plates and an adjusting frame;

the adjusting installation frame comprises a material containing frame, an inner groove, a transparent side groove, a semi-concave edge cavity and a connecting strip, wherein the inner groove is formed in the middle of the material containing frame, the transparent side groove is formed in the inner end of the inner groove in an arrangement mode, the semi-concave edge cavity is formed in the edge of the material containing frame, and the material containing frame frames are movably connected through the connecting strip.

Preferably, the side of the half cavity in edge installs the alignment jig, the alignment jig includes montant, links up a section of thick bamboo and grows seedlings auxiliary mechanism, the outer lane of montant is installed and is linked up a section of thick bamboo, the inner of montant is installed and is grown seedlings auxiliary mechanism.

Preferably, the interval between the auxiliary seedling raising mechanisms is cm, the auxiliary seedling raising mechanisms can be rotated and adjusted under the drive of the vertical rods, and the rotation angle is positive and negative.

Preferably, the connecting strip is a member made of synthetic rubber material, and the through side groove is matched with the connecting strip in sequence.

Preferably, the auxiliary seedling raising mechanism comprises an auxiliary box, an inner cavity groove, an edge groove and a rotary transverse cylinder, wherein the inner cavity of the auxiliary box is provided with the inner cavity groove, the side end of the auxiliary box is provided with the edge groove, and the two walls of the inner cavity of the edge groove are provided with the rotary transverse cylinder.

Preferably, the rotary transverse cylinder comprises a transverse cylinder body, edge shells, sweeping bars and a transmission shaft, wherein the edge shells are arranged at two ends of the transverse cylinder body, the sweeping bars are arranged at the side ends of the edge shells, and the transmission shaft is arranged in an inner cavity of the transverse cylinder body in a penetrating mode.

Preferably, the seedling raising tray comprises a tray body, edge grooves, a serial connection belt, a movable plate, serial connection holes, a serial connection belt and an inner through hole, wherein the edge of the tray body is provided with the edge grooves, the inner cavities of the edge grooves are penetrated and provided with the serial connection belt, the upper ends of the tray body are arranged and provided with the serial connection belt, the inner cavities of the serial connection belt are penetrated and provided with the inner through holes, the two ends of the inner through holes are penetrated and provided with the movable plate, the serial connection holes are arranged between the movable plate and the serial connection holes, and the inner through holes are penetrated and provided with the inner through holes.

Preferably, the inner end of the connecting cylinder is movably connected with the inner clamping mechanism, and the sweeping bars between the rotating transverse cylinders are contacted, and the sweeping bars are members made of silica gel materials.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention provides an industrial automatic seedling raising machine for Korla bergamot pears, which consists of a supporting table and a seedling raising mechanism, wherein the whole device is placed in a sealed state and keeps a glassware inner cavity with sufficient sunlight, bergamot pears to be raised are placed in the inner cavity of an open groove, a ventilation mechanism is placed in the inner cavity of a connecting strip, the ventilation mechanism is started to ventilate the inner cavity of the inner groove through a through side groove, so that the bergamot pears keep air flowing in the glassware in the sealed state, and a prefabricated value of gas can be added into the glassware inner cavity, so that the bergamot pears can accelerate or slow down the growth speed due to the content of vitamin.

2. According to the Korla pear industrial automatic seedling raising machine provided by the invention, the external motor is connected with the vertical rod to drive the vertical rod to rotate, the vertical rod drives the seedling raising auxiliary mechanism to rotate in the same direction, the rotation angle is positive and negative, the air flow in the inner cavity of the glassware is changed through the wind speed generated by the fan-shaped rotation of seedling raising auxiliary, the inner cavity of the inner cavity groove is rotated due to the rotation of the rotary transverse cylinder, the air flow in the inner cavity groove is fluctuated, micro heat is generated between the inner cavity groove and the outer cavity groove due to the contact between the sweeping bars, and the micro heat is matched with the wind speed, so that the air flow change speed of the device is increased, and the functional diversity of the device is improved.

3. According to the Korla bergamot pear industrial automatic seedling raising machine provided by the invention, the bergamot pear seedlings in the inner cavity of the opening groove generate static electricity through the transverse reciprocating movement of the movable plate and the friction of the opening groove, and the arrangement of the serial holes can limit the movement range of the movable plate, and the upper end of the seedling raising plate generates an electrostatic field due to the arrangement of a plurality of groups of opening grooves, so that the bergamot pear seedlings react by the electrostatic field, the bergamot pear seedlings are protected by the generation of the static electricity, and the tiny particles in the air are prevented from touching the bergamot pear seedlings.

Drawings

FIG. 1 is an industrial automated seedling raising machine for Korla bergamot pears of the present invention;

FIG. 2 is a schematic perspective view of an adjusting mounting frame according to the present invention;

FIG. 3 is a schematic perspective view of a seedling tray according to the present invention;

FIG. 4 is a schematic perspective view of an adjusting frame according to the present invention;

FIG. 5 is a schematic perspective view of the auxiliary mechanism for raising seedlings according to the present invention;

fig. 6 is a schematic perspective view of a rotary transverse cylinder according to the present invention.

Reference numerals: 1. a support table; 2. a seedling raising mechanism; 21. adjusting the mounting frame; 211. a material containing frame; 212. a built-in groove; 213. a through side groove; 214. a half-edge cavity; 215. a connecting strip; 22. an inner clamping mechanism; 23. a seedling tray; 231. a tray body; 232. an edge groove; 233. a serial belt; 234. a movable plate; 235. a serial hole; 236. a groove is formed; 237. an inner through hole; 24. an adjusting frame; 241. a vertical rod; 242. a connecting cylinder; 243. a seedling raising auxiliary mechanism; 2431. an auxiliary box; 2432. an inner cavity groove; 2433. an edge groove; 2434. rotating the transverse cylinder; 24341. a transverse cylinder body; 24342. an edge shell; 24343. a sweep bar; 24344. and a transmission shaft.

Detailed Description

In order that the manner in which the above recited features, objects and advantages of the present invention are obtained, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Based on the examples in the embodiments, those skilled in the art can obtain other examples without making any inventive effort, which fall within the scope of the invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 2, the industrial automatic seedling raising machine for the Korla pear comprises a supporting table 1 and a seedling raising mechanism 2, wherein the seedling raising mechanism 2 is arranged at the upper end of the supporting table 1, the seedling raising mechanism 2 comprises an adjusting installation frame 21, an inner clamping mechanism 22, a seedling raising plate 23 and an adjusting frame 24, the inner clamping mechanism 22 is arranged between the adjusting installation frames 21, the seedling raising plate 23 is arranged in the inner cavity of the adjusting installation frame 21, the adjusting frames 24 are arranged at the two ends of the inner clamping mechanism 22, the adjusting installation frame 21 comprises a material containing frame 211, an inner groove 212 is arranged in the middle of the material containing frame 211, the inner ends of the inner grooves 212 are provided with the through edge grooves 213, the edge of the material containing frame 211 is provided with the edge half grooves 214, the material containing frame frames 211 are movably connected through the connecting strips 215, the connecting strip 215 is a component made of synthetic rubber material, the transparent side groove 213 and the connecting strip 215 are matched in sequence, the side end of the edge half-concave cavity 214 is provided with the adjusting frame 24, the whole device is composed of the supporting table 1 and the seedling raising mechanism 2, the whole device is placed in a sealed state and keeps the inner cavity of a glassware with sufficient sunlight, the bergamot seedlings which need to be raised are placed in the inner cavity of the opening groove 236, the ventilation mechanism is placed in the inner cavity of the connecting strip 215, the ventilation mechanism is opened to ventilate the inner cavity of the built-in groove 212 through the transparent side groove 213, so that the bergamot seedlings keep air flowing in the glassware in the sealed state, and the prefabricated numerical gas can be added into the inner cavity of the glassware, so that the bergamot seedlings can accelerate or slow down the growth speed due to the content of vitamin.

Example 2

As shown in fig. 4-6, the industrial automation seedling raising machine of the kurla pear is connected with a vertical rod 241 by an external motor, the vertical rod 241 drives the seedling raising auxiliary mechanism 243 to rotate in the same direction, the rotation angle is plus or minus 60 degrees, the air flow in the inner cavity of the glassware is changed by the wind speed generated by the fan-shaped rotation of the seedling raising auxiliary mechanism 243, the inner cavity of the inner cavity groove 2432 rotates due to the rotation of the transverse cylinder 2434, the inner cavity of the inner cavity groove 2432 generates air flow fluctuation, the contact between the sweeping strips 24343 causes micro heat generation between the sweeping strips due to the contact, the micro heat and the wind speed are matched, the air flow change speed of the device is increased, the functional diversity adjusting frame 24 of the device is improved, the connecting cylinder 242 and the seedling raising auxiliary mechanism 243 are arranged on the outer ring of the vertical rod 241, the seedling raising auxiliary mechanism 243 is arranged on the inner end of the vertical rod 241, the interval between the seedling raising auxiliary mechanism 243 is 2cm, and the seedling raising auxiliary mechanism 243 can be rotationally adjusted under the driving of the vertical rod 241, and the rotation angle is plus or minus 60 degrees. The auxiliary seedling raising mechanism 243 comprises an auxiliary box 2431, an inner cavity groove 2432, an edge groove 2433 and a rotary transverse cylinder 2434, the inner cavity of the auxiliary box 2431 is provided with the inner cavity groove 2432, the side end of the auxiliary box 2431 is provided with the edge groove 2433, two walls of the inner cavity of the edge groove 2433 are provided with the rotary transverse cylinder 2434, the rotary transverse cylinder 2434 comprises a transverse cylinder body 24341, an edge shell 24342, a sweeping strip 24343 and a transmission shaft 24344, two ends of the transverse cylinder body 24341 are provided with the edge shell 24342, the side end of the edge shell 24342 is provided with the sweeping strip 24343, and the inner cavity of the transverse cylinder body 24341 is provided with the transmission shaft 24344 in a penetrating mode.

Example 3

As shown in fig. 3 and 6, the industrial automation seedling raising machine for the kurls pears comprises a tray body 231, an edge groove 232, a serial belt 233, a movable plate 234, a serial hole 235, a serial belt 233 and an inner through hole 237, wherein the edge of the tray body 231 is provided with the edge groove 232, the inner cavity of the edge groove 232 is provided with the serial belt 233 in a penetrating way, the upper end of the tray body 231 is provided with the serial belt 236 in an arranging way, the inner cavity of the serial belt 236 is provided with the inner through hole 237 in a penetrating way, two ends of the inner through hole 237 are provided with the movable plate 234 in a penetrating way, serial holes 235 are arranged between the movable plate 234 and the serial belt 233, the inner cavity edge of the serial belt 236 is provided with the inner through hole 237, the inner end of a connecting cylinder 242 is movably connected with the inner clamping mechanism 22, a sweeping bar 24343 between the rotating transverse cylinder 2434 is a member made of a silica gel material, the pear seedlings are subjected to static electricity generation through transverse reciprocating movement of the movable plate 234 and the serial belt 236, the setting of the holes 235 can limit the moving range of the movable plate 234, the pear seedlings can be subjected to the static electricity generation, the electrostatic field can be prevented from being generated by the static electricity generation reaction of the small-electric field particles generated by the pear seedlings, and the set up the serial field can be prevented from the electrostatic field reaction, and the seedlings can be prevented from being reacted with the small-electric field seedlings.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a kurla bergamot pear industrial automation machinery of growing seedlings, includes brace table (1) and seedling culture mechanism (2), its characterized in that are installed to the upper end of brace table (1): the seedling raising mechanism (2) comprises an adjusting installation frame (21), an inner clamping mechanism (22), seedling raising plates (23) and an adjusting frame (24), wherein the inner clamping mechanism (22) is installed between the adjusting installation frames (21), the inner cavity of the adjusting installation frame (21) is provided with the seedling raising plates (23), and the two ends of the inner clamping mechanism (22) are provided with the adjusting frame (24);

the adjusting installation frame (21) comprises a material containing frame (211), an inner groove (212), a through side groove (213), an edge half-concave cavity (214) and a connecting strip (215), wherein the inner groove (212) is formed in the middle of the material containing frame (211), the through side groove (213) is formed in the inner end of the inner groove (212) in an arrangement mode, the edge half-concave cavity (214) is formed in the edge of the material containing frame (211), and the material containing frame frames (211) are movably connected through the connecting strip (215);

the seedling raising tray (23) comprises a tray body (231), a first edge groove (232), a serial connection belt (233), movable plates (234), serial connection holes (235) and inner through holes (237), wherein the first edge groove (232) is formed in the edge of the tray body (231), the serial connection belt (233) is arranged in a penetrating mode in an inner cavity of the first edge groove (232), the inner through holes (237) are formed in a penetrating mode in the inner cavity of the tray body (236), movable plates (234) are arranged in penetrating mode at two ends of the inner through holes (237), serial connection holes (235) are formed between the movable plates (234), the serial connection belt (233) is connected between the movable plates (234) and the serial connection holes (235), and the inner through holes (237) are formed in the inner cavity edge of the tray body (236).

Placing pear seedlings to be cultivated into an inner cavity of an opening groove (236), placing a ventilation mechanism into the inner cavity of the connecting strip (215), starting the ventilation mechanism to ventilate the inner cavity of the built-in groove (212) through a through side groove (213), keeping air flow in a vessel of the pear seedlings in a sealed state, and adding a gas with a preset value into the inner cavity of the glass vessel to accelerate or slow down the growth speed of the pear seedlings due to the content of the gas;

the bergamot pear seedlings in the inner cavity of the opening groove (236) are subjected to static electricity generation through transverse reciprocating movement of the movable plate (234) and friction of the opening groove (236), and the moving range of the movable plate (234) can be limited due to the arrangement of the serial holes (235), the upper ends of the seedling raising plates (23) generate electrostatic fields due to the arrangement of the plurality of groups of opening grooves (236), the bergamot pear seedlings are reacted by the electrostatic fields, the bergamot pear seedlings are protected by the electrostatic fields, and tiny particles in the air are prevented from touching the bergamot pear seedlings.

2. The industrial automatic seedling raising machine for kurla bergamot pears according to claim 1, wherein: the side of edge half cavity (214) is installed adjustment frame (24), adjustment frame (24) are including montant (241), linking section of thick bamboo (242) and auxiliary mechanism (243) of growing seedlings, linking section of thick bamboo (242) are installed to the outer lane of montant (241), auxiliary mechanism (243) of growing seedlings is installed to the inner of montant (241).

3. The industrial automatic seedling raising machine for kurla pears according to claim 2, wherein: the interval between seedling raising auxiliary mechanisms (243) is 2cm, and the seedling raising auxiliary mechanisms (243) are driven by vertical rods (241) to rotate and adjust, and the rotation angle is plus or minus 60 degrees.

4. The industrial automatic seedling raising machine for kurla bergamot pears according to claim 1, wherein: the connecting strip (215) is a component made of synthetic rubber material, and the through side grooves (213) are matched with the connecting strip (215) in sequence.

5. The industrial automatic seedling raising machine for kurla pears according to claim 2, wherein: the auxiliary mechanism (243) for raising seedlings comprises an auxiliary box (2431), an inner cavity groove (2432), a second edge groove (2433) and a rotary transverse cylinder (2434), wherein the inner cavity of the auxiliary box (2431) is provided with the inner cavity groove (2432), the side end of the auxiliary box (2431) is provided with the second edge groove (2433), and the two walls of the inner cavity of the second edge groove (2433) are provided with the rotary transverse cylinder (2434).

6. The industrial automatic seedling raising machine for Korla pears according to claim 5, wherein: the rotary transverse cylinder (2434) comprises a transverse cylinder body (24341), edge shells (24342), a sweep bar (24343) and a transmission shaft (24344), wherein the edge shells (24342) are arranged at two ends of the transverse cylinder body (24341), the sweep bar (24343) is arranged at the side ends of the edge shells (24342), and the transmission shaft (24344) is arranged in an inner cavity of the transverse cylinder body (24341) in a penetrating mode.

7. The industrial automatic seedling raising machine for Korla pears according to claim 5, wherein: the inner end of the connecting cylinder (242) is movably connected with the inner clamping mechanism (22), a sweeping bar (24343) between the rotary transverse cylinders (2434) is contacted, and the sweeping bar (24343) is a member made of silica gel.