CN111010924A - Rotary germination machine and germination method thereof - Google Patents

Abstract

The invention relates to a rotary germination machine, which comprises a mounting seat and a driving mechanism, wherein one or more detachable germination barrels are arranged on the mounting seat, and the germination barrels can be driven by the driving mechanism to axially rotate after being mounted; both ends of the germination barrel are provided with air holes; the rotary germination machine also comprises an atomization component for spraying to the interior of the germination barrel through the air holes, and an air inlet component for feeding air to the interior of the germination barrel through the air holes; after seeds are placed in the germination barrel, the germination barrel is mounted on the mounting seat and driven to axially rotate by the driving mechanism, and the atomization assembly works to blow fog into the germination barrel while rotating; the heat and gas generated in the seed growth process are blown and discharged through the air inlet assembly; when seeds with the requirement of germination water temperature germinate, the germination water temperature is controlled by adjusting the water inlet temperature of the atomization assembly; the germination requirements of various seeds can be met, the germination success rate is high, the consistency is good, the sent buds are not easy to entangle, the use is convenient, and the operation can be carried out at home.

Description

Rotary germination machine and germination method thereof

Technical Field

The invention relates to the technical field of germination machines, in particular to a rotary germination machine and a germination method thereof.

Background

The germination machine is used for germinating seeds, such as peas, soybeans and the like, and is usually used for eating or cultivation after germination; at present, most of the sprouting machines are applied to the industry, and a small sprouting machine suitable for household use is needed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a rotary germination machine and a germination method aiming at the defects of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a rotary germination machine is constructed, and comprises a mounting seat and a driving mechanism, wherein one or more detachable germination barrels are arranged on the mounting seat, and the germination barrels can be driven by the driving mechanism to axially rotate after being mounted; both ends of the germination barrel are provided with air holes; the rotary germination machine further comprises an atomizing assembly for spraying to the interior of the germination barrel through the air holes, and an air inlet assembly for supplying air to the interior of the germination barrel through the air holes.

The rotary germination machine comprises a driving mechanism, a driving mechanism and a control mechanism, wherein the driving mechanism comprises a driven shaft and a driver for driving the driven shaft to rotate; when the driven shaft rotates, tangential force is applied to the outer side surface of the germination barrel to drive the germination barrel to rotate.

The rotary germination machine is characterized in that the rotating shaft is rotatably connected with the mounting seat; when the single rotating shaft rotates, one or more germination barrels are driven to rotate; the driver comprises a driving motor, a driven wheel is coaxially arranged on the rotating shaft, and the driven wheel is driven by the driving motor to rotate.

The rotary germination machine is characterized in that a plurality of germination barrels are arranged; the atomizing component and the air inlet component form a group of first units, and the rotary germination machine further comprises a first moving component which drives the first units to move to the end parts of the germination barrels.

The rotary germination machine is characterized in that a plurality of germination barrels are distributed in a plurality of rows in a transverse, longitudinal or oblique manner; the first unit comprises the atomizing assemblies and the air inlet assemblies which are in one-to-one correspondence with the germination barrels in one row.

The rotary germination machine is characterized in that the plurality of germination barrels are distributed in two rows transversely, longitudinally or obliquely; the driven wheel is a friction wheel or a soft-tooth gear; the driven shafts are arranged on the inner sides of the two rows of germination barrels; the driving motor is provided with a driving wheel corresponding to the driven wheel; the first moving assembly comprises a mounting frame for mounting the atomizing assembly and the air inlet assembly and a moving mechanism for driving the mounting frame to move; be provided with sliding connection on the mounting bracket driving motor's sliding tray, driving motor is in the sliding tray sliding motion direction with the moving direction of mounting bracket is unanimous, be provided with on the mount pad when the mounting bracket removes to target in place right driving motor supports tight spacing first spacing ejector pin and the spacing ejector pin of second.

The rotary germination machine is characterized in that a plurality of germination barrels are arranged; the air inlet subassembly is provided with one or more, and is single the air inlet subassembly is corresponding to a plurality of the bucket air inlet sprouts.

The rotary germination machine is characterized in that a plurality of germination barrels are arranged; the atomizing component is provided with a plurality of and with the bucket one-to-one sets up sprouts, perhaps the rotation type machine of sprouting still includes the drive atomizing component removes one by one to each the second of sprouting bucket tip position removes the subassembly.

The rotary germination machine further comprises a water tank for supplying water to the atomization assembly, a detachable outer cover covering the plurality of germination barrels, a first temperature control assembly for controlling the temperature of liquid in the water tank, and a second temperature control assembly for controlling the temperature inside the outer cover.

A germination method of a rotary germination machine is realized according to the rotary germination machine, and the method comprises the following steps:

after seeds are placed in the germination barrel, the germination barrel is mounted on the mounting seat and driven to axially rotate by the driving mechanism, and the atomization assembly works to blow fog into the germination barrel while rotating; the heat and gas generated in the seed growth process are blown and discharged through the air inlet assembly; when seeds with the requirement of germination water temperature germinate, the germination water temperature is controlled by adjusting the water inlet temperature of the atomization assembly.

The invention has the beneficial effects that: after seeds are placed in the germination barrel, the germination barrel is mounted on the mounting seat and driven to axially rotate by the driving mechanism, and the atomization assembly works to blow fog into the germination barrel while rotating; the heat and gas generated in the seed growth process are blown and discharged through the air inlet assembly; when seeds with the requirement of germination water temperature germinate, the germination water temperature is controlled by adjusting the water inlet temperature of the atomization assembly; the germination requirements of various seeds can be met, the germination success rate is high, the consistency is good, the sent buds are not easy to entangle, the use is convenient, and the operation can be carried out at home.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is an overall view of a rotary type germination machine according to a preferred embodiment of the present invention;

FIG. 2 is an exploded view of a rotary germination machine according to a preferred embodiment of the present invention;

FIG. 3 is a schematic view of a first moving assembly of the rotary germination machine according to the preferred embodiment of the present invention;

FIG. 4 is a schematic view of a first moving assembly of the rotary germination machine according to another angle of the present invention;

FIG. 5 is a schematic view of the arrangement of the first and second position-limiting rods of the rotary germination machine according to the preferred embodiment of the present invention;

FIG. 6 is an exploded view of the rotating germination machine with the germination barrel disassembled in the preferred embodiment of the present invention;

FIG. 7 is a schematic view of a driven shaft of a rotary germination machine according to a preferred embodiment of the present invention;

FIG. 8 is a sectional view of a germination barrel of a rotary germination machine in accordance with a preferred embodiment of the present invention;

FIG. 9 is a schematic view of the temperature control structure of the rotary germination machine according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The rotary germination machine of the preferred embodiment of the present invention, as shown in fig. 1, and referring to fig. 2-8, comprises a mounting base 1 and a driving mechanism, wherein the mounting base 1 is provided with one or more detachable germination barrels 2, and the germination barrels 2 can be driven by the driving mechanism to rotate axially after being mounted; both ends of the germination barrel 2 are provided with air holes 20; the rotary germination machine also comprises an atomizing component 3 which sprays into the germination barrel 2 through an air hole 20, and an air inlet component 4 which supplies air into the germination barrel 2 through the air hole 20; after seeds are placed in the germination barrel 2, the germination barrel 2 is mounted on the mounting seat 1 and driven to axially rotate by the driving mechanism, and the atomization assembly 3 works to blow fog into the germination barrel 2 while rotating; heat and gas generated in the seed growing process are blown and discharged through the air inlet component 4; when seeds with the requirement of germination water temperature germinate, the germination water temperature is controlled by adjusting the water inlet temperature of the atomization assembly 3; the germination requirements of various seeds can be met, the germination success rate is high, the consistency is good, the sent buds are not easy to entangle, the use is convenient, and the operation can be carried out at home.

It should be noted that, when the germination barrel 2 is mounted on the mounting seat 1, the clamping manner as shown in the attached drawings can be adopted: a semicircular groove 12 is formed in the mounting seat 1, an elastic clamping jaw 13 is arranged on one side edge of the groove 12, and the germination barrel 2 is clamped and mounted through the elastic clamping force of the clamping jaw 13 so as to be convenient to mount and dismount from the side edge; two ends of the groove 12 can be provided with a limiting block for limiting and preventing the germination barrel 2 from falling off;

optionally, the clamping jaw 13 is further provided with a roller 130 to reduce the friction force with the germination barrel 2;

optionally, two side edges of the groove 12 can be provided with a slot 120 for a hand to extend into so as to facilitate the hand to take down the germination barrel 2 from the side edge;

preferably, the driving mechanism comprises a driven shaft 50 and a driver for driving the driven shaft 50 to rotate; when the driven shaft 50 rotates, tangential force is applied to the outer side surface of the germination barrel 2 to drive the germination barrel to rotate; the driven shaft 50 acts on the outer side surface of the germination barrel 2 when rotating, and the germination barrel 2 is driven to rotate under the action of friction force, so that additional connection and assembly are not needed, and the germination barrel 2 is convenient to disassemble and assemble;

preferably, as shown in fig. 8, one or more hollow tubes 21 are arranged inside the germination barrel 2, the hollow tubes 21 are communicated with the air holes 20 at the two ends of the germination barrel 2, and the outer surface of the hollow tubes 21 is provided with a plurality of holes 210; the seeds are placed in the space between the hollow tube 21 and the inner wall of the germination barrel 2, when fog enters from one end of the germination barrel 2, the fog enters the hollow tube 21 and enters the germination barrel 2 from the holes 210 of the hollow tube 21 to be contacted with the seeds, waste gas generated by seed germination can also be discharged into the hollow tube 21 from the holes 210 and then is discharged through the air inlet component 4, by adopting the structural mode, the contact area between the seeds and the fog can be larger, the contact is more uniform, particularly, after the seeds sprout, the resistance of water mist introduction is smaller, and the germination effect is further ensured;

of course, the germination can also be carried out in a manner that the germination barrel 2 is directly used without using the hollow tube 21, and the manner also belongs to the protection scope of the present application.

It is understood that the driver may be configured as described below, or other existing driving devices that can drive the driven shaft 50 to rotate may be used, for example, a linear driving mechanism such as an air cylinder is used to drive a driving rod that vertically contacts with the driven shaft to make a linear motion, and the driving rod is driven to rotate by friction force; or a linear driving mechanism such as an air cylinder is adopted to drive the rack, and a tooth socket matched with the rack is arranged on the driven shaft, and the like; such simple structural alternatives are all within the scope of protection of the present application.

Preferably, the rotating shaft 50 is rotatably connected with the mounting seat 1; the single rotating shaft 50 drives one or more germination barrels 2 to rotate when rotating; the driver comprises a driving motor 51, a driven wheel 500 is coaxially arranged on the rotating shaft 50, and the driven wheel 500 is driven by the driving motor 51 to rotate; the driven wheel 500 is driven to rotate by the rotation of the driving motor 51, and then the rotating shaft 50 is driven to move; easy control and good stability;

it is understood that the driving motor 51 may drive the driven wheel 500 by adopting the structure described in the present application, or may adopt the existing transmission mode such as belt transmission, chain transmission, etc.

Preferably, the germination barrels 2 are provided in plurality; the atomizing component 3 and the air inlet component 4 form a group of first units, and the rotary germination machine also comprises a first moving component which drives the first units to move to the end part of each germination barrel 2; when using first removal subassembly, can remove first unit this moment, only need the moisture of less quantity atomizing subassembly 3 and air inlet subassembly 4 just can come the bucket that corresponds more to sprout, the ventilation demand promptly to practice thrift equipment cost.

Preferably, the plurality of germination barrels 2 are distributed in a plurality of rows transversely, longitudinally or obliquely; the first unit comprises an atomizing component 3 and an air inlet component 4 which are in one-to-one correspondence with the germination barrels 2 in one row; each movement allows for the replenishment of moisture and ventilation of the entire row of germinating barrels 2.

Preferably, the plurality of germination barrels 2 are distributed in two rows transversely, longitudinally or obliquely; the driven wheel 500 is a friction wheel or a soft-tooth gear; the driven shaft 50 is arranged at the inner sides of the two rows of germination barrels 2; the driving motor 51 is provided with a driving wheel 510 corresponding to the driven wheel 50; the first moving assembly comprises a mounting frame 60 for mounting the atomizing assembly 3 and the air inlet assembly 4 and a moving mechanism 61 for driving the mounting frame 60 to move; the mounting frame 60 is provided with a sliding groove 600 connected with the driving motor 51 in a sliding manner, the sliding motion direction of the driving motor 51 in the sliding groove 600 is consistent with the moving direction of the mounting frame 60, and the mounting seat 1 is provided with a first limiting ejector rod 10 and a second limiting ejector rod 11 which tightly abut against and limit the driving motor 51 when the mounting frame 60 moves in place;

the driven shaft 50 is arranged at the inner sides of the two rows of germination barrels 2, and the distance between every two adjacent germination barrels in each row can be compact in the arrangement structure; on the basis, the mounting rack 60 can reciprocate between the two rows of germination barrels 2 under the driving of the moving mechanism 61 to form a one-time clutch structure so as to correspond to the water supplementing and ventilating requirements of the germination barrels in each row; meanwhile, when the mounting frame 60 moves to two end positions, the driving motor 51 is pushed to slide and tightly abut against the inner wall of the sliding groove 600 by the first limiting ejector rod 10 and the second limiting ejector rod 11 respectively to form a secondary clutch structure, and in a tightly abutted state, the driving wheel 510 on the movable end of the driving motor 51 is attached to the driven wheel 500, so that the stability is guaranteed and the arrangement number of the driving motors 51 is reduced;

the moving mechanism 61 may be configured as in the drawings of the present application: the motor 610 drives the screw rod 611, the screw rod 611 drives the mounting plate 60 to move, and meanwhile, in order to ensure the stability of the movement of the mounting plate, one or more guide rods 612 penetrate through the mounting plate, and the guide rods 612 can be fixedly connected with the mounting base 1;

similarly, the moving mechanism 61 may also adopt the existing conventional moving mechanism, such as an air cylinder, a linear motor, etc., and such simple alternative modes all belong to the protection scope of the present application;

it is understood that a pulley can be used to connect the driven wheels 500 of each row, and the driving wheel 510 drives the driven wheels 500 of the entire row by driving the pulley, which is a simple alternative and is also within the scope of the present application.

Preferably, the rotary germination machine further comprises a water tank 7 for supplying water to the atomizing assembly, a detachable outer cover 9 covering the plurality of germination barrels, a first temperature control assembly for controlling the temperature of liquid in the water tank, and a second temperature control assembly 90 for controlling the temperature in the outer cover;

the first temperature control assembly is used for heating liquid in the water tank 7 or integrally heating the water tank 7 by selecting conventional modes such as a heating wire, a heating rod and the like;

a second temperature control assembly 90 for controlling the temperature inside the housing 9, i.e. controlling and adjusting the external environment temperature of the plurality of germination barrels 2;

through the control of the water temperature and the control of the external temperature of the germination barrel, the balance of the germination temperature is ensured under the double control, and the germination efficiency and the germination rate are improved;

as shown in fig. 9, the second temperature control assembly 90 may adopt a superconducting heating sheet 900 for heating, hot air is blown into the outer cover 9 from an air inlet 902 through a fan 901, an air inlet opening 903 matched with the fan is formed at the bottom of the mounting base 1, and an air outlet is formed in the outer cover 9 for ensuring that the hot air can enter;

of course, besides this structure, some existing temperature control devices can be used to control the temperature inside the housing 9; simple transformations based on this principle all fall within the scope of protection of the present application;

preferably, the rotary germinating machine also includes a waste water tank 8 located below the plurality of germinating buckets 2, through which waste water tank 8 dripping waste water is received.

Other alternative air intake or fog intake modes of this application have:

a. a plurality of germination barrels are arranged; one or more air inlet components are arranged, and a single air inlet component correspondingly supplies air to the plurality of germination barrels; under this kind of mode, can also realize the ventilation demand to a plurality of bucket air intakes that sprout through an air intake subassembly.

b. A plurality of germination barrels are arranged; the atomization components are arranged in a plurality and are in one-to-one correspondence with the germination barrels; this approach can meet the fog intake requirements, but the relative cost can be higher;

c. a plurality of germination barrels are arranged; the rotary germination machine also comprises a second moving assembly which drives the atomizing assembly to move to the end part of each germination barrel one by one; in this way, the number of the atomization assemblies can be reduced; the second moving component adopts a conventional mechanism which can drive the atomizing component to move, such as an XY axis driver and the like;

it is understood that the modes a and b can be combined, and the modes a and c can also be combined to form a new embodiment, and such alternative modes are also within the scope of the present application.

A germination method of a rotary germination machine is realized according to the rotary germination machine, and the method comprises the following steps:

after seeds are placed in the germination barrel, the germination barrel is mounted on the mounting seat and driven to axially rotate by the driving mechanism, and the atomization assembly works to blow fog into the germination barrel while rotating; the heat and gas generated in the seed growth process are blown and discharged through the air inlet assembly; when seeds with the requirement of germination water temperature germinate, the germination water temperature is controlled by adjusting the water inlet temperature of the atomization assembly; the germination requirements of various seeds can be met, the germination success rate is high, the consistency is good, the sent buds are not easy to entangle, the use is convenient, and the operation can be carried out at home.

Taking the germination of alfalfa sprouts as an example, the following is illustrated:

the first day: spraying with 23-24 deg.C water for 10 s every 10 min;

the next day: spraying with 24-27 deg.C water for 10 s every 5 min;

and on the third day: spraying with 27-28 deg.C water for 10 s every 2 min;

the fourth day: spraying with 27-28 deg.C water at intervals of 1 min for 10 s;

the fifth day: obtaining the germinated alfalfa sprouts;

ventilation is needed in the whole germination process to provide fresh air, exhaust internal waste gas, cool and the like; the ventilation time and the ventilation frequency can be once ventilated for 1 hour according to actual requirements, or once ventilated for 2 hours, once ventilated for 3 hours and other set time.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. A rotary germination machine is characterized by comprising a mounting seat and a driving mechanism, wherein one or more detachable germination barrels are arranged on the mounting seat, and the germination barrels can be driven by the driving mechanism to axially rotate after being mounted; both ends of the germination barrel are provided with air holes; the rotary germination machine further comprises an atomizing assembly for spraying to the interior of the germination barrel through the air holes, and an air inlet assembly for supplying air to the interior of the germination barrel through the air holes.

2. The rotary germination machine of claim 1, wherein the driving mechanism includes a driven shaft and a driver for rotating the driven shaft; when the driven shaft rotates, tangential force is applied to the outer side surface of the germination barrel to drive the germination barrel to rotate.

3. The rotary germination machine of claim 2, wherein the rotation shaft is rotatably connected to the mounting seat; when the single rotating shaft rotates, one or more germination barrels are driven to rotate; the driver comprises a driving motor, a driven wheel is coaxially arranged on the rotating shaft, and the driven wheel is driven by the driving motor to rotate.

4. The rotary germination machine of claim 3, wherein the germination barrels are provided in plurality; the atomizing component and the air inlet component form a group of first units, and the rotary germination machine further comprises a first moving component which drives the first units to move to the end parts of the germination barrels.

5. The rotary germination machine of claim 4, wherein a plurality of germination barrels are arranged in a plurality of rows, transversely, longitudinally or obliquely; the first unit comprises the atomizing assemblies and the air inlet assemblies which are in one-to-one correspondence with the germination barrels in one row.

6. The rotary germination machine of claim 5, wherein the germination barrels are distributed in two rows, transversely, longitudinally or obliquely; the driven wheel is a friction wheel or a soft-tooth gear; the driven shafts are arranged on the inner sides of the two rows of germination barrels; the driving motor is provided with a driving wheel corresponding to the driven wheel; the first moving assembly comprises a mounting frame for mounting the atomizing assembly and the air inlet assembly and a moving mechanism for driving the mounting frame to move; be provided with sliding connection on the mounting bracket driving motor's sliding tray, driving motor is in the sliding tray sliding motion direction with the moving direction of mounting bracket is unanimous, be provided with on the mount pad when the mounting bracket removes to target in place right driving motor supports tight spacing first spacing ejector pin and the spacing ejector pin of second.

7. A rotary germination machine according to any one of claims 1-3, wherein there are provided a plurality of germination barrels; the air inlet subassembly is provided with one or more, and is single the air inlet subassembly is corresponding to a plurality of the bucket air inlet sprouts.

8. A rotary germination machine according to any one of claims 1-3, wherein there are provided a plurality of germination barrels; the atomizing component is provided with a plurality of and with the bucket one-to-one sets up sprouts, perhaps the rotation type machine of sprouting still includes the drive atomizing component removes one by one to each the second of sprouting bucket tip position removes the subassembly.

9. The rotary germination machine of claim 1, further comprising a water tank for supplying water to the atomizing assembly, a detachable cover covering the plurality of germination barrels, a first temperature control assembly for controlling the temperature of the liquid in the water tank, and a second temperature control assembly for controlling the temperature inside the cover.

10. A germination method of a rotary germination machine, the rotary germination machine according to any one of claims 1-9, characterized in that the method is realized as follows:

after seeds are placed in the germination barrel, the germination barrel is mounted on the mounting seat and driven to axially rotate by the driving mechanism, and the atomization assembly works to blow fog into the germination barrel while rotating; the heat and gas generated in the seed growth process are blown and discharged through the air inlet assembly; when seeds with the requirement of germination water temperature germinate, the germination water temperature is controlled by adjusting the water inlet temperature of the atomization assembly.

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