CN217336370U - Plant seed soaks kind of device - Google Patents

Abstract

The embodiment of the application provides a plant seed soaks kind of device, includes: the box body is provided with a first accommodating cavity defined by a laminate and a side plate, a partition plate is arranged in the first accommodating cavity and divides the first accommodating cavity into a plurality of seed soaking cavities which are isolated from each other, the laminate is provided with a plurality of liquid inlets, and the liquid inlets are respectively communicated with the seed soaking cavities; the seed soaking containers are respectively accommodated in the seed soaking cavities, and are respectively provided with a plurality of liquid permeating holes which are arranged at intervals; the first conveying pipe is provided with a plurality of liquid outlets, and each liquid outlet is respectively communicated with each liquid inlet so as to convey liquid to each soaking cavity. The technical scheme of the embodiment of the application can improve the seed soaking effect.

Description

Plant seed soaks kind of device

Technical Field

The application relates to an agricultural seed soaking technical field especially relates to a plant seed soaks kind of device.

Background

In order to promote early germination of plant seeds and kill eggs, germs, etc. attached to the plant seeds, the plant seeds are usually soaked before sowing. The traditional seed soaking method is that plant seeds are placed in a container, then liquid such as clear water or medicament solution is poured into the container, and the plant seeds are fished out after being soaked for a period of time. However, the seed soaking method is easy to accumulate the soaked plant seeds in the seed soaking process, so that part of the plant seeds absorb insufficient liquid, and the seed soaking effect is poor.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a plant seed soaking device to solve or alleviate one or more technical problems in the prior art.

As an aspect of an embodiment of the present application, an embodiment of the present application provides a plant seed soaking device, including:

the box body is provided with a first accommodating cavity defined by a laminate and a side plate, a partition plate is arranged in the first accommodating cavity and divides the first accommodating cavity into a plurality of seed soaking cavities which are isolated from each other, the laminate is provided with a plurality of liquid inlets, and the liquid inlets are respectively communicated with the seed soaking cavities;

the seed soaking containers are respectively accommodated in the seed soaking cavities, and are respectively provided with a plurality of liquid permeating holes which are arranged at intervals;

the first conveying pipe is provided with a plurality of liquid outlets, and each liquid outlet is respectively communicated with each liquid inlet so as to convey liquid to each soaking cavity.

In one embodiment, the plant seed soaking device further comprises:

a plurality of guide plates, each guide plate sets up respectively in the bottom in each kind chamber of soaking to with each kind chamber of soaking divide into the first kind chamber and the second kind chamber of soaking that are linked together, the first kind chamber of soaking is used for holding the kind container of soaking, the second kind chamber of soaking and inlet intercommunication.

In one embodiment, each guide plate is provided with a plurality of guide holes which are uniformly distributed, and one end of each guide hole, which faces the first seed soaking cavity, is provided with a water distribution disc; the water distribution disc is in a flaring shape, a tightening port of the water distribution disc is communicated with the flow guide hole, and an expanding port of the water distribution disc faces the first seed soaking cavity.

In one embodiment, clamping grooves are formed in the tops of the side plates and the dividing plate which enclose the various soaking cavities, and each clamping groove extends along the circumferential direction of the various soaking cavities; the opening edge of each seed soaking container is vertically turned outwards to form a clamping strip; each clamping strip is clamped with each clamping groove so that each seed soaking container is hung in each seed soaking cavity.

In one embodiment, there is a gap between the bottom of each infusion container and the corresponding deflector.

In one embodiment, the box body further comprises a bottom plate positioned below the laminate, a second accommodating cavity is defined by the bottom plate, the laminate and the side plate, the second accommodating cavity is positioned below the first accommodating cavity, the first conveying pipe is accommodated in the second accommodating cavity, and a liquid inlet of the first conveying pipe penetrates out of the side plate; plant seeds soaks kind of device and still includes:

and the delivery pump is arranged on the first delivery pipe and is positioned on the outer side of the side plate.

In one embodiment, the plant seed soaking device further comprises:

the first liquid storage tank is communicated with a liquid inlet of the first conveying pipe through a second conveying pipe;

the heater is arranged at the bottom of the first liquid storage tank and used for heating the liquid in the first liquid storage tank;

the first temperature sensor is arranged on the inner side wall of the first liquid storage tank and used for detecting the temperature of liquid in the first liquid storage tank;

the first electromagnetic valve is arranged on the second conveying pipe;

the controller is respectively connected with the heater, the first temperature sensor and the first electromagnetic valve; the controller is used for respectively sending a stop instruction to the heater and an opening instruction to the first electromagnetic valve when the temperature of the liquid in the first liquid storage tank reaches a first preset temperature, so that the heater stops heating and the first electromagnetic valve is opened.

In one embodiment, the plant seed soaking device further comprises:

the plurality of overflow ports are arranged on the side plate of the box body, and each overflow port is communicated with each seed soaking cavity;

and the liquid inlets of the liquid outlet pipes are respectively communicated with the overflow ports of the various soaking cavities, and the liquid outlets of the liquid outlet pipes extend into the first liquid storage tank.

In one embodiment, the plant seed soaking device further comprises:

the second temperature sensor is arranged in any seed soaking cavity and used for detecting the temperature of liquid in the corresponding seed soaking cavity;

the second liquid storage tank is communicated with the liquid inlet of the first conveying pipe through a third conveying pipe, and the temperature of liquid in the second liquid storage tank is lower than that of liquid in the first liquid storage tank;

the second electromagnetic valve is arranged on the third conveying pipe;

the controller is respectively connected with the second temperature sensor and the second electromagnetic valve, and is used for respectively sending an opening instruction to the second electromagnetic valve and sending a closing instruction to the first electromagnetic valve when the temperature of the liquid in the seed soaking cavity is higher than a second preset temperature, so that the second electromagnetic valve is opened and the first electromagnetic valve is closed, and the second preset temperature is higher than the first preset temperature.

In one embodiment, the plant seed soaking device further comprises:

and the display screen is connected with the controller and used for receiving and displaying the temperature of the liquid in the first liquid storage tank and the temperature of the liquid in the seed soaking cavity.

By adopting the technical scheme, the first accommodating cavity of the box body is divided into the multiple seed soaking cavities which are isolated from each other by the dividing plate, the seed soaking containers are respectively accommodated in the seed soaking cavities, plant seeds can be respectively put into the seed soaking containers in the seed soaking process, the same amount of plant seeds can be accommodated in the seed soaking containers, and the stacking of the plant seeds is reduced; and, through seting up a plurality of inlets at the plywood for each inlet is located the bottom in each kind chamber of soaking respectively and soaks kind container intercommunication with each, so, when utilizing first conveyer pipe to each inlet transport liquid, can make liquid drive each kind of plant seed that soaks in the container from the produced power of the bottom input in kind chamber and float, further reduce piling up of plant seed, but also can make plant seed and liquid fully contact, promote the effect that plant seed absorbed liquid, thereby improve and soak the kind effect.

The foregoing summary is provided for the purpose of description only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present application will be readily apparent by reference to the drawings and following detailed description.

Drawings

In the drawings, like reference numerals refer to the same or similar parts or elements throughout the several views unless otherwise specified. The figures are not necessarily to scale. It is appreciated that these drawings depict only some embodiments in accordance with the disclosure and are therefore not to be considered limiting of its scope.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 shows a schematic structural diagram of a plant seed soaking device according to an embodiment of the present application.

Fig. 2 shows a schematic plan view of fig. 1 (omitting the seed soaking vessel and the first transfer pipe).

Fig. 3 shows a schematic structural diagram of a plant seed soaking device according to another embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Fig. 1 shows a schematic structural diagram of a plant seed soaking device according to an embodiment of the present application. Fig. 2 shows a schematic plan view of fig. 1 (omitting the seed soaking vessel and the first transfer pipe). As shown in fig. 1 and 2, the plant seed soaking apparatus includes a housing 10, a plurality of seed soaking containers 20, and a first transfer pipe 30.

The case 10 includes a layer plate 11 and a side plate 12, and the layer plate 11 and the side plate 12 enclose a first accommodation chamber 10A. A partition plate 13 is arranged in the first accommodating cavity 10A, the partition plate 13 partitions the first accommodating cavity 10A into a plurality of seed soaking cavities 101 which are isolated from each other, a plurality of liquid inlets 11A are formed in the laminated plate 11, and the liquid inlets 11A are respectively communicated with the seed soaking cavities 101. Exemplary materials of the laminate 11 and the side panel 12 of the case 10 include, but are not limited to, plastic, stainless steel, etc.

The seed soaking containers 20 are respectively accommodated in the seed soaking cavities 101, and a plurality of liquid permeating holes 21 are respectively arranged on the seed soaking containers 20 at intervals. Illustratively, the plurality of liquid-permeable pores 21 have a pore size smaller than the particle size of the plant seeds so as to prevent the plant seeds from leaking out of the seed soaking container 20 through the liquid-permeable pores 21. The plurality of seed soaking containers 20 may each contain the same variety of plant seeds or different varieties of plant seeds. When the plurality of seed soaking containers 20 respectively contain different varieties of plant seeds, the seeds of the plants of the plurality of varieties can be soaked simultaneously, for example, the number of the seed soaking cavities 101 is four, the four seed soaking containers 20 are respectively contained in the four seed soaking cavities 101, two of the seed soaking containers 20 contain the seeds of the plant of the variety A, and the other two seed soaking containers 20 contain the seeds of the plant of the variety B, so that the seeds of the plant of the variety A and the seeds of the plant of the variety B can be soaked simultaneously.

First conveyer pipe 30 has a plurality of liquid outlets (not marked in the figure), and each liquid outlet communicates with each inlet 11A respectively to each soaks kind chamber 101 and carry liquid, make liquid can follow the bottom input that soaks kind chamber 101, thereby liquid can drive each plant seed that soaks in the container 20 and float, and the piling up of reducible plant seed in soaking kind container 20 not only makes plant seed and liquid fully contact moreover, promotes the effect that plant seed absorbed liquid. The liquid delivered by the first delivery pipe 30 may be water, a medicinal solution, or the like, which can be used for seed soaking.

According to the plant seed soaking device provided by the embodiment of the application, the first accommodating cavity 10A of the box body 10 is divided into multiple seed soaking cavities 101 which are isolated from each other by the dividing plate 13, the seed soaking containers 20 are respectively accommodated in the seed soaking cavities 101, plant seeds can be respectively put into the seed soaking containers 20 in the seed soaking process, the plant seed soaking containers 20 can accommodate the same amount of plant seeds, and the stacking of the plant seeds is reduced; and, through seting up a plurality of inlet 11A at plywood 11 for each inlet 11A is located the bottom that each soaks kind chamber 101 respectively and with each soaks kind container 20 intercommunication, so, when utilizing first conveyer pipe 30 to each inlet 11A transport liquid, can make liquid drive each plant seed that soaks in the container 20 from the produced power of the bottom input that soaks kind chamber 101 and float, further reduce piling up of plant seed, and still can make plant seed and liquid fully contact, promote the effect that plant seed absorbed liquid, thereby improve and soak kind effect.

In one embodiment, as shown in fig. 1 and 2, the plant seed soaking device further comprises a plurality of baffles 40. Each guide plate 40 sets up respectively in the bottom that each soaks kind chamber 101 to soak kind chamber 101 with each and divide into the first kind chamber 101A and the second that soaks kind chamber 101B that are linked together, the first kind chamber 101A that soaks is used for holding soaks kind container 20, and the second soaks kind chamber 101B and inlet 11A intercommunication. Thus, when the liquid is fed into the second seed soaking cavity 101B, the liquid can flow into the first seed soaking cavity 101A through the guide plates 40, so as to drive the plant seeds in the seed soaking container 20 to float.

In one embodiment, as shown in fig. 1 and fig. 2, each diversion plate 40 is provided with a plurality of diversion holes 41 which are uniformly arranged, and a water distribution disc 42 is arranged at one end of each diversion hole 41 facing the first seed soaking cavity 101A; the water distribution disk 42 is flared, a tightening port of the water distribution disk 42 is communicated with the diversion hole 41, and an expanding port of the water distribution disk 42 faces the first seed soaking cavity 101A. Exemplarily, as shown in fig. 2, the plurality of guiding holes 41 are arranged in a row in the width direction of the guiding plate 40, wherein each row of guiding holes 41 includes a plurality of guiding holes arranged at intervals, and the guiding holes 41 in adjacent rows are arranged in a staggered manner, so as to achieve uniform arrangement of the guiding holes 41; in addition, a flared water distribution plate 42 is disposed at one end of each diversion hole 41 facing the first seed soaking cavity 101A, so that water can be uniformly distributed by using the water distribution plate 42. Therefore, the liquid can uniformly flow into the first seed soaking cavity 101A through the flow guide holes 41 of the flow guide plates 40 and the water distribution plate 42 in sequence, and the effect of driving the plant seeds to float is improved.

In one embodiment, as shown in fig. 1 and 2, the top of the side plate 12 and the dividing plate 13 enclosing each soaking cavity 101 is provided with a clamping groove 12A, and each clamping groove 12A extends along the circumferential direction of each soaking cavity 101; the open edge of each seed soaking container 20 is folded vertically outwards to form a clamping strip (not marked in the figure); the respective clip strips are engaged with the respective clip grooves 12A to suspend the respective seed soaking containers 20 in the respective seed soaking chambers 101. In this way, each seed soaking container 20 is prevented from sliding into the corresponding seed soaking chamber 101.

In one embodiment, as shown in fig. 1, there is a gap S between the bottom of each seed soaking vessel 20 and the corresponding baffle 40. The size of the gap S can be selected and adjusted according to actual needs. Through setting up to soak and have clearance S between the bottom of kind container 20 and the guide plate 40 that corresponds, can avoid soaking the bottom of kind container 20 and guide plate 40 laminating and reduce the water conservancy diversion effect.

In one embodiment, referring to fig. 3, the box 10 further includes a bottom plate 14 located below the layer plate 11, the bottom plate 14, the layer plate 11 and the side plate 12 enclose a second accommodating cavity 10B, the second accommodating cavity 10B is located below the first accommodating cavity 10A, the first conveying pipe 30 is accommodated in the second accommodating cavity 10B, and the liquid inlet 11A of the first conveying pipe 30 penetrates out of the side plate 12. The plant seed soaking device further comprises a delivery pump 31, and the delivery pump 31 is arranged on the first delivery pipe 30 and is positioned on the outer side of the side plate 12. Through setting up delivery pump 31 to first conveyer pipe 30, usable delivery pump 31 provides kinetic energy to liquid for liquid can drive the plant seed that soaks in kind chamber 101 when inputing to soaking kind chamber 101 through first conveyer pipe 30 and float.

In one embodiment, referring to fig. 3, the plant seed soaking device further includes a first liquid storage 50, a heater 52, a first temperature sensor 53, a first solenoid valve 54, and a controller 60. The first reservoir 50 is communicated with the liquid inlet 11A of the first delivery pipe 30 through a second delivery pipe 51. The heater 52 is disposed at the bottom of the first reservoir 50 for heating the liquid in the first reservoir 50. The first temperature sensor 53 is disposed on an inner sidewall of the first liquid storage tank 50, and is configured to detect a temperature of the liquid in the first liquid storage tank 50. The first solenoid valve 54 is provided in the second delivery pipe 51. The controller 60 is connected to the heater 52, the first temperature sensor 53, and the first solenoid valve 54, respectively. The controller 60 is configured to send a stop command to the heater 52 and an open command to the first solenoid valve 54 when the temperature of the liquid in the first reservoir 50 reaches a first preset temperature, so as to stop heating of the heater 52 and open the first solenoid valve 54. Therefore, when the liquid is heated to the first preset temperature in the first liquid storage tank 50, the liquid is conveyed to the seed soaking cavity 101 through the second conveying pipe 51 and the first conveying pipe 30, so that the liquid input into the seed soaking cavity 101 meets the temperature condition required by the plant seeds.

In one embodiment, the plant seed soaking device further comprises a plurality of overflow ports 12B and a plurality of drain pipes 70. A plurality of overflow ports 12B all set up in the curb plate 12 of box 10, and a plurality of overflow ports 12B and a plurality of kinds of chambeies 101 one-to-one that soak, each overflow port 12B respectively with each kind of chamber 101 intercommunication that soaks. Illustratively, the liquid inlets of the plurality of overflow ports 12B and the liquid outlets 70 of the plurality of first seed soaking cavities are respectively communicated with the overflow ports 12B of the respective seed soaking cavities 101, and the liquid outlets of the liquid outlets 70 extend into the first liquid storage tank 50. Thus, when the liquid level of the liquid in each soaking cavity 101 exceeds the overflow port 12B, the liquid can be conveyed to the first liquid storage tank 50 through the liquid outlet pipe 70, which is beneficial to recycling of the liquid and avoids waste.

In one embodiment, the plant seed soaking device further comprises a second temperature sensor 15, a second reservoir 80 and a second solenoid valve 82. The second temperature sensor 15 is disposed in any seed soaking cavity 101 and is used for detecting the temperature of the liquid in the corresponding seed soaking cavity 101. The second liquid storage tank 80 is communicated with the liquid inlet 11A of the first conveying pipe 30 through a third conveying pipe 81, and the temperature of the liquid in the second liquid storage tank 80 is lower than that of the liquid level in the first liquid storage tank 50. Second solenoid valve 82 is provided in third feed pipe 81.

The controller 60 is connected to the second temperature sensor 15 and the second electromagnetic valve 82, and the controller 60 is configured to send an opening instruction to the second electromagnetic valve 82 and a closing instruction to the first electromagnetic valve 54 when the temperature of the liquid in the seed soaking cavity 101 is higher than a second preset temperature, so that the second electromagnetic valve 82 is opened and the first electromagnetic valve 54 is closed, and the second preset temperature is higher than the first preset temperature.

Above-mentioned scheme, when second temperature sensor 15 detected the temperature that soaks kind of intracavity 101 interior liquid and is higher than the second preset temperature, controller 60 controls second solenoid valve 82 respectively and opens and control first solenoid valve 54 and close, can make the lower liquid of temperature in the second liquid storage tank 80 input soaks kind of intracavity 101 from the bottom of soaking kind of intracavity 101 in to and soak kind of intracavity 101 interior higher liquid and carry to first liquid storage tank 50 from each overflow mouth 12B through drain pipe 70, thereby reduce the temperature of soaking kind of intracavity 101 interior liquid, avoid soaking the temperature of kind intracavity 101 interior liquid too high.

In one embodiment, the plant seed soaking device further comprises a display screen 90. The display is connected to the controller 60 for receiving and displaying the temperature of the liquid in the first reservoir 50 and the temperature of the liquid in the seed soaking chamber 101. Therefore, the temperature can be conveniently checked in time.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A plant seed soaking device, comprising:

the seed soaking device comprises a box body, a seed soaking device and a seed soaking device, wherein the box body is provided with a first accommodating cavity surrounded by a laminate and a side plate, a partition plate is arranged in the first accommodating cavity and divides the first accommodating cavity into a plurality of seed soaking cavities which are isolated from each other, the laminate is provided with a plurality of liquid inlets, and the liquid inlets are respectively communicated with the seed soaking cavities;

the seed soaking containers are respectively accommodated in the seed soaking cavities, and are respectively provided with a plurality of liquid permeating holes arranged at intervals;

the first conveying pipe is provided with a plurality of liquid outlets, and each liquid outlet is respectively communicated with each liquid inlet so as to convey liquid to each seed soaking cavity.

2. The plant seed soaking device of claim 1, further comprising:

the guide plates are respectively arranged at the bottoms of the seed soaking cavities so as to divide the seed soaking cavities into a first seed soaking cavity and a second seed soaking cavity which are communicated, the first seed soaking cavity is used for accommodating the seed soaking container, and the second seed soaking cavity is communicated with the liquid inlet.

3. The plant seed soaking device according to claim 2, wherein each guide plate is provided with a plurality of guide holes which are uniformly distributed, and one end of each guide hole facing the first seed soaking cavity is provided with a water distribution disc; the water distribution disc is in a flaring shape, a tightening port of the water distribution disc is communicated with the flow guide hole, and an expanding port of the water distribution disc faces the first seed soaking cavity.

4. The plant seed soaking device according to claim 2, wherein clamping grooves are formed in the tops of the side plates and the dividing plate which enclose each seed soaking cavity, and each clamping groove extends along the circumferential direction of each seed soaking cavity; the opening edge of each seed soaking container is vertically turned outwards to form a clamping strip; each clamping strip is clamped with each clamping groove so that each seed soaking container is hung in each seed soaking cavity.

5. The plant seed soaking device according to claim 4, wherein a gap is provided between the bottom of each soaking container and the corresponding deflector.

6. The plant seed soaking device according to claim 1, wherein the box body further comprises a bottom plate positioned below the laminate, a second accommodating cavity is defined by the bottom plate, the laminate and the side plate, the second accommodating cavity is positioned below the first accommodating cavity, the first conveying pipe is accommodated in the second accommodating cavity, and a liquid inlet of the first conveying pipe penetrates out of the side plate; the plant seed soaking device further comprises:

and the delivery pump is arranged on the first delivery pipe and is positioned on the outer side of the side plate.

7. The plant seed soaking device according to claim 6, further comprising:

the first liquid storage tank is communicated with a liquid inlet of the first conveying pipe through a second conveying pipe;

the heater is arranged at the bottom of the first liquid storage tank and used for heating liquid in the first liquid storage tank;

the first temperature sensor is arranged on the inner side wall of the first liquid storage tank and used for detecting the temperature of liquid in the first liquid storage tank;

the first electromagnetic valve is arranged on the second conveying pipe;

the controller is respectively connected with the heater, the first temperature sensor and the first electromagnetic valve; the controller is used for respectively sending a stop instruction to the heater and an opening instruction to the first electromagnetic valve when the temperature of the liquid in the first liquid storage tank reaches a first preset temperature, so that the heater stops heating, and the first electromagnetic valve is opened.

8. The plant seed soaking device according to claim 7, further comprising:

the overflow ports are arranged on the side plate of the box body, and each overflow port is communicated with each seed soaking cavity;

and the liquid inlets of the liquid outlet pipes are respectively communicated with the overflow ports of the seed soaking cavities, and the liquid outlets of the liquid outlet pipes extend into the first liquid storage tank.

9. The plant seed soaking device according to claim 7, further comprising:

the second temperature sensor is arranged in any seed soaking cavity and used for detecting the temperature of liquid in the corresponding seed soaking cavity;

the second liquid storage tank is communicated with the liquid inlet of the first conveying pipe through a third conveying pipe, and the temperature of liquid in the second liquid storage tank is lower than that of liquid in the first liquid storage tank;

the second electromagnetic valve is arranged on the third conveying pipe;

the controller is respectively connected with the second temperature sensor and the second electromagnetic valve, and is used for respectively sending an opening instruction to the second electromagnetic valve and a closing instruction to the first electromagnetic valve when the temperature of the liquid in the seed soaking cavity is higher than a second preset temperature, so that the second electromagnetic valve is opened and the first electromagnetic valve is closed, and the second preset temperature is higher than the first preset temperature.

10. The plant seed soaking device of claim 9, further comprising:

and the display screen is connected with the controller and used for receiving and displaying the temperature of the liquid in the first liquid storage tank and the temperature of the liquid in the seed soaking cavity.

Images