CN204796318U - Photinia fraseri is with combined cave dish of growing seedlings - Google Patents

Abstract

The utility model relates to a photinia fraseri is with combined cave dish of growing seedlings mainly includes rectangle cave plate rail, circular vesicle dish and cave disk cover. Vesicle dish rule sets up on the plate rail of cave, the vesicle dish includes the growth cave, encircles the cooperation groove that growth cave upper end a week set up, and cave dish board, growth cave and cave dish board integrated into one piece. The cave disk cover is including apron and seeding hole layer, the apron, including flat board and fixed plate no. 1, the flat board is the blade form, the apron is connected through fixed plate no. 1 and the cooperation groove interference on the vesicle dish, seeding hole layer and apron interconnect and can rotating relatively, and sow the hole site and put to put with the acupuncture point of growing and correspond the setting. The utility model discloses a method of installing the cave disk cover on vesicle dish enables to sow rigidity in growth cave centre, and the back is accomplished in the seeding, and rotatory seeding hole layer is sheltered from by the apron until the hole, and such design can prevent that frozen soil hinders the root at cold weather, can realize the anti -season cultivation even.

Description

The combined seedling culture hole plate of a kind of photinia glabra

Technical field

The utility model relates to botanical seedling culturing field, particularly relates to the combined seedling culture hole plate of a kind of photinia glabra.

Technical background

Point disk seedling growing is cultivated as a kind of specialization and is produced the new technology of crop commercial seedling, because nursery carrier mostly to be in the good matrix of light-duty loose preserve moisture and fertility the performance such as peat composed of rotten mosses, vermiculite, pulverizing fruit bits, organic humus etc. one or more, thus nutrient and moisture that raw material dosage meets nursery can be reduced, practicable light simple nursery; Precision drilling in the disk hole of cave, realizes seed seedling, greatly saving kind; Also save nursery place, intensive, batch production can also be carried out in management.Meanwhile, reducing labor intensity when transplanting, being beneficial to do mechanization operation.It has the advantages that to be suitable for light simplification, batch production, scale and standardization nursery, has become a kind of main production process of nursery enterprise and seedling company.

The step that point disk seedling growing technology relates generally to and operation have: one is sowing, and key link comprises matrix treatments mixing, medium in tray, spot hole, sow, cover, suppress and moisturizing etc.Two is management of emerging, and major measure heats moisturizing to promote neat seedling and full stand.Three is seedbed management in strong sprout, and major measure is that warm water controls, and diseases and pests controlling, Reasonable Regulation And Control urgees strong sprout.Four is management before planting, and major measure is hardening and moulds seedling and should plant performance, plants front seedbed control water, has been convenient to transplantation of seedlings.Wherein, seeding process is nursery committed step, also be most important link, that mechanical planting or artificial seeding will make every effort to seed and drop on cavities center, and for photinia glabra, when temperature is lower, do antifreezing measures, usual employing plastic mulching, this mode easily pollutes, and laying plastic cost is higher.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides following technical scheme;

The combined seedling culture hole plate of a kind of photinia glabra, mainly comprises rectangle cave plate rail, circular vesicle dish and cave disk cover; Described vesicle dish is fixedly connected with cave plate rail, the mating groove that described vesicle dish comprises growth cave, arranges for a week around growth upper end, cave, and cave plate; Described growth cave and cave plate one-body molded; Described cave disk cover comprises cover plate and sowing aperture layer, described cover plate comprises flat board and fixed head one, described flat board is foliaceous, described cover plate is connected with the mating groove interference on vesicle dish by fixed head one, described sowing aperture layer and cover plate are interconnected and can relatively rotate, and corresponding setting is put with growth acupuncture point in planting hole position.

Further, described vesicle dish arranges 8, is fixedly connected with cave plate rail with the form that two row four arrange; Growth cave in described vesicle dish arranges 9, comprises 1, center, and ring circumference 8; Described planting hole with growth acupuncture point put corresponding setting, and the area of planting hole consistent with the area of blade relevant position or be slightly less than foliaceous flat board relevant position area.Such can ensure the later stage need insulation time, blade can shelter from planting hole completely.

Further, also offer multiple water-guiding hole bottom described growth cave, when photinia glabra sapling needs to water, need rotate sowing aperture layer, sowing position is exposed, after watering, unnecessary moisture is flowed out by water-guiding hole.

Further, described water-guiding hole is circumferential bottom growth cave to be arranged, and described water-guiding hole aperture is set to 1-3mm.Aperture is unsuitable excessive, otherwise easily causes the loss of compost.

Further, described mating groove is big upper and lower small mouth; Described fixed head one shape and mating groove mating shapes are also upper big and bottom samll shape; Described mating groove is connected with fixed head one interference.When such energy ensures to rotate sowing aperture layer, cover plate keeps motionless.

Further, described growth cave is set to up big and down small truncated cone-shaped, is conducive to the water conservancy diversion of moisture like this.

The beneficial effects of the utility model are:

1, secure sowing position, make seed can drop on center, growth cave, no matter seeding quality and speed can be ensured for mechanical planting or artificial seeding.

2, because photinia glabra needs to do antifreezing measures in the winter time, especially tender and lovely seedling, and for point disk seedling growing, laying plastic is a thing wasted time and energy very much, therefore, the utility model is provided with cover plate on each vesicle dish, needs are sowed and when watering, growth cave is exposed in the position that only need rotate sowing aperture layer, and when needing to be incubated, rotating sowing aperture layer makes planting hole be blocked by cover plate, and now each vesicle dish reaches the state of an opposing seal.

Accompanying drawing explanation

Fig. 1, primary structure schematic diagram of the present utility model

Fig. 2, growth cave of the present utility model and mating groove structural representation

Fig. 3, cave disk cover structural representation

Fig. 4, covering plate structure schematic diagram

Fig. 5, planting hole Rotating fields schematic diagram

In figure: 1, cave plate rail, 2, vesicle dish, 21, cave plate, 22, growth cave, 23, mating groove, 3, cave disk cover, 31, cover plate, 311, dull and stereotyped, 312, fixed head one, 32, sowing aperture layer, 321, fixed head two

Embodiment

Below in conjunction with specific embodiment, the utility model is described further.

The combined seedling culture hole plate of a kind of photinia glabra as Figure 1-5, mainly comprises rectangle cave plate rail 1, circular vesicle dish 2 and cave disk cover 3; Described vesicle dish 2 is fixedly connected with cave plate rail 1, the mating groove 23 that described vesicle dish 2 comprises growth cave 22, arranges for a week around growth upper end, cave, and cave plate 21; Described growth cave 22 is one-body molded with cave plate 21; Described cave disk cover 3 is connected with vesicle dish 2 by mating groove 23, described cave disk cover 3 comprises cover plate 31 and sowing aperture layer 32, described cover plate 31 comprises dull and stereotyped 311 and fixed head 1, described dull and stereotyped 311 is foliaceous, described cover plate 31 is connected with mating groove 23 interference on vesicle dish 2 by fixed head 1, described sowing aperture layer 32 and cover plate 31 is connected by fixed head 2 321, and planting hole position and grow that position, cave 22 is corresponding to be arranged.Described growth cave 22 is set to up big and down small truncated cone-shaped.

Described vesicle dish 2 arranges 8, is fixedly connected with cave plate rail 1 with the form that two row four arrange; Growth cave 22 in described vesicle dish 2 arranges 9, comprises 1, center, and ring circumference 8; Position, cave 22 is corresponding arranges for described planting hole and growth, and planting hole area is consistent with the area of blade relevant position or be slightly less than the area of blade relevant position.

Bottom described growth cave 22, also circumference offers 6 water-guiding holes, and described water-guiding hole aperture is set to 2mm, when photinia glabra sapling needs to water, need rotate sowing aperture layer, and sowing position is exposed, and after watering, unnecessary moisture is flowed out by water-guiding hole.

Described mating groove 23 is big upper and lower small mouth; Described fixed head 1 shape and mating groove 23 mating shapes are also upper big and bottom samll shape; Described mating groove 23 is connected with fixed head 1 interference.

Claims (6)

1. the combined seedling culture hole plate of photinia glabra, is characterized in that: mainly comprise rectangle cave plate rail, circular vesicle dish and cave disk cover; Described vesicle dish is fixedly connected with cave plate rail, the mating groove that described vesicle dish comprises growth cave, arranges for a week around growth upper end, cave, and cave plate; Described growth cave and cave plate one-body molded; Described cave disk cover comprises cover plate and sowing aperture layer, described cover plate comprises flat board and fixed head one, described flat board is foliaceous, described cover plate is connected with the mating groove interference on vesicle dish by fixed head one, described sowing aperture layer and cover plate are interconnected and can relatively rotate, and corresponding setting is put with growth acupuncture point in planting hole position.

2. the combined seedling culture hole plate of a kind of photinia glabra as claimed in claim 1, is characterized in that: described vesicle dish arranges 8, is fixedly connected with cave plate rail with the form that two row four arrange; Growth cave in described vesicle dish arranges 9, comprises 1, center, and ring circumference 8; Described planting hole with growth acupuncture point put corresponding setting, and the area of planting hole consistent with the area of blade relevant position or be slightly less than foliaceous flat board relevant position area.

3. the combined seedling culture hole plate of a kind of photinia glabra as claimed in claim 1, is characterized in that: also offer multiple water-guiding hole bottom described growth cave.

4. the combined seedling culture hole plate of a kind of photinia glabra as claimed in claim 3, is characterized in that: described water-guiding hole is circumferential bottom growth cave to be arranged, and described water-guiding hole aperture is set to 1-3mm.

5. the combined seedling culture hole plate of a kind of photinia glabra as claimed in claim 1, is characterized in that: described mating groove is big upper and lower small mouth; Described fixed head one shape and mating groove mating shapes are also upper big and bottom samll shape; Described mating groove is connected with fixed head one interference.

6. the combined seedling culture hole plate of a kind of photinia glabra as claimed in claim 1, is characterized in that: described growth cave is set to up big and down small truncated cone-shaped.