CN211931891U - Immersion type lighting growth lamp - Google Patents

Abstract

The utility model relates to an alga breeds technical field, in particular to immersion illumination growth lamp, establish at cultivateing jar open-ended cultivation cylinder cap including cultivateing jar and lid, at least one through-hole has been seted up on the cultivateing jar cap, the embedded printing opacity buckler that is equipped with of through-hole, the printing opacity buckler stretches into inside the cultivateing jar, the printing opacity buckler has one and holds the cavity, it is equipped with at least a growth lamp in the cavity to hold. The utility model discloses a be equipped with independent printing opacity buckler, it is convenient the device is dismantled and is washd, and has in the printing opacity buckler to be equipped with the cavity and can place the growth lamp, the removable growth lamp that uses different illuminance.

Description

Immersion type lighting growth lamp

Technical Field

The utility model relates to an alga breeds technical field, in particular to immersion illumination growth lamp.

Background

The production process of algae propagation and growth under artificial control. The method comprises two types of large-scale algae cultivation and single-cell algae cultivation. Temperature is a major factor affecting the geographical distribution of algae; illumination is the factor that determines the vertical distribution of algae; the chemical nature of the water body is an important factor in the appearance of algae and its species composition. The cultivation of the large-scale seaweed generally goes through 3 development stages of multiplication, semi-artificial seedling collection cultivation and full-artificial seedling collection cultivation by utilizing natural seedlings.

The prior art has the following problems that the prior algae indoor culture usually adopts a glass jar as a culture jar, uses a light source mainly comprising a growth lamp to illuminate algae from the outside, and uses a stirrer and the like to enable the algae to be in full contact with light, thereby meeting the requirement of photosynthesis. The proportion that the light of this kind of system can shine the alga is very low, and the utilization ratio is only 10-30%, therefore energy waste rate is very high, and some directly sets up the growth lamp in the aquarium, and growth lamp and lid are a unitized setting and are not convenient for change the growth lamp, and some place the cover of placing the growth lamp and be set up with the aquarium integration, place the cover after using for a long time and can remain the alga for inconvenient washing.

Disclosure of Invention

Therefore, the immersion type lighting growth lamp is needed to be provided, the detachable placing cover is separately arranged, the device is convenient to disassemble, assemble and clean, the growth lamp using different illuminance can be replaced, and the growth lamp is suitable for different algae growth.

In order to realize the above object, the utility model provides an immersion illumination growth lamp, establish at culture cylinder open-ended cultivation cylinder cap including culture cylinder and lid, culture cylinder is covered and has been seted up at least one through-hole, the embedded printing opacity buckler that is equipped with of through-hole, the printing opacity buckler stretches into inside culture cylinder, the bottom of printing opacity buckler is resisted in culture cylinder's bottom, the printing opacity buckler has one and holds the cavity, it is equipped with at least a growth lamp in the cavity to hold. Be equipped with an independent printing opacity buckler, it is convenient the device is dismantled and is washd, and has in the printing opacity buckler to be equipped with the cavity and can place the growth lamp, the removable growth lamp that uses different illuminance.

Further, the quantity of growth lamp is one, the growth lamp inlays along the direction of height of printing opacity buckler and establishes in holding the cavity, the luminous direction of growth lamp gives off towards the lateral wall that holds the body, and the both ends of growth lamp all are equipped with end cover, and one of them end cover is located printing opacity buckler opening and is higher than the liquid level that holds the interior liquid of cavity. So that the growth lamp can emit light to the side face without dead angle in 360 degrees, thereby repeatedly irradiating the algae in the culture tank.

Establish at the jar open-ended cultivation cylinder cap of cultivateing including cultivateing the jar and covering, the jar of cultivateing is covered and has been seted up at least one through-hole, the embedded printing opacity buckler that is equipped with of through-hole, the printing opacity buckler stretches into the jar of cultivateing inside, the distance has between the bottom of printing opacity buckler and the bottom of cultivateing the jar, the printing opacity buckler has one and holds the cavity, it is equipped with at least a growth lamp in the cavity to hold. The growth lamp can be suspended in the air, so that the space in the culture tank is increased, more algae can be cultured, and the production efficiency is increased.

Furthermore, the number of the growth lamps is one, the growth lamps are embedded in the accommodating cavity along the height direction of the light-transmitting waterproof cover, one end of each growth lamp is located at the opening of the light-transmitting waterproof cover and is higher than the liquid level of liquid in the accommodating cavity, a closed end cover is arranged at the end of each growth lamp, the closed end of each closed end cover protrudes out of the opening of the light-transmitting waterproof cover, the other end of each growth lamp is resisted at the closed end of the light-transmitting waterproof cover, and the light-emitting direction of each growth lamp emits towards the bottom and the side wall of the accommodating cavity. Thereby enabling the growth lamp to irradiate the inside of the culture tank in all directions.

Furthermore, the size of the closed end is matched with that of the accommodating cavity. Thereby after having placed the growth lamp, the growth lamp can be stable fix can not rock because of the transport in holding the cavity, and can effectually plug up the opening of printing opacity buckler, prevent into water.

Furthermore, the light-transmitting waterproof cover is arranged in a U shape, and an outward-turning limiting folding edge is arranged at the opening of the light-transmitting waterproof cover and attached to the outer edge of the through hole of the culture cylinder cover. The setting of spacing hem plays the effect of support, prevents that the printing opacity buckler from dropping to the culture tank in.

Furthermore, the limiting folding edge protrudes out of the top of the culture tank cover, and the outer wall of the limiting folding edge is provided with anti-skid lines. Can have a impetus to snatch when taking out the printing opacity buckler for extraction printing opacity buckler that can be quick.

Furthermore, the diameter of the top opening of the culture cylinder is smaller than the inner diameter of the inner cavity of the culture cylinder, a fixing sleeve protrudes upwards from the top opening of the culture cylinder, and the culture cylinder cover is provided with a fixing plug which is detachably matched and connected with the fixing sleeve. The culture cylinder cover is more easily opened by the aid of the structure, and good sealing performance is guaranteed.

Furthermore, the fixing plug is formed by downwards extending the bottom of the culture cylinder cover, the fixing plug is arranged in a hollow ring shape, the fixing plug is embedded in the fixing sleeve, and the outer diameter of the fixing plug is matched with the inner diameter of the fixing sleeve. The fixing plug is directly embedded in the fixing sleeve, so that the culture cylinder cover and the culture cylinder are fixedly connected, the culture cylinder cover can be covered on the culture cylinder in one step relative to the screw thread, and the sealing performance is good.

Further, the cross section of the light-transmitting waterproof cover is circular, rectangular or polygonal. The variable shape can cause the light source of the growing lamp to change to a certain degree.

Further, the light-transmitting waterproof cover is a glass cover, a plastic cover or a transparent material cover. The light source of the growth lamp can be ensured to irradiate, and different illumination intensities can be formed due to different pass rates of different materials.

Furthermore, culture medium or culture solution is filled in the culture cylinder. The use can be selected according to the algae to increase the applicability.

Different from the prior art, the technical scheme has the following beneficial effects:

1. the utility model discloses a be equipped with independent printing opacity buckler, it is convenient the device is dismantled and is washd, and has in the printing opacity buckler to be equipped with the cavity and can place the growth lamp, the removable growth lamp that uses different illuminance.

2. The utility model discloses a set up the end cover on the growth lamp to after having placed the growth lamp, the growth lamp can be stable fix can not rock because of the transport in holding the cavity, and can effectually plug up the opening of printing opacity buckler, prevent into water.

3. The utility model discloses in arranging the culture dish in with the light of growing for light shines from the culture dish toward the outside, increases the light utilization ratio, thereby reachs the effect of energy saving.

4. The utility model discloses the setting of printing opacity buckler increases the waterproof nature of growth lamp, prevents that the growth lamp from intaking when using, and the growth lamp is fully protected, increases life.

5. The utility model discloses the hardware input cost is extremely low, can practice thrift many research and development costs and use cost.

Drawings

FIG. 1 is a schematic diagram of an immersion lighting growth lamp according to the background art;

FIG. 2 is a schematic view of the light-transmissive waterproof cover and the growth lamp according to embodiment 1;

FIG. 3 is a schematic view of the submerged illuminated growth lamp according to embodiment 2;

FIG. 4 is a schematic view of the light-transmissive waterproof cover and the growth lamp according to embodiment 2;

FIG. 5 is a schematic view showing the structure of a culture tank and a culture tank cap according to embodiments 1 and 2.

Description of reference numerals:

1. culture tank, 101, fixed cover, 2, culture cover, 201, fixed stopper, 3, through-hole, 4, printing opacity buckler, 401, hold the cavity, 402, spacing hem, 5, growth lamp, 501, end closure.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Example 1:

referring to fig. 1, 2 and 5, the immersive lighting growth lamp 5 of the embodiment includes a culture jar 1 and a culture jar cover 2 covering an opening of the culture jar 1, wherein a through hole 3 is formed in the culture jar cover 2, a light-transmitting waterproof cover 4 is embedded in the through hole 3, the light-transmitting waterproof cover 4 extends into the culture jar 1, the light-transmitting waterproof cover 4 has a containing cavity 401, and at least one growth lamp 5 is disposed in the containing cavity 401. Specifically, the cross section of printing opacity buckler 4 is circular, and circular shape printing opacity buckler 4 does not have the existence of edges and corners for there being the polygon to growth lamp 5 takes place can directly shine away holding cavity 401 in, does not pass through the refraction of edges and corners, makes the alga photic uniform, printing opacity buckler 4 is the glass cover, and the glass cover has certain diffusion rate, printing opacity buckler 4 is the setting of U type, and printing opacity buckler 4 opening part has the laminating of spacing hem 402 of turning up and cultivates 2 through-holes 3 outward flanges of cylinder cap, 2 tops of cylinder cap are cultivateed in spacing hem 402 protrusion, and the outer wall of spacing hem 402 is equipped with anti-skidding line, can have an impetus to snatch when taking out printing opacity buckler 4 for extraction printing opacity buckler 4 that can be quick.

In this embodiment the bottom of the light-transmitting waterproof cover 4 is against the bottom of the culture pot 1. Specifically, the quantity of growth lamp 5 is one, growth lamp 5 inlays along the direction of height of printing opacity buckler 4 and establishes in holding cavity 401, and the upper and lower both ends of growth lamp 5 all are equipped with closed end cover 501, the luminous direction of growth lamp 5 distributes towards the lateral wall that holds cavity 401 for growth lamp 5 can only be to luminous all around, and the bottom can not be luminous, and wherein upper end closed end cover 501 is located printing opacity buckler 4 opening and is higher than the liquid level that holds cavity 401 internal liquid, and lower extreme closed end cover 501 resists the closed end of printing opacity buckler 4, the size of closed end with hold cavity 401 looks adaptation, thereby after having placed growth lamp 5, growth lamp 5 can be stable fix and can not rock because of the transport in holding cavity 401, and can effectually plug up the opening of printing opacity buckler 4, prevent into water.

In this embodiment, the diameter of the top opening of the culture cylinder 1 is smaller than the inner diameter of the inner cavity of the culture cylinder 1, a fixing sleeve 101 protrudes upwards from the top opening of the culture cylinder 1, and the culture cylinder cover 2 is provided with a fixing plug 201 detachably connected with the fixing sleeve 101 in a matching manner. Specifically, the fixing plug 201 is formed by extending the bottom of the culture cylinder head 2 downwards, the fixing plug 201 is arranged in an annular shape, the fixing plug 201 is embedded in the fixing sleeve 101, and the outer diameter of the fixing plug 201 is matched with the inner diameter of the fixing sleeve 101. Culture solution is filled in the culture tank 1.

When the cultivation tank is used specifically, a culture solution with algae is filled into the cultivation tank 1, then the cultivation tank is embedded into the fixing sleeve 101 through a fixing plug, the cultivation tank cover 2 is covered on the cultivation tank 1, then the light-transmitting waterproof cover 4 is aligned with the through hole 3 and inserted into the cultivation tank 1, the lower end of the limiting folding edge 402 is abutted to the top end of the cultivation tank cover 2, the bottom end of the light-transmitting waterproof cover is abutted to the bottom end of the inner cavity of the cultivation tank 1, then the cultivation tank is placed into the accommodating cavity 401, the closed end cover 501 at the lower end of the growth lamp 5 is abutted to the bottom of the accommodating cavity 401, the closed end cover 501 at the upper end of the growth lamp 5 blocks the opening of the accommodating cavity 401 to play a fixing and waterproof role, then the whole cultivation tank 1 is placed at a specified position, and then.

Example 2:

referring to fig. 3-5, the immersive lighting growth lamp 5 of the embodiment includes an incubation jar 1 and an incubation cylinder cover 2 covering an opening of the incubation jar 1, wherein a through hole 3 is formed in the incubation cylinder cover 2, a light-transmitting waterproof cover 4 is embedded in the through hole 3, the light-transmitting waterproof cover 4 extends into the incubation jar 1, the light-transmitting waterproof cover 4 has a receiving cavity 401, and at least one growth lamp 5 is disposed in the receiving cavity 401. Specifically, the cross section of printing opacity buckler 4 is circular, and circular shape printing opacity buckler 4 does not have the existence of edges and corners for there being the polygon to growth lamp 5 takes place can directly shine away holding cavity 401 in, does not pass through the refraction of edges and corners, makes the alga photic uniform, printing opacity buckler 4 is the glass cover, and the glass cover has certain diffusion rate, printing opacity buckler 4 is the setting of U type, and printing opacity buckler 4 opening part has the laminating of spacing hem 402 of turning up and cultivates 2 through-holes 3 outward flanges of cylinder cap, 2 tops of cylinder cap are cultivateed in spacing hem 402 protrusion, and the outer wall of spacing hem 402 is equipped with anti-skidding line, can have an impetus to snatch when taking out printing opacity buckler 4 for extraction printing opacity buckler 4 that can be quick.

In this embodiment, the distance between the bottom of the light-transmitting waterproof cover 4 and the bottom of the culture tank 1 is provided, the growth lamp 5 is suspended in the air, and the area of the opposite culture tank 1 is increased, so that more algae can be cultured, and the production efficiency is increased. Specifically, the number of the growth lamps 5 is one, the growth lamps 5 are embedded in the accommodating cavity 401 along the height direction of the light-transmitting waterproof cover 4, the upper ends of the growth lamps 5 are located in the openings of the light-transmitting waterproof cover 4 and are higher than the liquid level of the liquid in the accommodating cavity 401, the end of each growth lamp 5 is provided with a closed end cover 501, the closed end cover 501 is separately arranged, the light emitting direction of each growth lamp 5 is emitted towards the bottom and the side wall of the accommodating cavity 401, so that the growth lamps 5 can emit light all around and also emit light downwards from the bottom, the closed end covers 501 protrude out of the openings of the light-transmitting waterproof cover 4, the bottom ends of the growth lamps 5 are abutted against the closed ends of the light-transmitting waterproof cover 4, the size of the closed ends is matched with the accommodating cavity 401, and therefore, after the growth lamps 5 are placed, can be stably fixed in the accommodating cavity 401 without shaking due to transportation, and can effectively block the openings, preventing water from entering.

In this embodiment, the diameter of the top opening of the culture cylinder 1 is smaller than the inner diameter of the inner cavity of the culture cylinder 1, a fixing sleeve 101 protrudes upwards from the top opening of the culture cylinder 1, and the culture cylinder cover 2 is provided with a fixing plug 201 detachably connected with the fixing sleeve 101 in a matching manner. Specifically, the fixing plug 201 is formed by extending the bottom of the culture cylinder head 2 downwards, the fixing plug 201 is arranged in an annular shape, the fixing plug 201 is embedded in the fixing sleeve 101, and the outer diameter of the fixing plug 201 is matched with the inner diameter of the fixing sleeve 101. Culture solution is filled in the culture tank 1.

When the cultivation tank is used specifically, the cultivation tank 1 is filled with culture solution with algae, the cultivation tank is embedded in the fixing sleeve 101 through the fixing plug, the cultivation tank cover 2 is covered on the cultivation tank 1, then the light-transmitting waterproof cover 4 is inserted into the cultivation tank 1 in a manner of being aligned with the through hole 3, the lower end of the limiting folding edge 402 is abutted to the top end of the cultivation tank cover 2, a distance is reserved between the bottom end of the light waterproof cover and the bottom end of the inner cavity of the cultivation tank 1, the cultivation solution with algae can be filled more, then the cultivation tank is placed into the accommodating cavity 401, the lower end of the growth lamp 5 is abutted to the bottom of the accommodating cavity 401, the closed end cover 501 at the upper end of the growth lamp 5 blocks the opening of the accommodating cavity 401 to play a fixing and waterproof role, the whole cultivation tank 1 is placed at a designated position, and then the growth lamp 5.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrases "comprising … …" or "comprising … …" does not exclude the presence of additional elements in a process, method, article, or terminal that comprises the element. Further, herein, "greater than," "less than," "more than," and the like are understood to exclude the present numbers; the terms "above", "below", "within" and the like are to be understood as including the number.

Although the embodiments have been described, once the basic inventive concept is known, other changes and modifications can be made to the embodiments by those skilled in the art, so that the above embodiments are only examples of the present invention, and not intended to limit the scope of the present invention, and all the modifications of the equivalent structure or equivalent flow path using the contents of the specification and the drawings of the present invention, or directly or indirectly using other related technical fields are also included in the scope of the present invention.

Claims (10)

1. An immersion illuminated growth lamp, comprising: establish at the jar open-ended cultivation cylinder cap of cultivateing including cultivateing the jar and covering, the jar of cultivateing is covered and has been seted up at least one through-hole, the embedded printing opacity buckler that is equipped with of through-hole, the printing opacity buckler stretches into the jar of cultivateing inside, the bottom of printing opacity buckler is resisted in the bottom of cultivateing the jar, the printing opacity buckler has one and holds the cavity, it is equipped with at least a growth lamp in the cavity to hold.

2. The immersive lighting growth lamp of claim 1, wherein: the quantity of growth lamp is one, the growth lamp inlays along the direction of height of printing opacity buckler and establishes in holding the cavity, the luminous direction of growth lamp gives off towards the lateral wall that holds the body, and the both ends of growth lamp all are equipped with end cover, and one of them end cover is located printing opacity buckler opening and is higher than the liquid level that holds liquid in the cavity.

3. An immersion illuminated growth lamp, comprising: establish at the jar open-ended cultivation cylinder cap of cultivateing including cultivateing the jar and covering, the jar of cultivateing is covered and has been seted up at least one through-hole, the embedded printing opacity buckler that is equipped with of through-hole, the printing opacity buckler stretches into cultivates the jar inside, the distance has between the bottom of printing opacity buckler and the bottom of cultivateing the jar, the printing opacity buckler has one and holds the cavity, it is equipped with at least a growth lamp in the cavity to hold.

4. The immersive lighting growth lamp of claim 3, wherein: the quantity of growth lamp is one, the growth lamp is inlayed and is established in holding the cavity along the direction of height of printing opacity buckler, the one end of growth lamp is located the opening of printing opacity buckler and is higher than the liquid level that holds liquid in the cavity, and this end is equipped with the closed end cover, and the closed end cover protrusion printing opacity buckler opening, and the other end of this growth lamp is resisted in the closed end of printing opacity buckler, the luminous direction of growth lamp gives off towards the bottom and the lateral wall that hold the cavity.

5. The immersive lighting growth lamp of claim 4, wherein: the size of the closed end cover is matched with that of the accommodating cavity.

6. The immersive illuminated growth lamp of claim 1 or 4, wherein: the printing opacity buckler sets up for the U type, and printing opacity buckler opening part has spacing hem and the laminating of cultivateing cylinder cap through-hole outward flange of turning up.

7. The immersive illuminated growth lamp of claim 1 or 4, wherein: the top opening diameter of culture cylinder is less than the internal diameter of culture cylinder inner chamber, and the top opening of this culture cylinder upwards the arch has fixed cover, the culture cylinder lid has the fixed stopper of cooperation connection can be dismantled with this fixed cover.

8. The immersive lighting growth lamp of claim 7, wherein: the fixed stopper is formed by downwards extending the bottom of the culture cylinder cover, the fixed stopper is arranged in an annular shape, and the outer diameter of the fixed stopper is matched with the inner diameter of the fixed sleeve.

9. The immersive illuminated growth lamp of claim 1 or 4, wherein: the cross section of the light-transmitting waterproof cover is circular, rectangular or other polygons, and the light-transmitting waterproof cover is a glass cover, a plastic cover or other transparent material covers.

10. The immersive illuminated growth lamp of claim 1 or 4, wherein: the culture cylinder is filled with culture medium or culture solution.

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