CN220255248U - Strawberry cultivation insulation construction - Google Patents

Abstract

The utility model discloses a strawberry planting heat preservation structure, and belongs to the technical field of strawberry planting. The utility model provides a strawberry cultivation insulation construction, includes the heat preservation and plants the canopy, still includes the photovoltaic lamp, and it sets up in the top of heat preservation planting the canopy, the surface at canopy top is planted in the heat preservation is provided with a plurality of skylight of taking a breath, and the surface of skylight of taking a breath is provided with hydraulic pressure roof window. For solving the greenhouse in winter the whole constant temperature performance relatively worse, can only rely on traditional coal stove or oven to come to heat up in the canopy, but can have the problem of great potential safety hazard, the photovoltaic lamp can produce heat at the during operation, can make the temperature rise in the canopy like this, can also simulate illumination demand simultaneously, the heat preservation is planted the canopy and is included canopy body roof-rack and heat preservation cladding board, be different from driven membrane cloth greenhouse, construct in adopting the frame-type and heat preservation panel to carry out the construction of the canopy body, the heat preservation cladding board can effectually separate with the outside ambient temperature in the canopy, avoid the loss of temperature in the canopy.

Description

Strawberry cultivation insulation construction

Technical Field

The utility model relates to the technical field of strawberry planting, in particular to a strawberry planting heat-insulation structure.

Background

The root system of the strawberry is the root of the strong plant, the good root system is the necessary condition for the strong growth of the strawberry, and the maintenance of the production root system of the strawberry in winter is also important. At the ground temperature of 2 ℃, the root system starts to move; new roots formed at 10 ℃. The optimum temperature for root growth is 15-20 ℃; in winter, when the temperature is reduced to minus 8 ℃, the root system is frozen to be damaged, the whole strawberry plant is frozen to be dead at minus 12 ℃, the strawberry root system is dysplasia below 10 ℃, and the nutrient is difficult to absorb, especially the phosphorus element;

the Chinese patent with publication number of CN213603429U discloses a strawberry planting greenhouse which is formed by constructing a plurality of main arch bars, double sliding doors are arranged at two ends of the greenhouse, and side windows are arranged on the side surfaces of the greenhouse, so that the structure of the traditional strawberry greenhouse is improved, the ventilation design is enhanced, the ventilation and ventilation of the greenhouse are improved, the humidity of a greenhouse chamber is reduced, and the occurrence rate of strawberry diseases is reduced.

In the patent, the overall constant temperature performance of the greenhouse in winter is relatively poor, and the temperature in the greenhouse can be raised only by relying on a traditional coal stove or oven, but a great potential safety hazard exists; therefore, the prior requirements are not met, and a strawberry planting heat-insulating structure is provided.

Disclosure of Invention

The utility model aims to provide a strawberry planting heat-insulating structure, a photovoltaic lamp can generate heat during working, so that the temperature in a greenhouse can be increased, meanwhile, the illumination requirement can be simulated, the heat-insulating planting greenhouse comprises a greenhouse body top frame and a heat-insulating cover plate, the heat-insulating planting greenhouse is different from a transmitted film-covered greenhouse, the greenhouse body is built by adopting a frame type inner structure and a heat-insulating plate, the heat-insulating cover plate can effectively separate the greenhouse from the external environment temperature, the loss of the temperature in the greenhouse is avoided, and the problems in the prior art can be solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a strawberry plants insulation construction, includes the heat preservation and plants the canopy, still includes the photovoltaic lamp, and it sets up in the top of planting the canopy that keeps warm, the surface at canopy top is planted in the heat preservation is provided with a plurality of skylight of taking a breath, and the surface of skylight of taking a breath is provided with hydraulic pressure roof window, hydraulic pressure roof window rotates with the skylight of taking a breath to be connected, and the photovoltaic lamp passes through the draw-in groove with the heat preservation and plants the canopy and be connected, the heat preservation is planted the canopy and is included canopy body roof frame and heat preservation shroud plate, the both ends that the canopy was planted in the heat preservation all are provided with curtain door curtain, and curtain door curtain passes through the buckle with canopy body roof frame and is connected.

Preferably, magnetic edge strips are arranged around the curtain door curtain, and the curtain door curtains are connected through the magnetic edge strips.

Preferably, a shed body supporting frame is arranged on the inner side of the heat-insulating shroud plate, the shed body supporting frame is connected with a shed body top frame through bolts, and a plurality of shed frame locks are arranged between the shed body supporting frame and the heat-insulating shroud plate.

Preferably, the shed frame lock catch comprises a plate hasp and a button spin lock, wherein the button spin lock is connected with the shed body support frame through a locking hoop, and the plate hasp is connected with the heat insulation shroud plate through a clamping groove.

Preferably, the button twist lock is rotationally connected with the locking hoop through a bearing, a lock shaft is arranged on the outer surface of the button twist lock, and the button twist lock is in hasp connection with the plate through the lock shaft.

Preferably, the heat-insulating shroud plate comprises a heat-insulating cotton core and foam membrane plates, and the foam membrane plates are arranged on two sides of the heat-insulating cotton core.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the plate buckles are arranged on the inner side surface of the heat-insulating shroud plate, then the button twistlocks are arranged on the surfaces of the shed body supporting frame and the shed body top frame by means of the locking hoops, after the installation is finished, the plate buckles on the inner side of the heat-insulating shroud plate are aligned to the button twistlocks, and then the button twistlocks are rotated to finish the locking operation, so that the heat-insulating shroud plate can finish the assembly operation with the whole frame structure, and the assembly speed is greatly reduced while the strength is ensured;

2. according to the utility model, the photovoltaic lamp is arranged at the top of the planting shed, the photovoltaic plate structure is designed on the back of the planting shed, solar energy can be converted into electric energy for storage, and the photovoltaic lamp can generate heat during operation, so that the temperature in the shed can be increased, meanwhile, the illumination requirement can be simulated, the thermal insulation planting shed comprises a shed body top frame and a thermal insulation covering plate, the thermal insulation planting shed is different from a transmission film cloth greenhouse, the construction of the shed body is carried out by adopting the frame type inner structure and the thermal insulation plate, the thermal insulation covering plate can effectively separate the shed from the external environment temperature, and the loss of the temperature in the shed is avoided.

Drawings

FIG. 1 is an overall front view of the present utility model;

FIG. 2 is a schematic view of a shed frame latch structure according to the present utility model;

FIG. 3 is a schematic view of the button twist-lock structure of the present utility model;

fig. 4 is a schematic structural view of the insulation sheathing panel of the present utility model.

In the figure: 1. thermal insulation planting shed; 2. light Fu Zhaodeng; 3. a shed frame lock catch; 101. heat preservation cladding plate; 102. curtain door curtain; 103. a ventilation skylight; 104. a shed body top frame; 1011. a septum Wen Mianxin; 1012. a foam membrane plate; 1021. magnetic edge strips; 1031. a hydraulic roof window; 1041. a shed body supporting frame; 301. locking the hoop; 302. a plate hasp; 303. a button is screwed; 3031. and (5) locking the shaft.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In order to solve the problem that the overall constant temperature performance of the greenhouse in winter is relatively poor, the temperature in the greenhouse can be raised only by relying on a traditional coal stove or oven, but a large potential safety hazard exists, referring to fig. 1-2, the following technical scheme is provided in the embodiment:

the utility model provides a strawberry plants insulation construction, including insulation planting canopy 1, still include photovoltaic lamp 2, it sets up in the top of insulation planting canopy 1, the surface at insulation planting canopy 1 top is provided with a plurality of skylight 103 of taking a breath, the surface of skylight 103 of taking a breath is provided with hydraulic pressure roof 1031, hydraulic pressure roof 1031 rotates with skylight 103 of taking a breath and is connected, hydraulic pressure roof 1031 opens the back and can realize ventilation operation, photovoltaic lamp 2 passes through the draw-in groove with insulation planting canopy 1 and is connected, photovoltaic lamp 2 installs at the top of planting the canopy, the design has photovoltaic plate structure in its back, can turn solar energy into the electric energy and store, photovoltaic lamp 2 can produce heat at the during operation, can make the canopy temperature rise like this, can also simulate illumination demand simultaneously, insulation planting canopy 1 includes canopy body roof 104 and heat preservation shroud 101, be different from driven membrane cloth big-arch shelter, construct in adopting the frame with the heat preservation panel to carry out the construction of canopy body, heat preservation shroud 101 can effectually separate with outside ambient temperature in the canopy, avoid interior temperature's loss, the curtain 1's that the curtain is used for the curtain is connected with the door curtain 102 through door curtain 102, the door curtain 102 is connected with the door curtain 102 in the curtain door curtain 102 is all around to the curtain 102, the curtain 102 is used for the door curtain 102 is inhaled to the curtain door curtain 102.

In order to solve the problem that the installation between the plate structure and the shed body frame is too complicated, please refer to fig. 2-4, the present embodiment provides the following technical scheme:

the inside of the heat preservation shroud plate 101 is provided with a shed body supporting frame 1041, the shed body supporting frame 1041 is connected with a shed body top frame 104 through bolts, a plurality of shed frame buckles 3 are arranged between the shed body supporting frame 1041 and the heat preservation shroud plate 101, each shed frame buckle 3 comprises a plate buckle 302 and a button spin lock 303, each button spin lock 303 is connected with the shed body supporting frame 1041 through a locking hoop 301, each plate buckle 302 is connected with the heat preservation shroud plate 101 through a clamping groove, each button spin lock 303 is rotatably connected with the corresponding locking hoop 301 through a bearing, a lock shaft 3031 is arranged on the outer surface of each button spin lock 303, each button spin lock 303 is connected with each plate buckle 302 through the corresponding lock shaft 3031, the heat preservation shroud plate 101 comprises a spacer Wen Mianxin plate 1011 and a foam membrane 1012, each foam membrane 1012 is arranged on two sides of a heat insulation cotton core 1011, each plate buckle 302 is arranged on the inner surface of each shed body supporting frame Wen Fuban, each button spin lock 303 is arranged on the inner surface of the corresponding shed body supporting frame 1041 through the corresponding locking hoop 301, after the installation, each button spin lock 303 is aligned with each button spin lock 303 on the inner side of the corresponding button spin lock 303, and then the whole heat preservation shroud plate 101 can be assembled at the same time, and the heat preservation shroud plate structure can be assembled at the same time, the high speed can be reduced.

The working principle is that the plate buckles 302 are installed on the inner side surface of the Wen Fuban greenhouse 1, then the locking hoops 301 are used for installing the button twistlocks 303 on the surfaces of the greenhouse support 1041 and the greenhouse roof 104, after installation is completed, the plate buckles 302 on the inner side of the heat preservation shroud plate 101 are aligned to the button twistlocks 303, then the button twistlocks 303 are rotated to complete locking operation, at the moment, the heat preservation shroud plate 101 can complete assembling operation with the whole frame structure, the assembling speed is greatly reduced while the strength is ensured, the ventilation skylight 103 is arranged on the surface of the top of the heat preservation planting greenhouse 1, the ventilation operation can be realized after the hydraulic roof 1031 is opened, the photovoltaic lamp 2 is installed on the top of the planting greenhouse, the photovoltaic panel structure is designed on the back surface of the photovoltaic lamp 2, solar energy can be converted into electric energy for storage, heat can be generated during operation, so that the temperature in the greenhouse can be increased, the greenhouse roof 104 and the shroud plate 101 can also simulate illumination requirements, the heat preservation greenhouse 1 is different from a film-covered greenhouse, the frame-type greenhouse is adopted to greatly reduce the assembling speed, the ventilation operation can be realized, the temperature of the heat preservation panel is effectively isolated from the outside of the greenhouse, and the heat preservation environment is effectively prevented from losing the temperature of the greenhouse.

It is noted that relational terms such as first and second, and the like are 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. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus 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 apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The strawberry planting heat-insulation structure comprises a heat-insulation planting shed (1), and is characterized in that;

still include light Fu Zhaodeng (2), it sets up in the top of planting canopy (1) that keeps warm, the surface at canopy (1) top is planted in the heat preservation is provided with a plurality of skylight of taking a breath (103), and the surface of skylight of taking a breath (103) is provided with hydraulic pressure roof window (1031), hydraulic pressure roof window (1031) rotate with skylight of taking a breath (103) and are connected, and light Fu Zhaodeng (2) are connected through the draw-in groove with canopy (1) that keeps warm, canopy (1) are planted in the heat preservation includes canopy body roof frame (104) and heat preservation shroud plate (101), the both ends that canopy (1) were planted in the heat preservation all are provided with curtain door curtain (102), and curtain door curtain (102) are connected through the buckle with canopy body roof frame (104).

2. A strawberry cultivation insulation construction as claimed in claim 1, characterized in that: magnetic edge strips (1021) are arranged around the curtain door curtain (102), and the curtain door curtains (102) are connected through the magnetic edge strips (1021).

3. A strawberry cultivation insulation construction as claimed in claim 2, characterized in that: the inner side of the heat preservation shroud plate (101) is provided with a shed body supporting frame (1041), the shed body supporting frame (1041) is connected with a shed body top frame (104) through bolts, and a plurality of shed frame lock catches (3) are arranged between the shed body supporting frame (1041) and the heat preservation shroud plate (101).

4. A strawberry cultivation insulation construction according to claim 3, wherein: the shed frame lock catch (3) comprises a plate lock catch (302) and a button spin lock (303), the button spin lock (303) is connected with a shed body support frame (1041) through a locking hoop (301), and the plate lock catch (302) is connected with the heat insulation covering plate (101) through a clamping groove.

5. The strawberry cultivation insulation construction of claim 4, wherein: the button spin lock (303) is rotationally connected with the locking hoop (301) through a bearing, a lock shaft (3031) is arranged on the outer surface of the button spin lock (303), and the button spin lock (303) is connected with the plate hasp (302) through the lock shaft (3031).

6. The strawberry cultivation insulation construction of claim 5, wherein: the heat-insulating shroud plate (101) comprises a baffle Wen Mianxin (1011) and foam membrane plates (1012), and the foam membrane plates (1012) are arranged on two sides of the heat-insulating cotton core (1011).