CN210316706U - Energy-saving germplasm resource library - Google Patents

Abstract

The utility model discloses an energy-saving germplasm resource library, including outer enclosure and the interior partition wall body of setting inside outer enclosure, outer enclosure is divided into bilayer and deposit chamber through interior partition wall body, and one deck includes main room of taking and ball deposit chamber, and two layers are including the short-term deposit chamber, long-term deposit chamber and the middle-term deposit chamber that set gradually, outer enclosure is including setting gradually slag concrete bed course and reinforced concrete basic unit on the ground, setting up the outer brick wall in the reinforced concrete basic unit and the slag concrete bed course outside; the utility model is divided into an upper layer and a lower layer, wherein the two layers are used for storing seeds, the one layer is used for storing seedballs, the seedballs are heavier, and the labor force can be saved by storing the seedballs in the one layer; the room with the lowest temperature is placed two layers and is arranged in the middle, the air compressor in the room is only required to be opened when the environmental temperature is lower, the air compressors in other rooms are not required to be opened, the arrangement is carried out according to the difference of the room temperature, the operation time of the air compressors can be reduced, the work efficiency is improved, and the cost is reduced.

Description

Energy-saving germplasm resource library

Technical Field

The utility model belongs to the technical field of the freezer, concretely relates to energy-saving germplasm resources storehouse.

Background

With the continuous improvement of the living standard of people, the refrigeration house plays an increasingly important role in daily life as an indispensable item for managing and storing foods such as fresh foods, vegetables and fruits. Because the cold storage belongs to a large energy consumption household, the increase of the demand of the cold storage inevitably brings about the problems of increasing energy consumption and energy conservation and consumption reduction of the cold storage, and an energy-saving type germplasm resource library is provided for the reason.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving germplasm resources storehouse to solve the too much problem of freezer energy resource consumption who proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving germplasm resource library comprises an outer enclosure and an inner partition wall body arranged inside the outer enclosure, wherein the outer enclosure is divided into a double layer and a storage chamber through the inner partition wall body, one layer comprises a main taking chamber and a ball storage chamber, and the two layers comprise a short-term storage chamber, a long-term storage chamber and a middle-term storage chamber which are sequentially arranged, the outer enclosure comprises a slag concrete cushion layer and a reinforced concrete base layer which are sequentially arranged on the ground, an outer brick wall arranged outside the reinforced concrete base layer and the slag concrete cushion layer, a reinforced concrete cover arranged at the upper end of the outer brick wall, and an overhead ventilation layer fixedly arranged on the upper side of the reinforced concrete cover, an anti-freezing ventilation pipeline is arranged inside the slag concrete cushion layer, the outer enclosure further comprises a felt-two oil-gas-proof layer, a rigid polyurethane thermal-insulating layer and a reinforced concrete surface layer which are sequentially arranged inside the outer brick wall, and a felt-two oil-gas-proof layer, a rigid The waterproof layer of the felt-mat-two oil and the heat insulating layer of the extruded polystyrene are laid in sequence from top to bottom.

Preferably, the inner partition wall body comprises an inner brick wall, and a cement mortar leveling layer, an air insulating layer, a foamed polyurethane heat insulating layer and a cement mortar surface layer which are sequentially arranged on two sides of the inner brick wall.

Preferably, the cold storage doors of the seed ball storage chamber, the short-term storage chamber, the long-term storage chamber and the middle-term storage chamber are all provided with small taking chambers through inner partition wall bodies, and one side of each small taking chamber is provided with a heat insulation door.

Preferably, the bottoms of the main taking chamber, the ball storage chamber, the short-term storage chamber, the long-term storage chamber and the middle-term storage chamber are provided with LED induction lamps, and the LED induction lamps are connected with induction sensors.

Preferably, the cold-stored temperature in the deposit room sets up to four degrees centigrade, the cold-stored temperature in the long-term deposit room sets up to minus eighteen degrees centigrade, the cold-stored temperature in the deposit room of short-term sets up to ten to fifteen degrees centigrade, the cold-stored temperature in the ball deposit room sets up to five to ten degrees centigrade.

Preferably, the ball storage chamber, the short-term storage chamber and the middle-term storage chamber are all provided with vent pipes on the inner partition wall body contacting with the long-term storage chamber, the vent pipes are internally provided with vent fans, and two ends of each vent pipe are provided with pipeline vent valves.

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

(1) the utility model is divided into an upper layer and a lower layer, wherein the two layers are used for storing seeds, the one layer is used for storing seedballs, the seedballs are heavier, and the labor force can be saved by storing the seedballs in the one layer; the room with the lowest temperature is placed two layers and is arranged in the middle, the air compressor in the room is only required to be opened when the environmental temperature is lower, the air compressors in other rooms are not required to be opened, the arrangement is carried out according to the difference of the room temperature, the operation time of the air compressors can be reduced, the work efficiency is improved, and the cost is reduced.

(2) The main chamber of taking through and the little chamber of taking that sets up outside the door of every deposit room can reduce to open repeatedly that leads to external steam to get into in a large number and arouse the phenomenon that very big cold volume scatters and disappears in the deposit room that leads to of deposit room door when taking the seed from the deposit room to reduce the unnecessary heat and get into the phenomenon that the freezer increases the freezer load, reach certain energy saving and consumption reduction's purpose.

(3) Through the designed outer enclosure and inner partition wall body structure and the hard polyurethane and extruded polystyrene as the heat insulation layer, the germplasm resource library has better heat insulation performance, thereby reducing heat loss and achieving the purposes of energy conservation and consumption reduction.

Drawings

FIG. 1 is a schematic diagram of a hierarchical structure of a repository of the present invention;

FIG. 2 is a schematic view of the outer enclosure structure of the present invention;

fig. 3 is a schematic structural view of the inner partition wall of the present invention;

FIG. 4 is a schematic view of the structure of the vent pipe of the present invention;

FIG. 5 is a circuit diagram of the LED sensor lamp of the present invention;

in the figure: 1. outer enclosing; 2. a main taking chamber; 3. a ball storage chamber; 4. a short-term storage chamber; 5. a long-term storage chamber; 6. a middle-term storage chamber; 7. an inner partition wall body; 8. an LED induction lamp; 9. a breather pipe; 10. an outer brick wall; 11. a reinforced concrete cover; 12. an overhead ventilation layer; 13. a felt and a second oil-gas-proof layer; 14. a rigid polyurethane thermal barrier layer; 15. a reinforced concrete facing; 16. a felt-two oil waterproof layer; 17. extruding a polystyrene thermal insulation layer; 18. a reinforced concrete base layer; 19. a slag concrete cushion; 20. an anti-freezing ventilation pipeline; 21. an inner brick wall; 22. leveling layer of cement mortar; 23. a gas barrier layer; 24. a foamed polyurethane thermal insulation layer; 25. a cement mortar surface layer; 26. a ventilating fan; 27. a pipeline vent valve; 28. a small taking chamber.

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 work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving germplasm resource library comprises an outer enclosure 1 and an inner partition wall body 7 arranged inside the outer enclosure 1, wherein the outer enclosure 1 is divided into two layers and a storage chamber by the inner partition wall body 7, one layer comprises a main taking chamber 2 and a ball storage chamber 3, the two layers comprise a short-term storage chamber 4, a long-term storage chamber 5 and a middle-term storage chamber 6 which are sequentially arranged, the outer enclosure 1 comprises a slag concrete cushion layer 19 and a reinforced concrete base layer 18 which are sequentially arranged on the ground, an outer brick wall 10 arranged outside the reinforced concrete base layer 18 and the slag concrete cushion layer 19, a reinforced concrete cover 11 arranged at the upper end of the outer brick wall 10, and an overhead ventilation layer 12 fixedly arranged on the upper side of the reinforced concrete cover 11, an anti-freezing ventilation pipeline 20 is arranged inside the slag concrete cushion layer 19, the outer enclosure 1 further comprises a felt-two oil gas-proof layer 13, a rigid polyurethane heat-insulating layer 14 and a reinforced concrete surface layer 15 which are sequentially arranged inside the, a felt-two oil waterproof layer 16 and an extruded polystyrene heat insulation layer 17 are arranged between the bottom of the inner side of the outer enclosure 1 corresponding to the reinforced concrete surface layer 15 and the hard polyurethane heat insulation layer 14, the felt-two oil waterproof layer 16 and the extruded polystyrene heat insulation layer 17 are sequentially laid from top to bottom, the outer enclosure 1 is divided into an upper layer and a lower layer through an inner partition wall 7, the two layers of short-term storage chambers 4, the long-term storage chamber 5 and the middle-term storage chamber 6 are used for storing seeds, one layer of ball storage chamber 3 is used for storing the balls, the balls are heavier and can be stored in one layer, labor force can be saved, when the seeds or the balls are taken in the ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6, a door entering one side of a main taking chamber 2 is quickly opened and closed, and then the seeds or the balls are taken from the ball storage chamber 3, the short-term, the phenomenon that unnecessary heat enters and increases the load of the refrigeration house due to repeated door opening is reduced, the purposes of certain energy conservation and consumption reduction are achieved, the operation time of the air compressor can be reduced, the working efficiency is improved, and the cost is reduced.

In this embodiment, preferably, the inner partition wall body 7 includes an inner brick wall 21, and a cement mortar leveling layer 22, an air-isolating layer 23, a foamed polyurethane heat-insulating layer 24 and a cement mortar surface layer 25 which are sequentially disposed on two sides of the inner brick wall 21, and the air-isolating layer 23 and the foamed polyurethane heat-insulating layer 24 disposed on two sides of the inner brick wall 21 can better insulate heat and reduce the heat transfer to the outside.

In this embodiment, preferably, the small taking chamber 28 is built outside the cold storage door of each of the seed ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6 through the inner partition wall 7, and a heat insulation door is arranged on one side of the small taking chamber 28, when seeds are taken from the seed ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6, the heat insulation door of the small taking chamber 28 is quickly opened and closed and enters the small taking chamber 28, and then the cold storage doors of the seed ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6 are opened to take the seeds, so that the phenomenon that unnecessary heat enters the seed ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6 to increase the load of.

In this embodiment, it is preferred, the bottom of the main room of taking 2, the ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6 all is provided with the LED response lamp 8, and the LED response lamp 8 is connected with the inductive sensor, and when sensing someone through the inductive sensor and entering, turn on the LED response lamp 8 again and throw light on, the LED response lamp 8 has obvious even photochromic, luminous efficient characteristics as advanced novel photoelectric apparatus, reduction power consumption that can be certain.

In this embodiment, it is preferred, the cold-stored temperature in the middle storage chamber 6 sets up to four degrees centigrade, the cold-stored temperature in the long-term storage chamber 5 sets up to minus eighteen degrees centigrade, the cold-stored temperature in the short-term storage chamber 4 sets up to ten to fifteen degrees centigrade, the cold-stored temperature in the ball storage chamber 3 sets up to five to ten degrees centigrade, place the two layers of middlest with the minimum long-term storage chamber 5 of temperature, only need open the air compressor machine of long-term storage chamber 5 when ambient temperature is lower can, other room air compressors need not to be opened, do this and arrange according to the difference of room temperature, can reduce air compressor machine operating time, promote work efficiency, and the cost is reduced.

In this embodiment, preferably, the air pipes 9 are disposed on the inner partition walls 7 of the ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6, which are in contact with the long-term storage chamber 5, the air fans 26 are disposed inside the air pipes 9, the two ends of the air pipes 9 are provided with the pipeline air valves 27, when the temperatures in the ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6 are higher than a set temperature, the two ends of the air pipes 9 are opened through the pipeline air valves 27, the cold air in the long-term storage chamber 5 is pumped into the ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6 through the pipeline air valves 27 for adjustment, without opening the air compressors in the ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6, only by adjusting the lower air in the long-term storage chamber 5, and only by, achieving the purpose of energy saving and consumption reduction.

The utility model provides an inductive transducer's model is VVYK 2503.

The utility model discloses a theory of operation and use flow: after the utility model is installed, firstly, the installation fixation and safety protection of the utility model are checked, then the utility model can be used, the inside of the outer enclosure 1 is divided into an upper layer and a lower layer by the inner partition wall 7, two layers of short-term storage chamber 4, long-term storage chamber 5 and middle-term storage chamber 6 are used for storing seeds, one layer of the seed ball storage chamber 3 is used for storing seed balls, the seed balls are heavier, the labor force can be saved when being stored in one layer, when the seeds or the seed balls are taken from the seed ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6, the door which is arranged at one side of the main taking chamber 2 is firstly and quickly opened and closed, then the seeds or the seed balls are taken from the seed ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6, when the seeds are taken from the seed ball storage chamber 3, the short, the heat insulation door of the small taking chamber 28 is quickly opened and closed and enters the small taking chamber 28, then the cold storage door of the ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6 is opened to take seeds, the phenomenon that the cold storage load is increased due to the fact that unnecessary heat enters the ball storage chamber 3, the short-term storage chamber 4, the long-term storage chamber 5 and the middle-term storage chamber 6 caused by repeated opening of the door is reduced, certain energy saving and consumption reduction purposes are achieved, when a person enters the cold storage door through sensing sensors, the LED sensing lamp 8 is turned on to illuminate, the LED sensing lamp 8 has the obvious characteristics of uniform light color and high luminous efficiency and serves as an advanced novel photoelectric appliance, electric energy consumption can be reduced to a certain extent, the long-term storage chamber 5 with the lowest temperature is placed in the middle of two layers, only the air compressor of the long-term storage chamber 5, the arrangement is made according to different room temperatures, the operation time of the air compressor can be reduced, the working efficiency is improved, the cost is reduced, when the temperature in the ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6 is a little higher than the set temperature, the two ends of the vent pipe 9 are opened through the pipeline vent valve 27, the cold air in the long-term storage chamber 5 is pumped into the seed ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6 through the pipeline vent valve 27 for regulation, air compressors in the seed ball storage chamber 3, the short-term storage chamber 4 and the middle-term storage chamber 6 are not required to be opened, only the lower air in the long-term storage chamber 5 is required to be adjusted, and only need open the air compressor machine in the long-term storage chamber 5, reach certain energy saving and consumption reduction's purpose, it is right just so to have accomplished the utility model discloses a use, the utility model discloses simple structure, convenience safe in utilization.

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

Claims (6)

1. The utility model provides an energy-saving germplasm resource storehouse, includes outer enclosure (1) and sets up inside interior partition wall body (7) of outer enclosure (1), its characterized in that: the outer enclosure (1) is divided into a double layer and a storage chamber through an inner partition wall body (7), wherein one layer comprises a main taking chamber (2) and a ball storage chamber (3), the other layer comprises a short-term storage chamber (4), a long-term storage chamber (5) and a middle-term storage chamber (6) which are sequentially arranged, the outer enclosure (1) comprises a slag concrete cushion layer (19) and a reinforced concrete base layer (18) which are sequentially arranged on the ground, an outer brick wall (10) which is arranged on the outer sides of the reinforced concrete base layer (18) and the slag concrete cushion layer (19), a reinforced concrete cover (11) which is arranged at the upper end of the outer brick wall (10), and an overhead ventilation layer (12) which is fixedly arranged on the upper side of the reinforced concrete cover (11), an antifreezing ventilation pipeline (20) is arranged in the slag concrete cushion layer (19), and the outer enclosure (1) further comprises a felt two oil-gas-proof layers (13) and a felt-proof layer (13) which, The heat insulation structure comprises a rigid polyurethane heat insulation layer (14) and a reinforced concrete surface layer (15), wherein a felt-two oil waterproof layer (16) and an extruded polystyrene heat insulation layer (17) are arranged between the inner bottom of the outer enclosure (1) corresponding to the reinforced concrete surface layer (15) and the rigid polyurethane heat insulation layer (14), and the felt-two oil waterproof layer (16) and the extruded polystyrene heat insulation layer (17) are sequentially laid from top to bottom.

2. The energy-saving germplasm resource library of claim 1, wherein: the inner partition wall body (7) comprises an inner brick wall (21), and a cement mortar leveling layer (22), a gas barrier layer (23), a foamed polyurethane heat insulation layer (24) and a cement mortar surface layer (25) which are sequentially arranged on two sides of the inner brick wall (21).

3. The energy-saving germplasm resource library of claim 1, wherein: the cold storage door of the ball storage chamber (3), the short-term storage chamber (4), the long-term storage chamber (5) and the middle-term storage chamber (6) is externally provided with a small taking chamber (28) through an inner partition wall body (7), and one side of the small taking chamber (28) is provided with a heat insulation door.

4. The energy-saving germplasm resource library of claim 1, wherein: the LED ball-shaped ball is characterized in that LED induction lamps (8) are arranged at the bottoms of the main taking chamber (2), the ball-shaped ball storage chamber (3), the short-term storage chamber.

5. The energy-saving germplasm resource library of claim 1, wherein: the cold-stored temperature in middle term deposit room (6) sets up to four degrees centigrade, the cold-stored temperature in long-term deposit room (5) sets up to minus eighteen degrees centigrade, the cold-stored temperature in short-term deposit room (4) sets up to ten to fifteen degrees centigrade, the cold-stored temperature in seedball deposit room (3) sets up to five to ten degrees centigrade.

6. The energy-saving germplasm resource library of claim 1, wherein: the ball storage chamber (3), the short-term storage chamber (4) and the middle-term storage chamber (6) are all provided with vent pipes (9) on the inner partition wall body (7) contacted with the long-term storage chamber (5), the inside of the vent pipes (9) is provided with a ventilation fan (26), and two ends of the vent pipes (9) are provided with pipeline ventilation valves (27).

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