CN211055648U - Energy-saving fresh-keeping logistics box - Google Patents

Abstract

The utility model provides an energy-conserving fresh-keeping thing flow box belongs to commodity circulation transport means technical field, including thing flow box, sealed lid and water catch bowl, thing flow box top swing joint has sealed lid, and the embedding of thing flow box bottom is provided with the water catch bowl. Be provided with thermal-insulated filling layer among the device, put the thing groove, sealed lid and ice storage tank, put into the thing groove of putting in the thing flow box with vegetables or fruit, its ice-cube also fills up together in ice storage tank, cover sealed lid and cover sealedly, on the way in the transportation, the ice-cube can produce air conditioning and transmit to putting on the thing inslot wall, article to putting the thing inslot keep fresh and handle, and sealed inside setting up of covering can effectively block the ice storage tank that the thermal current transmitted to the thing flow box in to vacuum and the setting of thermal-insulated filling layer, avoided the ice-cube to be melted with higher speed, the short distance in the transportation has been solved, do not need the fresh-keeping problem of refrigeration pipe, the transportation cost is reduced, the transportation effect has been promoted.

Description

Energy-saving fresh-keeping logistics box

Technical Field

The utility model relates to a commodity circulation transport means technical field, more specifically the theory relates to an energy-conserving fresh-keeping thing flow box.

Background

Along with the progress of society, the effect of lifting is born in every industry in the commodity circulation link, and the thing flow box is as important commodity circulation transport means, not only stores the article, also bears the weight of and transports in certain region at article, and present thing flow box material can be divided into metal material and plastics, contains box and case lid, and whole thing flow box is sealed.

Present thing flow box is equipped with multiple article and transports, transport the article of some vegetables and fruit, then keep fresh and handle the transportation, loading requirement to the thing flow box has also promoted, many thing flow box have all been equipped with the refrigeration pipe in inside, it is fresh-keeping to vegetables and fruit to provide air conditioning around, however, to some short distance commodity circulation transportation, adopt the refrigeration pipe fresh-keeping, will increase the output loss of electric energy, just also mean to increase the cost of transportation, the water that the ice-cube melts in a lot of thing flow box all can flow toward the case outside in addition, very big waste fresh-keeping water resource, consequently, need make further innovation on this basis, an energy-conserving fresh-keeping thing flow box is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the output loss of electric energy is increased by adopting the refrigeration pipe for fresh-keeping in short-distance logistics transportation, which means that the transportation cost is increased, and provides an energy-saving fresh-keeping logistics box, the device is provided with a heat insulation filling layer, a material placing groove, a sealing cover and an ice storage groove, vegetables or fruits are placed in the material placing groove in the logistics box, the ice blocks are also fully filled in the ice storage tank, the sealing cover is covered and sealed, during the transportation process, the ice blocks can generate cold air to be transmitted to the inner wall of the object storage tank, the articles in the article placing groove are subjected to fresh-keeping treatment, and the sealing cover is internally provided with a vacuum and heat insulation filling layer which can effectively block heat flow from being transferred to the ice storage groove in the logistics box, the ice cubes are prevented from being melted with higher speed, the problem that the refrigeration pipe is not required to keep fresh in short-distance transportation is solved, the transportation cost is reduced, and the transportation effect is improved.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving fresh-keeping logistics box comprises a logistics box, a sealing cover and a water collecting tank, wherein the sealing cover is movably connected above the logistics box, and the water collecting tank is embedded in the bottom of the logistics box;

the logistics box comprises a heat insulation filling layer, an object placing groove, an ice storage groove, a first water storage groove, a second water storage groove and a partition plate, wherein the heat insulation filling layer is embedded into an inner ring layer arranged inside the logistics box;

the sealing cover comprises a lock catch, and the lock catch is movably connected to the middle part of the right side of the sealing cover;

the water catch bowl includes suction pump, rechargeable lithium cell, charging port and drinking-water pipe, the suction pump passes through bolt fixed connection on the inside right side of water catch bowl, rechargeable lithium cell embedding sets up the right-hand member in the water catch bowl is inside, the embedding of charging port sets up in the outside right side below of water catch bowl, drinking-water pipe swing joint is in the suction pump left side.

Preferably: the heat insulation filling layer is composed of two or more than two heat insulation materials of glass fiber, asbestos, rock wool and silicate particles.

Preferably: the object placing grooves are all positioned between the ice storage grooves, and the ice storage grooves are all tightly attached to the outer wall surface of the object placing grooves.

Preferably: the first water storage tank and the second water storage tank are arranged in a conductive manner, and the left end and the right end of the first water storage tank and the second water storage tank are tightly attached to the outer wall surface of the storage tank.

Preferably: the inside waterlogging caused by excessive rainfall of baffle separates the net, and baffle and catch basin notch just are relative.

Preferably: the sealing cover is arranged in a vacuum manner and is connected with the logistics box through a lock catch.

Preferably: be electric connection between suction pump, the lithium cell that charges and the mouth that charges, and suction pipe inner cup joints with the suction pump delivery port activity, and the outer end runs through inside first aqua storage tank.

Has the advantages that:

(1) this kind of energy-conserving fresh-keeping thing flow box is provided with thermal-insulated filling layer, put the thing groove, sealed lid and ice storage tank, put into the thing groove of putting in the thing flow box with vegetables or fruit, its ice-cube also fills up in the ice storage tank together, cover sealed lid and cover sealedly, in transit, the ice-cube can produce air conditioning and transmit to putting on the thing inslot wall, article to putting the thing inslot keep fresh and handle, and sealed inside setting up of covering can effectively block the heat flow and transmit to the ice storage tank in the thing flow box to vacuum and the setting up of thermal-insulated filling layer, avoided the ice-cube to be melted with higher speed, the short distance in transportation has been solved, do not need the fresh-keeping problem of refrigeration pipe, the cost of transportation is reduced, the transportation effect.

(2) The rechargeable lithium battery is charged by the charging port to store electric energy, the rechargeable lithium battery provides electric energy for the water suction pump to output the electric energy, and the ice water collected in the water collecting tank is pumped into the first water storage tank to be reused.

(3) Because thermal-insulated processing has been done in the thing flow box, what make its drinking-water pipe suction in first aqua storage tank is still icy, then can reuse for frozen water can circulate each other in first aqua storage tank and second aqua storage tank, reduces the temperature to putting the thing groove and handles, promotes article fresh-keeping.

Drawings

Fig. 1 is a schematic overall side view of the present invention.

Fig. 2 is the schematic view of the connection structure of the material flow box and the water collecting tank of the present invention.

Fig. 3 is the schematic view of the inside sectional structure of the material flow box of the present invention.

In FIGS. 1-3: the system comprises a logistics box 1, a heat insulation filling layer 101, a storage tank 102, an ice storage tank 103, a first water storage tank 104, a second water storage tank 105, a partition plate 106, a sealing cover 2, a lock catch 201, a water collecting tank 3, a water suction pump 301, a rechargeable lithium battery 302, a charging port 303 and a water suction pipe 304.

Detailed Description

The utility model discloses the thermal-insulated filling layer 101 that uses in, put thing groove 102, store ice groove 103, first aqua storage tank 104, second aqua storage tank 105, baffle 106, sealed lid 2, hasp 201, suction pump 301 and rechargeable lithium cell 302 all can purchase or private customization income through the market.

Example (b):

referring to fig. 1 to 3, in an embodiment of the present invention, an energy-saving fresh-keeping logistics box includes a logistics box 1, a sealing cover 2 and a water collection tank 3, the sealing cover 2 is movably connected above the logistics box 1, and the water collection tank 3 is embedded in the bottom of the logistics box 1;

the logistics box 1 comprises a heat insulation filling layer 101, a material placing groove 102, an ice storage groove 103, a first water storage groove 104, a second water storage groove 105 and a partition plate 106, wherein the heat insulation filling layer 101 is embedded into an inner ring layer in the logistics box 1, the material placing groove 102 is embedded into the middle in the logistics box 1, the ice storage grooves 103 are embedded into the front side and the rear side in the logistics box 1, the first water storage groove 104 is embedded into the front side of the ice storage groove 103, the second water storage groove 105 is embedded into the rear side of the ice storage groove 103, and the partition plate 106 is embedded into the bottom of the ice storage groove 103;

the sealing cover 2 comprises a lock catch 201, and the lock catch 201 is movably connected to the middle part of the right side of the sealing cover 2;

the water collecting tank 3 comprises a water suction pump 301, a rechargeable lithium battery 302, a charging port 303 and a water suction pipe 304, the water suction pump 301 is fixedly connected to the right side of the inside of the water collecting tank 3 through bolts, the rechargeable lithium battery 302 is embedded into the right end of the inside of the water collecting tank 3, the charging port 303 is embedded into the right side lower portion of the outside of the water collecting tank 3, and the water suction pipe 304 is movably connected to the left side of the water suction pump 301.

In the preferred embodiment, the heat insulation filling layer 101 is composed of two or more heat insulation materials of glass fiber, asbestos, rock wool and silicate particles, so that the heat insulation filling layer 101 can improve the heat insulation around the logistics box 1, effectively block heat flow from being transferred to the ice storage tank 103 in the logistics box 1, and prevent ice blocks from being melted rapidly; the object placing grooves 102 are all positioned between the ice storage grooves 103, the ice storage grooves 103 are all tightly attached to the outer wall surfaces of the object placing grooves 102, ice cubes are fully placed in the ice storage grooves 103, the sealing covers 2 are covered and sealed, in the transportation process, the ice cubes can generate cold air and transmit the cold air to the inner walls of the object placing grooves 102, and the objects in the object placing grooves 102 are subjected to fresh-keeping treatment; the first water storage tank 104 and the second water storage tank 105 are arranged in a communicating manner, the left end and the right end of the first water storage tank 104 and the right end of the second water storage tank 105 are tightly attached to the outer wall surface of the object placing tank 102, and the water pumping pipe 304 is pumped into the first water storage tank 104 or is ice due to heat insulation treatment in the logistics box 1, so that the ice water can be reused, the ice water can mutually circulate in the first water storage tank 104 and the second water storage tank 105, the object placing tank 102 is cooled, and the freshness of objects is promoted; a draining and screening net is arranged in the partition plate 106, and the partition plate 106 is right opposite to the notch of the water collecting tank 3, so that ice blocks in the ice storage tank 103 can fall into the water collecting tank 3 from the draining and screening net to be collected after being melted, and can be used as standby fresh-keeping water; the sealing cover 2 is arranged in a vacuum state and is connected with the logistics box 1 through the lock catch 201, so that the sealing cover 2 is in the vacuum state, heat insulation treatment can be carried out on the logistics box 1, external heat is prevented from being transmitted into the object placing groove 102 and the ice storage groove 103, and the protection of ice blocks and transported objects is improved; the water suction pump 301, the rechargeable lithium battery 302 and the charging port 303 are electrically connected, the inner end of the water suction pipe 304 is movably sleeved with the water outlet of the water suction pump 301, the outer end of the water suction pipe penetrates through the first water storage tank 104, the rechargeable lithium battery 302 is charged through the charging port 303 to store electric energy, the rechargeable lithium battery 302 provides electric energy for outputting the water suction pump 301, and ice water collected in the water collection tank 3 is pumped into the first water storage tank 104 to be reused.

The working principle is as follows:

when the energy-saving preservation logistics box is used, firstly, vegetables or fruits are put into the storage tank 102 in the logistics box 1, ice cubes are also filled in the ice storage tank 103, the sealing cover 2 is covered and sealed, in the transportation process, the ice cubes can generate cold air to be transmitted to the inner wall of the storage tank 102, the goods in the storage tank 102 are preserved, after the ice cubes in the ice storage tank 103 are melted, the cold air can fall into the water collecting tank 3 from the draining and separating net to be collected and can be used as standby preservation ice water, meanwhile, the sealing cover 2 is internally provided with a vacuum and heat insulation filling layer 101 which can effectively block heat flow from being transmitted into the ice storage tank 103 in the logistics box 1, the ice cubes are prevented from being melted rapidly, finally, the rechargeable lithium battery 302 is charged through the charging port 303 to store electric energy, the rechargeable lithium battery 302 provides electric energy output for the water suction pump 301, the ice water collected in the water collecting tank 3 is pumped into the first water storage tank 104, so that the ice water can flow through the first water storage tank 104 and the second water storage tank 105 to cool the storage tank 102, thereby promoting the freshness of the articles.

Claims (7)

1. The utility model provides an energy-conserving fresh-keeping thing flow box, includes thing flow box (1), sealed lid (2) and water collection tank (3), its characterized in that: a sealing cover (2) is movably connected above the logistics box (1), and a water collecting tank (3) is embedded into the bottom of the logistics box (1);

the logistics box (1) comprises a heat insulation filling layer (101), an object placing groove (102), an ice storage groove (103), a first water storage groove (104), a second water storage groove (105) and a partition plate (106), wherein the heat insulation filling layer (101) is embedded into an inner ring layer arranged inside the logistics box (1), the object placing groove (102) is embedded into the middle inside the logistics box (1), the ice storage grooves (103) are embedded into the front side and the rear side inside the logistics box (1), the first water storage groove (104) is embedded into the front side of the ice storage groove (103), the second water storage groove (105) is embedded into the rear side of the ice storage groove (103), and the partition plate (106) is embedded into the bottom of the ice storage groove (103);

the sealing cover (2) comprises a lock catch (201), and the lock catch (201) is movably connected to the middle part of the right side of the sealing cover (2);

water catch bowl (3) include suction pump (301), rechargeable lithium cell (302), mouth (303) and drinking-water pipe (304) charge, suction pump (301) are through the right side of bolt fixed connection in water catch bowl (3) inside, rechargeable lithium cell (302) embedding sets up the right-hand member in water catch bowl (3) inside, mouth (303) embedding sets up in the outside right side below of water catch bowl (3), drinking-water pipe (304) swing joint is in suction pump (301) left side.

2. The energy-saving fresh-keeping logistics box of claim 1, wherein: the heat insulation filling layer (101) is composed of two or more than two heat insulation materials of glass fiber, asbestos, rock wool and silicate particles.

3. The energy-saving fresh-keeping logistics box of claim 1, wherein: the object placing grooves (102) are all positioned between the ice storage grooves (103), and the ice storage grooves (103) are all tightly attached to the outer wall surface of the object placing grooves (102).

4. The energy-saving fresh-keeping logistics box of claim 1, wherein: the first water storage tank (104) and the second water storage tank (105) are arranged in a conducting manner, and the left end and the right end of the first water storage tank (104) and the second water storage tank (105) are tightly attached to the outer wall surface of the object placing tank (102).

5. The energy-saving fresh-keeping logistics box of claim 1, wherein: the inside of the partition plate (106) is provided with a draining and separating net, and the partition plate (106) is right opposite to the notch of the water collecting tank (3).

6. The energy-saving fresh-keeping logistics box of claim 1, wherein: the sealing cover (2) is arranged in a vacuum manner and is connected with the logistics box (1) through a lock catch (201).

7. The energy-saving fresh-keeping logistics box of claim 1, wherein: be electric connection between suction pump (301), rechargeable lithium cell (302) and charging mouth (303), and suction pipe (304) the inner cup joints with suction pump (301) delivery port activity, and the outer end runs through inside first aqua storage tank (104).

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