CN116729778B - Intelligent logistics storage equipment for seafood products - Google Patents

Abstract

The invention relates to the technical field of logistics storage; more particularly, the invention relates to an intelligent logistics storage device for seafood products; the inner side of the bottom of the square box body at the lowest part is fixedly connected with a frame, and the inner side and the outer side of the bottom of all the square box bodies except the lowest part are fixedly connected with another frame; during the use, pack into the insulation can body with the seafood product layering through square box body, transport and transfer the operation again, greatly reduced ice-cube receives the movable range after the vibrations to slow down the ice-cube and pile up the phenomenon, stop spacingly to the ice-cube through the frame simultaneously, further prevent that the ice-cube from appearing removing and piling up the phenomenon, avoided among the prior art because of the ice-cube pile up after receiving the vibrations and lead to the problem that fresh-keeping effect is low, carry the cold air to the frame inside through air conditioning circulation system, rethread frame evenly carries the cold air to each position of square box body inboard, evenly cool down square box body inside.

Description

Intelligent logistics storage equipment for seafood products

Technical Field

The invention relates to the technical field of logistics storage. More particularly, the invention relates to intelligent logistics storage equipment for seafood products.

Background

The prior Chinese patent: a seafood and aquatic product transportation logistics box (CN 212530751U) can effectively and long-time cool the seafood and aquatic products, and simultaneously isolate a large amount of seafood and aquatic products, thereby avoiding the pollution and deterioration of the rest seafood and aquatic products caused by the decay and deterioration of a small amount of seafood and aquatic products and reducing the loss of people;

in order to keep the seafood fresh in the transportation and transfer processes, the seafood product and the ice cubes are mixed and then are filled into the transportation box with the heat preservation effect, and then the transportation and transfer operations are carried out, however, the heat preservation box can vibrate in the transportation process, the ice cubes can be transferred and piled together after being vibrated, so that the surface of part of the seafood product is not covered with the ice cubes, the seafood product is easy to deteriorate, the seafood product around the seafood product is polluted, and the fresh-keeping effect is low.

Disclosure of Invention

The invention provides intelligent logistics storage equipment for seafood products, and aims to overcome the defect that the heat preservation effect is low because ice cubes in the existing logistics box are stacked together after the existing logistics box is vibrated.

In order to achieve the above object, the technical scheme of the present invention is as follows:

an intelligent logistics storage device for seafood products comprises a heat preservation box body, a heat preservation box cover, a first lock and a second lock; the insulation box body is inserted with an insulation box cover; at least four first locks are fixedly connected on the heat preservation box body; at least four second locks are fixedly connected to the heat preservation box cover and are clamped with the corresponding first locks; the box also comprises a square box body, a cover plate and a frame; a plurality of square box bodies are arranged at the inner side of the heat preservation box body, and all square box bodies are vertically stacked; a cover plate is fixedly connected on the heat preservation box cover; the cover plate is contacted with the heat-preserving box body; the inner side of the bottom of the square box body at the lowest part is fixedly connected with a frame, and the inner side and the outer side of the bottom of all the square box bodies except the lowest part are fixedly connected with another frame; another frame is fixedly connected to the lower side of the cover plate; the ice blocks are blocked and limited through the frame.

As an improvement of the scheme, the utility model also comprises a square frame body; the upper side of each square box body is fixedly connected with a square frame body; the upper side surface of the square frame body is an inclined surface, and the outer side of the bottom of the square box body is provided with an inclined surface matched with the inclined surface; each square frame body is contacted with the heat preservation box body; the square frame body at the uppermost part is contacted with the cover plate.

As an improvement of the scheme, the refrigerator further comprises a refrigeration assembly; the frame is connected with a refrigeration component; the refrigerating assembly comprises a first connecting block, a first cylinder, a sliding sleeve block, a sliding rod, a spring, a movable block, a sealing ring and a circulating unit; each frame is provided with a channel; each frame is fixedly connected with a plurality of first connecting blocks which are communicated with corresponding channels; each first connecting block is fixedly connected with a plurality of first cylinders; a sliding sleeve block is arranged on the inner side of each first connecting block and fixedly connected with the corresponding first cylinder; each sliding sleeve block is connected with a sliding rod in a damping sliding manner; each sliding rod is sleeved with a spring, one end of the spring is fixedly connected with the corresponding sliding sleeve block, and the other end of the spring is fixedly connected with the corresponding sliding rod; each sliding rod is fixedly connected with a movable block which is contacted with the corresponding sliding sleeve block; each first connecting block is fixedly connected with a sealing ring, and the sealing rings are contacted with the corresponding movable blocks; the heat preservation box body is connected with a circulation unit for conveying cold air to the channel.

As an improvement of the above scheme, the first connecting block is concave and embedded on the frame.

As an improvement of the scheme, the device also comprises an auxiliary component; the first connecting block is connected with an auxiliary component; the auxiliary assembly comprises a second cylinder and a limiting piece; a plurality of second cylinders are fixedly connected to each first connecting block; a limiting piece is arranged on the inner side of each first connecting block and fixedly connected with a corresponding second cylinder; each movable block is in sliding connection with the corresponding limiting piece.

As an improvement of the scheme, the auxiliary assembly further comprises a stop block; each first connecting block is fixedly connected with a plurality of stop blocks.

As an improvement of the scheme, the circulating unit comprises a telescopic cylinder, a second connecting block, a cold air circulating system, a first pipeline, a second pipeline, a third pipeline and a fourth pipeline; at least four telescopic cylinders are fixedly connected on the heat preservation box body; the telescopic ends of all the telescopic cylinders are fixedly connected with a second connecting block; the second connecting block is fixedly connected with a cold air circulation system; the output end of the cold air circulation system is communicated with a first pipeline; the first pipeline is communicated with a plurality of second pipelines, the second pipelines are in sliding connection with the heat preservation box body, the second pipelines are in sliding connection with the corresponding square box bodies, the second pipelines are in sealing sliding connection with the corresponding frames, and the second pipelines are communicated with the corresponding channels; the input end of the cold air circulation system is communicated with a third pipeline; and a plurality of fourth pipelines are communicated with the third pipeline, the fourth pipelines are in sliding connection with the heat preservation box body, and the fourth pipelines are in sliding connection with the corresponding square box bodies.

As an improvement of the scheme, the device also comprises a take-out assembly; the insulation box body is connected with a take-out assembly; the taking-out assembly comprises a third connecting block, a pull block and a round rod; a plurality of third connecting blocks are connected to the heat preservation box body in a sliding manner; a pull block is fixedly connected to the upper side of each third connecting block; each third connecting block is fixedly connected with a round rod; each square box body is provided with a plurality of first round holes; each round rod is inserted into the corresponding first round hole.

As an improvement of the scheme, the taking-out assembly further comprises a bolt; a plurality of bolts are connected on the heat preservation box body in a sliding way; a plurality of second round holes are formed in the third connecting block; each bolt is inserted into the corresponding second round hole.

As an improvement of the scheme, at least two grooves are formed in each square box body.

The beneficial effects are that: according to the technical scheme, seafood products are layered and filled into the heat preservation box body through the square box body, and then transportation and transfer operations are carried out, so that the moving range of ice cubes after vibration is greatly reduced, the ice cubes are slowed down, meanwhile, the ice cubes are blocked and limited through the frame, the ice cubes are further prevented from moving and accumulating, the problem that the preservation effect is low due to accumulation of the ice cubes after vibration in the prior art is avoided, meanwhile, small ice cubes are obliquely downwards guided into the square box body through the square box body, and the problem that a heat preservation box cover is difficult to cover due to small ice cubes on the upper side of the square box body is effectively avoided;

in the fresh-keeping process, cold air is conveyed to the inside of the frame through the cold air circulation system, then the cold air is uniformly conveyed to all positions on the inner side of the square box body through the frame, the inner side of the square box body is uniformly cooled, so that the problem that the opening of the movable block is influenced due to the fact that water at the gap between the movable block and the sealing ring is frozen is effectively avoided, after the air pressure in the frame is increased, the movable blocks at different positions can be simultaneously opened to convey the cold air to the square box body, the problem that the cold air is unevenly conveyed due to the fact that the air flow at the position of the frame far away from the second pipeline is low is avoided, meanwhile, the size of an air flow path on the inner side of the first connecting block is reduced through the limiting piece, when the cold air flows into the first connecting block, the cold air flows into the square box body from a narrow path, and water drops remained on the inner side of the first connecting block are sprayed out, meanwhile, the problem that the opening of the movable block is influenced due to the fact that water drops flowing to the gap between the movable block and the sealing ring is blocked and limited by the obliquely arranged limiting block is reduced from the upper side of the water drops of the movable block, and the gap of the movable block is prevented from being opened due to the fact that the blocking position of the corner is also used for blocking and limited;

in the boxing process, the square box body can be taken out from the heat insulation box body only by manually pulling the pull block, and meanwhile, the third connecting block is fixed in an auxiliary mode through the bolt, so that the pull block is not required to be pulled tightly in the process of manually taking out the square box body, convenience is improved, fingers can be manually buckled into the grooves to take out the square box body, force application is facilitated, and convenience is further improved.

Drawings

FIG. 1 shows a schematic diagram of the whole structure of the intelligent logistics storage equipment for seafood products;

FIG. 2 is a cross-sectional view showing the structure of a first part of the intelligent logistics storage apparatus for seafood products in accordance with the present invention;

FIG. 3 is a cross-sectional view showing the structure of a second part of the intelligent logistics storage apparatus for seafood products in accordance with the present invention;

FIG. 4 is a front view showing a part of the structure of the intelligent logistics storage apparatus for seafood products of the present invention;

FIG. 5 shows a schematic structural view of a frame and a square box body of the intelligent logistics storage equipment for seafood products;

FIG. 6 is a schematic view showing the mounting position of the refrigeration assembly of the present invention;

FIG. 7 is a schematic view showing the internal structure of the refrigeration assembly of the present invention;

FIG. 8 is a schematic view showing the construction of the installation position of the circulation unit of the present invention;

FIG. 9 shows a schematic structural view of the circulation unit of the present invention;

fig. 10 shows a schematic view of the structure of the take-out assembly of the present invention.

Part names and serial numbers in the figure:

the heat-insulating box comprises a 1-heat-insulating box body, a 2-heat-insulating box cover, a 3-first lock, a 4-second lock, a 5-square box body, a 6-cover plate, a 7-frame, a 201-square box body, a 202-first connecting block, a 203-first cylinder, a 204-sliding sleeve block, a 205-sliding rod, a 206-spring, a 207-movable block, a 208-sealing ring, a 209-second cylinder, a 2010-limiting piece, a 2011-stop block, a 2012-telescopic cylinder, a 2013-second connecting block, a 2014-cold air circulation system, a 2015-first pipeline, a 2016-second pipeline, a 2017-third pipeline, a 2018-fourth pipeline, a 301-third connecting block, a 302-pulling block, a 303-round rod, a 304-plug pin, a 91-channel, a 92-first round hole, a 93-second round hole and a 94-groove.

Detailed Description

The invention will be further illustrated by the following description of specific examples, which are given by the terms such as: setting, mounting, connecting are to be construed broadly, and may be, for example, fixed, removable, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Embodiment 1

The intelligent logistics storage equipment for seafood products, as shown in figures 1-5, comprises an insulation box body 1, an insulation box cover 2, a first lock 3 and a second lock 4; the insulation box body 1 is inserted with an insulation box cover 2; four first locks 3 are connected to the heat preservation box body 1 through bolts; four second locks 4 are connected to the heat preservation box cover 2 through bolts, and the second locks 4 are clamped with the corresponding first locks 3; the box also comprises a square box body 5, a cover plate 6 and a frame 7; five square box bodies 5 are arranged on the inner side of the heat preservation box body 1, and all the square box bodies 5 are vertically stacked; the cover plate 6 is connected to the heat preservation box cover 2 through bolts, and the cover plate 6 is made of alloy materials; the cover plate 6 is contacted with the heat preservation box body 1; the inner side of the bottom of the square box body 5 at the lowest part is connected with a frame 7 through bolts, and the inner side and the outer side of the bottom of all the square box bodies 5 at the lowest part are connected with another frame 7 through bolts; the lower side of the cover plate 6 is connected with another frame 7 through bolts; the ice cubes are blocked and limited by the frame 7.

A square frame 201 is also included; a square frame 201 is welded on the upper side of each square box 5; the upper side surface of the square frame 201 is an inclined surface, and the outer side of the bottom of the square box 5 is provided with an inclined surface matched with the square frame for guiding ice cubes obliquely downwards above the square frame, so that the stacking operation of the square box 5 is prevented from being influenced; each square frame 201 is contacted with the heat preservation box 1; the uppermost square frame 201 is in contact with the cover plate 6.

First tool to lock 3 and the unblock of second tool to lock 4 are taken out to the manual work, then take out insulation case lid 2 from insulation can 1, then take out all square box 5 and the part on it, then lay one deck ice-cube in the inboard bottom of every square box 5, then with seafood product tiling in the ice-cube upside, lay one deck ice-cube to the fresh product upside again, seafood product presss from both sides between two-deck ice-cube this moment, then put back insulation can 1 in proper order with all square box 5, install back to the normal position at insulation can 2, at this moment, square box 5 of every square box 5 all covers the square box 5 of its below tightly, apron 6 covers square box 5 of top tightly, the ice-cube just laminates square box 5 downside, and the corner position card of ice-cube is gone into in corresponding frame 7, when transporting transfer operation to insulation can 1, in the time, through square box 5 with seafood product layering to ice-cube 1, transport and transfer operation again, greatly reduced and receive the moving range behind the ice-cube, thereby pile up the phenomenon and pile up in the low technology through frame 7 and prevent to pile up the problem of ice-cube vibration after the time, the problem of piling up is further avoided and the problem of piling up in the technology has been avoided.

When pouring ice-cube into square box body 5, there is some little ice-cube to drop square box body 5 upside, leads to square box body 5 of top unable laminating its square box body 5 of below completely to lead to range upon range of square box body 5 total height that puts to be higher than the default, influence heat preservation case lid 2 and close the operation, consequently, all set up a square box body 201 in every square box body 5 upside, square box body 201 upside is the inclined plane, behind little ice-cube dropped square box body 201 upside, the slant whereabouts is in square box body 5, has effectively avoided because of square box body 5 upside output little ice-cube is difficult to with the problem of heat preservation case lid 2 lid tightly.

Embodiment 2

On the basis of the embodiment 1, as shown in fig. 1-2 and 6-9, a refrigeration assembly is also included; the frame 7 is connected with a refrigeration component; the refrigeration assembly comprises a first connecting block 202, a first cylinder 203, a sliding sleeve block 204, a sliding rod 205, a spring 206, a movable block 207, a sealing ring 208 and a circulation unit; each frame 7 is provided with a channel 91; each frame 7 is fixedly connected with a plurality of first connecting blocks 202, and the first connecting blocks 202 are communicated with the corresponding channels 91; four first cylinders 203 are welded on each first connecting block 202; a sliding sleeve block 204 is arranged on the inner side of each first connecting block 202, and the sliding sleeve blocks 204 are welded with the corresponding first cylinders 203; each sliding sleeve block 204 is connected with a sliding rod 205 in a damping sliding manner, the sliding rod 205 can be a round rod, and the sliding rod 205 can also be a prismatic rod; each slide bar 205 is sleeved with a spring 206, one end of the spring 206 is fixedly connected with the corresponding slide sleeve block 204, and the other end of the spring 206 is fixedly connected with the corresponding slide bar 205; each sliding rod 205 is connected with a movable block 207 through a bolt, and the movable block 207 is contacted with the corresponding sliding sleeve block 204; a sealing ring 208 is fixedly connected to each first connecting block 202, and the sealing ring 208 is in contact with the corresponding movable block 207; the heat preservation box body 1 is connected with a circulation unit for conveying cold air to the channel 91; after the air pressure in the passage 91 is rapidly increased, all the movable blocks 207 are simultaneously opened, so that the cool air uniformly flows into the inside of the square box body 5 through the passage 91.

The first connecting block 202 is concave and embedded on the frame 7, so that the problem that the movable block 207 is blocked by ice cubes to be opened can be avoided.

The auxiliary assembly is also included; the first connecting block 202 is connected with an auxiliary component; the auxiliary assembly comprises a second cylinder 209 and a limiting member 2010; four second cylinders 209 are welded on each first connecting block 202, and the second cylinders 209 are made of alloy materials; a limiting piece 2010 is arranged on the inner side of each first connecting block 202, and the limiting piece 2010 is welded with the corresponding second cylinder 209; each movable block 207 is slidably coupled to a corresponding stopper 2010.

The auxiliary assembly further comprises a stop 2011; each first connecting block 202 is welded with a plurality of stoppers 2011, and water drops are prevented from flowing into the first connecting blocks 202 by the stoppers 2011.

The circulation unit comprises a telescopic cylinder 2012, a second connecting block 2013, a cold air circulation system 2014, a first pipeline 2015, a second pipeline 2016, a third pipeline 2017 and a fourth pipeline 2018; four telescopic cylinders 2012 are connected to the heat preservation box body 1 through bolts; the telescopic ends of all telescopic cylinders 2012 are fixedly connected with a second connecting block 2013; a cold air circulation system 2014 is fixedly connected to the second connecting block 2013; the output end of the cold air circulation system 2014 is communicated with and screwed with a first pipeline 2015; a plurality of second pipelines 2016 are communicated and welded on the first pipelines 2015, the second pipelines 2016 are in sliding connection with the heat preservation box body 1, the second pipelines 2016 are in sliding connection with the corresponding square box bodies 5, the second pipelines 2016 are in sealing sliding connection with the corresponding frames 7, the second pipelines 2016 are communicated with the corresponding channels 91, and cold air is conveyed to the channels 91 through the second pipelines 2016; the input end of the cold air circulation system 2014 is communicated with and screwed with a third pipeline 2017; the third pipeline 2017 is communicated with and welded with a plurality of fourth pipelines 2018, the fourth pipelines 2018 are in sliding connection with the heat preservation box body 1, and the fourth pipelines 2018 are in sliding connection with the corresponding square box bodies 5.

If the insulation box 1 stays in a high temperature environment for a long time, the ice blocks in the insulation box will melt, which affects the insulation effect, at this time, the cold air circulation system 2014 is started, the cold air circulation system 2014 sends cold air to the first pipeline 2015, the cold air flows into the channel 91 through the second pipeline 2016, the air pressure in the channel 91 is rapidly increased, when the air pressure in the channel 91 is greater than the elasticity of the spring 206, the high pressure air pushes the movable block 207 to move, the movable block 207 drives the sliding rod 205 to slide in the sliding sleeve block 204 and compress the spring 206, the movable block 207 is far away from the sealing ring 208, so that the cold air in the channel 91 flows into the inner side of the square box 5 from the gap between the sliding sleeve block 204 and the first connecting block 202, the ice blocks and seafood products at the inner side of the square box 5 are cooled, then, the air in the square box body 5 flows into the fourth pipeline 2018, flows back into the cold air circulation system 2014 from the third pipeline 2017, and when the air conditioner is used, cold air is conveyed to the inside of the frame 7 through the cold air circulation system 2014, and then is uniformly conveyed to all positions on the inner side of the square box body 5 through the frame 7, so that the inner side of the square box body 5 is uniformly cooled, the insulation box body 1 maintains the fresh-keeping effect when staying in a high-temperature environment for a long time, after the air pressure in the frame 7 is raised, the elasticity of all springs 206 is the same, the air pressure in the frame 7 is the same everywhere, and the movable blocks 207 at different positions can be simultaneously opened to convey the cold air to the square box body 5, so that the problem of uneven cold air conveying caused by low air flow at the position of the frame 7 far away from the second pipeline 2016 is avoided.

If the ice cubes are melted, the generated water drops may remain inside the first connecting block 202, in the transportation process, the water drops are vibrated and then spread to the gap between the movable block 207 and the sealing ring 208, the ice formation phenomenon occurs due to the influence of cold air inside the channel 91, the movable block 207 is adhered to the sealing ring 208, so that the opening operation of the movable block 207 is affected, at this time, the size of the airflow path inside the first connecting block 202 is reduced by arranging the limiting piece 2010, after the cold air flows into the first connecting block 202, the water drops flow into the square box body 5 from a narrow path, so that the water drops remained inside the first connecting block 202 are sprayed out, the problem that the opening of the movable block 207 is affected due to the fact that water at the gap between the movable block 207 and the sealing ring 208 is frozen is effectively avoided, meanwhile, the water drops are blocked and limited to the gap between the movable block 207 and the sealing ring 208 through the obliquely arranged stop 2011, and the ice blocks are also used for limiting the ice blocks, so that the opening of the movable block 207 is prevented from being affected due to the fact that the corner position is blocked by the movable block 207.

In the process of boxing, the telescopic cylinder 2012 is started, the telescopic cylinder 2012 pushes the second connecting block 2013 to move, the second connecting block 2013 drives parts on the second connecting block to move, the second pipeline 2016 is far away from the frame 7 and the square box body 5, meanwhile, the fourth pipeline 2018 is far away from the square box body 5, and then the square box body 5 and the parts on the square box body are taken out.

Embodiment 3

On the basis of the embodiment 2, as shown in fig. 1-3 and 10, a taking-out assembly is further included; the heat preservation box body 1 is connected with a take-out assembly; the extraction assembly comprises a third connecting block 301, a pull block 302 and a round rod 303; two third connecting blocks 301 are connected to the heat preservation box body 1 in a sliding manner; a pull block 302 is welded on the upper side of each third connecting block 301; a round rod 303 is welded on each third connecting block 301; a plurality of first round holes 92 are formed in each square box body 5; each round rod 303 is inserted into the corresponding first round hole 92, and the square box body 5 can be taken out conveniently only by pulling the pulling block 302 upwards manually.

The take-out assembly also includes a latch 304; a plurality of bolts 304 are connected to the heat preservation box body 1 in a sliding way, and the bolts 304 are made of alloy materials; the third connecting block 301 is provided with a plurality of second round holes 93; each bolt 304 is inserted into the corresponding second round hole 93, and the square box body 5 is temporarily fixed through the bolts 304, so that convenience is improved.

Four grooves 94 are formed in each square box body 5.

When square box body 5 and the part on it are taken out, the bolt 304 is pulled out from square box body 5 firstly by the manual work, then pulling pull block 302 upward movement, pull block 302 drives third connecting block 301 upward movement, third connecting block 301 drives round bar 303 upward movement, round bar 303 drives square box body 5 of the bottommost, square box body 5 promotes the part motion of its top, until square box body 5 of the topmost stretches out from insulation box body 1, second round hole 93 from top to bottom aligns with bolt 304 on the third connecting block 301 this moment, then insert bolt 304 to in second round hole 93 from top to bottom, fix third connecting block 301, then the manual work stops pulling pull block 302, take out square box body 5 of topmost again, then repeat the operation, take out square box body 5 of remainder in proper order, during the use, the manual work only need pull block 302, can take out square box body 5 from insulation box body 1, simultaneously, carry out the auxiliary fixation to the third connecting block through 304, make the manual work take out box body 5 draw block 302 to the second round hole 93 from top, can improve the convenience in the slot, and take out the convenience in the manual work is further, the convenience is improved, the convenience is taken out in the manual work is easy to the slot.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims (5)

1. An intelligent logistics storage device for seafood products comprises an insulation box body (1); the insulation box body (1) is inserted with an insulation box cover (2); at least four first locks (3) are fixedly connected on the heat-preserving box body (1); at least four second locks (4) are fixedly connected to the heat preservation box cover (2), and the second locks (4) are clamped with the corresponding first locks (3); the heat-insulating box is characterized in that a plurality of square box bodies (5) are arranged on the inner side of the heat-insulating box body (1), and all the square box bodies (5) are vertically stacked; a cover plate (6) is fixedly connected on the heat preservation box cover (2); the cover plate (6) is contacted with the heat preservation box body (1); the inner side of the bottom of the square box body (5) at the lowest part is fixedly connected with a frame (7), and the inner side of the bottom of all the square box bodies (5) at the lowest part and the outer side of the bottom are fixedly connected with another frame (7); the lower side of the cover plate (6) is fixedly connected with another frame (7); blocking and limiting ice cubes through a frame (7);

the utility model also comprises a square frame body (201); the upper side of each square box body (5) is fixedly connected with a square frame body (201); the upper side surface of the square frame body (201) is an inclined surface, and the outer side of the bottom of the square box body (5) is provided with an inclined surface matched with the square frame body; each square frame body (201) is contacted with the heat preservation box body (1); the uppermost square frame body (201) is contacted with the cover plate (6);

the refrigerator also comprises a refrigerating component; the frame (7) is connected with a refrigeration component; the refrigeration assembly comprises a first connecting block (202); each frame (7) is provided with a channel (91); each frame (7) is fixedly connected with a plurality of first connecting blocks (202), and the first connecting blocks (202) are communicated with the corresponding channels (91); a plurality of first cylinders (203) are fixedly connected to each first connecting block (202); a sliding sleeve block (204) is arranged on the inner side of each first connecting block (202), and the sliding sleeve blocks (204) are fixedly connected with the corresponding first cylinders (203); each sliding sleeve block (204) is connected with a sliding rod (205) in a damping sliding manner; each sliding rod (205) is sleeved with a spring (206), one end of the spring (206) is fixedly connected with the corresponding sliding sleeve block (204), and the other end of the spring (206) is fixedly connected with the corresponding sliding rod (205); each sliding rod (205) is fixedly connected with a movable block (207), and the movable block (207) is contacted with the corresponding sliding sleeve block (204); each first connecting block (202) is fixedly connected with a sealing ring (208), and the sealing rings (208) are contacted with the corresponding movable blocks (207); the heat preservation box body (1) is connected with a circulation unit for conveying cold air to the channel (91);

the auxiliary assembly is also included; the first connecting block (202) is connected with an auxiliary component; the auxiliary component comprises a second cylinder (209); a plurality of second cylinders (209) are fixedly connected on each first connecting block (202); a limiting piece (2010) is arranged on the inner side of each first connecting block (202), and the limiting piece (2010) is fixedly connected with a corresponding second cylinder (209); each movable block (207) is in sliding connection with a corresponding limiting piece (2010);

the auxiliary assembly also comprises a stop block (2011); each first connecting block (202) is fixedly connected with a plurality of stop blocks (2011);

the circulation unit comprises a telescopic cylinder (2012); at least four telescopic cylinders (2012) are fixedly connected to the heat preservation box body (1); the telescopic ends of all telescopic cylinders (2012) are fixedly connected with a second connecting block (2013) together; a cold air circulation system (2014) is fixedly connected to the second connecting block (2013); the output end of the cold air circulation system (2014) is communicated with a first pipeline (2015); a plurality of second pipelines (2016) are communicated with the first pipelines (2015), the second pipelines (2016) are in sliding connection with the heat preservation box body (1), the second pipelines (2016) are in sliding connection with the corresponding square box bodies (5), the second pipelines (2016) are in sealing sliding connection with the corresponding frames (7), and the second pipelines (2016) are communicated with the corresponding channels (91); the input end of the cold air circulation system (2014) is communicated with a third pipeline (2017); and a plurality of fourth pipelines (2018) are communicated with the third pipeline (2017), the fourth pipelines (2018) are in sliding connection with the heat preservation box body (1), and the fourth pipelines (2018) are in sliding connection with the corresponding square box bodies (5).

2. The intelligent logistics storage apparatus of claim 1, wherein the first connection block (202) is concave and embedded in the frame (7).

3. The intelligent logistics storage apparatus of claim 1, further comprising a take-out assembly; the heat preservation box body (1) is connected with a take-out assembly; the extraction assembly comprises a third connecting block (301); a plurality of third connecting blocks (301) are connected to the heat preservation box body (1) in a sliding manner; the upper side of each third connecting block (301) is fixedly connected with a pull block (302); each third connecting block (301) is fixedly connected with a round rod (303); each square box body (5) is provided with a plurality of first round holes (92); each round bar (303) is inserted into a corresponding first round hole (92).

4. An intelligent logistics warehouse facility for seafood products as set forth in claim 3, wherein the take-out assembly further comprises a latch (304); a plurality of bolts (304) are connected on the heat preservation box body (1) in a sliding way; a plurality of second round holes (93) are formed in the third connecting block (301); each bolt (304) is inserted into the corresponding second round hole (93).

5. Intelligent logistics storage apparatus for seafood products according to any of claims 1-4, characterized in that at least two grooves (94) are provided on each square box (5).